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mail/test/unit/service/keychain-dao-test.js
2014-12-18 15:25:19 +01:00

1418 lines
51 KiB
JavaScript

'use strict';
var LawnchairDAO = require('../../../src/js/service/lawnchair'),
PublicKeyDAO = require('../../../src/js/service/publickey'),
KeychainDAO = require('../../../src/js/service/keychain'),
PrivateKeyDAO = require('../../../src/js/service/privatekey'),
Crypto = require('../../../src/js/crypto/crypto'),
PGP = require('../../../src/js/crypto/pgp'),
Dialog = require('../../../src/js/util/dialog'),
appConfig = require('../../../src/js/app-config');
var testUser = 'test@example.com';
describe('Keychain DAO unit tests', function() {
var keychainDao, lawnchairDaoStub, pubkeyDaoStub, privkeyDaoStub, cryptoStub, pgpStub, dialogStub;
beforeEach(function() {
lawnchairDaoStub = sinon.createStubInstance(LawnchairDAO);
pubkeyDaoStub = sinon.createStubInstance(PublicKeyDAO);
privkeyDaoStub = sinon.createStubInstance(PrivateKeyDAO);
cryptoStub = sinon.createStubInstance(Crypto);
pgpStub = sinon.createStubInstance(PGP);
dialogStub = sinon.createStubInstance(Dialog);
keychainDao = new KeychainDAO(lawnchairDaoStub, pubkeyDaoStub, privkeyDaoStub, cryptoStub, pgpStub, dialogStub, appConfig);
});
afterEach(function() {});
describe('requestPermissionForKeyUpdate', function() {
it('should work', function() {
var opt = {
newKey: {},
userId: 'asdf@example.com'
};
keychainDao.requestPermissionForKeyUpdate(opt, function() {
expect(dialogStub.confirm.calledOnce).to.be.true;
});
});
});
describe('verify public key', function() {
it('should verify public key', function(done) {
var uuid = 'asdfasdfasdfasdf';
pubkeyDaoStub.verify.returns(resolves());
keychainDao.verifyPublicKey(uuid).then(function() {
expect(pubkeyDaoStub.verify.calledWith(uuid)).to.be.true;
done();
});
});
});
describe('listLocalPublicKeys', function() {
it('should work', function(done) {
lawnchairDaoStub.list.withArgs('publickey', 0, null).returns(resolves());
keychainDao.listLocalPublicKeys().then(function() {
expect(lawnchairDaoStub.list.callCount).to.equal(1);
done();
});
});
});
describe('removeLocalPublicKey', function() {
it('should work', function(done) {
var id = 'asdf';
lawnchairDaoStub.remove.withArgs('publickey_' + id).returns(resolves());
keychainDao.removeLocalPublicKey(id).then(function() {
expect(lawnchairDaoStub.remove.callCount).to.equal(1);
done();
});
});
});
describe('refreshKeyForUserId', function() {
var getPubKeyStub,
oldKey = {
_id: 123
},
newKey = {
_id: 456
},
importedKey = {
_id: 789,
imported: true
};
beforeEach(function() {
getPubKeyStub = sinon.stub(keychainDao, 'getReceiverPublicKey');
});
afterEach(function() {
keychainDao.getReceiverPublicKey.restore();
delete keychainDao.requestPermissionForKeyUpdate;
});
it('should not find a key', function(done) {
getPubKeyStub.returns(resolves());
keychainDao.refreshKeyForUserId({
userId: testUser
}).then(function(key) {
expect(key).to.not.exist;
done();
});
});
it('should not update the key when up to date', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves(oldKey));
keychainDao.refreshKeyForUserId({
userId: testUser
}).then(function(key) {
expect(key).to.to.equal(oldKey);
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
done();
});
});
it('should update key', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves());
pubkeyDaoStub.getByUserId.withArgs(testUser).returns(resolves(newKey));
keychainDao.requestPermissionForKeyUpdate = function(opts, cb) {
expect(opts.userId).to.equal(testUser);
expect(opts.newKey).to.equal(newKey);
cb(true);
};
lawnchairDaoStub.remove.withArgs('publickey_' + oldKey._id).returns(resolves());
lawnchairDaoStub.persist.withArgs('publickey_' + newKey._id, newKey).returns(resolves());
keychainDao.refreshKeyForUserId({
userId: testUser
}).then(function(key) {
expect(key).to.equal(newKey);
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.remove.calledOnce).to.be.true;
expect(lawnchairDaoStub.persist.calledOnce).to.be.true;
done();
});
});
it('should update key without approval', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves());
pubkeyDaoStub.getByUserId.withArgs(testUser).returns(resolves(newKey));
lawnchairDaoStub.remove.withArgs('publickey_' + oldKey._id).returns(resolves());
lawnchairDaoStub.persist.withArgs('publickey_' + newKey._id, newKey).returns(resolves());
keychainDao.refreshKeyForUserId({
userId: testUser,
overridePermission: true
}).then(function(key) {
expect(key).to.equal(newKey);
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.remove.calledOnce).to.be.true;
expect(lawnchairDaoStub.persist.calledOnce).to.be.true;
done();
});
});
it('should remove key', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves());
pubkeyDaoStub.getByUserId.withArgs(testUser).returns(resolves());
keychainDao.requestPermissionForKeyUpdate = function(opts, cb) {
expect(opts.userId).to.equal(testUser);
expect(opts.newKey).to.not.exist;
cb(true);
};
lawnchairDaoStub.remove.withArgs('publickey_' + oldKey._id).returns(resolves());
keychainDao.refreshKeyForUserId({
userId: testUser
}).then(function(key) {
expect(key).to.not.exist;
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.remove.calledOnce).to.be.true;
expect(lawnchairDaoStub.persist.called).to.be.false;
done();
});
});
it('should go offline while fetching new key', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves());
pubkeyDaoStub.getByUserId.withArgs(testUser).returns(rejects({
code: 42
}));
keychainDao.refreshKeyForUserId({
userId: testUser
}).then(function(key) {
expect(key).to.to.equal(oldKey);
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.remove.called).to.be.false;
expect(lawnchairDaoStub.persist.called).to.be.false;
done();
});
});
it('should not remove old key on user rejection', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves());
pubkeyDaoStub.getByUserId.withArgs(testUser).returns(resolves(newKey));
keychainDao.requestPermissionForKeyUpdate = function(opts, cb) {
expect(opts.userId).to.equal(testUser);
expect(opts.newKey).to.exist;
cb(false);
};
keychainDao.refreshKeyForUserId({
userId: testUser
}).then(function(key) {
expect(key).to.equal(oldKey);
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.remove.called).to.be.false;
expect(lawnchairDaoStub.persist.called).to.be.false;
done();
});
});
it('should not remove manually imported key', function(done) {
getPubKeyStub.returns(resolves(importedKey));
keychainDao.refreshKeyForUserId({
userId: testUser
}).then(function(key) {
expect(key).to.equal(importedKey);
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.false;
done();
});
});
it('should update not the key when offline', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(rejects({
code: 42
}));
keychainDao.refreshKeyForUserId({
userId: testUser
}).then(function(key) {
expect(key).to.to.equal(oldKey);
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.called).to.be.false;
expect(lawnchairDaoStub.remove.called).to.be.false;
expect(lawnchairDaoStub.persist.called).to.be.false;
done();
});
});
it('should error while persisting new key', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves());
pubkeyDaoStub.getByUserId.withArgs(testUser).returns(resolves(newKey));
keychainDao.requestPermissionForKeyUpdate = function(opts, cb) {
expect(opts.userId).to.equal(testUser);
expect(opts.newKey).to.equal(newKey);
cb(true);
};
lawnchairDaoStub.remove.withArgs('publickey_' + oldKey._id).returns(resolves());
lawnchairDaoStub.persist.returns(rejects({}));
keychainDao.refreshKeyForUserId({
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.remove.calledOnce).to.be.true;
expect(lawnchairDaoStub.persist.calledOnce).to.be.true;
done();
});
});
it('should error while deleting old key', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves());
pubkeyDaoStub.getByUserId.withArgs(testUser).returns(resolves());
keychainDao.requestPermissionForKeyUpdate = function(opts, cb) {
expect(opts.userId).to.equal(testUser);
cb(true);
};
lawnchairDaoStub.remove.returns(rejects({}));
keychainDao.refreshKeyForUserId({
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(lawnchairDaoStub.remove.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.persist.called).to.be.false;
done();
});
});
it('should error while persisting new key', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(resolves());
pubkeyDaoStub.getByUserId.withArgs(testUser).returns(resolves(newKey));
keychainDao.requestPermissionForKeyUpdate = function(opts, cb) {
expect(opts.userId).to.equal(testUser);
expect(opts.newKey).to.equal(newKey);
cb(true);
};
lawnchairDaoStub.remove.withArgs('publickey_' + oldKey._id).returns(resolves());
lawnchairDaoStub.persist.returns(rejects({}));
keychainDao.refreshKeyForUserId({
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
expect(getPubKeyStub.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.remove.calledOnce).to.be.true;
expect(lawnchairDaoStub.persist.calledOnce).to.be.true;
done();
});
});
it('should error when get failed', function(done) {
getPubKeyStub.returns(resolves(oldKey));
pubkeyDaoStub.get.withArgs(oldKey._id).returns(rejects({}));
keychainDao.refreshKeyForUserId({
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
done();
});
});
});
describe('lookup public key', function() {
it('should fail', function(done) {
keychainDao.lookupPublicKey(undefined).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail', function(done) {
lawnchairDaoStub.read.returns(rejects(42));
keychainDao.lookupPublicKey('12345').catch(function(err) {
expect(err).to.exist;
expect(lawnchairDaoStub.read.calledOnce).to.be.true;
done();
});
});
it('should work from local storage', function(done) {
lawnchairDaoStub.read.returns(resolves({
_id: '12345',
publicKey: 'asdf'
}));
keychainDao.lookupPublicKey('12345').then(function(key) {
expect(key).to.exist;
expect(lawnchairDaoStub.read.calledOnce).to.be.true;
done();
});
});
it('should work from cloud', function(done) {
lawnchairDaoStub.read.returns(resolves());
pubkeyDaoStub.get.returns(resolves({
_id: '12345',
publicKey: 'asdf'
}));
lawnchairDaoStub.persist.returns(resolves());
keychainDao.lookupPublicKey('12345').then(function(key) {
expect(key).to.exist;
expect(key._id).to.equal('12345');
expect(lawnchairDaoStub.read.calledOnce).to.be.true;
expect(pubkeyDaoStub.get.calledOnce).to.be.true;
expect(lawnchairDaoStub.persist.calledOnce).to.be.true;
done();
});
});
});
describe('get public keys by id', function() {
it('should fail', function(done) {
keychainDao.getPublicKeys([]).then(function(keys) {
expect(keys.length).to.equal(0);
done();
});
});
it('should fail', function(done) {
lawnchairDaoStub.read.returns(rejects(42));
var ids = [{
_id: '12345'
}];
keychainDao.getPublicKeys(ids).catch(function(err) {
expect(err).to.exist;
expect(lawnchairDaoStub.read.calledOnce).to.be.true;
done();
});
});
it('should work from local storage', function(done) {
lawnchairDaoStub.read.returns(resolves({
_id: '12345',
publicKey: 'asdf'
}));
var ids = [{
_id: '12345'
}];
keychainDao.getPublicKeys(ids).then(function(keys) {
expect(keys.length).to.equal(1);
expect(keys[0]._id).to.equal('12345');
expect(lawnchairDaoStub.read.calledOnce).to.be.true;
done();
});
});
});
describe('get receiver public key', function() {
it('should fail due to error in lawnchair list', function(done) {
lawnchairDaoStub.list.returns(rejects(42));
keychainDao.getReceiverPublicKey(testUser).catch(function(err) {
expect(err).to.exist;
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
done();
});
});
it('should work from lawnchair list', function(done) {
lawnchairDaoStub.list.returns(resolves([{
_id: '12345',
userId: testUser,
publicKey: 'asdf'
}]));
keychainDao.getReceiverPublicKey(testUser).then(function(key) {
expect(key).to.exist;
expect(key._id).to.equal('12345');
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
done();
});
});
it('should work for keys with secondary userIds', function(done) {
lawnchairDaoStub.list.returns(resolves([{
_id: '12345',
userId: 'not testUser',
userIds: [{
emailAddress: testUser
}],
publicKey: 'asdf'
}]));
keychainDao.getReceiverPublicKey(testUser).then(function(key) {
expect(key).to.exist;
expect(key._id).to.equal('12345');
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
done();
});
});
it('should fail due to error in pubkey dao', function(done) {
lawnchairDaoStub.list.returns(resolves([]));
pubkeyDaoStub.getByUserId.returns(rejects({}));
keychainDao.getReceiverPublicKey(testUser).catch(function(err) {
expect(err).to.exist;
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
done();
});
});
it('should work from pubkey dao with empty result', function(done) {
lawnchairDaoStub.list.returns(resolves([]));
pubkeyDaoStub.getByUserId.returns(resolves());
keychainDao.getReceiverPublicKey(testUser).then(function(key) {
expect(key).to.not.exist;
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
done();
});
});
it('should work from pubkey dao', function(done) {
lawnchairDaoStub.list.returns(resolves([]));
pubkeyDaoStub.getByUserId.returns(resolves({
_id: '12345',
publicKey: 'asdf'
}));
lawnchairDaoStub.persist.returns(resolves());
keychainDao.getReceiverPublicKey(testUser).then(function(key) {
expect(key).to.exist;
expect(key._id).to.equal('12345');
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
expect(lawnchairDaoStub.persist.calledOnce).to.be.true;
done();
});
});
});
describe('get user key pair', function() {
it('should work if local keys are already present', function(done) {
lawnchairDaoStub.list.returns(resolves([{
_id: '12345',
userId: testUser,
publicKey: 'asdf'
}]));
lawnchairDaoStub.read.returns(resolves({
_id: '12345',
publicKey: 'asdf',
encryptedKey: 'qwer'
}));
keychainDao.getUserKeyPair(testUser).then(function(keys) {
expect(keys).to.exist;
expect(keys.publicKey).to.exist;
expect(keys.privateKey).to.exist;
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
expect(lawnchairDaoStub.read.calledTwice).to.be.true;
done();
});
});
it('should work if local keys are not already present', function(done) {
lawnchairDaoStub.list.returns(resolves());
pubkeyDaoStub.getByUserId.returns(resolves());
keychainDao.getUserKeyPair(testUser).then(function(keys) {
expect(keys).to.not.exist;
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
expect(pubkeyDaoStub.getByUserId.calledOnce).to.be.true;
done();
});
});
it('should work if local keys are not already present', function(done) {
lawnchairDaoStub.list.returns(resolves());
pubkeyDaoStub.getByUserId.returns(resolves({
_id: '12345',
publicKey: 'asdf'
}));
lawnchairDaoStub.read.returns(resolves({
_id: '12345',
publicKey: 'asdf',
encryptedKey: 'qwer'
}));
keychainDao.getUserKeyPair(testUser).then(function(keys) {
expect(keys).to.exist;
expect(keys.publicKey).to.exist;
expect(keys.privateKey).to.exist;
expect(lawnchairDaoStub.list.calledOnce).to.be.true;
expect(lawnchairDaoStub.read.calledTwice).to.be.true;
done();
});
});
});
describe('setDeviceName', function() {
it('should work', function(done) {
lawnchairDaoStub.persist.returns(resolves());
keychainDao.setDeviceName('iPhone').then(done);
});
});
describe('getDeviceName', function() {
it('should fail when device name is not set', function(done) {
lawnchairDaoStub.read.withArgs('devicename').returns(resolves());
keychainDao.getDeviceName().catch(function(err) {
expect(err.message).to.equal('Device name not set!');
done();
});
});
it('should fail due to error when reading device name', function(done) {
lawnchairDaoStub.read.withArgs('devicename').returns(rejects(42));
keychainDao.getDeviceName().catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should work', function(done) {
lawnchairDaoStub.read.withArgs('devicename').returns(resolves('iPhone'));
keychainDao.getDeviceName().then(function(deviceName) {
expect(deviceName).to.equal('iPhone');
done();
});
});
});
describe('getDeviceSecret', function() {
it('should fail due to error when reading device secret', function(done) {
lawnchairDaoStub.read.withArgs('devicename').returns(resolves('iPhone'));
lawnchairDaoStub.read.withArgs('devicesecret').returns(rejects(42));
keychainDao.getDeviceSecret().catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should fail due to error when storing device secret', function(done) {
lawnchairDaoStub.read.withArgs('devicename').returns(resolves('iPhone'));
lawnchairDaoStub.read.withArgs('devicesecret').returns(resolves());
lawnchairDaoStub.persist.withArgs('devicesecret').returns(rejects(42));
keychainDao.getDeviceSecret().catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should work when device secret is not set', function(done) {
lawnchairDaoStub.read.withArgs('devicename').returns(resolves('iPhone'));
lawnchairDaoStub.read.withArgs('devicesecret').returns(resolves());
lawnchairDaoStub.persist.withArgs('devicesecret').returns(resolves());
keychainDao.getDeviceSecret().then(function(deviceSecret) {
expect(deviceSecret).to.exist;
done();
});
});
it('should work when device secret is set', function(done) {
lawnchairDaoStub.read.withArgs('devicename').returns(resolves('iPhone'));
lawnchairDaoStub.read.withArgs('devicesecret').returns(resolves('secret'));
keychainDao.getDeviceSecret().then(function(deviceSecret) {
expect(deviceSecret).to.equal('secret');
done();
});
});
});
describe('registerDevice', function() {
var getDeviceNameStub, lookupPublicKeyStub, getDeviceSecretStub;
beforeEach(function() {
getDeviceNameStub = sinon.stub(keychainDao, 'getDeviceName');
lookupPublicKeyStub = sinon.stub(keychainDao, 'lookupPublicKey');
getDeviceSecretStub = sinon.stub(keychainDao, 'getDeviceSecret');
});
afterEach(function() {
getDeviceNameStub.restore();
lookupPublicKeyStub.restore();
getDeviceSecretStub.restore();
});
it('should fail when reading devicename', function(done) {
getDeviceNameStub.returns(rejects(42));
keychainDao.registerDevice({}).catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should fail in requestDeviceRegistration', function(done) {
getDeviceNameStub.returns(resolves('iPhone'));
privkeyDaoStub.requestDeviceRegistration.withArgs({
userId: testUser,
deviceName: 'iPhone'
}).returns(rejects(42));
keychainDao.registerDevice({
userId: testUser
}).catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should fail due to invalid requestDeviceRegistration return value', function(done) {
getDeviceNameStub.returns(resolves('iPhone'));
privkeyDaoStub.requestDeviceRegistration.withArgs({
userId: testUser,
deviceName: 'iPhone'
}).returns(resolves({}));
keychainDao.registerDevice({
userId: testUser
}).catch(function(err) {
expect(err.message).to.equal('Invalid format for session key!');
done();
});
});
it('should fail in lookupPublicKey', function(done) {
getDeviceNameStub.returns(resolves('iPhone'));
privkeyDaoStub.requestDeviceRegistration.withArgs({
userId: testUser,
deviceName: 'iPhone'
}).returns(resolves({
encryptedRegSessionKey: 'asdf'
}));
lookupPublicKeyStub.returns(rejects(42));
keychainDao.registerDevice({
userId: testUser
}).catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should fail when server public key not found', function(done) {
getDeviceNameStub.returns(resolves('iPhone'));
privkeyDaoStub.requestDeviceRegistration.withArgs({
userId: testUser,
deviceName: 'iPhone'
}).returns(resolves({
encryptedRegSessionKey: 'asdf'
}));
lookupPublicKeyStub.returns(resolves());
keychainDao.registerDevice({
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail in decrypt', function(done) {
getDeviceNameStub.returns(resolves('iPhone'));
privkeyDaoStub.requestDeviceRegistration.withArgs({
userId: testUser,
deviceName: 'iPhone'
}).returns(resolves({
encryptedRegSessionKey: 'asdf'
}));
lookupPublicKeyStub.returns(resolves({
publicKey: 'pubkey'
}));
pgpStub.decrypt.withArgs('asdf', 'pubkey').returns(rejects(42));
keychainDao.registerDevice({
userId: testUser
}).catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should fail in getDeviceSecret', function(done) {
getDeviceNameStub.returns(resolves('iPhone'));
privkeyDaoStub.requestDeviceRegistration.withArgs({
userId: testUser,
deviceName: 'iPhone'
}).returns(resolves({
encryptedRegSessionKey: 'asdf'
}));
lookupPublicKeyStub.returns(resolves({
publicKey: 'pubkey'
}));
pgpStub.decrypt.withArgs('asdf', 'pubkey').returns(resolves({
decrypted: 'decrypted',
signaturesValid: true
}));
getDeviceSecretStub.returns(rejects(42));
keychainDao.registerDevice({
userId: testUser
}).catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should fail in encrypt', function(done) {
getDeviceNameStub.returns(resolves('iPhone'));
privkeyDaoStub.requestDeviceRegistration.withArgs({
userId: testUser,
deviceName: 'iPhone'
}).returns(resolves({
encryptedRegSessionKey: 'asdf'
}));
lookupPublicKeyStub.returns(resolves({
publicKey: 'pubkey'
}));
pgpStub.decrypt.withArgs('asdf', 'pubkey').returns(resolves({
decrypted: 'decrypted',
signaturesValid: true
}));
getDeviceSecretStub.returns(resolves('secret'));
cryptoStub.encrypt.withArgs('secret', 'decrypted').returns(rejects(42));
keychainDao.registerDevice({
userId: testUser
}).catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should work', function(done) {
getDeviceNameStub.returns(resolves('iPhone'));
privkeyDaoStub.requestDeviceRegistration.withArgs({
userId: testUser,
deviceName: 'iPhone'
}).returns(resolves({
encryptedRegSessionKey: 'asdf'
}));
lookupPublicKeyStub.returns(resolves({
publicKey: 'pubkey'
}));
pgpStub.decrypt.withArgs('asdf', 'pubkey').returns(resolves({
decrypted: 'decrypted',
signaturesValid: true
}));
getDeviceSecretStub.returns(resolves('secret'));
cryptoStub.encrypt.withArgs('secret', 'decrypted').returns(resolves('encryptedDeviceSecret'));
privkeyDaoStub.uploadDeviceSecret.returns(resolves());
keychainDao.registerDevice({
userId: testUser
}).then(function() {
expect(privkeyDaoStub.uploadDeviceSecret.calledOnce).to.be.true;
done();
});
});
});
describe('_authenticateToPrivateKeyServer', function() {
var lookupPublicKeyStub, getDeviceSecretStub;
beforeEach(function() {
lookupPublicKeyStub = sinon.stub(keychainDao, 'lookupPublicKey');
getDeviceSecretStub = sinon.stub(keychainDao, 'getDeviceSecret');
});
afterEach(function() {
lookupPublicKeyStub.restore();
getDeviceSecretStub.restore();
});
it('should fail due to privkeyDao.requestAuthSessionKey', function(done) {
privkeyDaoStub.requestAuthSessionKey.withArgs({
userId: testUser
}).returns(rejects(42));
keychainDao._authenticateToPrivateKeyServer(testUser).catch(function(err) {
expect(err).to.equal(42);
done();
});
});
it('should fail due to privkeyDao.requestAuthSessionKey response', function(done) {
privkeyDaoStub.requestAuthSessionKey.returns(resolves({}));
keychainDao._authenticateToPrivateKeyServer(testUser).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail due to lookupPublicKey', function(done) {
privkeyDaoStub.requestAuthSessionKey.returns(resolves({
encryptedAuthSessionKey: 'encryptedAuthSessionKey',
encryptedChallenge: 'encryptedChallenge',
sessionId: 'sessionId'
}));
lookupPublicKeyStub.returns(rejects(42));
keychainDao._authenticateToPrivateKeyServer(testUser).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail due to pgp.decrypt', function(done) {
privkeyDaoStub.requestAuthSessionKey.returns(resolves({
encryptedAuthSessionKey: 'encryptedAuthSessionKey',
encryptedChallenge: 'encryptedChallenge',
sessionId: 'sessionId'
}));
lookupPublicKeyStub.returns(resolves({
publickKey: 'publicKey'
}));
pgpStub.decrypt.returns(rejects(42));
keychainDao._authenticateToPrivateKeyServer(testUser).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail due to getDeviceSecret', function(done) {
privkeyDaoStub.requestAuthSessionKey.returns(resolves({
encryptedAuthSessionKey: 'encryptedAuthSessionKey',
encryptedChallenge: 'encryptedChallenge',
sessionId: 'sessionId'
}));
lookupPublicKeyStub.returns(resolves({
publickKey: 'publicKey'
}));
pgpStub.decrypt.returns(resolves({
decrypted: 'decryptedStuff'
}));
getDeviceSecretStub.returns(rejects(42));
keychainDao._authenticateToPrivateKeyServer(testUser).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail due to crypto.encrypt', function(done) {
privkeyDaoStub.requestAuthSessionKey.returns(resolves({
encryptedAuthSessionKey: 'encryptedAuthSessionKey',
encryptedChallenge: 'encryptedChallenge',
sessionId: 'sessionId'
}));
lookupPublicKeyStub.returns(resolves({
publickKey: 'publicKey'
}));
pgpStub.decrypt.returns(resolves({
decrypted: 'decryptedStuff'
}));
getDeviceSecretStub.returns(resolves('deviceSecret'));
cryptoStub.encrypt.returns(rejects(42));
keychainDao._authenticateToPrivateKeyServer(testUser).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail due to privkeyDao.verifyAuthentication', function(done) {
privkeyDaoStub.requestAuthSessionKey.returns(resolves({
encryptedAuthSessionKey: 'encryptedAuthSessionKey',
encryptedChallenge: 'encryptedChallenge',
sessionId: 'sessionId'
}));
lookupPublicKeyStub.returns(resolves({
publickKey: 'publicKey'
}));
pgpStub.decrypt.returns(resolves({
decrypted: 'decryptedStuff',
signaturesValid: true
}));
getDeviceSecretStub.returns(resolves('deviceSecret'));
cryptoStub.encrypt.returns(resolves('encryptedStuff'));
privkeyDaoStub.verifyAuthentication.returns(rejects(42));
keychainDao._authenticateToPrivateKeyServer(testUser).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail due to server public key nto found', function(done) {
privkeyDaoStub.requestAuthSessionKey.returns(resolves({
encryptedAuthSessionKey: 'encryptedAuthSessionKey',
encryptedChallenge: 'encryptedChallenge',
sessionId: 'sessionId'
}));
lookupPublicKeyStub.returns(resolves());
pgpStub.decrypt.returns(resolves({
decrypted: 'decryptedStuff',
signaturesValid: true
}));
getDeviceSecretStub.returns(resolves('deviceSecret'));
cryptoStub.encrypt.returns(resolves('encryptedStuff'));
privkeyDaoStub.verifyAuthentication.returns(resolves());
keychainDao._authenticateToPrivateKeyServer(testUser).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should work', function(done) {
privkeyDaoStub.requestAuthSessionKey.returns(resolves({
encryptedAuthSessionKey: 'encryptedAuthSessionKey',
encryptedChallenge: 'encryptedChallenge',
sessionId: 'sessionId'
}));
lookupPublicKeyStub.returns(resolves({
publicKey: 'publicKey'
}));
pgpStub.decrypt.returns(resolves({
decrypted: 'decryptedStuff',
signaturesValid: true
}));
getDeviceSecretStub.returns(resolves('deviceSecret'));
cryptoStub.encrypt.returns(resolves('encryptedStuff'));
privkeyDaoStub.verifyAuthentication.returns(resolves());
keychainDao._authenticateToPrivateKeyServer(testUser).then(function(authSessionKey) {
expect(authSessionKey).to.deep.equal({
sessionKey: 'decryptedStuff',
sessionId: 'sessionId'
});
done();
});
});
});
describe('uploadPrivateKey', function() {
var getUserKeyPairStub, _authenticateToPrivateKeyServerStub;
beforeEach(function() {
getUserKeyPairStub = sinon.stub(keychainDao, 'getUserKeyPair');
_authenticateToPrivateKeyServerStub = sinon.stub(keychainDao, '_authenticateToPrivateKeyServer');
});
afterEach(function() {
getUserKeyPairStub.restore();
_authenticateToPrivateKeyServerStub.restore();
});
it('should fail due to missing args', function(done) {
keychainDao.uploadPrivateKey({}).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail due to error in derive key', function(done) {
cryptoStub.deriveKey.returns(rejects(42));
keychainDao.uploadPrivateKey({
code: 'code',
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
done();
});
});
it('should fail due to error in getUserKeyPair', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
getUserKeyPairStub.returns(rejects(42));
keychainDao.uploadPrivateKey({
code: 'code',
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(getUserKeyPairStub.calledOnce).to.be.true;
done();
});
});
it('should fail due to error in crypto.encrypt', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
getUserKeyPairStub.returns(resolves({
privateKey: {
_id: 'pgpKeyId',
encryptedKey: 'pgpKey'
}
}));
cryptoStub.encrypt.returns(rejects(42));
keychainDao.uploadPrivateKey({
code: 'code',
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(getUserKeyPairStub.calledOnce).to.be.true;
expect(cryptoStub.encrypt.calledOnce).to.be.true;
done();
});
});
it('should fail due to error in _authenticateToPrivateKeyServer', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
getUserKeyPairStub.returns(resolves({
privateKey: {
_id: 'pgpKeyId',
encryptedKey: 'pgpKey'
}
}));
cryptoStub.encrypt.returns(resolves('encryptedPgpKey'));
_authenticateToPrivateKeyServerStub.returns(rejects(42));
keychainDao.uploadPrivateKey({
code: 'code',
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(getUserKeyPairStub.calledOnce).to.be.true;
expect(cryptoStub.encrypt.calledOnce).to.be.true;
expect(_authenticateToPrivateKeyServerStub.calledOnce).to.be.true;
done();
});
});
it('should fail due to error in cryptoStub.encrypt', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
getUserKeyPairStub.returns(resolves({
privateKey: {
_id: 'pgpKeyId',
encryptedKey: 'pgpKey'
}
}));
cryptoStub.encrypt.withArgs('pgpKey').returns(resolves('encryptedPgpKey'));
_authenticateToPrivateKeyServerStub.returns(resolves({
sessionId: 'sessionId',
sessionKey: 'sessionKey'
}));
cryptoStub.encrypt.withArgs('encryptedPgpKey').returns(rejects(42));
keychainDao.uploadPrivateKey({
code: 'code',
userId: testUser
}).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(getUserKeyPairStub.calledOnce).to.be.true;
expect(cryptoStub.encrypt.calledTwice).to.be.true;
expect(_authenticateToPrivateKeyServerStub.calledOnce).to.be.true;
done();
});
});
it('should work', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
getUserKeyPairStub.returns(resolves({
privateKey: {
_id: 'pgpKeyId',
encryptedKey: 'pgpKey'
}
}));
cryptoStub.encrypt.withArgs('pgpKey').returns(resolves('encryptedPgpKey'));
_authenticateToPrivateKeyServerStub.returns(resolves({
sessionId: 'sessionId',
sessionKey: 'sessionKey'
}));
cryptoStub.encrypt.withArgs('encryptedPgpKey').returns(resolves('doubleEncryptedPgpKey'));
privkeyDaoStub.upload.returns(resolves());
keychainDao.uploadPrivateKey({
code: 'code',
userId: testUser
}).then(function() {
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(getUserKeyPairStub.calledOnce).to.be.true;
expect(cryptoStub.encrypt.calledTwice).to.be.true;
expect(_authenticateToPrivateKeyServerStub.calledOnce).to.be.true;
expect(privkeyDaoStub.upload.calledOnce).to.be.true;
done();
});
});
});
describe('requestPrivateKeyDownload', function() {
it('should work', function(done) {
var options = {
userId: testUser,
keyId: 'someId'
};
privkeyDaoStub.requestDownload.withArgs(options).returns(resolves());
keychainDao.requestPrivateKeyDownload(options).then(done);
});
});
describe('hasPrivateKey', function() {
it('should work', function(done) {
var options = {
userId: testUser,
keyId: 'someId'
};
privkeyDaoStub.hasPrivateKey.withArgs(options).returns(resolves());
keychainDao.hasPrivateKey(options).then(done);
});
});
describe('downloadPrivateKey', function() {
it('should work', function(done) {
var options = {
recoveryToken: 'token'
};
privkeyDaoStub.download.withArgs(options).returns(resolves());
keychainDao.downloadPrivateKey(options).then(done);
});
});
describe('decryptAndStorePrivateKeyLocally', function() {
var saveLocalPrivateKeyStub, testData;
beforeEach(function() {
testData = {
_id: 'keyId',
userId: testUser,
encryptedPrivateKey: 'encryptedPrivateKey',
code: 'code',
salt: 'salt',
iv: 'iv'
};
saveLocalPrivateKeyStub = sinon.stub(keychainDao, 'saveLocalPrivateKey');
});
afterEach(function() {
saveLocalPrivateKeyStub.restore();
});
it('should fail due to invlaid args', function(done) {
keychainDao.decryptAndStorePrivateKeyLocally({}).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should fail due to crypto.deriveKey', function(done) {
cryptoStub.deriveKey.returns(rejects(42));
keychainDao.decryptAndStorePrivateKeyLocally(testData).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
done();
});
});
it('should fail due to crypto.decrypt', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
cryptoStub.decrypt.returns(rejects(42));
keychainDao.decryptAndStorePrivateKeyLocally(testData).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(cryptoStub.decrypt.calledOnce).to.be.true;
done();
});
});
it('should fail due to pgp.getKeyParams', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
cryptoStub.decrypt.returns(resolves('privateKeyArmored'));
pgpStub.getKeyParams.returns(rejects(new Error()));
keychainDao.decryptAndStorePrivateKeyLocally(testData).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(cryptoStub.decrypt.calledOnce).to.be.true;
expect(pgpStub.getKeyParams.calledOnce).to.be.true;
done();
});
});
it('should fail due to saveLocalPrivateKey', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
cryptoStub.decrypt.returns(resolves('privateKeyArmored'));
pgpStub.getKeyParams.returns(testData);
saveLocalPrivateKeyStub.returns(rejects(42));
keychainDao.decryptAndStorePrivateKeyLocally(testData).catch(function(err) {
expect(err).to.exist;
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(cryptoStub.decrypt.calledOnce).to.be.true;
expect(pgpStub.getKeyParams.calledOnce).to.be.true;
expect(saveLocalPrivateKeyStub.calledOnce).to.be.true;
done();
});
});
it('should work', function(done) {
cryptoStub.deriveKey.returns(resolves('derivedKey'));
cryptoStub.decrypt.returns(resolves('privateKeyArmored'));
pgpStub.getKeyParams.returns(testData);
saveLocalPrivateKeyStub.returns(resolves());
keychainDao.decryptAndStorePrivateKeyLocally(testData).then(function(keyObject) {
expect(keyObject).to.deep.equal({
_id: 'keyId',
userId: testUser,
encryptedKey: 'privateKeyArmored'
});
expect(cryptoStub.deriveKey.calledOnce).to.be.true;
expect(cryptoStub.decrypt.calledOnce).to.be.true;
expect(pgpStub.getKeyParams.calledOnce).to.be.true;
expect(saveLocalPrivateKeyStub.calledOnce).to.be.true;
done();
});
});
});
describe('put user keypair', function() {
it('should fail', function(done) {
var keypair = {
publicKey: {
_id: '12345',
userId: testUser,
publicKey: 'asdf'
},
privateKey: {
_id: '12345',
encryptedKey: 'qwer'
}
};
keychainDao.putUserKeyPair(keypair).catch(function(err) {
expect(err).to.exist;
done();
});
});
it('should work', function(done) {
var keypair = {
publicKey: {
_id: '12345',
userId: testUser,
publicKey: 'asdf'
},
privateKey: {
_id: '12345',
userId: testUser,
encryptedKey: 'qwer'
}
};
lawnchairDaoStub.persist.returns(resolves());
pubkeyDaoStub.put.returns(resolves());
keychainDao.putUserKeyPair(keypair).then(function() {
expect(lawnchairDaoStub.persist.calledTwice).to.be.true;
expect(pubkeyDaoStub.put.calledOnce).to.be.true;
done();
});
});
});
});