2016-02-11 16:39:42 +01:00
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#include <gtest/gtest.h>
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#include <cpp-utils/data/DataFixture.h>
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#include <cpp-utils/crypto/symmetric/ciphers.h>
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#include <cryfs/config/crypto/CryConfigEncryptor.h>
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2015-11-11 23:33:39 +01:00
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using std::ostream;
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using cpputils::unique_ref;
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using cpputils::make_unique_ref;
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using cpputils::DataFixture;
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using cpputils::Data;
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using cpputils::DerivedKeyConfig;
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using cpputils::DerivedKey;
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using cpputils::AES128_CFB;
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using cpputils::AES256_GCM;
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using cpputils::Twofish256_GCM;
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using cpputils::Twofish128_CFB;
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using boost::none;
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using namespace cryfs;
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// This is needed for google test
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namespace boost {
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inline ostream &operator<<(ostream &stream, const CryConfigEncryptor::Decrypted &) {
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return stream << "CryConfigEncryptor::Decrypted()";
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}
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}
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2016-02-13 20:42:28 +01:00
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#include <boost/optional/optional_io.hpp>
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2015-11-11 23:33:39 +01:00
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class CryConfigEncryptorTest: public ::testing::Test {
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public:
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unique_ref<CryConfigEncryptor> makeEncryptor() {
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return make_unique_ref<CryConfigEncryptor>(_derivedKey());
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}
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Data changeInnerCipherFieldTo(Data data, const string &newCipherName) {
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InnerConfig innerConfig = _decryptInnerConfig(data);
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innerConfig.cipherName = newCipherName;
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return _encryptInnerConfig(innerConfig);
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}
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private:
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DerivedKey<CryConfigEncryptor::MaxTotalKeySize> _derivedKey() {
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auto salt = DataFixture::generate(128, 2);
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auto keyConfig = DerivedKeyConfig(std::move(salt), 1024, 1, 2);
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auto key = DataFixture::generateFixedSize<CryConfigEncryptor::MaxTotalKeySize>(3);
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return DerivedKey<CryConfigEncryptor::MaxTotalKeySize>(std::move(keyConfig), std::move(key));
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}
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unique_ref<OuterEncryptor> _outerEncryptor() {
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auto outerKey = _derivedKey().key().take<CryConfigEncryptor::OuterKeySize>();
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return make_unique_ref<OuterEncryptor>(outerKey, _derivedKey().config());
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}
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InnerConfig _decryptInnerConfig(const Data &data) {
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OuterConfig outerConfig = OuterConfig::deserialize(data).value();
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Data serializedInnerConfig = _outerEncryptor()->decrypt(outerConfig).value();
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return InnerConfig::deserialize(serializedInnerConfig).value();
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}
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Data _encryptInnerConfig(const InnerConfig &innerConfig) {
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Data serializedInnerConfig = innerConfig.serialize();
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OuterConfig outerConfig = _outerEncryptor()->encrypt(serializedInnerConfig);
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return outerConfig.serialize();
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}
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};
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TEST_F(CryConfigEncryptorTest, EncryptAndDecrypt_Data_AES) {
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auto encryptor = makeEncryptor();
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Data encrypted = encryptor->encrypt(DataFixture::generate(400), AES256_GCM::NAME);
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auto decrypted = encryptor->decrypt(encrypted).value();
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EXPECT_EQ(DataFixture::generate(400), decrypted.data);
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}
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TEST_F(CryConfigEncryptorTest, EncryptAndDecrypt_Data_Twofish) {
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auto encryptor = makeEncryptor();
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Data encrypted = encryptor->encrypt(DataFixture::generate(400), Twofish128_CFB::NAME);
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auto decrypted = encryptor->decrypt(encrypted).value();
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EXPECT_EQ(DataFixture::generate(400), decrypted.data);
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}
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TEST_F(CryConfigEncryptorTest, EncryptAndDecrypt_Cipher_AES) {
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auto encryptor = makeEncryptor();
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Data encrypted = encryptor->encrypt(DataFixture::generate(400), AES256_GCM::NAME);
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auto decrypted = encryptor->decrypt(encrypted).value();
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EXPECT_EQ(AES256_GCM::NAME, decrypted.cipherName);
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}
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TEST_F(CryConfigEncryptorTest, EncryptAndDecrypt_Cipher_Twofish) {
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auto encryptor = makeEncryptor();
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Data encrypted = encryptor->encrypt(DataFixture::generate(400), Twofish128_CFB::NAME);
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auto decrypted = encryptor->decrypt(encrypted).value();
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EXPECT_EQ(Twofish128_CFB::NAME, decrypted.cipherName);
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}
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TEST_F(CryConfigEncryptorTest, EncryptAndDecrypt_EmptyData) {
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auto encryptor = makeEncryptor();
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Data encrypted = encryptor->encrypt(Data(0), AES256_GCM::NAME);
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auto decrypted = encryptor->decrypt(encrypted).value();
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EXPECT_EQ(Data(0), decrypted.data);
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}
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TEST_F(CryConfigEncryptorTest, InvalidCiphertext) {
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auto encryptor = makeEncryptor();
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Data encrypted = encryptor->encrypt(DataFixture::generate(400), AES256_GCM::NAME);
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*(char*)encrypted.data() = *(char*)encrypted.data()+1; //Modify ciphertext
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auto decrypted = encryptor->decrypt(encrypted);
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EXPECT_EQ(none, decrypted);
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}
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TEST_F(CryConfigEncryptorTest, DoesntEncryptWhenTooLarge) {
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auto encryptor = makeEncryptor();
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EXPECT_THROW(
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encryptor->encrypt(DataFixture::generate(2000), AES256_GCM::NAME),
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std::runtime_error
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);
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}
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TEST_F(CryConfigEncryptorTest, EncryptionIsFixedSize) {
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auto encryptor = makeEncryptor();
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Data encrypted1 = encryptor->encrypt(DataFixture::generate(100), AES128_CFB::NAME);
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Data encrypted2 = encryptor->encrypt(DataFixture::generate(200), Twofish256_GCM::NAME);
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Data encrypted3 = encryptor->encrypt(Data(0), AES256_GCM::NAME);
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EXPECT_EQ(encrypted1.size(), encrypted2.size());
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EXPECT_EQ(encrypted1.size(), encrypted3.size());
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}
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TEST_F(CryConfigEncryptorTest, SpecifiedInnerCipherIsUsed) {
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//Tests that it can't be decrypted if the inner cipher field stores the wrong cipher
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auto encryptor = makeEncryptor();
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Data encrypted = encryptor->encrypt(DataFixture::generate(400), AES256_GCM::NAME);
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encrypted = changeInnerCipherFieldTo(std::move(encrypted), Twofish256_GCM::NAME);
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auto decrypted = encryptor->decrypt(encrypted);
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EXPECT_EQ(none, decrypted);
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}
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