Cable-Desktop/js/test.js

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/*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
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// Setup dumb test wrapper
var testsdiv = $('#tests');
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var testsOutstanding = [];
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var exclusiveRunning = -1;
var exclusiveTestsWaiting = [];
var maxTestId = 0;
function startNextExclusiveTest() {
for (var i = 0; i < maxTestId; i++) {
if (exclusiveTestsWaiting[i] !== undefined) {
exclusiveTestsWaiting[i]();
break;
}
}
}
function TEST(func, name, exclusive) {
if (exclusive == undefined)
exculsive = false;
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var funcName = name === undefined ? func + "" : name;
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var testIndex = maxTestId;
var exclusiveIndex = -1;
if (exclusive && exclusiveRunning != -1)
exclusiveIndex = maxTestId;
maxTestId = maxTestId + 1;
function resolve(result, error) {
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if (testsOutstanding[testIndex] == undefined)
testsdiv.append('<p style="color: red;">' + funcName + ' called back multiple times</p>');
else if (error !== undefined) {
console.log(error.stack);
testsdiv.append('<p style="color: red;">' + funcName + ' threw ' + error + '</p>');
} else if (result === true)
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testsdiv.append('<p style="color: green;">' + funcName + ' passed</p>');
else
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testsdiv.append('<p style="color: red;">' + funcName + ' returned ' + result + '</p>');
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delete testsOutstanding[testIndex];
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if (exclusive) {
exclusiveRunning = -1;
localStorage.clear();
if (exclusiveIndex != -1)
delete exclusiveTestsWaiting[exclusiveIndex];
startNextExclusiveTest();
}
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}
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var runFunc = function() {
if (exclusive) {
exclusiveRunning = testIndex;
localStorage.clear();
}
try {
testsOutstanding[testIndex] = funcName;
func().then(resolve).catch(function(e) { resolve(null, e); });
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} catch (e) {
resolve(null, e);
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}
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}
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if (!exclusive || exclusiveRunning == -1)
runFunc();
else
exclusiveTestsWaiting[exclusiveIndex] = runFunc;
}
function hexToArrayBuffer(str) {
var ret = new ArrayBuffer(str.length / 2);
var array = new Uint8Array(ret);
for (var i = 0; i < str.length/2; i++)
array[i] = parseInt(str.substr(i*2, 2), 16);
return ret;
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}
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registerOnLoadFunction(function() {
localStorage.clear();
// Random tests to check my JS knowledge
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TEST(function() { return Promise.resolve(!objectContainsKeys({})); });
TEST(function() { return Promise.resolve(objectContainsKeys({ a: undefined })); });
TEST(function() { return Promise.resolve(objectContainsKeys({ a: null })); });
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TEST(function() {
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var b = new ArrayBuffer(3);
var a = new Uint8Array(b);
a[0] = 0;
a[1] = 255;
a[2] = 128;
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return Promise.resolve(getString(b) == "\x00\xff\x80");
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}, "ArrayBuffer->String conversion");
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// Basic sanity-checks on the crypto library
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TEST(function() {
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var PushMessageProto = dcodeIO.ProtoBuf.loadProtoFile("protos/IncomingPushMessageSignal.proto").build("textsecure.PushMessageContent");
var IncomingMessageProto = dcodeIO.ProtoBuf.loadProtoFile("protos/IncomingPushMessageSignal.proto").build("textsecure.IncomingPushMessageSignal");
var text_message = new PushMessageProto();
text_message.body = "Hi Mom";
var server_message = {type: 0, // unencrypted
source: "+19999999999", timestamp: 42, message: text_message.encode() };
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return crypto.handleIncomingPushMessageProto(server_message).then(function(message) {
return (message.message.body == text_message.body &&
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message.message.attachments.length == text_message.attachments.length &&
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text_message.attachments.length == 0);
});
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}, 'Unencrypted PushMessageProto "decrypt"', true);
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TEST(function() {
return crypto.generateKeys().then(function() {
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if (storage.getEncrypted("25519KeyidentityKey") === undefined)
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return false;
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if (storage.getEncrypted("25519KeypreKey16777215") === undefined)
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return false;
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for (var i = 0; i < 100; i++)
if (storage.getEncrypted("25519KeypreKey" + i) === undefined)
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return false;
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return true;
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});
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}, "Test Identity/Pre Key Creation", true);
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TEST(function() {
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// These are just some random curve25519 test vectors I found online (with a version byte prepended to pubkeys)
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var alice_priv = hexToArrayBuffer("77076d0a7318a57d3c16c17251b26645df4c2f87ebc0992ab177fba51db92c2a");
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var alice_pub = hexToArrayBuffer("058520f0098930a754748b7ddcb43ef75a0dbf3a0d26381af4eba4a98eaa9b4e6a");
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var bob_priv = hexToArrayBuffer("5dab087e624a8a4b79e17f8b83800ee66f3bb1292618b6fd1c2f8b27ff88e0eb");
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var bob_pub = hexToArrayBuffer("05de9edb7d7b7dc1b4d35b61c2ece435373f8343c85b78674dadfc7e146f882b4f");
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var shared_sec = hexToArrayBuffer("4a5d9d5ba4ce2de1728e3bf480350f25e07e21c947d19e3376f09b3c1e161742");
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return crypto_tests.privToPub(alice_priv, true).then(function(aliceKeyPair) {
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var target = new Uint8Array(alice_priv.slice(0));
target[0] &= 248;
target[31] &= 127;
target[31] |= 64;
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if (String.fromCharCode.apply(null, new Uint8Array(aliceKeyPair.privKey)) != String.fromCharCode.apply(null, target))
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return false;
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return crypto_tests.privToPub(bob_priv, true).then(function(bobKeyPair) {
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var target = new Uint8Array(bob_priv.slice(0));
target[0] &= 248;
target[31] &= 127;
target[31] |= 64;
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if (String.fromCharCode.apply(null, new Uint8Array(bobKeyPair.privKey)) != String.fromCharCode.apply(null, target))
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return false;
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if (String.fromCharCode.apply(null, new Uint8Array(aliceKeyPair.pubKey)) != String.fromCharCode.apply(null, new Uint8Array(alice_pub)))
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return false;
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if (String.fromCharCode.apply(null, new Uint8Array(bobKeyPair.pubKey)) != String.fromCharCode.apply(null, new Uint8Array(bob_pub)))
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return false;
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return crypto_tests.ECDHE(bobKeyPair.pubKey, aliceKeyPair.privKey).then(function(ss) {
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if (String.fromCharCode.apply(null, new Uint16Array(ss)) != String.fromCharCode.apply(null, new Uint16Array(shared_sec)))
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return false;
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return crypto_tests.ECDHE(aliceKeyPair.pubKey, bobKeyPair.privKey).then(function(ss) {
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if (String.fromCharCode.apply(null, new Uint16Array(ss)) != String.fromCharCode.apply(null, new Uint16Array(shared_sec)))
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return false;
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else
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return true;
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});
});
});
});
}, "Simple Curve25519 test vector");
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// TextSecure implements a slightly tweaked version of RFC 5869 and thus this test fails
// If you tweak the HKDF as noted in the comment there, this test passes
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/*TEST(function() {
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var IKM = new Uint8Array(new ArrayBuffer(22));
for (var i = 0; i < 22; i++)
IKM[i] = 11;
var salt = new Uint8Array(new ArrayBuffer(13));
for (var i = 0; i < 13; i++)
salt[i] = i;
var info = new Uint8Array(new ArrayBuffer(10));
for (var i = 0; i < 10; i++)
info[i] = 240 + i;
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return crypto_tests.HKDF(IKM, salt, info).then(function(OKM){
var T1 = hexToArrayBuffer("3cb25f25faacd57a90434f64d0362f2a2d2d0a90cf1a5a4c5db02d56ecc4c5bf");
var T2 = hexToArrayBuffer("34007208d5b887185865");
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return (getString(OKM[0]) == getString(T1) && getString(OKM[1]).substring(0, 10) == getString(T2));
});
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}, "HMAC RFC5869 Test vectors");*/
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var axolotlTwoPartyTestVectorsAlice = [
["sendMessage",
{
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smsText: "A ",
ourBaseKey: hexToArrayBuffer('192b4892aa2e4cff1293999dc7c367874456c4d920aae7d9d42e5e62c965546c'),
ourEphemeralKey: hexToArrayBuffer('f12704787bab04a3cf544ebd9d421b6fe36147519eb5afa7c90e3fb67c141e64'),
ourIdentityKey: hexToArrayBuffer('a05fd14abb42ff393004eee526e3167441ee51021c6d801b784720c15637747c'),
theirPreKey: hexToArrayBuffer('05fee424a5b6ccb717d85ef2207e2057ab1144c40afe89cdc80e9c424dd90c146e'),
theirPreKeyId: 13845842,
theirRegistrationId: 11593,//TODO: Figure out wtf this is for
theirIdentityKey: hexToArrayBuffer('05276e4df34557386f67df38b708eeddb1a8924e0428b9eefdc9213c3e8927cc7d'),
//expectedPlaintext: hexToArrayBuffer('0a0e4120202020202020202020202020'),
//expectedCounter: 0,
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expectedCiphertext: hexToArrayBuffer('2208d28acd061221059ab4e844771bfeb96382edac5f80e757a1109b5611c770b2ba9f28b363d7c2541a2105bd61aea7fa5304f4dc914892bc3795812cda8bb90b73de9920e22c609cf0ec4e2242220a21058c0c357a3a25e6da46b0186d93fec31d5b86a4ac4973742012d8e9de2346be161000180022104bd27ab87ee151d71cdfe89828050ef4b05bddfb56da491728c95a'),
}],
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["sendMessage",
{
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smsText: "B ",
//expectedPlaintext: hexToArrayBuffer('0a0e4220202020202020202020202020'),
//expectedCounter: 1,
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expectedCiphertext: hexToArrayBuffer('2208d28acd061221059ab4e844771bfeb96382edac5f80e757a1109b5611c770b2ba9f28b363d7c2541a2105bd61aea7fa5304f4dc914892bc3795812cda8bb90b73de9920e22c609cf0ec4e2242220a21058c0c357a3a25e6da46b0186d93fec31d5b86a4ac4973742012d8e9de2346be16100118002210b40da85e4998984b4bac1748045b3661f46657badd576b4128c95a'),
}],
["receiveMessage",
{
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message: hexToArrayBuffer('220a2105edf6feeea8ee95f4b227453d5942d15731cb7a962eff6d04706860a4d577476f100018ffffffff0f22032a53da435b5477336965c6'),
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type: 1,
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newEphemeralKey: hexToArrayBuffer('a92a28cf21fb48745ebf68b425a1811476fed69f8623ff5941fd4e547ee4027c'),
//expectedPlaintext: hexToArrayBuffer(''),
expectedSmsText: "C",
}],
["receiveMessage",
{
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message: hexToArrayBuffer('220a2105edf6feeea8ee95f4b227453d5942d15731cb7a962eff6d04706860a4d577476f100118ffffffff0f2203a439d199228e124820c28b'),
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type: 1,
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//expectedPlaintext: hexToArrayBuffer(''),
expectedSmsText: "D",
}],
["sendMessage",
{
smsText: "E",
//expectedPlaintext: hexToArrayBuffer('0a0145'),
//expectedCounter: 0,
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expectedCiphertext: hexToArrayBuffer('220a2105f94173eeb7ff19ab9196461d596324385611fadef0ca29592cc182d92eb653281000180122031b67b3e2c43b9a672c9cb0'),
}],
];
var axolotlTwoPartyTestVectorsBob = [
["receiveMessage",
{
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message: hexToArrayBuffer('2208d28acd061221059ab4e844771bfeb96382edac5f80e757a1109b5611c770b2ba9f28b363d7c2541a2105bd61aea7fa5304f4dc914892bc3795812cda8bb90b73de9920e22c609cf0ec4e2242220a21058c0c357a3a25e6da46b0186d93fec31d5b86a4ac4973742012d8e9de2346be161000180022104bd27ab87ee151d71cdfe89828050ef4b05bddfb56da491728c95a'),
type: 3,
ourPreKey: hexToArrayBuffer('799706c9a19c663b6970690beccb5ffdc55b9f592f1dcbcd954f3662842c076b'),
preKeyId: 13845842,
ourIdentityKey: hexToArrayBuffer('5024f863ed4a17505a5588cb464aa3cb349201f786e6f871a22cbed1ea6dd97c'),
newEphemeralKey: hexToArrayBuffer('d1d52b5a4403c32e81bc242b10502ad222ed47af16ba6548496217416c934252'),
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//expectedPlaintext: hexToArrayBuffer(''),
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expectedSmsText: "A ",
}],
["receiveMessage",
{
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message: hexToArrayBuffer('2208d28acd061221059ab4e844771bfeb96382edac5f80e757a1109b5611c770b2ba9f28b363d7c2541a2105bd61aea7fa5304f4dc914892bc3795812cda8bb90b73de9920e22c609cf0ec4e2242220a21058c0c357a3a25e6da46b0186d93fec31d5b86a4ac4973742012d8e9de2346be16100118002210b40da85e4998984b4bac1748045b3661f46657badd576b4128c95a'),
type: 3,
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//expectedPlaintext: hexToArrayBuffer(''),
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expectedSmsText: "B ",
}],
["sendMessage",
{
smsText: "C",
//expectedPlaintext: hexToArrayBuffer('0a0143'),
//expectedCounter: 0,
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expectedCiphertext: hexToArrayBuffer('220a2105edf6feeea8ee95f4b227453d5942d15731cb7a962eff6d04706860a4d577476f100018ffffffff0f22032a53da435b5477336965c6'),
}],
["sendMessage",
{
smsText: "D",
//expectedPlaintext: hexToArrayBuffer('0a0144'),
//expectedCounter: 1,
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expectedCiphertext: hexToArrayBuffer('220a2105edf6feeea8ee95f4b227453d5942d15731cb7a962eff6d04706860a4d577476f100118ffffffff0f2203a439d199228e124820c28b'),
}],
["receiveMessage",
{
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message: hexToArrayBuffer('220a2105f94173eeb7ff19ab9196461d596324385611fadef0ca29592cc182d92eb653281000180122031b67b3e2c43b9a672c9cb0'),
type: 1,
newEphemeralKey: hexToArrayBuffer('c1ad88addc5a74b0028e669c70d2860dfdd315af542ebd7394921d91f5cd5558'),
expectedSmsText: "E",
}],
];
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var axolotlTestVectors = function(v, remoteDevice) {
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var origCreateNewKeyPair = crypto_tests.createNewKeyPair;
var doStep;
var stepDone = function(res) {
if (!res || privKeyQueue.length != 0) {
crypto_tests.createNewKeyPair = origCreateNewKeyPair;
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return false;
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} else if (step == v.length) {
crypto_tests.createNewKeyPair = origCreateNewKeyPair;
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return true;
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} else
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return doStep();
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}
var privKeyQueue = [];
crypto_tests.createNewKeyPair = function(isIdentity) {
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if (privKeyQueue.length == 0 || isIdentity)
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throw new Error('Out of private keys');
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else {
var privKey = privKeyQueue.shift();
return crypto_tests.privToPub(privKey, false).then(function(keyPair) {
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var a = btoa(getString(keyPair.privKey)); var b = btoa(getString(privKey));
if (getString(keyPair.privKey) != getString(privKey))
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throw new Error('Failed to rederive private key!');
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else
return keyPair;
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});
}
}
var step = 0;
var doStep = function() {
var data = v[step][1];
switch(v[step++][0]) {
case "receiveMessage":
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var postLocalKeySetup = function() {
if (data.newEphemeralKey !== undefined)
privKeyQueue.push(data.newEphemeralKey);
var message = new IncomingPushMessageProtobuf();
message.type = data.type;
message.source = remoteDevice.encodedNumber;
message.message = data.message;
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return crypto.handleIncomingPushMessageProto(decodeIncomingPushMessageProtobuf(getString(message.encode()))).then(function(res) {
return res.message.body == data.expectedSmsText;
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});
}
if (data.ourIdentityKey !== undefined)
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return crypto_tests.privToPub(data.ourIdentityKey, true).then(function(keyPair) {
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storage.putEncrypted("25519KeyidentityKey", keyPair);
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return crypto_tests.privToPub(data.ourPreKey, false).then(function(keyPair) {
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storage.putEncrypted("25519KeypreKey" + data.preKeyId, keyPair);
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return postLocalKeySetup();
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});
});
else
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return postLocalKeySetup();
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case "sendMessage":
var postLocalKeySetup = function() {
if (data.theirIdentityKey !== undefined)
remoteDevice.identityKey = data.theirIdentityKey;
if (data.theirPreKey !== undefined) {
remoteDevice.publicKey = data.theirPreKey;
remoteDevice.preKeyId = data.theirPreKeyId;
remoteDevice.registrationId = data.theirRegistrationId;
}
var message = new PushMessageContentProtobuf();
message.body = data.smsText;
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return crypto.encryptMessageFor(remoteDevice, message).then(function(res) {
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//XXX: This should be all we do: stepDone(getString(data.expectedCiphertext) == getString(res.body));
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if (res.type == 1) { //XXX: This should be used for everything...
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var expectedString = getString(data.expectedCiphertext);
var decoded = decodeWhisperMessageProtobuf(expectedString.substring(1, expectedString.length - 8));
var result = getString(res.body);
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return getString(decoded.encode()) == result.substring(1, result.length - 8);
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} else {
var decoded = decodePreKeyWhisperMessageProtobuf(getString(data.expectedCiphertext).substr(1));
var result = getString(res.body).substring(1);
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return getString(decoded.encode()) == result;
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}
});
}
if (data.ourBaseKey !== undefined)
privKeyQueue.push(data.ourBaseKey);
if (data.ourEphemeralKey !== undefined)
privKeyQueue.push(data.ourEphemeralKey);
if (data.ourIdentityKey !== undefined)
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return crypto_tests.privToPub(data.ourIdentityKey, true).then(function(keyPair) {
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storage.putEncrypted("25519KeyidentityKey", keyPair);
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return postLocalKeySetup();
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});
else
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return postLocalKeySetup();
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default:
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return Promise.resolve(false);
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}
}
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return doStep().then(stepDone);
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}
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TEST(function() {
return axolotlTestVectors(axolotlTwoPartyTestVectorsAlice, { encodedNumber: "BOB" });
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}, "Standard Axolotl Test Vectors as Alice", true);
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TEST(function() {
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var t = axolotlTwoPartyTestVectorsAlice[2][1];
axolotlTwoPartyTestVectorsAlice[2][1] = axolotlTwoPartyTestVectorsAlice[3][1];
axolotlTwoPartyTestVectorsAlice[2][1].newEphemeralKey = t.newEphemeralKey;
axolotlTwoPartyTestVectorsAlice[3][1] = t;
delete axolotlTwoPartyTestVectorsAlice[3][1]['newEphemeralKey'];
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return axolotlTestVectors(axolotlTwoPartyTestVectorsAlice, { encodedNumber: "BOB" });
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}, "Shuffled Axolotl Test Vectors as Alice", true);
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TEST(function() {
return axolotlTestVectors(axolotlTwoPartyTestVectorsBob, { encodedNumber: "ALICE" });
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}, "Standard Axolotl Test Vectors as Bob", true);
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TEST(function() {
// Copy axolotlTwoPartyTestVectorsBob into v
var orig = axolotlTwoPartyTestVectorsBob;
var v = [];
for (var i = 0; i < axolotlTwoPartyTestVectorsBob.length; i++) {
v[i] = [];
v[i][0] = orig[i][0];
v[i][1] = orig[i][1];
}
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// Swap first and second received prekey messages
v[0][1] = { message: orig[1][1].message, type: orig[1][1].type, expectedSmsText: orig[1][1].expectedSmsText };
v[0][1].ourPreKey = orig[0][1].ourPreKey;
v[0][1].preKeyId = orig[0][1].preKeyId;
v[0][1].ourIdentityKey = orig[0][1].ourIdentityKey;
v[0][1].newEphemeralKey = orig[0][1].newEphemeralKey;
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v[1][1] = { message: orig[0][1].message, type: orig[0][1].type, expectedSmsText: orig[0][1].expectedSmsText };
return axolotlTestVectors(v, { encodedNumber: "ALICE" });
}, "Shuffled Axolotl Test Vectors as Bob I", true);
TEST(function() {
// Copy axolotlTwoPartyTestVectorsBob into v
var orig = axolotlTwoPartyTestVectorsBob;
var v = [];
for (var i = 0; i < axolotlTwoPartyTestVectorsBob.length; i++) {
v[i] = [];
v[i][0] = orig[i][0];
v[i][1] = orig[i][1];
}
// Swap second received prekey msg with the first send
v[1] = orig[2];
v[2] = orig[1];
return axolotlTestVectors(v, { encodedNumber: "ALICE" });
}, "Shuffled Axolotl Test Vectors as Bob II", true);
TEST(function() {
// Copy axolotlTwoPartyTestVectorsBob into v
var orig = axolotlTwoPartyTestVectorsBob;
var v = [];
for (var i = 0; i < axolotlTwoPartyTestVectorsBob.length; i++) {
v[i] = [];
v[i][0] = orig[i][0];
v[i][1] = orig[i][1];
}
// Move second received prekey msg to the end (incl after the first received message in the second chain)
v[4] = orig[1];
v[1] = orig[2];
v[2] = orig[3];
v[3] = orig[4];
return axolotlTestVectors(v, { encodedNumber: "ALICE" });
}, "Shuffled Axolotl Test Vectors as Bob III", true);
TEST(function() {
// Copy axolotlTwoPartyTestVectorsBob into v
var orig = axolotlTwoPartyTestVectorsBob;
var v = [];
for (var i = 0; i < axolotlTwoPartyTestVectorsBob.length; i++) {
v[i] = [];
v[i][0] = orig[i][0];
v[i][1] = orig[i][1];
}
// Move first received prekey msg to the end (incl after the first received message in the second chain)
// ... by first swapping first and second received prekey msg
v[0][1] = { message: orig[1][1].message, type: orig[1][1].type, expectedSmsText: orig[1][1].expectedSmsText };
v[0][1].ourPreKey = orig[0][1].ourPreKey;
v[0][1].preKeyId = orig[0][1].preKeyId;
v[0][1].ourIdentityKey = orig[0][1].ourIdentityKey;
v[0][1].newEphemeralKey = orig[0][1].newEphemeralKey;
v[1][1] = { message: orig[0][1].message, type: orig[0][1].type, expectedSmsText: orig[0][1].expectedSmsText };
// ... then moving the (now-second) message to the end
v[4] = v[1];
v[1] = orig[2];
v[2] = orig[3];
v[3] = orig[4];
return axolotlTestVectors(v, { encodedNumber: "ALICE" });
}, "Shuffled Axolotl Test Vectors as Bob IV", true);
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TEST(function() {
var key = hexToArrayBuffer('6f35628d65813435534b5d67fbdb54cb33403d04e843103e6399f806cb5df95febbdd61236f33245');
var input = hexToArrayBuffer('752cff52e4b90768558e5369e75d97c69643509a5e5904e0a386cbe4d0970ef73f918f675945a9aefe26daea27587e8dc909dd56fd0468805f834039b345f855cfe19c44b55af241fff3ffcd8045cd5c288e6c4e284c3720570b58e4d47b8feeedc52fd1401f698a209fccfa3b4c0d9a797b046a2759f82a54c41ccd7b5f592b');
var mac = getString(hexToArrayBuffer('05d1243e6465ed9620c9aec1c351a186'));
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return window.crypto.subtle.sign({name: "HMAC", hash: "SHA-256"}, key, input).then(function(result) {
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return getString(result).substring(0, mac.length) === mac;
});
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}, "HMAC SHA-256", false);
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TEST(function() {
var key = hexToArrayBuffer('2b7e151628aed2a6abf7158809cf4f3c');
var counter = hexToArrayBuffer('f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff');
var plaintext = hexToArrayBuffer('6bc1bee22e409f96e93d7e117393172a');
var ciphertext = hexToArrayBuffer('874d6191b620e3261bef6864990db6ce');
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return window.crypto.subtle.encrypt({name: "AES-CTR", counter: counter}, key, plaintext).then(function(result) {
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return getString(result) === getString(ciphertext);
});
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}, "Encrypt AES-CTR", false);
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TEST(function() {
var key = hexToArrayBuffer('2b7e151628aed2a6abf7158809cf4f3c');
var counter = hexToArrayBuffer('f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff');
var plaintext = hexToArrayBuffer('6bc1bee22e409f96e93d7e117393172a');
var ciphertext = hexToArrayBuffer('874d6191b620e3261bef6864990db6ce');
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return window.crypto.subtle.decrypt({name: "AES-CTR", counter: counter}, key, ciphertext).then(function(result) {
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return getString(result) === getString(plaintext);
});
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}, "Decrypt AES-CTR", false);
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TEST(function() {
var key = hexToArrayBuffer('603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4');
var iv = hexToArrayBuffer('000102030405060708090a0b0c0d0e0f');
var plaintext = hexToArrayBuffer('6bc1bee22e409f96e93d7e117393172aae2d8a571e03ac9c9eb76fac45af8e5130c81c46a35ce411e5fbc1191a0a52eff69f2445df4f9b17ad2b417be66c3710');
var ciphertext = hexToArrayBuffer('f58c4c04d6e5f1ba779eabfb5f7bfbd69cfc4e967edb808d679f777bc6702c7d39f23369a9d9bacfa530e26304231461b2eb05e2c39be9fcda6c19078c6a9d1b3f461796d6b0d6b2e0c2a72b4d80e644');
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return window.crypto.subtle.decrypt({name: "AES-CBC", iv: iv}, key, ciphertext).then(function(result) {
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return getString(result) === getString(plaintext);
});
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}, "Decrypt AES-CBC", false);
// Setup test timeouts (note that this will only work if things are actually
// being run async, ie in the case of NaCL)
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window.setInterval(function() {
for (var i = 0; i < maxTestId; i++) {
if (testsOutstanding[i] !== undefined) {
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testsdiv.append('<p style="color: red;">' + testsOutstanding[i] + ' timed out</p>');
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if (exclusiveRunning == i) {
testsdiv.append('<p style="color: red;">WARNING: exclusive test left running, further results may be unreliable.</p>');
delete exclusiveTestsWaiting[i];
}
}
delete testsOutstanding[i];
}
startNextExclusiveTest();
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localStorage.clear();
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}, 5000);
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});