import rtcstatsInit from '@jitsi/rtcstats/rtcstats'; import traceInit from '@jitsi/rtcstats/trace-ws'; import { createRTCStatsTraceCloseEvent, sendAnalytics } from '../analytics'; import logger from './logger'; /** * Filter out RTCPeerConnection that are created by callstats.io. * * @param {*} config - Config object sent to the PC c'tor. * @returns {boolean} */ function connectionFilter(config) { if (config && config.iceServers[0] && config.iceServers[0].urls) { for (const iceUrl of config.iceServers[0].urls) { if (iceUrl.indexOf('taas.callstats.io') >= 0) { return true; } } } } /** * Class that controls the rtcstats flow, because it overwrites and proxies global function it should only be * initialized once. */ class RTCStats { /** * Initialize the rtcstats components. First off we initialize the trace, which is a wrapped websocket * that does the actual communication with the server. Secondly, the rtcstats component is initialized, * it overwrites GUM and PeerConnection global functions and adds a proxy over them used to capture stats. * Note, lib-jitsi-meet takes references to these methods before initializing so the init method needs to be * loaded before it does. * * @param {Object} options -. * @param {string} options.endpoint - The Amplitude app key required. * @param {string} options.useLegacy - Switch to legacy chrome webrtc statistics. Parameter will only have * an effect on chrome based applications. * @param {number} options.pollInterval - The getstats poll interval in ms. * @returns {void} */ init(options) { const { endpoint, useLegacy, pollInterval } = options; const traceOptions = { endpoint, onCloseCallback: this.handleTraceWSClose.bind(this), useLegacy }; const rtcstatsOptions = { connectionFilter, pollInterval, useLegacy }; this.trace = traceInit(traceOptions); rtcstatsInit(this.trace, rtcstatsOptions); this.initialized = true; } /** * Check whether or not the RTCStats is initialized. * * @returns {boolean} */ isInitialized() { return this.initialized; } /** * Send identity data to rtcstats server, this will be reflected in the identity section of the stats dump. * It can be generally used to send additional metadata that might be relevant such as amplitude user data * or deployment specific information. * * @param {Object} identityData - Metadata object to send as identity. * @returns {void} */ sendIdentityData(identityData) { this.trace && this.trace.identity('identity', null, identityData); } /** * Send dominant speaker data, the data will be processed by rtcstats-server and saved in the dump file. * * @param {Object} dominantSpeakerData - Dominant speaker data to be saved in the rtcstats dump. * @returns {void} */ sendDominantSpeakerData(dominantSpeakerData) { this.trace && this.trace.statsEntry('dominantSpeaker', null, dominantSpeakerData); } /** * Send e2e rtt data, the data will be processed by rtcstats-server and saved in the dump file. * * @param {Object} e2eRttData - The object that holds the e2e data. * @returns {void} */ sendE2eRttData(e2eRttData) { this.trace && this.trace.statsEntry('e2eRtt', null, e2eRttData); } /** * Send videoType data, the data will be processed by rtcstats-server and saved in the dump file. * * @param {Object} videoTypeData - The object that holds the videoType data. * @returns {void} */ sendVideoTypeData(videoTypeData) { this.trace && this.trace.statsEntry('setVideoType', null, videoTypeData); } /** * Send face expression data, the data will be processed by rtcstats-server and saved in the dump file. * * @param {Object} faceExpressionData - Face expression data to be saved in the rtcstats dump. * @returns {void} */ sendFaceExpressionData(faceExpressionData) { this.trace && this.trace.statsEntry('faceLandmarks', null, faceExpressionData); } /** * Connect to the rtcstats server instance. Stats (data obtained from getstats) won't be send until the * connect successfully initializes, however calls to GUM are recorded in an internal buffer even if not * connected and sent once it is established. * * @returns {void} */ connect() { this.trace && this.trace.connect(); } /** * Self explanatory; closes the web socked connection. * Note, at the point of writing this documentation there was no method to reset the function overwrites, * thus even if the websocket is closed the global function proxies are still active but send no data, * this shouldn't influence the normal flow of the application. * * @returns {void} */ close() { this.trace && this.trace.close(); } /** * The way rtcstats is currently designed the ws wouldn't normally be closed by the application logic but rather * by the page being closed/reloaded. Using this assumption any onclose event is most likely something abnormal * that happened on the ws. We then track this in order to determine how many rtcstats connection were closed * prematurely. * * @param {Object} closeEvent - Event sent by ws onclose. * @returns {void} */ handleTraceWSClose(closeEvent) { logger.info('RTCStats trace ws closed', closeEvent); sendAnalytics(createRTCStatsTraceCloseEvent(closeEvent)); } } export default new RTCStats();