#include "tests.h" #include #include #include #include #include #include #include using namespace Botan; namespace { secure_vector run_mode(const std::string& algo, Cipher_Dir dir, const secure_vector& pt, const secure_vector& nonce, const secure_vector& key) { #if 0 std::unique_ptr cipher(get_cipher(algo, dir)); cipher->set_key(key); cipher->start_vec(nonce); secure_vector ct = pt; cipher->finish(ct); #endif Pipe pipe(get_cipher(algo, SymmetricKey(key), InitializationVector(nonce), dir)); pipe.process_msg(pt); return pipe.read_all(); } size_t mode_test(const std::string& algo, const std::string& pt, const std::string& ct, const std::string& key_hex, const std::string& nonce_hex) { auto nonce = hex_decode_locked(nonce_hex); auto key = hex_decode_locked(key_hex); size_t fails = 0; const std::string ct2 = hex_encode(run_mode(algo, ENCRYPTION, hex_decode_locked(pt), nonce, key)); if(ct != ct2) { std::cout << algo << " got ct " << ct2 << " expected " << ct << "\n"; ++fails; } const std::string pt2 = hex_encode(run_mode(algo, DECRYPTION, hex_decode_locked(ct), nonce, key)); if(pt != pt2) { std::cout << algo << " got pt " << pt2 << " expected " << pt << "\n"; ++fails; } return fails; } } size_t test_modes() { auto test = [](const std::string& input) { std::ifstream vec(input); return run_tests_bb(vec, "Mode", "Out", true, [](std::map m) { return mode_test(m["Mode"], m["In"], m["Out"], m["Key"], m["Nonce"]); }); }; return run_tests_in_dir(TEST_DATA_DIR "modes", test); }