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625 lines
20 KiB
C++
625 lines
20 KiB
C++
// validat8.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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// Source files split in July 2018 to expedite compiles.
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#include "pch.h"
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#define CRYPTOPP_ENABLE_NAMESPACE_WEAK 1
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#include "cryptlib.h"
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#include "cpu.h"
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#include "validate.h"
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#include "asn.h"
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#include "oids.h"
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#include "luc.h"
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#include "rsa.h"
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#include "xtr.h"
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#include "rabin.h"
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#include "pubkey.h"
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#include "elgamal.h"
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#include "xtrcrypt.h"
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#include "eccrypto.h"
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#include "hex.h"
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#include "base64.h"
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#include <iostream>
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#include <iomanip>
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#include <sstream>
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// Aggressive stack checking with VS2005 SP1 and above.
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#if (_MSC_FULL_VER >= 140050727)
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# pragma strict_gs_check (on)
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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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ANONYMOUS_NAMESPACE_BEGIN
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inline byte* C2B(char* ptr) {
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return reinterpret_cast<byte*>(ptr);
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}
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inline const byte* C2B(const char* ptr) {
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return reinterpret_cast<const byte*>(ptr);
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}
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inline bool operator==(const RSA::PrivateKey& lhs, const RSA::PrivateKey& rhs) {
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return lhs.GetModulus() == rhs.GetModulus() &&
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lhs.GetPublicExponent() == rhs.GetPublicExponent() &&
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lhs.GetPrivateExponent() == rhs.GetPrivateExponent();
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}
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inline bool operator!=(const RSA::PrivateKey& lhs, const RSA::PrivateKey& rhs) {
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return !operator==(lhs, rhs);
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}
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inline bool operator==(const RSA::PublicKey& lhs, const RSA::PublicKey& rhs) {
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return lhs.GetModulus() == rhs.GetModulus() &&
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lhs.GetPublicExponent() == rhs.GetPublicExponent();
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}
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inline bool operator!=(const RSA::PublicKey& lhs, const RSA::PublicKey& rhs) {
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return !operator==(lhs, rhs);
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}
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inline bool operator==(const LUC::PrivateKey& lhs, const LUC::PrivateKey& rhs) {
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return lhs.GetModulus() == rhs.GetModulus() &&
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lhs.GetPublicExponent() == rhs.GetPublicExponent() &&
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lhs.GetPrime1() == rhs.GetPrime1() &&
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lhs.GetPrime2() == rhs.GetPrime2() &&
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lhs.GetMultiplicativeInverseOfPrime2ModPrime1() == rhs.GetMultiplicativeInverseOfPrime2ModPrime1();
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}
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inline bool operator!=(const LUC::PrivateKey& lhs, const LUC::PrivateKey& rhs) {
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return !operator==(lhs, rhs);
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}
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inline bool operator==(const LUC::PublicKey& lhs, const LUC::PublicKey& rhs) {
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return lhs.GetModulus() == rhs.GetModulus() &&
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lhs.GetPublicExponent() == rhs.GetPublicExponent();
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}
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inline bool operator!=(const LUC::PublicKey& lhs, const LUC::PublicKey& rhs) {
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return !operator==(lhs, rhs);
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}
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inline bool operator==(const Rabin::PrivateKey& lhs, const Rabin::PrivateKey& rhs) {
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return lhs.GetModulus() == rhs.GetModulus() &&
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lhs.GetQuadraticResidueModPrime1() == rhs.GetQuadraticResidueModPrime1() &&
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lhs.GetQuadraticResidueModPrime2() == rhs.GetQuadraticResidueModPrime2() &&
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lhs.GetPrime1() == rhs.GetPrime1() &&
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lhs.GetPrime2() == rhs.GetPrime2() &&
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lhs.GetMultiplicativeInverseOfPrime2ModPrime1() == rhs.GetMultiplicativeInverseOfPrime2ModPrime1();
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}
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inline bool operator!=(const Rabin::PrivateKey& lhs, const Rabin::PrivateKey& rhs) {
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return !operator==(lhs, rhs);
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}
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inline bool operator==(const Rabin::PublicKey& lhs, const Rabin::PublicKey& rhs) {
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return lhs.GetModulus() == rhs.GetModulus() &&
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lhs.GetQuadraticResidueModPrime1() == rhs.GetQuadraticResidueModPrime1() &&
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lhs.GetQuadraticResidueModPrime2() == rhs.GetQuadraticResidueModPrime2();
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}
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inline bool operator!=(const Rabin::PublicKey& lhs, const Rabin::PublicKey& rhs) {
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return !operator==(lhs, rhs);
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}
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ANONYMOUS_NAMESPACE_END
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bool ValidateRSA_Encrypt()
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{
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// Must be large enough for RSA-3072 to test SHA3_256
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byte out[256], outPlain[128];
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bool pass = true, fail;
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#if defined(CRYPTOPP_EXTENDED_VALIDATION)
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{
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FileSource keys(DataDir("TestData/rsa1024.dat").c_str(), true, new HexDecoder);
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RSA::PrivateKey rsaPriv; rsaPriv.Load(keys);
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RSA::PublicKey rsaPub(rsaPriv);
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const Integer& n = rsaPriv.GetModulus();
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const Integer& e = rsaPriv.GetPublicExponent();
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const Integer& d = rsaPriv.GetPrivateExponent();
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RSA::PrivateKey rsaPriv2;
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rsaPriv2.Initialize(n, e, d);
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fail = (rsaPriv != rsaPriv2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "RSA::PrivateKey initialization\n";
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RSA::PublicKey rsaPub2;
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rsaPub2.Initialize(n, e);
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fail = (rsaPub != rsaPub2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "RSA::PublicKey initialization\n";
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}
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{
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FileSource keys(DataDir("TestData/rsa1024.dat").c_str(), true, new HexDecoder);
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RSA::PrivateKey rsaPriv; rsaPriv.Load(keys);
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ByteQueue q;
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rsaPriv.DEREncodePrivateKey(q);
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RSA::PrivateKey rsaPriv2;
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rsaPriv2.BERDecodePrivateKey(q, true, q.MaxRetrievable());
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fail = (rsaPriv != rsaPriv2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "RSA::PrivateKey encoding and decoding\n";
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}
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#endif
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{
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FileSource keys(DataDir("TestData/rsa1024.dat").c_str(), true, new HexDecoder);
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RSAES_PKCS1v15_Decryptor rsaPriv(keys);
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RSAES_PKCS1v15_Encryptor rsaPub(rsaPriv);
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fail = !CryptoSystemValidate(rsaPriv, rsaPub);
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pass = pass && !fail;
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}
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{
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RSAES<OAEP<SHA1> >::Decryptor rsaPriv(GlobalRNG(), 512);
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RSAES<OAEP<SHA1> >::Encryptor rsaPub(rsaPriv);
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fail = !CryptoSystemValidate(rsaPriv, rsaPub);
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pass = pass && !fail;
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}
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{
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const byte plain[] =
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"\x54\x85\x9b\x34\x2c\x49\xea\x2a";
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const byte encrypted[] =
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"\x14\xbd\xdd\x28\xc9\x83\x35\x19\x23\x80\xe8\xe5\x49\xb1\x58\x2a"
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"\x8b\x40\xb4\x48\x6d\x03\xa6\xa5\x31\x1f\x1f\xd5\xf0\xa1\x80\xe4"
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"\x17\x53\x03\x29\xa9\x34\x90\x74\xb1\x52\x13\x54\x29\x08\x24\x52"
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"\x62\x51";
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const byte oaepSeed[] =
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"\xaa\xfd\x12\xf6\x59\xca\xe6\x34\x89\xb4\x79\xe5\x07\x6d\xde\xc2"
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"\xf0\x6c\xb5\x8f";
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ByteQueue bq;
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bq.Put(oaepSeed, 20);
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FixedRNG rng(bq);
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FileSource privFile(DataDir("TestData/rsa400pv.dat").c_str(), true, new HexDecoder);
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FileSource pubFile(DataDir("TestData/rsa400pb.dat").c_str(), true, new HexDecoder);
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RSAES_OAEP_SHA_Decryptor rsaPriv;
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rsaPriv.AccessKey().BERDecodePrivateKey(privFile, false, 0);
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RSAES_OAEP_SHA_Encryptor rsaPub(pubFile);
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memset(out, 0, 50);
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memset(outPlain, 0, 8);
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rsaPub.Encrypt(rng, plain, 8, out);
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DecodingResult result = rsaPriv.FixedLengthDecrypt(GlobalRNG(), encrypted, outPlain);
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fail = !result.isValidCoding || (result.messageLength!=8) || memcmp(out, encrypted, 50) || memcmp(plain, outPlain, 8);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "PKCS 2.0 encryption and decryption\n";
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}
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return pass;
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}
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bool ValidateLUC_Encrypt()
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{
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bool pass = true, fail;
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#if defined(CRYPTOPP_EXTENDED_VALIDATION)
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{
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FileSource keys(DataDir("TestData/luc1024.dat").c_str(), true, new HexDecoder);
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LUC::PrivateKey lucPriv; lucPriv.BERDecode(keys);
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LUC::PublicKey lucPub(lucPriv);
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const Integer& n = lucPriv.GetModulus();
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const Integer& e = lucPriv.GetPublicExponent();
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const Integer& p = lucPriv.GetPrime1();
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const Integer& q = lucPriv.GetPrime2();
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const Integer& u = lucPriv.GetMultiplicativeInverseOfPrime2ModPrime1();
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LUC::PrivateKey lucPriv2;
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lucPriv2.Initialize(n, e, p, q, u);
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fail = (lucPriv != lucPriv2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "LUC::PrivateKey initialization\n";
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LUC::PublicKey lucPub2;
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lucPub2.Initialize(n, e);
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fail = (lucPub != lucPub2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "LUC::PublicKey initialization\n";
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}
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{
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FileSource keys(DataDir("TestData/luc1024.dat").c_str(), true, new HexDecoder);
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LUC::PrivateKey lucPriv; lucPriv.BERDecode(keys);
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ByteQueue q;
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lucPriv.DEREncode(q);
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LUC::PrivateKey lucPriv2;
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lucPriv2.BERDecode(q);
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fail = (lucPriv != lucPriv2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "LUC::PrivateKey encoding and decoding\n";
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}
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{
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FileSource keys(DataDir("TestData/luc1024.dat").c_str(), true, new HexDecoder);
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LUC::PrivateKey lucPriv; lucPriv.BERDecode(keys);
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LUC::PublicKey lucPub(lucPriv);
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ByteQueue q;
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lucPub.DEREncode(q);
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LUC::PublicKey lucPub2;
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lucPub2.BERDecode(q);
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fail = (lucPub != lucPub2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "LUC::PublicKey encoding and decoding\n";
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}
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#endif
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LUCES_OAEP_SHA_Decryptor priv(GlobalRNG(), 512);
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LUCES_OAEP_SHA_Encryptor pub(priv);
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fail = !CryptoSystemValidate(priv, pub);
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pass = pass && !fail;
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return pass;
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}
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bool ValidateLUC_DL_Encrypt()
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{
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std::cout << "\nLUC-IES validation suite running...\n\n";
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FileSource fc(DataDir("TestData/lucc512.dat").c_str(), true, new HexDecoder);
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LUC_IES<>::Decryptor privC(fc);
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LUC_IES<>::Encryptor pubC(privC);
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return CryptoSystemValidate(privC, pubC);
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}
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bool ValidateRabin_Encrypt()
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{
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bool pass = true, fail;
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#if defined(CRYPTOPP_EXTENDED_VALIDATION)
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{
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FileSource keys(DataDir("TestData/rabi1024.dat").c_str(), true, new HexDecoder);
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Rabin::PrivateKey rabinPriv; rabinPriv.BERDecode(keys);
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Rabin::PublicKey rabinPub(rabinPriv);
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const Integer& n = rabinPriv.GetModulus();
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const Integer& r = rabinPriv.GetQuadraticResidueModPrime1();
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const Integer& s = rabinPriv.GetQuadraticResidueModPrime2();
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const Integer& p = rabinPriv.GetPrime1();
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const Integer& q = rabinPriv.GetPrime2();
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const Integer& u = rabinPriv.GetMultiplicativeInverseOfPrime2ModPrime1();
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Rabin::PrivateKey rabinPriv2;
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rabinPriv2.Initialize(n, r, s, p, q, u);
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fail = (rabinPriv != rabinPriv2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "Rabin::PrivateKey initialization\n";
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Rabin::PublicKey rabinPub2;
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rabinPub2.Initialize(n, r, s);
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fail = (rabinPub != rabinPub2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "Rabin::PublicKey initialization\n";
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}
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{
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FileSource keys(DataDir("TestData/rabi1024.dat").c_str(), true, new HexDecoder);
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Rabin::PrivateKey rabinPriv; rabinPriv.BERDecode(keys);
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ByteQueue q;
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rabinPriv.DEREncode(q);
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Rabin::PrivateKey rabinPriv2;
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rabinPriv2.BERDecode(q);
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fail = (rabinPriv != rabinPriv2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "Rabin::PrivateKey encoding and decoding\n";
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}
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{
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FileSource keys(DataDir("TestData/rabi1024.dat").c_str(), true, new HexDecoder);
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Rabin::PrivateKey rabinPriv; rabinPriv.BERDecode(keys);
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Rabin::PublicKey rabinPub(rabinPriv);
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ByteQueue q;
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rabinPub.DEREncode(q);
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Rabin::PublicKey rabinPub2;
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rabinPub2.BERDecode(q);
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fail = (rabinPub != rabinPub2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "Rabin::PublicKey encoding and decoding\n";
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}
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#endif
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FileSource f(DataDir("TestData/rabi1024.dat").c_str(), true, new HexDecoder);
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RabinES<OAEP<SHA1> >::Decryptor priv(f);
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RabinES<OAEP<SHA1> >::Encryptor pub(priv);
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fail = !CryptoSystemValidate(priv, pub);
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pass = pass && !fail;
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return pass;
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}
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bool ValidateECP_Encrypt()
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{
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ECIES<ECP>::Decryptor cpriv(GlobalRNG(), ASN1::secp192r1());
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ECIES<ECP>::Encryptor cpub(cpriv);
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ByteQueue bq;
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cpriv.GetKey().DEREncode(bq);
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cpub.AccessKey().AccessGroupParameters().SetEncodeAsOID(true);
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cpub.GetKey().DEREncode(bq);
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cpub.AccessKey().Precompute();
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cpriv.AccessKey().Precompute();
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bool pass = CryptoSystemValidate(cpriv, cpub);
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std::cout << "Turning on point compression..." << std::endl;
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cpriv.AccessKey().AccessGroupParameters().SetPointCompression(true);
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cpub.AccessKey().AccessGroupParameters().SetPointCompression(true);
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pass = CryptoSystemValidate(cpriv, cpub) && pass;
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return pass;
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}
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// https://github.com/weidai11/cryptopp/issues/856
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// Not to be confused with NullHash in trunhash.h.
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class NULL_Hash : public CryptoPP::IteratedHashWithStaticTransform
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<CryptoPP::word32, CryptoPP::BigEndian, 32, 0, NULL_Hash, 0>
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{
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public:
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static void InitState(HashWordType *state) {
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CRYPTOPP_UNUSED(state);
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}
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static void Transform(CryptoPP::word32 *digest, const CryptoPP::word32 *data) {
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CRYPTOPP_UNUSED(digest); CRYPTOPP_UNUSED(data);
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}
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static const char *StaticAlgorithmName() {
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return "NULL_Hash";
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}
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};
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// https://github.com/weidai11/cryptopp/issues/856
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template <class EC, class HASH = SHA1, class COFACTOR_OPTION = NoCofactorMultiplication, bool DHAES_MODE = true, bool LABEL_OCTETS = false>
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struct ECIES_NULLDigest
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: public DL_ES<
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DL_Keys_EC<EC>,
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DL_KeyAgreementAlgorithm_DH<typename EC::Point, COFACTOR_OPTION>,
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DL_KeyDerivationAlgorithm_P1363<typename EC::Point, DHAES_MODE, P1363_KDF2<HASH> >,
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DL_EncryptionAlgorithm_Xor<HMAC<NULL_Hash>, DHAES_MODE, LABEL_OCTETS>,
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ECIES<EC> >
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{
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// TODO: fix this after name is standardized
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CRYPTOPP_STATIC_CONSTEXPR const char* CRYPTOPP_API StaticAlgorithmName() {return "ECIES-NULLDigest";}
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};
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bool ValidateECP_NULLDigest_Encrypt()
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{
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ECIES_NULLDigest<ECP>::Decryptor cpriv(GlobalRNG(), ASN1::secp256k1());
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ECIES_NULLDigest<ECP>::Encryptor cpub(cpriv);
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ByteQueue bq;
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cpriv.GetKey().DEREncode(bq);
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cpub.AccessKey().AccessGroupParameters().SetEncodeAsOID(true);
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cpub.GetKey().DEREncode(bq);
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cpub.AccessKey().Precompute();
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cpriv.AccessKey().Precompute();
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bool pass = CryptoSystemValidate(cpriv, cpub);
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std::cout << "Turning on point compression..." << std::endl;
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cpriv.AccessKey().AccessGroupParameters().SetPointCompression(true);
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cpub.AccessKey().AccessGroupParameters().SetPointCompression(true);
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pass = CryptoSystemValidate(cpriv, cpub) && pass;
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return pass;
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}
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// Ensure interop with Crypto++ 5.6.4 and earlier
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bool ValidateECP_Legacy_Encrypt()
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{
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std::cout << "\nLegacy ECIES ECP validation suite running...\n\n";
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bool pass = true;
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{
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FileSource fc(DataDir("TestData/ecies_p160.dat").c_str(), true, new HexDecoder);
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ECIES<ECP,SHA1,NoCofactorMultiplication,false,true>::Decryptor privC(fc);
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ECIES<ECP,SHA1,NoCofactorMultiplication,false,true>::Encryptor pubC(privC);
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|
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pass = CryptoSystemValidate(privC, pubC) && pass;
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|
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// Test data generated by Crypto++ 5.6.2.
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// Also see https://github.com/weidai11/cryptopp/pull/857.
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const std::string plain = "Yoda said, Do or do not. There is no try.";
|
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const std::string cipher =
|
|
"\x04\xF6\xC1\xB1\xFA\xAC\x8A\xD5\xD3\x96\xE7\x13\xAE\xBD\x0C\xCE"
|
|
"\x15\xCF\x44\x54\x08\x63\xCC\xBF\x89\x4D\xD0\xB8\x38\xA1\x3A\xB2"
|
|
"\x90\x75\x86\x82\x7F\x9D\x95\x26\xA5\x74\x13\x3A\x74\x63\x11\x71"
|
|
"\x70\x4C\x01\xA4\x08\x04\x95\x69\x6A\x91\xF0\xC0\xA4\xBD\x1E\xAA"
|
|
"\x59\x57\xB8\xA9\xD2\xF7\x7C\x98\xE3\xC5\xE3\xF4\x4F\xA7\x6E\x73"
|
|
"\x83\xF3\x1E\x05\x73\xA4\xEE\x63\x55\xFD\x6D\x31\xBB\x9E\x36\x4C"
|
|
"\x79\xD0\x76\xC0\x0D\xE9";
|
|
|
|
std::string recover;
|
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recover.resize(privC.MaxPlaintextLength(cipher.size()));
|
|
|
|
DecodingResult result = privC.Decrypt(GlobalRNG(), C2B(&cipher[0]), cipher.size(), C2B(&recover[0]));
|
|
if (result.isValidCoding)
|
|
recover.resize(result.messageLength);
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|
else
|
|
recover.resize(0);
|
|
|
|
pass = (plain == recover) && pass;
|
|
std::cout << (pass ? "passed " : "FAILED ");
|
|
std::cout << "decryption known answer\n";
|
|
}
|
|
return pass;
|
|
}
|
|
|
|
// Ensure interop with Crypto++ 5.6.4 and earlier
|
|
bool ValidateEC2N_Legacy_Encrypt()
|
|
{
|
|
std::cout << "\nLegacy ECIES EC2N validation suite running...\n\n";
|
|
bool pass = true;
|
|
{
|
|
FileSource fc(DataDir("TestData/ecies_t163.dat").c_str(), true, new HexDecoder);
|
|
ECIES<EC2N,SHA1,NoCofactorMultiplication,false,true>::Decryptor privC(fc);
|
|
ECIES<EC2N,SHA1,NoCofactorMultiplication,false,true>::Encryptor pubC(privC);
|
|
|
|
pass = CryptoSystemValidate(privC, pubC) && pass;
|
|
|
|
// Test data generated by Crypto++ 5.6.2.
|
|
// Also see https://github.com/weidai11/cryptopp/pull/857.
|
|
const std::string plain = "Yoda said, Do or do not. There is no try.";
|
|
const std::string cipher =
|
|
"\x04\x01\x3F\x64\x94\x6A\xBE\x2B\x7E\x48\x67\x63\xA2\xD4\x01\xEF"
|
|
"\x2B\x13\x1C\x9A\x1B\x7C\x07\x4B\x89\x78\x6C\x65\x51\x1C\x1A\x4E"
|
|
"\x20\x7F\xB5\xBF\x12\x3B\x6E\x0A\x87\xFD\xB7\x94\xEF\x4B\xED\x40"
|
|
"\xD4\x7A\xCF\xB6\xFC\x9B\x6D\xB0\xB8\x43\x99\x7E\x37\xC1\xF0\xC0"
|
|
"\x95\xD4\x80\xE1\x8B\x84\xAE\x64\x9F\xA5\xBA\x32\x95\x8A\xD1\xBE"
|
|
"\x7F\xDE\x7E\xA9\xE6\x59\xBF\x89\xA6\xE9\x9F\x5B\x64\xB4\xDD\x0E"
|
|
"\x76\xB6\x82\xF6\xA9\xAD\xB5\xC4";
|
|
|
|
std::string recover;
|
|
recover.resize(privC.MaxPlaintextLength(cipher.size()));
|
|
|
|
DecodingResult result = privC.Decrypt(GlobalRNG(), C2B(&cipher[0]), cipher.size(), C2B(&recover[0]));
|
|
if (result.isValidCoding)
|
|
recover.resize(result.messageLength);
|
|
else
|
|
recover.resize(0);
|
|
|
|
pass = (plain == recover) && pass;
|
|
std::cout << (pass ? "passed " : "FAILED ");
|
|
std::cout << "decryption known answer\n";
|
|
}
|
|
return pass;
|
|
}
|
|
|
|
bool ValidateEC2N_Encrypt()
|
|
{
|
|
// DEREncode() changed to Save() at Issue 569.
|
|
ECIES<EC2N>::Decryptor cpriv(GlobalRNG(), ASN1::sect193r1());
|
|
ECIES<EC2N>::Encryptor cpub(cpriv);
|
|
ByteQueue bq;
|
|
cpriv.AccessMaterial().Save(bq);
|
|
cpub.AccessKey().AccessGroupParameters().SetEncodeAsOID(true);
|
|
cpub.AccessMaterial().Save(bq);
|
|
bool pass = CryptoSystemValidate(cpriv, cpub);
|
|
|
|
std::cout << "Turning on point compression..." << std::endl;
|
|
cpriv.AccessKey().AccessGroupParameters().SetPointCompression(true);
|
|
cpub.AccessKey().AccessGroupParameters().SetPointCompression(true);
|
|
pass = CryptoSystemValidate(cpriv, cpub) && pass;
|
|
|
|
return pass;
|
|
}
|
|
|
|
bool ValidateElGamal()
|
|
{
|
|
std::cout << "\nElGamal validation suite running...\n\n";
|
|
bool pass = true;
|
|
{
|
|
// Data from https://github.com/weidai11/cryptopp/issues/876.
|
|
const std::string encodedPublicKey =
|
|
"MHYwTwYGKw4HAgEBMEUCIQDebUvQDd9UPMmD27BJ ovZSIgWfexL0SWkfJQPMLsJvMwIgDy/kEthwO6Q+"
|
|
"L8XHnzumnEKs+txH8QkQD+M/8u82ql0DIwACIAY6 rfW+BTcRZ9QAJovgoB8DgNLJ8ocqOeF4nEBB0DHH";
|
|
StringSource decodedPublicKey(encodedPublicKey, true, new Base64Decoder);
|
|
|
|
ElGamal::PublicKey publicKey;
|
|
publicKey.Load(decodedPublicKey);
|
|
pass = publicKey.Validate(GlobalRNG(), 3) && pass;
|
|
}
|
|
{
|
|
// Data from https://github.com/weidai11/cryptopp/issues/876.
|
|
const std::string encodedPrivateKey =
|
|
"MHkCAQAwTwYGKw4HAgEBMEUCIQDebUvQDd9UPMmD 27BJovZSIgWfexL0SWkfJQPMLsJvMwIgDy/kEthw"
|
|
"O6Q+L8XHnzumnEKs+txH8QkQD+M/8u82ql0EIwIh AJb0S4TZLvApTVjXZyocPJ5tUgWgRqScXm5vNqu2"
|
|
"YqdM";
|
|
StringSource decodedPrivateKey(encodedPrivateKey, true, new Base64Decoder);
|
|
|
|
ElGamal::PrivateKey privateKey;
|
|
privateKey.Load(decodedPrivateKey);
|
|
pass = privateKey.Validate(GlobalRNG(), 3) && pass;
|
|
}
|
|
{
|
|
FileSource fc(DataDir("TestData/elgc1024.dat").c_str(), true, new HexDecoder);
|
|
ElGamalDecryptor privC(fc);
|
|
ElGamalEncryptor pubC(privC);
|
|
privC.AccessKey().Precompute();
|
|
ByteQueue queue;
|
|
privC.AccessKey().SavePrecomputation(queue);
|
|
privC.AccessKey().LoadPrecomputation(queue);
|
|
|
|
pass = CryptoSystemValidate(privC, pubC) && pass;
|
|
}
|
|
return pass;
|
|
}
|
|
|
|
bool ValidateDLIES()
|
|
{
|
|
std::cout << "\nDLIES validation suite running...\n\n";
|
|
bool pass = true;
|
|
{
|
|
FileSource fc(DataDir("TestData/dlie1024.dat").c_str(), true, new HexDecoder);
|
|
DLIES<>::Decryptor privC(fc);
|
|
DLIES<>::Encryptor pubC(privC);
|
|
pass = CryptoSystemValidate(privC, pubC) && pass;
|
|
}
|
|
{
|
|
std::cout << "Generating new encryption key..." << std::endl;
|
|
DLIES<>::GroupParameters gp;
|
|
gp.GenerateRandomWithKeySize(GlobalRNG(), 128);
|
|
DLIES<>::Decryptor decryptor;
|
|
decryptor.AccessKey().GenerateRandom(GlobalRNG(), gp);
|
|
DLIES<>::Encryptor encryptor(decryptor);
|
|
|
|
pass = CryptoSystemValidate(decryptor, encryptor) && pass;
|
|
}
|
|
return pass;
|
|
}
|
|
|
|
NAMESPACE_END // Test
|
|
NAMESPACE_END // CryptoPP
|