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5603661eec
ext-cryptopp/bench2.cpp
Jeffrey Walton 5603661eec
Add ChaChaTLS implementation (GH #265) 
We tweaked ChaCha to arrive at the IETF's implementation specified by RFC 7539. We are not sure how to handle block counter wrap. At the moment the caller is responsible for managing it. We were not able to find a reference implementation so we disable SIMD implementations like SSE, AVX, NEON and Power4. We need the wide block tests for corner cases to ensure our implementation is correct.
2019-01-24 09:36:05 -05:00

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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"
#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>("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/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");
}
std::cout << "\n</TABLE>" << std::endl;
}
NAMESPACE_END // Test
NAMESPACE_END // CryptoPP
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