Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
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// bench2.cpp - originally written and placed in the public domain by Wei Dai
// CryptoPP::Test namespace added by JW in February 2017
#include "cryptlib.h"
#include "bench.h"
#include "validate.h"
#include "cpu.h"
#include "factory.h"
#include "algparam.h"
#include "argnames.h"
#include "smartptr.h"
#include "stdcpp.h"
#include "vmac.h"
#include "hmac.h"
#include "ttmac.h"
#include "cmac.h"
#include "dmac.h"
#if CRYPTOPP_MSC_VERSION
# pragma warning(disable: 4355)
#endif
#if CRYPTOPP_MSC_VERSION
# pragma warning(disable: 4505 4355)
#endif
NAMESPACE_BEGIN(CryptoPP)
NAMESPACE_BEGIN(Test)
void BenchMarkKeying(SimpleKeyingInterface &c, size_t keyLength, const NameValuePairs &params)
{
unsigned long iterations = 0;
double timeTaken;
clock_t start = ::clock();
do
{
for (unsigned int i=0; i<1024; i++)
c.SetKey(defaultKey, keyLength, params);
timeTaken = double(::clock() - start) / CLOCK_TICKS_PER_SECOND;
iterations += 1024;
}
while (timeTaken < g_allocatedTime);
OutputResultKeying(iterations, timeTaken);
}
void BenchMark(const char *name, AuthenticatedSymmetricCipher &cipher, double timeTotal)
{
if (cipher.NeedsPrespecifiedDataLengths())
cipher.SpecifyDataLengths(0, cipher.MaxMessageLength(), 0);
BenchMark(name, static_cast<StreamTransformation &>(cipher), timeTotal);
}
template <class T_FactoryOutput, class T_Interface>
void BenchMarkByName2(const char *factoryName, size_t keyLength=0, const char *displayName=NULLPTR, const NameValuePairs &params = g_nullNameValuePairs)
{
std::string name(factoryName ? factoryName : "");
member_ptr<T_FactoryOutput> obj(ObjectFactoryRegistry<T_FactoryOutput>::Registry().CreateObject(name.c_str()));
if (keyLength == 0)
keyLength = obj->DefaultKeyLength();
if (displayName != NULLPTR)
name = displayName;
else if (keyLength != 0)
name += " (" + IntToString(keyLength * 8) + "-bit key)";
obj->SetKey(defaultKey, keyLength, CombinedNameValuePairs(params, MakeParameters(Name::IV(), ConstByteArrayParameter(defaultKey, obj->IVSize()), false)));
BenchMark(name.c_str(), *static_cast<T_Interface *>(obj.get()), g_allocatedTime);
BenchMarkKeying(*obj, keyLength, CombinedNameValuePairs(params, MakeParameters(Name::IV(), ConstByteArrayParameter(defaultKey, obj->IVSize()), false)));
}
template <class T_FactoryOutput>
void BenchMarkByName(const char *factoryName, size_t keyLength=0, const char *displayName=NULLPTR, const NameValuePairs &params = g_nullNameValuePairs)
{
BenchMarkByName2<T_FactoryOutput,T_FactoryOutput>(factoryName, keyLength, displayName, params);
}
void Benchmark2(double t, double hertz)
{
g_allocatedTime = t;
g_hertz = hertz;
const char *cpb, *cpk;
if (g_hertz > 1.0f)
{
cpb = "<TH>Cycles/Byte";
cpk = "<TH>Cycles to<BR>Setup Key and IV";
}
else
{
cpb = cpk = "";
}
std::cout << "\n<TABLE>";
std::cout << "\n<COLGROUP><COL style=\"text-align: left;\"><COL style=\"text-align: right;\"><COL style=";
std::cout << "\"text-align: right;\"><COL style=\"text-align: right;\"><COL style=\"text-align: right;\">";
std::cout << "\n<THEAD style=\"background: #F0F0F0\">";
std::cout << "\n<TR><TH>Algorithm<TH>Provider<TH>MiB/Second" << cpb;
std::cout << "<TH>Microseconds to<BR>Setup Key and IV" << cpk;
std::cout << "\n<TBODY style=\"background: white;\">";
{
#if CRYPTOPP_AESNI_AVAILABLE
if (HasCLMUL())
BenchMarkByName2<AuthenticatedSymmetricCipher, MessageAuthenticationCode>("AES/GCM", 0, "GMAC(AES)");
else
#elif CRYPTOPP_ARM_PMULL_AVAILABLE
if (HasPMULL())
BenchMarkByName2<AuthenticatedSymmetricCipher, MessageAuthenticationCode>("AES/GCM", 0, "GMAC(AES)");
else
#elif CRYPTOPP_POWER8_VMULL_AVAILABLE
if (HasPMULL())
BenchMarkByName2<AuthenticatedSymmetricCipher, MessageAuthenticationCode>("AES/GCM", 0, "GMAC(AES)");
else
#endif
{
BenchMarkByName2<AuthenticatedSymmetricCipher, MessageAuthenticationCode>("AES/GCM", 0, "GMAC(AES) (2K tables)", MakeParameters(Name::TableSize(), 2048));
BenchMarkByName2<AuthenticatedSymmetricCipher, MessageAuthenticationCode>("AES/GCM", 0, "GMAC(AES) (64K tables)", MakeParameters(Name::TableSize(), 64 * 1024));
}
BenchMarkByName<MessageAuthenticationCode>("VMAC(AES)-64");
BenchMarkByName<MessageAuthenticationCode>("VMAC(AES)-128");
BenchMarkByName<MessageAuthenticationCode>("HMAC(SHA-1)");
BenchMarkByName<MessageAuthenticationCode>("HMAC(SHA-256)");
BenchMarkByName<MessageAuthenticationCode>("Two-Track-MAC");
BenchMarkByName<MessageAuthenticationCode>("CMAC(AES)");
BenchMarkByName<MessageAuthenticationCode>("DMAC(AES)");
BenchMarkByName<MessageAuthenticationCode>("Poly1305(AES)");
BenchMarkByName<MessageAuthenticationCode>("Poly1305TLS");
BenchMarkByName<MessageAuthenticationCode>("BLAKE2s");
BenchMarkByName<MessageAuthenticationCode>("BLAKE2b");
BenchMarkByName<MessageAuthenticationCode>("SipHash-2-4");
BenchMarkByName<MessageAuthenticationCode>("SipHash-4-8");
}
std::cout << "\n<TBODY style=\"background: yellow;\">";
{
BenchMarkByName<SymmetricCipher>("Panama-LE");
BenchMarkByName<SymmetricCipher>("Panama-BE");
BenchMarkByName<SymmetricCipher>("Salsa20", 0, "Salsa20");
BenchMarkByName<SymmetricCipher>("Salsa20", 0, "Salsa20/12", MakeParameters(Name::Rounds(), 12));
BenchMarkByName<SymmetricCipher>("Salsa20", 0, "Salsa20/8", MakeParameters(Name::Rounds(), 8));
BenchMarkByName<SymmetricCipher>("ChaCha", 0, "ChaCha20");
BenchMarkByName<SymmetricCipher>("ChaCha", 0, "ChaCha12", MakeParameters(Name::Rounds(), 12));
BenchMarkByName<SymmetricCipher>("ChaCha", 0, "ChaCha8", MakeParameters(Name::Rounds(), 8));
BenchMarkByName<SymmetricCipher>("ChaChaTLS");
BenchMarkByName<SymmetricCipher>("Sosemanuk");
BenchMarkByName<SymmetricCipher>("Rabbit");
BenchMarkByName<SymmetricCipher>("RabbitWithIV");
BenchMarkByName<SymmetricCipher>("HC-128");
BenchMarkByName<SymmetricCipher>("HC-256");
BenchMarkByName<SymmetricCipher>("MARC4");
BenchMarkByName<SymmetricCipher>("SEAL-3.0-LE");
BenchMarkByName<SymmetricCipher>("WAKE-OFB-LE");
}
std::cout << "\n<TBODY style=\"background: white;\">";
{
BenchMarkByName<SymmetricCipher>("AES/CTR", 16);
BenchMarkByName<SymmetricCipher>("AES/CTR", 24);
BenchMarkByName<SymmetricCipher>("AES/CTR", 32);
BenchMarkByName<SymmetricCipher>("AES/CBC", 16);
BenchMarkByName<SymmetricCipher>("AES/CBC", 24);
BenchMarkByName<SymmetricCipher>("AES/CBC", 32);
BenchMarkByName<SymmetricCipher>("AES/XTS", 32);
BenchMarkByName<SymmetricCipher>("AES/XTS", 48);
BenchMarkByName<SymmetricCipher>("AES/XTS", 64);
BenchMarkByName<SymmetricCipher>("AES/OFB", 16);
BenchMarkByName<SymmetricCipher>("AES/CFB", 16);
BenchMarkByName<SymmetricCipher>("AES/ECB", 16);
BenchMarkByName<SymmetricCipher>("ARIA/CTR", 16);
BenchMarkByName<SymmetricCipher>("ARIA/CTR", 32);
BenchMarkByName<SymmetricCipher>("HIGHT/CTR");
BenchMarkByName<SymmetricCipher>("Camellia/CTR", 16);
BenchMarkByName<SymmetricCipher>("Camellia/CTR", 32);
BenchMarkByName<SymmetricCipher>("Twofish/CTR");
BenchMarkByName<SymmetricCipher>("Threefish-256(256)/CTR", 32);
BenchMarkByName<SymmetricCipher>("Threefish-512(512)/CTR", 64);
BenchMarkByName<SymmetricCipher>("Threefish-1024(1024)/CTR", 128);
BenchMarkByName<SymmetricCipher>("Serpent/CTR");
BenchMarkByName<SymmetricCipher>("CAST-128/CTR");
BenchMarkByName<SymmetricCipher>("CAST-256/CTR", 32);
BenchMarkByName<SymmetricCipher>("RC6/CTR");
BenchMarkByName<SymmetricCipher>("MARS/CTR");
BenchMarkByName<SymmetricCipher>("SHACAL-2/CTR", 16);
BenchMarkByName<SymmetricCipher>("SHACAL-2/CTR", 64);
BenchMarkByName<SymmetricCipher>("DES/CTR");
BenchMarkByName<SymmetricCipher>("DES-XEX3/CTR");
BenchMarkByName<SymmetricCipher>("DES-EDE3/CTR");
BenchMarkByName<SymmetricCipher>("IDEA/CTR");
BenchMarkByName<SymmetricCipher>("RC5/CTR", 0, "RC5 (r=16)");
BenchMarkByName<SymmetricCipher>("Blowfish/CTR");
BenchMarkByName<SymmetricCipher>("SKIPJACK/CTR");
BenchMarkByName<SymmetricCipher>("SEED/CTR", 0, "SEED/CTR (1/2 K table)");
BenchMarkByName<SymmetricCipher>("SM4/CTR");
BenchMarkByName<SymmetricCipher>("Kalyna-128/CTR", 16, "Kalyna-128(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("Kalyna-128/CTR", 32, "Kalyna-128(256)/CTR (256-bit key)");
BenchMarkByName<SymmetricCipher>("Kalyna-256/CTR", 32, "Kalyna-256(256)/CTR (256-bit key)");
BenchMarkByName<SymmetricCipher>("Kalyna-256/CTR", 64, "Kalyna-256(512)/CTR (512-bit key)");
BenchMarkByName<SymmetricCipher>("Kalyna-512/CTR", 64, "Kalyna-512(512)/CTR (512-bit key)");
}
std::cout << "\n<TBODY style=\"background: yellow;\">";
{
BenchMarkByName<SymmetricCipher>("CHAM-64/CTR", 16, "CHAM-64(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("CHAM-128/CTR", 16, "CHAM-128(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("CHAM-128/CTR", 32, "CHAM-128(256)/CTR (256-bit key)");
BenchMarkByName<SymmetricCipher>("LEA-128/CTR", 16, "LEA-128(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("LEA-128/CTR", 24, "LEA-128(192)/CTR (192-bit key)");
BenchMarkByName<SymmetricCipher>("LEA-128/CTR", 32, "LEA-128(256)/CTR (256-bit key)");
BenchMarkByName<SymmetricCipher>("SIMECK-32/CTR", 8, "SIMECK-32(64)/CTR (64-bit key)");
BenchMarkByName<SymmetricCipher>("SIMECK-64/CTR", 16, "SIMECK-64(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("SIMON-64/CTR", 12, "SIMON-64(96)/CTR (96-bit key)");
BenchMarkByName<SymmetricCipher>("SIMON-64/CTR", 16, "SIMON-64(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("SIMON-128/CTR", 16, "SIMON-128(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("SIMON-128/CTR", 24, "SIMON-128(192)/CTR (192-bit key)");
BenchMarkByName<SymmetricCipher>("SIMON-128/CTR", 32, "SIMON-128(256)/CTR (256-bit key)");
BenchMarkByName<SymmetricCipher>("SPECK-64/CTR", 12, "SPECK-64(96)/CTR (96-bit key)");
BenchMarkByName<SymmetricCipher>("SPECK-64/CTR", 16, "SPECK-64(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("SPECK-128/CTR", 16, "SPECK-128(128)/CTR (128-bit key)");
BenchMarkByName<SymmetricCipher>("SPECK-128/CTR", 24, "SPECK-128(192)/CTR (192-bit key)");
BenchMarkByName<SymmetricCipher>("SPECK-128/CTR", 32, "SPECK-128(256)/CTR (256-bit key)");
BenchMarkByName<SymmetricCipher>("TEA/CTR");
BenchMarkByName<SymmetricCipher>("XTEA/CTR");
}
std::cout << "\n<TBODY style=\"background: white;\">";
{
#if CRYPTOPP_AESNI_AVAILABLE
if (HasCLMUL())
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("AES/GCM", 0, "AES/GCM");
else
#elif CRYPTOPP_ARM_PMULL_AVAILABLE
if (HasPMULL())
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("AES/GCM", 0, "AES/GCM");
else
#elif CRYPTOPP_POWER8_VMULL_AVAILABLE
if (HasPMULL())
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("AES/GCM", 0, "AES/GCM");
else
#endif
{
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("AES/GCM", 0, "AES/GCM (2K tables)", MakeParameters(Name::TableSize(), 2048));
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("AES/GCM", 0, "AES/GCM (64K tables)", MakeParameters(Name::TableSize(), 64 * 1024));
}
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("AES/CCM");
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("AES/EAX");
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("ChaCha20/Poly1305");
BenchMarkByName2<AuthenticatedSymmetricCipher, AuthenticatedSymmetricCipher>("XChaCha20/Poly1305");
}
std::cout << "\n</TABLE>" << std::endl;
}
NAMESPACE_END // Test
NAMESPACE_END // CryptoPP