#include "tests.h" #include #include #include #include #include using namespace Botan; namespace { bool block_test(const std::string& algo, const std::string& key_hex, const std::string& in_hex, const std::string& out_hex) { const secure_vector key = hex_decode_locked(key_hex); const secure_vector pt = hex_decode_locked(in_hex); const secure_vector ct = hex_decode_locked(out_hex); Algorithm_Factory& af = global_state().algorithm_factory(); const auto providers = af.providers_of(algo); size_t fails = 0; for(auto provider: providers) { const BlockCipher* proto = af.prototype_block_cipher(algo, provider); if(!proto) { std::cout << "Unable to get " << algo << " from " << provider << "\n"; ++fails; continue; } std::unique_ptr cipher(proto->clone()); cipher->set_key(key); secure_vector buf = pt; cipher->encrypt(buf); if(buf != ct) { std::cout << algo << " " << provider << " enc " << hex_encode(buf) << " != " << out_hex << "\n"; ++fails; } buf = ct; cipher->decrypt(buf); if(buf != pt) { std::cout << algo << " " << provider << " dec " << hex_encode(buf) << " != " << out_hex << "\n"; ++fails; } } return (fails == 0); } } size_t test_block() { std::ifstream vec("checks/block.vec"); return run_tests_bb(vec, "BlockCipher", "Out", true, [](std::map m) -> bool { return block_test(m["BlockCipher"], m["Key"], m["In"], m["Out"]); }); }