1*e7b1675dSTing-Kang Chang // Copyright 2017 Google Inc.
2*e7b1675dSTing-Kang Chang //
3*e7b1675dSTing-Kang Chang // Licensed under the Apache License, Version 2.0 (the "License");
4*e7b1675dSTing-Kang Chang // you may not use this file except in compliance with the License.
5*e7b1675dSTing-Kang Chang // You may obtain a copy of the License at
6*e7b1675dSTing-Kang Chang //
7*e7b1675dSTing-Kang Chang // http://www.apache.org/licenses/LICENSE-2.0
8*e7b1675dSTing-Kang Chang //
9*e7b1675dSTing-Kang Chang // Unless required by applicable law or agreed to in writing, software
10*e7b1675dSTing-Kang Chang // distributed under the License is distributed on an "AS IS" BASIS,
11*e7b1675dSTing-Kang Chang // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12*e7b1675dSTing-Kang Chang // See the License for the specific language governing permissions and
13*e7b1675dSTing-Kang Chang // limitations under the License.
14*e7b1675dSTing-Kang Chang //
15*e7b1675dSTing-Kang Chang ////////////////////////////////////////////////////////////////////////////////
16*e7b1675dSTing-Kang Chang
17*e7b1675dSTing-Kang Chang #include "tink/hybrid/hybrid_config.h"
18*e7b1675dSTing-Kang Chang
19*e7b1675dSTing-Kang Chang #include <list>
20*e7b1675dSTing-Kang Chang #include <string>
21*e7b1675dSTing-Kang Chang #include <utility>
22*e7b1675dSTing-Kang Chang
23*e7b1675dSTing-Kang Chang #include "gmock/gmock.h"
24*e7b1675dSTing-Kang Chang #include "gtest/gtest.h"
25*e7b1675dSTing-Kang Chang #include "absl/status/status.h"
26*e7b1675dSTing-Kang Chang #include "openssl/crypto.h"
27*e7b1675dSTing-Kang Chang #include "tink/hybrid/ecies_aead_hkdf_private_key_manager.h"
28*e7b1675dSTing-Kang Chang #include "tink/hybrid/ecies_aead_hkdf_public_key_manager.h"
29*e7b1675dSTing-Kang Chang #include "tink/hybrid/hybrid_key_templates.h"
30*e7b1675dSTing-Kang Chang #include "tink/hybrid_decrypt.h"
31*e7b1675dSTing-Kang Chang #include "tink/hybrid_encrypt.h"
32*e7b1675dSTing-Kang Chang #include "tink/internal/fips_utils.h"
33*e7b1675dSTing-Kang Chang #include "tink/keyset_handle.h"
34*e7b1675dSTing-Kang Chang #include "tink/registry.h"
35*e7b1675dSTing-Kang Chang #include "tink/util/status.h"
36*e7b1675dSTing-Kang Chang #include "tink/util/test_matchers.h"
37*e7b1675dSTing-Kang Chang #include "tink/util/test_util.h"
38*e7b1675dSTing-Kang Chang
39*e7b1675dSTing-Kang Chang namespace crypto {
40*e7b1675dSTing-Kang Chang namespace tink {
41*e7b1675dSTing-Kang Chang namespace {
42*e7b1675dSTing-Kang Chang
43*e7b1675dSTing-Kang Chang using ::crypto::tink::test::DummyHybridDecrypt;
44*e7b1675dSTing-Kang Chang using ::crypto::tink::test::DummyHybridEncrypt;
45*e7b1675dSTing-Kang Chang using ::crypto::tink::test::IsOk;
46*e7b1675dSTing-Kang Chang using ::crypto::tink::test::StatusIs;
47*e7b1675dSTing-Kang Chang
48*e7b1675dSTing-Kang Chang class HybridConfigTest : public ::testing::Test {
49*e7b1675dSTing-Kang Chang protected:
SetUp()50*e7b1675dSTing-Kang Chang void SetUp() override { Registry::Reset(); }
51*e7b1675dSTing-Kang Chang };
52*e7b1675dSTing-Kang Chang
TEST_F(HybridConfigTest,Basic)53*e7b1675dSTing-Kang Chang TEST_F(HybridConfigTest, Basic) {
54*e7b1675dSTing-Kang Chang if (internal::IsFipsModeEnabled()) {
55*e7b1675dSTing-Kang Chang GTEST_SKIP() << "Not supported in FIPS-only mode";
56*e7b1675dSTing-Kang Chang }
57*e7b1675dSTing-Kang Chang
58*e7b1675dSTing-Kang Chang EXPECT_THAT(Registry::get_key_manager<HybridDecrypt>(
59*e7b1675dSTing-Kang Chang EciesAeadHkdfPrivateKeyManager().get_key_type())
60*e7b1675dSTing-Kang Chang .status(),
61*e7b1675dSTing-Kang Chang StatusIs(absl::StatusCode::kNotFound));
62*e7b1675dSTing-Kang Chang EXPECT_THAT(Registry::get_key_manager<HybridEncrypt>(
63*e7b1675dSTing-Kang Chang EciesAeadHkdfPublicKeyManager().get_key_type())
64*e7b1675dSTing-Kang Chang .status(),
65*e7b1675dSTing-Kang Chang StatusIs(absl::StatusCode::kNotFound));
66*e7b1675dSTing-Kang Chang EXPECT_THAT(HybridConfig::Register(), IsOk());
67*e7b1675dSTing-Kang Chang EXPECT_THAT(Registry::get_key_manager<HybridDecrypt>(
68*e7b1675dSTing-Kang Chang EciesAeadHkdfPrivateKeyManager().get_key_type())
69*e7b1675dSTing-Kang Chang .status(),
70*e7b1675dSTing-Kang Chang IsOk());
71*e7b1675dSTing-Kang Chang EXPECT_THAT(Registry::get_key_manager<HybridEncrypt>(
72*e7b1675dSTing-Kang Chang EciesAeadHkdfPublicKeyManager().get_key_type())
73*e7b1675dSTing-Kang Chang .status(),
74*e7b1675dSTing-Kang Chang IsOk());
75*e7b1675dSTing-Kang Chang }
76*e7b1675dSTing-Kang Chang
77*e7b1675dSTing-Kang Chang // Tests that the HybridEncryptWrapper has been properly registered and we
78*e7b1675dSTing-Kang Chang // can wrap primitives.
TEST_F(HybridConfigTest,EncryptWrapperRegistered)79*e7b1675dSTing-Kang Chang TEST_F(HybridConfigTest, EncryptWrapperRegistered) {
80*e7b1675dSTing-Kang Chang if (internal::IsFipsModeEnabled()) {
81*e7b1675dSTing-Kang Chang GTEST_SKIP() << "Not supported in FIPS-only mode";
82*e7b1675dSTing-Kang Chang }
83*e7b1675dSTing-Kang Chang
84*e7b1675dSTing-Kang Chang ASSERT_TRUE(HybridConfig::Register().ok());
85*e7b1675dSTing-Kang Chang
86*e7b1675dSTing-Kang Chang google::crypto::tink::KeysetInfo::KeyInfo key_info;
87*e7b1675dSTing-Kang Chang key_info.set_status(google::crypto::tink::KeyStatusType::ENABLED);
88*e7b1675dSTing-Kang Chang key_info.set_key_id(1234);
89*e7b1675dSTing-Kang Chang key_info.set_output_prefix_type(google::crypto::tink::OutputPrefixType::TINK);
90*e7b1675dSTing-Kang Chang auto primitive_set = absl::make_unique<PrimitiveSet<HybridEncrypt>>();
91*e7b1675dSTing-Kang Chang ASSERT_THAT(
92*e7b1675dSTing-Kang Chang primitive_set->set_primary(
93*e7b1675dSTing-Kang Chang primitive_set
94*e7b1675dSTing-Kang Chang ->AddPrimitive(absl::make_unique<DummyHybridEncrypt>("dummy"),
95*e7b1675dSTing-Kang Chang key_info)
96*e7b1675dSTing-Kang Chang .value()),
97*e7b1675dSTing-Kang Chang IsOk());
98*e7b1675dSTing-Kang Chang
99*e7b1675dSTing-Kang Chang auto wrapped = Registry::Wrap(std::move(primitive_set));
100*e7b1675dSTing-Kang Chang
101*e7b1675dSTing-Kang Chang ASSERT_TRUE(wrapped.ok()) << wrapped.status();
102*e7b1675dSTing-Kang Chang auto encryption_result = wrapped.value()->Encrypt("secret", "");
103*e7b1675dSTing-Kang Chang ASSERT_TRUE(encryption_result.ok());
104*e7b1675dSTing-Kang Chang
105*e7b1675dSTing-Kang Chang std::string prefix = CryptoFormat::GetOutputPrefix(key_info).value();
106*e7b1675dSTing-Kang Chang EXPECT_EQ(
107*e7b1675dSTing-Kang Chang encryption_result.value(),
108*e7b1675dSTing-Kang Chang absl::StrCat(prefix,
109*e7b1675dSTing-Kang Chang DummyHybridEncrypt("dummy").Encrypt("secret", "").value()));
110*e7b1675dSTing-Kang Chang }
111*e7b1675dSTing-Kang Chang
112*e7b1675dSTing-Kang Chang // Tests that the HybridDecryptWrapper has been properly registered and we
113*e7b1675dSTing-Kang Chang // can wrap primitives.
TEST_F(HybridConfigTest,DecryptWrapperRegistered)114*e7b1675dSTing-Kang Chang TEST_F(HybridConfigTest, DecryptWrapperRegistered) {
115*e7b1675dSTing-Kang Chang if (internal::IsFipsModeEnabled()) {
116*e7b1675dSTing-Kang Chang GTEST_SKIP() << "Not supported in FIPS-only mode";
117*e7b1675dSTing-Kang Chang }
118*e7b1675dSTing-Kang Chang
119*e7b1675dSTing-Kang Chang ASSERT_TRUE(HybridConfig::Register().ok());
120*e7b1675dSTing-Kang Chang
121*e7b1675dSTing-Kang Chang google::crypto::tink::KeysetInfo::KeyInfo key_info;
122*e7b1675dSTing-Kang Chang key_info.set_status(google::crypto::tink::KeyStatusType::ENABLED);
123*e7b1675dSTing-Kang Chang key_info.set_key_id(1234);
124*e7b1675dSTing-Kang Chang key_info.set_output_prefix_type(google::crypto::tink::OutputPrefixType::TINK);
125*e7b1675dSTing-Kang Chang auto primitive_set = absl::make_unique<PrimitiveSet<HybridDecrypt>>();
126*e7b1675dSTing-Kang Chang ASSERT_THAT(
127*e7b1675dSTing-Kang Chang primitive_set->set_primary(
128*e7b1675dSTing-Kang Chang primitive_set
129*e7b1675dSTing-Kang Chang ->AddPrimitive(absl::make_unique<DummyHybridDecrypt>("dummy"),
130*e7b1675dSTing-Kang Chang key_info)
131*e7b1675dSTing-Kang Chang .value()),
132*e7b1675dSTing-Kang Chang IsOk());
133*e7b1675dSTing-Kang Chang
134*e7b1675dSTing-Kang Chang auto wrapped = Registry::Wrap(std::move(primitive_set));
135*e7b1675dSTing-Kang Chang
136*e7b1675dSTing-Kang Chang ASSERT_TRUE(wrapped.ok()) << wrapped.status();
137*e7b1675dSTing-Kang Chang
138*e7b1675dSTing-Kang Chang std::string prefix = CryptoFormat::GetOutputPrefix(key_info).value();
139*e7b1675dSTing-Kang Chang std::string encryption =
140*e7b1675dSTing-Kang Chang DummyHybridEncrypt("dummy").Encrypt("secret", "").value();
141*e7b1675dSTing-Kang Chang
142*e7b1675dSTing-Kang Chang ASSERT_EQ(
143*e7b1675dSTing-Kang Chang wrapped.value()->Decrypt(absl::StrCat(prefix, encryption), "").value(),
144*e7b1675dSTing-Kang Chang "secret");
145*e7b1675dSTing-Kang Chang }
146*e7b1675dSTing-Kang Chang
147*e7b1675dSTing-Kang Chang // FIPS-only mode tests
TEST_F(HybridConfigTest,RegisterNonFipsTemplates)148*e7b1675dSTing-Kang Chang TEST_F(HybridConfigTest, RegisterNonFipsTemplates) {
149*e7b1675dSTing-Kang Chang if (!internal::IsFipsModeEnabled() || !internal::IsFipsEnabledInSsl()) {
150*e7b1675dSTing-Kang Chang GTEST_SKIP() << "Only supported in FIPS-only mode with BoringCrypto";
151*e7b1675dSTing-Kang Chang }
152*e7b1675dSTing-Kang Chang
153*e7b1675dSTing-Kang Chang EXPECT_THAT(HybridConfig::Register(), IsOk());
154*e7b1675dSTing-Kang Chang
155*e7b1675dSTing-Kang Chang // Check that we can not retrieve non-FIPS keyset handle
156*e7b1675dSTing-Kang Chang std::list<google::crypto::tink::KeyTemplate> non_fips_key_templates;
157*e7b1675dSTing-Kang Chang non_fips_key_templates.push_back(
158*e7b1675dSTing-Kang Chang HybridKeyTemplates::
159*e7b1675dSTing-Kang Chang EciesP256CompressedHkdfHmacSha256Aes128CtrHmacSha256());
160*e7b1675dSTing-Kang Chang non_fips_key_templates.push_back(
161*e7b1675dSTing-Kang Chang HybridKeyTemplates::EciesP256CompressedHkdfHmacSha256Aes128Gcm());
162*e7b1675dSTing-Kang Chang non_fips_key_templates.push_back(
163*e7b1675dSTing-Kang Chang HybridKeyTemplates::EciesP256HkdfHmacSha256Aes128CtrHmacSha256());
164*e7b1675dSTing-Kang Chang non_fips_key_templates.push_back(
165*e7b1675dSTing-Kang Chang HybridKeyTemplates::EciesP256HkdfHmacSha256Aes128Gcm());
166*e7b1675dSTing-Kang Chang non_fips_key_templates.push_back(
167*e7b1675dSTing-Kang Chang HybridKeyTemplates::
168*e7b1675dSTing-Kang Chang EciesP256HkdfHmacSha256Aes128GcmCompressedWithoutPrefix());
169*e7b1675dSTing-Kang Chang non_fips_key_templates.push_back(
170*e7b1675dSTing-Kang Chang HybridKeyTemplates::EciesX25519HkdfHmacSha256Aes128CtrHmacSha256());
171*e7b1675dSTing-Kang Chang non_fips_key_templates.push_back(
172*e7b1675dSTing-Kang Chang HybridKeyTemplates::EciesX25519HkdfHmacSha256Aes128Gcm());
173*e7b1675dSTing-Kang Chang non_fips_key_templates.push_back(
174*e7b1675dSTing-Kang Chang HybridKeyTemplates::EciesX25519HkdfHmacSha256XChaCha20Poly1305());
175*e7b1675dSTing-Kang Chang
176*e7b1675dSTing-Kang Chang for (auto key_template : non_fips_key_templates) {
177*e7b1675dSTing-Kang Chang EXPECT_THAT(KeysetHandle::GenerateNew(key_template).status(),
178*e7b1675dSTing-Kang Chang StatusIs(absl::StatusCode::kNotFound));
179*e7b1675dSTing-Kang Chang }
180*e7b1675dSTing-Kang Chang }
181*e7b1675dSTing-Kang Chang
182*e7b1675dSTing-Kang Chang } // namespace
183*e7b1675dSTing-Kang Chang } // namespace tink
184*e7b1675dSTing-Kang Chang } // namespace crypto
185