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https://github.com/shadps4-emu/ext-cryptopp.git
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338 lines
13 KiB
C++
338 lines
13 KiB
C++
// bench2.cpp - written and placed in the public domain by Wei Dai
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#include "cryptlib.h"
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#include "pubkey.h"
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#include "gfpcrypt.h"
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#include "eccrypto.h"
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#include "bench.h"
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#include "validate.h"
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#include "files.h"
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#include "filters.h"
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#include "hex.h"
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#include "rsa.h"
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#include "nr.h"
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#include "dsa.h"
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#include "luc.h"
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#include "rw.h"
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#include "eccrypto.h"
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#include "ecp.h"
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#include "ec2n.h"
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#include "asn.h"
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#include "dh.h"
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#include "mqv.h"
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#include "xtrcrypt.h"
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#include "esign.h"
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#include "pssr.h"
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#include "oids.h"
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#include "randpool.h"
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#include <time.h>
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#include <math.h>
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#include <iostream>
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#include <iomanip>
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// These are noisy enoguh due to test.cpp. Turn them off here.
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#if CRYPTOPP_GCC_DIAGNOSTIC_AVAILABLE
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# pragma GCC diagnostic ignored "-Wdeprecated-declarations"
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#endif
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USING_NAMESPACE(CryptoPP)
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USING_NAMESPACE(std)
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void OutputResultOperations(const char *name, const char *operation, bool pc, unsigned long iterations, double timeTaken);
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void BenchMarkEncryption(const char *name, PK_Encryptor &key, double timeTotal, bool pc=false)
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{
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unsigned int len = 16;
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SecByteBlock plaintext(len), ciphertext(key.CiphertextLength(len));
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GlobalRNG().GenerateBlock(plaintext, len);
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const clock_t start = clock();
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unsigned int i;
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double timeTaken;
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for (timeTaken=(double)0, i=0; timeTaken < timeTotal; timeTaken = double(clock() - start) / CLOCK_TICKS_PER_SECOND, i++)
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key.Encrypt(GlobalRNG(), plaintext, len, ciphertext);
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OutputResultOperations(name, "Encryption", pc, i, timeTaken);
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if (!pc && key.GetMaterial().SupportsPrecomputation())
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{
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key.AccessMaterial().Precompute(16);
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BenchMarkEncryption(name, key, timeTotal, true);
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}
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}
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void BenchMarkDecryption(const char *name, PK_Decryptor &priv, PK_Encryptor &pub, double timeTotal)
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{
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unsigned int len = 16;
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SecByteBlock ciphertext(pub.CiphertextLength(len));
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SecByteBlock plaintext(pub.MaxPlaintextLength(ciphertext.size()));
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GlobalRNG().GenerateBlock(plaintext, len);
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pub.Encrypt(GlobalRNG(), plaintext, len, ciphertext);
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const clock_t start = clock();
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unsigned int i;
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double timeTaken;
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for (timeTaken=(double)0, i=0; timeTaken < timeTotal; timeTaken = double(clock() - start) / CLOCK_TICKS_PER_SECOND, i++)
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priv.Decrypt(GlobalRNG(), ciphertext, ciphertext.size(), plaintext);
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OutputResultOperations(name, "Decryption", false, i, timeTaken);
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}
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void BenchMarkSigning(const char *name, PK_Signer &key, double timeTotal, bool pc=false)
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{
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unsigned int len = 16;
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AlignedSecByteBlock message(len), signature(key.SignatureLength());
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GlobalRNG().GenerateBlock(message, len);
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const clock_t start = clock();
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unsigned int i;
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double timeTaken;
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for (timeTaken=(double)0, i=0; timeTaken < timeTotal; timeTaken = double(clock() - start) / CLOCK_TICKS_PER_SECOND, i++)
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key.SignMessage(GlobalRNG(), message, len, signature);
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OutputResultOperations(name, "Signature", pc, i, timeTaken);
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if (!pc && key.GetMaterial().SupportsPrecomputation())
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{
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key.AccessMaterial().Precompute(16);
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BenchMarkSigning(name, key, timeTotal, true);
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}
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}
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void BenchMarkVerification(const char *name, const PK_Signer &priv, PK_Verifier &pub, double timeTotal, bool pc=false)
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{
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unsigned int len = 16;
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AlignedSecByteBlock message(len), signature(pub.SignatureLength());
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GlobalRNG().GenerateBlock(message, len);
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priv.SignMessage(GlobalRNG(), message, len, signature);
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const clock_t start = clock();
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unsigned int i;
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double timeTaken;
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for (timeTaken=(double)0, i=0; timeTaken < timeTotal; timeTaken = double(clock() - start) / CLOCK_TICKS_PER_SECOND, i++)
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{
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// The return value is ignored because we are interested in throughput
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bool unused = pub.VerifyMessage(message, len, signature, signature.size());
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CRYPTOPP_UNUSED(unused);
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}
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OutputResultOperations(name, "Verification", pc, i, timeTaken);
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if (!pc && pub.GetMaterial().SupportsPrecomputation())
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{
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pub.AccessMaterial().Precompute(16);
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BenchMarkVerification(name, priv, pub, timeTotal, true);
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}
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}
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void BenchMarkKeyGen(const char *name, SimpleKeyAgreementDomain &d, double timeTotal, bool pc=false)
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{
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SecByteBlock priv(d.PrivateKeyLength()), pub(d.PublicKeyLength());
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const clock_t start = clock();
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unsigned int i;
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double timeTaken;
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for (timeTaken=(double)0, i=0; timeTaken < timeTotal; timeTaken = double(clock() - start) / CLOCK_TICKS_PER_SECOND, i++)
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d.GenerateKeyPair(GlobalRNG(), priv, pub);
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OutputResultOperations(name, "Key-Pair Generation", pc, i, timeTaken);
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if (!pc && d.GetMaterial().SupportsPrecomputation())
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{
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d.AccessMaterial().Precompute(16);
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BenchMarkKeyGen(name, d, timeTotal, true);
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}
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}
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void BenchMarkKeyGen(const char *name, AuthenticatedKeyAgreementDomain &d, double timeTotal, bool pc=false)
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{
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SecByteBlock priv(d.EphemeralPrivateKeyLength()), pub(d.EphemeralPublicKeyLength());
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const clock_t start = clock();
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unsigned int i;
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double timeTaken;
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for (timeTaken=(double)0, i=0; timeTaken < timeTotal; timeTaken = double(clock() - start) / CLOCK_TICKS_PER_SECOND, i++)
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d.GenerateEphemeralKeyPair(GlobalRNG(), priv, pub);
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OutputResultOperations(name, "Key-Pair Generation", pc, i, timeTaken);
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if (!pc && d.GetMaterial().SupportsPrecomputation())
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{
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d.AccessMaterial().Precompute(16);
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BenchMarkKeyGen(name, d, timeTotal, true);
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}
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}
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void BenchMarkAgreement(const char *name, SimpleKeyAgreementDomain &d, double timeTotal, bool pc=false)
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{
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SecByteBlock priv1(d.PrivateKeyLength()), priv2(d.PrivateKeyLength());
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SecByteBlock pub1(d.PublicKeyLength()), pub2(d.PublicKeyLength());
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d.GenerateKeyPair(GlobalRNG(), priv1, pub1);
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d.GenerateKeyPair(GlobalRNG(), priv2, pub2);
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SecByteBlock val(d.AgreedValueLength());
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const clock_t start = clock();
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unsigned int i;
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double timeTaken;
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for (timeTaken=(double)0, i=0; timeTaken < timeTotal; timeTaken = double(clock() - start) / CLOCK_TICKS_PER_SECOND, i+=2)
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{
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d.Agree(val, priv1, pub2);
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d.Agree(val, priv2, pub1);
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}
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OutputResultOperations(name, "Key Agreement", pc, i, timeTaken);
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}
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void BenchMarkAgreement(const char *name, AuthenticatedKeyAgreementDomain &d, double timeTotal, bool pc=false)
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{
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SecByteBlock spriv1(d.StaticPrivateKeyLength()), spriv2(d.StaticPrivateKeyLength());
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SecByteBlock epriv1(d.EphemeralPrivateKeyLength()), epriv2(d.EphemeralPrivateKeyLength());
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SecByteBlock spub1(d.StaticPublicKeyLength()), spub2(d.StaticPublicKeyLength());
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SecByteBlock epub1(d.EphemeralPublicKeyLength()), epub2(d.EphemeralPublicKeyLength());
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d.GenerateStaticKeyPair(GlobalRNG(), spriv1, spub1);
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d.GenerateStaticKeyPair(GlobalRNG(), spriv2, spub2);
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d.GenerateEphemeralKeyPair(GlobalRNG(), epriv1, epub1);
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d.GenerateEphemeralKeyPair(GlobalRNG(), epriv2, epub2);
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SecByteBlock val(d.AgreedValueLength());
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const clock_t start = clock();
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unsigned int i;
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double timeTaken;
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for (timeTaken=(double)0, i=0; timeTaken < timeTotal; timeTaken = double(clock() - start) / CLOCK_TICKS_PER_SECOND, i+=2)
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{
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d.Agree(val, spriv1, epriv1, spub2, epub2);
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d.Agree(val, spriv2, epriv2, spub1, epub1);
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}
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OutputResultOperations(name, "Key Agreement", pc, i, timeTaken);
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}
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//VC60 workaround: compiler bug triggered without the extra dummy parameters
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template <class SCHEME>
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void BenchMarkCrypto(const char *filename, const char *name, double timeTotal, SCHEME *x=NULL)
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{
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CRYPTOPP_UNUSED(x);
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FileSource f(filename, true, new HexDecoder());
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typename SCHEME::Decryptor priv(f);
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typename SCHEME::Encryptor pub(priv);
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BenchMarkEncryption(name, pub, timeTotal);
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BenchMarkDecryption(name, priv, pub, timeTotal);
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}
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//VC60 workaround: compiler bug triggered without the extra dummy parameters
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template <class SCHEME>
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void BenchMarkSignature(const char *filename, const char *name, double timeTotal, SCHEME *x=NULL)
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{
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CRYPTOPP_UNUSED(x);
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FileSource f(filename, true, new HexDecoder());
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typename SCHEME::Signer priv(f);
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typename SCHEME::Verifier pub(priv);
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BenchMarkSigning(name, priv, timeTotal);
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BenchMarkVerification(name, priv, pub, timeTotal);
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}
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//VC60 workaround: compiler bug triggered without the extra dummy parameters
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template <class D>
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void BenchMarkKeyAgreement(const char *filename, const char *name, double timeTotal, D *x=NULL)
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{
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CRYPTOPP_UNUSED(x);
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FileSource f(filename, true, new HexDecoder());
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D d(f);
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BenchMarkKeyGen(name, d, timeTotal);
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BenchMarkAgreement(name, d, timeTotal);
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}
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extern double g_hertz;
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void BenchmarkAll2(double t, double hertz)
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{
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g_hertz = hertz;
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cout << "<TABLE border=1><COLGROUP><COL align=left><COL align=right><COL align=right>" << endl;
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cout << "<THEAD><TR><TH>Operation<TH>Milliseconds/Operation" << (g_hertz ? "<TH>Megacycles/Operation" : "") << endl;
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cout << "\n<TBODY style=\"background: yellow\">";
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BenchMarkCrypto<RSAES<OAEP<SHA> > >(CRYPTOPP_DATA_DIR "TestData/rsa1024.dat", "RSA 1024", t);
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BenchMarkCrypto<LUCES<OAEP<SHA> > >(CRYPTOPP_DATA_DIR "TestData/luc1024.dat", "LUC 1024", t);
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BenchMarkCrypto<DLIES<> >(CRYPTOPP_DATA_DIR "TestData/dlie1024.dat", "DLIES 1024", t);
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BenchMarkCrypto<LUC_IES<> >(CRYPTOPP_DATA_DIR "TestData/lucc512.dat", "LUCELG 512", t);
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cout << "\n<TBODY style=\"background: white\">";
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BenchMarkCrypto<RSAES<OAEP<SHA> > >(CRYPTOPP_DATA_DIR "TestData/rsa2048.dat", "RSA 2048", t);
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BenchMarkCrypto<LUCES<OAEP<SHA> > >(CRYPTOPP_DATA_DIR "TestData/luc2048.dat", "LUC 2048", t);
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BenchMarkCrypto<DLIES<> >(CRYPTOPP_DATA_DIR "TestData/dlie2048.dat", "DLIES 2048", t);
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BenchMarkCrypto<LUC_IES<> >(CRYPTOPP_DATA_DIR "TestData/lucc1024.dat", "LUCELG 1024", t);
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cout << "\n<TBODY style=\"background: yellow\">";
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BenchMarkSignature<RSASS<PSSR, SHA> >(CRYPTOPP_DATA_DIR "TestData/rsa1024.dat", "RSA 1024", t);
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BenchMarkSignature<RWSS<PSSR, SHA> >(CRYPTOPP_DATA_DIR "TestData/rw1024.dat", "RW 1024", t);
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BenchMarkSignature<LUCSS<PSSR, SHA> >(CRYPTOPP_DATA_DIR "TestData/luc1024.dat", "LUC 1024", t);
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BenchMarkSignature<NR<SHA> >(CRYPTOPP_DATA_DIR "TestData/nr1024.dat", "NR 1024", t);
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BenchMarkSignature<DSA>(CRYPTOPP_DATA_DIR "TestData/dsa1024.dat", "DSA 1024", t);
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BenchMarkSignature<LUC_HMP<SHA> >(CRYPTOPP_DATA_DIR "TestData/lucs512.dat", "LUC-HMP 512", t);
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BenchMarkSignature<ESIGN<SHA> >(CRYPTOPP_DATA_DIR "TestData/esig1023.dat", "ESIGN 1023", t);
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BenchMarkSignature<ESIGN<SHA> >(CRYPTOPP_DATA_DIR "TestData/esig1536.dat", "ESIGN 1536", t);
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cout << "\n<TBODY style=\"background: white\">";
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BenchMarkSignature<RSASS<PSSR, SHA> >(CRYPTOPP_DATA_DIR "TestData/rsa2048.dat", "RSA 2048", t);
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BenchMarkSignature<RWSS<PSSR, SHA> >(CRYPTOPP_DATA_DIR "TestData/rw2048.dat", "RW 2048", t);
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BenchMarkSignature<LUCSS<PSSR, SHA> >(CRYPTOPP_DATA_DIR "TestData/luc2048.dat", "LUC 2048", t);
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BenchMarkSignature<NR<SHA> >(CRYPTOPP_DATA_DIR "TestData/nr2048.dat", "NR 2048", t);
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BenchMarkSignature<LUC_HMP<SHA> >(CRYPTOPP_DATA_DIR "TestData/lucs1024.dat", "LUC-HMP 1024", t);
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BenchMarkSignature<ESIGN<SHA> >(CRYPTOPP_DATA_DIR "TestData/esig2046.dat", "ESIGN 2046", t);
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cout << "\n<TBODY style=\"background: yellow\">";
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BenchMarkKeyAgreement<XTR_DH>(CRYPTOPP_DATA_DIR "TestData/xtrdh171.dat", "XTR-DH 171", t);
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BenchMarkKeyAgreement<XTR_DH>(CRYPTOPP_DATA_DIR "TestData/xtrdh342.dat", "XTR-DH 342", t);
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BenchMarkKeyAgreement<DH>(CRYPTOPP_DATA_DIR "TestData/dh1024.dat", "DH 1024", t);
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BenchMarkKeyAgreement<DH>(CRYPTOPP_DATA_DIR "TestData/dh2048.dat", "DH 2048", t);
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BenchMarkKeyAgreement<LUC_DH>(CRYPTOPP_DATA_DIR "TestData/lucd512.dat", "LUCDIF 512", t);
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BenchMarkKeyAgreement<LUC_DH>(CRYPTOPP_DATA_DIR "TestData/lucd1024.dat", "LUCDIF 1024", t);
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BenchMarkKeyAgreement<MQV>(CRYPTOPP_DATA_DIR "TestData/mqv1024.dat", "MQV 1024", t);
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BenchMarkKeyAgreement<MQV>(CRYPTOPP_DATA_DIR "TestData/mqv2048.dat", "MQV 2048", t);
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cout << "\n<TBODY style=\"background: white\">";
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{
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ECIES<ECP>::Decryptor cpriv(GlobalRNG(), ASN1::secp256k1());
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ECIES<ECP>::Encryptor cpub(cpriv);
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ECDSA<ECP, SHA>::Signer spriv(cpriv);
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ECDSA<ECP, SHA>::Verifier spub(spriv);
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ECDH<ECP>::Domain ecdhc(ASN1::secp256k1());
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ECMQV<ECP>::Domain ecmqvc(ASN1::secp256k1());
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BenchMarkEncryption("ECIES over GF(p) 256", cpub, t);
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BenchMarkDecryption("ECIES over GF(p) 256", cpriv, cpub, t);
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BenchMarkSigning("ECDSA over GF(p) 256", spriv, t);
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BenchMarkVerification("ECDSA over GF(p) 256", spriv, spub, t);
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BenchMarkKeyGen("ECDHC over GF(p) 256", ecdhc, t);
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BenchMarkAgreement("ECDHC over GF(p) 256", ecdhc, t);
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BenchMarkKeyGen("ECMQVC over GF(p) 256", ecmqvc, t);
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BenchMarkAgreement("ECMQVC over GF(p) 256", ecmqvc, t);
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}
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cout << "<TBODY style=\"background: yellow\">" << endl;
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{
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ECIES<EC2N>::Decryptor cpriv(GlobalRNG(), ASN1::sect233r1());
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ECIES<EC2N>::Encryptor cpub(cpriv);
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ECDSA<EC2N, SHA>::Signer spriv(cpriv);
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ECDSA<EC2N, SHA>::Verifier spub(spriv);
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ECDH<EC2N>::Domain ecdhc(ASN1::sect233r1());
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ECMQV<EC2N>::Domain ecmqvc(ASN1::sect233r1());
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BenchMarkEncryption("ECIES over GF(2^n) 233", cpub, t);
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BenchMarkDecryption("ECIES over GF(2^n) 233", cpriv, cpub, t);
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BenchMarkSigning("ECDSA over GF(2^n) 233", spriv, t);
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BenchMarkVerification("ECDSA over GF(2^n) 233", spriv, spub, t);
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BenchMarkKeyGen("ECDHC over GF(2^n) 233", ecdhc, t);
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BenchMarkAgreement("ECDHC over GF(2^n) 233", ecdhc, t);
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BenchMarkKeyGen("ECMQVC over GF(2^n) 233", ecmqvc, t);
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BenchMarkAgreement("ECMQVC over GF(2^n) 233", ecmqvc, t);
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}
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cout << "</TABLE>" << endl;
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}
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