import BaseAudioBridge from './base'; import logger from '/imports/startup/client/logger'; import { fetchWebRTCMappedStunTurnServers, getMappedFallbackStun, } from '/imports/utils/fetchStunTurnServers'; import { isUnifiedPlan, toUnifiedPlan, toPlanB, stripMDnsCandidates, filterValidIceCandidates, analyzeSdp, logSelectedCandidate, } from '/imports/utils/sdpUtils'; import { Tracker } from 'meteor/tracker'; import VoiceCallStates from '/imports/api/voice-call-states'; import CallStateOptions from '/imports/api/voice-call-states/utils/callStates'; import Auth from '/imports/ui/services/auth'; import browserInfo from '/imports/utils/browserInfo'; import { getCurrentAudioSessionNumber, getAudioSessionNumber, getAudioConstraints, filterSupportedConstraints, doGUM, } from '/imports/api/audio/client/bridge/service'; const MEDIA = Meteor.settings.public.media; const MEDIA_TAG = MEDIA.mediaTag; const CALL_HANGUP_TIMEOUT = MEDIA.callHangupTimeout; const CALL_HANGUP_MAX_RETRIES = MEDIA.callHangupMaximumRetries; const SIPJS_HACK_VIA_WS = MEDIA.sipjsHackViaWs; const SIPJS_ALLOW_MDNS = MEDIA.sipjsAllowMdns || false; const IPV4_FALLBACK_DOMAIN = Meteor.settings.public.app.ipv4FallbackDomain; const CALL_CONNECT_TIMEOUT = 20000; const ICE_NEGOTIATION_TIMEOUT = 20000; const USER_AGENT_RECONNECTION_ATTEMPTS = MEDIA.audioReconnectionAttempts || 3; const USER_AGENT_RECONNECTION_DELAY_MS = MEDIA.audioReconnectionDelay || 5000; const USER_AGENT_CONNECTION_TIMEOUT_MS = MEDIA.audioConnectionTimeout || 5000; const ICE_GATHERING_TIMEOUT = MEDIA.iceGatheringTimeout || 5000; const BRIDGE_NAME = 'sip'; const WEBSOCKET_KEEP_ALIVE_INTERVAL = MEDIA.websocketKeepAliveInterval || 0; const WEBSOCKET_KEEP_ALIVE_DEBOUNCE = MEDIA.websocketKeepAliveDebounce || 10; const TRACE_SIP = MEDIA.traceSip || false; const SDP_SEMANTICS = MEDIA.sdpSemantics; const FORCE_RELAY = MEDIA.forceRelay; const UA_SERVER_VERSION = Meteor.settings.public.app.bbbServerVersion; const UA_CLIENT_VERSION = Meteor.settings.public.app.html5ClientBuild; /** * Get error code from SIP.js websocket messages. */ const getErrorCode = (error) => { try { if (!error) return error; const match = error.message.match(/code: \d+/g); const _codeArray = match[0].split(':'); return parseInt(_codeArray[1].trim(), 10); } catch (e) { return 0; } }; class SIPSession { constructor(user, userData, protocol, hostname, baseCallStates, baseErrorCodes, reconnectAttempt) { this.user = user; this.userData = userData; this.protocol = protocol; this.hostname = hostname; this.baseCallStates = baseCallStates; this.baseErrorCodes = baseErrorCodes; this.reconnectAttempt = reconnectAttempt; this.currentSession = null; this.remoteStream = null; this.bridgeName = BRIDGE_NAME; this._inputDeviceId = null; this._outputDeviceId = null; this._hangupFlag = false; this._reconnecting = false; this._currentSessionState = null; this._ignoreCallState = false; this.mediaStreamFactory = this.mediaStreamFactory.bind(this) } get inputStream() { if (this.currentSession && this.currentSession.sessionDescriptionHandler) { return this.currentSession.sessionDescriptionHandler.localMediaStream; } return null; } /** * Set the input stream for the peer that represents the current session. * Internally, this will call the sender's replaceTrack function. * @param {MediaStream} stream The MediaStream object to be used as input * stream * @return {Promise} A Promise that is resolved with the * MediaStream object that was set. */ setInputStream(stream) { if (!this.currentSession?.sessionDescriptionHandler) return null; return this.currentSession.sessionDescriptionHandler.setLocalMediaStream(stream); } get inputDeviceId() { if (!this._inputDeviceId) { const stream = this.inputStream; if (stream) { const track = stream.getAudioTracks().find( (t) => t.getSettings().deviceId, ); if (track && (typeof track.getSettings === 'function')) { const { deviceId } = track.getSettings(); this._inputDeviceId = deviceId; } } } return this._inputDeviceId; } set inputDeviceId(deviceId) { this._inputDeviceId = deviceId; } get outputDeviceId() { if (!this._outputDeviceId) { const audioElement = document.querySelector(MEDIA_TAG); if (audioElement) { this._outputDeviceId = audioElement.sinkId; } } return this._outputDeviceId; } set outputDeviceId(deviceId) { this._outputDeviceId = deviceId; } /** * This _ignoreCallState flag is set to true when we want to ignore SIP's * call state retrieved directly from FreeSWITCH ESL, when doing some checks * (for example , when checking if call stopped). * We need to ignore this , for example, when moderator is in * breakout audio transfer ("Join Audio" button in breakout panel): in this * case , we will monitor moderator's lifecycle in audio conference by * using the SIP state taken from SIP.js only (ignoring the ESL's call state). * @param {boolean} value true to ignore call state, false otherwise. */ set ignoreCallState(value) { this._ignoreCallState = value; } get ignoreCallState() { return this._ignoreCallState; } joinAudio({ isListenOnly, extension, inputDeviceId, outputDeviceId, validIceCandidates, inputStream, }, managerCallback) { return new Promise((resolve, reject) => { const callExtension = extension ? `${extension}${this.userData.voiceBridge}` : this.userData.voiceBridge; this.ignoreCallState = false; const callback = (message) => { // There will sometimes we erroneous errors put out like timeouts and improper shutdowns, // but only the first error ever matters if (this.alreadyErrored) { logger.info({ logCode: 'sip_js_absorbing_callback_message', extraInfo: { message }, }, 'Absorbing a redundant callback message.'); return; } if (message.status === this.baseCallStates.failed) { this.alreadyErrored = true; } managerCallback(message).then(resolve); }; this.callback = callback; // If there's an extension passed it means that we're joining the echo test first this.inEchoTest = !!extension; this.validIceCandidates = validIceCandidates; return this.doCall({ callExtension, isListenOnly, inputDeviceId, outputDeviceId, inputStream, }).catch((reason) => { reject(reason); }); }); } async getIceServers(sessionToken) { try { const iceServers = await fetchWebRTCMappedStunTurnServers(sessionToken); return iceServers; } catch (error) { logger.error({ logCode: 'sip_js_fetchstunturninfo_error', extraInfo: { errorCode: error.code, errorMessage: error.message, callerIdName: this.user.callerIdName, }, }, 'Full audio bridge failed to fetch STUN/TURN info'); return getMappedFallbackStun(); } } doCall(options) { const { isListenOnly, inputDeviceId, outputDeviceId, inputStream, } = options; this.inputDeviceId = inputDeviceId; this.outputDeviceId = outputDeviceId; // If a valid MediaStream was provided it means it was preloaded somewhere // else - let's use it so we don't call gUM needlessly if (inputStream && inputStream.active) this.preloadedInputStream = inputStream; const { userId, name, sessionToken, } = this.user; const callerIdName = [ `${userId}_${getAudioSessionNumber()}`, 'bbbID', isListenOnly ? `LISTENONLY-${name}` : name, ].join('-').replace(/"/g, "'"); this.user.callerIdName = callerIdName; this.callOptions = options; return this.getIceServers(sessionToken) .then(this.createUserAgent.bind(this)) .then(this.inviteUserAgent.bind(this)); } /** * * sessionSupportRTPPayloadDtmf * tells if browser support RFC4733 DTMF. * Safari 13 doens't support it yet */ sessionSupportRTPPayloadDtmf(session) { try { const sessionDescriptionHandler = session ? session.sessionDescriptionHandler : this.currentSession.sessionDescriptionHandler; const senders = sessionDescriptionHandler.peerConnection.getSenders(); return !!(senders[0].dtmf); } catch (error) { return false; } } /** * sendDtmf - send DTMF Tones using INFO message * * same as SimpleUser's dtmf */ sendDtmf(tone) { const dtmf = tone; const duration = 2000; const body = { contentDisposition: 'render', contentType: 'application/dtmf-relay', content: `Signal=${dtmf}\r\nDuration=${duration}`, }; const requestOptions = { body }; return this.currentSession.info({ requestOptions }); } exitAudio() { return new Promise((resolve, reject) => { let hangupRetries = 0; this._hangupFlag = false; this.userRequestedHangup = true; const tryHangup = () => { if (this._hangupFlag) { resolve(); } if ((this.currentSession && (this.currentSession.state === SIP.SessionState.Terminated)) || (this.userAgent && (!this.userAgent.isConnected()))) { this._hangupFlag = true; return resolve(); } if (this.currentSession && ((this.currentSession.state === SIP.SessionState.Establishing))) { this.currentSession.cancel().then(() => { this._hangupFlag = true; return resolve(); }); } if (this.currentSession && ((this.currentSession.state === SIP.SessionState.Established))) { this.currentSession.bye().then(() => { this._hangupFlag = true; return resolve(); }); } if (this.userAgent && this.userAgent.isConnected()) { this.userAgent.stop(); window.removeEventListener('beforeunload', this.onBeforeUnload); } hangupRetries += 1; setTimeout(() => { if (hangupRetries > CALL_HANGUP_MAX_RETRIES) { this.callback({ status: this.baseCallStates.failed, error: 1006, bridgeError: 'Timeout on call hangup', bridge: this.bridgeName, }); return reject(this.baseErrorCodes.REQUEST_TIMEOUT); } if (!this._hangupFlag) return tryHangup(); return resolve(); }, CALL_HANGUP_TIMEOUT); }; return tryHangup(); }); } stopUserAgent() { if (this.userAgent && (typeof this.userAgent.stop === 'function')) { return this.userAgent.stop(); } return Promise.resolve(); } onBeforeUnload() { this.userRequestedHangup = true; return this.stopUserAgent(); } mediaStreamFactory(constraints) { if (this.preloadedInputStream && this.preloadedInputStream.active) { return Promise.resolve(this.preloadedInputStream); } // The rest of this mimicks the default factory behavior. if (!constraints.audio && !constraints.video) { return Promise.resolve(new MediaStream()); } return doGUM(constraints, true); } createUserAgent(iceServers) { return new Promise((resolve, reject) => { if (this.userRequestedHangup === true) reject(); const { hostname, protocol, } = this; const { callerIdName, sessionToken, } = this.user; logger.debug({ logCode: 'sip_js_creating_user_agent', extraInfo: { callerIdName } }, 'Creating the user agent'); if (this.userAgent && this.userAgent.isConnected()) { if (this.userAgent.configuration.hostPortParams === this.hostname) { logger.debug({ logCode: 'sip_js_reusing_user_agent', extraInfo: { callerIdName } }, 'Reusing the user agent'); resolve(this.userAgent); return; } logger.debug({ logCode: 'sip_js_different_host_name', extraInfo: { callerIdName } }, 'Different host name. need to kill'); } const localSdpCallback = (sdp) => { // For now we just need to call the utils function to parse and log the different pieces. // In the future we're going to want to be tracking whether there were TURN candidates // and IPv4 candidates to make informed decisions about what to do on fallbacks/reconnects. analyzeSdp(sdp); }; const remoteSdpCallback = (sdp) => { // We have have to find the candidate that FS sends back to us to determine if the client // is connecting with IPv4 or IPv6 const sdpInfo = analyzeSdp(sdp, false); this.protocolIsIpv6 = sdpInfo.v6Info.found; }; let userAgentConnected = false; const token = `sessionToken=${sessionToken}`; // Create session description handler factory const customSDHFactory = SIP.Web.defaultSessionDescriptionHandlerFactory(this.mediaStreamFactory); this.userAgent = new SIP.UserAgent({ uri: SIP.UserAgent.makeURI(`sip:${encodeURIComponent(callerIdName)}@${hostname}`), transportOptions: { server: `${(protocol === 'https:' ? 'wss://' : 'ws://')}${hostname}/ws?${token}`, connectionTimeout: USER_AGENT_CONNECTION_TIMEOUT_MS, keepAliveInterval: WEBSOCKET_KEEP_ALIVE_INTERVAL, keepAliveDebounce: WEBSOCKET_KEEP_ALIVE_DEBOUNCE, traceSip: TRACE_SIP, }, sessionDescriptionHandlerFactory: customSDHFactory, sessionDescriptionHandlerFactoryOptions: { peerConnectionConfiguration: { iceServers, sdpSemantics: SDP_SEMANTICS, iceTransportPolicy: FORCE_RELAY ? 'relay' : undefined, }, }, displayName: callerIdName, register: false, userAgentString: `BigBlueButton/${UA_SERVER_VERSION} (HTML5, rv:${UA_CLIENT_VERSION}) ${window.navigator.userAgent}`, hackViaWs: SIPJS_HACK_VIA_WS, }); const handleUserAgentConnection = () => { if (!userAgentConnected) { userAgentConnected = true; resolve(this.userAgent); } }; const handleUserAgentDisconnection = () => { if (this.userAgent) { if (this.userRequestedHangup) { userAgentConnected = false; return; } let error; let bridgeError; if (!this._reconnecting) { logger.info({ logCode: 'sip_js_session_ua_disconnected', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'User agent disconnected: trying to reconnect...' + ` (userHangup = ${!!this.userRequestedHangup})`); logger.info({ logCode: 'sip_js_session_ua_reconnecting', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'User agent disconnected, reconnecting'); this.reconnect().then(() => { logger.info({ logCode: 'sip_js_session_ua_reconnected', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'User agent succesfully reconnected'); }).catch(() => { if (userAgentConnected) { error = 1001; bridgeError = 'Websocket disconnected'; } else { error = 1002; bridgeError = 'Websocket failed to connect'; } this.stopUserAgent(); this.callback({ status: this.baseCallStates.failed, error, bridgeError, bridge: this.bridgeName, }); reject(this.baseErrorCodes.CONNECTION_ERROR); }); } } }; this.userAgent.transport.onConnect = handleUserAgentConnection; this.userAgent.transport.onDisconnect = handleUserAgentDisconnection; const preturn = this.userAgent.start().then(() => { logger.info({ logCode: 'sip_js_session_ua_connected', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'User agent succesfully connected'); window.addEventListener('beforeunload', this.onBeforeUnload.bind(this)); resolve(); }).catch((error) => { logger.info({ logCode: 'sip_js_session_ua_reconnecting', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'User agent failed to connect, reconnecting'); const code = getErrorCode(error); // Websocket's 1006 is currently mapped to BBB's 1002 if (code === 1006) { this.stopUserAgent(); this.callback({ status: this.baseCallStates.failed, error: 1002, bridgeError: 'Websocket failed to connect', bridge: this.bridgeName, }); return reject({ type: this.baseErrorCodes.CONNECTION_ERROR, }); } this.reconnect().then(() => { logger.info({ logCode: 'sip_js_session_ua_reconnected', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'User agent succesfully reconnected'); resolve(); }).catch(() => { this.stopUserAgent(); logger.info({ logCode: 'sip_js_session_ua_disconnected', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'User agent failed to reconnect after' + ` ${USER_AGENT_RECONNECTION_ATTEMPTS} attemps`); this.callback({ status: this.baseCallStates.failed, error: 1002, bridgeError: 'Websocket failed to connect', bridge: this.bridgeName, }); reject({ type: this.baseErrorCodes.CONNECTION_ERROR, }); }); }); return preturn; }); } reconnect(attempts = 1) { return new Promise((resolve, reject) => { if (this._reconnecting) { return resolve(); } if (attempts > USER_AGENT_RECONNECTION_ATTEMPTS) { return reject({ type: this.baseErrorCodes.CONNECTION_ERROR, }); } this._reconnecting = true; logger.info({ logCode: 'sip_js_session_ua_reconnection_attempt', extraInfo: { callerIdName: this.user.callerIdName, }, }, `User agent reconnection attempt ${attempts}`); this.userAgent.reconnect().then(() => { this._reconnecting = false; resolve(); }).catch(() => { setTimeout(() => { this._reconnecting = false; this.reconnect(++attempts).then(() => { resolve(); }).catch((error) => { reject(error); }); }, USER_AGENT_RECONNECTION_DELAY_MS); }); }); } isValidIceCandidate(event) { return event.candidate && this.validIceCandidates && this.validIceCandidates.find((validCandidate) => ( (validCandidate.address === event.candidate.address) || (validCandidate.relatedAddress === event.candidate.address)) && (validCandidate.protocol === event.candidate.protocol)); } onIceGatheringStateChange(event) { const iceGatheringState = event.target ? event.target.iceGatheringState : null; if ((iceGatheringState === 'gathering') && (!this._iceGatheringStartTime)) { this._iceGatheringStartTime = new Date(); } if (iceGatheringState === 'complete') { const secondsToGatherIce = (new Date() - (this._iceGatheringStartTime || this._sessionStartTime)) / 1000; logger.info({ logCode: 'sip_js_ice_gathering_time', extraInfo: { callerIdName: this.user.callerIdName, secondsToGatherIce, }, }, `ICE gathering candidates took (s): ${secondsToGatherIce}`); } } onIceCandidate(sessionDescriptionHandler, event) { if (this.isValidIceCandidate(event)) { logger.info({ logCode: 'sip_js_found_valid_candidate_from_trickle_ice', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'Found a valid candidate from trickle ICE, finishing gathering'); if (sessionDescriptionHandler.iceGatheringCompleteResolve) { sessionDescriptionHandler.iceGatheringCompleteResolve(); } } } initSessionDescriptionHandler(sessionDescriptionHandler) { /* eslint-disable no-param-reassign */ sessionDescriptionHandler.peerConnectionDelegate = { onicecandidate: this.onIceCandidate.bind(this, sessionDescriptionHandler), onicegatheringstatechange: this.onIceGatheringStateChange.bind(this), }; /* eslint-enable no-param-reassign */ } inviteUserAgent(userAgent) { return new Promise((resolve, reject) => { if (this.userRequestedHangup === true) reject(); const { hostname, } = this; const { callExtension, isListenOnly, } = this.callOptions; this._sessionStartTime = new Date(); const target = SIP.UserAgent.makeURI(`sip:${callExtension}@${hostname}`); const matchConstraints = getAudioConstraints({ deviceId: this.inputDeviceId }); const iceModifiers = [ filterValidIceCandidates.bind(this, this.validIceCandidates), ]; if (!SIPJS_ALLOW_MDNS) iceModifiers.push(stripMDnsCandidates); const inviterOptions = { sessionDescriptionHandlerOptions: { constraints: { audio: isListenOnly ? false : matchConstraints, video: false, }, iceGatheringTimeout: ICE_GATHERING_TIMEOUT, }, sessionDescriptionHandlerModifiersPostICEGathering: iceModifiers, delegate: { onSessionDescriptionHandler: this.initSessionDescriptionHandler.bind(this), }, }; if (isListenOnly) { inviterOptions.sessionDescriptionHandlerOptions.offerOptions = { offerToReceiveAudio: true, }; } const inviter = new SIP.Inviter(userAgent, target, inviterOptions); this.currentSession = inviter; this.setupEventHandlers(inviter).then(() => { inviter.invite().then(() => { resolve(); }).catch(e => reject(e)); }); }); } setupEventHandlers(currentSession) { return new Promise((resolve, reject) => { if (this.userRequestedHangup === true) reject(); let iceCompleted = false; let fsReady = false; let sessionTerminated = false; const setupRemoteMedia = () => { const mediaElement = document.querySelector(MEDIA_TAG); const { sdp } = this.currentSession.sessionDescriptionHandler .peerConnection.remoteDescription; logger.info({ logCode: 'sip_js_session_setup_remote_media', extraInfo: { callerIdName: this.user.callerIdName, sdp, }, }, 'Audio call - setup remote media'); this.remoteStream = new MediaStream(); this.currentSession.sessionDescriptionHandler .peerConnection.getReceivers().forEach((receiver) => { if (receiver.track) { this.remoteStream.addTrack(receiver.track); } }); logger.info({ logCode: 'sip_js_session_playing_remote_media', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'Audio call - playing remote media'); mediaElement.srcObject = this.remoteStream; mediaElement.play(); }; const checkIfCallReady = () => { if (this.userRequestedHangup === true) { this.exitAudio(); resolve(); } logger.info({ logCode: 'sip_js_session_check_if_call_ready', extraInfo: { iceCompleted, fsReady, }, }, 'Audio call - check if ICE is finished and FreeSWITCH is ready'); if (iceCompleted) { this.webrtcConnected = true; setupRemoteMedia(); } if (fsReady) { this.callback({ status: this.baseCallStates.started, bridge: this.bridgeName }); resolve(); } }; // Sometimes FreeSWITCH just won't respond with anything and hangs. This timeout is to // avoid that issue const callTimeout = setTimeout(() => { this.callback({ status: this.baseCallStates.failed, error: 1006, bridgeError: `Call timed out on start after ${CALL_CONNECT_TIMEOUT / 1000}s`, bridge: this.bridgeName, }); this.exitAudio(); }, CALL_CONNECT_TIMEOUT); let iceNegotiationTimeout; const handleSessionAccepted = () => { logger.info({ logCode: 'sip_js_session_accepted', extraInfo: { callerIdName: this.user.callerIdName } }, 'Audio call session accepted'); clearTimeout(callTimeout); // If ICE isn't connected yet then start timeout waiting for ICE to finish if (!iceCompleted) { iceNegotiationTimeout = setTimeout(() => { this.callback({ status: this.baseCallStates.failed, error: 1010, bridgeError: 'ICE negotiation timeout after ' + `${ICE_NEGOTIATION_TIMEOUT / 1000}s`, bridge: this.bridgeName, }); this.exitAudio(); reject({ type: this.baseErrorCodes.CONNECTION_ERROR, }); }, ICE_NEGOTIATION_TIMEOUT); } checkIfCallReady(); }; const handleIceNegotiationFailed = (peer) => { if (iceCompleted) { logger.warn({ logCode: 'sipjs_ice_failed_after', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'ICE connection failed after success'); } else { logger.warn({ logCode: 'sipjs_ice_failed_before', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'ICE connection failed before success'); } clearTimeout(callTimeout); clearTimeout(iceNegotiationTimeout); this.callback({ status: this.baseCallStates.failed, error: 1007, bridgeError: 'ICE negotiation failed. Current state ' + `- ${peer.iceConnectionState}`, bridge: this.bridgeName, }); }; const handleIceConnectionTerminated = (peer) => { if (!this.userRequestedHangup) { logger.warn({ logCode: 'sipjs_ice_closed', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'ICE connection closed'); } else return; this.callback({ status: this.baseCallStates.failed, error: 1012, bridgeError: 'ICE connection closed. Current state -' + `${peer.iceConnectionState}`, bridge: this.bridgeName, }); }; const handleSessionProgress = (update) => { logger.info({ logCode: 'sip_js_session_progress', extraInfo: { callerIdName: this.user.callerIdName, update, }, }, 'Audio call session progress update'); this.currentSession.sessionDescriptionHandler.peerConnectionDelegate .onconnectionstatechange = (event) => { const peer = event.target; logger.info({ logCode: 'sip_js_connection_state_change', extraInfo: { connectionStateChange: peer.connectionState, callerIdName: this.user.callerIdName, }, }, 'ICE connection state change - Current connection state - ' + `${peer.connectionState}`); switch (peer.connectionState) { case 'failed': // Chrome triggers 'failed' for connectionState event, only handleIceNegotiationFailed(peer); break; default: break; } }; this.currentSession.sessionDescriptionHandler.peerConnectionDelegate .oniceconnectionstatechange = (event) => { const peer = event.target; switch (peer.iceConnectionState) { case 'completed': case 'connected': if (iceCompleted) { logger.info({ logCode: 'sip_js_ice_connection_success_after_success', extraInfo: { currentState: peer.connectionState, callerIdName: this.user.callerIdName, }, }, 'ICE connection success, but user is already connected, ' + 'ignoring it...' + `${peer.iceConnectionState}`); return; } logger.info({ logCode: 'sip_js_ice_connection_success', extraInfo: { currentState: peer.connectionState, callerIdName: this.user.callerIdName, }, }, 'ICE connection success. Current ICE Connection state - ' + `${peer.iceConnectionState}`); clearTimeout(callTimeout); clearTimeout(iceNegotiationTimeout); iceCompleted = true; logSelectedCandidate(peer, this.protocolIsIpv6); checkIfCallReady(); break; case 'failed': handleIceNegotiationFailed(peer); break; case 'closed': handleIceConnectionTerminated(peer); break; default: break; } }; }; const checkIfCallStopped = (message) => { if ((!this.ignoreCallState && fsReady) || !sessionTerminated) { return null; } if (!message && !!this.userRequestedHangup) { return this.callback({ status: this.baseCallStates.ended, bridge: this.bridgeName, }); } // if session hasn't even started, we let audio-modal to handle // any possile errors if (!this._currentSessionState) return false; let mappedCause; let cause; if (!iceCompleted) { mappedCause = '1004'; cause = 'ICE error'; } else { cause = 'Audio Conference Error'; mappedCause = '1005'; } logger.warn({ logCode: 'sip_js_call_terminated', extraInfo: { cause, callerIdName: this.user.callerIdName }, }, `Audio call terminated. cause=${cause}`); return this.callback({ status: this.baseCallStates.failed, error: mappedCause, bridgeError: cause, bridge: this.bridgeName, }); } const handleSessionTerminated = (message) => { logger.info({ logCode: 'sip_js_session_terminated', extraInfo: { callerIdName: this.user.callerIdName }, }, 'SIP.js session terminated'); clearTimeout(callTimeout); clearTimeout(iceNegotiationTimeout); sessionTerminated = true; checkIfCallStopped(); }; currentSession.stateChange.addListener((state) => { switch (state) { case SIP.SessionState.Initial: break; case SIP.SessionState.Establishing: handleSessionProgress(); break; case SIP.SessionState.Established: handleSessionAccepted(); break; case SIP.SessionState.Terminating: break; case SIP.SessionState.Terminated: handleSessionTerminated(); break; default: logger.warn({ logCode: 'sipjs_ice_session_unknown_state', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'SIP.js unknown session state'); break; } this._currentSessionState = state; }); Tracker.autorun((c) => { const selector = { meetingId: Auth.meetingID, userId: Auth.userID, clientSession: getCurrentAudioSessionNumber(), }; const query = VoiceCallStates.find(selector); const callback = (id, fields) => { if (!fsReady && ((this.inEchoTest && fields.callState === CallStateOptions.IN_ECHO_TEST) || (!this.inEchoTest && fields.callState === CallStateOptions.IN_CONFERENCE))) { fsReady = true; checkIfCallReady(); } if (fields.callState === CallStateOptions.CALL_ENDED) { fsReady = false; c.stop(); checkIfCallStopped(); } }; query.observeChanges({ added: (id, fields) => callback(id, fields), changed: (id, fields) => callback(id, fields), }); }); resolve(); }); } /** * Update audio constraints for current local MediaStream (microphone) * @param {Object} constraints MediaTrackConstraints object. See: * https://developer.mozilla.org/en-US/docs/Web/API/MediaTrackConstraints * @return {Promise} A Promise for this process */ async updateAudioConstraints(constraints) { try { if (typeof constraints !== 'object') return; logger.info({ logCode: 'sipjs_update_audio_constraint', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'SIP.js updating audio constraint'); const matchConstraints = filterSupportedConstraints(constraints); //Chromium bug - see: https://bugs.chromium.org/p/chromium/issues/detail?id=796964&q=applyConstraints&can=2 const { isChrome } = browserInfo; if (isChrome) { matchConstraints.deviceId = this.inputDeviceId; const stream = await doGUM({ audio: matchConstraints }); this.currentSession.sessionDescriptionHandler .setLocalMediaStream(stream); } else { const { localMediaStream } = this.currentSession .sessionDescriptionHandler; localMediaStream.getAudioTracks().forEach( track => track.applyConstraints(matchConstraints), ); } } catch (error) { logger.error({ logCode: 'sipjs_audio_constraint_error', extraInfo: { callerIdName: this.user.callerIdName, }, }, 'SIP.js failed to update audio constraint'); } } } export default class SIPBridge extends BaseAudioBridge { constructor(userData) { super(userData); const { userId, username, sessionToken, } = userData; this.user = { userId, sessionToken, name: username, }; this.protocol = window.document.location.protocol; if (MEDIA['sip_ws_host'] != null && MEDIA['sip_ws_host'] != '') { this.hostname = MEDIA.sip_ws_host; } else { this.hostname = window.document.location.hostname; } this.bridgeName = BRIDGE_NAME; // SDP conversion utilitary methods to be used inside SIP.js window.isUnifiedPlan = isUnifiedPlan; window.toUnifiedPlan = toUnifiedPlan; window.toPlanB = toPlanB; window.stripMDnsCandidates = stripMDnsCandidates; // No easy way to expose the client logger to sip.js code so we need to attach it globally window.clientLogger = logger; } get inputStream() { return this.activeSession ? this.activeSession.inputStream : null; } /** * Wrapper for SIPSession's ignoreCallState flag * @param {boolean} value */ set ignoreCallState(value) { if (this.activeSession) { this.activeSession.ignoreCallState = value; } } get ignoreCallState() { return this.activeSession ? this.activeSession.ignoreCallState : false; } joinAudio({ isListenOnly, extension, validIceCandidates, inputStream, }, managerCallback) { const hasFallbackDomain = typeof IPV4_FALLBACK_DOMAIN === 'string' && IPV4_FALLBACK_DOMAIN !== ''; return new Promise((resolve, reject) => { let { hostname } = this; this.activeSession = new SIPSession(this.user, this.userData, this.protocol, hostname, this.baseCallStates, this.baseErrorCodes, false); const callback = (message) => { if (message.status === this.baseCallStates.failed) { let shouldTryReconnect = false; // Try and get the call to clean up and end on an error this.activeSession.exitAudio().catch(() => { }); if (this.activeSession.webrtcConnected) { // webrtc was able to connect so just try again message.silenceNotifications = true; callback({ status: this.baseCallStates.reconnecting, bridge: this.bridgeName, }); shouldTryReconnect = true; } else if (hasFallbackDomain === true && hostname !== IPV4_FALLBACK_DOMAIN) { message.silenceNotifications = true; logger.info({ logCode: 'sip_js_attempt_ipv4_fallback', extraInfo: { callerIdName: this.user.callerIdName } }, 'Attempting to fallback to IPv4 domain for audio'); hostname = IPV4_FALLBACK_DOMAIN; shouldTryReconnect = true; } if (shouldTryReconnect) { const fallbackExtension = this.activeSession.inEchoTest ? extension : undefined; this.activeSession = new SIPSession(this.user, this.userData, this.protocol, hostname, this.baseCallStates, this.baseErrorCodes, true); const { inputDeviceId, outputDeviceId } = this; this.activeSession.joinAudio({ isListenOnly, extension: fallbackExtension, inputDeviceId, outputDeviceId, validIceCandidates, inputStream, }, callback) .then((value) => { resolve(value); }).catch((reason) => { reject(reason); }); } } return managerCallback(message); }; const { inputDeviceId, outputDeviceId } = this; this.activeSession.joinAudio({ isListenOnly, extension, inputDeviceId, outputDeviceId, validIceCandidates, inputStream, }, callback) .then((value) => { resolve(value); }).catch((reason) => { reject(reason); }); }); } transferCall(onTransferSuccess) { this.activeSession.inEchoTest = false; logger.debug({ logCode: 'sip_js_rtp_payload_send_dtmf', extraInfo: { callerIdName: this.activeSession.user.callerIdName, }, }, 'Sending DTMF INFO to transfer user'); return this.trackTransferState(onTransferSuccess); } sendDtmf(tones) { this.activeSession.sendDtmf(tones); } getPeerConnection() { if (!this.activeSession) return null; const { currentSession } = this.activeSession; if (currentSession && currentSession.sessionDescriptionHandler) { return currentSession.sessionDescriptionHandler.peerConnection; } return null; } exitAudio() { if (this.activeSession == null) return Promise.resolve(); return this.activeSession.exitAudio(); } setInputStream(stream) { return this.activeSession.setInputStream(stream); } async updateAudioConstraints(constraints) { return this.activeSession.updateAudioConstraints(constraints); } } module.exports = SIPBridge;