// Copyright 2014-2020 Signal Messenger, LLC // SPDX-License-Identifier: AGPL-3.0-only /* global Signal, textsecure, libsignal */ 'use strict'; describe('Crypto', () => { describe('accessKey/profileKey', () => { it('verification roundtrips', async () => { const profileKey = await Signal.Crypto.getRandomBytes(32); const accessKey = await Signal.Crypto.deriveAccessKey(profileKey); const verifier = await Signal.Crypto.getAccessKeyVerifier(accessKey); const correct = await Signal.Crypto.verifyAccessKey(accessKey, verifier); assert.strictEqual(correct, true); }); }); describe('deriveMasterKeyFromGroupV1', () => { const vectors = [ { gv1: '00000000000000000000000000000000', masterKey: 'dbde68f4ee9169081f8814eabc65523fea1359235c8cfca32b69e31dce58b039', }, { gv1: '000102030405060708090a0b0c0d0e0f', masterKey: '70884f78f07a94480ee36b67a4b5e975e92e4a774561e3df84c9076e3be4b9bf', }, { gv1: '7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f', masterKey: 'e69bf7c183b288b4ea5745b7c52b651a61e57769fafde683a6fdf1240f1905f2', }, { gv1: 'ffffffffffffffffffffffffffffffff', masterKey: 'dd3a7de23d10f18b64457fbeedc76226c112a730e4b76112e62c36c4432eb37d', }, ]; vectors.forEach((vector, index) => { it(`vector ${index}`, async () => { const gv1 = Signal.Crypto.hexToArrayBuffer(vector.gv1); const expectedHex = vector.masterKey; const actual = await Signal.Crypto.deriveMasterKeyFromGroupV1(gv1); const actualHex = Signal.Crypto.arrayBufferToHex(actual); assert.strictEqual(actualHex, expectedHex); }); }); }); describe('symmetric encryption', () => { it('roundtrips', async () => { const message = 'this is my message'; const plaintext = dcodeIO.ByteBuffer.wrap( message, 'binary' ).toArrayBuffer(); const key = textsecure.crypto.getRandomBytes(32); const encrypted = await Signal.Crypto.encryptSymmetric(key, plaintext); const decrypted = await Signal.Crypto.decryptSymmetric(key, encrypted); const equal = Signal.Crypto.constantTimeEqual(plaintext, decrypted); if (!equal) { throw new Error('The output and input did not match!'); } }); it('roundtrip fails if nonce is modified', async () => { const message = 'this is my message'; const plaintext = dcodeIO.ByteBuffer.wrap( message, 'binary' ).toArrayBuffer(); const key = textsecure.crypto.getRandomBytes(32); const encrypted = await Signal.Crypto.encryptSymmetric(key, plaintext); const uintArray = new Uint8Array(encrypted); uintArray[2] += 2; try { await Signal.Crypto.decryptSymmetric(key, uintArray.buffer); } catch (error) { assert.strictEqual( error.message, 'decryptSymmetric: Failed to decrypt; MAC verification failed' ); return; } throw new Error('Expected error to be thrown'); }); it('roundtrip fails if mac is modified', async () => { const message = 'this is my message'; const plaintext = dcodeIO.ByteBuffer.wrap( message, 'binary' ).toArrayBuffer(); const key = textsecure.crypto.getRandomBytes(32); const encrypted = await Signal.Crypto.encryptSymmetric(key, plaintext); const uintArray = new Uint8Array(encrypted); uintArray[uintArray.length - 3] += 2; try { await Signal.Crypto.decryptSymmetric(key, uintArray.buffer); } catch (error) { assert.strictEqual( error.message, 'decryptSymmetric: Failed to decrypt; MAC verification failed' ); return; } throw new Error('Expected error to be thrown'); }); it('roundtrip fails if encrypted contents are modified', async () => { const message = 'this is my message'; const plaintext = dcodeIO.ByteBuffer.wrap( message, 'binary' ).toArrayBuffer(); const key = textsecure.crypto.getRandomBytes(32); const encrypted = await Signal.Crypto.encryptSymmetric(key, plaintext); const uintArray = new Uint8Array(encrypted); uintArray[35] += 9; try { await Signal.Crypto.decryptSymmetric(key, uintArray.buffer); } catch (error) { assert.strictEqual( error.message, 'decryptSymmetric: Failed to decrypt; MAC verification failed' ); return; } throw new Error('Expected error to be thrown'); }); }); describe('encrypted device name', () => { it('roundtrips', async () => { const deviceName = 'v1.19.0 on Windows 10'; const identityKey = await libsignal.KeyHelper.generateIdentityKeyPair(); const encrypted = await Signal.Crypto.encryptDeviceName( deviceName, identityKey.pubKey ); const decrypted = await Signal.Crypto.decryptDeviceName( encrypted, identityKey.privKey ); assert.strictEqual(decrypted, deviceName); }); it('fails if iv is changed', async () => { const deviceName = 'v1.19.0 on Windows 10'; const identityKey = await libsignal.KeyHelper.generateIdentityKeyPair(); const encrypted = await Signal.Crypto.encryptDeviceName( deviceName, identityKey.pubKey ); encrypted.syntheticIv = Signal.Crypto.getRandomBytes(16); try { await Signal.Crypto.decryptDeviceName(encrypted, identityKey.privKey); } catch (error) { assert.strictEqual( error.message, 'decryptDeviceName: synthetic IV did not match' ); } }); }); describe('attachment encryption', () => { it('roundtrips', async () => { const staticKeyPair = await libsignal.KeyHelper.generateIdentityKeyPair(); const message = 'this is my message'; const plaintext = Signal.Crypto.bytesFromString(message); const path = 'fa/facdf99c22945b1c9393345599a276f4b36ad7ccdc8c2467f5441b742c2d11fa'; const encrypted = await Signal.Crypto.encryptAttachment( staticKeyPair.pubKey.slice(1), path, plaintext ); const decrypted = await Signal.Crypto.decryptAttachment( staticKeyPair.privKey, path, encrypted ); const equal = Signal.Crypto.constantTimeEqual(plaintext, decrypted); if (!equal) { throw new Error('The output and input did not match!'); } }); }); describe('uuidToArrayBuffer', () => { const { uuidToArrayBuffer } = Signal.Crypto; it('converts valid UUIDs to ArrayBuffers', () => { const expectedResult = new Uint8Array([ 0x22, 0x6e, 0x44, 0x02, 0x7f, 0xfc, 0x45, 0x43, 0x85, 0xc9, 0x46, 0x22, 0xc5, 0x0a, 0x5b, 0x14, ]).buffer; assert.deepEqual( uuidToArrayBuffer('226e4402-7ffc-4543-85c9-4622c50a5b14'), expectedResult ); assert.deepEqual( uuidToArrayBuffer('226E4402-7FFC-4543-85C9-4622C50A5B14'), expectedResult ); }); it('returns an empty ArrayBuffer for strings of the wrong length', () => { assert.deepEqual(uuidToArrayBuffer(''), new ArrayBuffer(0)); assert.deepEqual(uuidToArrayBuffer('abc'), new ArrayBuffer(0)); assert.deepEqual( uuidToArrayBuffer('032deadf0d5e4ee78da28e75b1dfb284'), new ArrayBuffer(0) ); assert.deepEqual( uuidToArrayBuffer('deaed5eb-d983-456a-a954-9ad7a006b271aaaaaaaaaa'), new ArrayBuffer(0) ); }); }); describe('arrayBufferToUuid', () => { const { arrayBufferToUuid } = Signal.Crypto; it('converts valid ArrayBuffers to UUID strings', () => { const buf = new Uint8Array([ 0x22, 0x6e, 0x44, 0x02, 0x7f, 0xfc, 0x45, 0x43, 0x85, 0xc9, 0x46, 0x22, 0xc5, 0x0a, 0x5b, 0x14, ]).buffer; assert.deepEqual( arrayBufferToUuid(buf), '226e4402-7ffc-4543-85c9-4622c50a5b14' ); }); it('returns undefined if passed an all-zero buffer', () => { assert.isUndefined(arrayBufferToUuid(new ArrayBuffer(16))); }); it('returns undefined if passed the wrong number of bytes', () => { assert.isUndefined(arrayBufferToUuid(new ArrayBuffer(0))); assert.isUndefined(arrayBufferToUuid(new Uint8Array([0x22]).buffer)); assert.isUndefined( arrayBufferToUuid(new Uint8Array(Array(17).fill(0x22)).buffer) ); }); }); });