import BaseAudioBridge from './base'; import Auth from '/imports/ui/services/auth'; import logger from '/imports/startup/client/logger'; import AudioBroker from '/imports/ui/services/bbb-webrtc-sfu/audio-broker'; import loadAndPlayMediaStream from '/imports/ui/services/bbb-webrtc-sfu/load-play'; import { fetchWebRTCMappedStunTurnServers, getMappedFallbackStun, } from '/imports/utils/fetchStunTurnServers'; import getFromMeetingSettings from '/imports/ui/services/meeting-settings'; import getFromUserSettings from '/imports/ui/services/users-settings'; import browserInfo from '/imports/utils/browserInfo'; import { getAudioSessionNumber, getAudioConstraints, filterSupportedConstraints, doGUM, } from '/imports/api/audio/client/bridge/service'; import { shouldForceRelay } from '/imports/ui/services/bbb-webrtc-sfu/utils'; const SFU_URL = Meteor.settings.public.kurento.wsUrl; const DEFAULT_LISTENONLY_MEDIA_SERVER = Meteor.settings.public.kurento.listenOnlyMediaServer; const SIGNAL_CANDIDATES = Meteor.settings.public.kurento.signalCandidates; const TRACE_LOGS = Meteor.settings.public.kurento.traceLogs; const GATHERING_TIMEOUT = Meteor.settings.public.kurento.gatheringTimeout; const MEDIA = Meteor.settings.public.media; const DEFAULT_FULLAUDIO_MEDIA_SERVER = MEDIA.audio.fullAudioMediaServer; const RETRY_THROUGH_RELAY = MEDIA.audio.retryThroughRelay || false; const LISTEN_ONLY_OFFERING = MEDIA.listenOnlyOffering; const FULLAUDIO_OFFERING = MEDIA.fullAudioOffering; const TRANSPARENT_LISTEN_ONLY = MEDIA.transparentListenOnly; const MEDIA_TAG = MEDIA.mediaTag.replace(/#/g, ''); const CONNECTION_TIMEOUT_MS = MEDIA.listenOnlyCallTimeout || 15000; const { audio: NETWORK_PRIORITY } = MEDIA.networkPriorities || {}; const { enabled: RESTART_ICE = false, retries: RESTART_ICE_RETRIES = 1, } = Meteor.settings.public.kurento?.restartIce?.audio || {}; const SENDRECV_ROLE = 'sendrecv'; const RECV_ROLE = 'recv'; const BRIDGE_NAME = 'fullaudio'; const IS_CHROME = browserInfo.isChrome; // SFU's base broker has distinct error codes so that it can be reused by different // modules. Errors that have a valid, localized counterpart in audio manager are // mapped so that the user gets a localized error message. // The ones that haven't (ie SFU's servers-side errors), aren't mapped. const errorCodeMap = { 1301: 1001, 1302: 1002, 1305: 1005, 1307: 1007, }; // Error codes that are prone to a retry according to RETRY_THROUGH_RELAY const RETRYABLE_ERRORS = [1007, 1010]; const mapErrorCode = (error) => { const { errorCode } = error; const mappedErrorCode = errorCodeMap[errorCode]; if (errorCode == null || mappedErrorCode == null) return error; // eslint-disable-next-line no-param-reassign error.errorCode = mappedErrorCode; return error; }; const getMediaServerAdapter = (listenOnly = false) => { if (listenOnly) { return getFromMeetingSettings( 'media-server-listenonly', DEFAULT_LISTENONLY_MEDIA_SERVER, ); } return getFromMeetingSettings( 'media-server-fullaudio', DEFAULT_FULLAUDIO_MEDIA_SERVER, ); }; const isTransparentListenOnlyEnabled = () => getFromUserSettings( 'bbb_transparent_listen_only', TRANSPARENT_LISTEN_ONLY, ); export default class SFUAudioBridge extends BaseAudioBridge { static getOfferingRole(isListenOnly) { return isListenOnly ? LISTEN_ONLY_OFFERING : (!isTransparentListenOnlyEnabled() && FULLAUDIO_OFFERING); } constructor(userData) { super(); this.userId = userData.userId; this.name = userData.username; this.sessionToken = userData.sessionToken; this.broker = null; this.reconnecting = false; this.iceServers = []; this.bridgeName = BRIDGE_NAME; this.handleTermination = this.handleTermination.bind(this); } get inputStream() { if (this.broker) { return this.broker.getLocalStream(); } return null; } get role() { return this.broker?.role; } setInputStream(stream) { if (this.broker == null) return null; return this.broker.setLocalStream(stream); } getPeerConnection() { if (!this.broker) return null; const { webRtcPeer } = this.broker; if (webRtcPeer) return webRtcPeer.peerConnection; return null; } // eslint-disable-next-line class-methods-use-this mediaStreamFactory(constraints) { return doGUM(constraints, true); } setConnectionTimeout() { if (this.connectionTimeout) this.clearConnectionTimeout(); this.connectionTimeout = setTimeout(() => { const error = new Error(`ICE negotiation timeout after ${CONNECTION_TIMEOUT_MS / 1000}s`); error.errorCode = 1010; // Duplicating key-vals because I can'decide settle on an error pattern - prlanzarin again error.errorCause = error.message; error.errorMessage = error.message; this.handleBrokerFailure(error); }, CONNECTION_TIMEOUT_MS); } clearConnectionTimeout() { if (this.connectionTimeout) { clearTimeout(this.connectionTimeout); this.connectionTimeout = null; } } dispatchAutoplayHandlingEvent(mediaElement) { const tagFailedEvent = new CustomEvent('audioPlayFailed', { detail: { mediaElement }, }); window.dispatchEvent(tagFailedEvent); this.callback({ status: this.baseCallStates.autoplayBlocked, bridge: this.bridgeName }); } reconnect(options = {}) { // If broker has already started, fire the reconnecting callback so the user // knows what's going on if (this.broker.started) { this.callback({ status: this.baseCallStates.reconnecting, bridge: this.bridgeName }); } else { // Otherwise: override termination handler so the ended callback doesn't get // triggered - this is a retry attempt and the user shouldn't be notified // yet. this.broker.onended = () => {}; } this.broker.stop(); this.reconnecting = true; this._startBroker({ isListenOnly: this.isListenOnly, ...options }) .catch((error) => { // Error handling is a no-op because it will be "handled" in handleBrokerFailure logger.debug({ logCode: 'sfuaudio_reconnect_failed', extraInfo: { errorMessage: error.errorMessage, reconnecting: this.reconnecting, bridge: this.bridgeName, role: this.role, }, }, 'SFU audio reconnect failed'); }); } handleBrokerFailure(error) { return new Promise((resolve, reject) => { this.clearConnectionTimeout(); mapErrorCode(error); const { errorMessage, errorCause, errorCode } = error; if (!this.reconnecting) { if (this.broker.started) { logger.error({ logCode: 'sfuaudio_error_try_to_reconnect', extraInfo: { errorMessage, errorCode, errorCause, bridge: this.bridgeName, role: this.role, }, }, 'SFU audio failed, try to reconnect'); this.reconnect(); return resolve(); } if (RETRYABLE_ERRORS.includes(errorCode) && RETRY_THROUGH_RELAY) { logger.error({ logCode: 'sfuaudio_error_retry_through_relay', extraInfo: { errorMessage, errorCode, errorCause, bridge: this.bridgeName, role: this.role, }, }, 'SFU audio failed to connect, retry through relay'); this.reconnect({ forceRelay: true }); return resolve(); } } // Already tried reconnecting once OR the user handn't succesfully // connected firsthand and retrying isn't an option. Finish the session // and reject with the error logger.error({ logCode: 'sfuaudio_error', extraInfo: { errorMessage, errorCode, errorCause, reconnecting: this.reconnecting, bridge: this.bridgeName, role: this.role, }, }, 'SFU audio failed'); this.clearConnectionTimeout(); this.broker.stop(); this.callback({ status: this.baseCallStates.failed, error: errorCode, bridgeError: errorMessage, bridge: this.bridgeName, }); return reject(error); }); } handleTermination() { this.clearConnectionTimeout(); return this.callback({ status: this.baseCallStates.ended, bridge: this.bridgeName }); } handleStart() { const stream = this.broker.webRtcPeer.getRemoteStream(); const mediaElement = document.getElementById(MEDIA_TAG); return loadAndPlayMediaStream(stream, mediaElement, false).then(() => { this.callback({ status: this.baseCallStates.started, bridge: this.bridgeName, }); this.clearConnectionTimeout(); this.reconnecting = false; }).catch((error) => { // NotAllowedError equals autoplay issues, fire autoplay handling event. // This will be handled in audio-manager. if (error.name === 'NotAllowedError') { logger.error({ logCode: 'sfuaudio_error_autoplay', extraInfo: { errorName: error.name, bridge: this.bridgeName, role: this.role, }, }, 'SFU audio media play failed due to autoplay error'); this.dispatchAutoplayHandlingEvent(mediaElement); // For connection purposes, this worked - the autoplay thing is a client // side soft issue to be handled at the UI/UX level, not WebRTC/negotiation // So: clear the connection timer this.clearConnectionTimeout(); this.reconnecting = false; } else { const normalizedError = { errorCode: 1004, errorMessage: error.message || 'AUDIO_PLAY_FAILED', }; this.callback({ status: this.baseCallStates.failed, error: normalizedError.errorCode, bridgeError: normalizedError.errorMessage, bridge: this.bridgeName, }); throw normalizedError; } }); } async _startBroker(options) { try { this.iceServers = await fetchWebRTCMappedStunTurnServers(this.sessionToken); } catch (error) { logger.error({ logCode: 'sfuaudio_stun-turn_fetch_failed' }, 'SFU audio bridge failed to fetch STUN/TURN info, using default servers'); this.iceServers = getMappedFallbackStun(); } return new Promise((resolve, reject) => { const { isListenOnly, extension, inputStream, forceRelay: _forceRelay = false, } = options; const handleInitError = (_error) => { mapErrorCode(_error); if (RETRYABLE_ERRORS.includes(_error?.errorCode) || !RETRY_THROUGH_RELAY || this.reconnecting) { reject(_error); } }; try { this.inEchoTest = !!extension; this.isListenOnly = isListenOnly; const brokerOptions = { clientSessionNumber: getAudioSessionNumber(), extension, iceServers: this.iceServers, mediaServer: getMediaServerAdapter(isListenOnly), constraints: getAudioConstraints({ deviceId: this.inputDeviceId }), forceRelay: _forceRelay || shouldForceRelay(), stream: (inputStream && inputStream.active) ? inputStream : undefined, offering: SFUAudioBridge.getOfferingRole(this.isListenOnly), signalCandidates: SIGNAL_CANDIDATES, traceLogs: TRACE_LOGS, networkPriority: NETWORK_PRIORITY, mediaStreamFactory: this.mediaStreamFactory, gatheringTimeout: GATHERING_TIMEOUT, transparentListenOnly: isTransparentListenOnlyEnabled(), restartIce: RESTART_ICE, restartIceMaxRetries: RESTART_ICE_RETRIES, }; this.broker = new AudioBroker( Auth.authenticateURL(SFU_URL), isListenOnly ? RECV_ROLE : SENDRECV_ROLE, brokerOptions, ); this.broker.onended = this.handleTermination.bind(this); this.broker.onerror = (error) => { this.handleBrokerFailure(error).catch(reject); }; this.broker.onstart = () => { this.handleStart().then(resolve).catch(reject); }; // Set up a connectionTimeout in case the server or network are botching // negotiation or conn checks. this.setConnectionTimeout(); this.broker.joinAudio().catch(handleInitError); } catch (error) { handleInitError(error); } }); } async joinAudio(options, callback) { this.callback = callback; this.reconnecting = false; return this._startBroker(options); } sendDtmf(tones) { if (this.broker) { this.broker.dtmf(tones); } } transferCall(onTransferSuccess) { this.inEchoTest = false; return this.trackTransferState(onTransferSuccess); } async updateAudioConstraints(constraints) { try { if (typeof constraints !== 'object') return; const matchConstraints = filterSupportedConstraints(constraints); if (IS_CHROME) { matchConstraints.deviceId = this.inputDeviceId; const stream = await doGUM({ audio: matchConstraints }); await this.setInputStream(stream); } else { this.inputStream.getAudioTracks() .forEach((track) => track.applyConstraints(matchConstraints)); } } catch (error) { logger.error({ logCode: 'sfuaudio_audio_constraint_error', extraInfo: { errorCode: error.code, errorMessage: error.message, bridgeName: this.bridgeName, role: this.role, }, }, 'Failed to update audio constraint'); } } trickleIce() { return new Promise((resolve, reject) => { try { fetchWebRTCMappedStunTurnServers(this.sessionToken) .then((iceServers) => { const options = { clientSessionNumber: getAudioSessionNumber(), iceServers, offering: LISTEN_ONLY_OFFERING, traceLogs: TRACE_LOGS, gatheringTimeout: GATHERING_TIMEOUT, }; this.broker = new AudioBroker( Auth.authenticateURL(SFU_URL), RECV_ROLE, options, ); this.broker.onstart = () => { const { peerConnection } = this.broker.webRtcPeer; if (!peerConnection) return resolve(null); const selectedCandidatePair = peerConnection.getReceivers()[0] .transport.iceTransport.getSelectedCandidatePair(); const validIceCandidate = [selectedCandidatePair.local]; this.broker.stop(); return resolve(validIceCandidate); }; this.broker.joinAudio().catch(reject); }); } catch (error) { // Rollback this.exitAudio(); reject(error); } }); } exitAudio() { const mediaElement = document.getElementById(MEDIA_TAG); this.clearConnectionTimeout(); this.reconnecting = false; if (this.broker) { this.broker.stop(); this.broker = null; } if (mediaElement && typeof mediaElement.pause === 'function') { mediaElement.pause(); mediaElement.srcObject = null; } return Promise.resolve(); } } module.exports = SFUAudioBridge;