var assert = chai.assert; describe('LessPass v2', function () { describe('entropy', function () { it('calc entropy pbkdf2 with default params (100000 iterations, 32 bytes length, sha256 digest)', function () { this.timeout(10000); var site = 'example.org'; var login = 'contact@example.org'; var masterPassword = 'password'; var passwordProfile = { counter: 1 }; return LessPass._calcEntropy(site, login, masterPassword, passwordProfile).then(function (entropy) { assert.equal('dc33d431bce2b01182c613382483ccdb0e2f66482cbba5e9d07dab34acc7eb1e', entropy); }); }); it('calc entropy with different options (8192 iterations, 16 bytes length, sha512 digest)', function () { var site = 'example.org'; var login = 'contact@example.org'; var masterPassword = 'password'; var passwordProfile = { iterations: 8192, keylen: 16, digest: 'sha512', counter: 1 }; return LessPass._calcEntropy(site, login, masterPassword, passwordProfile).then(function (entropy) { assert.equal('fff211c16a4e776b3574c6a5c91fd252', entropy); }) }); it('calc entropy different if counter different', function () { var site = 'example.org'; var login = 'contact@example.org'; var masterPassword = 'password'; var passwordProfile1 = { iterations: 1, counter: 1 }; var passwordProfile2 = { iterations: 1, counter: 2 }; var p1 = LessPass._calcEntropy(site, login, masterPassword, passwordProfile1); var p2 = LessPass._calcEntropy(site, login, masterPassword, passwordProfile2); return Promise.all([p1, p2]).then(function (entropies) { assert.notEqual(entropies[0], entropies[1]) }); }); it('consume entropy', function () { var password = LessPass._consumeEntropy('', bigInt(4 * 4 + 2), "abcd", 2); assert.equal('ca', password.value); assert.equal(1, password.entropy) }); }); });