/* * Copyright (C) 2018 KeePassXC Team * * 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 "TestKdbx4.h" #include "TestGlobal.h" #include "core/Metadata.h" #include "keys/PasswordKey.h" #include "keys/FileKey.h" #include "mock/MockChallengeResponseKey.h" #include "format/KeePass2.h" #include "format/KeePass2Reader.h" #include "format/KeePass2Writer.h" #include "format/KdbxXmlReader.h" #include "format/KdbxXmlWriter.h" #include "config-keepassx-tests.h" QTEST_GUILESS_MAIN(TestKdbx4) void TestKdbx4::initTestCaseImpl() { m_xmlDb->changeKdf(KeePass2::uuidToKdf(KeePass2::KDF_ARGON2)); m_kdbxSourceDb->changeKdf(KeePass2::uuidToKdf(KeePass2::KDF_ARGON2)); } Database* TestKdbx4::readXml(const QString& path, bool strictMode, bool& hasError, QString& errorString) { KdbxXmlReader reader(KeePass2::FILE_VERSION_4); reader.setStrictMode(strictMode); auto db = reader.readDatabase(path); hasError = reader.hasError(); errorString = reader.errorString(); return db; } Database* TestKdbx4::readXml(QBuffer* buf, bool strictMode, bool& hasError, QString& errorString) { KdbxXmlReader reader(KeePass2::FILE_VERSION_4); reader.setStrictMode(strictMode); auto db = reader.readDatabase(buf); hasError = reader.hasError(); errorString = reader.errorString(); return db; } void TestKdbx4::writeXml(QBuffer* buf, Database* db, bool& hasError, QString& errorString) { KdbxXmlWriter writer(KeePass2::FILE_VERSION_4); writer.writeDatabase(buf, db); hasError = writer.hasError(); errorString = writer.errorString(); } void TestKdbx4::readKdbx(QIODevice* device, CompositeKey const& key, QScopedPointer& db, bool& hasError, QString& errorString) { KeePass2Reader reader; db.reset(reader.readDatabase(device, key)); hasError = reader.hasError(); if (hasError) { errorString = reader.errorString(); } QCOMPARE(reader.version(), KeePass2::FILE_VERSION_4); } void TestKdbx4::readKdbx(const QString& path, CompositeKey const& key, QScopedPointer& db, bool& hasError, QString& errorString) { KeePass2Reader reader; db.reset(reader.readDatabase(path, key)); hasError = reader.hasError(); if (hasError) { errorString = reader.errorString(); } QCOMPARE(reader.version(), KeePass2::FILE_VERSION_4); } void TestKdbx4::writeKdbx(QIODevice* device, Database* db, bool& hasError, QString& errorString) { if (db->kdf()->uuid() == KeePass2::KDF_AES_KDBX3) { db->changeKdf(KeePass2::uuidToKdf(KeePass2::KDF_ARGON2)); } KeePass2Writer writer; hasError = writer.writeDatabase(device, db); hasError = writer.hasError(); if (hasError) { errorString = writer.errorString(); } QCOMPARE(writer.version(), KeePass2::FILE_VERSION_4); } Q_DECLARE_METATYPE(Uuid); void TestKdbx4::testFormat400() { QString filename = QString(KEEPASSX_TEST_DATA_DIR).append("/Format400.kdbx"); CompositeKey key; key.addKey(PasswordKey("t")); KeePass2Reader reader; QScopedPointer db(reader.readDatabase(filename, key)); QCOMPARE(reader.version(), KeePass2::FILE_VERSION_4); QVERIFY(db.data()); QVERIFY(!reader.hasError()); QCOMPARE(db->rootGroup()->name(), QString("Format400")); QCOMPARE(db->metadata()->name(), QString("Format400")); QCOMPARE(db->rootGroup()->entries().size(), 1); auto entry = db->rootGroup()->entries().at(0); QCOMPARE(entry->title(), QString("Format400")); QCOMPARE(entry->username(), QString("Format400")); QCOMPARE(entry->attributes()->keys().size(), 6); QCOMPARE(entry->attributes()->value("Format400"), QString("Format400")); QCOMPARE(entry->attachments()->keys().size(), 1); QCOMPARE(entry->attachments()->value("Format400"), QByteArray("Format400\n")); } void TestKdbx4::testFormat400Upgrade() { QFETCH(Uuid, kdfUuid); QFETCH(Uuid, cipherUuid); QFETCH(bool, addCustomData); QFETCH(quint32, expectedVersion); QScopedPointer sourceDb(new Database()); sourceDb->metadata()->setName("Wubba lubba dub dub"); QCOMPARE(sourceDb->kdf()->uuid(), KeePass2::KDF_AES_KDBX3); // default is legacy AES-KDF CompositeKey key; key.addKey(PasswordKey("I am in great pain, please help me!")); sourceDb->setKey(key, true, true); QBuffer buffer; buffer.open(QBuffer::ReadWrite); // upgrade to KDBX 4 by changing KDF and Cipher sourceDb->changeKdf(KeePass2::uuidToKdf(kdfUuid)); sourceDb->setCipher(cipherUuid); // CustomData in meta should not cause any version change sourceDb->metadata()->customData()->set("CustomPublicData", "Hey look, I turned myself into a pickle!"); if (addCustomData) { // this, however, should sourceDb->rootGroup()->customData()->set("CustomGroupData", "I just killed my family! I don't care who they were!"); } KeePass2Writer writer; writer.writeDatabase(&buffer, sourceDb.data()); if (writer.hasError()) { QFAIL(qPrintable(QString("Error while writing database: %1").arg(writer.errorString()))); } // read buffer back buffer.seek(0); KeePass2Reader reader; QScopedPointer targetDb(reader.readDatabase(&buffer, key)); if (reader.hasError()) { QFAIL(qPrintable(QString("Error while reading database: %1").arg(reader.errorString()))); } QVERIFY(targetDb->rootGroup()); QCOMPARE(targetDb->metadata()->name(), sourceDb->metadata()->name()); QCOMPARE(reader.version(), expectedVersion); QCOMPARE(targetDb->cipher(), cipherUuid); QCOMPARE(*targetDb->metadata()->customData(), *sourceDb->metadata()->customData()); QCOMPARE(*targetDb->rootGroup()->customData(), *sourceDb->rootGroup()->customData()); } void TestKdbx4::testFormat400Upgrade_data() { QTest::addColumn("kdfUuid"); QTest::addColumn("cipherUuid"); QTest::addColumn("addCustomData"); QTest::addColumn("expectedVersion"); auto constexpr kdbx3 = KeePass2::FILE_VERSION_3_1 & KeePass2::FILE_VERSION_CRITICAL_MASK; auto constexpr kdbx4 = KeePass2::FILE_VERSION_4 & KeePass2::FILE_VERSION_CRITICAL_MASK; QTest::newRow("Argon2 + AES") << KeePass2::KDF_ARGON2 << KeePass2::CIPHER_AES << false << kdbx4; QTest::newRow("AES-KDF + AES") << KeePass2::KDF_AES_KDBX4 << KeePass2::CIPHER_AES << false << kdbx4; QTest::newRow("AES-KDF (legacy) + AES") << KeePass2::KDF_AES_KDBX3 << KeePass2::CIPHER_AES << false << kdbx3; QTest::newRow("Argon2 + AES + CustomData") << KeePass2::KDF_ARGON2 << KeePass2::CIPHER_AES << true << kdbx4; QTest::newRow("AES-KDF + AES + CustomData") << KeePass2::KDF_AES_KDBX4 << KeePass2::CIPHER_AES << true << kdbx4; QTest::newRow("AES-KDF (legacy) + AES + CustomData") << KeePass2::KDF_AES_KDBX3 << KeePass2::CIPHER_AES << true << kdbx4; QTest::newRow("Argon2 + ChaCha20") << KeePass2::KDF_ARGON2 << KeePass2::CIPHER_CHACHA20 << false << kdbx4; QTest::newRow("AES-KDF + ChaCha20") << KeePass2::KDF_AES_KDBX4 << KeePass2::CIPHER_CHACHA20 << false << kdbx4; QTest::newRow("AES-KDF (legacy) + ChaCha20") << KeePass2::KDF_AES_KDBX3 << KeePass2::CIPHER_CHACHA20 << false << kdbx3; QTest::newRow("Argon2 + ChaCha20 + CustomData") << KeePass2::KDF_ARGON2 << KeePass2::CIPHER_CHACHA20 << true << kdbx4; QTest::newRow("AES-KDF + ChaCha20 + CustomData") << KeePass2::KDF_AES_KDBX4 << KeePass2::CIPHER_CHACHA20 << true << kdbx4; QTest::newRow("AES-KDF (legacy) + ChaCha20 + CustomData") << KeePass2::KDF_AES_KDBX3 << KeePass2::CIPHER_CHACHA20 << true << kdbx4; QTest::newRow("Argon2 + Twofish") << KeePass2::KDF_ARGON2 << KeePass2::CIPHER_TWOFISH << false << kdbx4; QTest::newRow("AES-KDF + Twofish") << KeePass2::KDF_AES_KDBX4 << KeePass2::CIPHER_TWOFISH << false << kdbx4; QTest::newRow("AES-KDF (legacy) + Twofish") << KeePass2::KDF_AES_KDBX3 << KeePass2::CIPHER_TWOFISH << false << kdbx3; QTest::newRow("Argon2 + Twofish + CustomData") << KeePass2::KDF_ARGON2 << KeePass2::CIPHER_TWOFISH << true << kdbx4; QTest::newRow("AES-KDF + Twofish + CustomData") << KeePass2::KDF_AES_KDBX4 << KeePass2::CIPHER_TWOFISH << true << kdbx4; QTest::newRow("AES-KDF (legacy) + Twofish + CustomData") << KeePass2::KDF_AES_KDBX3 << KeePass2::CIPHER_TWOFISH << true << kdbx4; } void TestKdbx4::testUpgradeMasterKeyIntegrity() { QFETCH(QString, upgradeAction); QFETCH(quint32, expectedVersion); // prepare composite key PasswordKey passwordKey("turXpGMQiUE6CkPvWacydAKsnp4cxz"); QByteArray fileKeyBytes("Ma6hHov98FbPeyAL22XhcgmpJk8xjQ"); QBuffer fileKeyBuffer(&fileKeyBytes); fileKeyBuffer.open(QBuffer::ReadOnly); FileKey fileKey; fileKey.load(&fileKeyBuffer); auto crKey = QSharedPointer::create(QByteArray("azdJnbVCFE76vV6t9RJ2DS6xvSS93k")); CompositeKey compositeKey; compositeKey.addKey(passwordKey); compositeKey.addKey(fileKey); compositeKey.addChallengeResponseKey(crKey); QScopedPointer db(new Database()); db->setKey(compositeKey); // upgrade the database by a specific method if (upgradeAction == "none") { // do nothing } else if (upgradeAction == "meta-customdata") { db->metadata()->customData()->set("abc", "def"); } else if (upgradeAction == "kdf-aes-kdbx3") { db->changeKdf(KeePass2::uuidToKdf(KeePass2::KDF_AES_KDBX3)); } else if (upgradeAction == "kdf-argon2") { db->changeKdf(KeePass2::uuidToKdf(KeePass2::KDF_ARGON2)); } else if (upgradeAction == "kdf-aes-kdbx4") { db->changeKdf(KeePass2::uuidToKdf(KeePass2::KDF_AES_KDBX4)); } else if (upgradeAction == "public-customdata") { db->publicCustomData().insert("abc", "def"); } else if (upgradeAction == "rootgroup-customdata") { db->rootGroup()->customData()->set("abc", "def"); } else if (upgradeAction == "group-customdata") { auto group = new Group(); group->setParent(db->rootGroup()); group->setUuid(Uuid::random()); group->customData()->set("abc", "def"); } else if (upgradeAction == "rootentry-customdata") { auto entry = new Entry(); entry->setGroup(db->rootGroup()); entry->setUuid(Uuid::random()); entry->customData()->set("abc", "def"); } else if (upgradeAction == "entry-customdata") { auto group = new Group(); group->setParent(db->rootGroup()); group->setUuid(Uuid::random()); auto entry = new Entry(); entry->setGroup(group); entry->setUuid(Uuid::random()); entry->customData()->set("abc", "def"); } else { QFAIL(qPrintable(QString("Unknown action: %s").arg(upgradeAction))); } QBuffer buffer; buffer.open(QBuffer::ReadWrite); KeePass2Writer writer; QVERIFY(writer.writeDatabase(&buffer, db.data())); // paranoid check that we cannot decrypt the database without a key buffer.seek(0); KeePass2Reader reader; QScopedPointer db2; db2.reset(reader.readDatabase(&buffer, CompositeKey())); QVERIFY(reader.hasError()); // check that we can read back the database with the original composite key, // i.e., no components have been lost on the way buffer.seek(0); db2.reset(reader.readDatabase(&buffer, compositeKey)); if (reader.hasError()) { QFAIL(qPrintable(reader.errorString())); } QCOMPARE(reader.version(), expectedVersion & KeePass2::FILE_VERSION_CRITICAL_MASK); } void TestKdbx4::testUpgradeMasterKeyIntegrity_data() { QTest::addColumn("upgradeAction"); QTest::addColumn("expectedVersion"); QTest::newRow("Upgrade: none") << QString("none") << KeePass2::FILE_VERSION_3; QTest::newRow("Upgrade: none (meta-customdata)") << QString("meta-customdata") << KeePass2::FILE_VERSION_3; QTest::newRow("Upgrade: none (explicit kdf-aes-kdbx3)") << QString("kdf-aes-kdbx3") << KeePass2::FILE_VERSION_3; QTest::newRow("Upgrade (explicit): kdf-argon2") << QString("kdf-argon2") << KeePass2::FILE_VERSION_4; QTest::newRow("Upgrade (explicit): kdf-aes-kdbx4") << QString("kdf-aes-kdbx4") << KeePass2::FILE_VERSION_4; QTest::newRow("Upgrade (implicit): public-customdata") << QString("public-customdata") << KeePass2::FILE_VERSION_4; QTest::newRow("Upgrade (implicit): rootgroup-customdata") << QString("rootgroup-customdata") << KeePass2::FILE_VERSION_4; QTest::newRow("Upgrade (implicit): group-customdata") << QString("group-customdata") << KeePass2::FILE_VERSION_4; QTest::newRow("Upgrade (implicit): rootentry-customdata") << QString("rootentry-customdata") << KeePass2::FILE_VERSION_4; QTest::newRow("Upgrade (implicit): entry-customdata") << QString("entry-customdata") << KeePass2::FILE_VERSION_4; } void TestKdbx4::testCustomData() { Database db; // test public custom data QVariantMap publicCustomData; publicCustomData.insert("CD1", 123); publicCustomData.insert("CD2", true); publicCustomData.insert("CD3", "abcäöü"); db.setPublicCustomData(publicCustomData); publicCustomData.insert("CD4", QByteArray::fromHex("ababa123ff")); db.publicCustomData().insert("CD4", publicCustomData.value("CD4")); QCOMPARE(db.publicCustomData(), publicCustomData); const QString customDataKey1 = "CD1"; const QString customDataKey2 = "CD2"; const QString customData1 = "abcäöü"; const QString customData2 = "Hello World"; const int dataSize = customDataKey1.toUtf8().size() + customDataKey1.toUtf8().size() + customData1.toUtf8().size() + customData2.toUtf8().size(); // test custom database data db.metadata()->customData()->set(customDataKey1, customData1); db.metadata()->customData()->set(customDataKey2, customData2); QCOMPARE(db.metadata()->customData()->size(), 2); QCOMPARE(db.metadata()->customData()->dataSize(), dataSize); // test custom root group data Group* root = db.rootGroup(); root->customData()->set(customDataKey1, customData1); root->customData()->set(customDataKey2, customData2); QCOMPARE(root->customData()->size(), 2); QCOMPARE(root->customData()->dataSize(), dataSize); // test copied custom group data auto* group = new Group(); group->setParent(root); group->setUuid(Uuid::random()); group->customData()->copyDataFrom(root->customData()); QCOMPARE(*group->customData(), *root->customData()); // test copied custom entry data auto* entry = new Entry(); entry->setGroup(group); entry->setUuid(Uuid::random()); entry->customData()->copyDataFrom(group->customData()); QCOMPARE(*entry->customData(), *root->customData()); // test custom data deletion entry->customData()->set("additional item", "foobar"); QCOMPARE(entry->customData()->size(), 3); entry->customData()->remove("additional item"); QCOMPARE(entry->customData()->size(), 2); QCOMPARE(entry->customData()->dataSize(), dataSize); // test custom data on cloned groups QScopedPointer clonedGroup(group->clone()); QCOMPARE(*clonedGroup->customData(), *group->customData()); // test custom data on cloned entries QScopedPointer clonedEntry(entry->clone(Entry::CloneNoFlags)); QCOMPARE(*clonedEntry->customData(), *entry->customData()); QBuffer buffer; buffer.open(QBuffer::ReadWrite); KeePass2Writer writer; writer.writeDatabase(&buffer, &db); // read buffer back buffer.seek(0); KeePass2Reader reader; QSharedPointer newDb(reader.readDatabase(&buffer, CompositeKey())); // test all custom data are read back successfully from KDBX QCOMPARE(newDb->publicCustomData(), publicCustomData); QCOMPARE(newDb->metadata()->customData()->value(customDataKey1), customData1); QCOMPARE(newDb->metadata()->customData()->value(customDataKey2), customData2); QCOMPARE(newDb->rootGroup()->customData()->value(customDataKey1), customData1); QCOMPARE(newDb->rootGroup()->customData()->value(customDataKey2), customData2); auto* newGroup = newDb->rootGroup()->children()[0]; QCOMPARE(newGroup->customData()->value(customDataKey1), customData1); QCOMPARE(newGroup->customData()->value(customDataKey2), customData2); auto* newEntry = newDb->rootGroup()->children()[0]->entries()[0]; QCOMPARE(newEntry->customData()->value(customDataKey1), customData1); QCOMPARE(newEntry->customData()->value(customDataKey2), customData2); }