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// Copyright 2018 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/hybrid_key_templates.h"
#include <string>
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "tink/aead/aead_key_templates.h"
#include "tink/daead/deterministic_aead_key_templates.h"
#include "tink/hybrid/ecies_aead_hkdf_private_key_manager.h"
#include "tink/hybrid/hybrid_config.h"
#include "tink/hybrid/internal/hpke_private_key_manager.h"
#include "tink/util/test_matchers.h"
#include "proto/common.pb.h"
#include "proto/ecies_aead_hkdf.pb.h"
#include "proto/hpke.pb.h"
#include "proto/tink.pb.h"
namespace crypto {
namespace tink {
namespace {
using ::crypto::tink::internal::HpkePrivateKeyManager;
using ::crypto::tink::test::IsOk;
using ::google::crypto::tink::EciesAeadHkdfKeyFormat;
using ::google::crypto::tink::EcPointFormat;
using ::google::crypto::tink::EllipticCurveType;
using ::google::crypto::tink::HashType;
using ::google::crypto::tink::HpkeAead;
using ::google::crypto::tink::HpkeKdf;
using ::google::crypto::tink::HpkeKem;
using ::google::crypto::tink::HpkeKeyFormat;
using ::google::crypto::tink::KeyTemplate;
using ::google::crypto::tink::OutputPrefixType;
using ::testing::Eq;
class HybridKeyTemplatesTest : public ::testing::Test {
protected:
static void SetUpTestSuite() {
// Initialize the registry, so that the templates can be tested.
ASSERT_THAT(HybridConfig::Register(), IsOk());
}
};
TEST_F(HybridKeyTemplatesTest, EciesP256HkdfHmacSha256Aes128Gcm) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesP256HkdfHmacSha256Aes128Gcm();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::UNCOMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128Gcm();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::NIST_P256, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesP256HkdfHmacSha256Aes128Gcm();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, EciesP256HkdfHmacSha512Aes128Gcm) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesP256HkdfHmacSha512Aes128Gcm();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::UNCOMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128Gcm();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::NIST_P256, kem_params->curve_type());
EXPECT_EQ(HashType::SHA512, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesP256HkdfHmacSha512Aes128Gcm();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest,
EciesP256HkdfHmacSha256Aes128GcmCompressedWithoutPrefix) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template = HybridKeyTemplates::
EciesP256HkdfHmacSha256Aes128GcmCompressedWithoutPrefix();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::RAW, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::COMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128Gcm();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::NIST_P256, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 = HybridKeyTemplates::
EciesP256HkdfHmacSha256Aes128GcmCompressedWithoutPrefix();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, EciesP256HkdfHmacSha256Aes128CtrHmacSha256) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesP256HkdfHmacSha256Aes128CtrHmacSha256();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::UNCOMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128CtrHmacSha256();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::NIST_P256, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesP256HkdfHmacSha256Aes128CtrHmacSha256();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, EciesP256HkdfHmacSha512Aes128CtrHmacSha256) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesP256HkdfHmacSha512Aes128CtrHmacSha256();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::UNCOMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128CtrHmacSha256();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::NIST_P256, kem_params->curve_type());
EXPECT_EQ(HashType::SHA512, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesP256HkdfHmacSha512Aes128CtrHmacSha256();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, EciesP256CompressedHkdfHmacSha256Aes128Gcm) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesP256CompressedHkdfHmacSha256Aes128Gcm();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::COMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128Gcm();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::NIST_P256, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesP256CompressedHkdfHmacSha256Aes128Gcm();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest,
EciesP256CompressedHkdfHmacSha256Aes128CtrHmacSha256) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template = HybridKeyTemplates::
EciesP256CompressedHkdfHmacSha256Aes128CtrHmacSha256();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::COMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128CtrHmacSha256();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::NIST_P256, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 = HybridKeyTemplates::
EciesP256CompressedHkdfHmacSha256Aes128CtrHmacSha256();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, EciesX25519HkdfHmacSha256Aes128Gcm) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesX25519HkdfHmacSha256Aes128Gcm();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::COMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128Gcm();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::CURVE25519, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesX25519HkdfHmacSha256Aes128Gcm();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, EciesX25519HkdfHmacSha256Aes256Gcm) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesX25519HkdfHmacSha256Aes256Gcm();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::COMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes256Gcm();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::CURVE25519, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesX25519HkdfHmacSha256Aes256Gcm();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest,
EciesX25519HkdfHmacSha256Aes128CtrHmacSha256) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesX25519HkdfHmacSha256Aes128CtrHmacSha256();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::COMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::Aes128CtrHmacSha256();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::CURVE25519, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesX25519HkdfHmacSha256Aes128CtrHmacSha256();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, EciesX25519HkdfHmacSha256XChaCha20Poly1305) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesX25519HkdfHmacSha256XChaCha20Poly1305();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::COMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = AeadKeyTemplates::XChaCha20Poly1305();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::CURVE25519, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesX25519HkdfHmacSha256XChaCha20Poly1305();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, EciesX25519HkdfHmacSha256DeterministicAesSiv) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.EciesAeadHkdfPrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::EciesX25519HkdfHmacSha256DeterministicAesSiv();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
EciesAeadHkdfKeyFormat key_format;
EXPECT_TRUE(key_format.ParseFromString(key_template.value()));
EXPECT_EQ(EcPointFormat::COMPRESSED, key_format.params().ec_point_format());
auto dem_params = key_format.mutable_params()->mutable_dem_params();
auto expected_dem = DeterministicAeadKeyTemplates::Aes256Siv();
EXPECT_EQ(expected_dem.output_prefix_type(),
dem_params->aead_dem().output_prefix_type());
EXPECT_EQ(expected_dem.type_url(), dem_params->aead_dem().type_url());
EXPECT_EQ(expected_dem.value(), dem_params->aead_dem().value());
auto kem_params = key_format.mutable_params()->mutable_kem_params();
EXPECT_EQ(EllipticCurveType::CURVE25519, kem_params->curve_type());
EXPECT_EQ(HashType::SHA256, kem_params->hkdf_hash_type());
EXPECT_EQ("", kem_params->hkdf_salt());
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::EciesX25519HkdfHmacSha256DeterministicAesSiv();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
EciesAeadHkdfPrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, HpkeX25519HkdfSha256Aes128Gcm) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.HpkePrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::HpkeX25519HkdfSha256Aes128Gcm();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
HpkeKeyFormat key_format;
ASSERT_TRUE(key_format.ParseFromString(key_template.value()));
ASSERT_TRUE(key_format.has_params());
EXPECT_THAT(key_format.params().kem(), Eq(HpkeKem::DHKEM_X25519_HKDF_SHA256));
EXPECT_THAT(key_format.params().kdf(), Eq(HpkeKdf::HKDF_SHA256));
EXPECT_THAT(key_format.params().aead(), Eq(HpkeAead::AES_128_GCM));
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::HpkeX25519HkdfSha256Aes128Gcm();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
HpkePrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, HpkeX25519HkdfSha256Aes128GcmRaw) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.HpkePrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::HpkeX25519HkdfSha256Aes128GcmRaw();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::RAW, key_template.output_prefix_type());
HpkeKeyFormat key_format;
ASSERT_TRUE(key_format.ParseFromString(key_template.value()));
ASSERT_TRUE(key_format.has_params());
EXPECT_THAT(key_format.params().kem(), Eq(HpkeKem::DHKEM_X25519_HKDF_SHA256));
EXPECT_THAT(key_format.params().kdf(), Eq(HpkeKdf::HKDF_SHA256));
EXPECT_THAT(key_format.params().aead(), Eq(HpkeAead::AES_128_GCM));
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::HpkeX25519HkdfSha256Aes128GcmRaw();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
HpkePrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, HpkeX25519HkdfSha256Aes256Gcm) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.HpkePrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::HpkeX25519HkdfSha256Aes256Gcm();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
HpkeKeyFormat key_format;
ASSERT_TRUE(key_format.ParseFromString(key_template.value()));
ASSERT_TRUE(key_format.has_params());
EXPECT_THAT(key_format.params().kem(), Eq(HpkeKem::DHKEM_X25519_HKDF_SHA256));
EXPECT_THAT(key_format.params().kdf(), Eq(HpkeKdf::HKDF_SHA256));
EXPECT_THAT(key_format.params().aead(), Eq(HpkeAead::AES_256_GCM));
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::HpkeX25519HkdfSha256Aes256Gcm();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
HpkePrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, HpkeX25519HkdfSha256Aes256GcmRaw) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.HpkePrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::HpkeX25519HkdfSha256Aes256GcmRaw();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::RAW, key_template.output_prefix_type());
HpkeKeyFormat key_format;
ASSERT_TRUE(key_format.ParseFromString(key_template.value()));
ASSERT_TRUE(key_format.has_params());
EXPECT_THAT(key_format.params().kem(), Eq(HpkeKem::DHKEM_X25519_HKDF_SHA256));
EXPECT_THAT(key_format.params().kdf(), Eq(HpkeKdf::HKDF_SHA256));
EXPECT_THAT(key_format.params().aead(), Eq(HpkeAead::AES_256_GCM));
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::HpkeX25519HkdfSha256Aes256GcmRaw();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
HpkePrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, HpkeX25519HkdfSha256ChaCha20Poly1305) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.HpkePrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::HpkeX25519HkdfSha256ChaCha20Poly1305();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::TINK, key_template.output_prefix_type());
HpkeKeyFormat key_format;
ASSERT_TRUE(key_format.ParseFromString(key_template.value()));
ASSERT_TRUE(key_format.has_params());
EXPECT_THAT(key_format.params().kem(), Eq(HpkeKem::DHKEM_X25519_HKDF_SHA256));
EXPECT_THAT(key_format.params().kdf(), Eq(HpkeKdf::HKDF_SHA256));
EXPECT_THAT(key_format.params().aead(), Eq(HpkeAead::CHACHA20_POLY1305));
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::HpkeX25519HkdfSha256ChaCha20Poly1305();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
HpkePrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
TEST_F(HybridKeyTemplatesTest, HpkeX25519HkdfSha256ChaCha20Poly1305Raw) {
// Check that returned template is correct.
std::string type_url =
"type.googleapis.com/google.crypto.tink.HpkePrivateKey";
const KeyTemplate& key_template =
HybridKeyTemplates::HpkeX25519HkdfSha256ChaCha20Poly1305Raw();
EXPECT_EQ(type_url, key_template.type_url());
EXPECT_EQ(OutputPrefixType::RAW, key_template.output_prefix_type());
HpkeKeyFormat key_format;
ASSERT_TRUE(key_format.ParseFromString(key_template.value()));
ASSERT_TRUE(key_format.has_params());
EXPECT_THAT(key_format.params().kem(), Eq(HpkeKem::DHKEM_X25519_HKDF_SHA256));
EXPECT_THAT(key_format.params().kdf(), Eq(HpkeKdf::HKDF_SHA256));
EXPECT_THAT(key_format.params().aead(), Eq(HpkeAead::CHACHA20_POLY1305));
// Check that reference to the same object is returned.
const KeyTemplate& key_template_2 =
HybridKeyTemplates::HpkeX25519HkdfSha256ChaCha20Poly1305Raw();
EXPECT_EQ(&key_template, &key_template_2);
// Check that the template works with the key manager.
HpkePrivateKeyManager key_manager;
EXPECT_EQ(key_manager.get_key_type(), key_template.type_url());
EXPECT_THAT(key_manager.ValidateKeyFormat(key_format), IsOk());
}
} // namespace
} // namespace tink
} // namespace crypto