signal-desktop/js/test.js

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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;
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function callback(result) {
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if (testsOutstanding[testIndex] == undefined)
testsdiv.append('<p style="color: red;">' + funcName + ' called back multiple times</p>');
else if (result)
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testsdiv.append('<p style="color: green;">' + funcName + ' passed</p>');
else
testsdiv.append('<p style="color: red;">' + funcName + ' returned false</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(callback);
} catch (e) {
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testsdiv.append('<p style="color: red;">' + funcName + ' threw ' + e + '</p>');
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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
TEST(function(callback) { callback(!objectContainsKeys({})); });
TEST(function(callback) { callback(objectContainsKeys({ a: undefined })); });
TEST(function(callback) { callback(objectContainsKeys({ a: null })); });
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TEST(function(callback) {
var b = new ArrayBuffer(3);
var a = new Uint8Array(b);
a[0] = 0;
a[1] = 255;
a[2] = 128;
callback(getString(b) == "\x00\xff\x80");
}, "ArrayBuffer->String conversion");
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// Basic sanity-checks on the crypto library
TEST(function(callback) {
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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crypto.handleIncomingPushMessageProto(server_message, function(message) {
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callback(message.message.body == text_message.body &&
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(callback) {
crypto.generateKeys(function() {
callback(true);
});
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}, "Test simple create key", true);
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TEST(function(callback) {
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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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crypto_tests.privToPub(alice_priv, 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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callback(false);
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crypto_tests.privToPub(bob_priv, 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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callback(false);
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if (String.fromCharCode.apply(null, new Uint8Array(aliceKeyPair.pubKey)) != String.fromCharCode.apply(null, new Uint8Array(alice_pub)))
callback(false);
if (String.fromCharCode.apply(null, new Uint8Array(bobKeyPair.pubKey)) != String.fromCharCode.apply(null, new Uint8Array(bob_pub)))
callback(false);
crypto_tests.ECDHE(bobKeyPair.pubKey, aliceKeyPair.privKey, function(ss) {
if (String.fromCharCode.apply(null, new Uint16Array(ss)) != String.fromCharCode.apply(null, new Uint16Array(shared_sec)))
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callback(false);
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crypto_tests.ECDHE(aliceKeyPair.pubKey, bobKeyPair.privKey, function(ss) {
if (String.fromCharCode.apply(null, new Uint16Array(ss)) != String.fromCharCode.apply(null, new Uint16Array(shared_sec)))
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callback(false);
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else
callback(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
/*TEST(function(callback) {
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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;
var OKM = crypto_tests.HKDF(IKM, salt, info);
var T1 = hexToArrayBuffer("3cb25f25faacd57a90434f64d0362f2a2d2d0a90cf1a5a4c5db02d56ecc4c5bf");
var T2 = hexToArrayBuffer("34007208d5b887185865");
callback(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 axolotlTestVectors = {
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aliceIdentityPriv: hexToArrayBuffer("08ebc1e1fdbbc88d1a833a9d8c287328d4f749b7b7eb20afda0957dc05efc258"),
aliceIdentityPub: hexToArrayBuffer("05b9c152cb9fefb0a12df319ae50c728c7909a8a080fcf22d5e1842352186d3870"),
bobIdentityPriv: hexToArrayBuffer("08491ea8a9aff03a724cfb44411502f3e974010e62b6db2703b9506a2e18554e"),
bobIdentityPub: hexToArrayBuffer("0562d9efab60407ac5f4b1bec9c3341db4b279f24a87234c9ff36a1f868fdd8104"),
bobPre0: hexToArrayBuffer("009aa1809dbd29b15d3cc4c3c04ae45413b6396f286de46775e748c6daf36545"),
aliceToBob: hexToArrayBuffer("08031205414c4943452203424f4228cfb3dbeec92832860122080012210503d7fa229643c84d5b33d42e50985fc64b77e0b4ec32c52000ce81e857b1ec141a2105b9c152cb9fefb0a12df319ae50c728c7909a8a080fcf22d5e1842352186d3870223b220a21052a59b346373f79d2aee25503b071fd4704a40db12afd6288519eeccf9aacec5b10001801220917468a49c79f0588a5037512abf4f66557"),
sessionKey: hexToArrayBuffer("3d71b56ab9763865905597a90c6746640a946bf3a11632b31a87990579925f92f2132869dbf3f22646d00a68430ecd29cb38186b"),
encryptedMessage: hexToArrayBuffer("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"),
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};
function axolotlTestVectorsAsBob(v, callback) {
localStorage.clear();
storage.putEncrypted("25519KeyidentityKey", { pubKey: v.bobIdentityPub, privKey: v.bobIdentityPriv });
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crypto_tests.privToPub(v.bobPre0, function(keyPair) {
storage.putEncrypted("25519KeypreKey0", { pubKey: keyPair.pubKey, privKey: keyPair.privKey });
if (v.sessionKey !== undefined) {
storage.putEncrypted("signaling_key", v.sessionKey);
var aliceToBob = crypto.decryptWebsocketMessage(v.encryptedMessage);
if (getString(aliceToBob) != getString(v.aliceToBob)) {
callback(false);
return;
}
}
var b64 = base64EncArr(new Uint8Array(toArrayBuffer(v.aliceToBob)));
var thing = IncomingPushMessageProtobuf.decode(b64);
crypto.handleIncomingPushMessageProto(thing, function(decrypted_message) {
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callback(decrypted_message.message.body == "Hi Bob!" && decrypted_message.message.attachments.length == 0);
});
});
};
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TEST(function(callback) {
var v = {};
for (key in axolotlTestVectors)
v[key] = axolotlTestVectors[key];
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storage.putEncrypted("25519KeyidentityKey", { pubKey: v.aliceIdentityPub, privKey: v.aliceIdentityPriv });
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crypto_tests.privToPub(v.bobPre0, function(keyPair) {
var bobsDevice = {encodedNumber: "BOB", identityKey: keyPair.privKey, publicKey: keyPair.pubKey, preKeyId: 0};
saveDeviceObject = bobsDevice;
var message = new PushMessageContentProtobuf();
message.body = "Hi Bob!";
crypto.encryptMessageFor(bobsDevice, message, function(encryptedMsg) {
var message = new IncomingPushMessageProtobuf();
message.message = toArrayBuffer(encryptedMsg.body);
message.type = encryptedMsg.type;
if (message.type != 3) { callback(false); return; }
message.source = "ALICE";
delete v['sessionKey'];
v.aliceToBob = getString(message.encode());
axolotlTestVectorsAsBob(v, callback);
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});
});
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}, "Axolotl test vectors as alice", true);
TEST(function(callback) {
axolotlTestVectorsAsBob(axolotlTestVectors, callback);
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}, "Axolotl test vectors as bob", true);
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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});