/* * (C) 2009 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include #include #include #include #include #include #include #include #include typedef std::chrono::high_resolution_clock benchmark_clock; #include "common.h" #include "bench.h" namespace { const std::string algos[] = { /* Block ciphers */ "AES-128", "AES-192", "AES-256", "Blowfish", "CAST-128", "CAST-256", "DES", "DESX", "GOST", "IDEA", "KASUMI", "MARS", "MISTY1", "Noekeon", "RC2", "RC5(12)", "RC5(16)", "RC6", "SAFER-SK(10)", "SEED", "Serpent", "Skipjack", "Square", "TEA", "TripleDES", "Twofish", "XTEA", /* Cipher constructions */ "Cascade(Serpent,AES-128)", "Lion(SHA-256,Salsa20,8192)", "Luby-Rackoff(SHA-512)", /* Cipher modes */ "TripleDES/CBC/PKCS7", "TripleDES/CBC/CTS", "TripleDES/CTR-BE", "TripleDES/EAX", "TripleDES/OFB", "TripleDES/CFB(64)", "TripleDES/CFB(32)", "TripleDES/CFB(16)", "TripleDES/CFB(8)", "AES-128/CBC/PKCS7", "AES-128/CBC/CTS", "AES-128/CTR-BE", "AES-128/EAX", "AES-128/OFB", "AES-128/XTS", "AES-128/CFB(128)", "AES-128/CFB(64)", "AES-128/CFB(32)", "AES-128/CFB(16)", "AES-128/CFB(8)", "Serpent/CBC/PKCS7", "Serpent/CBC/CTS", "Serpent/CTR-BE", "Serpent/EAX", "Serpent/OFB", "Serpent/XTS", "Serpent/CFB(128)", "Serpent/CFB(64)", "Serpent/CFB(32)", "Serpent/CFB(16)", "Serpent/CFB(8)", /* Stream ciphers */ "ARC4", "Salsa20", "Turing", "WiderWake4+1-BE", /* Checksums */ "Adler32", "CRC24", "CRC32", /* Hashes */ "BMW-512", "GOST-34.11", "HAS-160", "MD2", "MD4", "MD5", "RIPEMD-128", "RIPEMD-160", "SHA-160", "SHA-256", "SHA-384", "SHA-512", "Skein-512", "Tiger", "Whirlpool", /* MACs */ "CMAC(AES-128)", "HMAC(SHA-1)", "X9.19-MAC", "", }; void report_results(const std::string& algo, const std::map& speeds) { // invert, showing fastest impl first std::map results; for(std::map::const_iterator i = speeds.begin(); i != speeds.end(); ++i) { // Speeds might collide, tweak slightly to handle this if(results[i->second] == "") results[i->second] = i->first; else results[i->second - .01] = i->first; } std::cout << algo; #if (defined(__GNUC__) && __GNUC__ <= 3) || defined(__SUNPRO_CC) // Work around GCC 3.x bug, reverse iterators don't work for(std::map::const_iterator i = results.begin(); i != results.end(); ++i) #else for(std::map::const_reverse_iterator i = results.rbegin(); i != results.rend(); ++i) #endif { std::cout << " [" << i->second << "] " << std::fixed << std::setprecision(2) << i->first; } std::cout << std::endl; } } bool bench_algo(const std::string& algo, Botan::RandomNumberGenerator& rng, double seconds, u32bit buf_size) { Botan::Algorithm_Factory& af = Botan::global_state().algorithm_factory(); u32bit milliseconds = static_cast(seconds * 1000); std::map speeds = algorithm_benchmark(algo, af, rng, milliseconds, buf_size); if(speeds.empty()) // maybe a cipher mode, then? { Botan::Algorithm_Factory::Engine_Iterator i(af); std::vector algo_parts = Botan::split_on(algo, '/'); if(algo_parts.size() < 2) // not a cipher mode return false; std::string cipher = algo_parts[0]; const Botan::BlockCipher* proto_cipher = af.prototype_block_cipher(cipher); if(!proto_cipher) { std::cout << "Unknown algorithm " << cipher << "\n"; return false; } u32bit cipher_keylen = proto_cipher->MAXIMUM_KEYLENGTH; u32bit cipher_ivlen = proto_cipher->block_size(); if(algo_parts[1] == "XTS") cipher_keylen *= 2; // hack! std::vector buf(16 * 1024); rng.randomize(&buf[0], buf.size()); while(Botan::Engine* engine = i.next()) { u64bit nanoseconds_max = static_cast(seconds * 1000000000.0); Botan::Keyed_Filter* filt = engine->get_cipher(algo, Botan::ENCRYPTION, af); if(!filt) continue; filt->set_key(Botan::SymmetricKey(&buf[0], cipher_keylen)); if(filt->valid_iv_length(cipher_ivlen / 2)) filt->set_iv(Botan::InitializationVector(&buf[0], cipher_ivlen)); Botan::Pipe pipe(filt, new Botan::BitBucket); pipe.start_msg(); std::chrono::nanoseconds max_time(nanoseconds_max); std::chrono::nanoseconds time_used(0); auto start = benchmark_clock::now(); u64bit reps = 0; while(time_used < max_time) { pipe.write(&buf[0], buf.size()); ++reps; time_used = benchmark_clock::now() - start; } u64bit nanoseconds_used = std::chrono::duration_cast(time_used).count(); double mbytes_per_second = (953.67 * (buf.size() * reps)) / nanoseconds_used; speeds[engine->provider_name()] = mbytes_per_second; } } if(!speeds.empty()) report_results(algo, speeds); return !speeds.empty(); } void benchmark(Botan::RandomNumberGenerator& rng, double seconds, u32bit buf_size) { for(u32bit i = 0; algos[i] != ""; ++i) bench_algo(algos[i], rng, seconds, buf_size); }