コード例 #1
0
ファイル: BotanRSA.cpp プロジェクト: bluelikeme/SoftHSMv2
// Decryption functions
bool BotanRSA::decrypt(PrivateKey* privateKey, const ByteString& encryptedData,
		       ByteString& data, const AsymMech::Type padding)
{
	// Check if the private key is the right type
	if (!privateKey->isOfType(BotanRSAPrivateKey::type))
	{
		ERROR_MSG("Invalid key type supplied");

		return false;
	}

	std::string eme;

	switch (padding)
	{
		case AsymMech::RSA_PKCS:
			eme = "PKCS1v15";
			break;
		case AsymMech::RSA_PKCS_OAEP:
			eme = "EME1(SHA-160)";
			break;
		case AsymMech::RSA:
			eme = "Raw";
			break;
		default:
			ERROR_MSG("Invalid padding mechanism supplied (%i)", padding);

			return false;
	}

	BotanRSAPrivateKey* pk = (BotanRSAPrivateKey*) privateKey;
	Botan::RSA_PrivateKey* botanKey = pk->getBotanKey();

	if (!botanKey)
	{
		ERROR_MSG("Could not get the Botan private key");

		return false;
	}

	Botan::PK_Decryptor_EME* decryptor = NULL;
	try
	{
		decryptor = new Botan::PK_Decryptor_EME(*botanKey, eme);
	}
	catch (...)
	{
		ERROR_MSG("Could not create the decryptor token");

		return false;
	}

	// Perform the decryption operation
#if BOTAN_VERSION_MINOR == 11
	Botan::secure_vector<Botan::byte> decResult;
#else
	Botan::SecureVector<Botan::byte> decResult;
#endif
	try
	{
		decResult = decryptor->decrypt(encryptedData.const_byte_str(), encryptedData.size());
	}
	catch (...)
	{
		ERROR_MSG("Could not decrypt the data");

		delete decryptor;

		return false;
	}

	// Return the result
	if (padding == AsymMech::RSA)
	{
		// We compensate that Botan removes leading zeros
		int modSize = pk->getN().size();
		int decSize = decResult.size();
		data.resize(modSize);
#if BOTAN_VERSION_MINOR == 11
		memcpy(&data[0] + modSize - decSize, decResult.data(), decSize);
#else
		memcpy(&data[0] + modSize - decSize, decResult.begin(), decSize);
#endif
	}
	else
	{
		data.resize(decResult.size());
#if BOTAN_VERSION_MINOR == 11
		memcpy(&data[0], decResult.data(), decResult.size());
#else
		memcpy(&data[0], decResult.begin(), decResult.size());
#endif
	}

	delete decryptor;

	return true;
}
コード例 #2
0
ファイル: BotanRSA.cpp プロジェクト: bluelikeme/SoftHSMv2
// Signing functions
bool BotanRSA::sign(PrivateKey* privateKey, const ByteString& dataToSign,
		    ByteString& signature, const AsymMech::Type mechanism,
		    const void* param /* = NULL */, const size_t paramLen /* = 0 */)
{
	std::string emsa = "";

	switch (mechanism)
	{
		case AsymMech::RSA:
			emsa = "Raw";
			break;
		case AsymMech::RSA_PKCS:
			emsa = "EMSA3(Raw)";
			break;
		default:
			// Call default implementation
			return AsymmetricAlgorithm::sign(privateKey, dataToSign, signature, mechanism, param, paramLen);
	}

	// Check if the private key is the right type
	if (!privateKey->isOfType(BotanRSAPrivateKey::type))
	{
		ERROR_MSG("Invalid key type supplied");

		return false;
	}

	BotanRSAPrivateKey* pk = (BotanRSAPrivateKey*) privateKey;
	Botan::RSA_PrivateKey* botanKey = pk->getBotanKey();

	if (!botanKey)
	{
		ERROR_MSG("Could not get the Botan private key");

		return false;
	}

	try
	{
		signer = new Botan::PK_Signer(*botanKey, emsa);
		// Should we add DISABLE_FAULT_PROTECTION? Makes this operation faster.
	}
	catch (...)
	{
		ERROR_MSG("Could not create the signer token");

		return false;
	}

	// Perform the signature operation
#if BOTAN_VERSION_MINOR == 11
	std::vector<Botan::byte> signResult;
#else
	Botan::SecureVector<Botan::byte> signResult;
#endif
	try
	{
		BotanRNG* rng = (BotanRNG*)BotanCryptoFactory::i()->getRNG();
		signResult = signer->sign_message(dataToSign.const_byte_str(), dataToSign.size(), *rng->getRNG());
	}
	catch (std::exception& e)
	{
		ERROR_MSG("Could not sign the data: %s", e.what());

		delete signer;
		signer = NULL;

		return false;
	}

	// Return the result
	signature.resize(signResult.size());
#if BOTAN_VERSION_MINOR == 11
	memcpy(&signature[0], signResult.data(), signResult.size());
#else
	memcpy(&signature[0], signResult.begin(), signResult.size());
#endif

	delete signer;
	signer = NULL;

	return true;
}
コード例 #3
0
ファイル: BotanRSA.cpp プロジェクト: bluelikeme/SoftHSMv2
bool BotanRSA::signInit(PrivateKey* privateKey, const AsymMech::Type mechanism,
			const void* param /* = NULL */, const size_t paramLen /* = 0 */)
{
	if (!AsymmetricAlgorithm::signInit(privateKey, mechanism, param, paramLen))
	{
		return false;
	}

	// Check if the private key is the right type
	if (!privateKey->isOfType(BotanRSAPrivateKey::type))
	{
		ERROR_MSG("Invalid key type supplied");

		ByteString dummy;
		AsymmetricAlgorithm::signFinal(dummy);

		return false;
	}

	std::string emsa;
	std::ostringstream request;
	size_t sLen;

	switch (mechanism)
	{
		case AsymMech::RSA_MD5_PKCS:
			emsa = "EMSA3(MD5)";
			break;
		case AsymMech::RSA_SHA1_PKCS:
			emsa = "EMSA3(SHA-160)";
			break;
		case AsymMech::RSA_SHA224_PKCS:
			emsa = "EMSA3(SHA-224)";
			break;
		case AsymMech::RSA_SHA256_PKCS:
			emsa = "EMSA3(SHA-256)";
			break;
		case AsymMech::RSA_SHA384_PKCS:
			emsa = "EMSA3(SHA-384)";
			break;
		case AsymMech::RSA_SHA512_PKCS:
			emsa = "EMSA3(SHA-512)";
			break;
		case AsymMech::RSA_SHA1_PKCS_PSS:
			if (param == NULL || paramLen != sizeof(RSA_PKCS_PSS_PARAMS) ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->hashAlg != HashAlgo::SHA1 ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->mgf != AsymRSAMGF::MGF1_SHA1)
			{
				ERROR_MSG("Invalid parameters");
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			sLen = ((RSA_PKCS_PSS_PARAMS*) param)->sLen;
			if (sLen > ((privateKey->getBitLength()+6)/8-2-20))
			{
				ERROR_MSG("sLen (%lu) is too large for current key size (%lu)",
					  (unsigned long)sLen, privateKey->getBitLength());
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			request << "EMSA4(SHA-160,MGF1," << sLen << ")";
			emsa = request.str();
			break;
		case AsymMech::RSA_SHA224_PKCS_PSS:
			if (param == NULL || paramLen != sizeof(RSA_PKCS_PSS_PARAMS) ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->hashAlg != HashAlgo::SHA224 ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->mgf != AsymRSAMGF::MGF1_SHA224)
			{
				ERROR_MSG("Invalid parameters");
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			sLen = ((RSA_PKCS_PSS_PARAMS*) param)->sLen;
			if (sLen > ((privateKey->getBitLength()+6)/8-2-28))
			{
				ERROR_MSG("sLen (%lu) is too large for current key size (%lu)",
					  (unsigned long)sLen, privateKey->getBitLength());
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			request << "EMSA4(SHA-224,MGF1," << sLen << ")";
			emsa = request.str();
			break;
		case AsymMech::RSA_SHA256_PKCS_PSS:
			if (param == NULL || paramLen != sizeof(RSA_PKCS_PSS_PARAMS) ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->hashAlg != HashAlgo::SHA256 ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->mgf != AsymRSAMGF::MGF1_SHA256)
			{
				ERROR_MSG("Invalid parameters");
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			sLen = ((RSA_PKCS_PSS_PARAMS*) param)->sLen;
			if (sLen > ((privateKey->getBitLength()+6)/8-2-32))
			{
				ERROR_MSG("sLen (%lu) is too large for current key size (%lu)",
					  (unsigned long)sLen, privateKey->getBitLength());
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			request << "EMSA4(SHA-256,MGF1," << sLen << ")";
			emsa = request.str();
			break;
		case AsymMech::RSA_SHA384_PKCS_PSS:
			if (param == NULL || paramLen != sizeof(RSA_PKCS_PSS_PARAMS) ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->hashAlg != HashAlgo::SHA384 ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->mgf != AsymRSAMGF::MGF1_SHA384)
			{
				ERROR_MSG("Invalid parameters");
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			sLen = ((RSA_PKCS_PSS_PARAMS*) param)->sLen;
			if (sLen > ((privateKey->getBitLength()+6)/8-2-48))
			{
				ERROR_MSG("sLen (%lu) is too large for current key size (%lu)",
					  (unsigned long)sLen, privateKey->getBitLength());
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			request << "EMSA4(SHA-384,MGF1," << sLen << ")";
			emsa = request.str();
			break;
		case AsymMech::RSA_SHA512_PKCS_PSS:
			if (param == NULL || paramLen != sizeof(RSA_PKCS_PSS_PARAMS) ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->hashAlg != HashAlgo::SHA512 ||
			    ((RSA_PKCS_PSS_PARAMS*) param)->mgf != AsymRSAMGF::MGF1_SHA512)
			{
				ERROR_MSG("Invalid parameters");
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			sLen = ((RSA_PKCS_PSS_PARAMS*) param)->sLen;
			if (sLen > ((privateKey->getBitLength()+6)/8-2-64))
			{
				ERROR_MSG("sLen (%lu) is too large for current key size (%lu)",
					  (unsigned long)sLen, privateKey->getBitLength());
				ByteString dummy;
				AsymmetricAlgorithm::signFinal(dummy);
				return false;
			}
			request << "EMSA4(SHA-512,MGF1," << sLen << ")";
			emsa = request.str();
			break;
		case AsymMech::RSA_SSL:
			emsa = "EMSA3(Parallel(MD5,SHA-160))";
			break;
		default:
			ERROR_MSG("Invalid mechanism supplied (%i)", mechanism);

			ByteString dummy;
			AsymmetricAlgorithm::signFinal(dummy);

			return false;
	}

	BotanRSAPrivateKey* pk = (BotanRSAPrivateKey*) currentPrivateKey;
	Botan::RSA_PrivateKey* botanKey = pk->getBotanKey();

	if (!botanKey)
	{
		ERROR_MSG("Could not get the Botan private key");

		ByteString dummy;
		AsymmetricAlgorithm::signFinal(dummy);

		return false;
	}

	try
	{
		signer = new Botan::PK_Signer(*botanKey, emsa);
		// Should we add DISABLE_FAULT_PROTECTION? Makes this operation faster.
	}
	catch (...)
	{
		ERROR_MSG("Could not create the signer token");

		ByteString dummy;
		AsymmetricAlgorithm::signFinal(dummy);

		return false;
	}

	return true;
}
コード例 #4
0
ファイル: BotanRSA.cpp プロジェクト: rene-post/SoftHSMv2
// Decryption functions
bool BotanRSA::decrypt(PrivateKey* privateKey, const ByteString& encryptedData, ByteString& data, const std::string padding)
{
	// Check if the private key is the right type
	if (!privateKey->isOfType(BotanRSAPrivateKey::type))
	{
		ERROR_MSG("Invalid key type supplied");

		return false;
	}

	std::string lowerPadding;
	lowerPadding.resize(padding.size());
	std::transform(padding.begin(), padding.end(), lowerPadding.begin(), tolower);
	std::string eme;

	if (!lowerPadding.compare("rsa-pkcs"))
	{
		eme = "PKCS1v15";
	}
	else if (!lowerPadding.compare("rsa-pkcs-oaep"))
	{
		eme = "EME1(SHA-160)";
	}
	else if (!lowerPadding.compare("rsa-raw"))
	{
		eme = "Raw";
	}
	else
	{
		ERROR_MSG("Invalid padding mechanism supplied (%s)", padding.c_str());

		return false;
	}

	BotanRSAPrivateKey* pk = (BotanRSAPrivateKey*) privateKey;
	Botan::RSA_PrivateKey* botanKey = pk->getBotanKey();

	if (!botanKey)
	{
		ERROR_MSG("Could not get the Botan private key");

		return false;
	}

	Botan::PK_Decryptor_EME* decryptor = NULL;
	try
	{
		decryptor = new Botan::PK_Decryptor_EME(*botanKey, eme);
	}
	catch (...)
	{
		ERROR_MSG("Could not create the decryptor token");

		return false;
	}

	// Perform the decryption operation
	Botan::SecureVector<Botan::byte> decResult;
	try
	{
		decResult = decryptor->decrypt(encryptedData.const_byte_str(), encryptedData.size());
	}
	catch (...)
	{
		ERROR_MSG("Could not decrypt the data");

		delete decryptor;

		return false;
	}

	// Return the result
	if (!eme.compare("Raw"))
	{
		// We compensate that Botan removes leading zeros
		int modSize = pk->getN().size();
		int decSize = decResult.size();
		data.resize(modSize);
		memcpy(&data[0] + modSize - decSize, decResult.begin(), decSize);
	}
	else
	{
		data.resize(decResult.size());
		memcpy(&data[0], decResult.begin(), decResult.size());
	}

	delete decryptor;

	return true;
}
コード例 #5
0
ファイル: BotanRSA.cpp プロジェクト: rene-post/SoftHSMv2
// Signing functions
bool BotanRSA::sign(PrivateKey* privateKey, const ByteString& dataToSign, ByteString& signature, const 
std::string mechanism)
{
	std::string lowerMechanism;
	lowerMechanism.resize(mechanism.size());
	std::transform(mechanism.begin(), mechanism.end(), lowerMechanism.begin(), tolower);
	std::string emsa = "";

	if (!lowerMechanism.compare("rsa-pkcs"))
	{
		emsa = "EMSA3(Raw)";
	}
	else if (!lowerMechanism.compare("rsa-raw"))
	{
		emsa = "Raw";
	}
	else
	{
		// Call default implementation
		return AsymmetricAlgorithm::sign(privateKey, dataToSign, signature, mechanism);
	}

	// Check if the private key is the right type
	if (!privateKey->isOfType(BotanRSAPrivateKey::type))
	{
		ERROR_MSG("Invalid key type supplied");

		return false;
	}

	BotanRSAPrivateKey* pk = (BotanRSAPrivateKey*) privateKey;
	Botan::RSA_PrivateKey* botanKey = pk->getBotanKey();

	if (!botanKey)
	{
		ERROR_MSG("Could not get the Botan private key");

		return false;
	}

	try
	{
		signer = new Botan::PK_Signer(*botanKey, emsa);
		// Should we add DISABLE_FAULT_PROTECTION? Makes this operation faster.
	}
	catch (...)
	{
		ERROR_MSG("Could not create the signer token");

		return false;
	}

	// Perform the signature operation
	Botan::SecureVector<Botan::byte> signResult;
	try
	{
		BotanRNG* rng = (BotanRNG*)BotanCryptoFactory::i()->getRNG();
		signResult = signer->sign_message(dataToSign.const_byte_str(), dataToSign.size(), *rng->getRNG());
	}
	catch (...)
	{
		ERROR_MSG("Could not sign the data");

		delete signer;
		signer = NULL;

		return false;
	}

	// Return the result
	signature.resize(signResult.size());
	memcpy(&signature[0], signResult.begin(), signResult.size());

	delete signer;
	signer = NULL;

	return true;
}
コード例 #6
0
ファイル: BotanRSA.cpp プロジェクト: rene-post/SoftHSMv2
bool BotanRSA::signInit(PrivateKey* privateKey, const std::string mechanism)
{
	if (!AsymmetricAlgorithm::signInit(privateKey, mechanism))
	{
		return false;
	}

	// Check if the private key is the right type
	if (!privateKey->isOfType(BotanRSAPrivateKey::type))
	{
		ERROR_MSG("Invalid key type supplied");

		ByteString dummy;
		AsymmetricAlgorithm::signFinal(dummy);

		return false;
	}

	std::string lowerMechanism;
	lowerMechanism.resize(mechanism.size());
	std::transform(mechanism.begin(), mechanism.end(), lowerMechanism.begin(), tolower);
	std::string emsa;

	if (!lowerMechanism.compare("rsa-md5-pkcs"))
	{
		emsa = "EMSA3(MD5)";
	}
	else if (!lowerMechanism.compare("rsa-sha1-pkcs"))
	{
		emsa = "EMSA3(SHA-160)";
	}
	else if (!lowerMechanism.compare("rsa-sha224-pkcs"))
	{
		emsa = "EMSA3(SHA-224)";
	}
	else if (!lowerMechanism.compare("rsa-sha256-pkcs"))
	{
		emsa = "EMSA3(SHA-256)";
	}
	else if (!lowerMechanism.compare("rsa-sha384-pkcs"))
	{
		emsa = "EMSA3(SHA-384)";
	}
	else if (!lowerMechanism.compare("rsa-sha512-pkcs"))
	{
		emsa = "EMSA3(SHA-512)";
	}
	else if (!lowerMechanism.compare("rsa-ssl"))
	{
		emsa = "EMSA3(Parallel(MD5,SHA-160))";
	}
	else
	{
		ERROR_MSG("Invalid mechanism supplied (%s)", mechanism.c_str());

		ByteString dummy;
		AsymmetricAlgorithm::signFinal(dummy);

		return false;
	}

	BotanRSAPrivateKey* pk = (BotanRSAPrivateKey*) currentPrivateKey;
	Botan::RSA_PrivateKey* botanKey = pk->getBotanKey();

	if (!botanKey)
	{
		ERROR_MSG("Could not get the Botan private key");

		ByteString dummy;
		AsymmetricAlgorithm::signFinal(dummy);

		return false;
	}

	try
	{
		signer = new Botan::PK_Signer(*botanKey, emsa);
		// Should we add DISABLE_FAULT_PROTECTION? Makes this operation faster.
	}
	catch (...)
	{
		ERROR_MSG("Could not create the signer token");

		ByteString dummy;
		AsymmetricAlgorithm::signFinal(dummy);

		return false;
	}

	return true;
}