cc/signature/public_key_verify_wrapper.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/signature/public_key_verify_wrapper.h"

 #include "tink/crypto_format.h"
 #include "tink/primitive_set.h"
 #include "tink/public_key_verify.h"
 #include "tink/subtle/subtle_util_boringssl.h"
 #include "tink/util/status.h"
 #include "tink/util/statusor.h"
 #include "proto/tink.pb.h"

 namespace crypto {
 namespace tink {

 using google::crypto::tink::OutputPrefixType;

 namespace {

 util::Status Validate(PrimitiveSet<PublicKeyVerify>* public_key_verify_set) {
   if (public_key_verify_set == nullptr) {
     return util::Status(util::error::INTERNAL,
                         "public_key_verify_set must be non-NULL");
   }
   if (public_key_verify_set->get_primary() == nullptr) {
     return util::Status(util::error::INVALID_ARGUMENT,
                         "public_key_verify_set has no primary");
   }
   return util::Status::OK;
 }

 class PublicKeyVerifySetWrapper : public PublicKeyVerify {
  public:
   explicit PublicKeyVerifySetWrapper(
       std::unique_ptr<PrimitiveSet<PublicKeyVerify>> public_key_verify_set)
       : public_key_verify_set_(std::move(public_key_verify_set)) {}

   crypto::tink::util::Status Verify(absl::string_view signature,
                                     absl::string_view data) const override;

   ~PublicKeyVerifySetWrapper() override {}

  private:
   std::unique_ptr<PrimitiveSet<PublicKeyVerify>> public_key_verify_set_;
 };

 util::Status PublicKeyVerifySetWrapper::Verify(
     absl::string_view signature,
     absl::string_view data) const {
   // BoringSSL expects a non-null pointer for data,
   // regardless of whether the size is 0.
   data = subtle::SubtleUtilBoringSSL::EnsureNonNull(data);
   signature = subtle::SubtleUtilBoringSSL::EnsureNonNull(signature);

   if (signature.length() <= CryptoFormat::kNonRawPrefixSize) {
     // This also rejects raw signatures with size of 4 bytes or fewer.
     // We're not aware of any schemes that output signatures that small.
     return util::Status(util::error::INVALID_ARGUMENT, "Signature too short.");
   }
   const std::string& key_id = std::string(
       signature.substr(0, CryptoFormat::kNonRawPrefixSize));
   auto primitives_result = public_key_verify_set_->get_primitives(key_id);
   if (primitives_result.ok()) {
     absl::string_view raw_signature =
         signature.substr(CryptoFormat::kNonRawPrefixSize);
     std::string local_data;
     for (auto& entry : *(primitives_result.ValueOrDie())) {
       if (entry->get_output_prefix_type() == OutputPrefixType::LEGACY) {
         local_data = std::string(data);
         local_data.append(1, CryptoFormat::kLegacyStartByte);
         data = local_data;
       }
       auto& public_key_verify = entry->get_primitive();
       auto verify_result =
           public_key_verify.Verify(raw_signature, data);
       if (verify_result.ok()) {
         return util::Status::OK;
       } else {
         // LOG that a matching key didn't verify the signature.
       }
     }
   }

   // No matching key succeeded with verification, try all RAW keys.
   auto raw_primitives_result = public_key_verify_set_->get_raw_primitives();
   if (raw_primitives_result.ok()) {
     for (auto& public_key_verify_entry :
              *(raw_primitives_result.ValueOrDie())) {
       auto& public_key_verify = public_key_verify_entry->get_primitive();
       auto verify_result = public_key_verify.Verify(signature, data);
       if (verify_result.ok()) {
         return util::Status::OK;
       }
     }
   }
   return util::Status(util::error::INVALID_ARGUMENT, "Invalid signature.");
 }

 }  // anonymous namespace

 util::StatusOr<std::unique_ptr<PublicKeyVerify>> PublicKeyVerifyWrapper::Wrap(
     std::unique_ptr<PrimitiveSet<PublicKeyVerify>> public_key_verify_set)
     const {
   util::Status status = Validate(public_key_verify_set.get());
   if (!status.ok()) return status;
   std::unique_ptr<PublicKeyVerify> public_key_verify(
       new PublicKeyVerifySetWrapper(std::move(public_key_verify_set)));
   return std::move(public_key_verify);
 }

 }  // 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/signature/public_key_verify_wrapper.h"

	#include "tink/crypto_format.h"
	#include "tink/primitive_set.h"
	#include "tink/public_key_verify.h"
	#include "tink/subtle/subtle_util_boringssl.h"
	#include "tink/util/status.h"
	#include "tink/util/statusor.h"
	#include "proto/tink.pb.h"

	namespace crypto {
	namespace tink {

	using google::crypto::tink::OutputPrefixType;

	namespace {

	util::Status Validate(PrimitiveSet<PublicKeyVerify>* public_key_verify_set) {
	if (public_key_verify_set == nullptr) {
	return util::Status(util::error::INTERNAL,
	"public_key_verify_set must be non-NULL");
	}
	if (public_key_verify_set->get_primary() == nullptr) {
	return util::Status(util::error::INVALID_ARGUMENT,
	"public_key_verify_set has no primary");
	}
	return util::Status::OK;
	}

	class PublicKeyVerifySetWrapper : public PublicKeyVerify {
	public:
	explicit PublicKeyVerifySetWrapper(
	std::unique_ptr<PrimitiveSet<PublicKeyVerify>> public_key_verify_set)
	: public_key_verify_set_(std::move(public_key_verify_set)) {}

	crypto::tink::util::Status Verify(absl::string_view signature,
	absl::string_view data) const override;

	~PublicKeyVerifySetWrapper() override {}

	private:
	std::unique_ptr<PrimitiveSet<PublicKeyVerify>> public_key_verify_set_;
	};

	util::Status PublicKeyVerifySetWrapper::Verify(
	absl::string_view signature,
	absl::string_view data) const {
	// BoringSSL expects a non-null pointer for data,
	// regardless of whether the size is 0.
	data = subtle::SubtleUtilBoringSSL::EnsureNonNull(data);
	signature = subtle::SubtleUtilBoringSSL::EnsureNonNull(signature);

	if (signature.length() <= CryptoFormat::kNonRawPrefixSize) {
	// This also rejects raw signatures with size of 4 bytes or fewer.
	// We're not aware of any schemes that output signatures that small.
	return util::Status(util::error::INVALID_ARGUMENT, "Signature too short.");
	}
	const std::string& key_id = std::string(
	signature.substr(0, CryptoFormat::kNonRawPrefixSize));
	auto primitives_result = public_key_verify_set_->get_primitives(key_id);
	if (primitives_result.ok()) {
	absl::string_view raw_signature =
	signature.substr(CryptoFormat::kNonRawPrefixSize);
	std::string local_data;
	for (auto& entry : *(primitives_result.ValueOrDie())) {
	if (entry->get_output_prefix_type() == OutputPrefixType::LEGACY) {
	local_data = std::string(data);
	local_data.append(1, CryptoFormat::kLegacyStartByte);
	data = local_data;
	}
	auto& public_key_verify = entry->get_primitive();
	auto verify_result =
	public_key_verify.Verify(raw_signature, data);
	if (verify_result.ok()) {
	return util::Status::OK;
	} else {
	// LOG that a matching key didn't verify the signature.
	}
	}
	}

	// No matching key succeeded with verification, try all RAW keys.
	auto raw_primitives_result = public_key_verify_set_->get_raw_primitives();
	if (raw_primitives_result.ok()) {
	for (auto& public_key_verify_entry :
	*(raw_primitives_result.ValueOrDie())) {
	auto& public_key_verify = public_key_verify_entry->get_primitive();
	auto verify_result = public_key_verify.Verify(signature, data);
	if (verify_result.ok()) {
	return util::Status::OK;
	}
	}
	}
	return util::Status(util::error::INVALID_ARGUMENT, "Invalid signature.");
	}

	} // anonymous namespace

	util::StatusOr<std::unique_ptr<PublicKeyVerify>> PublicKeyVerifyWrapper::Wrap(
	std::unique_ptr<PrimitiveSet<PublicKeyVerify>> public_key_verify_set)
	const {
	util::Status status = Validate(public_key_verify_set.get());
	if (!status.ok()) return status;
	std::unique_ptr<PublicKeyVerify> public_key_verify(
	new PublicKeyVerifySetWrapper(std::move(public_key_verify_set)));
	return std::move(public_key_verify);
	}

	} // namespace tink
	} // namespace crypto