import React, { Component } from 'react'; import { defineMessages, injectIntl } from 'react-intl'; import { notify } from '/imports/ui/services/notification'; import VisibilityEvent from '/imports/utils/visibilityEvent'; import { fetchWebRTCMappedStunTurnServers } from '/imports/utils/fetchStunTurnServers'; import ReconnectingWebSocket from 'reconnecting-websocket'; import logger from '/imports/startup/client/logger'; import { Session } from 'meteor/session'; import browser from 'browser-detect'; import { tryGenerateIceCandidates } from '../../../utils/safari-webrtc'; import Auth from '/imports/ui/services/auth'; import VideoService from './service'; import VideoList from './video-list/component'; const VIDEO_CONSTRAINTS = Meteor.settings.public.kurento.cameraConstraints; const intlClientErrors = defineMessages({ iceCandidateError: { id: 'app.video.iceCandidateError', description: 'Error message for ice candidate fail', }, chromeExtensionError: { id: 'app.video.chromeExtensionError', description: 'Error message for Chrome Extension not installed', }, chromeExtensionErrorLink: { id: 'app.video.chromeExtensionErrorLink', description: 'Error message for Chrome Extension not installed', }, permissionError: { id: 'app.video.permissionError', description: 'Error message for webcam permission', }, NotFoundError: { id: 'app.video.notFoundError', description: 'error message when can not get webcam video', }, NotAllowedError: { id: 'app.video.notAllowed', description: 'error message when webcam had permission denied', }, NotSupportedError: { id: 'app.video.notSupportedError', description: 'error message when origin do not have ssl valid', }, NotReadableError: { id: 'app.video.notReadableError', description: 'error message When the webcam is being used by other software', }, iceConnectionStateError: { id: 'app.video.iceConnectionStateError', description: 'Error message for ice connection state being failed', }, mediaFlowTimeout: { id: 'app.video.mediaFlowTimeout1020', description: 'Error message when media could not go through the server within the specified period', }, }); const intlSFUErrors = defineMessages({ 2000: { id: 'app.sfu.mediaServerConnectionError2000', description: 'Error message fired when the SFU cannot connect to the media server', }, 2001: { id: 'app.sfu.mediaServerOffline2001', description: 'error message when SFU is offline', }, 2002: { id: 'app.sfu.mediaServerNoResources2002', description: 'Error message fired when the media server lacks disk, CPU or FDs', }, 2003: { id: 'app.sfu.mediaServerRequestTimeout2003', description: 'Error message fired when requests are timing out due to lack of resources', }, 2021: { id: 'app.sfu.serverIceGatheringFailed2021', description: 'Error message fired when the server cannot enact ICE gathering', }, 2022: { id: 'app.sfu.serverIceStateFailed2022', description: 'Error message fired when the server endpoint transitioned to a FAILED ICE state', }, 2200: { id: 'app.sfu.mediaGenericError2200', description: 'Error message fired when the SFU component generated a generic error', }, 2202: { id: 'app.sfu.invalidSdp2202', description: 'Error message fired when the clients provides an invalid SDP', }, 2203: { id: 'app.sfu.noAvailableCodec2203', description: 'Error message fired when the server has no available codec for the client', }, }); const CAMERA_SHARE_FAILED_WAIT_TIME = 15000; const MAX_CAMERA_SHARE_FAILED_WAIT_TIME = 60000; const PING_INTERVAL = 15000; class VideoProvider extends Component { constructor(props) { super(props); this.state = { socketOpen: false, stats: [], }; // Set a valid bbb-webrtc-sfu application server socket in the settings this.ws = new ReconnectingWebSocket(Auth.authenticateURL(Meteor.settings.public.kurento.wsUrl)); this.wsQueue = []; this.visibility = new VisibilityEvent(); this.restartTimeout = {}; this.restartTimer = {}; this.webRtcPeers = {}; this.monitoredTracks = {}; this.videoTags = {}; this.sharedWebcam = false; this.createVideoTag = this.createVideoTag.bind(this); this.getStats = this.getStats.bind(this); this.stopGettingStats = this.stopGettingStats.bind(this); this.onWsOpen = this.onWsOpen.bind(this); this.onWsClose = this.onWsClose.bind(this); this.onWsMessage = this.onWsMessage.bind(this); this.unshareWebcam = this.unshareWebcam.bind(this); this.shareWebcam = this.shareWebcam.bind(this); this.pauseViewers = this.pauseViewers.bind(this); this.unpauseViewers = this.unpauseViewers.bind(this); this.customGetStats = this.customGetStats.bind(this); } componentWillMount() { this.ws.onopen = this.onWsOpen; this.ws.onclose = this.onWsClose; window.addEventListener('online', this.openWs); window.addEventListener('offline', this.onWsClose); } componentDidMount() { this.checkIceConnectivity(); document.addEventListener('joinVideo', this.shareWebcam); // TODO find a better way to do this document.addEventListener('exitVideo', this.unshareWebcam); this.ws.onmessage = this.onWsMessage; window.addEventListener('beforeunload', this.unshareWebcam); this.visibility.onVisible(this.unpauseViewers); this.visibility.onHidden(this.pauseViewers); } componentWillUpdate({ users, userId }) { const usersSharingIds = users.map(u => u.id); const usersConnected = Object.keys(this.webRtcPeers); const usersToConnect = usersSharingIds.filter(id => !usersConnected.includes(id)); const usersToDisconnect = usersConnected.filter(id => !usersSharingIds.includes(id)); usersToConnect.forEach(id => this.createWebRTCPeer(id, userId === id)); usersToDisconnect.forEach(id => this.stopWebRTCPeer(id)); } componentWillUnmount() { document.removeEventListener('joinVideo', this.shareWebcam); document.removeEventListener('exitVideo', this.unshareWebcam); this.ws.onmessage = null; this.ws.onopen = null; this.ws.onclose = null; window.removeEventListener('online', this.openWs); window.removeEventListener('offline', this.onWsClose); window.removeEventListener('beforeunload', this.unshareWebcam); this.visibility.removeEventListeners(); // Unshare user webcam if (this.sharedWebcam) { this.unshareWebcam(); } Object.keys(this.webRtcPeers).forEach((id) => { this.stopGettingStats(id); this.stopWebRTCPeer(id); }); // Close websocket connection to prevent multiple reconnects from happening this.ws.close(); } onWsMessage(msg) { const parsedMessage = JSON.parse(msg.data); if (parsedMessage.id === 'pong') return; this.logger('debug', `Received new message '${parsedMessage.id}'`, { topic: 'ws', message: parsedMessage }); switch (parsedMessage.id) { case 'startResponse': this.startResponse(parsedMessage); break; case 'playStart': this.handlePlayStart(parsedMessage); break; case 'playStop': this.handlePlayStop(parsedMessage); break; case 'iceCandidate': this.handleIceCandidate(parsedMessage); break; case 'pong': break; case 'error': default: this.handleSFUError(parsedMessage); break; } } onWsClose() { const { intl, } = this.props; this.logger('debug', '------ Websocket connection closed.', { topic: 'ws' }); clearInterval(this.pingInterval); if (this.sharedWebcam) { this.unshareWebcam(); } this.setState({ socketOpen: false }); } onWsOpen() { this.logger('debug', '------ Websocket connection opened.', { topic: 'ws' }); // -- Resend queued messages that happened when socket was not connected while (this.wsQueue.length > 0) { this.sendMessage(this.wsQueue.pop()); } this.pingInterval = setInterval(this.ping.bind(this), PING_INTERVAL); this.setState({ socketOpen: true }); } getStats(id, video, callback) { const peer = this.webRtcPeers[id]; const hasLocalStream = peer && peer.started === true && peer.peerConnection.getLocalStreams().length > 0; const hasRemoteStream = peer && peer.started === true && peer.peerConnection.getRemoteStreams().length > 0; if (hasLocalStream) { this.monitorTrackStart(peer.peerConnection, peer.peerConnection.getLocalStreams()[0].getVideoTracks()[0], true, callback); } else if (hasRemoteStream) { this.monitorTrackStart(peer.peerConnection, peer.peerConnection.getRemoteStreams()[0].getVideoTracks()[0], false, callback); } } checkIceConnectivity() { // Webkit ICE restrictions demand a capture device permission to release // host candidates if (browser().name === 'safari') { const { intl } = this.props; tryGenerateIceCandidates().catch((e) => { this.notifyError(intl.formatMessage(intlSFUErrors[2021])); }); } } logger(type, message, options = {}) { const { userId, userName } = this.props; const topic = options.topic || 'video'; logger[type]({ obj: Object.assign(options, { userId, userName, topic }) }, `[${topic}] ${message}`); } _sendPauseStream(id, role, state) { this.sendMessage({ cameraId: id, id: 'pause', type: 'video', role, state, }); } pauseViewers() { const { userId } = this.props; this.logger('debug', 'Calling pause in viewer streams'); Object.keys(this.webRtcPeers).forEach((id) => { if (userId !== id && this.webRtcPeers[id].started) { this._sendPauseStream(id, 'viewer', true); } }); } unpauseViewers() { const { userId } = this.props; this.logger('debug', 'Calling un-pause in viewer streams'); Object.keys(this.webRtcPeers).forEach((id) => { if (id !== userId && this.webRtcPeers[id].started) { this._sendPauseStream(id, 'viewer', false); } }); } ping() { const message = { id: 'ping', }; this.sendMessage(message); } sendMessage(message) { const { ws } = this; if (this.connectedToMediaServer()) { const jsonMessage = JSON.stringify(message); if (message.id !== 'ping') { this.logger('debug', `Sending message '${message.id}'`, { topic: 'ws', message }); } ws.send(jsonMessage, (error) => { if (error) { this.logger(`client: Websocket error '${error}' on message '${message.id}'`, { topic: 'ws' }); } }); } else { // No need to queue video stop messages if (message.id !== 'stop') { this.wsQueue.push(message); } } } connectedToMediaServer() { return this.ws.readyState === WebSocket.OPEN; } startResponse(message) { const id = message.cameraId; const peer = this.webRtcPeers[id]; this.logger('debug', 'SDP answer received from server. Processing ...', { cameraId: id, sdpAnswer: message.sdpAnswer }); if (peer) { peer.processAnswer(message.sdpAnswer, (error) => { if (error) { return this.logger('debug', JSON.stringify(error), { cameraId: id }); } peer.didSDPAnswered = true; this._processIceQueue(peer, id); }); } else { this.logger('warn', '[startResponse] Message arrived after the peer was already thrown out, discarding it...'); } } handleIceCandidate(message) { const webRtcPeer = this.webRtcPeers[message.cameraId]; this.logger('debug', 'Received remote ice candidate', { topic: 'ice', candidate: message.candidate }); if (webRtcPeer) { if (webRtcPeer.didSDPAnswered) { webRtcPeer.addIceCandidate(message.candidate, (err) => { if (err) { return this.logger('error', `Error adding candidate: ${err}`, { cameraId: message.cameraId }); } }); } else { if (webRtcPeer.iceQueue == null) { webRtcPeer.iceQueue = []; } webRtcPeer.iceQueue.push(message.candidate); } } else { this.logger('warn', ' [iceCandidate] Message arrived after the peer was already thrown out, discarding it...', { cameraId: message.cameraId }); } } stopWebRTCPeer(id, restarting = false) { this.logger('info', 'Stopping webcam', { cameraId: id }); const { userId } = this.props; const shareWebcam = id === userId; // in this case, 'closed' state is not caused by an error; // we stop listening to prevent this from being treated as an error if (this.webRtcPeers[id] && this.webRtcPeers[id].peerConnection) { this.webRtcPeers[id].peerConnection.oniceconnectionstatechange = null; } if (shareWebcam) { this.unshareWebcam(); } this.sendMessage({ type: 'video', role: shareWebcam ? 'share' : 'viewer', id: 'stop', cameraId: id, }); // Clear the shared camera media flow timeout when destroying it if (!restarting) { if (this.restartTimeout[id]) { clearTimeout(this.restartTimeout[id]); } if (this.restartTimer[id]) { delete this.restartTimer[id]; } } this.destroyWebRTCPeer(id); } destroyWebRTCPeer(id) { const webRtcPeer = this.webRtcPeers[id]; if (webRtcPeer) { this.logger('info', 'Stopping WebRTC peer', { cameraId: id }); if (typeof webRtcPeer.dispose === 'function') { webRtcPeer.dispose(); } delete this.webRtcPeers[id]; } else { this.logger('warn', 'No WebRTC peer to stop (not an error)', { cameraId: id }); } } async createWebRTCPeer(id, shareWebcam) { const { meetingId, sessionToken, voiceBridge } = this.props; let iceServers = []; // Check if the peer is already being processed if (this.webRtcPeers[id]) { return; } this.webRtcPeers[id] = {}; try { iceServers = await fetchWebRTCMappedStunTurnServers(sessionToken); } catch (error) { this.logger('error', 'Video provider failed to fetch ice servers, using default'); } finally { if (Session.get('WebcamDeviceId')) { VIDEO_CONSTRAINTS.deviceId = { exact: Session.get('WebcamDeviceId') }; } const options = { mediaConstraints: { audio: false, video: VIDEO_CONSTRAINTS, }, onicecandidate: this._getOnIceCandidateCallback(id, shareWebcam), }; if (iceServers.length > 0) { options.configuration = {}; options.configuration.iceServers = iceServers; } let WebRtcPeerObj; if (shareWebcam) { WebRtcPeerObj = window.kurentoUtils.WebRtcPeer.WebRtcPeerSendonly; this.shareWebcam(); } else { WebRtcPeerObj = window.kurentoUtils.WebRtcPeer.WebRtcPeerRecvonly; } this.webRtcPeers[id] = new WebRtcPeerObj(options, (error) => { const peer = this.webRtcPeers[id]; peer.started = false; peer.attached = false; peer.didSDPAnswered = false; if (peer.iceQueue == null) { peer.iceQueue = []; } if (error) { return this._webRTCOnError(error, id, shareWebcam); } peer.generateOffer((errorGenOffer, offerSdp) => { if (errorGenOffer) { return this._webRTCOnError(errorGenOffer, id, shareWebcam); } this.logger('debug', `Invoking SDP offer callback function ${location.host}`, { cameraId: id, offerSdp }); const message = { type: 'video', role: shareWebcam ? 'share' : 'viewer', id: 'start', sdpOffer: offerSdp, cameraId: id, meetingId, voiceBridge, }; this.sendMessage(message); }); }); if (this.webRtcPeers[id].peerConnection) { this.webRtcPeers[id].peerConnection.oniceconnectionstatechange = this._getOnIceConnectionStateChangeCallback(id); } } } _getWebRTCStartTimeout(id, shareWebcam) { const { intl, userId } = this.props; return () => { this.logger('error', `Camera share has not suceeded in ${CAMERA_SHARE_FAILED_WAIT_TIME}`, { cameraId: id }); if (userId === id) { this.notifyError(intl.formatMessage(intlClientErrors.mediaFlowTimeout)); this.stopWebRTCPeer(id, false); } else { // Subscribers try to reconnect according to their timers if media could // not reach the server. That's why we pass the restarting flag as true // to the stop procedure as to not destroy the timers this.stopWebRTCPeer(id, true); this.createWebRTCPeer(id, shareWebcam); // Increment reconnect interval this.restartTimer[id] = Math.min(2 * this.restartTimer[id], MAX_CAMERA_SHARE_FAILED_WAIT_TIME); this.logger('info', `Reconnecting peer ${id} with timer`, this.restartTimer); } }; } _processIceQueue(peer, cameraId) { const { intl } = this.props; while (peer.iceQueue.length) { const candidate = peer.iceQueue.shift(); peer.addIceCandidate(candidate, (err) => { if (err) { this.notifyError(intl.formatMessage(intlClientErrors.iceCandidateError)); return this.logger('error', `Error adding candidate: ${err}`, { cameraId }); } }); } } _webRTCOnError(error, id) { const { intl, userId } = this.props; // We only display SFU connection errors to sharers, because it's guaranteed // they should be connected. Viewers aren't connected synchronously related // to the createWebRTCPeer procedure, so the error is ignored. If the connection // closes unexpectedly, this error is deplayed globally in the onWsClose catch if (error === 2001 && userId !== id) { return; } this.logger('error', ' WebRTC peerObj create error', id); const errorMessage = intlClientErrors[error.name] || intlSFUErrors[error] || intlClientErrors.permissionError; this.notifyError(intl.formatMessage(errorMessage)); this.stopWebRTCPeer(id); return this.logger('error', errorMessage, { cameraId: id }); } _getOnIceCandidateCallback(id, shareWebcam) { const peer = this.webRtcPeers[id]; return (candidate) => { // Setup a timeout only when ice first is generated if (!this.restartTimeout[id]) { this.restartTimer[id] = this.restartTimer[id] || CAMERA_SHARE_FAILED_WAIT_TIME; this.logger('debug', `Setting a camera connection restart in ${this.restartTimer[id]}`, { cameraId: id }); this.restartTimeout[id] = setTimeout(this._getWebRTCStartTimeout(id, shareWebcam, peer), this.restartTimer[id]); } this.logger('debug', 'Generated local ice candidate', { topic: 'ice', candidate }); const message = { type: 'video', role: shareWebcam ? 'share' : 'viewer', id: 'onIceCandidate', candidate, cameraId: id, }; this.sendMessage(message); }; } _getOnIceConnectionStateChangeCallback(id) { const { intl } = this.props; const peer = this.webRtcPeers[id]; return () => { const connectionState = peer.peerConnection.iceConnectionState; if (connectionState === 'failed' || connectionState === 'closed') { // prevent the same error from being detected multiple times peer.peerConnection.oniceconnectionstatechange = null; this.logger('error', 'ICE connection state', id); this.stopWebRTCPeer(id); this.notifyError(intl.formatMessage(intlClientErrors.iceConnectionStateError)); } }; } attachVideoStream(id) { const { userId } = this.props; const video = this.videoTags[id]; if (video == null) { this.logger('warn', 'Peer', id, 'has not been started yet'); return; } if (video.srcObject) { delete this.videoTags[id]; return; // Skip if the stream is already attached } const isCurrent = id === userId; const peer = this.webRtcPeers[id]; const attachVideoStreamHelper = () => { const stream = isCurrent ? peer.getLocalStream() : peer.getRemoteStream(); video.pause(); video.srcObject = stream; video.load(); peer.attached = true; delete this.videoTags[id]; }; // If peer has started playing attach to tag, otherwise wait a while if (peer) { if (peer.started) { attachVideoStreamHelper(); } // So we can start it later when we get a playStart // or if we need to do a restart timeout peer.videoTag = video; } } createVideoTag(id, video) { const peer = this.webRtcPeers[id]; this.videoTags[id] = video; if (peer) { this.attachVideoStream(id); } } customGetStats(peer, mediaStreamTrack, callback) { const { stats } = this.state; const statsState = stats; let promise; try { promise = peer.getStats(mediaStreamTrack); } catch (e) { promise = Promise.reject(e); } promise.then((results) => { let videoInOrOutbound = {}; results.forEach((res) => { if (res.type === 'ssrc' || res.type === 'inbound-rtp' || res.type === 'outbound-rtp') { res.packetsSent = parseInt(res.packetsSent, 10); res.packetsLost = parseInt(res.packetsLost, 10) || 0; res.packetsReceived = parseInt(res.packetsReceived, 10); if ((isNaN(res.packetsSent) && res.packetsReceived === 0) || (res.type === 'outbound-rtp' && res.isRemote)) { return; // Discard local video receiving } if (res.googFrameWidthReceived) { res.width = parseInt(res.googFrameWidthReceived, 10); res.height = parseInt(res.googFrameHeightReceived, 10); } else if (res.googFrameWidthSent) { res.width = parseInt(res.googFrameWidthSent, 10); res.height = parseInt(res.googFrameHeightSent, 10); } // Extra fields available on Chrome if (res.googCodecName) res.codec = res.googCodecName; if (res.googDecodeMs) res.decodeDelay = res.googDecodeMs; if (res.googEncodeUsagePercent) res.encodeUsagePercent = res.googEncodeUsagePercent; if (res.googRtt) res.rtt = res.googRtt; if (res.googCurrentDelayMs) res.currentDelay = res.googCurrentDelayMs; videoInOrOutbound = res; } }); const videoStats = { timestamp: videoInOrOutbound.timestamp, bytesReceived: videoInOrOutbound.bytesReceived, bytesSent: videoInOrOutbound.bytesSent, packetsReceived: videoInOrOutbound.packetsReceived, packetsLost: videoInOrOutbound.packetsLost, packetsSent: videoInOrOutbound.packetsSent, decodeDelay: videoInOrOutbound.decodeDelay, codec: videoInOrOutbound.codec, height: videoInOrOutbound.height, width: videoInOrOutbound.width, encodeUsagePercent: videoInOrOutbound.encodeUsagePercent, rtt: videoInOrOutbound.rtt, currentDelay: videoInOrOutbound.currentDelay, }; const videoStatsArray = statsState; videoStatsArray.push(videoStats); while (videoStatsArray.length > 5) { // maximum interval to consider videoStatsArray.shift(); } this.setState({ stats: videoStatsArray }); const firstVideoStats = videoStatsArray[0]; const lastVideoStats = videoStatsArray[videoStatsArray.length - 1]; const videoIntervalPacketsLost = lastVideoStats.packetsLost - firstVideoStats.packetsLost; const videoIntervalPacketsReceived = lastVideoStats.packetsReceived - firstVideoStats.packetsReceived; const videoIntervalPacketsSent = lastVideoStats.packetsSent - firstVideoStats.packetsSent; const videoIntervalBytesReceived = lastVideoStats.bytesReceived - firstVideoStats.bytesReceived; const videoIntervalBytesSent = lastVideoStats.bytesSent - firstVideoStats.bytesSent; const videoReceivedInterval = lastVideoStats.timestamp - firstVideoStats.timestamp; const videoSentInterval = lastVideoStats.timestamp - firstVideoStats.timestamp; const videoKbitsReceivedPerSecond = (videoIntervalBytesReceived * 8) / videoReceivedInterval; const videoKbitsSentPerSecond = (videoIntervalBytesSent * 8) / videoSentInterval; let videoLostPercentage; let videoLostRecentPercentage; let videoBitrate; if (videoStats.packetsReceived > 0) { // Remote video videoLostPercentage = ((videoStats.packetsLost / ((videoStats.packetsLost + videoStats.packetsReceived) * 100)) || 0).toFixed(1); videoBitrate = Math.floor(videoKbitsReceivedPerSecond || 0); videoLostRecentPercentage = ((videoIntervalPacketsLost / ((videoIntervalPacketsLost + videoIntervalPacketsReceived) * 100)) || 0).toFixed(1); } else { videoLostPercentage = (((videoStats.packetsLost / (videoStats.packetsLost + videoStats.packetsSent)) * 100) || 0).toFixed(1); videoBitrate = Math.floor(videoKbitsSentPerSecond || 0); videoLostRecentPercentage = ((videoIntervalPacketsLost / ((videoIntervalPacketsLost + videoIntervalPacketsSent) * 100)) || 0).toFixed(1); } const result = { video: { bytesReceived: videoStats.bytesReceived, bytesSent: videoStats.bytesSent, packetsLost: videoStats.packetsLost, packetsReceived: videoStats.packetsReceived, packetsSent: videoStats.packetsSent, bitrate: videoBitrate, lostPercentage: videoLostPercentage, lostRecentPercentage: videoLostRecentPercentage, height: videoStats.height, width: videoStats.width, codec: videoStats.codec, decodeDelay: videoStats.decodeDelay, encodeUsagePercent: videoStats.encodeUsagePercent, rtt: videoStats.rtt, currentDelay: videoStats.currentDelay, }, }; callback(result); }, (exception) => { this.logger('error', `customGetStats() Promise rejected: ${exception.message}`); callback(null); }); } monitorTrackStart(peer, track, local, callback) { const that = this; this.logger('info', 'Starting stats monitoring on', { cameraId: track.id }); const getStatsInterval = 2000; const callGetStats = () => { that.customGetStats( peer, track, (results) => { if (results == null || peer.signalingState === 'closed') { that.monitorTrackStop(track.id); } else { callback(results); } }, getStatsInterval, ); }; if (!this.monitoredTracks[track.id]) { callGetStats(); this.monitoredTracks[track.id] = setInterval( callGetStats, getStatsInterval, ); } else { this.logger('info', 'Already monitoring this track'); } } monitorTrackStop(trackId) { if (this.monitoredTracks[trackId]) { clearInterval(this.monitoredTracks[trackId]); delete this.monitoredTracks[trackId]; this.logger('info', `Track ${trackId} removed`); } else { this.logger('info', `Track ${trackId} is not monitored`); } } stopGettingStats(id) { const peer = this.webRtcPeers[id]; const hasLocalStream = peer && peer.started === true && peer.peerConnection.getLocalStreams().length > 0; const hasRemoteStream = peer && peer.started === true && peer.peerConnection.getRemoteStreams().length > 0; if (hasLocalStream) { this.monitorTrackStop(peer.peerConnection.getLocalStreams()[0].getVideoTracks()[0].id); } else if (hasRemoteStream) { this.monitorTrackStop(peer.peerConnection.getRemoteStreams()[0].getVideoTracks()[0].id); } } handlePlayStop(message) { const { cameraId } = message; this.logger('info', 'Handle play stop for camera', { cameraId }); this.stopWebRTCPeer(cameraId); } handlePlayStart(message) { const id = message.cameraId; const peer = this.webRtcPeers[id]; if (peer) { const { userId } = this.props; this.logger('info', 'Handle play start for camera', { cameraId: id }); // Clear camera shared timeout when camera succesfully starts clearTimeout(this.restartTimeout[id]); delete this.restartTimeout[id]; delete this.restartTimer[id]; peer.started = true; if (!peer.attached) { this.attachVideoStream(id); } if (id === userId) { VideoService.sendUserShareWebcam(id); VideoService.joinedVideo(); } } else { this.logger('warn', '[playStart] Message arrived after the peer was already thrown out, discarding it...'); } } handleSFUError(message) { const { intl } = this.props; const { userId } = this.props; const { code, reason } = message; this.logger('debug', 'Received error from SFU:', code, reason, message.streamId, userId); if (message.streamId === userId) { this.unshareWebcam(); this.notifyError(intl.formatMessage(intlSFUErrors[code] || intlSFUErrors[2200])); } else { this.stopWebRTCPeer(message.cameraId); } this.logger('error', `Handle error ---------------------> ${message.message}`); } notifyError(message) { notify(message, 'error', 'video'); } shareWebcam() { if (this.connectedToMediaServer()) { this.logger('info', 'Sharing webcam'); this.sharedWebcam = true; VideoService.joiningVideo(); } } unshareWebcam() { const { userId } = this.props; this.logger('info', 'Unsharing webcam'); VideoService.sendUserUnshareWebcam(userId); VideoService.exitedVideo(); this.sharedWebcam = false; } render() { const { socketOpen } = this.state; if (!socketOpen) return null; const { users, enableVideoStats } = this.props; return ( ); } } export default injectIntl(VideoProvider);