#include #include #include #include "crypto_HmacSha256Generator_TestClass.h" #include #include #include void crypto_HmacSha256Generator_TestClass::runAllTests(void) { std::cout << "[tc::crypto::HmacSha256Generator] START" << std::endl; test_Constants(); test_SingleUpdateCall(); test_MultiUpdateCall(); test_UtilFunc(); test_NoInitNoUpdateDoMac(); test_NoInitDoUpdateDoMac(); test_DoInitNoUpdateDoMac(); test_DoInitNoKeyDoUpdateDoMac(); test_DoInitNoKeyNoUpdateDoMac(); test_CallGetMacRepeatedly(); std::cout << "[tc::crypto::HmacSha256Generator] END" << std::endl; } void crypto_HmacSha256Generator_TestClass::test_Constants() { std::cout << "[tc::crypto::HmacSha256Generator] test_Constants : " << std::flush; try { try { std::stringstream ss; // check mac size static const size_t kExpectedHashSize = 32; if (tc::crypto::HmacSha256Generator::kMacSize != kExpectedHashSize) { ss << "kMacSize had value " << std::dec << tc::crypto::HmacSha256Generator::kMacSize << " (expected " << kExpectedHashSize << ")"; throw tc::Exception(ss.str()); } // check block size static const size_t kExpectedBlockSize = 64; if (tc::crypto::HmacSha256Generator::kBlockSize != kExpectedBlockSize) { ss << "kBlockSize had value " << std::dec << tc::crypto::HmacSha256Generator::kBlockSize << " (expected " << kExpectedBlockSize << ")"; throw tc::Exception(ss.str()); } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_SingleUpdateCall() { std::cout << "[tc::crypto::HmacSha256Generator] test_SingleUpdateCall : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::crypto::HmacSha256Generator calc; tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); for (auto test = tests.begin(); test != tests.end(); test++) { calc.initialize(test->in_key.data(), test->in_key.size()); calc.update(test->in_data.data(), test->in_data.size()); memset(mac.data(), 0xff, mac.size()); calc.getMac(mac.data()); if (memcmp(mac.data(), test->out_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(test->out_mac, true, ""); throw tc::Exception(ss.str()); } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_MultiUpdateCall() { std::cout << "[tc::crypto::HmacSha256Generator] test_MultiUpdateCall : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::crypto::HmacSha256Generator calc; tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); for (auto test = tests.begin(); test != tests.end(); test++) { calc.initialize(test->in_key.data(), test->in_key.size()); // pick an offset to split the in_string at size_t offset = test->in_data.size() / 2; // update with first half calc.update(test->in_data.data(), offset); // update with second half calc.update(test->in_data.data() + offset, test->in_data.size() - offset); memset(mac.data(), 0xff, mac.size()); calc.getMac(mac.data()); if (memcmp(mac.data(), test->out_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(test->out_mac, true, ""); throw tc::Exception(ss.str()); } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_UtilFunc() { std::cout << "[tc::crypto::HmacSha256Generator] test_UtilFunc : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); for (auto test = tests.begin(); test != tests.end(); test++) { memset(mac.data(), 0xff, mac.size()); tc::crypto::GenerateHmacSha256Mac(mac.data(), (const byte_t*)test->in_data.data(), test->in_data.size(), test->in_key.data(), test->in_key.size()); if (memcmp(mac.data(), test->out_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(test->out_mac, true, ""); throw tc::Exception(ss.str()); } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_NoInitNoUpdateDoMac() { std::cout << "[tc::crypto::HmacSha256Generator] test_NoInitNoUpdateDoMac : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::crypto::HmacSha256Generator calc; tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); tc::ByteData expected_uninitialized_mac = tc::ByteData(mac.size()); memset(expected_uninitialized_mac.data(), 0xff, expected_uninitialized_mac.size()); for (auto test = tests.begin(); test != tests.end(); test++) { //calc.initialize(test->in_key.data(), test->in_key.size()); //calc.update(test->in_data.size(), test->in_data.size()); memcpy(mac.data(), expected_uninitialized_mac.data(), mac.size()); calc.getMac(mac.data()); if (memcmp(mac.data(), expected_uninitialized_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(expected_uninitialized_mac, true, ""); throw tc::Exception(ss.str()); } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_NoInitDoUpdateDoMac() { std::cout << "[tc::crypto::HmacSha256Generator] test_NoInitDoUpdateDoMac : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::crypto::HmacSha256Generator calc; tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); tc::ByteData expected_uninitialized_mac = tc::ByteData(mac.size()); memset(expected_uninitialized_mac.data(), 0xff, expected_uninitialized_mac.size()); for (auto test = tests.begin(); test != tests.end(); test++) { //calc.initialize(test->in_key.data(), test->in_key.size()); calc.update(test->in_data.data(), test->in_data.size()); memcpy(mac.data(), expected_uninitialized_mac.data(), mac.size()); calc.getMac(mac.data()); if (memcmp(mac.data(), expected_uninitialized_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(expected_uninitialized_mac, true, ""); throw tc::Exception(ss.str()); } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_DoInitNoUpdateDoMac() { std::cout << "[tc::crypto::HmacSha256Generator] test_DoInitNoUpdateDoMac : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::crypto::HmacSha256Generator calc; tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); // override expected MAC for when no update() is called tests[0].out_mac = tc::cli::FormatUtil::hexStringToBytes("999A901219F032CD497CADB5E6051E97B6A29AB297BD6AE722BD6062A2F59542"); tests[1].out_mac = tc::cli::FormatUtil::hexStringToBytes("923598CA6D64AF2A5DBA79DCD021A8A0FE5C5F557519ADAAF0AD532D4506DD30"); tests[2].out_mac = tc::cli::FormatUtil::hexStringToBytes("86E54FD448725D7E5DCFE22353C828AF48781EB48CAE8106A7E1D498949F3E46"); tests[3].out_mac = tc::cli::FormatUtil::hexStringToBytes("1B5713E10977DA96A5FE201005976A240544079C2724F6A9EAEAE42B9DE00F28"); tests[4].out_mac = tc::cli::FormatUtil::hexStringToBytes("4D36C675D91E0512D1B1BA412FE2F7D8A6595FD305BDEADF651B465D4251781F"); tests[5].out_mac = tc::cli::FormatUtil::hexStringToBytes("44B545DEF5B97EB719D856A15E327833E520E4770619C0E3EEFBDE24B71285A7"); tests[6].out_mac = tc::cli::FormatUtil::hexStringToBytes("44B545DEF5B97EB719D856A15E327833E520E4770619C0E3EEFBDE24B71285A7"); for (auto test = tests.begin(); test != tests.end(); test++) { calc.initialize(test->in_key.data(), test->in_key.size()); //calc.update(test->in_data.size(), test->in_data.size()); memset(mac.data(), 0xff, mac.size()); calc.getMac(mac.data()); if (memcmp(mac.data(), test->out_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(test->out_mac, true, ""); throw tc::Exception(ss.str()); } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_DoInitNoKeyDoUpdateDoMac() { std::cout << "[tc::crypto::HmacSha256Generator] test_DoInitNoKeyDoUpdateDoMac : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::crypto::HmacSha256Generator calc; tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); // override expected MAC for when no key is used during initialize() tests[0].in_key = tc::ByteData(); tests[0].out_mac = tc::cli::FormatUtil::hexStringToBytes("E48411262715C8370CD5E7BF8E82BEF53BD53712D007F3429351843B77C7BB9B"); tests[1].in_key = tc::ByteData(); tests[1].out_mac = tc::cli::FormatUtil::hexStringToBytes("76D9E7194E7DBC3AA00BBE8FFB9F6FCB5A932170F971F948BB2AB61607D2B9D6"); tests[2].in_key = tc::ByteData(); tests[2].out_mac = tc::cli::FormatUtil::hexStringToBytes("658C192B47D1C84BC7D5EE38CAA75864FBF43E79BD18DB6C5FA814ED0D9C4AB3"); tests[3].in_key = tc::ByteData(); tests[3].out_mac = tc::cli::FormatUtil::hexStringToBytes("367352007EE6CA9FA755CE8352347D092C17A24077FD33C62F655574A8CF906D"); tests[4].in_key = tc::ByteData(); tests[4].out_mac = tc::cli::FormatUtil::hexStringToBytes("53273BDCBDF6DE9AFB0CDBD1E1CF133FE7529237B5A1FBA41F34CC8792430B16"); tests[5].in_key = tc::ByteData(); tests[5].out_mac = tc::cli::FormatUtil::hexStringToBytes("79E2A6536CB16B4A1E9C2AF81759764AFD026173526F79F7816E9A3BC5FBABA8"); tests[6].in_key = tc::ByteData(); tests[6].out_mac = tc::cli::FormatUtil::hexStringToBytes("4DA63281EA396C9E8FBFE3D6483A602CE18760273914D9DF5FF385FB639A696F"); for (auto test = tests.begin(); test != tests.end(); test++) { calc.initialize(test->in_key.data(), test->in_key.size()); calc.update(test->in_data.data(), test->in_data.size()); memset(mac.data(), 0xff, mac.size()); calc.getMac(mac.data()); if (memcmp(mac.data(), test->out_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(test->out_mac, true, ""); throw tc::Exception(ss.str()); } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_DoInitNoKeyNoUpdateDoMac() { std::cout << "[tc::crypto::HmacSha256Generator] test_DoInitNoKeyNoUpdateDoMac : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::crypto::HmacSha256Generator calc; tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); // override expected MAC for when no key is used during initialize() and update is not called tests[0].in_key = tc::ByteData(); tests[0].out_mac = tc::cli::FormatUtil::hexStringToBytes("B613679A0814D9EC772F95D778C35FC5FF1697C493715653C6C712144292C5AD"); tests[1].in_key = tc::ByteData(); tests[1].out_mac = tc::cli::FormatUtil::hexStringToBytes("B613679A0814D9EC772F95D778C35FC5FF1697C493715653C6C712144292C5AD"); tests[2].in_key = tc::ByteData(); tests[2].out_mac = tc::cli::FormatUtil::hexStringToBytes("B613679A0814D9EC772F95D778C35FC5FF1697C493715653C6C712144292C5AD"); tests[3].in_key = tc::ByteData(); tests[3].out_mac = tc::cli::FormatUtil::hexStringToBytes("B613679A0814D9EC772F95D778C35FC5FF1697C493715653C6C712144292C5AD"); tests[4].in_key = tc::ByteData(); tests[4].out_mac = tc::cli::FormatUtil::hexStringToBytes("B613679A0814D9EC772F95D778C35FC5FF1697C493715653C6C712144292C5AD"); tests[5].in_key = tc::ByteData(); tests[5].out_mac = tc::cli::FormatUtil::hexStringToBytes("B613679A0814D9EC772F95D778C35FC5FF1697C493715653C6C712144292C5AD"); tests[6].in_key = tc::ByteData(); tests[6].out_mac = tc::cli::FormatUtil::hexStringToBytes("B613679A0814D9EC772F95D778C35FC5FF1697C493715653C6C712144292C5AD"); for (auto test = tests.begin(); test != tests.end(); test++) { calc.initialize(test->in_key.data(), test->in_key.size()); //calc.update(test->in_data.data(), test->in_data.size()); memset(mac.data(), 0xff, mac.size()); calc.getMac(mac.data()); if (memcmp(mac.data(), test->out_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(test->out_mac, true, ""); throw tc::Exception(ss.str()); } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::test_CallGetMacRepeatedly() { std::cout << "[tc::crypto::HmacSha256Generator] test_CallGetMacRepeatedly : " << std::flush; try { try { std::stringstream ss; // create tests std::vector tests; util_Setup_Rfc4231_TestCases(tests); tc::crypto::HmacSha256Generator calc; tc::ByteData mac = tc::ByteData(tc::crypto::HmacSha256Generator::kMacSize); for (auto test = tests.begin(); test != tests.end(); test++) { calc.initialize(test->in_key.data(), test->in_key.size()); calc.update(test->in_data.data(), test->in_data.size()); for (size_t i = 0; i < 100; i++) { // by resetting the MAC here we can tell if it is updated each time memset(mac.data(), 0xff, mac.size()); calc.getMac(mac.data()); if (memcmp(mac.data(), test->out_mac.data(), mac.size()) != 0) { ss << "Test \"" << test->test_name << "\" Failed. Had wrong MAC: " << tc::cli::FormatUtil::formatBytesAsString(mac, true, "") << " (expected " << tc::cli::FormatUtil::formatBytesAsString(test->out_mac, true, ""); throw tc::Exception(ss.str()); } } } std::cout << "PASS" << std::endl; } catch (const tc::Exception& e) { std::cout << "FAIL (" << e.error() << ")" << std::endl; } } catch (const std::exception& e) { std::cout << "UNHANDLED EXCEPTION (" << e.what() << ")" << std::endl; } } void crypto_HmacSha256Generator_TestClass::util_Setup_Rfc4231_TestCases(std::vector& test_cases) { TestCase tmp; test_cases.clear(); tmp.test_name = "RFC 2202 Test 1"; tmp.in_key = tc::cli::FormatUtil::hexStringToBytes("0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b"); tmp.in_data = tc::cli::FormatUtil::hexStringToBytes("4869205468657265"); // "Hi There" tmp.out_mac = tc::cli::FormatUtil::hexStringToBytes("b0344c61d8db38535ca8afceaf0bf12b881dc200c9833da726e9376c2e32cff7"); test_cases.push_back(tmp); tmp.test_name = "RFC 2202 Test 2"; tmp.in_key = tc::cli::FormatUtil::hexStringToBytes("4a656665"); // "Jefe" tmp.in_data = tc::cli::FormatUtil::hexStringToBytes("7768617420646f2079612077616e7420666f72206e6f7468696e673f"); // "what do ya want for nothing?" tmp.out_mac = tc::cli::FormatUtil::hexStringToBytes("5bdcc146bf60754e6a042426089575c75a003f089d2739839dec58b964ec3843"); test_cases.push_back(tmp); tmp.test_name = "RFC 2202 Test 3"; tmp.in_key = tc::cli::FormatUtil::hexStringToBytes("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"); tmp.in_data = tc::cli::FormatUtil::hexStringToBytes("dddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddd"); // 50 x 0xdd tmp.out_mac = tc::cli::FormatUtil::hexStringToBytes("773ea91e36800e46854db8ebd09181a72959098b3ef8c122d9635514ced565fe"); test_cases.push_back(tmp); tmp.test_name = "RFC 2202 Test 4"; tmp.in_key = tc::cli::FormatUtil::hexStringToBytes("0102030405060708090a0b0c0d0e0f10111213141516171819"); tmp.in_data = tc::cli::FormatUtil::hexStringToBytes("cdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcd"); // 50 x 0xcd tmp.out_mac = tc::cli::FormatUtil::hexStringToBytes("82558a389a443c0ea4cc819899f2083a85f0faa3e578f8077a2e3ff46729665b"); test_cases.push_back(tmp); tmp.test_name = "RFC 2202 Test 5"; tmp.in_key = tc::cli::FormatUtil::hexStringToBytes("0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c0c"); tmp.in_data = tc::cli::FormatUtil::hexStringToBytes("546573742057697468205472756e636174696f6e"); // "Test With Truncation" tmp.out_mac = tc::cli::FormatUtil::hexStringToBytes("A3B6167473100EE06E0C796C2955552BFA6F7C0A6A8AEF8B93F860AAB0CD20C5"); test_cases.push_back(tmp); tmp.test_name = "RFC 2202 Test 6"; tmp.in_key = tc::cli::FormatUtil::hexStringToBytes("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"); // 131 x 0xaa tmp.in_data = tc::cli::FormatUtil::hexStringToBytes("54657374205573696e67204c6172676572205468616e20426c6f636b2d53697a65204b6579202d2048617368204b6579204669727374"); // "Test Using Larger Than Block-Size Key - Hash Key First" tmp.out_mac = tc::cli::FormatUtil::hexStringToBytes("60e431591ee0b67f0d8a26aacbf5b77f8e0bc6213728c5140546040f0ee37f54"); test_cases.push_back(tmp); tmp.test_name = "RFC 2202 Test 7"; tmp.in_key = tc::cli::FormatUtil::hexStringToBytes("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"); // 131 x 0xaa tmp.in_data = tc::cli::FormatUtil::hexStringToBytes("5468697320697320612074657374207573696e672061206c6172676572207468616e20626c6f636b2d73697a65206b657920616e642061206c6172676572207468616e20626c6f636b2d73697a6520646174612e20546865206b6579206e6565647320746f20626520686173686564206265666f7265206265696e6720757365642062792074686520484d414320616c676f726974686d2e"); // "This is a test using a larger than block-size key and a larger than block-size data. The key neds to be hashed before being used by the HMAC algorithm." tmp.out_mac = tc::cli::FormatUtil::hexStringToBytes("9b09ffa71b942fcb27635fbcd5b0e944bfdc63644f0713938a7f51535c3a35e2"); test_cases.push_back(tmp); }