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Scalable-Broadcast.js
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// Muaz Khan - www.MuazKhan.com
// MIT License - www.WebRTC-Experiment.com/licence
// Documentation - github.com/muaz-khan/RTCMultiConnection
var users = {};
module.exports = exports = function(socket, maxRelayLimitPerUser) {
try {
maxRelayLimitPerUser = parseInt(maxRelayLimitPerUser) || 2;
} catch (e) {
maxRelayLimitPerUser = 2;
}
socket.on('join-broadcast', function(user) {
try {
if(!users[user.userid]) {
socket.userid = user.userid;
socket.isScalableBroadcastSocket = true;
users[user.userid] = {
userid: user.userid,
broadcastId: user.broadcastId,
isBroadcastInitiator: false,
maxRelayLimitPerUser: maxRelayLimitPerUser,
relayReceivers: [],
receivingFrom: null,
canRelay: false,
typeOfStreams: user.typeOfStreams || {audio: true, video: true},
socket: socket
}
}
var relayUser = getFirstAvailableBraodcater(user.broadcastId, maxRelayLimitPerUser);
if(relayUser === 'ask-him-rejoin') {
socket.emit('rejoin-broadcast', user.broadcastId);
return;
}
if (relayUser && user.userid !== user.broadcastId) {
var hintsToJoinBroadcast = {
typeOfStreams: relayUser.typeOfStreams,
userid: relayUser.userid
};
users[user.userid].receivingFrom = relayUser.userid;
users[relayUser.userid].relayReceivers.push(
users[user.userid]
);
users[user.broadcastId].lastRelayuserid = relayUser.userid;
socket.emit('join-broadcaster', hintsToJoinBroadcast);
// logs for current socket
socket.emit('logs', 'You <' + user.userid + '> are getting data/stream from <' + relayUser.userid + '>');
// logs for target relaying user
relayUser.socket.emit('logs', 'You <' + relayUser.userid + '>' + ' are now relaying/forwarding data/stream to <' + user.userid + '>');
} else {
users[user.userid].isBroadcastInitiator = true;
socket.emit('start-broadcasting', users[user.userid].typeOfStreams);
// logs to tell he is now broadcast initiator
socket.emit('logs', 'You <' + user.userid + '> are now serving the broadcast.');
}
} catch (e) {
consoleLog(e);
}
});
socket.on('scalable-broadcast-message', function(message) {
socket.broadcast.emit('scalable-broadcast-message', message);
});
socket.on('can-relay-broadcast', function() {
if(users[socket.userid]) {
users[socket.userid].canRelay = true;
}
});
socket.on('can-not-relay-broadcast', function() {
if(users[socket.userid]) {
users[socket.userid].canRelay = false;
}
});
socket.on('check-broadcast-presence', function(userid, callback) {
// we can pass number of viewers as well
try {
callback(!!users[userid] && users[userid].isBroadcastInitiator === true);
}
catch(e) {
consoleLog(e);
}
});
socket.on('disconnect', function() {
try {
if (!socket.isScalableBroadcastSocket) return;
var user = users[socket.userid];
if(!user) return;
if(user.isBroadcastInitiator === true) {
consoleLog({
'initiator-left': true,
'userid': user.userid,
'broadcastId': user.broadcastId,
'isBroadcastInitiator': user.isBroadcastInitiator,
'relayReceivers': Object.keys(user.relayReceivers)
});
// need to stop entire broadcast?
for(var n in users) {
var _user = users[n];
if(_user.broadcastId === user.broadcastId) {
_user.socket.emit('broadcast-stopped', user.broadcastId);
}
}
delete users[socket.userid];
return;
}
if(user.receivingFrom || user.isBroadcastInitiator === true) {
var parentUser = users[user.receivingFrom];
if(parentUser) {
var newArray = [];
parentUser.relayReceivers.forEach(function(n) {
if(n.userid !== user.userid) {
newArray.push(n);
}
});
users[user.receivingFrom].relayReceivers = newArray;
}
}
if(user.relayReceivers.length && user.isBroadcastInitiator === false) {
askNestedUsersToRejoin(user.relayReceivers);
}
delete users[socket.userid];
} catch (e) {
consoleLog(e);
}
});
};
function askNestedUsersToRejoin(relayReceivers) {
try {
var usersToAskRejoin = [];
relayReceivers.forEach(function(receiver) {
if(!!users[receiver.userid]) {
users[receiver.userid].canRelay = false;
users[receiver.userid].receivingFrom = null;
receiver.socket.emit('rejoin-broadcast', receiver.broadcastId);
}
});
}
catch(e) {
consoleLog(e);
}
}
function getFirstAvailableBraodcater(broadcastId, maxRelayLimitPerUser) {
try {
var broadcastInitiator = users[broadcastId];
// if initiator is capable to receive users
if(broadcastInitiator.relayReceivers.length < maxRelayLimitPerUser) {
return broadcastInitiator;
}
// otherwise if initiator knows who is current relaying user
if(broadcastInitiator.lastRelayuserid) {
var lastRelayUser = users[broadcastInitiator.lastRelayuserid];
if(lastRelayUser && lastRelayUser.relayReceivers.length < maxRelayLimitPerUser) {
return lastRelayUser;
}
}
// otherwise, search for a user who not relayed anything yet
var userFound;
for(var n in users) {
var user = users[n];
if(userFound) {
continue;
}
else if(user.broadcastId === broadcastId) {
if(!user.relayReceivers.length && user.canRelay === true) {
userFound = user;
}
}
}
if(userFound) {
return userFound;
}
// need to increase "maxRelayLimitPerUser" in this situation
// so that each relaying user can distribute the bandwidth
return broadcastInitiator;
} catch (e) {
consoleLog(e);
}
}
function consoleLog() {
// return; // comment this line for development testings
// console.log(arguments);
}