| // Copyright (c) 2017 The Chromium Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| #include "quiche/quic/core/crypto/aes_128_gcm_encrypter.h" |
| |
| #include <memory> |
| #include <string> |
| |
| #include "absl/base/macros.h" |
| #include "absl/strings/escaping.h" |
| #include "quiche/quic/core/quic_utils.h" |
| #include "quiche/quic/platform/api/quic_test.h" |
| #include "quiche/quic/test_tools/quic_test_utils.h" |
| #include "quiche/common/test_tools/quiche_test_utils.h" |
| |
| namespace { |
| |
| // The AES GCM test vectors come from the file gcmEncryptExtIV128.rsp |
| // downloaded from http://csrc.nist.gov/groups/STM/cavp/index.html on |
| // 2013-02-01. The test vectors in that file look like this: |
| // |
| // [Keylen = 128] |
| // [IVlen = 96] |
| // [PTlen = 0] |
| // [AADlen = 0] |
| // [Taglen = 128] |
| // |
| // Count = 0 |
| // Key = 11754cd72aec309bf52f7687212e8957 |
| // IV = 3c819d9a9bed087615030b65 |
| // PT = |
| // AAD = |
| // CT = |
| // Tag = 250327c674aaf477aef2675748cf6971 |
| // |
| // Count = 1 |
| // Key = ca47248ac0b6f8372a97ac43508308ed |
| // IV = ffd2b598feabc9019262d2be |
| // PT = |
| // AAD = |
| // CT = |
| // Tag = 60d20404af527d248d893ae495707d1a |
| // |
| // ... |
| // |
| // The gcmEncryptExtIV128.rsp file is huge (2.8 MB), so I selected just a |
| // few test vectors for this unit test. |
| |
| // Describes a group of test vectors that all have a given key length, IV |
| // length, plaintext length, AAD length, and tag length. |
| struct TestGroupInfo { |
| size_t key_len; |
| size_t iv_len; |
| size_t pt_len; |
| size_t aad_len; |
| size_t tag_len; |
| }; |
| |
| // Each test vector consists of six strings of lowercase hexadecimal digits. |
| // The strings may be empty (zero length). A test vector with a nullptr |key| |
| // marks the end of an array of test vectors. |
| struct TestVector { |
| const char* key; |
| const char* iv; |
| const char* pt; |
| const char* aad; |
| const char* ct; |
| const char* tag; |
| }; |
| |
| const TestGroupInfo test_group_info[] = { |
| {128, 96, 0, 0, 128}, {128, 96, 0, 128, 128}, {128, 96, 128, 0, 128}, |
| {128, 96, 408, 160, 128}, {128, 96, 408, 720, 128}, {128, 96, 104, 0, 128}, |
| }; |
| |
| const TestVector test_group_0[] = { |
| {"11754cd72aec309bf52f7687212e8957", "3c819d9a9bed087615030b65", "", "", "", |
| "250327c674aaf477aef2675748cf6971"}, |
| {"ca47248ac0b6f8372a97ac43508308ed", "ffd2b598feabc9019262d2be", "", "", "", |
| "60d20404af527d248d893ae495707d1a"}, |
| {nullptr, nullptr, nullptr, nullptr, nullptr, nullptr}}; |
| |
| const TestVector test_group_1[] = { |
| {"77be63708971c4e240d1cb79e8d77feb", "e0e00f19fed7ba0136a797f3", "", |
| "7a43ec1d9c0a5a78a0b16533a6213cab", "", |
| "209fcc8d3675ed938e9c7166709dd946"}, |
| {"7680c5d3ca6154758e510f4d25b98820", "f8f105f9c3df4965780321f8", "", |
| "c94c410194c765e3dcc7964379758ed3", "", |
| "94dca8edfcf90bb74b153c8d48a17930"}, |
| {nullptr, nullptr, nullptr, nullptr, nullptr, nullptr}}; |
| |
| const TestVector test_group_2[] = { |
| {"7fddb57453c241d03efbed3ac44e371c", "ee283a3fc75575e33efd4887", |
| "d5de42b461646c255c87bd2962d3b9a2", "", "2ccda4a5415cb91e135c2a0f78c9b2fd", |
| "b36d1df9b9d5e596f83e8b7f52971cb3"}, |
| {"ab72c77b97cb5fe9a382d9fe81ffdbed", "54cc7dc2c37ec006bcc6d1da", |
| "007c5e5b3e59df24a7c355584fc1518d", "", "0e1bde206a07a9c2c1b65300f8c64997", |
| "2b4401346697138c7a4891ee59867d0c"}, |
| {nullptr, nullptr, nullptr, nullptr, nullptr, nullptr}}; |
| |
| const TestVector test_group_3[] = { |
| {"fe47fcce5fc32665d2ae399e4eec72ba", "5adb9609dbaeb58cbd6e7275", |
| "7c0e88c88899a779228465074797cd4c2e1498d259b54390b85e3eef1c02df60e743f1" |
| "b840382c4bccaf3bafb4ca8429bea063", |
| "88319d6e1d3ffa5f987199166c8a9b56c2aeba5a", |
| "98f4826f05a265e6dd2be82db241c0fbbbf9ffb1c173aa83964b7cf539304373636525" |
| "3ddbc5db8778371495da76d269e5db3e", |
| "291ef1982e4defedaa2249f898556b47"}, |
| {"ec0c2ba17aa95cd6afffe949da9cc3a8", "296bce5b50b7d66096d627ef", |
| "b85b3753535b825cbe5f632c0b843c741351f18aa484281aebec2f45bb9eea2d79d987" |
| "b764b9611f6c0f8641843d5d58f3a242", |
| "f8d00f05d22bf68599bcdeb131292ad6e2df5d14", |
| "a7443d31c26bdf2a1c945e29ee4bd344a99cfaf3aa71f8b3f191f83c2adfc7a0716299" |
| "5506fde6309ffc19e716eddf1a828c5a", |
| "890147971946b627c40016da1ecf3e77"}, |
| {nullptr, nullptr, nullptr, nullptr, nullptr, nullptr}}; |
| |
| const TestVector test_group_4[] = { |
| {"2c1f21cf0f6fb3661943155c3e3d8492", "23cb5ff362e22426984d1907", |
| "42f758836986954db44bf37c6ef5e4ac0adaf38f27252a1b82d02ea949c8a1a2dbc0d6" |
| "8b5615ba7c1220ff6510e259f06655d8", |
| "5d3624879d35e46849953e45a32a624d6a6c536ed9857c613b572b0333e701557a713e" |
| "3f010ecdf9a6bd6c9e3e44b065208645aff4aabee611b391528514170084ccf587177f" |
| "4488f33cfb5e979e42b6e1cfc0a60238982a7aec", |
| "81824f0e0d523db30d3da369fdc0d60894c7a0a20646dd015073ad2732bd989b14a222" |
| "b6ad57af43e1895df9dca2a5344a62cc", |
| "57a3ee28136e94c74838997ae9823f3a"}, |
| {"d9f7d2411091f947b4d6f1e2d1f0fb2e", "e1934f5db57cc983e6b180e7", |
| "73ed042327f70fe9c572a61545eda8b2a0c6e1d6c291ef19248e973aee6c312012f490" |
| "c2c6f6166f4a59431e182663fcaea05a", |
| "0a8a18a7150e940c3d87b38e73baee9a5c049ee21795663e264b694a949822b639092d" |
| "0e67015e86363583fcf0ca645af9f43375f05fdb4ce84f411dcbca73c2220dea03a201" |
| "15d2e51398344b16bee1ed7c499b353d6c597af8", |
| "aaadbd5c92e9151ce3db7210b8714126b73e43436d242677afa50384f2149b831f1d57" |
| "3c7891c2a91fbc48db29967ec9542b23", |
| "21b51ca862cb637cdd03b99a0f93b134"}, |
| {nullptr, nullptr, nullptr, nullptr, nullptr, nullptr}}; |
| |
| const TestVector test_group_5[] = { |
| {"fe9bb47deb3a61e423c2231841cfd1fb", "4d328eb776f500a2f7fb47aa", |
| "f1cc3818e421876bb6b8bbd6c9", "", "b88c5c1977b35b517b0aeae967", |
| "43fd4727fe5cdb4b5b42818dea7ef8c9"}, |
| {"6703df3701a7f54911ca72e24dca046a", "12823ab601c350ea4bc2488c", |
| "793cd125b0b84a043e3ac67717", "", "b2051c80014f42f08735a7b0cd", |
| "38e6bcd29962e5f2c13626b85a877101"}, |
| {nullptr, nullptr, nullptr, nullptr, nullptr, nullptr}}; |
| |
| const TestVector* const test_group_array[] = { |
| test_group_0, test_group_1, test_group_2, |
| test_group_3, test_group_4, test_group_5, |
| }; |
| |
| } // namespace |
| |
| namespace quic { |
| namespace test { |
| |
| // EncryptWithNonce wraps the |Encrypt| method of |encrypter| to allow passing |
| // in an nonce and also to allocate the buffer needed for the ciphertext. |
| QuicData* EncryptWithNonce(Aes128GcmEncrypter* encrypter, |
| absl::string_view nonce, |
| absl::string_view associated_data, |
| absl::string_view plaintext) { |
| size_t ciphertext_size = encrypter->GetCiphertextSize(plaintext.length()); |
| std::unique_ptr<char[]> ciphertext(new char[ciphertext_size]); |
| |
| if (!encrypter->Encrypt(nonce, associated_data, plaintext, |
| reinterpret_cast<unsigned char*>(ciphertext.get()))) { |
| return nullptr; |
| } |
| |
| return new QuicData(ciphertext.release(), ciphertext_size, true); |
| } |
| |
| class Aes128GcmEncrypterTest : public QuicTest {}; |
| |
| TEST_F(Aes128GcmEncrypterTest, Encrypt) { |
| for (size_t i = 0; i < ABSL_ARRAYSIZE(test_group_array); i++) { |
| SCOPED_TRACE(i); |
| const TestVector* test_vectors = test_group_array[i]; |
| const TestGroupInfo& test_info = test_group_info[i]; |
| for (size_t j = 0; test_vectors[j].key != nullptr; j++) { |
| // Decode the test vector. |
| std::string key = absl::HexStringToBytes(test_vectors[j].key); |
| std::string iv = absl::HexStringToBytes(test_vectors[j].iv); |
| std::string pt = absl::HexStringToBytes(test_vectors[j].pt); |
| std::string aad = absl::HexStringToBytes(test_vectors[j].aad); |
| std::string ct = absl::HexStringToBytes(test_vectors[j].ct); |
| std::string tag = absl::HexStringToBytes(test_vectors[j].tag); |
| |
| // The test vector's lengths should look sane. Note that the lengths |
| // in |test_info| are in bits. |
| EXPECT_EQ(test_info.key_len, key.length() * 8); |
| EXPECT_EQ(test_info.iv_len, iv.length() * 8); |
| EXPECT_EQ(test_info.pt_len, pt.length() * 8); |
| EXPECT_EQ(test_info.aad_len, aad.length() * 8); |
| EXPECT_EQ(test_info.pt_len, ct.length() * 8); |
| EXPECT_EQ(test_info.tag_len, tag.length() * 8); |
| |
| Aes128GcmEncrypter encrypter; |
| ASSERT_TRUE(encrypter.SetKey(key)); |
| std::unique_ptr<QuicData> encrypted( |
| EncryptWithNonce(&encrypter, iv, |
| // This deliberately tests that the encrypter can |
| // handle an AAD that is set to nullptr, as opposed |
| // to a zero-length, non-nullptr pointer. |
| aad.length() ? aad : absl::string_view(), pt)); |
| ASSERT_TRUE(encrypted.get()); |
| |
| ASSERT_EQ(ct.length() + tag.length(), encrypted->length()); |
| quiche::test::CompareCharArraysWithHexError( |
| "ciphertext", encrypted->data(), ct.length(), ct.data(), ct.length()); |
| quiche::test::CompareCharArraysWithHexError( |
| "authentication tag", encrypted->data() + ct.length(), tag.length(), |
| tag.data(), tag.length()); |
| } |
| } |
| } |
| |
| TEST_F(Aes128GcmEncrypterTest, EncryptPacket) { |
| std::string key = absl::HexStringToBytes("d95a145250826c25a77b6a84fd4d34fc"); |
| std::string iv = absl::HexStringToBytes("50c4431ebb18283448e276e2"); |
| uint64_t packet_num = 0x13278f44; |
| std::string aad = |
| absl::HexStringToBytes("875d49f64a70c9cbe713278f44ff000005"); |
| std::string pt = absl::HexStringToBytes("aa0003a250bd000000000001"); |
| std::string ct = absl::HexStringToBytes( |
| "7dd4708b989ee7d38a013e3656e9b37beefd05808fe1ab41e3b4f2c0"); |
| |
| std::vector<char> out(ct.size()); |
| size_t out_size; |
| |
| Aes128GcmEncrypter encrypter; |
| ASSERT_TRUE(encrypter.SetKey(key)); |
| ASSERT_TRUE(encrypter.SetIV(iv)); |
| ASSERT_TRUE(encrypter.EncryptPacket(packet_num, aad, pt, out.data(), |
| &out_size, out.size())); |
| EXPECT_EQ(out_size, out.size()); |
| quiche::test::CompareCharArraysWithHexError("ciphertext", out.data(), |
| out.size(), ct.data(), ct.size()); |
| } |
| |
| TEST_F(Aes128GcmEncrypterTest, GetMaxPlaintextSize) { |
| Aes128GcmEncrypter encrypter; |
| EXPECT_EQ(1000u, encrypter.GetMaxPlaintextSize(1016)); |
| EXPECT_EQ(100u, encrypter.GetMaxPlaintextSize(116)); |
| EXPECT_EQ(10u, encrypter.GetMaxPlaintextSize(26)); |
| } |
| |
| TEST_F(Aes128GcmEncrypterTest, GetCiphertextSize) { |
| Aes128GcmEncrypter encrypter; |
| EXPECT_EQ(1016u, encrypter.GetCiphertextSize(1000)); |
| EXPECT_EQ(116u, encrypter.GetCiphertextSize(100)); |
| EXPECT_EQ(26u, encrypter.GetCiphertextSize(10)); |
| } |
| |
| TEST_F(Aes128GcmEncrypterTest, GenerateHeaderProtectionMask) { |
| Aes128GcmEncrypter encrypter; |
| std::string key = absl::HexStringToBytes("d9132370cb18476ab833649cf080d970"); |
| std::string sample = |
| absl::HexStringToBytes("d1d7998068517adb769b48b924a32c47"); |
| ASSERT_TRUE(encrypter.SetHeaderProtectionKey(key)); |
| std::string mask = encrypter.GenerateHeaderProtectionMask(sample); |
| std::string expected_mask = |
| absl::HexStringToBytes("b132c37d6164da4ea4dc9b763aceec27"); |
| quiche::test::CompareCharArraysWithHexError( |
| "header protection mask", mask.data(), mask.size(), expected_mask.data(), |
| expected_mask.size()); |
| } |
| |
| } // namespace test |
| } // namespace quic |