gpgme/lang/js/unittests.js
Maximilian Krambach 94ee0988d4 js: change the write access for js class methods
--
* src/ [Connection, Error, Key, Keyring, MEssage, Signature, gpgmejs]:
    Functions and values that are not meant to be overwritten are now
    moved into their constructors, thus eliminating the possibility of
    overwrites after initialization.

* Key: The mode of use (synchronous cached, or async promises) ivs now
  determined at initialization of that Key. The property Key.isAsync
  reflects this state.

* unittests: fixed old Key syntax for testing.

* Message.js isComplete is now a method and not a getter anymore.

* Added some startup tests.
2018-07-27 20:36:21 +02:00

393 lines
14 KiB
JavaScript

/* gpgme.js - Javascript integration for gpgme
* Copyright (C) 2018 Bundesamt für Sicherheit in der Informationstechnik
*
* This file is part of GPGME.
*
* GPGME 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 2.1 of
* the License, or (at your option) any later version.
*
* GPGME 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/>.
* SPDX-License-Identifier: LGPL-2.1+
*/
import './node_modules/mocha/mocha'; /*global mocha, it, describe*/
import './node_modules/chai/chai';/*global chai*/
import { helper_params as hp } from './unittest_inputvalues';
import { message_params as mp } from './unittest_inputvalues';
import { whatever_params as wp } from './unittest_inputvalues';
import { key_params as kp } from './unittest_inputvalues';
import { Connection } from './src/Connection';
import { gpgme_error } from './src/Errors';
import { toKeyIdArray , isFingerprint } from './src/Helpers';
import { GPGME_Key , createKey } from './src/Key';
import { GPGME_Keyring } from './src/Keyring';
import {GPGME_Message, createMessage} from './src/Message';
mocha.setup('bdd');
const expect = chai.expect;
chai.config.includeStack = true;
function unittests (){
describe('Connection testing', function(){
it('Connecting', function(done) {
let conn0 = new Connection;
conn0.checkConnection().then(function(answer) {
expect(answer).to.not.be.empty;
expect(answer.gpgme).to.not.be.undefined;
expect(answer.gpgme).to.be.a('string');
expect(answer.info).to.be.an('Array');
expect(conn0.disconnect).to.be.a('function');
expect(conn0.post).to.be.a('function');
done();
});
});
it('Disconnecting', function(done) {
let conn0 = new Connection;
conn0.checkConnection(false).then(function(answer) {
expect(answer).to.be.true;
conn0.disconnect();
conn0.checkConnection(false).then(function(result) {
expect(result).to.be.false;
done();
});
});
});
});
describe('Error Object handling', function(){
// TODO: new GPGME_Error codes
it('check the Timeout error', function(){
let test0 = gpgme_error('CONN_TIMEOUT');
expect(test0).to.be.an.instanceof(Error);
expect(test0.code).to.equal('CONN_TIMEOUT');
});
it('Error Object returns generic code if code is not listed',
function(){
let test0 = gpgme_error(hp.invalidErrorCode);
expect(test0).to.be.an.instanceof(Error);
expect(test0.code).to.equal('GENERIC_ERROR');
}
);
it('Warnings like PARAM_IGNORED should not return errors', function(){
let test0 = gpgme_error('PARAM_IGNORED');
expect(test0).to.be.null;
});
});
describe('Fingerprint checking', function(){
it('isFingerprint(): valid Fingerprint', function(){
let test0 = isFingerprint(hp.validFingerprint);
expect(test0).to.be.true;
});
it('isFingerprint(): invalid Fingerprints', function(){
for (let i=0; i < hp.invalidFingerprints.length; i++){
let test0 = isFingerprint(hp.invalidFingerprints[i]);
expect(test0).to.be.false;
}
});
});
describe('toKeyIdArray() (converting input to fingerprint)', function(){
it('Correct fingerprint string', function(){
let test0 = toKeyIdArray(hp.validFingerprint);
expect(test0).to.be.an('array');
expect(test0).to.include(hp.validFingerprint);
});
it('correct GPGME_Key', function(){
expect(hp.validGPGME_Key).to.be.an.instanceof(GPGME_Key);
let test0 = toKeyIdArray(hp.validGPGME_Key);
expect(test0).to.be.an('array');
expect(test0).to.include(hp.validGPGME_Key.fingerprint);
});
it('openpgpjs-like object', function(){
let test0 = toKeyIdArray(hp.valid_openpgplike);
expect(test0).to.be.an('array').with.lengthOf(1);
expect(test0).to.include(
hp.valid_openpgplike.primaryKey.getFingerprint());
});
it('Array of valid inputs', function(){
let test0 = toKeyIdArray(hp.validKeys);
expect(test0).to.be.an('array');
expect(test0).to.have.lengthOf(hp.validKeys.length);
});
it('Incorrect inputs', function(){
it('valid Long ID', function(){
let test0 = toKeyIdArray(hp.validLongId);
expect(test0).to.be.empty;
});
it('invalidFingerprint', function(){
let test0 = toKeyIdArray(hp.invalidFingerprint);
expect(test0).to.be.empty;
});
it('invalidKeyArray', function(){
let test0 = toKeyIdArray(hp.invalidKeyArray);
expect(test0).to.be.empty;
});
it('Partially invalid array', function(){
let test0 = toKeyIdArray(hp.invalidKeyArray_OneBad);
expect(test0).to.be.an('array');
expect(test0).to.have.lengthOf(
hp.invalidKeyArray_OneBad.length - 1);
});
});
});
describe('GPGME_Key', function(){
it('correct Key initialization', function(){
let key = createKey(kp.validKeyFingerprint);
expect(key).to.be.an.instanceof(GPGME_Key);
});
it('Key has data after a first refresh', function(done) {
let key = createKey(kp.validKeyFingerprint);
key.refreshKey().then(function(key2){
expect(key2).to.be.an.instanceof(GPGME_Key);
expect(key2.get).to.be.a('function');
for (let i=0; i < kp.validKeyProperties.length; i++) {
let prop = key2.get(kp.validKeyProperties[i]);
expect(prop).to.not.be.undefined;
expect(prop).to.be.a('boolean');
}
expect(isFingerprint(key2.get('fingerprint'))).to.be.true;
expect(
key2.get('fingerprint')).to.equal(kp.validKeyFingerprint);
expect(
key2.get('fingerprint')).to.equal(key.fingerprint);
done();
});
});
it('Non-cached key async data retrieval', function (done){
let key = createKey(kp.validKeyFingerprint, true);
key.get('can_authenticate').then(function(result){
expect(result).to.be.a('boolean');
done();
});
});
it('Non-cached key async armored Key', function (done){
let key = createKey(kp.validKeyFingerprint, true);
key.get('armored').then(function(result){
expect(result).to.be.a('string');
expect(result).to.include('KEY BLOCK-----');
done();
});
});
it('Non-cached key async hasSecret', function (done){
let key = createKey(kp.validKeyFingerprint, true);
key.get('hasSecret').then(function(result){
expect(result).to.be.a('boolean');
done();
});
});
it('Non-cached key async hasSecret (no secret in Key)', function (done){
let key = createKey(kp.validFingerprintNoSecret, true);
expect(key).to.be.an.instanceof(GPGME_Key);
key.get('hasSecret').then(function(result){
expect(result).to.be.a('boolean');
expect(result).to.equal(false);
done();
});
});
it('Querying non-existing Key returns an error', function(done) {
let key = createKey(kp.invalidKeyFingerprint);
key.refreshKey().then(function(){},
function(error){
expect(error).to.be.an.instanceof(Error);
expect(error.code).to.equal('KEY_NOKEY');
done();
});
});
it('createKey returns error if parameters are wrong', function(){
for (let i=0; i< 4; i++){
let key0 = createKey(wp.four_invalid_params[i]);
expect(key0).to.be.an.instanceof(Error);
expect(key0.code).to.equal('PARAM_WRONG');
}
});
it('malformed GPGME_Key cannot be used', function(){
for (let i=0; i < 4; i++){
let key = new GPGME_Key(wp.four_invalid_params[i]);
expect(key.fingerprint).to.be.an.instanceof(Error);
expect(key.fingerprint.code).to.equal('KEY_INVALID');
}
});
// TODO: tests for subkeys
// TODO: tests for userids
// TODO: some invalid tests for key/keyring
});
describe('GPGME_Keyring', function(){
it('correct Keyring initialization', function(){
let keyring = new GPGME_Keyring;
expect(keyring).to.be.an.instanceof(GPGME_Keyring);
expect(keyring.getKeys).to.be.a('function');
});
it('Loading Keys from Keyring, to be used synchronously',
function(done){
let keyring = new GPGME_Keyring;
keyring.getKeys(null, true).then(function(result){
expect(result).to.be.an('array');
expect(result[0]).to.be.an.instanceof(GPGME_Key);
expect(result[0].get('hasSecret')).to.be.a('boolean');
// expect(result[0].get('armored')).to.include(
// '-----END PGP PUBLIC KEY BLOCK-----');
done();
});
}
);
it('Loading specific Key from Keyring, to be used synchronously',
function(done){
let keyring = new GPGME_Keyring;
keyring.getKeys(kp.validKeyFingerprint, true).then(
function(result){
expect(result).to.be.an('array');
expect(result[0]).to.be.an.instanceof(GPGME_Key);
expect(result[0].get('hasSecret')).to.be.a('boolean');
// TODO: preparing sync for armored is still in discussion
// expect(result[0].get('armored')).to.be.a('string');
// expect(result[0].get('armored')).to.include(
// '-----END PGP PUBLIC KEY BLOCK-----');
done();
}
);
}
);
it('Querying non-existing Key from Keyring', function(done){
let keyring = new GPGME_Keyring;
keyring.getKeys(kp.invalidKeyFingerprint, true).then(
function(result){
expect(result).to.be.an('array');
expect(result.length).to.equal(0);
done();
}
);
});
});
describe('GPGME_Message', function(){
it('creating encrypt Message', function(){
let test0 = createMessage('encrypt');
expect(test0).to.be.an.instanceof(GPGME_Message);
expect(test0.isComplete()).to.be.false;
});
it('Message is complete after setting mandatory data', function(){
let test0 = createMessage('encrypt');
test0.setParameter('data', mp.valid_encrypt_data);
test0.setParameter('keys', hp.validFingerprints);
expect(test0.isComplete()).to.be.true;
});
it('Message is not complete after mandatory data is empty', function(){
let test0 = createMessage('encrypt');
test0.setParameter('data', '');
test0.setParameter('keys', hp.validFingerprints);
expect(test0.isComplete()).to.be.false;
});
it('Complete Message contains the data that was set', function(){
let test0 = createMessage('encrypt');
test0.setParameter('data', mp.valid_encrypt_data);
test0.setParameter('keys', hp.validFingerprints);
expect(test0.message).to.not.be.null;
expect(test0.message).to.have.keys('op', 'data', 'keys',
'chunksize');
expect(test0.message.op).to.equal('encrypt');
expect(test0.message.data).to.equal(
mp.valid_encrypt_data);
});
it ('Not accepting non-allowed operation', function(){
let test0 = createMessage(mp.invalid_op_action);
expect(test0).to.be.an.instanceof(Error);
expect(test0.code).to.equal('MSG_WRONG_OP');
});
it('Not accepting wrong parameter type', function(){
let test0 = createMessage(mp.invalid_op_type);
expect(test0).to.be.an.instanceof(Error);
expect(test0.code).to.equal('PARAM_WRONG');
});
it('Not accepting wrong parameter name', function(){
let test0 = createMessage(mp.invalid_param_test.valid_op);
for (let i=0;
i < mp.invalid_param_test.invalid_param_names.length; i++){
let ret = test0.setParameter(
mp.invalid_param_test.invalid_param_names[i],
'Somevalue');
expect(ret).to.be.an.instanceof(Error);
expect(ret.code).to.equal('PARAM_WRONG');
}
});
it('Not accepting wrong parameter value', function(){
let test0 = createMessage(mp.invalid_param_test.valid_op);
for (let j=0;
j < mp.invalid_param_test.invalid_values_0.length; j++){
let ret = test0.setParameter(
mp.invalid_param_test.validparam_name_0,
mp.invalid_param_test.invalid_values_0[j]);
expect(ret).to.be.an.instanceof(Error);
expect(ret.code).to.equal('PARAM_WRONG');
}
});
});
}
export default {unittests};