cc/hybrid/ecies_aead_hkdf_hybrid_encrypt.cc - third_party/tink - Git at Google

 // Copyright 2017 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/hybrid/ecies_aead_hkdf_hybrid_encrypt.h"

 #include "tink/aead.h"
 #include "tink/hybrid_encrypt.h"
 #include "tink/key_manager.h"
 #include "tink/registry.h"
 #include "tink/hybrid/ecies_aead_hkdf_dem_helper.h"
 #include "tink/subtle/ecies_hkdf_sender_kem_boringssl.h"
 #include "tink/util/enums.h"
 #include "tink/util/statusor.h"
 #include "proto/aes_gcm.pb.h"
 #include "proto/ecies_aead_hkdf.pb.h"
 #include "proto/tink.pb.h"

 using google::crypto::tink::EciesAeadHkdfPublicKey;
 using crypto::tink::util::Status;
 using crypto::tink::util::StatusOr;


 namespace crypto {
 namespace tink {

 // static
 StatusOr<std::unique_ptr<HybridEncrypt>>
 EciesAeadHkdfHybridEncrypt::New(const EciesAeadHkdfPublicKey& recipient_key) {
   Status status = Validate(recipient_key);
   if (!status.ok()) return status;

   auto kem_result = subtle::EciesHkdfSenderKemBoringSsl::New(
       util::Enums::ProtoToSubtle(
           recipient_key.params().kem_params().curve_type()),
       recipient_key.x(), recipient_key.y());
   if (!kem_result.ok()) return kem_result.status();

   auto dem_result = EciesAeadHkdfDemHelper::New(
       recipient_key.params().dem_params().aead_dem());
   if (!dem_result.ok()) return dem_result.status();

   std::unique_ptr<HybridEncrypt> hybrid_encrypt(new EciesAeadHkdfHybridEncrypt(
       recipient_key,
       std::move(kem_result.ValueOrDie()), std::move(dem_result.ValueOrDie())));
   return std::move(hybrid_encrypt);
 }

 StatusOr<std::string> EciesAeadHkdfHybridEncrypt::Encrypt(
     absl::string_view plaintext,
     absl::string_view context_info) const {
   // Use KEM to get a symmetric key.
   auto kem_key_result = sender_kem_->GenerateKey(
       util::Enums::ProtoToSubtle(
           recipient_key_.params().kem_params().hkdf_hash_type()),
       recipient_key_.params().kem_params().hkdf_salt(),
       context_info,
       dem_helper_->dem_key_size_in_bytes(),
       util::Enums::ProtoToSubtle(
           recipient_key_.params().ec_point_format()));
   if (!kem_key_result.ok()) return kem_key_result.status();
   auto kem_key = std::move(kem_key_result.ValueOrDie());

   // Use the symmetric key to get an AEAD-primitive.
   auto aead_result = dem_helper_->GetAead(kem_key->get_symmetric_key());
   if (!aead_result.ok()) return aead_result.status();
   auto aead = std::move(aead_result.ValueOrDie());

   // Do the actual encryption using the AEAD-primitive.
   auto encrypt_result = aead->Encrypt(plaintext, "");  // empty aad
   if (!encrypt_result.ok()) return encrypt_result.status();

   // Prepend AEAD-ciphertext with a KEM component.
   std::string ciphertext = kem_key->get_kem_bytes();
   ciphertext.append(encrypt_result.ValueOrDie());
   return ciphertext;
 }

 // static
 Status EciesAeadHkdfHybridEncrypt::Validate(const EciesAeadHkdfPublicKey& key) {
   if (key.x().empty() || key.y().empty() || !key.has_params()) {
       return Status(util::error::INVALID_ARGUMENT,
           "Invalid EciesAeadHkdfPublicKey: missing required fields.");
   }
   return Status::OK;
 }

 }  // namespace tink
 }  // namespace crypto
	// Copyright 2017 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/hybrid/ecies_aead_hkdf_hybrid_encrypt.h"

	#include "tink/aead.h"
	#include "tink/hybrid_encrypt.h"
	#include "tink/key_manager.h"
	#include "tink/registry.h"
	#include "tink/hybrid/ecies_aead_hkdf_dem_helper.h"
	#include "tink/subtle/ecies_hkdf_sender_kem_boringssl.h"
	#include "tink/util/enums.h"
	#include "tink/util/statusor.h"
	#include "proto/aes_gcm.pb.h"
	#include "proto/ecies_aead_hkdf.pb.h"
	#include "proto/tink.pb.h"

	using google::crypto::tink::EciesAeadHkdfPublicKey;
	using crypto::tink::util::Status;
	using crypto::tink::util::StatusOr;


	namespace crypto {
	namespace tink {

	// static
	StatusOr<std::unique_ptr<HybridEncrypt>>
	EciesAeadHkdfHybridEncrypt::New(const EciesAeadHkdfPublicKey& recipient_key) {
	Status status = Validate(recipient_key);
	if (!status.ok()) return status;

	auto kem_result = subtle::EciesHkdfSenderKemBoringSsl::New(
	util::Enums::ProtoToSubtle(
	recipient_key.params().kem_params().curve_type()),
	recipient_key.x(), recipient_key.y());
	if (!kem_result.ok()) return kem_result.status();

	auto dem_result = EciesAeadHkdfDemHelper::New(
	recipient_key.params().dem_params().aead_dem());
	if (!dem_result.ok()) return dem_result.status();

	std::unique_ptr<HybridEncrypt> hybrid_encrypt(new EciesAeadHkdfHybridEncrypt(
	recipient_key,
	std::move(kem_result.ValueOrDie()), std::move(dem_result.ValueOrDie())));
	return std::move(hybrid_encrypt);
	}

	StatusOr<std::string> EciesAeadHkdfHybridEncrypt::Encrypt(
	absl::string_view plaintext,
	absl::string_view context_info) const {
	// Use KEM to get a symmetric key.
	auto kem_key_result = sender_kem_->GenerateKey(
	util::Enums::ProtoToSubtle(
	recipient_key_.params().kem_params().hkdf_hash_type()),
	recipient_key_.params().kem_params().hkdf_salt(),
	context_info,
	dem_helper_->dem_key_size_in_bytes(),
	util::Enums::ProtoToSubtle(
	recipient_key_.params().ec_point_format()));
	if (!kem_key_result.ok()) return kem_key_result.status();
	auto kem_key = std::move(kem_key_result.ValueOrDie());

	// Use the symmetric key to get an AEAD-primitive.
	auto aead_result = dem_helper_->GetAead(kem_key->get_symmetric_key());
	if (!aead_result.ok()) return aead_result.status();
	auto aead = std::move(aead_result.ValueOrDie());

	// Do the actual encryption using the AEAD-primitive.
	auto encrypt_result = aead->Encrypt(plaintext, ""); // empty aad
	if (!encrypt_result.ok()) return encrypt_result.status();

	// Prepend AEAD-ciphertext with a KEM component.
	std::string ciphertext = kem_key->get_kem_bytes();
	ciphertext.append(encrypt_result.ValueOrDie());
	return ciphertext;
	}

	// static
	Status EciesAeadHkdfHybridEncrypt::Validate(const EciesAeadHkdfPublicKey& key) {
	if (key.x().empty() \|\| key.y().empty() \|\| !key.has_params()) {
	return Status(util::error::INVALID_ARGUMENT,
	"Invalid EciesAeadHkdfPublicKey: missing required fields.");
	}
	return Status::OK;
	}

	} // namespace tink
	} // namespace crypto