libcryfs/test/config/CryConfigLoaderTest.cpp

127 lines
4.1 KiB
C++

#include <google/gtest/gtest.h>
#include "../../src/config/CryConfigLoader.h"
#include "../testutils/MockConsole.h"
#include <messmer/cpp-utils/tempfile/TempFile.h>
#include <messmer/cpp-utils/random/Random.h>
#include <messmer/cpp-utils/crypto/symmetric/ciphers.h>
using cpputils::unique_ref;
using cpputils::make_unique_ref;
using cpputils::TempFile;
using cpputils::SCrypt;
using boost::optional;
using boost::none;
using std::string;
using ::testing::Return;
using ::testing::_;
using namespace cryfs;
//TODO Test loading with same/different --cipher argument
class CryConfigLoaderTest: public ::testing::Test, public TestWithMockConsole {
public:
CryConfigLoaderTest(): file(false) {}
CryConfigLoader loader(const string &password, const optional<string> &cipher = none) {
return CryConfigLoader(mockConsole(), cpputils::Random::PseudoRandom(), SCrypt::TestSettings, [password] {return password;}, cipher);
}
CryConfigFile Create(const string &password = "mypassword", const optional<string> &cipher = none) {
EXPECT_FALSE(file.exists());
return loader(password, cipher).loadOrCreate(file.path()).value();
}
optional<CryConfigFile> Load(const string &password = "mypassword", const optional<string> &cipher = none) {
EXPECT_TRUE(file.exists());
return loader(password, cipher).loadOrCreate(file.path());
}
void CreateWithRootBlob(const string &rootBlob, const string &password = "mypassword") {
auto cfg = loader(password).loadOrCreate(file.path()).value();
cfg.config()->SetRootBlob(rootBlob);
cfg.save();
}
void CreateWithCipher(const string &cipher, const string &password = "mypassword") {
auto cfg = loader(password).loadOrCreate(file.path()).value();
cfg.config()->SetCipher(cipher);
cfg.save();
}
void CreateWithEncryptionKey(const string &encKey, const string &password = "mypassword") {
auto cfg = loader(password).loadOrCreate(file.path()).value();
cfg.config()->SetEncryptionKey(encKey);
cfg.save();
}
TempFile file;
};
TEST_F(CryConfigLoaderTest, CreatesNewIfNotExisting) {
EXPECT_FALSE(file.exists());
Create();
EXPECT_TRUE(file.exists());
}
TEST_F(CryConfigLoaderTest, DoesntCrashIfExisting) {
Create();
Load();
}
TEST_F(CryConfigLoaderTest, DoesntLoadIfWrongPassword) {
Create("mypassword");
auto loaded = Load("mypassword2");
EXPECT_EQ(none, loaded);
}
TEST_F(CryConfigLoaderTest, DoesntLoadIfDifferentCipher) {
Create("mypassword", string("aes-256-gcm"));
try {
Load("mypassword", string("aes-256-cfb"));
EXPECT_TRUE(false); // Should throw exception
} catch (const std::runtime_error &e) {
EXPECT_EQ(string("Filesystem uses aes-256-gcm cipher and not aes-256-cfb as specified."), e.what());
}
}
TEST_F(CryConfigLoaderTest, DoesLoadIfSameCipher) {
Create("mypassword", string("aes-256-gcm"));
Load("mypassword", string("aes-256-gcm"));
}
TEST_F(CryConfigLoaderTest, RootBlob_Load) {
CreateWithRootBlob("rootblobid");
auto loaded = Load().value();
EXPECT_EQ("rootblobid", loaded.config()->RootBlob());
}
TEST_F(CryConfigLoaderTest, RootBlob_Create) {
auto created = Create();
EXPECT_EQ("", created.config()->RootBlob());
}
TEST_F(CryConfigLoaderTest, EncryptionKey_Load) {
CreateWithEncryptionKey("encryptionkey");
auto loaded = Load().value();
EXPECT_EQ("encryptionkey", loaded.config()->EncryptionKey());
}
TEST_F(CryConfigLoaderTest, EncryptionKey_Create) {
auto created = Create();
//aes-256-gcm is the default cipher chosen by mockConsole()
cpputils::AES256_GCM::EncryptionKey::FromString(created.config()->EncryptionKey()); // This crashes if key is invalid
}
TEST_F(CryConfigLoaderTest, Cipher_Load) {
CreateWithCipher("twofish-128-cfb");
auto loaded = Load().value();
EXPECT_EQ("ciphername", loaded.config()->Cipher());
}
TEST_F(CryConfigLoaderTest, Cipher_Create) {
auto created = Create();
//aes-256-gcm is the default cipher chosen by mockConsole()
EXPECT_EQ("aes-256-gcm", created.config()->Cipher());
}