// Copyright 2022 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/mac/aes_cmac_key.h" #include #include #include #include #include "gmock/gmock.h" #include "gtest/gtest.h" #include "absl/types/optional.h" #include "tink/mac/aes_cmac_parameters.h" #include "tink/partial_key_access.h" #include "tink/restricted_data.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::Combine; using ::testing::Eq; using ::testing::Range; using ::testing::TestWithParam; using ::testing::Values; struct TestCase { AesCmacParameters::Variant variant; absl::optional id_requirement; std::string output_prefix; }; using AesCmacKeyTest = TestWithParam>; INSTANTIATE_TEST_SUITE_P( AesCmacKeyTestSuite, AesCmacKeyTest, Combine(Values(16, 32), Range(10, 16), Values(TestCase{AesCmacParameters::Variant::kTink, 0x02030400, std::string("\x01\x02\x03\x04\x00", 5)}, TestCase{AesCmacParameters::Variant::kCrunchy, 0x01030005, std::string("\x00\x01\x03\x00\x05", 5)}, TestCase{AesCmacParameters::Variant::kLegacy, 0x01020304, std::string("\x00\x01\x02\x03\x04", 5)}, TestCase{AesCmacParameters::Variant::kNoPrefix, absl::nullopt, ""}))); TEST_P(AesCmacKeyTest, CreateSucceeds) { int key_size; int cryptographic_tag_size; TestCase test_case; std::tie(key_size, cryptographic_tag_size, test_case) = GetParam(); util::StatusOr params = AesCmacParameters::Create( key_size, cryptographic_tag_size, test_case.variant); ASSERT_THAT(params, IsOk()); RestrictedData secret = RestrictedData(key_size); util::StatusOr key = AesCmacKey::Create( *params, secret, test_case.id_requirement, GetPartialKeyAccess()); ASSERT_THAT(key.status(), IsOk()); EXPECT_THAT(key->GetParameters(), Eq(*params)); EXPECT_THAT(key->GetIdRequirement(), Eq(test_case.id_requirement)); EXPECT_THAT(key->GetOutputPrefix(), Eq(test_case.output_prefix)); } TEST(AesCmacKeyTest, CreateKeyWithMismatchedKeySizeFails) { // Key size parameter is 32 bytes. util::StatusOr params = AesCmacParameters::Create( /*key_size_in_bytes=*/32, /*cryptographic_tag_size_in_bytes=*/16, AesCmacParameters::Variant::kTink); ASSERT_THAT(params, IsOk()); // Key material is 16 bytes (another valid key length). RestrictedData mismatched_secret = RestrictedData(/*num_random_bytes=*/16); EXPECT_THAT(AesCmacKey::Create(*params, mismatched_secret, /*id_requirement=*/123, GetPartialKeyAccess()) .status(), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(AesCmacKeyTest, CreateKeyWithWrongIdRequirementFails) { util::StatusOr no_prefix_params = AesCmacParameters::Create(/*key_size_in_bytes=*/32, /*cryptographic_tag_size_in_bytes=*/16, AesCmacParameters::Variant::kNoPrefix); ASSERT_THAT(no_prefix_params, IsOk()); util::StatusOr tink_params = AesCmacParameters::Create(/*key_size_in_bytes=*/32, /*cryptographic_tag_size_in_bytes=*/16, AesCmacParameters::Variant::kTink); ASSERT_THAT(tink_params, IsOk()); RestrictedData secret = RestrictedData(/*num_random_bytes=*/32); EXPECT_THAT(AesCmacKey::Create(*no_prefix_params, secret, /*id_requirement=*/123, GetPartialKeyAccess()) .status(), StatusIs(absl::StatusCode::kInvalidArgument)); EXPECT_THAT(AesCmacKey::Create(*tink_params, secret, /*id_requirement=*/absl::nullopt, GetPartialKeyAccess()) .status(), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST_P(AesCmacKeyTest, GetAesCmacKey) { int key_size; int cryptographic_tag_size; TestCase test_case; std::tie(key_size, cryptographic_tag_size, test_case) = GetParam(); util::StatusOr params = AesCmacParameters::Create( key_size, cryptographic_tag_size, test_case.variant); ASSERT_THAT(params, IsOk()); RestrictedData secret = RestrictedData(key_size); util::StatusOr key = AesCmacKey::Create( *params, secret, test_case.id_requirement, GetPartialKeyAccess()); ASSERT_THAT(key.status(), IsOk()); EXPECT_THAT(key->GetKeyBytes(GetPartialKeyAccess()), Eq(secret)); } TEST_P(AesCmacKeyTest, KeyEquals) { int key_size; int cryptographic_tag_size; TestCase test_case; std::tie(key_size, cryptographic_tag_size, test_case) = GetParam(); util::StatusOr params = AesCmacParameters::Create( key_size, cryptographic_tag_size, test_case.variant); ASSERT_THAT(params, IsOk()); RestrictedData secret = RestrictedData(key_size); util::StatusOr key = AesCmacKey::Create( *params, secret, test_case.id_requirement, GetPartialKeyAccess()); ASSERT_THAT(key, IsOk()); util::StatusOr other_key = AesCmacKey::Create( *params, secret, test_case.id_requirement, GetPartialKeyAccess()); ASSERT_THAT(other_key, IsOk()); EXPECT_TRUE(*key == *other_key); EXPECT_TRUE(*other_key == *key); EXPECT_FALSE(*key != *other_key); EXPECT_FALSE(*other_key != *key); } TEST(AesCmacKeyTest, DifferentFormatNotEqual) { util::StatusOr legacy_params = AesCmacParameters::Create(/*key_size_in_bytes=*/32, /*cryptographic_tag_size_in_bytes=*/16, AesCmacParameters::Variant::kLegacy); ASSERT_THAT(legacy_params, IsOk()); util::StatusOr tink_params = AesCmacParameters::Create(/*key_size_in_bytes=*/32, /*cryptographic_tag_size_in_bytes=*/16, AesCmacParameters::Variant::kTink); ASSERT_THAT(tink_params, IsOk()); RestrictedData secret = RestrictedData(/*num_random_bytes=*/32); util::StatusOr key = AesCmacKey::Create(*legacy_params, secret, /*id_requirement=*/0x01020304, GetPartialKeyAccess()); ASSERT_THAT(key.status(), IsOk()); util::StatusOr other_key = AesCmacKey::Create(*tink_params, secret, /*id_requirement=*/0x01020304, GetPartialKeyAccess()); ASSERT_THAT(other_key.status(), IsOk()); EXPECT_TRUE(*key != *other_key); EXPECT_TRUE(*other_key != *key); EXPECT_FALSE(*key == *other_key); EXPECT_FALSE(*other_key == *key); } TEST(AesCmacKeyTest, DifferentSecretDataNotEqual) { util::StatusOr params = AesCmacParameters::Create(/*key_size_in_bytes=*/32, /*cryptographic_tag_size_in_bytes=*/16, AesCmacParameters::Variant::kTink); ASSERT_THAT(params, IsOk()); RestrictedData secret1 = RestrictedData(/*num_random_bytes=*/32); RestrictedData secret2 = RestrictedData(/*num_random_bytes=*/32); util::StatusOr key = AesCmacKey::Create( *params, secret1, /*id_requirement=*/0x01020304, GetPartialKeyAccess()); ASSERT_THAT(key.status(), IsOk()); util::StatusOr other_key = AesCmacKey::Create( *params, secret2, /*id_requirement=*/0x01020304, GetPartialKeyAccess()); ASSERT_THAT(other_key.status(), IsOk()); EXPECT_TRUE(*key != *other_key); EXPECT_TRUE(*other_key != *key); EXPECT_FALSE(*key == *other_key); EXPECT_FALSE(*other_key == *key); } TEST(AesCmacKeyTest, DifferentIdRequirementNotEqual) { util::StatusOr params = AesCmacParameters::Create(/*key_size_in_bytes=*/32, /*cryptographic_tag_size_in_bytes=*/16, AesCmacParameters::Variant::kTink); ASSERT_THAT(params, IsOk()); RestrictedData secret = RestrictedData(/*num_random_bytes=*/32); util::StatusOr key = AesCmacKey::Create( *params, secret, /*id_requirement=*/0x01020304, GetPartialKeyAccess()); ASSERT_THAT(key.status(), IsOk()); util::StatusOr other_key = AesCmacKey::Create( *params, secret, /*id_requirement=*/0x02030405, GetPartialKeyAccess()); ASSERT_THAT(other_key.status(), IsOk()); EXPECT_TRUE(*key != *other_key); EXPECT_TRUE(*other_key != *key); EXPECT_FALSE(*key == *other_key); EXPECT_FALSE(*other_key == *key); } } // namespace } // namespace tink } // namespace crypto