// Copyright 2017 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/hybrid/ecies_aead_hkdf_private_key_manager.h" #include "gtest/gtest.h" #include "absl/status/status.h" #include "tink/aead/aead_key_templates.h" #include "tink/aead/aes_ctr_hmac_aead_key_manager.h" #include "tink/aead/aes_gcm_key_manager.h" #include "tink/hybrid/ecies_aead_hkdf_public_key_manager.h" #include "tink/hybrid/hybrid_key_templates.h" #include "tink/hybrid_decrypt.h" #include "tink/registry.h" #include "tink/subtle/hybrid_test_util.h" #include "tink/util/status.h" #include "tink/util/statusor.h" #include "tink/util/test_matchers.h" #include "tink/util/test_util.h" #include "proto/aes_eax.pb.h" #include "proto/common.pb.h" #include "proto/ecies_aead_hkdf.pb.h" #include "proto/tink.pb.h" namespace crypto { namespace tink { using ::crypto::tink::test::IsOk; using ::crypto::tink::test::StatusIs; using ::google::crypto::tink::EciesAeadHkdfKeyFormat; using ::google::crypto::tink::EciesAeadHkdfPrivateKey; using ::google::crypto::tink::EciesAeadHkdfPublicKey; using ::google::crypto::tink::EcPointFormat; using ::google::crypto::tink::EllipticCurveType; using ::google::crypto::tink::HashType; using ::google::crypto::tink::KeyData; using ::testing::Eq; using ::testing::IsEmpty; using ::testing::Not; namespace { TEST(EciesAeadHkdfPrivateKeyManagerTest, Basics) { EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().get_version(), Eq(0)); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().key_material_type(), Eq(KeyData::ASYMMETRIC_PRIVATE)); EXPECT_THAT( EciesAeadHkdfPrivateKeyManager().get_key_type(), Eq("type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey")); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateEmptyKey) { EXPECT_THAT( EciesAeadHkdfPrivateKeyManager().ValidateKey(EciesAeadHkdfPrivateKey()), StatusIs(absl::StatusCode::kInvalidArgument)); } EciesAeadHkdfKeyFormat CreateValidKeyFormat() { EciesAeadHkdfKeyFormat key_format; key_format.mutable_params()->set_ec_point_format(EcPointFormat::UNCOMPRESSED); auto dem_params = key_format.mutable_params()->mutable_dem_params(); *(dem_params->mutable_aead_dem()) = AeadKeyTemplates::Aes128Gcm(); auto kem_params = key_format.mutable_params()->mutable_kem_params(); kem_params->set_curve_type(EllipticCurveType::NIST_P256); kem_params->set_hkdf_hash_type(HashType::SHA256); kem_params->set_hkdf_salt(""); return key_format; } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyFormat) { EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKeyFormat( CreateValidKeyFormat()), IsOk()); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyFormatNoPoint) { EciesAeadHkdfKeyFormat key_format = CreateValidKeyFormat(); key_format.mutable_params()->set_ec_point_format( EcPointFormat::UNKNOWN_FORMAT); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKeyFormat(key_format), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyFormatNoDem) { EciesAeadHkdfKeyFormat key_format = CreateValidKeyFormat(); key_format.mutable_params()->mutable_dem_params()->clear_aead_dem(); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKeyFormat(key_format), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyFormatNoKemCurve) { EciesAeadHkdfKeyFormat key_format = CreateValidKeyFormat(); key_format.mutable_params()->mutable_kem_params()->set_curve_type( EllipticCurveType::UNKNOWN_CURVE); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKeyFormat(key_format), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyFormatNoKemHash) { EciesAeadHkdfKeyFormat key_format = CreateValidKeyFormat(); key_format.mutable_params()->mutable_kem_params()->set_hkdf_hash_type( HashType::UNKNOWN_HASH); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKeyFormat(key_format), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, CreateKey) { EciesAeadHkdfKeyFormat key_format = CreateValidKeyFormat(); ASSERT_THAT(EciesAeadHkdfPrivateKeyManager().CreateKey(key_format).status(), IsOk()); EciesAeadHkdfPrivateKey key = EciesAeadHkdfPrivateKeyManager().CreateKey(key_format).value(); EXPECT_THAT(key.public_key().params().kem_params().curve_type(), Eq(key_format.params().kem_params().curve_type())); EXPECT_THAT(key.public_key().params().kem_params().hkdf_hash_type(), Eq(key_format.params().kem_params().hkdf_hash_type())); EXPECT_THAT(key.public_key().params().dem_params().aead_dem().type_url(), Eq(key_format.params().dem_params().aead_dem().type_url())); EXPECT_THAT(key.public_key().params().dem_params().aead_dem().value(), Eq(key_format.params().dem_params().aead_dem().value())); EXPECT_THAT( key.public_key().params().dem_params().aead_dem().output_prefix_type(), Eq(key_format.params().dem_params().aead_dem().output_prefix_type())); EXPECT_THAT(key.public_key().x(), Not(IsEmpty())); EXPECT_THAT(key.public_key().y(), Not(IsEmpty())); EXPECT_THAT(key.key_value(), Not(IsEmpty())); } EciesAeadHkdfPrivateKey CreateValidKey() { return EciesAeadHkdfPrivateKeyManager() .CreateKey(CreateValidKeyFormat()) .value(); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyEmpty) { EXPECT_THAT( EciesAeadHkdfPrivateKeyManager().ValidateKey(EciesAeadHkdfPrivateKey()), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKey) { EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKey(CreateValidKey()), IsOk()); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyWrongVersion) { EciesAeadHkdfPrivateKey key = CreateValidKey(); key.set_version(1); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKey(key), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyNoPoint) { EciesAeadHkdfPrivateKey key = CreateValidKey(); key.mutable_public_key()->mutable_params()->set_ec_point_format( EcPointFormat::UNKNOWN_FORMAT); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKey(key), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyNoDem) { EciesAeadHkdfPrivateKey key = CreateValidKey(); key.mutable_public_key() ->mutable_params() ->mutable_dem_params() ->clear_aead_dem(); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKey(key), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyNoKemCurve) { EciesAeadHkdfPrivateKey key = CreateValidKey(); key.mutable_public_key() ->mutable_params() ->mutable_kem_params() ->set_curve_type(EllipticCurveType::UNKNOWN_CURVE); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKey(key), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, ValidateKeyNoKemHash) { EciesAeadHkdfPrivateKey key = CreateValidKey(); key.mutable_public_key() ->mutable_params() ->mutable_kem_params() ->set_hkdf_hash_type(HashType::UNKNOWN_HASH); EXPECT_THAT(EciesAeadHkdfPrivateKeyManager().ValidateKey(key), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(EciesAeadHkdfPrivateKeyManagerTest, GetPublicKey) { EciesAeadHkdfPrivateKey key = CreateValidKey(); ASSERT_THAT(EciesAeadHkdfPrivateKeyManager().GetPublicKey(key).status(), IsOk()); EciesAeadHkdfPublicKey public_key = EciesAeadHkdfPrivateKeyManager().GetPublicKey(key).value(); EXPECT_THAT(public_key.params().kem_params().curve_type(), Eq(key.public_key().params().kem_params().curve_type())); EXPECT_THAT(public_key.params().kem_params().hkdf_hash_type(), Eq(key.public_key().params().kem_params().hkdf_hash_type())); EXPECT_THAT(public_key.params().dem_params().aead_dem().type_url(), Eq(key.public_key().params().dem_params().aead_dem().type_url())); EXPECT_THAT(public_key.params().dem_params().aead_dem().value(), Eq(key.public_key().params().dem_params().aead_dem().value())); EXPECT_THAT(public_key.params().dem_params().aead_dem().output_prefix_type(), Eq(key.public_key() .params() .dem_params() .aead_dem() .output_prefix_type())); EXPECT_THAT(public_key.x(), Not(IsEmpty())); EXPECT_THAT(public_key.y(), Not(IsEmpty())); } TEST(EciesAeadHkdfPrivateKeyManagerTest, Create) { ASSERT_THAT(Registry::RegisterKeyTypeManager( absl::make_unique(), true), IsOk()); EciesAeadHkdfPrivateKey private_key = CreateValidKey(); EciesAeadHkdfPublicKey public_key = EciesAeadHkdfPrivateKeyManager().GetPublicKey(private_key).value(); auto decrypt_or = EciesAeadHkdfPrivateKeyManager().GetPrimitive(private_key); ASSERT_THAT(decrypt_or, IsOk()); auto encrypt_or = EciesAeadHkdfHybridEncrypt::New(public_key); ASSERT_THAT(encrypt_or, IsOk()); ASSERT_THAT(HybridEncryptThenDecrypt(encrypt_or.value().get(), decrypt_or.value().get(), "some text", "some aad"), IsOk()); } TEST(EciesAeadHkdfPrivateKeyManagerTest, CreateDifferentKey) { ASSERT_THAT(Registry::RegisterKeyTypeManager( absl::make_unique(), true), IsOk()); EciesAeadHkdfPrivateKey private_key = CreateValidKey(); // Note: we create a new private key in the next line. EciesAeadHkdfPublicKey public_key = EciesAeadHkdfPrivateKeyManager().GetPublicKey(CreateValidKey()).value(); auto decrypt_or = EciesAeadHkdfPrivateKeyManager().GetPrimitive(private_key); ASSERT_THAT(decrypt_or, IsOk()); auto encrypt_or = EciesAeadHkdfHybridEncrypt::New(public_key); ASSERT_THAT(encrypt_or, IsOk()); ASSERT_THAT(HybridEncryptThenDecrypt(encrypt_or.value().get(), decrypt_or.value().get(), "some text", "some aad"), Not(IsOk())); } } // namespace } // namespace tink } // namespace crypto