cc/signature/rsa_ssa_pkcs1_sign_key_manager.cc - third_party/tink - Git at Google

 // Copyright 2018 Google Inc.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 //
 ///////////////////////////////////////////////////////////////////////////////

 #include "tink/signature/rsa_ssa_pkcs1_sign_key_manager.h"

 #include <string>

 #include "absl/memory/memory.h"
 #include "absl/status/status.h"
 #include "absl/strings/string_view.h"
 #include "tink/internal/bn_util.h"
 #include "tink/internal/rsa_util.h"
 #include "tink/internal/ssl_unique_ptr.h"
 #include "tink/public_key_sign.h"
 #include "tink/public_key_verify.h"
 #include "tink/signature/rsa_ssa_pkcs1_verify_key_manager.h"
 #include "tink/signature/sig_util.h"
 #include "tink/subtle/rsa_ssa_pkcs1_sign_boringssl.h"
 #include "tink/util/enums.h"
 #include "tink/util/errors.h"
 #include "tink/util/protobuf_helper.h"
 #include "tink/util/secret_data.h"
 #include "tink/util/status.h"
 #include "tink/util/statusor.h"
 #include "tink/util/validation.h"
 #include "proto/rsa_ssa_pkcs1.pb.h"

 namespace crypto {
 namespace tink {

 using crypto::tink::util::Enums;
 using crypto::tink::util::Status;
 using crypto::tink::util::StatusOr;
 using google::crypto::tink::RsaSsaPkcs1KeyFormat;
 using google::crypto::tink::RsaSsaPkcs1Params;
 using google::crypto::tink::RsaSsaPkcs1PrivateKey;

 namespace {
 RsaSsaPkcs1PrivateKey RsaPrivateKeySubtleToProto(
     const internal::RsaPrivateKey& private_key) {
   RsaSsaPkcs1PrivateKey key_proto;
   key_proto.set_version(RsaSsaPkcs1SignKeyManager().get_version());
   key_proto.set_d(std::string(util::SecretDataAsStringView(private_key.d)));
   key_proto.set_p(std::string(util::SecretDataAsStringView(private_key.p)));
   key_proto.set_q(std::string(util::SecretDataAsStringView(private_key.q)));
   key_proto.set_dp(std::string(util::SecretDataAsStringView(private_key.dp)));
   key_proto.set_dq(std::string(util::SecretDataAsStringView(private_key.dq)));
   key_proto.set_crt(std::string(util::SecretDataAsStringView(private_key.crt)));
   auto* public_key_proto = key_proto.mutable_public_key();
   public_key_proto->set_version(RsaSsaPkcs1SignKeyManager().get_version());
   public_key_proto->set_n(private_key.n);
   public_key_proto->set_e(private_key.e);
   return key_proto;
 }

 internal::RsaPrivateKey RsaPrivateKeyProtoToSubtle(
     const RsaSsaPkcs1PrivateKey& key_proto) {
   internal::RsaPrivateKey key;
   key.n = key_proto.public_key().n();
   key.e = key_proto.public_key().e();
   key.d = util::SecretDataFromStringView(key_proto.d());
   key.p = util::SecretDataFromStringView(key_proto.p());
   key.q = util::SecretDataFromStringView(key_proto.q());
   key.dp = util::SecretDataFromStringView(key_proto.dp());
   key.dq = util::SecretDataFromStringView(key_proto.dq());
   key.crt = util::SecretDataFromStringView(key_proto.crt());
   return key;
 }

 }  // namespace

 StatusOr<RsaSsaPkcs1PrivateKey> RsaSsaPkcs1SignKeyManager::CreateKey(
     const RsaSsaPkcs1KeyFormat& rsa_ssa_pkcs1_key_format) const {
   StatusOr<internal::SslUniquePtr<BIGNUM>> e =
       internal::StringToBignum(rsa_ssa_pkcs1_key_format.public_exponent());
   if (!e.ok()) {
     return e.status();
   }

   internal::RsaPrivateKey private_key;
   internal::RsaPublicKey public_key;
   util::Status status =
       internal::NewRsaKeyPair(rsa_ssa_pkcs1_key_format.modulus_size_in_bits(),
                               e->get(), &private_key, &public_key);
   if (!status.ok()) {
     return status;
   }

   RsaSsaPkcs1PrivateKey key_proto = RsaPrivateKeySubtleToProto(private_key);
   auto* public_key_proto = key_proto.mutable_public_key();
   *public_key_proto->mutable_params() = rsa_ssa_pkcs1_key_format.params();

   return key_proto;
 }

 StatusOr<std::unique_ptr<PublicKeySign>>
 RsaSsaPkcs1SignKeyManager::PublicKeySignFactory::Create(
     const RsaSsaPkcs1PrivateKey& private_key) const {
   auto key = RsaPrivateKeyProtoToSubtle(private_key);
   internal::RsaSsaPkcs1Params params;
   const RsaSsaPkcs1Params& params_proto = private_key.public_key().params();
   params.hash_type = Enums::ProtoToSubtle(params_proto.hash_type());
   auto signer = subtle::RsaSsaPkcs1SignBoringSsl::New(key, params);
   if (!signer.ok()) return signer.status();
   // To check that the key is correct, we sign a test message with private key
   // and verify with public key.
   auto verifier = RsaSsaPkcs1VerifyKeyManager().GetPrimitive<PublicKeyVerify>(
       private_key.public_key());
   if (!verifier.ok()) return verifier.status();
   auto sign_verify_result =
       SignAndVerify(signer.value().get(), verifier.value().get());
   if (!sign_verify_result.ok()) {
     return util::Status(absl::StatusCode::kInternal,
                         "security bug: signing with private key followed by "
                         "verifying with public key failed");
   }
   return signer;
 }

 Status RsaSsaPkcs1SignKeyManager::ValidateKey(
     const RsaSsaPkcs1PrivateKey& key) const {
   Status status = ValidateVersion(key.version(), get_version());
   if (!status.ok()) return status;
   return RsaSsaPkcs1VerifyKeyManager().ValidateKey(key.public_key());
 }

 Status RsaSsaPkcs1SignKeyManager::ValidateKeyFormat(
     const RsaSsaPkcs1KeyFormat& key_format) const {
   Status modulus_status =
       internal::ValidateRsaModulusSize(key_format.modulus_size_in_bits());
   if (!modulus_status.ok()) {
     return modulus_status;
   }
   Status exponent_status =
       internal::ValidateRsaPublicExponent(key_format.public_exponent());
   if (!exponent_status.ok()) {
     return exponent_status;
   }
   return RsaSsaPkcs1VerifyKeyManager().ValidateParams(key_format.params());
 }

 }  // namespace tink
 }  // namespace crypto
	// Copyright 2018 Google Inc.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	//
	///////////////////////////////////////////////////////////////////////////////

	#include "tink/signature/rsa_ssa_pkcs1_sign_key_manager.h"

	#include <string>

	#include "absl/memory/memory.h"
	#include "absl/status/status.h"
	#include "absl/strings/string_view.h"
	#include "tink/internal/bn_util.h"
	#include "tink/internal/rsa_util.h"
	#include "tink/internal/ssl_unique_ptr.h"
	#include "tink/public_key_sign.h"
	#include "tink/public_key_verify.h"
	#include "tink/signature/rsa_ssa_pkcs1_verify_key_manager.h"
	#include "tink/signature/sig_util.h"
	#include "tink/subtle/rsa_ssa_pkcs1_sign_boringssl.h"
	#include "tink/util/enums.h"
	#include "tink/util/errors.h"
	#include "tink/util/protobuf_helper.h"
	#include "tink/util/secret_data.h"
	#include "tink/util/status.h"
	#include "tink/util/statusor.h"
	#include "tink/util/validation.h"
	#include "proto/rsa_ssa_pkcs1.pb.h"

	namespace crypto {
	namespace tink {

	using crypto::tink::util::Enums;
	using crypto::tink::util::Status;
	using crypto::tink::util::StatusOr;
	using google::crypto::tink::RsaSsaPkcs1KeyFormat;
	using google::crypto::tink::RsaSsaPkcs1Params;
	using google::crypto::tink::RsaSsaPkcs1PrivateKey;

	namespace {
	RsaSsaPkcs1PrivateKey RsaPrivateKeySubtleToProto(
	const internal::RsaPrivateKey& private_key) {
	RsaSsaPkcs1PrivateKey key_proto;
	key_proto.set_version(RsaSsaPkcs1SignKeyManager().get_version());
	key_proto.set_d(std::string(util::SecretDataAsStringView(private_key.d)));
	key_proto.set_p(std::string(util::SecretDataAsStringView(private_key.p)));
	key_proto.set_q(std::string(util::SecretDataAsStringView(private_key.q)));
	key_proto.set_dp(std::string(util::SecretDataAsStringView(private_key.dp)));
	key_proto.set_dq(std::string(util::SecretDataAsStringView(private_key.dq)));
	key_proto.set_crt(std::string(util::SecretDataAsStringView(private_key.crt)));
	auto* public_key_proto = key_proto.mutable_public_key();
	public_key_proto->set_version(RsaSsaPkcs1SignKeyManager().get_version());
	public_key_proto->set_n(private_key.n);
	public_key_proto->set_e(private_key.e);
	return key_proto;
	}

	internal::RsaPrivateKey RsaPrivateKeyProtoToSubtle(
	const RsaSsaPkcs1PrivateKey& key_proto) {
	internal::RsaPrivateKey key;
	key.n = key_proto.public_key().n();
	key.e = key_proto.public_key().e();
	key.d = util::SecretDataFromStringView(key_proto.d());
	key.p = util::SecretDataFromStringView(key_proto.p());
	key.q = util::SecretDataFromStringView(key_proto.q());
	key.dp = util::SecretDataFromStringView(key_proto.dp());
	key.dq = util::SecretDataFromStringView(key_proto.dq());
	key.crt = util::SecretDataFromStringView(key_proto.crt());
	return key;
	}

	} // namespace

	StatusOr<RsaSsaPkcs1PrivateKey> RsaSsaPkcs1SignKeyManager::CreateKey(
	const RsaSsaPkcs1KeyFormat& rsa_ssa_pkcs1_key_format) const {
	StatusOr<internal::SslUniquePtr<BIGNUM>> e =
	internal::StringToBignum(rsa_ssa_pkcs1_key_format.public_exponent());
	if (!e.ok()) {
	return e.status();
	}

	internal::RsaPrivateKey private_key;
	internal::RsaPublicKey public_key;
	util::Status status =
	internal::NewRsaKeyPair(rsa_ssa_pkcs1_key_format.modulus_size_in_bits(),
	e->get(), &private_key, &public_key);
	if (!status.ok()) {
	return status;
	}

	RsaSsaPkcs1PrivateKey key_proto = RsaPrivateKeySubtleToProto(private_key);
	auto* public_key_proto = key_proto.mutable_public_key();
	*public_key_proto->mutable_params() = rsa_ssa_pkcs1_key_format.params();

	return key_proto;
	}

	StatusOr<std::unique_ptr<PublicKeySign>>
	RsaSsaPkcs1SignKeyManager::PublicKeySignFactory::Create(
	const RsaSsaPkcs1PrivateKey& private_key) const {
	auto key = RsaPrivateKeyProtoToSubtle(private_key);
	internal::RsaSsaPkcs1Params params;
	const RsaSsaPkcs1Params& params_proto = private_key.public_key().params();
	params.hash_type = Enums::ProtoToSubtle(params_proto.hash_type());
	auto signer = subtle::RsaSsaPkcs1SignBoringSsl::New(key, params);
	if (!signer.ok()) return signer.status();
	// To check that the key is correct, we sign a test message with private key
	// and verify with public key.
	auto verifier = RsaSsaPkcs1VerifyKeyManager().GetPrimitive<PublicKeyVerify>(
	private_key.public_key());
	if (!verifier.ok()) return verifier.status();
	auto sign_verify_result =
	SignAndVerify(signer.value().get(), verifier.value().get());
	if (!sign_verify_result.ok()) {
	return util::Status(absl::StatusCode::kInternal,
	"security bug: signing with private key followed by "
	"verifying with public key failed");
	}
	return signer;
	}

	Status RsaSsaPkcs1SignKeyManager::ValidateKey(
	const RsaSsaPkcs1PrivateKey& key) const {
	Status status = ValidateVersion(key.version(), get_version());
	if (!status.ok()) return status;
	return RsaSsaPkcs1VerifyKeyManager().ValidateKey(key.public_key());
	}

	Status RsaSsaPkcs1SignKeyManager::ValidateKeyFormat(
	const RsaSsaPkcs1KeyFormat& key_format) const {
	Status modulus_status =
	internal::ValidateRsaModulusSize(key_format.modulus_size_in_bits());
	if (!modulus_status.ok()) {
	return modulus_status;
	}
	Status exponent_status =
	internal::ValidateRsaPublicExponent(key_format.public_exponent());
	if (!exponent_status.ok()) {
	return exponent_status;
	}
	return RsaSsaPkcs1VerifyKeyManager().ValidateParams(key_format.params());
	}

	} // namespace tink
	} // namespace crypto