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https://github.com/shadps4-emu/ext-cryptopp.git
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307 lines
10 KiB
C++
307 lines
10 KiB
C++
// validat6.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 "blumshub.h"
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#include "eccrypto.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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bool CryptoSystemValidate(PK_Decryptor &priv, PK_Encryptor &pub, bool thorough)
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{
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bool pass = true, fail;
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fail = !pub.GetMaterial().Validate(GlobalRNG(), thorough ? 3 : 2) || !priv.GetMaterial().Validate(GlobalRNG(), thorough ? 3 : 2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "cryptosystem key validation\n";
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const byte *message = (byte *)"test message";
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const int messageLen = 12;
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SecByteBlock ciphertext(priv.CiphertextLength(messageLen));
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SecByteBlock plaintext(priv.MaxPlaintextLength(ciphertext.size()));
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pub.Encrypt(GlobalRNG(), message, messageLen, ciphertext);
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fail = priv.Decrypt(GlobalRNG(), ciphertext, priv.CiphertextLength(messageLen), plaintext) != DecodingResult(messageLen);
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fail = fail || memcmp(message, plaintext, messageLen);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "encryption and decryption\n";
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return pass;
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}
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bool SimpleKeyAgreementValidate(SimpleKeyAgreementDomain &d)
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{
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if (d.GetCryptoParameters().Validate(GlobalRNG(), 3))
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std::cout << "passed simple key agreement domain parameters validation" << std::endl;
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else
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{
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std::cout << "FAILED simple key agreement domain parameters invalid" << std::endl;
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return 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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SecByteBlock val1(d.AgreedValueLength()), val2(d.AgreedValueLength());
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d.GenerateKeyPair(GlobalRNG(), priv1, pub1);
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d.GenerateKeyPair(GlobalRNG(), priv2, pub2);
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memset(val1.begin(), 0x10, val1.size());
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memset(val2.begin(), 0x11, val2.size());
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if (!(d.Agree(val1, priv1, pub2) && d.Agree(val2, priv2, pub1)))
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{
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std::cout << "FAILED simple key agreement failed" << std::endl;
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return false;
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}
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if (memcmp(val1.begin(), val2.begin(), d.AgreedValueLength()))
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{
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std::cout << "FAILED simple agreed values not equal" << std::endl;
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return false;
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}
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std::cout << "passed simple key agreement" << std::endl;
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return true;
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}
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bool AuthenticatedKeyAgreementValidate(AuthenticatedKeyAgreementDomain &d)
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{
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if (d.GetCryptoParameters().Validate(GlobalRNG(), 3))
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std::cout << "passed authenticated key agreement domain parameters validation" << std::endl;
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else
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{
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std::cout << "FAILED authenticated key agreement domain parameters invalid" << std::endl;
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return 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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SecByteBlock val1(d.AgreedValueLength()), val2(d.AgreedValueLength());
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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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memset(val1.begin(), 0x10, val1.size());
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memset(val2.begin(), 0x11, val2.size());
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if (!(d.Agree(val1, spriv1, epriv1, spub2, epub2) && d.Agree(val2, spriv2, epriv2, spub1, epub1)))
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{
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std::cout << "FAILED authenticated key agreement failed" << std::endl;
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return false;
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}
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if (memcmp(val1.begin(), val2.begin(), d.AgreedValueLength()))
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{
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std::cout << "FAILED authenticated agreed values not equal" << std::endl;
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return false;
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}
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std::cout << "passed authenticated key agreement" << std::endl;
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return true;
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}
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bool SignatureValidate(PK_Signer &priv, PK_Verifier &pub, bool thorough)
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{
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bool pass = true, fail;
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fail = !pub.GetMaterial().Validate(GlobalRNG(), thorough ? 3 : 2) || !priv.GetMaterial().Validate(GlobalRNG(), thorough ? 3 : 2);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "signature key validation\n";
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const byte *message = (byte *)"test message";
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const int messageLen = 12;
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SecByteBlock signature(priv.MaxSignatureLength());
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size_t signatureLength = priv.SignMessage(GlobalRNG(), message, messageLen, signature);
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fail = !pub.VerifyMessage(message, messageLen, signature, signatureLength);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "signature and verification\n";
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++signature[0];
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fail = pub.VerifyMessage(message, messageLen, signature, signatureLength);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "checking invalid signature" << std::endl;
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if (priv.MaxRecoverableLength() > 0)
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{
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signatureLength = priv.SignMessageWithRecovery(GlobalRNG(), message, messageLen, NULLPTR, 0, signature);
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SecByteBlock recovered(priv.MaxRecoverableLengthFromSignatureLength(signatureLength));
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DecodingResult result = pub.RecoverMessage(recovered, NULLPTR, 0, signature, signatureLength);
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fail = !(result.isValidCoding && result.messageLength == messageLen && memcmp(recovered, message, messageLen) == 0);
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "signature and verification with recovery" << std::endl;
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++signature[0];
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result = pub.RecoverMessage(recovered, NULLPTR, 0, signature, signatureLength);
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fail = result.isValidCoding;
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pass = pass && !fail;
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std::cout << (fail ? "FAILED " : "passed ");
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std::cout << "recovery with invalid signature" << std::endl;
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}
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return pass;
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}
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bool ValidateBBS()
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{
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std::cout << "\nBlumBlumShub validation suite running...\n\n";
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Integer p("212004934506826557583707108431463840565872545889679278744389317666981496005411448865750399674653351");
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Integer q("100677295735404212434355574418077394581488455772477016953458064183204108039226017738610663984508231");
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Integer seed("63239752671357255800299643604761065219897634268887145610573595874544114193025997412441121667211431");
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BlumBlumShub bbs(p, q, seed);
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bool pass = true, fail;
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int j;
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const byte output1[] = {
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0x49,0xEA,0x2C,0xFD,0xB0,0x10,0x64,0xA0,0xBB,0xB9,
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0x2A,0xF1,0x01,0xDA,0xC1,0x8A,0x94,0xF7,0xB7,0xCE};
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const byte output2[] = {
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0x74,0x45,0x48,0xAE,0xAC,0xB7,0x0E,0xDF,0xAF,0xD7,
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0xD5,0x0E,0x8E,0x29,0x83,0x75,0x6B,0x27,0x46,0xA1};
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byte buf[20];
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std::ostringstream oss;
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bbs.GenerateBlock(buf, 20);
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fail = memcmp(output1, buf, 20) != 0;
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pass = pass && !fail;
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oss << (fail ? "FAILED " : "passed ");
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for (j=0;j<20;j++)
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oss << std::setw(2) << std::setfill('0') << std::hex << (int)buf[j];
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oss << std::endl;
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bbs.Seek(10);
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bbs.GenerateBlock(buf, 10);
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fail = memcmp(output1+10, buf, 10) != 0;
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pass = pass && !fail;
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oss << (fail ? "FAILED " : "passed ");
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for (j=0;j<10;j++)
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oss << std::setw(2) << std::setfill('0') << std::hex << (int)buf[j];
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oss << std::endl;
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bbs.Seek(1234567);
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bbs.GenerateBlock(buf, 20);
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fail = memcmp(output2, buf, 20) != 0;
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pass = pass && !fail;
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oss << (fail ? "FAILED " : "passed ");
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for (j=0;j<20;j++)
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oss << std::setw(2) << std::setfill('0') << std::hex << (int)buf[j];
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oss << std::endl;
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std::cout << oss.str();
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return pass;
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}
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bool ValidateECP()
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{
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// Remove word recommend. Some ECP curves may not be recommended depending
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// on whom you ask. ECP is more descriptive item in this case.
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std::cout << "\nTesting SEC 2, NIST and Brainpool ECP curves...\n\n";
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bool pass = true; OID oid;
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while (!(oid = DL_GroupParameters_EC<ECP>::GetNextRecommendedParametersOID(oid)).GetValues().empty())
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{
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DL_GroupParameters_EC<ECP> params(oid);
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bool fail = !params.Validate(GlobalRNG(), 2);
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std::cout << (fail ? "FAILED" : "passed") << " " << std::dec << params.GetCurve().GetField().MaxElementBitLength() << " bits\n";
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pass = pass && !fail;
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}
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std::cout << "\nECP validation suite running...\n\n";
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return ValidateECP_Agreement() && ValidateECP_Encrypt() && ValidateECP_Sign() && pass;
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}
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bool ValidateEC2N()
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{
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// Remove word recommend. Binary curves may not be recommended depending
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// on whom you ask. EC2N is more descriptive item in this case.
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std::cout << "\nTesting SEC 2 EC2N curves...\n\n";
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bool pass = true; OID oid;
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#if 1 // TODO: turn this back on when I make EC2N faster for pentanomial basis
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while (!(oid = DL_GroupParameters_EC<EC2N>::GetNextRecommendedParametersOID(oid)).GetValues().empty())
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{
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DL_GroupParameters_EC<EC2N> params(oid);
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bool fail = !params.Validate(GlobalRNG(), 2);
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std::cout << (fail ? "FAILED" : "passed") << " " << params.GetCurve().GetField().MaxElementBitLength() << " bits\n";
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pass = pass && !fail;
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}
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#endif
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std::cout << "\nEC2N validation suite running...\n\n";
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return ValidateEC2N_Agreement() && ValidateEC2N_Encrypt() && ValidateEC2N_Sign() && pass;
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}
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bool ValidateRSA()
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{
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std::cout << "\nRSA validation suite running...\n\n";
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return ValidateRSA_Encrypt() && ValidateRSA_Sign();
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}
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bool ValidateLUC()
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{
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std::cout << "\nLUC validation suite running...\n\n";
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return ValidateLUC_Encrypt() && ValidateLUC_Sign();
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}
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bool ValidateLUC_DL()
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{
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// Prologue printed in each function
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return ValidateLUC_DL_Encrypt() && ValidateLUC_DL_Sign();
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}
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bool ValidateRabin()
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{
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std::cout << "\nRabin validation suite running...\n\n";
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return ValidateRabin_Encrypt() && ValidateRabin_Sign();
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}
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NAMESPACE_END // Test
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NAMESPACE_END // CryptoPP
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