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worker.sfuClient.bundle.js
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worker.sfuClient.bundle.js
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/** @file automatically generated, do not edit it. */
/* eslint-disable max-len, indent, dot-notation, no-extra-parens */
/******/ (() => { // webpackBootstrap
/******/ "use strict";
var __webpack_exports__ = {};
const kLogTag = "sfuWorker:";
var gDebug = false;
var gOwnCid;
var gEncryptKey;
var gSenderCidAndKeyId;
var gEncryptors;
var gDecryptors;
var gPeerKeys;
function newCryptoModeDesc(iv) {
return { name: 'AES-GCM', tagLength: 32, iv: iv };
}
/**
* Packet layout:
* fromCID.3 keyID.1 packetNo.4 data
*/
class Encryptor extends TransformStream {
constructor(mid, iv, func) {
super({ start() { }, flush() { }, transform: func });
this.iv = new Uint8Array(12);
this.ivView = new DataView(this.iv.buffer);
this.ctr = 0;
this.cryptoMode = newCryptoModeDesc(this.iv);
this.mid = mid;
this.iv.set(iv, 4);
// LOGD_CWORKER(`Created encryptor for mid ${mid} iv=${binToHex(iv.buffer)}`);
}
}
class Decryptor extends TransformStream {
constructor(mid, func) {
super({ start() { }, flush() { }, transform: func });
this.iv = new Uint8Array(12);
this.ivView = new DataView(this.iv.buffer);
this.cryptoMode = newCryptoModeDesc(this.iv);
this.mid = mid;
// LOGD_CWORKER("Created decryptor for mid", mid);
}
assign(fromCid, iv) {
this.senderCid = fromCid;
this.iv.set(iv, 4);
this.noPacketYet = true;
do {
if (gDebug) {
console.log(kLogTag, `Assigned track with mid ${this.mid} to peer cid ${fromCid} with iv: ${binToHex(iv.buffer)}`);
}
} while (0);
}
}
function resetCrypto() {
gPeerKeys = new Map;
gEncryptors = {};
gDecryptors = {};
gEncryptKey = undefined;
gSenderCidAndKeyId = undefined;
}
function assert(cond) {
if (!cond) {
throw new Error("Assertion failed");
}
}
function createEncryptor(inputStream, outputStream, mid, iv) {
assert(iv.byteLength === 8);
let enc = gEncryptors[mid] = new Encryptor(mid, iv, async (encodedFrame, controller) => {
if (!gEncryptKey) { // may happend during reconnect
return;
}
enc.ivView.setUint32(0, ++enc.ctr, true);
// LOGD_CWORKER("encrypt[" + ctx.mid + "]: encrypting frame", ctx.ctr, "iv:", binToHex(ctx.ivView.buffer));
let packet = new Uint8Array(encodedFrame.data.byteLength + 12);
let header = new DataView(packet.buffer, 0, 8);
header.setUint32(0, gSenderCidAndKeyId, true);
header.setUint32(4, enc.ctr, true);
enc.cryptoMode.additionalData = header;
let encrypted = await crypto.subtle.encrypt(enc.cryptoMode, gEncryptKey, encodedFrame.data);
packet.set(new Uint8Array(encrypted), 8);
encodedFrame.data = packet.buffer;
// Send it to the output stream.
controller.enqueue(encodedFrame);
});
inputStream.pipeThrough(enc).pipeTo(outputStream);
}
function setEncryptKey(keyId, key, notify) {
gEncryptKey = key;
gSenderCidAndKeyId = (((gOwnCid << 8) >>> 0) | (keyId & 0xff)) >>> 0;
if (notify) {
self.postMessage({ op: "keyset", keyId: keyId });
}
else {
do {
if (gDebug) {
console.log(kLogTag, "updated send key -> id:", keyId);
}
} while (0);
}
}
function createDecryptor(inputStream, outputStream, mid) {
var dec = gDecryptors[mid] = new Decryptor(mid, async (encodedFrame, controller) => {
// Reconstruct the original frame.
let header = new DataView(encodedFrame.data, 0, 8);
let fromCidAndKeyId = header.getUint32(0, true);
let fromCid = fromCidAndKeyId >>> 8;
if (fromCid !== dec.senderCid) {
console.warn(kLogTag, `decrypt[${dec.mid}]: Skipping packet from unexpected sender cid ${fromCid}`);
return;
}
let key = gPeerKeys.get(fromCidAndKeyId);
if (!key) {
console.warn(kLogTag, `decrypt[${dec.mid}]: Can't decrypt packet from cid ${fromCid} with unknown key ${fromCidAndKeyId & 0xff}`);
return;
}
let frameCtr = header.getUint32(4, true);
dec.ivView.setUint32(0, frameCtr, true);
let encData = new DataView(encodedFrame.data, 8);
dec.cryptoMode.additionalData = header;
try {
// LOG_CWORKER("decrypt[" + ctx.mid + "]: decrypting frame", frameCtr, "from peer", fromCid, "iv:", binToHex(ctx.ivView.buffer));
let plaintext = await crypto.subtle.decrypt(dec.cryptoMode, key, encData);
encodedFrame.data = plaintext;
controller.enqueue(encodedFrame);
}
catch (err) {
if (err.message) {
console.warn(kLogTag, `Error decrypting track with mid ${mid}: ${err.message}`);
}
else {
console.warn(kLogTag, `General error decrypting track with mid ${mid} from peer ${fromCid}`);
}
}
if (dec.noPacketYet) {
delete dec.noPacketYet;
const msg = { op: "rx-first", mid: mid };
if (encodedFrame.type) {
msg.type = encodedFrame.type;
}
self.postMessage(msg);
}
// LOG_CWORKER("frame size[" + mid +"]: ", encodedFrame.data.byteLength);
});
inputStream.pipeThrough(dec).pipeTo(outputStream);
}
;
function decryptorAssignTrack(mid, fromCid, iv) {
assert(iv.byteLength === 8);
let dec = gDecryptors[mid];
assert(dec);
dec.assign(fromCid, iv);
}
async function addDecryptKey(cid, keyId, key) {
let fullKeyId = (((cid << 8) >>> 0) | keyId) >>> 0;
gPeerKeys.set(fullKeyId, await crypto.subtle.importKey("raw", key, { name: "AES-GCM" }, true, ["encrypt", "decrypt"]));
}
function delKeysOfPeer(cid) {
let num = 0;
for (let id of gPeerKeys.keys()) {
if ((id >>> 8) === cid) {
gPeerKeys.delete(id);
num++;
}
}
if (num) {
do {
if (gDebug) {
console.log(kLogTag, `Deleted ${num} keys of peer`, cid);
}
} while (0);
}
}
onmessage = function (event) {
let data = event.data;
let cmd = data[0];
switch (cmd) {
case 'ek':
setEncryptKey(data[1], data[2], data[3]);
return;
case 'dk':
addDecryptKey(data[1], data[2], data[3]);
return;
case 'dt':
decryptorAssignTrack(data[1], data[2], data[3]);
return;
case 'ce':
createEncryptor(data[1], data[2], data[3], data[4]);
return;
case 'cd':
createDecryptor(data[1], data[2], data[3]);
return;
case 'cid':
gOwnCid = data[1];
return;
case 'dpk':
delKeysOfPeer(data[1]);
return;
case 'r':
resetCrypto();
return;
case 'dbg':
gDebug = data[1];
return;
default:
console.warn(kLogTag, `Unknown command '${cmd}'`);
return;
}
};
const hexDigits = "0123456789abcdef";
function binToHex(arr) {
var result = "";
arr = new DataView(arr.buffer || arr);
for (let i = 0; i < arr.byteLength; i++) {
let val = arr.getUint8(i);
result += hexDigits.charAt(val >> 4);
result += hexDigits.charAt(val & 0x0f);
}
return result;
}
/******/ })()
;