/* * Copyright (C) 2017 KeePassXC Team * Copyright (C) 2011 Felix Geyer * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 or (at your option) * version 3 of the License. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "TestKeys.h" #include #include #include "config-keepassx-tests.h" #include "core/Database.h" #include "core/Metadata.h" #include "core/Tools.h" #include "crypto/Crypto.h" #include "crypto/kdf/AesKdf.h" #include "crypto/CryptoHash.h" #include "format/KeePass2Reader.h" #include "format/KeePass2Writer.h" #include "keys/FileKey.h" #include "keys/PasswordKey.h" QTEST_GUILESS_MAIN(TestKeys) void TestKeys::initTestCase() { QVERIFY(Crypto::init()); } void TestKeys::testComposite() { QScopedPointer compositeKey1(new CompositeKey()); QScopedPointer passwordKey1(new PasswordKey()); QScopedPointer passwordKey2(new PasswordKey("test")); // make sure that addKey() creates a copy of the keys compositeKey1->addKey(*passwordKey1); compositeKey1->addKey(*passwordKey2); AesKdf kdf; kdf.setRounds(1); QByteArray transformed1; QVERIFY(compositeKey1->transform(kdf, transformed1)); QCOMPARE(transformed1.size(), 32); // make sure the subkeys are copied QScopedPointer compositeKey2(compositeKey1->clone()); QByteArray transformed2; QVERIFY(compositeKey2->transform(kdf, transformed2)); QCOMPARE(transformed2.size(), 32); QCOMPARE(transformed1, transformed2); QScopedPointer compositeKey3(new CompositeKey()); QScopedPointer compositeKey4(new CompositeKey()); // test clear() compositeKey3->addKey(PasswordKey("test")); compositeKey3->clear(); QCOMPARE(compositeKey3->rawKey(), compositeKey4->rawKey()); // test assignment operator compositeKey3->addKey(PasswordKey("123")); *compositeKey4 = *compositeKey3; QCOMPARE(compositeKey3->rawKey(), compositeKey4->rawKey()); // test self-assignment *compositeKey3 = *compositeKey3; QCOMPARE(compositeKey3->rawKey(), compositeKey4->rawKey()); } void TestKeys::testFileKey() { QFETCH(QString, type); QString name = QString("FileKey").append(type); KeePass2Reader reader; QString dbFilename = QString("%1/%2.kdbx").arg(QString(KEEPASSX_TEST_DATA_DIR), name); QString keyFilename = QString("%1/%2.key").arg(QString(KEEPASSX_TEST_DATA_DIR), name); CompositeKey compositeKey; FileKey fileKey; QVERIFY(fileKey.load(keyFilename)); QCOMPARE(fileKey.rawKey().size(), 32); compositeKey.addKey(fileKey); QScopedPointer db(reader.readDatabase(dbFilename, compositeKey)); QVERIFY(db); QVERIFY(!reader.hasError()); QCOMPARE(db->metadata()->name(), QString("%1 Database").arg(name)); } void TestKeys::testFileKey_data() { QTest::addColumn("type"); QTest::newRow("Xml") << QString("Xml"); QTest::newRow("XmlBrokenBase64") << QString("XmlBrokenBase64"); QTest::newRow("Binary") << QString("Binary"); QTest::newRow("Hex") << QString("Hex"); QTest::newRow("Hashed") << QString("Hashed"); } void TestKeys::testCreateFileKey() { QBuffer keyBuffer1; keyBuffer1.open(QBuffer::ReadWrite); FileKey::create(&keyBuffer1, 128); QCOMPARE(keyBuffer1.size(), 128); QBuffer keyBuffer2; keyBuffer2.open(QBuffer::ReadWrite); FileKey::create(&keyBuffer2, 64); QCOMPARE(keyBuffer2.size(), 64); } void TestKeys::testCreateAndOpenFileKey() { const QString dbName("testCreateFileKey database"); QBuffer keyBuffer; keyBuffer.open(QBuffer::ReadWrite); FileKey::create(&keyBuffer); keyBuffer.reset(); FileKey fileKey; QVERIFY(fileKey.load(&keyBuffer)); CompositeKey compositeKey; compositeKey.addKey(fileKey); QScopedPointer dbOrg(new Database()); QVERIFY(dbOrg->setKey(compositeKey)); dbOrg->metadata()->setName(dbName); QBuffer dbBuffer; dbBuffer.open(QBuffer::ReadWrite); KeePass2Writer writer; writer.writeDatabase(&dbBuffer, dbOrg.data()); dbBuffer.reset(); KeePass2Reader reader; QScopedPointer dbRead(reader.readDatabase(&dbBuffer, compositeKey)); QVERIFY(dbRead); QVERIFY(!reader.hasError()); QCOMPARE(dbRead->metadata()->name(), dbName); } void TestKeys::testFileKeyHash() { QBuffer keyBuffer; keyBuffer.open(QBuffer::ReadWrite); FileKey::create(&keyBuffer); CryptoHash cryptoHash(CryptoHash::Sha256); cryptoHash.addData(keyBuffer.data()); FileKey fileKey; fileKey.load(&keyBuffer); QCOMPARE(fileKey.rawKey(), cryptoHash.result()); } void TestKeys::testFileKeyError() { bool result; QString errorMsg; const QString fileName(QString(KEEPASSX_TEST_DATA_DIR).append("/does/not/exist")); FileKey fileKey; result = fileKey.load(fileName, &errorMsg); QVERIFY(!result); QVERIFY(!errorMsg.isEmpty()); errorMsg = ""; result = FileKey::create(fileName, &errorMsg); QVERIFY(!result); QVERIFY(!errorMsg.isEmpty()); errorMsg = ""; } void TestKeys::benchmarkTransformKey() { QByteArray env = qgetenv("BENCHMARK"); if (env.isEmpty() || env == "0" || env == "no") { QSKIP("Benchmark skipped. Set env variable BENCHMARK=1 to enable."); } PasswordKey pwKey; pwKey.setPassword("password"); CompositeKey compositeKey; compositeKey.addKey(pwKey); QByteArray seed(32, '\x4B'); QByteArray result; AesKdf kdf; kdf.setSeed(seed); kdf.setRounds(1e6); QBENCHMARK { Q_UNUSED(compositeKey.transform(kdf, result)); }; }