/* * Copyright 2015 The Android Open Source Project * * 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 #include #include #include #include #include "android_keymaster_test_utils.h" using std::string; namespace keymaster { namespace test { StdoutLogger logger; static const keymaster_ec_curve_t kEcCurves[] = {KM_EC_CURVE_P_224, KM_EC_CURVE_P_256, KM_EC_CURVE_P_384, KM_EC_CURVE_P_521}; /** * SharedKey just tests that the basic key exchange identity holds: that both * parties end up with the same key. */ TEST(NistCurveKeyExchange, SharedKey) { for (auto& curve : kEcCurves) { AuthorizationSet kex_description( AuthorizationSetBuilder().Authorization(TAG_EC_CURVE, curve)); for (size_t j = 0; j < 5; j++) { NistCurveKeyExchange* alice_keyex = NistCurveKeyExchange::GenerateKeyExchange(curve); NistCurveKeyExchange* bob_keyex = NistCurveKeyExchange::GenerateKeyExchange(curve); ASSERT_TRUE(alice_keyex != nullptr); ASSERT_TRUE(bob_keyex != nullptr); Buffer alice_public_value; ASSERT_TRUE(alice_keyex->public_value(&alice_public_value)); Buffer bob_public_value; ASSERT_TRUE(bob_keyex->public_value(&bob_public_value)); Buffer alice_shared, bob_shared; ASSERT_TRUE(alice_keyex->CalculateSharedKey(bob_public_value, &alice_shared)); ASSERT_TRUE(bob_keyex->CalculateSharedKey(alice_public_value, &bob_shared)); EXPECT_EQ(alice_shared.available_read(), bob_shared.available_read()); EXPECT_EQ(0, memcmp(alice_shared.peek_read(), bob_shared.peek_read(), alice_shared.available_read())); } } } /* * This test tries a key agreement with a false public key (i.e. with * a point not on the curve.) * The expected result of such a protocol should be that the * key agreement fails and returns an error. */ static const char* kInvalidPublicKeys[] = { "04" // uncompressed public key "deadbeef7f56584c5cc632ca65640db91b6bacce3a4df6b42ce7cc838833d287" "db71e509e3fd9b060ddb20ba5c51dcc5948d46fbf640dfe0441782cab85fa4ac", }; TEST(NistCurveKeyExchange, InvalidPublicKey) { for (auto& curve : kEcCurves) { AuthorizationSet kex_description( AuthorizationSetBuilder().Authorization(TAG_EC_CURVE, curve)); KeyExchange* key_exchange = NistCurveKeyExchange::GenerateKeyExchange(curve); ASSERT_TRUE(key_exchange != nullptr); string peer_public_key = hex2str(kInvalidPublicKeys[0]); Buffer computed_shared_secret; ASSERT_FALSE(key_exchange->CalculateSharedKey( reinterpret_cast(peer_public_key.data()), peer_public_key.size(), &computed_shared_secret)); } } /** * Test that key exchange fails when peer public key is the point at infinity. */ TEST(NistCurveKeyExchange, TestInfinity) { for (auto& curve : kEcCurves) { /* Obtain the point at infinity */ EC_GROUP* group = ec_get_group(curve); EC_POINT* point_at_infinity = EC_POINT_new(group); EC_POINT_set_to_infinity(group, point_at_infinity); EXPECT_EQ(1, EC_POINT_is_on_curve(group, point_at_infinity, nullptr)); size_t field_len_in_bits; ec_get_group_size(group, &field_len_in_bits); size_t field_len = (field_len_in_bits + 7) / 8; size_t public_key_len = (field_len * 2) + 1; uint8_t* public_key = new uint8_t[public_key_len]; public_key_len = EC_POINT_point2oct(group, point_at_infinity, POINT_CONVERSION_UNCOMPRESSED, public_key, public_key_len, nullptr /* ctx */); /* Perform the key exchange */ AuthorizationSet kex_description( AuthorizationSetBuilder().Authorization(TAG_EC_CURVE, curve)); NistCurveKeyExchange* key_exchange = NistCurveKeyExchange::GenerateKeyExchange(curve); ASSERT_TRUE(key_exchange != nullptr); Buffer computed_shared_secret; /* It should fail */ ASSERT_FALSE(key_exchange->CalculateSharedKey(reinterpret_cast(public_key), public_key_len, &computed_shared_secret)); /* Explicitly test that ECDH_compute_key fails when the public key is the point at infinity */ UniquePtr result(new uint8_t[field_len]); EXPECT_EQ(-1 /* error */, ECDH_compute_key(result.get(), field_len, point_at_infinity, key_exchange->private_key(), nullptr /* kdf */)); } } /* Test vectors for P-256, downloaded from NIST. */ struct NistCurveTest { const keymaster_ec_curve_t curve; const char* peer_public_key; const char* my_private_key; const char* shared_secret; }; static const NistCurveTest kNistCurveTests[] = { { KM_EC_CURVE_P_256, "04" // uncompressed public key "700c48f77f56584c5cc632ca65640db91b6bacce3a4df6b42ce7cc838833d287" "db71e509e3fd9b060ddb20ba5c51dcc5948d46fbf640dfe0441782cab85fa4ac", // https://tools.ietf.org/html/rfc5915 "30770201010420" // DER-encodeded EC private key header "7d7dc5f71eb29ddaf80d6214632eeae03d9058af1fb6d22ed80badb62bc1a534" // private key "a00a06082a8648ce3d030107a144034200" // DER-encoded curve OID, "04" "ead218590119e8876b29146ff89ca61770c4edbbf97d38ce385ed281d8a6b230" "28af61281fd35e2fa7002523acc85a429cb06ee6648325389f59edfce1405141", "46fc62106420ff012e54a434fbdd2d25ccc5852060561e68040dd7778997bd7b", }, { KM_EC_CURVE_P_256, "04" "809f04289c64348c01515eb03d5ce7ac1a8cb9498f5caa50197e58d43a86a7ae" "b29d84e811197f25eba8f5194092cb6ff440e26d4421011372461f579271cda3", // https://tools.ietf.org/html/rfc5915 "30770201010420" // DER-encodeded EC private key header "38f65d6dce47676044d58ce5139582d568f64bb16098d179dbab07741dd5caf5" // private key "a00a06082a8648ce3d030107a144034200" // DER-encoded curve OID, "04" "119f2f047902782ab0c9e27a54aff5eb9b964829ca99c06b02ddba95b0a3f6d0" "8f52b726664cac366fc98ac7a012b2682cbd962e5acb544671d41b9445704d1d", "057d636096cb80b67a8c038c890e887d1adfa4195e9b3ce241c8a778c59cda67", }, { KM_EC_CURVE_P_256, "04" "df3989b9fa55495719b3cf46dccd28b5153f7808191dd518eff0c3cff2b705ed" "422294ff46003429d739a33206c8752552c8ba54a270defc06e221e0feaf6ac4", // https://tools.ietf.org/html/rfc5915 "30770201010420" // DER-encodeded EC private key header "207c43a79bfee03db6f4b944f53d2fb76cc49ef1c9c4d34d51b6c65c4db6932d" // private key "a00a06082a8648ce3d030107a144034200" // DER-encoded curve OID, "04" "24277c33f450462dcb3d4801d57b9ced05188f16c28eda873258048cd1607e0d" "c4789753e2b1f63b32ff014ec42cd6a69fac81dfe6d0d6fd4af372ae27c46f88", "96441259534b80f6aee3d287a6bb17b5094dd4277d9e294f8fe73e48bf2a0024", }, }; /** * Test that key exchange works with NIST test vectors. */ TEST(NistCurveKeyExchange, NistTestVectors) { for (auto& test : kNistCurveTests) { string private_key = hex2str(test.my_private_key); string shared_secret = hex2str(test.shared_secret); const uint8_t* private_key_data = reinterpret_cast(private_key.data()); UniquePtr ec_key( d2i_ECPrivateKey(nullptr, &private_key_data, private_key.size())); ASSERT_TRUE(ec_key.get() && EC_KEY_check_key(ec_key.get())); keymaster_error_t error; NistCurveKeyExchange* key_exchange = new NistCurveKeyExchange(ec_key.release(), &error); EXPECT_EQ(KM_ERROR_OK, error); ASSERT_TRUE(key_exchange != nullptr); Buffer computed_shared_secret; string peer_public_key = hex2str(test.peer_public_key); ASSERT_TRUE(key_exchange->CalculateSharedKey( reinterpret_cast(peer_public_key.data()), peer_public_key.size(), &computed_shared_secret)); EXPECT_EQ(shared_secret.size(), computed_shared_secret.available_read()); EXPECT_EQ(0, memcmp(shared_secret.data(), computed_shared_secret.peek_read(), shared_secret.size())); for (size_t i = 0; i < peer_public_key.size(); i++) { // randomly flip some bits in the peer public key to make it invalid peer_public_key[i] ^= 0xff; ASSERT_FALSE(key_exchange->CalculateSharedKey( reinterpret_cast(peer_public_key.data()), peer_public_key.size(), &computed_shared_secret)); } } } } // namespace test } // namespace keymaster