jiti-meet/modules/statistics/RTPStatsCollector.js

723 lines
22 KiB
JavaScript

/* global require, ssrc2jid */
/* jshint -W117 */
/* jshint -W101 */
var RTCBrowserType = require("../RTC/RTCBrowserType");
var StatisticsEvents = require("../../service/statistics/Events");
/* Whether we support the browser we are running into for logging statistics */
var browserSupported = RTCBrowserType.isChrome() ||
RTCBrowserType.isOpera() || RTCBrowserType.isFirefox();
/**
* Calculates packet lost percent using the number of lost packets and the
* number of all packet.
* @param lostPackets the number of lost packets
* @param totalPackets the number of all packets.
* @returns {number} packet loss percent
*/
function calculatePacketLoss(lostPackets, totalPackets) {
if(!totalPackets || totalPackets <= 0 || !lostPackets || lostPackets <= 0)
return 0;
return Math.round((lostPackets/totalPackets)*100);
}
function getStatValue(item, name) {
var browserType = RTCBrowserType.getBrowserType();
if (!keyMap[browserType][name])
throw "The property isn't supported!";
var key = keyMap[browserType][name];
return (RTCBrowserType.isChrome() || RTCBrowserType.isOpera()) ?
item.stat(key) : item[key];
}
/**
* Peer statistics data holder.
* @constructor
*/
function PeerStats()
{
this.ssrc2Loss = {};
this.ssrc2AudioLevel = {};
this.ssrc2bitrate = {};
this.ssrc2resolution = {};
}
/**
* The bandwidth
* @type {{}}
*/
PeerStats.bandwidth = {};
/**
* The bit rate
* @type {{}}
*/
PeerStats.bitrate = {};
/**
* The packet loss rate
* @type {{}}
*/
PeerStats.packetLoss = null;
/**
* Sets packets loss rate for given <tt>ssrc</tt> that blong to the peer
* represented by this instance.
* @param ssrc audio or video RTP stream SSRC.
* @param lossRate new packet loss rate value to be set.
*/
PeerStats.prototype.setSsrcLoss = function (ssrc, lossRate)
{
this.ssrc2Loss[ssrc] = lossRate;
};
/**
* Sets resolution for given <tt>ssrc</tt> that belong to the peer
* represented by this instance.
* @param ssrc audio or video RTP stream SSRC.
* @param resolution new resolution value to be set.
*/
PeerStats.prototype.setSsrcResolution = function (ssrc, resolution)
{
if(resolution === null && this.ssrc2resolution[ssrc])
{
delete this.ssrc2resolution[ssrc];
}
else if(resolution !== null)
this.ssrc2resolution[ssrc] = resolution;
};
/**
* Sets the bit rate for given <tt>ssrc</tt> that blong to the peer
* represented by this instance.
* @param ssrc audio or video RTP stream SSRC.
* @param bitrate new bitrate value to be set.
*/
PeerStats.prototype.setSsrcBitrate = function (ssrc, bitrate)
{
if(this.ssrc2bitrate[ssrc])
{
this.ssrc2bitrate[ssrc].download += bitrate.download;
this.ssrc2bitrate[ssrc].upload += bitrate.upload;
}
else {
this.ssrc2bitrate[ssrc] = bitrate;
}
};
/**
* Sets new audio level(input or output) for given <tt>ssrc</tt> that identifies
* the stream which belongs to the peer represented by this instance.
* @param ssrc RTP stream SSRC for which current audio level value will be
* updated.
* @param audioLevel the new audio level value to be set. Value is truncated to
* fit the range from 0 to 1.
*/
PeerStats.prototype.setSsrcAudioLevel = function (ssrc, audioLevel)
{
// Range limit 0 - 1
this.ssrc2AudioLevel[ssrc] = formatAudioLevel(audioLevel);
};
function formatAudioLevel(audioLevel) {
return Math.min(Math.max(audioLevel, 0), 1);
}
/**
* Array with the transport information.
* @type {Array}
*/
PeerStats.transport = [];
/**
* <tt>StatsCollector</tt> registers for stats updates of given
* <tt>peerconnection</tt> in given <tt>interval</tt>. On each update particular
* stats are extracted and put in {@link PeerStats} objects. Once the processing
* is done <tt>audioLevelsUpdateCallback</tt> is called with <tt>this</tt>
* instance as an event source.
*
* @param peerconnection webRTC peer connection object.
* @param interval stats refresh interval given in ms.
* @param {function(StatsCollector)} audioLevelsUpdateCallback the callback
* called on stats update.
* @constructor
*/
function StatsCollector(peerconnection, audioLevelsInterval, statsInterval, eventEmitter)
{
this.peerconnection = peerconnection;
this.baselineAudioLevelsReport = null;
this.currentAudioLevelsReport = null;
this.currentStatsReport = null;
this.baselineStatsReport = null;
this.audioLevelsIntervalId = null;
this.eventEmitter = eventEmitter;
/**
* Gather PeerConnection stats once every this many milliseconds.
*/
this.GATHER_INTERVAL = 15000;
/**
* Log stats via the focus once every this many milliseconds.
*/
this.LOG_INTERVAL = 60000;
/**
* Gather stats and store them in this.statsToBeLogged.
*/
this.gatherStatsIntervalId = null;
/**
* Send the stats already saved in this.statsToBeLogged to be logged via
* the focus.
*/
this.logStatsIntervalId = null;
/**
* Stores the statistics which will be send to the focus to be logged.
*/
this.statsToBeLogged =
{
timestamps: [],
stats: {}
};
// Updates stats interval
this.audioLevelsIntervalMilis = audioLevelsInterval;
this.statsIntervalId = null;
this.statsIntervalMilis = statsInterval;
// Map of jids to PeerStats
this.jid2stats = {};
}
module.exports = StatsCollector;
/**
* Stops stats updates.
*/
StatsCollector.prototype.stop = function () {
if (this.audioLevelsIntervalId) {
clearInterval(this.audioLevelsIntervalId);
this.audioLevelsIntervalId = null;
}
if (this.statsIntervalId)
{
clearInterval(this.statsIntervalId);
this.statsIntervalId = null;
}
if(this.logStatsIntervalId)
{
clearInterval(this.logStatsIntervalId);
this.logStatsIntervalId = null;
}
if(this.gatherStatsIntervalId)
{
clearInterval(this.gatherStatsIntervalId);
this.gatherStatsIntervalId = null;
}
};
/**
* Callback passed to <tt>getStats</tt> method.
* @param error an error that occurred on <tt>getStats</tt> call.
*/
StatsCollector.prototype.errorCallback = function (error)
{
console.error("Get stats error", error);
this.stop();
};
/**
* Starts stats updates.
*/
StatsCollector.prototype.start = function ()
{
var self = this;
if (!config.disableAudioLevels) {
this.audioLevelsIntervalId = setInterval(
function () {
// Interval updates
self.peerconnection.getStats(
function (report) {
var results = null;
if (!report || !report.result ||
typeof report.result != 'function') {
results = report;
}
else {
results = report.result();
}
//console.error("Got interval report", results);
self.currentAudioLevelsReport = results;
self.processAudioLevelReport();
self.baselineAudioLevelsReport =
self.currentAudioLevelsReport;
},
self.errorCallback
);
},
self.audioLevelsIntervalMilis
);
}
if (!config.disableStats && browserSupported) {
this.statsIntervalId = setInterval(
function () {
// Interval updates
self.peerconnection.getStats(
function (report) {
var results = null;
if (!report || !report.result ||
typeof report.result != 'function') {
//firefox
results = report;
}
else {
//chrome
results = report.result();
}
//console.error("Got interval report", results);
self.currentStatsReport = results;
try {
self.processStatsReport();
}
catch (e) {
console.error("Unsupported key:" + e, e);
}
self.baselineStatsReport = self.currentStatsReport;
},
self.errorCallback
);
},
self.statsIntervalMilis
);
}
// Logging statistics does not support firefox
if (config.logStats && (browserSupported && !RTCBrowserType.isFirefox())) {
this.gatherStatsIntervalId = setInterval(
function () {
self.peerconnection.getStats(
function (report) {
self.addStatsToBeLogged(report.result());
},
function () {
}
);
},
this.GATHER_INTERVAL
);
this.logStatsIntervalId = setInterval(
function() { self.logStats(); },
this.LOG_INTERVAL);
}
};
/**
* Checks whether a certain record should be included in the logged statistics.
*/
function acceptStat(reportId, reportType, statName) {
if (reportType == "googCandidatePair" && statName == "googChannelId")
return false;
if (reportType == "ssrc") {
if (statName == "googTrackId" ||
statName == "transportId" ||
statName == "ssrc")
return false;
}
return true;
}
/**
* Checks whether a certain record should be included in the logged statistics.
*/
function acceptReport(id, type) {
if (id.substring(0, 15) == "googCertificate" ||
id.substring(0, 9) == "googTrack" ||
id.substring(0, 20) == "googLibjingleSession")
return false;
if (type == "googComponent")
return false;
return true;
}
/**
* Converts the stats to the format used for logging, and saves the data in
* this.statsToBeLogged.
* @param reports Reports as given by webkitRTCPerConnection.getStats.
*/
StatsCollector.prototype.addStatsToBeLogged = function (reports) {
var self = this;
var num_records = this.statsToBeLogged.timestamps.length;
this.statsToBeLogged.timestamps.push(new Date().getTime());
reports.map(function (report) {
if (!acceptReport(report.id, report.type))
return;
var stat = self.statsToBeLogged.stats[report.id];
if (!stat) {
stat = self.statsToBeLogged.stats[report.id] = {};
}
stat.type = report.type;
report.names().map(function (name) {
if (!acceptStat(report.id, report.type, name))
return;
var values = stat[name];
if (!values) {
values = stat[name] = [];
}
while (values.length < num_records) {
values.push(null);
}
values.push(report.stat(name));
});
});
};
StatsCollector.prototype.logStats = function () {
if(!APP.xmpp.sendLogs(this.statsToBeLogged))
return;
// Reset the stats
this.statsToBeLogged.stats = {};
this.statsToBeLogged.timestamps = [];
};
var keyMap = {};
keyMap[RTCBrowserType.RTC_BROWSER_FIREFOX] = {
"ssrc": "ssrc",
"packetsReceived": "packetsReceived",
"packetsLost": "packetsLost",
"packetsSent": "packetsSent",
"bytesReceived": "bytesReceived",
"bytesSent": "bytesSent"
};
keyMap[RTCBrowserType.RTC_BROWSER_CHROME] = {
"receiveBandwidth": "googAvailableReceiveBandwidth",
"sendBandwidth": "googAvailableSendBandwidth",
"remoteAddress": "googRemoteAddress",
"transportType": "googTransportType",
"localAddress": "googLocalAddress",
"activeConnection": "googActiveConnection",
"ssrc": "ssrc",
"packetsReceived": "packetsReceived",
"packetsSent": "packetsSent",
"packetsLost": "packetsLost",
"bytesReceived": "bytesReceived",
"bytesSent": "bytesSent",
"googFrameHeightReceived": "googFrameHeightReceived",
"googFrameWidthReceived": "googFrameWidthReceived",
"googFrameHeightSent": "googFrameHeightSent",
"googFrameWidthSent": "googFrameWidthSent",
"audioInputLevel": "audioInputLevel",
"audioOutputLevel": "audioOutputLevel"
};
keyMap[RTCBrowserType.RTC_BROWSER_OPERA] =
keyMap[RTCBrowserType.RTC_BROWSER_CHROME];
/**
* Stats processing logic.
*/
StatsCollector.prototype.processStatsReport = function () {
if (!this.baselineStatsReport) {
return;
}
for (var idx in this.currentStatsReport) {
var now = this.currentStatsReport[idx];
try {
if (getStatValue(now, 'receiveBandwidth') ||
getStatValue(now, 'sendBandwidth')) {
PeerStats.bandwidth = {
"download": Math.round(
(getStatValue(now, 'receiveBandwidth')) / 1000),
"upload": Math.round(
(getStatValue(now, 'sendBandwidth')) / 1000)
};
}
}
catch(e){/*not supported*/}
if(now.type == 'googCandidatePair')
{
var ip, type, localIP, active;
try {
ip = getStatValue(now, 'remoteAddress');
type = getStatValue(now, "transportType");
localIP = getStatValue(now, "localAddress");
active = getStatValue(now, "activeConnection");
}
catch(e){/*not supported*/}
if(!ip || !type || !localIP || active != "true")
continue;
var addressSaved = false;
for(var i = 0; i < PeerStats.transport.length; i++)
{
if(PeerStats.transport[i].ip == ip &&
PeerStats.transport[i].type == type &&
PeerStats.transport[i].localip == localIP)
{
addressSaved = true;
}
}
if(addressSaved)
continue;
PeerStats.transport.push({localip: localIP, ip: ip, type: type});
continue;
}
if(now.type == "candidatepair")
{
if(now.state == "succeeded")
continue;
var local = this.currentStatsReport[now.localCandidateId];
var remote = this.currentStatsReport[now.remoteCandidateId];
PeerStats.transport.push({localip: local.ipAddress + ":" + local.portNumber,
ip: remote.ipAddress + ":" + remote.portNumber, type: local.transport});
}
if (now.type != 'ssrc' && now.type != "outboundrtp" &&
now.type != "inboundrtp") {
continue;
}
var before = this.baselineStatsReport[idx];
if (!before) {
console.warn(getStatValue(now, 'ssrc') + ' not enough data');
continue;
}
var ssrc = getStatValue(now, 'ssrc');
if(!ssrc)
continue;
var jid = APP.xmpp.getJidFromSSRC(ssrc);
if (!jid && (Date.now() - now.timestamp) < 3000) {
console.warn("No jid for ssrc: " + ssrc);
continue;
}
var jidStats = this.jid2stats[jid];
if (!jidStats) {
jidStats = new PeerStats();
this.jid2stats[jid] = jidStats;
}
var isDownloadStream = true;
var key = 'packetsReceived';
var packetsNow = getStatValue(now, key);
if (typeof packetsNow === 'undefined' || packetsNow === null) {
isDownloadStream = false;
key = 'packetsSent';
packetsNow = getStatValue(now, key);
if (typeof packetsNow === 'undefined' || packetsNow === null) {
console.warn("No packetsReceived nor packetsSent stat found");
continue;
}
}
if (!packetsNow || packetsNow < 0)
packetsNow = 0;
var packetsBefore = getStatValue(before, key);
if (!packetsBefore || packetsBefore < 0)
packetsBefore = 0;
var packetRate = packetsNow - packetsBefore;
if (!packetRate || packetRate < 0)
packetRate = 0;
var currentLoss = getStatValue(now, 'packetsLost');
if (!currentLoss || currentLoss < 0)
currentLoss = 0;
var previousLoss = getStatValue(before, 'packetsLost');
if (!previousLoss || previousLoss < 0)
previousLoss = 0;
var lossRate = currentLoss - previousLoss;
if (!lossRate || lossRate < 0)
lossRate = 0;
var packetsTotal = (packetRate + lossRate);
jidStats.setSsrcLoss(ssrc,
{"packetsTotal": packetsTotal,
"packetsLost": lossRate,
"isDownloadStream": isDownloadStream});
var bytesReceived = 0, bytesSent = 0;
if(getStatValue(now, "bytesReceived")) {
bytesReceived = getStatValue(now, "bytesReceived") -
getStatValue(before, "bytesReceived");
}
if(getStatValue(now, "bytesSent")) {
bytesSent = getStatValue(now, "bytesSent") -
getStatValue(before, "bytesSent");
}
var time = Math.round((now.timestamp - before.timestamp) / 1000);
if(bytesReceived <= 0 || time <= 0) {
bytesReceived = 0;
} else {
bytesReceived = Math.round(((bytesReceived * 8) / time) / 1000);
}
if(bytesSent <= 0 || time <= 0) {
bytesSent = 0;
} else {
bytesSent = Math.round(((bytesSent * 8) / time) / 1000);
}
jidStats.setSsrcBitrate(ssrc, {
"download": bytesReceived,
"upload": bytesSent});
var resolution = {height: null, width: null};
try {
if (getStatValue(now, "googFrameHeightReceived") &&
getStatValue(now, "googFrameWidthReceived")) {
resolution.height = getStatValue(now, "googFrameHeightReceived");
resolution.width = getStatValue(now, "googFrameWidthReceived");
}
else if (getStatValue(now, "googFrameHeightSent") &&
getStatValue(now, "googFrameWidthSent")) {
resolution.height = getStatValue(now, "googFrameHeightSent");
resolution.width = getStatValue(now, "googFrameWidthSent");
}
}
catch(e){/*not supported*/}
if(resolution.height && resolution.width) {
jidStats.setSsrcResolution(ssrc, resolution);
} else {
jidStats.setSsrcResolution(ssrc, null);
}
}
var self = this;
// Jid stats
var totalPackets = {download: 0, upload: 0};
var lostPackets = {download: 0, upload: 0};
var bitrateDownload = 0;
var bitrateUpload = 0;
var resolutions = {};
Object.keys(this.jid2stats).forEach(
function (jid) {
Object.keys(self.jid2stats[jid].ssrc2Loss).forEach(
function (ssrc) {
var type = "upload";
if(self.jid2stats[jid].ssrc2Loss[ssrc].isDownloadStream)
type = "download";
totalPackets[type] +=
self.jid2stats[jid].ssrc2Loss[ssrc].packetsTotal;
lostPackets[type] +=
self.jid2stats[jid].ssrc2Loss[ssrc].packetsLost;
}
);
Object.keys(self.jid2stats[jid].ssrc2bitrate).forEach(
function (ssrc) {
bitrateDownload +=
self.jid2stats[jid].ssrc2bitrate[ssrc].download;
bitrateUpload +=
self.jid2stats[jid].ssrc2bitrate[ssrc].upload;
delete self.jid2stats[jid].ssrc2bitrate[ssrc];
}
);
resolutions[jid] = self.jid2stats[jid].ssrc2resolution;
}
);
PeerStats.bitrate = {"upload": bitrateUpload, "download": bitrateDownload};
PeerStats.packetLoss = {
total:
calculatePacketLoss(lostPackets.download + lostPackets.upload,
totalPackets.download + totalPackets.upload),
download:
calculatePacketLoss(lostPackets.download, totalPackets.download),
upload:
calculatePacketLoss(lostPackets.upload, totalPackets.upload)
};
this.eventEmitter.emit(StatisticsEvents.CONNECTION_STATS,
{
"bitrate": PeerStats.bitrate,
"packetLoss": PeerStats.packetLoss,
"bandwidth": PeerStats.bandwidth,
"resolution": resolutions,
"transport": PeerStats.transport
});
PeerStats.transport = [];
};
/**
* Stats processing logic.
*/
StatsCollector.prototype.processAudioLevelReport = function () {
if (!this.baselineAudioLevelsReport) {
return;
}
for (var idx in this.currentAudioLevelsReport) {
var now = this.currentAudioLevelsReport[idx];
if (now.type != 'ssrc') {
continue;
}
var before = this.baselineAudioLevelsReport[idx];
if (!before) {
console.warn(getStatValue(now, 'ssrc') + ' not enough data');
continue;
}
var ssrc = getStatValue(now, 'ssrc');
var jid = APP.xmpp.getJidFromSSRC(ssrc);
if (!jid) {
if((Date.now() - now.timestamp) < 3000)
console.warn("No jid for ssrc: " + ssrc);
continue;
}
var jidStats = this.jid2stats[jid];
if (!jidStats) {
jidStats = new PeerStats();
this.jid2stats[jid] = jidStats;
}
// Audio level
var audioLevel = null;
try {
audioLevel = getStatValue(now, 'audioInputLevel');
if (!audioLevel)
audioLevel = getStatValue(now, 'audioOutputLevel');
}
catch(e) {/*not supported*/
console.warn("Audio Levels are not available in the statistics.");
clearInterval(this.audioLevelsIntervalId);
return;
}
if (audioLevel) {
// TODO: can't find specs about what this value really is,
// but it seems to vary between 0 and around 32k.
audioLevel = audioLevel / 32767;
jidStats.setSsrcAudioLevel(ssrc, audioLevel);
if (jid != APP.xmpp.myJid()) {
this.eventEmitter.emit(
StatisticsEvents.AUDIO_LEVEL, jid, audioLevel);
}
}
}
};