cc/signature/ed25519_public_key_test.cc - platform/external/tink - Git at Google

 // Copyright 2023 Google LLC
 //
 // 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/ed25519_public_key.h"

 #include <string>

 #include "gmock/gmock.h"
 #include "gtest/gtest.h"
 #include "tink/partial_key_access.h"
 #include "tink/subtle/random.h"
 #include "tink/util/statusor.h"
 #include "tink/util/test_matchers.h"

 namespace crypto {
 namespace tink {
 namespace {

 using ::crypto::tink::test::IsOk;
 using ::crypto::tink::test::StatusIs;
 using ::testing::Eq;
 using ::testing::TestWithParam;
 using ::testing::Values;

 struct TestCase {
   Ed25519Parameters::Variant variant;
   absl::optional<int> id_requirement;
   std::string output_prefix;
 };

 using Ed25519PublicKeyTest = TestWithParam<TestCase>;

 INSTANTIATE_TEST_SUITE_P(
     Ed25519PublicKeyTestSuite, Ed25519PublicKeyTest,
     Values(TestCase{Ed25519Parameters::Variant::kTink, 0x02030400,
                     std::string("\x01\x02\x03\x04\x00", 5)},
            TestCase{Ed25519Parameters::Variant::kCrunchy, 0x01030005,
                     std::string("\x00\x01\x03\x00\x05", 5)},
            TestCase{Ed25519Parameters::Variant::kLegacy, 0x07080910,
                     std::string("\x00\x07\x08\x09\x10", 5)},
            TestCase{Ed25519Parameters::Variant::kNoPrefix, absl::nullopt, ""}));

 TEST_P(Ed25519PublicKeyTest, CreateSucceeds) {
   TestCase test_case = GetParam();

   util::StatusOr<Ed25519Parameters> params =
       Ed25519Parameters::Create(test_case.variant);
   ASSERT_THAT(params, IsOk());

   std::string public_key_bytes = subtle::Random::GetRandomBytes(32);
   util::StatusOr<Ed25519PublicKey> public_key =
       Ed25519PublicKey::Create(*params, public_key_bytes,
                                test_case.id_requirement, GetPartialKeyAccess());
   ASSERT_THAT(public_key, IsOk());

   EXPECT_THAT(public_key->GetParameters(), Eq(*params));
   EXPECT_THAT(public_key->GetIdRequirement(), Eq(test_case.id_requirement));
   EXPECT_THAT(public_key->GetOutputPrefix(), Eq(test_case.output_prefix));
   EXPECT_THAT(public_key->GetPublicKeyBytes(GetPartialKeyAccess()),
               Eq(public_key_bytes));
 }

 TEST(Ed25519PublicKeyTest, CreateWithInvalidPublicKeyLength) {
   util::StatusOr<Ed25519Parameters> params =
       Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
   ASSERT_THAT(params, IsOk());

   std::string public_key_bytes = subtle::Random::GetRandomBytes(31);

   EXPECT_THAT(
       Ed25519PublicKey::Create(*params, public_key_bytes,
                                /*id_requirement=*/123, GetPartialKeyAccess())
           .status(),
       StatusIs(absl::StatusCode::kInvalidArgument));
 }

 TEST(Ed25519PublicKeyTest, CreateKeyWithInvalidIdRequirementFails) {
   util::StatusOr<Ed25519Parameters> no_prefix_params =
       Ed25519Parameters::Create(Ed25519Parameters::Variant::kNoPrefix);
   ASSERT_THAT(no_prefix_params, IsOk());

   util::StatusOr<Ed25519Parameters> tink_params =
       Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
   ASSERT_THAT(tink_params, IsOk());

   std::string public_key_bytes = subtle::Random::GetRandomBytes(32);

   EXPECT_THAT(
       Ed25519PublicKey::Create(*no_prefix_params, public_key_bytes,
                                /*id_requirement=*/123, GetPartialKeyAccess())
           .status(),
       StatusIs(absl::StatusCode::kInvalidArgument));

   EXPECT_THAT(Ed25519PublicKey::Create(*tink_params, public_key_bytes,
                                        /*id_requirement=*/absl::nullopt,
                                        GetPartialKeyAccess())
                   .status(),
               StatusIs(absl::StatusCode::kInvalidArgument));
 }

 TEST_P(Ed25519PublicKeyTest, KeyEquals) {
   TestCase test_case = GetParam();

   util::StatusOr<Ed25519Parameters> params =
       Ed25519Parameters::Create(test_case.variant);
   ASSERT_THAT(params, IsOk());

   std::string public_key_bytes = subtle::Random::GetRandomBytes(32);

   util::StatusOr<Ed25519PublicKey> public_key =
       Ed25519PublicKey::Create(*params, public_key_bytes,
                                test_case.id_requirement, GetPartialKeyAccess());
   ASSERT_THAT(public_key, IsOk());

   util::StatusOr<Ed25519PublicKey> other_public_key =
       Ed25519PublicKey::Create(*params, public_key_bytes,
                                test_case.id_requirement, GetPartialKeyAccess());
   ASSERT_THAT(other_public_key, IsOk());

   EXPECT_TRUE(*public_key == *other_public_key);
   EXPECT_TRUE(*other_public_key == *public_key);
   EXPECT_FALSE(*public_key != *other_public_key);
   EXPECT_FALSE(*other_public_key != *public_key);
 }

 TEST(Ed25519PublicKeyTest, DifferentVariantNotEqual) {
   util::StatusOr<Ed25519Parameters> crunchy_params =
       Ed25519Parameters::Create(Ed25519Parameters::Variant::kCrunchy);
   ASSERT_THAT(crunchy_params, IsOk());

   util::StatusOr<Ed25519Parameters> tink_params =
       Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
   ASSERT_THAT(tink_params, IsOk());

   std::string public_key_bytes = subtle::Random::GetRandomBytes(32);

   util::StatusOr<Ed25519PublicKey> public_key = Ed25519PublicKey::Create(
       *crunchy_params, public_key_bytes, /*id_requirement=*/0x01020304,
       GetPartialKeyAccess());
   ASSERT_THAT(public_key, IsOk());

   util::StatusOr<Ed25519PublicKey> other_public_key = Ed25519PublicKey::Create(
       *tink_params, public_key_bytes, /*id_requirement=*/0x01020304,
       GetPartialKeyAccess());
   ASSERT_THAT(other_public_key, IsOk());

   EXPECT_TRUE(*public_key != *other_public_key);
   EXPECT_TRUE(*other_public_key != *public_key);
   EXPECT_FALSE(*public_key == *other_public_key);
   EXPECT_FALSE(*other_public_key == *public_key);
 }

 TEST(Ed25519PublicKeyTest, DifferentPublicKeyBytesNotEqual) {
   util::StatusOr<Ed25519Parameters> params =
       Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
   ASSERT_THAT(params, IsOk());

   std::string public_key_bytes1 = subtle::Random::GetRandomBytes(32);
   std::string public_key_bytes2 = subtle::Random::GetRandomBytes(32);

   util::StatusOr<Ed25519PublicKey> public_key = Ed25519PublicKey::Create(
       *params, public_key_bytes1, /*id_requirement=*/0x01020304,
       GetPartialKeyAccess());
   ASSERT_THAT(public_key, IsOk());

   util::StatusOr<Ed25519PublicKey> other_public_key = Ed25519PublicKey::Create(
       *params, public_key_bytes2, /*id_requirement=*/0x01020304,
       GetPartialKeyAccess());
   ASSERT_THAT(other_public_key, IsOk());

   EXPECT_TRUE(*public_key != *other_public_key);
   EXPECT_TRUE(*other_public_key != *public_key);
   EXPECT_FALSE(*public_key == *other_public_key);
   EXPECT_FALSE(*other_public_key == *public_key);
 }

 TEST(Ed25519PublicKeyTest, DifferentIdRequirementNotEqual) {
   util::StatusOr<Ed25519Parameters> params =
       Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
   ASSERT_THAT(params, IsOk());

   std::string public_key_bytes = subtle::Random::GetRandomBytes(32);

   util::StatusOr<Ed25519PublicKey> public_key = Ed25519PublicKey::Create(
       *params, public_key_bytes, /*id_requirement=*/0x01020304,
       GetPartialKeyAccess());
   ASSERT_THAT(public_key, IsOk());

   util::StatusOr<Ed25519PublicKey> other_public_key = Ed25519PublicKey::Create(
       *params, public_key_bytes, /*id_requirement=*/0x02030405,
       GetPartialKeyAccess());
   ASSERT_THAT(other_public_key, IsOk());

   EXPECT_TRUE(*public_key != *other_public_key);
   EXPECT_TRUE(*other_public_key != *public_key);
   EXPECT_FALSE(*public_key == *other_public_key);
   EXPECT_FALSE(*other_public_key == *public_key);
 }

 }  // namespace
 }  // namespace tink
 }  // namespace crypto
	// Copyright 2023 Google LLC
	//
	// 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/ed25519_public_key.h"

	#include <string>

	#include "gmock/gmock.h"
	#include "gtest/gtest.h"
	#include "tink/partial_key_access.h"
	#include "tink/subtle/random.h"
	#include "tink/util/statusor.h"
	#include "tink/util/test_matchers.h"

	namespace crypto {
	namespace tink {
	namespace {

	using ::crypto::tink::test::IsOk;
	using ::crypto::tink::test::StatusIs;
	using ::testing::Eq;
	using ::testing::TestWithParam;
	using ::testing::Values;

	struct TestCase {
	Ed25519Parameters::Variant variant;
	absl::optional<int> id_requirement;
	std::string output_prefix;
	};

	using Ed25519PublicKeyTest = TestWithParam<TestCase>;

	INSTANTIATE_TEST_SUITE_P(
	Ed25519PublicKeyTestSuite, Ed25519PublicKeyTest,
	Values(TestCase{Ed25519Parameters::Variant::kTink, 0x02030400,
	std::string("\x01\x02\x03\x04\x00", 5)},
	TestCase{Ed25519Parameters::Variant::kCrunchy, 0x01030005,
	std::string("\x00\x01\x03\x00\x05", 5)},
	TestCase{Ed25519Parameters::Variant::kLegacy, 0x07080910,
	std::string("\x00\x07\x08\x09\x10", 5)},
	TestCase{Ed25519Parameters::Variant::kNoPrefix, absl::nullopt, ""}));

	TEST_P(Ed25519PublicKeyTest, CreateSucceeds) {
	TestCase test_case = GetParam();

	util::StatusOr<Ed25519Parameters> params =
	Ed25519Parameters::Create(test_case.variant);
	ASSERT_THAT(params, IsOk());

	std::string public_key_bytes = subtle::Random::GetRandomBytes(32);
	util::StatusOr<Ed25519PublicKey> public_key =
	Ed25519PublicKey::Create(*params, public_key_bytes,
	test_case.id_requirement, GetPartialKeyAccess());
	ASSERT_THAT(public_key, IsOk());

	EXPECT_THAT(public_key->GetParameters(), Eq(*params));
	EXPECT_THAT(public_key->GetIdRequirement(), Eq(test_case.id_requirement));
	EXPECT_THAT(public_key->GetOutputPrefix(), Eq(test_case.output_prefix));
	EXPECT_THAT(public_key->GetPublicKeyBytes(GetPartialKeyAccess()),
	Eq(public_key_bytes));
	}

	TEST(Ed25519PublicKeyTest, CreateWithInvalidPublicKeyLength) {
	util::StatusOr<Ed25519Parameters> params =
	Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
	ASSERT_THAT(params, IsOk());

	std::string public_key_bytes = subtle::Random::GetRandomBytes(31);

	EXPECT_THAT(
	Ed25519PublicKey::Create(*params, public_key_bytes,
	/id_requirement=/123, GetPartialKeyAccess())
	.status(),
	StatusIs(absl::StatusCode::kInvalidArgument));
	}

	TEST(Ed25519PublicKeyTest, CreateKeyWithInvalidIdRequirementFails) {
	util::StatusOr<Ed25519Parameters> no_prefix_params =
	Ed25519Parameters::Create(Ed25519Parameters::Variant::kNoPrefix);
	ASSERT_THAT(no_prefix_params, IsOk());

	util::StatusOr<Ed25519Parameters> tink_params =
	Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
	ASSERT_THAT(tink_params, IsOk());

	std::string public_key_bytes = subtle::Random::GetRandomBytes(32);

	EXPECT_THAT(
	Ed25519PublicKey::Create(*no_prefix_params, public_key_bytes,
	/id_requirement=/123, GetPartialKeyAccess())
	.status(),
	StatusIs(absl::StatusCode::kInvalidArgument));

	EXPECT_THAT(Ed25519PublicKey::Create(*tink_params, public_key_bytes,
	/id_requirement=/absl::nullopt,
	GetPartialKeyAccess())
	.status(),
	StatusIs(absl::StatusCode::kInvalidArgument));
	}

	TEST_P(Ed25519PublicKeyTest, KeyEquals) {
	TestCase test_case = GetParam();

	util::StatusOr<Ed25519Parameters> params =
	Ed25519Parameters::Create(test_case.variant);
	ASSERT_THAT(params, IsOk());

	std::string public_key_bytes = subtle::Random::GetRandomBytes(32);

	util::StatusOr<Ed25519PublicKey> public_key =
	Ed25519PublicKey::Create(*params, public_key_bytes,
	test_case.id_requirement, GetPartialKeyAccess());
	ASSERT_THAT(public_key, IsOk());

	util::StatusOr<Ed25519PublicKey> other_public_key =
	Ed25519PublicKey::Create(*params, public_key_bytes,
	test_case.id_requirement, GetPartialKeyAccess());
	ASSERT_THAT(other_public_key, IsOk());

	EXPECT_TRUE(public_key == other_public_key);
	EXPECT_TRUE(other_public_key == public_key);
	EXPECT_FALSE(public_key != other_public_key);
	EXPECT_FALSE(other_public_key != public_key);
	}

	TEST(Ed25519PublicKeyTest, DifferentVariantNotEqual) {
	util::StatusOr<Ed25519Parameters> crunchy_params =
	Ed25519Parameters::Create(Ed25519Parameters::Variant::kCrunchy);
	ASSERT_THAT(crunchy_params, IsOk());

	util::StatusOr<Ed25519Parameters> tink_params =
	Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
	ASSERT_THAT(tink_params, IsOk());

	std::string public_key_bytes = subtle::Random::GetRandomBytes(32);

	util::StatusOr<Ed25519PublicKey> public_key = Ed25519PublicKey::Create(
	crunchy_params, public_key_bytes, /id_requirement=*/0x01020304,
	GetPartialKeyAccess());
	ASSERT_THAT(public_key, IsOk());

	util::StatusOr<Ed25519PublicKey> other_public_key = Ed25519PublicKey::Create(
	tink_params, public_key_bytes, /id_requirement=*/0x01020304,
	GetPartialKeyAccess());
	ASSERT_THAT(other_public_key, IsOk());

	EXPECT_TRUE(public_key != other_public_key);
	EXPECT_TRUE(other_public_key != public_key);
	EXPECT_FALSE(public_key == other_public_key);
	EXPECT_FALSE(other_public_key == public_key);
	}

	TEST(Ed25519PublicKeyTest, DifferentPublicKeyBytesNotEqual) {
	util::StatusOr<Ed25519Parameters> params =
	Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
	ASSERT_THAT(params, IsOk());

	std::string public_key_bytes1 = subtle::Random::GetRandomBytes(32);
	std::string public_key_bytes2 = subtle::Random::GetRandomBytes(32);

	util::StatusOr<Ed25519PublicKey> public_key = Ed25519PublicKey::Create(
	params, public_key_bytes1, /id_requirement=*/0x01020304,
	GetPartialKeyAccess());
	ASSERT_THAT(public_key, IsOk());

	util::StatusOr<Ed25519PublicKey> other_public_key = Ed25519PublicKey::Create(
	params, public_key_bytes2, /id_requirement=*/0x01020304,
	GetPartialKeyAccess());
	ASSERT_THAT(other_public_key, IsOk());

	EXPECT_TRUE(public_key != other_public_key);
	EXPECT_TRUE(other_public_key != public_key);
	EXPECT_FALSE(public_key == other_public_key);
	EXPECT_FALSE(other_public_key == public_key);
	}

	TEST(Ed25519PublicKeyTest, DifferentIdRequirementNotEqual) {
	util::StatusOr<Ed25519Parameters> params =
	Ed25519Parameters::Create(Ed25519Parameters::Variant::kTink);
	ASSERT_THAT(params, IsOk());

	std::string public_key_bytes = subtle::Random::GetRandomBytes(32);

	util::StatusOr<Ed25519PublicKey> public_key = Ed25519PublicKey::Create(
	params, public_key_bytes, /id_requirement=*/0x01020304,
	GetPartialKeyAccess());
	ASSERT_THAT(public_key, IsOk());

	util::StatusOr<Ed25519PublicKey> other_public_key = Ed25519PublicKey::Create(
	params, public_key_bytes, /id_requirement=*/0x02030405,
	GetPartialKeyAccess());
	ASSERT_THAT(other_public_key, IsOk());

	EXPECT_TRUE(public_key != other_public_key);
	EXPECT_TRUE(other_public_key != public_key);
	EXPECT_FALSE(public_key == other_public_key);
	EXPECT_FALSE(other_public_key == public_key);
	}

	} // namespace
	} // namespace tink
	} // namespace crypto