gecko/dom/media/PeerConnection.js

920 lines
28 KiB
JavaScript
Raw Normal View History

/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
"use strict";
const {classes: Cc, interfaces: Ci, utils: Cu, results: Cr} = Components;
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
const PC_CONTRACT = "@mozilla.org/dom/peerconnection;1";
const PC_ICE_CONTRACT = "@mozilla.org/dom/rtcicecandidate;1";
const PC_SESSION_CONTRACT = "@mozilla.org/dom/rtcsessiondescription;1";
const PC_MANAGER_CONTRACT = "@mozilla.org/dom/peerconnectionmanager;1";
const PC_CID = Components.ID("{7cb2b368-b1ce-4560-acac-8e0dbda7d3d0}");
const PC_ICE_CID = Components.ID("{8c5dbd70-2c8e-4ecb-a5ad-2fc919099f01}");
const PC_SESSION_CID = Components.ID("{5f21ffd9-b73f-4ba0-a685-56b4667aaf1c}");
const PC_MANAGER_CID = Components.ID("{7293e901-2be3-4c02-b4bd-cbef6fc24f78}");
// Global list of PeerConnection objects, so they can be cleaned up when
// a page is torn down. (Maps inner window ID to an array of PC objects).
function GlobalPCList() {
this._list = [];
this._networkdown = false; // XXX Need to query current state somehow
Services.obs.addObserver(this, "inner-window-destroyed", true);
Services.obs.addObserver(this, "profile-change-net-teardown", true);
Services.obs.addObserver(this, "network:offline-about-to-go-offline", true);
Services.obs.addObserver(this, "network:offline-status-changed", true);
}
GlobalPCList.prototype = {
QueryInterface: XPCOMUtils.generateQI([Ci.nsIObserver,
Ci.nsISupportsWeakReference,
Ci.IPeerConnectionManager]),
classID: PC_MANAGER_CID,
classInfo: XPCOMUtils.generateCI({classID: PC_MANAGER_CID,
contractID: PC_MANAGER_CONTRACT,
classDescription: "PeerConnectionManager",
interfaces: [
Ci.nsIObserver,
Ci.nsISupportsWeakReference,
Ci.IPeerConnectionManager
]}),
_xpcom_factory: {
createInstance: function(outer, iid) {
if (outer) {
throw Cr.NS_ERROR_NO_AGGREGATION;
}
return _globalPCList.QueryInterface(iid);
}
},
addPC: function(pc) {
let winID = pc._winID;
if (this._list[winID]) {
this._list[winID].push(Components.utils.getWeakReference(pc));
} else {
this._list[winID] = [Components.utils.getWeakReference(pc)];
}
this.removeNullRefs(winID);
},
removeNullRefs: function(winID) {
if (this._list === undefined || this._list[winID] === undefined) {
return;
}
this._list[winID] = this._list[winID].filter(
function (e,i,a) { return e.get() !== null; });
},
hasActivePeerConnection: function(winID) {
this.removeNullRefs(winID);
return this._list[winID] ? true : false;
},
observe: function(subject, topic, data) {
if (topic == "inner-window-destroyed") {
let winID = subject.QueryInterface(Ci.nsISupportsPRUint64).data;
if (this._list[winID]) {
this._list[winID].forEach(function(pcref) {
let pc = pcref.get();
if (pc !== null) {
pc._pc.close(false);
delete pc._observer;
pc._pc = null;
}
});
delete this._list[winID];
}
} else if (topic == "profile-change-net-teardown" ||
topic == "network:offline-about-to-go-offline") {
// Delete all peerconnections on shutdown - synchronously (we need
// them to be done deleting transports before we return)!
// Also kill them if "Work Offline" is selected - more can be created
// while offline, but attempts to connect them should fail.
let array;
while ((array = this._list.pop()) != undefined) {
array.forEach(function(pcref) {
let pc = pcref.get();
if (pc !== null) {
pc._pc.close(true);
delete pc._observer;
pc._pc = null;
}
});
};
this._networkdown = true;
}
else if (topic == "network:offline-status-changed") {
if (data == "offline") {
// this._list shold be empty here
this._networkdown = true;
} else if (data == "online") {
this._networkdown = false;
}
}
},
};
let _globalPCList = new GlobalPCList();
function IceCandidate(candidate) {
this.candidate = candidate;
this.sdpMid = null;
this.sdpMLineIndex = null;
}
IceCandidate.prototype = {
classID: PC_ICE_CID,
classInfo: XPCOMUtils.generateCI({classID: PC_ICE_CID,
contractID: PC_ICE_CONTRACT,
classDescription: "IceCandidate",
interfaces: [
Ci.nsIDOMRTCIceCandidate
],
flags: Ci.nsIClassInfo.DOM_OBJECT}),
QueryInterface: XPCOMUtils.generateQI([
Ci.nsIDOMRTCIceCandidate, Ci.nsIDOMGlobalObjectConstructor
]),
constructor: function(win, candidateInitDict) {
if (this._win) {
throw new Error("Constructor already called");
}
this._win = win;
if (candidateInitDict !== undefined) {
this.candidate = candidateInitDict.candidate || null;
this.sdpMid = candidateInitDict.sdpMid || null;
this.sdpMLineIndex = candidateInitDict.sdpMLineIndex === null ?
null : candidateInitDict.sdpMLineIndex + 1;
} else {
this.candidate = this.sdpMid = this.sdpMLineIndex = null;
}
}
};
function SessionDescription(type, sdp) {
this.type = type;
this.sdp = sdp;
}
SessionDescription.prototype = {
classID: PC_SESSION_CID,
classInfo: XPCOMUtils.generateCI({classID: PC_SESSION_CID,
contractID: PC_SESSION_CONTRACT,
classDescription: "SessionDescription",
interfaces: [
Ci.nsIDOMRTCSessionDescription
],
flags: Ci.nsIClassInfo.DOM_OBJECT}),
QueryInterface: XPCOMUtils.generateQI([
Ci.nsIDOMRTCSessionDescription, Ci.nsIDOMGlobalObjectConstructor
]),
constructor: function(win, descriptionInitDict) {
if (this._win) {
throw new Error("Constructor already called");
}
this._win = win;
if (descriptionInitDict !== undefined) {
this.type = descriptionInitDict.type || null;
this.sdp = descriptionInitDict.sdp || null;
} else {
this.type = this.sdp = null;
}
},
toString: function() {
return JSON.stringify({
type: this.type, sdp: this.sdp
});
}
};
function PeerConnection() {
this._queue = [];
this._pc = null;
this._observer = null;
this._closed = false;
this._onCreateOfferSuccess = null;
this._onCreateOfferFailure = null;
this._onCreateAnswerSuccess = null;
this._onCreateAnswerFailure = null;
this._pendingType = null;
this._localType = null;
this._remoteType = null;
/**
* Everytime we get a request from content, we put it in the queue. If
* there are no pending operations though, we will execute it immediately.
* In PeerConnectionObserver, whenever we are notified that an operation
* has finished, we will check the queue for the next operation and execute
* if neccesary. The _pending flag indicates whether an operation is currently
* in progress.
*/
this._pending = false;
// Public attributes.
this.onaddstream = null;
this.onopen = null;
this.onremovestream = null;
this.onicecandidate = null;
this.onstatechange = null;
this.ongatheringchange = null;
this.onicechange = null;
// Data channel.
this.ondatachannel = null;
this.onconnection = null;
this.onclosedconnection = null;
}
PeerConnection.prototype = {
classID: PC_CID,
classInfo: Cu.getDOMClassInfo("RTCPeerConnection"),
QueryInterface: XPCOMUtils.generateQI([
Ci.nsIDOMRTCPeerConnection,
Ci.nsIDOMGlobalObjectConstructor,
Ci.nsISupportsWeakReference
]),
// Constructor is an explicit function, because of nsIDOMGlobalObjectConstructor.
constructor: function(win, rtcConfig) {
if (!Services.prefs.getBoolPref("media.peerconnection.enabled")) {
throw new Error("PeerConnection not enabled (did you set the pref?)");
}
if (this._win) {
throw new Error("RTCPeerConnection constructor already called");
}
if (!rtcConfig ||
!Services.prefs.getBoolPref("media.peerconnection.use_document_iceservers")) {
rtcConfig = {iceServers:
JSON.parse(Services.prefs.getCharPref("media.peerconnection.default_iceservers"))};
}
this._mustValidateRTCConfiguration(rtcConfig,
"RTCPeerConnection constructor passed invalid RTCConfiguration");
if (_globalPCList._networkdown) {
throw new Error("Can't create RTCPeerConnections when the network is down");
}
this._pc = Cc["@mozilla.org/peerconnection;1"].
createInstance(Ci.IPeerConnection);
this._observer = new PeerConnectionObserver(this);
// Nothing starts until ICE gathering completes.
this._queueOrRun({
func: this._pc.initialize,
args: [this._observer, win, rtcConfig, Services.tm.currentThread],
wait: true
});
this._win = win;
this._winID = this._win.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils).currentInnerWindowID;
// Add a reference to the PeerConnection to global list.
_globalPCList.addPC(this);
},
/**
* Add a function to the queue or run it immediately if the queue is empty.
* Argument is an object with the func, args and wait properties; wait should
* be set to true if the function has a success/error callback that will
* call _executeNext, false if it doesn't have a callback.
*/
_queueOrRun: function(obj) {
this._checkClosed();
if (!this._pending) {
if (obj.type !== undefined) {
this._pendingType = obj.type;
}
obj.func.apply(this, obj.args);
if (obj.wait) {
this._pending = true;
}
} else {
this._queue.push(obj);
}
},
// Pick the next item from the queue and run it.
_executeNext: function() {
if (this._queue.length) {
let obj = this._queue.shift();
if (obj.type !== undefined) {
this._pendingType = obj.type;
}
obj.func.apply(this, obj.args);
if (!obj.wait) {
this._executeNext();
}
} else {
this._pending = false;
}
},
/**
* An RTCConfiguration looks like this:
*
* { "iceServers": [ { url:"stun:23.21.150.121" },
* { url:"turn:user@turn.example.org", credential:"mypass"} ] }
*
* We check for basic structure and well-formed stun/turn urls, but not
* validity of servers themselves, before passing along to C++.
* ErrorMsg is passed in to detail which array-entry failed, if any.
*/
_mustValidateRTCConfiguration: function(rtcConfig, errorMsg) {
function isObject(obj) {
return obj && (typeof obj === "object");
}
function isArraylike(obj) {
return isObject(obj) && ("length" in obj);
}
function nicerNewURI(uriStr, errorMsg) {
let ios = Cc['@mozilla.org/network/io-service;1'].getService(Ci.nsIIOService);
try {
return ios.newURI(uriStr, null, null);
} catch (e if (e.result == Cr.NS_ERROR_MALFORMED_URI)) {
throw new Error(errorMsg + " - malformed URI: " + uriStr);
}
}
function mustValidateServer(server) {
let url = nicerNewURI(server.url, errorMsg);
if (!(url.scheme in { stun:1, stuns:1, turn:1, turns:1 })) {
throw new Error (errorMsg + " - improper scheme: " + url.scheme);
}
if (server.credential && isObject(server.credential)) {
throw new Error (errorMsg + " - invalid credential");
}
}
if (!isObject(rtcConfig)) {
throw new Error (errorMsg);
}
if (!isArraylike(rtcConfig.iceServers)) {
throw new Error (errorMsg + " - iceServers [] property not present");
}
let len = rtcConfig.iceServers.length;
for (let i=0; i < len; i++) {
mustValidateServer (rtcConfig.iceServers[i], errorMsg);
}
},
/**
* Constraints look like this:
*
* {
* mandatory: {"OfferToReceiveAudio": true, "OfferToReceiveVideo": true },
* optional: [{"VoiceActivityDetection": true}, {"FooBar": 10}]
* }
*
* We check for basic structure of constraints and the validity of
* mandatory constraints against those we support (fail if we don't).
* Unknown optional constraints may be of any type.
*/
_mustValidateConstraints: function(constraints, errorMsg) {
function isObject(obj) {
return obj && (typeof obj === "object");
}
function isArraylike(obj) {
return isObject(obj) && ("length" in obj);
}
const SUPPORTED_CONSTRAINTS = {
OfferToReceiveAudio:1,
OfferToReceiveVideo:1,
MozDontOfferDataChannel:1
};
const OTHER_KNOWN_CONSTRAINTS = {
VoiceActivityDetection:1,
IceTransports:1,
RequestIdentity:1
};
// Parse-aid: Testing for pilot error of missing outer block avoids
// otherwise silent no-op since both mandatory and optional are optional
if (!isObject(constraints) || Array.isArray(constraints)) {
throw new Error(errorMsg);
}
if (constraints.mandatory) {
// Testing for pilot error of using [] on mandatory here throws nicer msg
// (arrays would throw in loop below regardless but with more cryptic msg)
if (!isObject(constraints.mandatory) || Array.isArray(constraints.mandatory)) {
throw new Error(errorMsg + " - malformed mandatory constraints");
}
for (let constraint in constraints.mandatory) {
if (!(constraint in SUPPORTED_CONSTRAINTS) &&
constraints.mandatory.hasOwnProperty(constraint)) {
throw new Error (errorMsg + " - " +
((constraint in OTHER_KNOWN_CONSTRAINTS)?
"unsupported" : "unknown") +
" mandatory constraint: " + constraint);
}
}
}
if (constraints.optional) {
if (!isArraylike(constraints.optional)) {
throw new Error(errorMsg + " - malformed optional constraint array");
}
let len = constraints.optional.length;
for (let i = 0; i < len; i += 1) {
if (!isObject(constraints.optional[i])) {
throw new Error(errorMsg + " - malformed optional constraint: " +
constraints.optional[i]);
}
let constraints_per_entry = 0;
for (let constraint in constraints.optional[i]) {
if (constraints.optional[i].hasOwnProperty(constraint)) {
if (constraints_per_entry) {
throw new Error (errorMsg +
" - optional constraint must be single key/value pair");
}
constraints_per_entry += 1;
}
}
}
}
},
// Ideally, this should be of the form _checkState(state),
// where the state is taken from an enumeration containing
// the valid peer connection states defined in the WebRTC
// spec. See Bug 831756.
_checkClosed: function() {
if (this._closed) {
throw new Error ("Peer connection is closed");
}
},
createOffer: function(onSuccess, onError, constraints) {
if (!constraints) {
constraints = {};
}
this._mustValidateConstraints(constraints, "createOffer passed invalid constraints");
this._onCreateOfferSuccess = onSuccess;
this._onCreateOfferFailure = onError;
this._queueOrRun({
func: this._pc.createOffer,
args: [constraints],
wait: true
});
},
_createAnswer: function(onSuccess, onError, constraints, provisional) {
this._onCreateAnswerSuccess = onSuccess;
this._onCreateAnswerFailure = onError;
if (!this.remoteDescription) {
this._observer.onCreateAnswerError(3); // PC_INVALID_REMOTE_SDP
/*
This needs to be matched to spec -- see bug 834270. The final
code will be of the form:
this._observer.onCreateAnswerError(ci.IPeerConnection.kInvalidState,
"setRemoteDescription not called");
*/
return;
}
if (this.remoteDescription.type != "offer") {
this._observer.onCreateAnswerError(3); // PC_INVALID_REMOTE_SDP
/*
This needs to be matched to spec -- see bug 834270. The final
code will be of the form:
this._observer.onCreateAnswerError(ci.IPeerConnection.kInvalidState,
"No outstanding offer");
*/
return;
}
// TODO: Implement provisional answer.
this._pc.createAnswer(constraints);
},
createAnswer: function(onSuccess, onError, constraints, provisional) {
if (!constraints) {
constraints = {};
}
this._mustValidateConstraints(constraints, "createAnswer passed invalid constraints");
if (!provisional) {
provisional = false;
}
this._queueOrRun({
func: this._createAnswer,
args: [onSuccess, onError, constraints, provisional],
wait: true
});
},
setLocalDescription: function(desc, onSuccess, onError) {
// TODO -- if we have two setLocalDescriptions in the
// queue,this code overwrites the callbacks for the first
// one with the callbacks for the second one. See Bug 831759.
this._onSetLocalDescriptionSuccess = onSuccess;
this._onSetLocalDescriptionFailure = onError;
let type;
switch (desc.type) {
case "offer":
type = Ci.IPeerConnection.kActionOffer;
break;
case "answer":
type = Ci.IPeerConnection.kActionAnswer;
break;
default:
throw new Error(
"Invalid type " + desc.type + " provided to setLocalDescription"
);
break;
}
this._queueOrRun({
func: this._pc.setLocalDescription,
args: [type, desc.sdp],
wait: true,
type: desc.type
});
},
setRemoteDescription: function(desc, onSuccess, onError) {
// TODO -- if we have two setRemoteDescriptions in the
// queue, this code overwrites the callbacks for the first
// one with the callbacks for the second one. See Bug 831759.
this._onSetRemoteDescriptionSuccess = onSuccess;
this._onSetRemoteDescriptionFailure = onError;
let type;
switch (desc.type) {
case "offer":
type = Ci.IPeerConnection.kActionOffer;
break;
case "answer":
type = Ci.IPeerConnection.kActionAnswer;
break;
default:
throw new Error(
"Invalid type " + desc.type + " provided to setRemoteDescription"
);
break;
}
this._queueOrRun({
func: this._pc.setRemoteDescription,
args: [type, desc.sdp],
wait: true,
type: desc.type
});
},
updateIce: function(config, constraints, restart) {
return Cr.NS_ERROR_NOT_IMPLEMENTED;
},
addIceCandidate: function(cand, onSuccess, onError) {
if (!cand) {
throw new Error ("NULL candidate passed to addIceCandidate!");
}
if (!cand.candidate || !cand.sdpMLineIndex) {
throw new Error ("Invalid candidate passed to addIceCandidate!");
}
this._onAddIceCandidateSuccess = onSuccess;
this._onAddIceCandidateError = onError;
this._queueOrRun({
func: this._pc.addIceCandidate,
args: [cand.candidate, cand.sdpMid || "", cand.sdpMLineIndex],
wait: true
});
},
addStream: function(stream, constraints) {
// TODO: Implement constraints.
this._queueOrRun({
func: this._pc.addStream,
args: [stream],
wait: false
});
},
removeStream: function(stream) {
this._queueOrRun({
func: this._pc.removeStream,
args: [stream],
wait: false
});
},
close: function() {
this._queueOrRun({
func: this._pc.close,
args: [false],
wait: false
});
this._closed = true;
},
get localStreams() {
this._checkClosed();
return this._pc.localStreams;
},
get remoteStreams() {
this._checkClosed();
return this._pc.remoteStreams;
},
get localDescription() {
this._checkClosed();
let sdp = this._pc.localDescription;
if (sdp.length == 0) {
return null;
}
return {
type: this._localType, sdp: sdp,
__exposedProps__: { type: "rw", sdp: "rw" }
};
},
get remoteDescription() {
this._checkClosed();
let sdp = this._pc.remoteDescription;
if (sdp.length == 0) {
return null;
}
return {
type: this._remoteType, sdp: sdp,
__exposedProps__: { type: "rw", sdp: "rw" }
};
},
createDataChannel: function(label, dict) {
this._checkClosed();
if (dict &&
dict.maxRetransmitTime != undefined &&
dict.maxRetransmitNum != undefined) {
throw new Error("Both maxRetransmitTime and maxRetransmitNum cannot be provided");
}
// Must determine the type where we still know if entries are undefined.
let type;
if (dict.maxRetransmitTime != undefined) {
type = Ci.IPeerConnection.kDataChannelPartialReliableTimed;
} else if (dict.maxRetransmitNum != undefined) {
type = Ci.IPeerConnection.kDataChannelPartialReliableRexmit;
} else {
type = Ci.IPeerConnection.kDataChannelReliable;
}
// Synchronous since it doesn't block.
// TODO -- this may need to be revisited, based on how the
// spec ends up defining data channel handling
let channel = this._pc.createDataChannel(
label, type, dict.outOfOrderAllowed, dict.maxRetransmitTime,
dict.maxRetransmitNum
);
return channel;
},
connectDataConnection: function(localport, remoteport, numstreams) {
if (numstreams == undefined || numstreams <= 0) {
numstreams = 16;
}
this._queueOrRun({
func: this._pc.connectDataConnection,
args: [localport, remoteport, numstreams],
wait: false
});
}
};
// This is a separate object because we don't want to expose it to DOM.
function PeerConnectionObserver(dompc) {
this._dompc = dompc;
}
PeerConnectionObserver.prototype = {
QueryInterface: XPCOMUtils.generateQI([Ci.IPeerConnectionObserver,
Ci.nsISupportsWeakReference]),
onCreateOfferSuccess: function(offer) {
if (this._dompc._onCreateOfferSuccess) {
try {
this._dompc._onCreateOfferSuccess.onCallback({
type: "offer", sdp: offer,
__exposedProps__: { type: "rw", sdp: "rw" }
});
} catch(e) {}
}
this._dompc._executeNext();
},
onCreateOfferError: function(code) {
if (this._dompc._onCreateOfferFailure) {
try {
this._dompc._onCreateOfferFailure.onCallback(code);
} catch(e) {}
}
this._dompc._executeNext();
},
onCreateAnswerSuccess: function(answer) {
if (this._dompc._onCreateAnswerSuccess) {
try {
this._dompc._onCreateAnswerSuccess.onCallback({
type: "answer", sdp: answer,
__exposedProps__: { type: "rw", sdp: "rw" }
});
} catch(e) {}
}
this._dompc._executeNext();
},
onCreateAnswerError: function(code) {
if (this._dompc._onCreateAnswerFailure) {
try {
this._dompc._onCreateAnswerFailure.onCallback(code);
} catch(e) {}
}
this._dompc._executeNext();
},
onSetLocalDescriptionSuccess: function(code) {
this._dompc._localType = this._dompc._pendingType;
this._dompc._pendingType = null;
if (this._dompc._onSetLocalDescriptionSuccess) {
try {
this._dompc._onSetLocalDescriptionSuccess.onCallback(code);
} catch(e) {}
}
this._dompc._executeNext();
},
onSetRemoteDescriptionSuccess: function(code) {
this._dompc._remoteType = this._dompc._pendingType;
this._dompc._pendingType = null;
if (this._dompc._onSetRemoteDescriptionSuccess) {
try {
this._dompc._onSetRemoteDescriptionSuccess.onCallback(code);
} catch(e) {}
}
this._dompc._executeNext();
},
onSetLocalDescriptionError: function(code) {
this._dompc._pendingType = null;
if (this._dompc._onSetLocalDescriptionFailure) {
try {
this._dompc._onSetLocalDescriptionFailure.onCallback(code);
} catch(e) {}
}
this._dompc._executeNext();
},
onSetRemoteDescriptionError: function(code) {
this._dompc._pendingType = null;
if (this._dompc._onSetRemoteDescriptionFailure) {
this._dompc._onSetRemoteDescriptionFailure.onCallback(code);
}
this._dompc._executeNext();
},
onAddIceCandidateSuccess: function(code) {
this._dompc._pendingType = null;
if (this._dompc._onAddIceCandidateSuccess) {
this._dompc._onAddIceCandidateSuccess.onCallback(code);
}
this._dompc._executeNext();
},
onAddIceCandidateError: function(code) {
this._dompc._pendingType = null;
if (this._dompc._onAddIceCandidateError) {
this._dompc._onAddIceCandidateError.onCallback(code);
}
this._dompc._executeNext();
},
onStateChange: function(state) {
if (state != Ci.IPeerConnectionObserver.kIceState) {
return;
}
let self = this;
let iceCb = function() {};
let iceGatherCb = function() {};
if (this._dompc.onicechange) {
iceCb = function(args) {
try {
self._dompc.onicechange(args);
} catch(e) {}
};
}
if (this._dompc.ongatheringchange) {
iceGatherCb = function(args) {
try {
self._dompc.ongatheringchange(args);
} catch(e) {}
};
}
switch (this._dompc._pc.iceState) {
case Ci.IPeerConnection.kIceGathering:
iceGatherCb("gathering");
break;
case Ci.IPeerConnection.kIceWaiting:
iceCb("starting");
this._dompc._executeNext();
break;
case Ci.IPeerConnection.kIceChecking:
iceCb("checking");
break;
case Ci.IPeerConnection.kIceConnected:
// ICE gathering complete.
iceCb("connected");
iceGatherCb("complete");
break;
case Ci.IPeerConnection.kIceFailed:
iceCb("failed");
break;
default:
// Unknown state!
break;
}
},
onAddStream: function(stream, type) {
if (this._dompc.onaddstream) {
try {
this._dompc.onaddstream.onCallback({
stream: stream, type: type,
__exposedProps__: { stream: "r", type: "r" }
});
} catch(e) {}
}
},
onRemoveStream: function(stream, type) {
if (this._dompc.onremovestream) {
try {
this._dompc.onremovestream.onCallback({
stream: stream, type: type,
__exposedProps__: { stream: "r", type: "r" }
});
} catch(e) {}
}
},
foundIceCandidate: function(cand) {
if (this._dompc.onicecandidate) {
try {
this._dompc.onicecandidate.onCallback({
candidate: cand,
__exposedProps__: { candidate: "rw" }
});
} catch(e) {}
}
},
notifyDataChannel: function(channel) {
if (this._dompc.ondatachannel) {
try {
this._dompc.ondatachannel.onCallback(channel);
} catch(e) {}
}
},
notifyConnection: function() {
if (this._dompc.onconnection) {
try {
this._dompc.onconnection.onCallback();
} catch(e) {}
}
},
notifyClosedConnection: function() {
if (this._dompc.onclosedconnection) {
try {
this._dompc.onclosedconnection.onCallback();
} catch(e) {}
}
}
};
this.NSGetFactory = XPCOMUtils.generateNSGetFactory(
[GlobalPCList, IceCandidate, SessionDescription, PeerConnection]
);