jiti-meet/react/features/base/lib-jitsi-meet/native/RTCPeerConnection.js

320 lines
10 KiB
JavaScript

import { NativeModules } from 'react-native';
import { RTCPeerConnection, RTCSessionDescription } from 'react-native-webrtc';
// XXX At the time of this writing extending RTCPeerConnection using ES6 'class'
// and 'extends' causes a runtime error related to the attempt to define the
// onaddstream property setter. The error mentions that babelHelpers.set is
// undefined which appears to be a thing inside React Native's packager. As a
// workaround, extend using the pre-ES6 way.
/**
* The RTCPeerConnection provided by react-native-webrtc fires onaddstream
* before it remembers remotedescription (and thus makes it available to API
* clients). Because that appears to be a problem for lib-jitsi-meet which has
* been successfully running on Chrome, Firefox, Temasys, etc. for a very long
* time, attempt to meets its expectations (by extending RTCPPeerConnection).
*
* @class
*/
export default function _RTCPeerConnection(...args) {
/* eslint-disable indent, no-invalid-this */
RTCPeerConnection.apply(this, args);
this.onaddstream = (...args) => // eslint-disable-line no-shadow
(this._onaddstreamQueue
? this._queueOnaddstream
: this._invokeOnaddstream)
.apply(this, args);
// Shadow RTCPeerConnection's onaddstream but after _RTCPeerConnection has
// assigned to the property in question. Defining the property on
// _RTCPeerConnection's prototype may (or may not, I don't know) work but I
// don't want to try because the following approach appears to work and I
// understand it.
Object.defineProperty(this, 'onaddstream', {
configurable: true,
enumerable: true,
get() {
return this._onaddstream;
},
set(value) {
this._onaddstream = value;
}
});
/* eslint-enable indent, no-invalid-this */
}
_RTCPeerConnection.prototype = Object.create(RTCPeerConnection.prototype);
_RTCPeerConnection.prototype.constructor = _RTCPeerConnection;
_RTCPeerConnection.prototype._invokeOnaddstream = function(...args) {
const onaddstream = this._onaddstream;
return onaddstream && onaddstream.apply(this, args);
};
_RTCPeerConnection.prototype._invokeQueuedOnaddstream = function(q) {
q && q.forEach(args => {
try {
this._invokeOnaddstream(...args);
} catch (e) {
// TODO Determine whether the combination of the standard
// setRemoteDescription and onaddstream results in a similar
// swallowing of errors.
_LOGE(e);
}
});
};
_RTCPeerConnection.prototype._queueOnaddstream = function(...args) {
this._onaddstreamQueue.push(Array.from(args));
};
_RTCPeerConnection.prototype.setRemoteDescription = function(
sessionDescription,
successCallback,
errorCallback) {
// If the deprecated callback-based version is used, translate it to the
// Promise-based version.
if (typeof successCallback !== 'undefined'
|| typeof errorCallback !== 'undefined') {
// XXX Returning a Promise is not necessary. But I don't see why it'd
// hurt (much).
return (
_RTCPeerConnection.prototype.setRemoteDescription.call(
this,
sessionDescription)
.then(successCallback, errorCallback));
}
return (
_synthesizeIPv6Addresses(sessionDescription)
.catch(reason => {
reason && _LOGE(reason);
return sessionDescription;
})
.then(value => _setRemoteDescription.bind(this)(value)));
};
/**
* Logs at error level.
*
* @private
* @returns {void}
*/
function _LOGE(...args) {
console && console.error && console.error(...args);
}
/**
* Adapts react-native-webrtc's {@link RTCPeerConnection#setRemoteDescription}
* implementation which uses the deprecated, callback-based version to the
* {@code Promise}-based version.
*
* @param {RTCSessionDescription} sessionDescription - The RTCSessionDescription
* which specifies the configuration of the remote end of the connection.
* @private
* @private
* @returns {Promise}
*/
function _setRemoteDescription(sessionDescription) {
return new Promise((resolve, reject) => {
/* eslint-disable no-invalid-this */
// Ensure I'm not remembering onaddstream invocations from previous
// setRemoteDescription calls. I shouldn't be but... anyway.
this._onaddstreamQueue = [];
RTCPeerConnection.prototype.setRemoteDescription.call(
this,
sessionDescription,
(...args) => {
let q;
try {
resolve(...args);
} finally {
q = this._onaddstreamQueue;
this._onaddstreamQueue = undefined;
}
this._invokeQueuedOnaddstream(q);
},
(...args) => {
this._onaddstreamQueue = undefined;
reject(...args);
});
/* eslint-enable no-invalid-this */
});
}
/**
* Synthesize IPv6 addresses on iOS in order to support IPv6 NAT64 networks.
*
* @param {RTCSessionDescription} sdp - The RTCSessionDescription which
* specifies the configuration of the remote end of the connection.
* @private
* @returns {Promise}
*/
function _synthesizeIPv6Addresses(sdp) {
// The synthesis of IPv6 addresses is implemented on iOS only at the time of
// this writing.
if (!NativeModules.POSIX) {
return Promise.resolve(sdp);
}
return (
new Promise(resolve => resolve(_synthesizeIPv6Addresses0(sdp)))
.then(({ ips, lines }) =>
Promise.all(Array.from(ips.values()))
.then(() => _synthesizeIPv6Addresses1(sdp, ips, lines))
));
}
/* eslint-disable max-depth */
/**
* Implements the initial phase of the synthesis of IPv6 addresses.
*
* @param {RTCSessionDescription} sessionDescription - The RTCSessionDescription
* for which IPv6 addresses will be synthesized.
* @private
* @returns {{
* ips: Map,
* lines: Array
* }}
*/
function _synthesizeIPv6Addresses0(sessionDescription) {
const sdp = sessionDescription.sdp;
let start = 0;
const lines = [];
const ips = new Map();
const getaddrinfo = NativeModules.POSIX.getaddrinfo;
do {
const end = sdp.indexOf('\r\n', start);
let line;
if (end === -1) {
line = sdp.substring(start);
// Break out of the loop at the end of the iteration.
start = undefined;
} else {
line = sdp.substring(start, end);
start = end + 2;
}
if (line.startsWith('a=candidate:')) {
const candidate = line.split(' ');
if (candidate.length >= 10 && candidate[6] === 'typ') {
const ip4s = [ candidate[4] ];
let abort = false;
for (let i = 8; i < candidate.length; ++i) {
if (candidate[i] === 'raddr') {
ip4s.push(candidate[++i]);
break;
}
}
for (const ip of ip4s) {
if (ip.indexOf(':') === -1) {
ips.has(ip)
|| ips.set(ip, new Promise((resolve, reject) => {
const v = ips.get(ip);
if (v && typeof v === 'string') {
resolve(v);
} else {
getaddrinfo(ip).then(
value => {
if (value.indexOf(':') === -1
|| value === ips.get(ip)) {
ips.delete(ip);
} else {
ips.set(ip, value);
}
resolve(value);
},
reject);
}
}));
} else {
abort = true;
break;
}
}
if (abort) {
ips.clear();
break;
}
line = candidate;
}
}
lines.push(line);
} while (start);
return {
ips,
lines
};
}
/* eslint-enable max-depth */
/**
* Implements the initial phase of the synthesis of IPv6 addresses.
*
* @param {RTCSessionDescription} sessionDescription - The RTCSessionDescription
* for which IPv6 addresses are being synthesized.
* @param {Map} ips - A Map of IPv4 addresses found in the specified
* sessionDescription to synthesized IPv6 addresses.
* @param {Array} lines - The lines of the specified sessionDescription.
* @private
* @returns {RTCSessionDescription} A RTCSessionDescription that represents the
* result of the synthesis of IPv6 addresses.
*/
function _synthesizeIPv6Addresses1(sessionDescription, ips, lines) {
if (ips.size === 0) {
return sessionDescription;
}
for (let l = 0; l < lines.length; ++l) {
const candidate = lines[l];
if (typeof candidate !== 'string') {
let ip4 = candidate[4];
let ip6 = ips.get(ip4);
ip6 && (candidate[4] = ip6);
for (let i = 8; i < candidate.length; ++i) {
if (candidate[i] === 'raddr') {
ip4 = candidate[++i];
(ip6 = ips.get(ip4)) && (candidate[i] = ip6);
break;
}
}
lines[l] = candidate.join(' ');
}
}
return new RTCSessionDescription({
sdp: lines.join('\r\n'),
type: sessionDescription.type
});
}