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https://github.com/shadps4-emu/ext-cryptopp.git
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500 lines
15 KiB
C++
500 lines
15 KiB
C++
// bench1.cpp - originally written and placed in the public domain by Wei Dai
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// CryptoPP::Test namespace added by JW in February 2017
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#include "cryptlib.h"
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#include "bench.h"
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#include "validate.h"
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#include "cpu.h"
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#include "factory.h"
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#include "algparam.h"
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#include "argnames.h"
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#include "smartptr.h"
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#include "stdcpp.h"
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#include "osrng.h"
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#include "drbg.h"
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#include "darn.h"
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#include "mersenne.h"
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#include "rdrand.h"
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#include "padlkrng.h"
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#include <iostream>
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#include <iomanip>
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#include <sstream>
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#if CRYPTOPP_MSC_VERSION
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# pragma warning(disable: 4355)
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#endif
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#if CRYPTOPP_MSC_VERSION
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# pragma warning(disable: 4505 4355)
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#endif
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NAMESPACE_BEGIN(CryptoPP)
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NAMESPACE_BEGIN(Test)
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#ifdef CLOCKS_PER_SEC
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const double CLOCK_TICKS_PER_SECOND = (double)CLOCKS_PER_SEC;
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#elif defined(CLK_TCK)
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const double CLOCK_TICKS_PER_SECOND = (double)CLK_TCK;
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#else
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const double CLOCK_TICKS_PER_SECOND = 1000000.0;
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#endif
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extern const byte defaultKey[] = "0123456789" // 168 + NULL
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"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"
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"00000000000000000000000000000000000000000000000000000"
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"00000000000000000000000000000000000000000000000000000";
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double g_allocatedTime = 0.0, g_hertz = 0.0, g_logTotal = 0.0;
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unsigned int g_logCount = 0;
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time_t g_testBegin, g_testEnd;
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inline std::string HertzToString(double hertz)
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{
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std::ostringstream oss;
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oss.precision(3);
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if (hertz >= 0.999e+9)
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oss << hertz / 1e+9 << " GHz";
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else if (hertz >= 0.999e+6)
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oss << hertz / 1e+6 << " MHz";
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else if (hertz >= 0.999e+3)
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oss << hertz / 1e+3 << " KHz";
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else
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oss << hertz << " Hz";
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return oss.str();
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}
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void OutputResultBytes(const char *name, const char *provider, double length, double timeTaken)
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{
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std::ostringstream oss;
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// Coverity finding
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if (length < 0.000001f) length = 0.000001f;
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if (timeTaken < 0.000001f) timeTaken = 0.000001f;
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double mbs = length / timeTaken / (1024*1024);
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oss << "\n<TR><TD>" << name << "<TD>" << provider;
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oss << std::setiosflags(std::ios::fixed);
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oss << "<TD>" << std::setprecision(0) << std::setiosflags(std::ios::fixed) << mbs;
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if (g_hertz > 1.0f)
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{
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const double cpb = timeTaken * g_hertz / length;
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if (cpb < 24.0f)
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oss << "<TD>" << std::setprecision(2) << std::setiosflags(std::ios::fixed) << cpb;
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else
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oss << "<TD>" << std::setprecision(1) << std::setiosflags(std::ios::fixed) << cpb;
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}
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g_logTotal += log(mbs);
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g_logCount++;
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std::cout << oss.str();
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}
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void OutputResultKeying(double iterations, double timeTaken)
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{
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std::ostringstream oss;
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// Coverity finding
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if (iterations < 0.000001f) iterations = 0.000001f;
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if (timeTaken < 0.000001f) timeTaken = 0.000001f;
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oss << "<TD>" << std::setprecision(3) << std::setiosflags(std::ios::fixed) << (1000*1000*timeTaken/iterations);
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// Coverity finding
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if (g_hertz > 1.0f)
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oss << "<TD>" << std::setprecision(0) << std::setiosflags(std::ios::fixed) << timeTaken * g_hertz / iterations;
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std::cout << oss.str();
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}
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void OutputResultOperations(const char *name, const char *provider, const char *operation, bool pc, unsigned long iterations, double timeTaken)
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{
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CRYPTOPP_UNUSED(provider);
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std::ostringstream oss;
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// Coverity finding
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if (!iterations) iterations++;
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if (timeTaken < 0.000001f) timeTaken = 0.000001f;
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oss << "\n<TR><TD>" << name << " " << operation << (pc ? " with precomputation" : "");
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//oss << "<TD>" << provider;
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oss << "<TD>" << std::setprecision(3) << std::setiosflags(std::ios::fixed) << (1000*timeTaken/iterations);
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// Coverity finding
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if (g_hertz > 1.0f)
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{
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const double t = timeTaken * g_hertz / iterations / 1000000;
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oss << "<TD>" << std::setprecision(3) << std::setiosflags(std::ios::fixed) << t;
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}
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g_logTotal += log(iterations/timeTaken);
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g_logCount++;
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std::cout << oss.str();
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}
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/*
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void BenchMark(const char *name, BlockTransformation &cipher, double timeTotal)
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{
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const int BUF_SIZE = RoundUpToMultipleOf(2048U, cipher.OptimalNumberOfParallelBlocks() * cipher.BlockSize());
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AlignedSecByteBlock buf(BUF_SIZE);
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buf.SetMark(16);
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const int nBlocks = BUF_SIZE / cipher.BlockSize();
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unsigned long i=0, blocks=1;
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double timeTaken;
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clock_t start = ::clock();
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do
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{
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blocks *= 2;
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for (; i<blocks; i++)
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cipher.ProcessAndXorMultipleBlocks(buf, NULLPTR, buf, nBlocks);
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timeTaken = double(::clock() - start) / CLOCK_TICKS_PER_SECOND;
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}
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while (timeTaken < 2.0/3*timeTotal);
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OutputResultBytes(name, double(blocks) * BUF_SIZE, timeTaken);
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}
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*/
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void BenchMark(const char *name, StreamTransformation &cipher, double timeTotal)
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{
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const int BUF_SIZE=RoundUpToMultipleOf(2048U, cipher.OptimalBlockSize());
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AlignedSecByteBlock buf(BUF_SIZE);
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Test::GlobalRNG().GenerateBlock(buf, BUF_SIZE);
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buf.SetMark(16);
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unsigned long i=0, blocks=1;
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double timeTaken;
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clock_t start = ::clock();
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do
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{
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blocks *= 2;
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for (; i<blocks; i++)
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cipher.ProcessString(buf, BUF_SIZE);
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timeTaken = double(::clock() - start) / CLOCK_TICKS_PER_SECOND;
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}
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while (timeTaken < 2.0/3*timeTotal);
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std::string provider = cipher.AlgorithmProvider();
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OutputResultBytes(name, provider.c_str(), double(blocks) * BUF_SIZE, timeTaken);
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}
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void BenchMark(const char *name, HashTransformation &ht, double timeTotal)
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{
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const int BUF_SIZE=2048U;
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AlignedSecByteBlock buf(BUF_SIZE);
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Test::GlobalRNG().GenerateBlock(buf, BUF_SIZE);
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buf.SetMark(16);
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unsigned long i=0, blocks=1;
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double timeTaken;
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clock_t start = ::clock();
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do
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{
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blocks *= 2;
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for (; i<blocks; i++)
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ht.Update(buf, BUF_SIZE);
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timeTaken = double(::clock() - start) / CLOCK_TICKS_PER_SECOND;
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}
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while (timeTaken < 2.0/3*timeTotal);
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std::string provider = ht.AlgorithmProvider();
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OutputResultBytes(name, provider.c_str(), double(blocks) * BUF_SIZE, timeTaken);
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}
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void BenchMark(const char *name, BufferedTransformation &bt, double timeTotal)
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{
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const int BUF_SIZE=2048U;
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AlignedSecByteBlock buf(BUF_SIZE);
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Test::GlobalRNG().GenerateBlock(buf, BUF_SIZE);
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buf.SetMark(16);
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unsigned long i=0, blocks=1;
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double timeTaken;
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clock_t start = ::clock();
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do
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{
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blocks *= 2;
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for (; i<blocks; i++)
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bt.Put(buf, BUF_SIZE);
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timeTaken = double(::clock() - start) / CLOCK_TICKS_PER_SECOND;
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}
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while (timeTaken < 2.0/3*timeTotal);
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std::string provider = bt.AlgorithmProvider();
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OutputResultBytes(name, provider.c_str(), double(blocks) * BUF_SIZE, timeTaken);
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}
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void BenchMark(const char *name, RandomNumberGenerator &rng, double timeTotal)
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{
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const int BUF_SIZE = 2048U;
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AlignedSecByteBlock buf(BUF_SIZE);
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Test::GlobalRNG().GenerateBlock(buf, BUF_SIZE);
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buf.SetMark(16);
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SymmetricCipher * cipher = dynamic_cast<SymmetricCipher*>(&rng);
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if (cipher != NULLPTR)
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{
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const size_t size = cipher->DefaultKeyLength();
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if (cipher->IsResynchronizable())
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cipher->SetKeyWithIV(buf, size, buf+size);
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else
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cipher->SetKey(buf, size);
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}
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unsigned long long blocks = 1;
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double timeTaken;
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clock_t start = ::clock();
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do
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{
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rng.GenerateBlock(buf, buf.size());
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blocks++;
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timeTaken = double(::clock() - start) / CLOCK_TICKS_PER_SECOND;
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} while (timeTaken < timeTotal);
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std::string provider = rng.AlgorithmProvider();
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OutputResultBytes(name, provider.c_str(), double(blocks) * BUF_SIZE, timeTaken);
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}
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// Hack, but we probably need a KeyedRandomNumberGenerator interface
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// and a few methods to generalize keying a RNG. X917RNG, Hash_DRBG,
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// HMAC_DRBG, AES/CFB RNG and a few others could use it. "A few others"
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// includes BLAKE2, ChaCha and Poly1305 when used as a RNG.
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void BenchMark(const char *name, NIST_DRBG &rng, double timeTotal)
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{
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const int BUF_SIZE = 2048U;
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AlignedSecByteBlock buf(BUF_SIZE);
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Test::GlobalRNG().GenerateBlock(buf, BUF_SIZE);
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buf.SetMark(16);
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rng.IncorporateEntropy(buf, rng.MinEntropyLength());
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unsigned long long blocks = 1;
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double timeTaken;
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clock_t start = ::clock();
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do
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{
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rng.GenerateBlock(buf, buf.size());
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blocks++;
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timeTaken = double(::clock() - start) / CLOCK_TICKS_PER_SECOND;
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} while (timeTaken < timeTotal);
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std::string provider = rng.AlgorithmProvider();
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OutputResultBytes(name, provider.c_str(), double(blocks) * BUF_SIZE, timeTaken);
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}
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template <class T>
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void BenchMarkByNameKeyLess(const char *factoryName, const char *displayName = NULLPTR, const NameValuePairs ¶ms = g_nullNameValuePairs)
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{
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CRYPTOPP_UNUSED(params);
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std::string name = factoryName;
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if (displayName)
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name = displayName;
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member_ptr<T> obj(ObjectFactoryRegistry<T>::Registry().CreateObject(factoryName));
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BenchMark(name.c_str(), *obj, g_allocatedTime);
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}
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void AddHtmlHeader()
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{
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std::ostringstream oss;
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// HTML5
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oss << "<!DOCTYPE HTML>";
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oss << "\n<HTML lang=\"en\">";
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oss << "\n<HEAD>";
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oss << "\n<META charset=\"UTF-8\">";
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oss << "\n<TITLE>Speed Comparison of Popular Crypto Algorithms</TITLE>";
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oss << "\n<STYLE>\n table {border-collapse: collapse;}";
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oss << "\n table, th, td, tr {border: 1px solid black;}\n</STYLE>";
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oss << "\n</HEAD>";
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oss << "\n<BODY>";
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oss << "\n<H1><A href=\"http://www.cryptopp.com\">Crypto++</A> " << CRYPTOPP_VERSION / 100;
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oss << '.' << (CRYPTOPP_VERSION % 100) / 10 << '.' << CRYPTOPP_VERSION % 10 << " Benchmarks</H1>";
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oss << "\n<P>Here are speed benchmarks for some commonly used cryptographic algorithms.</P>";
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if (g_hertz > 1.0f)
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oss << "\n<P>CPU frequency of the test platform is " << HertzToString(g_hertz) << ".</P>";
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else
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oss << "\n<P>CPU frequency of the test platform was not provided.</P>" << std::endl;
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std::cout << oss.str();
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}
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void AddHtmlFooter()
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{
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std::ostringstream oss;
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oss << "\n</BODY>\n</HTML>\n";
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std::cout << oss.str();
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}
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void BenchmarkWithCommand(int argc, const char* const argv[])
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{
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std::string command(argv[1]);
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float runningTime(argc >= 3 ? Test::StringToValue<float, true>(argv[2]) : 1.0f);
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float cpuFreq(argc >= 4 ? Test::StringToValue<float, true>(argv[3])*float(1e9) : 0.0f);
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std::string algoName(argc >= 5 ? argv[4] : "");
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if (command == "b") // All benchmarks
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Benchmark(Test::All, runningTime, cpuFreq);
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else if (command == "b4") // Public key algorithms over EC
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Test::Benchmark(Test::PublicKeyEC, runningTime, cpuFreq);
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else if (command == "b3") // Public key algorithms
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Test::Benchmark(Test::PublicKey, runningTime, cpuFreq);
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else if (command == "b2") // Shared key algorithms
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Test::Benchmark(Test::SharedKey, runningTime, cpuFreq);
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else if (command == "b1") // Unkeyed algorithms
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Test::Benchmark(Test::Unkeyed, runningTime, cpuFreq);
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}
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void Benchmark(Test::TestClass suites, double t, double hertz)
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{
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g_allocatedTime = t;
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g_hertz = hertz;
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AddHtmlHeader();
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g_testBegin = ::time(NULLPTR);
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if (static_cast<int>(suites) == 0 || static_cast<int>(suites) > TestLast)
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suites = Test::All;
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// Unkeyed algorithms
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if (suites & Test::Unkeyed)
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{
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std::cout << "\n<BR>";
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Benchmark1(t, hertz);
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}
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// Shared key algorithms
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if (suites & Test::SharedKey)
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{
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std::cout << "\n<BR>";
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Benchmark2(t, hertz);
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}
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// Public key algorithms
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if (suites & Test::PublicKey)
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{
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std::cout << "\n<BR>";
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Benchmark3(t, hertz);
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}
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// Public key algorithms over EC
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if (suites & Test::PublicKeyEC)
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{
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std::cout << "\n<BR>";
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Benchmark4(t, hertz);
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}
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g_testEnd = ::time(NULLPTR);
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std::ostringstream oss;
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oss << "\n<P>Throughput Geometric Average: " << std::setiosflags(std::ios::fixed);
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oss << std::exp(g_logTotal/(g_logCount > 0.0f ? g_logCount : 1.0f)) << std::endl;
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oss << "\n<P>Test started at " << TimeToString(g_testBegin);
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oss << "\n<BR>Test ended at " << TimeToString(g_testEnd);
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oss << "\n";
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std::cout << oss.str();
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AddHtmlFooter();
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}
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void Benchmark1(double t, double hertz)
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{
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g_allocatedTime = t;
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g_hertz = hertz;
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const char *cpb;
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if (g_hertz > 1.0f)
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cpb = "<TH>Cycles/Byte";
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else
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cpb = "";
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std::cout << "\n<TABLE>";
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std::cout << "\n<COLGROUP><COL style=\"text-align: left;\"><COL style=\"text-align: right;\">";
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std::cout << "<COL style=\"text-align: right;\">";
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std::cout << "\n<THEAD style=\"background: #F0F0F0\">";
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std::cout << "\n<TR><TH>Algorithm<TH>Provider<TH>MiB/Second" << cpb;
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std::cout << "\n<TBODY style=\"background: white;\">";
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{
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#ifdef NONBLOCKING_RNG_AVAILABLE
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BenchMarkByNameKeyLess<RandomNumberGenerator>("NonblockingRng");
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#endif
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#ifdef OS_RNG_AVAILABLE
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BenchMarkByNameKeyLess<RandomNumberGenerator>("AutoSeededRandomPool");
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BenchMarkByNameKeyLess<RandomNumberGenerator>("AutoSeededX917RNG(AES)");
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#endif
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BenchMarkByNameKeyLess<RandomNumberGenerator>("MT19937");
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#if (CRYPTOPP_BOOL_X86) && !defined(CRYPTOPP_DISABLE_ASM)
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if (HasPadlockRNG())
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BenchMarkByNameKeyLess<RandomNumberGenerator>("PadlockRNG");
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#endif
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#if (CRYPTOPP_BOOL_X86 || CRYPTOPP_BOOL_X32 || CRYPTOPP_BOOL_X64) && !defined(CRYPTOPP_DISABLE_ASM)
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if (HasRDRAND())
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BenchMarkByNameKeyLess<RandomNumberGenerator>("RDRAND");
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if (HasRDSEED())
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BenchMarkByNameKeyLess<RandomNumberGenerator>("RDSEED");
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#endif
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#if (CRYPTOPP_BOOL_PPC32 || CRYPTOPP_BOOL_PPC64) && !defined(CRYPTOPP_DISABLE_ASM)
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if (HasDARN())
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BenchMarkByNameKeyLess<RandomNumberGenerator>("DARN");
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#endif
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BenchMarkByNameKeyLess<RandomNumberGenerator>("AES/OFB RNG");
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BenchMarkByNameKeyLess<NIST_DRBG>("Hash_DRBG(SHA1)");
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BenchMarkByNameKeyLess<NIST_DRBG>("Hash_DRBG(SHA256)");
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BenchMarkByNameKeyLess<NIST_DRBG>("HMAC_DRBG(SHA1)");
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BenchMarkByNameKeyLess<NIST_DRBG>("HMAC_DRBG(SHA256)");
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}
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std::cout << "\n<TBODY style=\"background: yellow;\">";
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{
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BenchMarkByNameKeyLess<HashTransformation>("CRC32");
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BenchMarkByNameKeyLess<HashTransformation>("CRC32C");
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BenchMarkByNameKeyLess<HashTransformation>("Adler32");
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BenchMarkByNameKeyLess<HashTransformation>("MD5");
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BenchMarkByNameKeyLess<HashTransformation>("SHA-1");
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BenchMarkByNameKeyLess<HashTransformation>("SHA-256");
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BenchMarkByNameKeyLess<HashTransformation>("SHA-512");
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BenchMarkByNameKeyLess<HashTransformation>("SHA3-224");
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BenchMarkByNameKeyLess<HashTransformation>("SHA3-256");
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BenchMarkByNameKeyLess<HashTransformation>("SHA3-384");
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BenchMarkByNameKeyLess<HashTransformation>("SHA3-512");
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BenchMarkByNameKeyLess<HashTransformation>("Keccak-224");
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BenchMarkByNameKeyLess<HashTransformation>("Keccak-256");
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BenchMarkByNameKeyLess<HashTransformation>("Keccak-384");
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BenchMarkByNameKeyLess<HashTransformation>("Keccak-512");
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BenchMarkByNameKeyLess<HashTransformation>("Tiger");
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BenchMarkByNameKeyLess<HashTransformation>("Whirlpool");
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BenchMarkByNameKeyLess<HashTransformation>("RIPEMD-160");
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BenchMarkByNameKeyLess<HashTransformation>("RIPEMD-320");
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BenchMarkByNameKeyLess<HashTransformation>("RIPEMD-128");
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BenchMarkByNameKeyLess<HashTransformation>("RIPEMD-256");
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BenchMarkByNameKeyLess<HashTransformation>("SM3");
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BenchMarkByNameKeyLess<HashTransformation>("BLAKE2s");
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BenchMarkByNameKeyLess<HashTransformation>("BLAKE2b");
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}
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std::cout << "\n</TABLE>" << std::endl;
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}
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NAMESPACE_END // Test
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NAMESPACE_END // CryptoPP
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