bigbluebutton-Github/bigbluebutton-html5/imports/ui/components/connection-status/service.js

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import { defineMessages } from 'react-intl';
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import ConnectionStatus from '/imports/api/connection-status';
import Users from '/imports/api/users';
import UsersPersistentData from '/imports/api/users-persistent-data';
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import Auth from '/imports/ui/services/auth';
import Settings from '/imports/ui/services/settings';
import _ from 'lodash';
import { Session } from 'meteor/session';
import { notify } from '/imports/ui/services/notification';
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import { makeCall } from '/imports/ui/services/api';
import AudioService from '/imports/ui/components/audio/service';
import VideoService from '/imports/ui/components/video-provider/service';
import ScreenshareService from '/imports/ui/components/screenshare/service';
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const STATS = Meteor.settings.public.stats;
const NOTIFICATION = STATS.notification;
const STATS_INTERVAL = STATS.interval;
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const ROLE_MODERATOR = Meteor.settings.public.user.role_moderator;
const intlMessages = defineMessages({
saved: {
id: 'app.settings.save-notification.label',
description: 'Label shown in toast when data savings are saved',
},
notification: {
id: 'app.connection-status.notification',
description: 'Label shown in toast when connection loss is detected',
},
});
let lastLevel = -1;
let lastRtt = null;
const levelDep = new Tracker.Dependency();
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let statsTimeout = null;
const URL_REGEX = new RegExp(/^(http|https):\/\/[^ "]+$/);
const getHelp = () => {
if (URL_REGEX.test(STATS.help)) return STATS.help;
return null;
};
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const getStats = () => {
levelDep.depend();
return STATS.level[lastLevel];
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};
const setStats = (level = -1, type = 'recovery', value = {}) => {
if (lastLevel !== level) {
lastLevel = level;
levelDep.changed();
}
addConnectionStatus(level, type, value);
};
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const handleAudioStatsEvent = (event) => {
const { detail } = event;
if (detail) {
const { loss, jitter } = detail;
let active = false;
// From higher to lower
for (let i = STATS.level.length - 1; i >= 0; i--) {
if (loss >= STATS.loss[i] || jitter >= STATS.jitter[i]) {
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active = true;
setStats(i, 'audio', { loss, jitter });
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break;
}
}
if (active) startStatsTimeout();
}
};
const handleSocketStatsEvent = (event) => {
const { detail } = event;
if (detail) {
const { rtt } = detail;
let active = false;
let level = -1;
// From higher to lower
for (let i = STATS.level.length - 1; i >= 0; i--) {
if (rtt >= STATS.rtt[i]) {
active = true;
level = i;
break;
}
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}
setStats(level, 'socket', { rtt });
if (active) startStatsTimeout();
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}
};
const startStatsTimeout = () => {
if (statsTimeout !== null) clearTimeout(statsTimeout);
statsTimeout = setTimeout(() => {
setStats(-1, 'recovery', {});
}, STATS.timeout);
};
const addConnectionStatus = (level, type, value) => {
const status = level !== -1 ? STATS.level[level] : 'normal';
makeCall('addConnectionStatus', status, type, value);
};
let rttCalcStartedAt = 0;
const fetchRoundTripTime = () => {
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// if client didn't receive response from last "voidConnection"
// calculate the rtt from last call time and notify user of connection loss
if (rttCalcStartedAt !== 0) {
const tf = Date.now();
const rtt = tf - rttCalcStartedAt;
if (rtt > STATS.rtt[STATS.rtt.length - 1]) {
const event = new CustomEvent('socketstats', { detail: { rtt } });
window.dispatchEvent(event);
}
}
const t0 = Date.now();
rttCalcStartedAt = t0;
makeCall('voidConnection', lastRtt).then(() => {
const tf = Date.now();
const rtt = tf - t0;
const event = new CustomEvent('socketstats', { detail: { rtt } });
window.dispatchEvent(event);
lastRtt = rtt;
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rttCalcStartedAt = 0;
});
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};
const sortLevel = (a, b) => {
const indexOfA = STATS.level.indexOf(a.level);
const indexOfB = STATS.level.indexOf(b.level);
if (indexOfA < indexOfB) return 1;
if (indexOfA === indexOfB) return 0;
if (indexOfA > indexOfB) return -1;
};
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const sortOffline = (a, b) => {
if (a.offline && !b.offline) return 1;
if (a.offline === b.offline) return 0;
if (!a.offline && b.offline) return -1;
};
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const getConnectionStatus = () => {
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const connectionLossTimeThreshold = new Date().getTime() - (STATS_INTERVAL);
const selector = {
meetingId: Auth.meetingID,
$or: [
{ status: { $exists: true } },
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{ connectionAliveAt: { $lte: connectionLossTimeThreshold } },
],
};
if (!isModerator()) {
selector.userId = Auth.userID;
}
const connectionStatus = ConnectionStatus.find(selector).fetch().map((userStatus) => {
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const {
userId,
status,
statusUpdatedAt,
connectionAliveAt,
} = userStatus;
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return {
userId,
status,
statusUpdatedAt,
connectionAliveAt,
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};
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});
return UsersPersistentData.find(
{ meetingId: Auth.meetingID },
{
fields:
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{
userId: 1,
name: 1,
role: 1,
avatar: 1,
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color: 1,
loggedOut: 1,
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},
},
).fetch().reduce((result, user) => {
const {
userId,
name,
role,
avatar,
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color,
loggedOut,
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} = user;
const userStatus = connectionStatus.find((userConnStatus) => userConnStatus.userId === userId);
if (userStatus) {
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const notResponding = userStatus.connectionAliveAt < connectionLossTimeThreshold;
if (userStatus.status || (!loggedOut && notResponding)) {
result.push({
name,
avatar,
offline: loggedOut,
notResponding,
you: Auth.userID === userId,
moderator: role === ROLE_MODERATOR,
color,
status: notResponding ? 'critical' : userStatus.status,
timestamp: notResponding ? userStatus.connectionAliveAt : userStatus.statusUpdatedAt,
});
}
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}
return result;
}, []).sort(sortLevel).sort(sortOffline);
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};
const isEnabled = () => STATS.enabled;
let roundTripTimeInterval = null;
const startRoundTripTime = () => {
if (!isEnabled()) return;
stopRoundTripTime();
roundTripTimeInterval = setInterval(fetchRoundTripTime, STATS_INTERVAL);
};
const stopRoundTripTime = () => {
if (roundTripTimeInterval) {
clearInterval(roundTripTimeInterval);
}
};
const isModerator = () => {
const user = Users.findOne(
{
meetingId: Auth.meetingID,
userId: Auth.userID,
},
{ fields: { role: 1 } },
);
if (user && user.role === ROLE_MODERATOR) {
return true;
}
return false;
};
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if (STATS.enabled) {
window.addEventListener('audiostats', handleAudioStatsEvent);
window.addEventListener('socketstats', handleSocketStatsEvent);
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}
const updateDataSavingSettings = (dataSaving, intl) => {
if (!_.isEqual(Settings.dataSaving, dataSaving)) {
Settings.dataSaving = dataSaving;
Settings.save();
if (intl) notify(intl.formatMessage(intlMessages.saved), 'info', 'settings');
}
};
const getNotified = () => {
const notified = Session.get('connectionStatusNotified');
// Since notified can be undefined we need a boolean verification
return notified === true;
};
const notification = (level, intl) => {
if (!NOTIFICATION[level]) return null;
// Avoid toast spamming
const notified = getNotified();
if (notified) {
return null;
}
Session.set('connectionStatusNotified', true);
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if (intl) notify(intl.formatMessage(intlMessages.notification), level, 'warning');
};
/**
* Calculates the jitter buffer average.
* For more information see:
* https://www.w3.org/TR/webrtc-stats/#dom-rtcinboundrtpstreamstats-jitterbufferdelay
* @param {Object} inboundRtpData The RTCInboundRtpStreamStats object retrieved
* in getStats() call.
* @returns The jitter buffer average in ms
*/
const calculateJitterBufferAverage = (inboundRtpData) => {
if (!inboundRtpData) return 0;
const {
jitterBufferDelay,
jitterBufferEmittedCount,
} = inboundRtpData;
if (!jitterBufferDelay || !jitterBufferEmittedCount) return '--';
return Math.round((jitterBufferDelay / jitterBufferEmittedCount) * 1000);
};
/**
* Given the data returned from getStats(), returns an array containing all the
* the stats of the given type.
* For more information see:
* https://developer.mozilla.org/en-US/docs/Web/API/RTCStatsReport
* and
* https://developer.mozilla.org/en-US/docs/Web/API/RTCStatsType
* @param {Object} data - RTCStatsReport object returned from getStats() API
* @param {String} type - The string type corresponding to RTCStatsType object
* @returns {Array[Object]} An array containing all occurrences of the given
* type in the data Object.
*/
const getDataType = (data, type) => {
if (!data || typeof data !== 'object' || !type) return [];
return Object.values(data).filter((stat) => stat.type === type);
};
/**
* Returns a new Object containing extra parameters calculated from inbound
* data. The input data is also appended in the returned Object.
* @param {Object} currentData - The object returned from getStats / service's
* getNetworkData()
* @returns {Object} the currentData object with the extra inbound network
* added to it.
*/
const addExtraInboundNetworkParameters = (data) => {
if (!data) return data;
const inboundRtpData = getDataType(data, 'inbound-rtp')[0];
if (!inboundRtpData) return data;
const extraParameters = {
jitterBufferAverage: calculateJitterBufferAverage(inboundRtpData),
packetsLost: inboundRtpData.packetsLost,
};
return Object.assign(inboundRtpData, extraParameters);
};
/**
* Retrieves the inbound and outbound data using WebRTC getStats API, for audio.
* @returns An Object with format (property:type) :
* {
* transportStats: Object,
* inbound-rtp: RTCInboundRtpStreamStats,
* outbound-rtp: RTCOutboundRtpStreamStats,
* }
* For more information see:
* https://www.w3.org/TR/webrtc-stats/#dom-rtcinboundrtpstreamstats
* and
* https://www.w3.org/TR/webrtc-stats/#dom-rtcoutboundrtpstreamstats
*/
const getAudioData = async () => {
const data = await AudioService.getStats();
if (!data) return {};
addExtraInboundNetworkParameters(data);
return data;
};
/**
* Retrieves the inbound and outbound data using WebRTC getStats API, for video.
* The video stats contains the stats about all video peers (cameras) and
* for screenshare peer appended into one single object, containing the id
* of the peers with it's stats information.
* @returns An Object containing video data for all video peers and screenshare
* peer
*/
const getVideoData = async () => {
const camerasData = await VideoService.getStats() || {};
const screenshareData = await ScreenshareService.getStats() || {};
return {
...camerasData,
...screenshareData,
};
};
/**
* Get the user, audio and video data from current active streams.
* For audio, this will get information about the mic/listen-only stream.
* @returns An Object containing all this data.
*/
const getNetworkData = async () => {
const audio = await getAudioData();
const video = await getVideoData();
const user = {
time: new Date(),
username: Auth.username,
meeting_name: Auth.confname,
meeting_id: Auth.meetingID,
connection_id: Auth.connectionID,
user_id: Auth.userID,
extern_user_id: Auth.externUserID,
};
const fullData = {
user,
audio,
video,
};
return fullData;
};
/**
* Calculates both upload and download rates using data retreived from getStats
* API. For upload (outbound-rtp) we use both bytesSent and timestamp fields.
* byteSent field contains the number of octets sent at the given timestamp,
* more information can be found in:
* https://www.w3.org/TR/webrtc-stats/#dom-rtcsentrtpstreamstats-bytessent
*
* timestamp is given in millisseconds, more information can be found in:
* https://www.w3.org/TR/webrtc-stats/#webidl-1049090475
* @param {Object} currentData - The object returned from getStats / service's
* getNetworkData()
* @param {Object} previousData - The same object as above, but representing
* a data collected in past (previous call of
* service's getNetworkData())
* @returns An object of numbers, containing both outbound (upload) and inbound
* (download) rates (kbps).
*/
const calculateBitsPerSecond = (currentData, previousData) => {
const result = {
outbound: 0,
inbound: 0,
};
if (!currentData || !previousData) return result;
const currentOutboundData = getDataType(currentData, 'outbound-rtp')[0];
const currentInboundData = getDataType(currentData, 'inbound-rtp')[0];
const previousOutboundData = getDataType(previousData, 'outbound-rtp')[0];
const previousInboundData = getDataType(previousData, 'inbound-rtp')[0];
if (currentOutboundData && previousOutboundData) {
const {
bytesSent: outboundBytesSent,
timestamp: outboundTimestamp,
} = currentOutboundData;
let {
headerBytesSent: outboundHeaderBytesSent,
} = currentOutboundData;
if (!outboundHeaderBytesSent) outboundHeaderBytesSent = 0;
const {
bytesSent: previousOutboundBytesSent,
timestamp: previousOutboundTimestamp,
} = previousOutboundData;
let {
headerBytesSent: previousOutboundHeaderBytesSent,
} = previousOutboundData;
if (!previousOutboundHeaderBytesSent) previousOutboundHeaderBytesSent = 0;
const outboundBytesPerSecond = (outboundBytesSent + outboundHeaderBytesSent
- previousOutboundBytesSent - previousOutboundHeaderBytesSent)
/ (outboundTimestamp - previousOutboundTimestamp);
result.outbound = Math.round((outboundBytesPerSecond * 8 * 1000) / 1024);
}
if (currentInboundData && previousInboundData) {
const {
bytesReceived: inboundBytesReceived,
timestamp: inboundTimestamp,
} = currentInboundData;
let {
headerBytesReceived: inboundHeaderBytesReceived,
} = currentInboundData;
if (!inboundHeaderBytesReceived) inboundHeaderBytesReceived = 0;
const {
bytesReceived: previousInboundBytesReceived,
timestamp: previousInboundTimestamp,
} = previousInboundData;
let {
headerBytesReceived: previousInboundHeaderBytesReceived,
} = previousInboundData;
if (!previousInboundHeaderBytesReceived) {
previousInboundHeaderBytesReceived = 0;
}
const inboundBytesPerSecond = (inboundBytesReceived
+ inboundHeaderBytesReceived - previousInboundBytesReceived
- previousInboundHeaderBytesReceived) / (inboundTimestamp
- previousInboundTimestamp);
result.inbound = Math.round((inboundBytesPerSecond * 8 * 1000) / 1024);
}
return result;
};
/**
* Similar to calculateBitsPerSecond, but it receives stats from multiple
* peers. The total inbound/outbound is the sum of all peers.
* @param {Object} currentData - The Object returned from
* getStats / service's getNetworkData()
* @param {Object} previousData - The same object as above, but
* representing a data collected in past
* (previous call of service's getNetworkData())
*/
const calculateBitsPerSecondFromMultipleData = (currentData, previousData) => {
const result = {
outbound: 0,
inbound: 0,
};
if (!currentData || !previousData) return result;
Object.keys(currentData).forEach((peerId) => {
if (previousData[peerId]) {
const {
outbound: peerOutbound,
inbound: peerInbound,
} = calculateBitsPerSecond(currentData[peerId], previousData[peerId]);
result.outbound += peerOutbound;
result.inbound += peerInbound;
}
});
return result;
};
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export default {
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isModerator,
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getConnectionStatus,
getStats,
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getHelp,
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isEnabled,
notification,
startRoundTripTime,
stopRoundTripTime,
updateDataSavingSettings,
getNetworkData,
calculateBitsPerSecond,
calculateBitsPerSecondFromMultipleData,
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getDataType,
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};