#include #include "../../src/config/CryConfigFile.h" #include #include #include "testutils/SCryptTestSettings.h" using namespace cryfs; using cpputils::TempFile; using std::string; using boost::optional; using boost::none; namespace bf = boost::filesystem; //gtest/boost::optional workaround for working with optional namespace boost { inline std::ostream &operator<<(std::ostream &out, const CryConfigFile &file) { UNUSED(file); out << "ConfigFile"; return out; } } class CryConfigFileTest: public ::testing::Test { public: CryConfigFileTest(): file(false) {} TempFile file; CryConfigFile CreateAndLoadEmpty(const string &password = "mypassword") { Create(CryConfig(), password); return Load().value(); } void Create(CryConfig cfg, const string &password = "mypassword") { CryConfigFile::create(file.path(), std::move(cfg), password); } optional Load(const string &password = "mypassword") { return CryConfigFile::load(file.path(), password); } void CreateWithCipher(const string &cipher, const TempFile &tempFile) { CryConfig cfg; cfg.SetCipher(cipher); CryConfigFile::create(tempFile.path(), std::move(cfg), "mypassword"); } }; TEST_F(CryConfigFileTest, DoesntLoadIfWrongPassword) { Create(CryConfig(), "mypassword"); auto loaded = Load("mypassword2"); EXPECT_EQ(none, loaded); } TEST_F(CryConfigFileTest, RootBlob_Init) { CryConfigFile created = CreateAndLoadEmpty(); EXPECT_EQ("", created.config()->RootBlob()); } TEST_F(CryConfigFileTest, RootBlob_CreateAndLoad) { CryConfig cfg; cfg.SetRootBlob("rootblobid"); Create(std::move(cfg)); CryConfigFile loaded = Load().value(); EXPECT_EQ("rootblobid", loaded.config()->RootBlob()); } TEST_F(CryConfigFileTest, RootBlob_SaveAndLoad) { CryConfigFile created = CreateAndLoadEmpty(); created.config()->SetRootBlob("rootblobid"); created.save(); CryConfigFile loaded = Load().value(); EXPECT_EQ("rootblobid", loaded.config()->RootBlob()); } TEST_F(CryConfigFileTest, EncryptionKey_Init) { CryConfigFile created = CreateAndLoadEmpty(); EXPECT_EQ("", created.config()->EncryptionKey()); } TEST_F(CryConfigFileTest, EncryptionKey_CreateAndLoad) { CryConfig cfg; cfg.SetEncryptionKey("encryptionkey"); Create(std::move(cfg)); CryConfigFile loaded = Load().value(); EXPECT_EQ("encryptionkey", loaded.config()->EncryptionKey()); } TEST_F(CryConfigFileTest, EncryptionKey_SaveAndLoad) { CryConfigFile created = CreateAndLoadEmpty(); created.config()->SetEncryptionKey("encryptionkey"); created.save(); CryConfigFile loaded = Load().value(); EXPECT_EQ("encryptionkey", loaded.config()->EncryptionKey()); } TEST_F(CryConfigFileTest, Cipher_Init) { CryConfigFile created = CreateAndLoadEmpty(); EXPECT_EQ("", created.config()->Cipher()); } TEST_F(CryConfigFileTest, Cipher_CreateAndLoad) { CryConfig cfg; cfg.SetCipher("cipher"); Create(std::move(cfg)); CryConfigFile loaded = Load().value(); EXPECT_EQ("cipher", loaded.config()->Cipher()); } TEST_F(CryConfigFileTest, Cipher_SaveAndLoad) { CryConfigFile created = CreateAndLoadEmpty(); created.config()->SetCipher("cipher"); created.save(); CryConfigFile loaded = Load().value(); EXPECT_EQ("cipher", loaded.config()->Cipher()); } //Test that the encrypted config file has the same size, no matter how big the plaintext config data. TEST_F(CryConfigFileTest, ConfigFileHasFixedSize) { TempFile file1(false); TempFile file2(false); CreateWithCipher("short", file1); CreateWithCipher("long_cipher_name_that_causes_the_plaintext_config_data_to_be_larger", file2); EXPECT_EQ(bf::file_size(file1.path()), bf::file_size(file2.path())); }