components/webcrypto/test/rsa_oaep_unittest.cc - Issue 1304063015: [refactor] Rename the webcrypto/openssl and webcrypto/test directories.

Unified Diff: components/webcrypto/test/rsa_oaep_unittest.cc

Issue 1304063015: [refactor] Rename the webcrypto/openssl and webcrypto/test directories. (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@jwk_refactor

Patch Set: Created 5 years, 3 months ago

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Index: components/webcrypto/test/rsa_oaep_unittest.cc

diff --git a/components/webcrypto/test/rsa_oaep_unittest.cc b/components/webcrypto/test/rsa_oaep_unittest.cc

deleted file mode 100644

index 2f618626fe28f770e9a218276bd925ebb6355091..0000000000000000000000000000000000000000

--- a/components/webcrypto/test/rsa_oaep_unittest.cc

+++ /dev/null

@@ -1,503 +0,0 @@

-// Use of this source code is governed by a BSD-style license that can be

-// found in the LICENSE file.

-#include "base/logging.h"

-#include "base/stl_util.h"

-#include "components/webcrypto/algorithm_dispatch.h"

-#include "components/webcrypto/crypto_data.h"

-#include "components/webcrypto/jwk.h"

-#include "components/webcrypto/status.h"

-#include "components/webcrypto/test/test_helpers.h"

-#include "components/webcrypto/webcrypto_util.h"

-#include "testing/gtest/include/gtest/gtest.h"

-#include "third_party/WebKit/public/platform/WebCryptoAlgorithmParams.h"

-#include "third_party/WebKit/public/platform/WebCryptoKeyAlgorithm.h"

-namespace webcrypto {

-namespace {

-// Creates an RSA-OAEP algorithm

-blink::WebCryptoAlgorithm CreateRsaOaepAlgorithm(

- const std::vector<uint8_t>& label) {

- return blink::WebCryptoAlgorithm::adoptParamsAndCreate(

- blink::WebCryptoAlgorithmIdRsaOaep,

- new blink::WebCryptoRsaOaepParams(

- !label.empty(), vector_as_array(&label),

- static_cast<unsigned int>(label.size())));

-scoped_ptr<base::DictionaryValue> CreatePublicKeyJwkDict() {

- scoped_ptr<base::DictionaryValue> jwk(new base::DictionaryValue());

- jwk->SetString("kty", "RSA");

- jwk->SetString("n",

- Base64EncodeUrlSafe(HexStringToBytes(kPublicKeyModulusHex)));

- jwk->SetString("e",

- Base64EncodeUrlSafe(HexStringToBytes(kPublicKeyExponentHex)));

- return jwk.Pass();

-// Import a PKCS#8 private key that uses RSAPrivateKey with the

-// id-rsaEncryption OID.

-TEST(WebCryptoRsaOaepTest, ImportPkcs8WithRsaEncryption) {

- blink::WebCryptoKey private_key;

- ASSERT_EQ(Status::Success(),

- ImportKey(blink::WebCryptoKeyFormatPkcs8,

- CryptoData(HexStringToBytes(kPrivateKeyPkcs8DerHex)),

- CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep,

- blink::WebCryptoAlgorithmIdSha1),

- true, blink::WebCryptoKeyUsageDecrypt, &private_key));

-TEST(WebCryptoRsaOaepTest, ImportPublicJwkWithNoAlg) {

- scoped_ptr<base::DictionaryValue> jwk(CreatePublicKeyJwkDict());

- blink::WebCryptoKey public_key;

- ASSERT_EQ(

- Status::Success(),

- ImportKeyJwkFromDict(*jwk.get(), CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep,

- blink::WebCryptoAlgorithmIdSha1),

- true, blink::WebCryptoKeyUsageEncrypt, &public_key));

-TEST(WebCryptoRsaOaepTest, ImportPublicJwkWithMatchingAlg) {

- scoped_ptr<base::DictionaryValue> jwk(CreatePublicKeyJwkDict());

- jwk->SetString("alg", "RSA-OAEP");

- blink::WebCryptoKey public_key;

- ASSERT_EQ(

- Status::Success(),

- ImportKeyJwkFromDict(*jwk.get(), CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep,

- blink::WebCryptoAlgorithmIdSha1),

- true, blink::WebCryptoKeyUsageEncrypt, &public_key));

-TEST(WebCryptoRsaOaepTest, ImportPublicJwkWithMismatchedAlgFails) {

- scoped_ptr<base::DictionaryValue> jwk(CreatePublicKeyJwkDict());

- jwk->SetString("alg", "RSA-OAEP-512");

- blink::WebCryptoKey public_key;

- ASSERT_EQ(

- Status::ErrorJwkAlgorithmInconsistent(),

- ImportKeyJwkFromDict(*jwk.get(), CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep,

- blink::WebCryptoAlgorithmIdSha1),

- true, blink::WebCryptoKeyUsageEncrypt, &public_key));

-TEST(WebCryptoRsaOaepTest, ImportPublicJwkWithMismatchedTypeFails) {

- scoped_ptr<base::DictionaryValue> jwk(CreatePublicKeyJwkDict());

- jwk->SetString("kty", "oct");

- jwk->SetString("alg", "RSA-OAEP");

- blink::WebCryptoKey public_key;

- ASSERT_EQ(

- Status::ErrorJwkUnexpectedKty("RSA"),

- ImportKeyJwkFromDict(*jwk.get(), CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep,

- blink::WebCryptoAlgorithmIdSha1),

- true, blink::WebCryptoKeyUsageEncrypt, &public_key));

-TEST(WebCryptoRsaOaepTest, ExportPublicJwk) {

- struct TestData {

- blink::WebCryptoAlgorithmId hash_alg;

- const char* expected_jwk_alg;

- } kTestData[] = {{blink::WebCryptoAlgorithmIdSha1, "RSA-OAEP"},

- {blink::WebCryptoAlgorithmIdSha256, "RSA-OAEP-256"},

- {blink::WebCryptoAlgorithmIdSha384, "RSA-OAEP-384"},

- {blink::WebCryptoAlgorithmIdSha512, "RSA-OAEP-512"}};

- for (size_t i = 0; i < arraysize(kTestData); ++i) {

- const TestData& test_data = kTestData[i];

- SCOPED_TRACE(test_data.expected_jwk_alg);

- scoped_ptr<base::DictionaryValue> jwk(CreatePublicKeyJwkDict());

- jwk->SetString("alg", test_data.expected_jwk_alg);

- // Import the key in a known-good format

- blink::WebCryptoKey public_key;

- ASSERT_EQ(Status::Success(),

- ImportKeyJwkFromDict(

- *jwk.get(),

- CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep, test_data.hash_alg),

- true, blink::WebCryptoKeyUsageEncrypt, &public_key));

- // Now export the key as JWK and verify its contents

- std::vector<uint8_t> jwk_data;

- ASSERT_EQ(Status::Success(),

- ExportKey(blink::WebCryptoKeyFormatJwk, public_key, &jwk_data));

- EXPECT_TRUE(VerifyPublicJwk(jwk_data, test_data.expected_jwk_alg,

- kPublicKeyModulusHex, kPublicKeyExponentHex,

- blink::WebCryptoKeyUsageEncrypt));

- }

-TEST(WebCryptoRsaOaepTest, EncryptDecryptKnownAnswerTest) {

- scoped_ptr<base::ListValue> tests;

- ASSERT_TRUE(ReadJsonTestFileToList("rsa_oaep.json", &tests));

- for (size_t test_index = 0; test_index < tests->GetSize(); ++test_index) {

- SCOPED_TRACE(test_index);

- base::DictionaryValue* test = NULL;

- ASSERT_TRUE(tests->GetDictionary(test_index, &test));

- blink::WebCryptoAlgorithm digest_algorithm =

- GetDigestAlgorithm(test, "hash");

- ASSERT_FALSE(digest_algorithm.isNull());

- std::vector<uint8_t> public_key_der =

- GetBytesFromHexString(test, "public_key");

- std::vector<uint8_t> private_key_der =

- GetBytesFromHexString(test, "private_key");

- std::vector<uint8_t> ciphertext = GetBytesFromHexString(test, "ciphertext");

- std::vector<uint8_t> plaintext = GetBytesFromHexString(test, "plaintext");

- std::vector<uint8_t> label = GetBytesFromHexString(test, "label");

- blink::WebCryptoAlgorithm import_algorithm = CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep, digest_algorithm.id());

- blink::WebCryptoKey public_key;

- blink::WebCryptoKey private_key;

- ASSERT_NO_FATAL_FAILURE(ImportRsaKeyPair(

- public_key_der, private_key_der, import_algorithm, false,

- blink::WebCryptoKeyUsageEncrypt, blink::WebCryptoKeyUsageDecrypt,

- &public_key, &private_key));

- blink::WebCryptoAlgorithm op_algorithm = CreateRsaOaepAlgorithm(label);

- std::vector<uint8_t> decrypted_data;

- ASSERT_EQ(Status::Success(),

- Decrypt(op_algorithm, private_key, CryptoData(ciphertext),

- &decrypted_data));

- EXPECT_BYTES_EQ(plaintext, decrypted_data);

- std::vector<uint8_t> encrypted_data;

- ASSERT_EQ(Status::Success(),

- Encrypt(op_algorithm, public_key, CryptoData(plaintext),

- &encrypted_data));

- std::vector<uint8_t> redecrypted_data;

- ASSERT_EQ(Status::Success(),

- Decrypt(op_algorithm, private_key, CryptoData(encrypted_data),

- &redecrypted_data));

- EXPECT_BYTES_EQ(plaintext, redecrypted_data);

- }

-TEST(WebCryptoRsaOaepTest, EncryptWithLargeMessageFails) {

- const blink::WebCryptoAlgorithmId kHash = blink::WebCryptoAlgorithmIdSha1;

- const size_t kHashSize = 20;

- scoped_ptr<base::DictionaryValue> jwk(CreatePublicKeyJwkDict());

- blink::WebCryptoKey public_key;

- ASSERT_EQ(Status::Success(),

- ImportKeyJwkFromDict(

- *jwk.get(), CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep, kHash),

- true, blink::WebCryptoKeyUsageEncrypt, &public_key));

- // The maximum size of an encrypted message is:

- // modulus length

- // - 1 (leading octet)

- // - hash size (maskedSeed)

- // - hash size (lHash portion of maskedDB)

- // - 1 (at least one octet for the padding string)

- size_t kMaxMessageSize = (kModulusLengthBits / 8) - 2 - (2 * kHashSize);

- // The label has no influence on the maximum message size. For simplicity,

- // use the empty string.

- std::vector<uint8_t> label;

- blink::WebCryptoAlgorithm op_algorithm = CreateRsaOaepAlgorithm(label);

- // Test that a message just before the boundary succeeds.

- std::string large_message;

- large_message.resize(kMaxMessageSize - 1, 'A');

- std::vector<uint8_t> ciphertext;

- ASSERT_EQ(Status::Success(), Encrypt(op_algorithm, public_key,

- CryptoData(large_message), &ciphertext));

- // Test that a message at the boundary succeeds.

- large_message.resize(kMaxMessageSize, 'A');

- ciphertext.clear();

- ASSERT_EQ(Status::Success(), Encrypt(op_algorithm, public_key,

- CryptoData(large_message), &ciphertext));

- // Test that a message greater than the largest size fails.

- large_message.resize(kMaxMessageSize + 1, 'A');

- ciphertext.clear();

- ASSERT_EQ(Status::OperationError(),

- Encrypt(op_algorithm, public_key, CryptoData(large_message),

- &ciphertext));

-// Ensures that if the selected hash algorithm for the RSA-OAEP message is too

-// large, then it is rejected, independent of the actual message to be

-// encrypted.

-// For example, a 1024-bit RSA key is too small to accomodate a message that

-// uses OAEP with SHA-512, since it requires 1040 bits to encode

-// (2 * hash size + 2 padding bytes).

-TEST(WebCryptoRsaOaepTest, EncryptWithLargeDigestFails) {

- const blink::WebCryptoAlgorithmId kHash = blink::WebCryptoAlgorithmIdSha512;

- scoped_ptr<base::DictionaryValue> jwk(CreatePublicKeyJwkDict());

- blink::WebCryptoKey public_key;

- ASSERT_EQ(Status::Success(),

- ImportKeyJwkFromDict(

- *jwk.get(), CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep, kHash),

- true, blink::WebCryptoKeyUsageEncrypt, &public_key));

- // The label has no influence on the maximum message size. For simplicity,

- // use the empty string.

- std::vector<uint8_t> label;

- blink::WebCryptoAlgorithm op_algorithm = CreateRsaOaepAlgorithm(label);

- std::string small_message("A");

- std::vector<uint8_t> ciphertext;

- // This is an operation error, as the internal consistency checking of the

- // algorithm parameters is up to the implementation.

- ASSERT_EQ(Status::OperationError(),

- Encrypt(op_algorithm, public_key, CryptoData(small_message),

- &ciphertext));

-TEST(WebCryptoRsaOaepTest, DecryptWithLargeMessageFails) {

- blink::WebCryptoKey private_key;

- ASSERT_EQ(Status::Success(),

- ImportKey(blink::WebCryptoKeyFormatPkcs8,

- CryptoData(HexStringToBytes(kPrivateKeyPkcs8DerHex)),

- CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep,

- blink::WebCryptoAlgorithmIdSha1),

- true, blink::WebCryptoKeyUsageDecrypt, &private_key));

- // The label has no influence on the maximum message size. For simplicity,

- // use the empty string.

- std::vector<uint8_t> label;

- blink::WebCryptoAlgorithm op_algorithm = CreateRsaOaepAlgorithm(label);

- std::string large_dummy_message(kModulusLengthBits / 8, 'A');

- std::vector<uint8_t> plaintext;

- ASSERT_EQ(Status::OperationError(),

- Decrypt(op_algorithm, private_key, CryptoData(large_dummy_message),

- &plaintext));

-TEST(WebCryptoRsaOaepTest, WrapUnwrapRawKey) {

- blink::WebCryptoAlgorithm import_algorithm = CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep, blink::WebCryptoAlgorithmIdSha1);

- blink::WebCryptoKey public_key;

- blink::WebCryptoKey private_key;

- ASSERT_NO_FATAL_FAILURE(ImportRsaKeyPair(

- HexStringToBytes(kPublicKeySpkiDerHex),

- HexStringToBytes(kPrivateKeyPkcs8DerHex), import_algorithm, false,

- blink::WebCryptoKeyUsageEncrypt | blink::WebCryptoKeyUsageWrapKey,

- blink::WebCryptoKeyUsageDecrypt | blink::WebCryptoKeyUsageUnwrapKey,

- &public_key, &private_key));

- std::vector<uint8_t> label;

- blink::WebCryptoAlgorithm wrapping_algorithm = CreateRsaOaepAlgorithm(label);

- const std::string key_hex = "000102030405060708090A0B0C0D0E0F";

- const blink::WebCryptoAlgorithm key_algorithm =

- CreateAlgorithm(blink::WebCryptoAlgorithmIdAesCbc);

- blink::WebCryptoKey key =

- ImportSecretKeyFromRaw(HexStringToBytes(key_hex), key_algorithm,

- blink::WebCryptoKeyUsageEncrypt);

- ASSERT_FALSE(key.isNull());

- std::vector<uint8_t> wrapped_key;

- ASSERT_EQ(Status::Success(),

- WrapKey(blink::WebCryptoKeyFormatRaw, key, public_key,

- wrapping_algorithm, &wrapped_key));

- // Verify that |wrapped_key| can be decrypted and yields the key data.

- // Because |private_key| supports both decrypt and unwrap, this is valid.

- std::vector<uint8_t> decrypted_key;

- ASSERT_EQ(Status::Success(),

- Decrypt(wrapping_algorithm, private_key, CryptoData(wrapped_key),

- &decrypted_key));

- EXPECT_BYTES_EQ_HEX(key_hex, decrypted_key);

- // Now attempt to unwrap the key, which should also decrypt the data.

- blink::WebCryptoKey unwrapped_key;

- ASSERT_EQ(Status::Success(),

- UnwrapKey(blink::WebCryptoKeyFormatRaw, CryptoData(wrapped_key),

- private_key, wrapping_algorithm, key_algorithm, true,

- blink::WebCryptoKeyUsageEncrypt, &unwrapped_key));

- ASSERT_FALSE(unwrapped_key.isNull());

- std::vector<uint8_t> raw_key;

- ASSERT_EQ(Status::Success(),

- ExportKey(blink::WebCryptoKeyFormatRaw, unwrapped_key, &raw_key));

- EXPECT_BYTES_EQ_HEX(key_hex, raw_key);

-TEST(WebCryptoRsaOaepTest, WrapUnwrapJwkSymKey) {

- // The public and private portions of a 2048-bit RSA key with the

- // id-rsaEncryption OID

- const char kPublicKey2048SpkiDerHex[] =

- "30820122300d06092a864886f70d01010105000382010f003082010a0282010100c5d8ce"

- "137a38168c8ab70229cfa5accc640567159750a312ce2e7d54b6e2fdd59b300c6a6c9764"

- "f8de6f00519cdb90111453d273a967462786480621f9e7cee5b73d63358448e7183a3a68"

- "e991186359f26aa88fbca5f53e673e502e4c5a2ba5068aeba60c9d0c44d872458d1b1e2f"

- "7f339f986076d516e93dc750f0b7680b6f5f02bc0d5590495be04c4ae59d34ba17bc5d08"

- "a93c75cfda2828f4a55b153af912038438276cb4a14f8116ca94db0ea9893652d02fc606"

- "36f19975e3d79a4d8ea8bfed6f8e0a24b63d243b08ea70a086ad56dd6341d733711c89ca"

- "749d4a80b3e6ecd2f8e53731eadeac2ea77788ee55d7b4b47c0f2523fbd61b557c16615d"

- "5d0203010001";

- const char kPrivateKey2048Pkcs8DerHex[] =

- "308204bd020100300d06092a864886f70d0101010500048204a7308204a3020100028201"

- "0100c5d8ce137a38168c8ab70229cfa5accc640567159750a312ce2e7d54b6e2fdd59b30"

- "0c6a6c9764f8de6f00519cdb90111453d273a967462786480621f9e7cee5b73d63358448"

- "e7183a3a68e991186359f26aa88fbca5f53e673e502e4c5a2ba5068aeba60c9d0c44d872"

- "458d1b1e2f7f339f986076d516e93dc750f0b7680b6f5f02bc0d5590495be04c4ae59d34"

- "ba17bc5d08a93c75cfda2828f4a55b153af912038438276cb4a14f8116ca94db0ea98936"

- "52d02fc60636f19975e3d79a4d8ea8bfed6f8e0a24b63d243b08ea70a086ad56dd6341d7"

- "33711c89ca749d4a80b3e6ecd2f8e53731eadeac2ea77788ee55d7b4b47c0f2523fbd61b"

- "557c16615d5d02030100010282010074b70feb41a0b0fcbc207670400556c9450042ede3"

- "d4383fb1ce8f3558a6d4641d26dd4c333fa4db842d2b9cf9d2354d3e16ad027a9f682d8c"

- "f4145a1ad97b9edcd8a41c402bd9d8db10f62f43df854cdccbbb2100834f083f53ed6d42"

- "b1b729a59072b004a4e945fc027db15e9c121d1251464d320d4774d5732df6b3dbf751f4"

- "9b19c9db201e19989c883bbaad5333db47f64f6f7a95b8d4936b10d945aa3f794cfaab62"

- "e7d47686129358914f3b8085f03698a650ab5b8c7e45813f2b0515ec05b6e5195b6a7c2a"

- "0d36969745f431ded4fd059f6aa361a4649541016d356297362b778e90f077d48815b339"

- "ec6f43aba345df93e67fcb6c2cb5b4544e9be902818100e9c90abe5f9f32468c5b6d630c"

- "54a4d7d75e29a72cf792f21e242aac78fd7995c42dfd4ae871d2619ff7096cb05baa78e3"

- "23ecab338401a8059adf7a0d8be3b21edc9a9c82c5605634a2ec81ec053271721351868a"

- "4c2e50c689d7cef94e31ff23658af5843366e2b289c5bf81d72756a7b93487dd8770d69c"

- "1f4e089d6d89f302818100d8a58a727c4e209132afd9933b98c89aca862a01cc0be74133"

- "bee517909e5c379e526895ac4af11780c1fe91194c777c9670b6423f0f5a32fd7691a622"

- "113eef4bed2ef863363a335fd55b0e75088c582437237d7f3ed3f0a643950237bc6e6277"

- "ccd0d0a1b4170aa1047aa7ffa7c8c54be10e8c7327ae2e0885663963817f6f02818100e5"

- "aed9ba4d71b7502e6748a1ce247ecb7bd10c352d6d9256031cdf3c11a65e44b0b7ca2945"

- "134671195af84c6b3bb3d10ebf65ae916f38bd5dbc59a0ad1c69b8beaf57cb3a8335f19b"

- "c7117b576987b48331cd9fd3d1a293436b7bb5e1a35c6560de4b5688ea834367cb0997eb"

- "b578f59ed4cb724c47dba94d3b484c1876dcd70281807f15bc7d2406007cac2b138a96af"

- "2d1e00276b84da593132c253fcb73212732dfd25824c2a615bc3d9b7f2c8d2fa542d3562"

- "b0c7738e61eeff580a6056239fb367ea9e5efe73d4f846033602e90c36a78db6fa8ea792"

- "0769675ec58e237bd994d189c8045a96f5dd3a4f12547257ce224e3c9af830a4da3c0eab"

- "9227a0035ae9028180067caea877e0b23090fc689322b71fbcce63d6596e66ab5fcdbaa0"

- "0d49e93aba8effb4518c2da637f209028401a68f344865b4956b032c69acde51d29177ca"

- "3db99fdbf5e74848ed4fa7bdfc2ebb60e2aaa5354770a763e1399ab7a2099762d525fea0"

- "37f3e1972c45a477e66db95c9609bb27f862700ef93379930786cf751b";

- blink::WebCryptoAlgorithm import_algorithm = CreateRsaHashedImportAlgorithm(

- blink::WebCryptoAlgorithmIdRsaOaep, blink::WebCryptoAlgorithmIdSha1);

- blink::WebCryptoKey public_key;

- blink::WebCryptoKey private_key;

- ASSERT_NO_FATAL_FAILURE(ImportRsaKeyPair(

- HexStringToBytes(kPublicKey2048SpkiDerHex),

- HexStringToBytes(kPrivateKey2048Pkcs8DerHex), import_algorithm, false,

- blink::WebCryptoKeyUsageEncrypt | blink::WebCryptoKeyUsageWrapKey,

- blink::WebCryptoKeyUsageDecrypt | blink::WebCryptoKeyUsageUnwrapKey,

- &public_key, &private_key));

- std::vector<uint8_t> label;

- blink::WebCryptoAlgorithm wrapping_algorithm = CreateRsaOaepAlgorithm(label);

- const std::string key_hex = "000102030405060708090a0b0c0d0e0f";

- const blink::WebCryptoAlgorithm key_algorithm =

- CreateAlgorithm(blink::WebCryptoAlgorithmIdAesCbc);

- blink::WebCryptoKey key =

- ImportSecretKeyFromRaw(HexStringToBytes(key_hex), key_algorithm,

- blink::WebCryptoKeyUsageEncrypt);

- ASSERT_FALSE(key.isNull());

- std::vector<uint8_t> wrapped_key;

- ASSERT_EQ(Status::Success(),

- WrapKey(blink::WebCryptoKeyFormatJwk, key, public_key,

- wrapping_algorithm, &wrapped_key));

- // Verify that |wrapped_key| can be decrypted and yields a valid JWK object.

- // Because |private_key| supports both decrypt and unwrap, this is valid.

- std::vector<uint8_t> decrypted_jwk;

- ASSERT_EQ(Status::Success(),

- Decrypt(wrapping_algorithm, private_key, CryptoData(wrapped_key),

- &decrypted_jwk));

- EXPECT_TRUE(VerifySecretJwk(decrypted_jwk, "A128CBC", key_hex,

- blink::WebCryptoKeyUsageEncrypt));

- // Now attempt to unwrap the key, which should also decrypt the data.

- blink::WebCryptoKey unwrapped_key;

- ASSERT_EQ(Status::Success(),

- UnwrapKey(blink::WebCryptoKeyFormatJwk, CryptoData(wrapped_key),

- private_key, wrapping_algorithm, key_algorithm, true,

- blink::WebCryptoKeyUsageEncrypt, &unwrapped_key));

- ASSERT_FALSE(unwrapped_key.isNull());

- std::vector<uint8_t> raw_key;

- ASSERT_EQ(Status::Success(),

- ExportKey(blink::WebCryptoKeyFormatRaw, unwrapped_key, &raw_key));

- EXPECT_BYTES_EQ_HEX(key_hex, raw_key);

-TEST(WebCryptoRsaOaepTest, ImportExportJwkRsaPublicKey) {

- struct TestCase {

- const blink::WebCryptoAlgorithmId hash;

- const blink::WebCryptoKeyUsageMask usage;

- const char* const jwk_alg;

- };

- const TestCase kTests[] = {{blink::WebCryptoAlgorithmIdSha1,

- blink::WebCryptoKeyUsageEncrypt,

- "RSA-OAEP"},

- {blink::WebCryptoAlgorithmIdSha256,

- blink::WebCryptoKeyUsageEncrypt,

- "RSA-OAEP-256"},

- {blink::WebCryptoAlgorithmIdSha384,

- blink::WebCryptoKeyUsageEncrypt,

- "RSA-OAEP-384"},

- {blink::WebCryptoAlgorithmIdSha512,

- blink::WebCryptoKeyUsageEncrypt,

- "RSA-OAEP-512"}};

- for (size_t test_index = 0; test_index < arraysize(kTests); ++test_index) {

- SCOPED_TRACE(test_index);

- const TestCase& test = kTests[test_index];

- const blink::WebCryptoAlgorithm import_algorithm =

- CreateRsaHashedImportAlgorithm(blink::WebCryptoAlgorithmIdRsaOaep,

- test.hash);

- // Import the spki to create a public key

- blink::WebCryptoKey public_key;

- ASSERT_EQ(Status::Success(),

- ImportKey(blink::WebCryptoKeyFormatSpki,

- CryptoData(HexStringToBytes(kPublicKeySpkiDerHex)),

- import_algorithm, true, test.usage, &public_key));

- // Export the public key as JWK and verify its contents

- std::vector<uint8_t> jwk;

- ASSERT_EQ(Status::Success(),

- ExportKey(blink::WebCryptoKeyFormatJwk, public_key, &jwk));

- EXPECT_TRUE(VerifyPublicJwk(jwk, test.jwk_alg, kPublicKeyModulusHex,

- kPublicKeyExponentHex, test.usage));

- // Import the JWK back in to create a new key

- blink::WebCryptoKey public_key2;

- ASSERT_EQ(Status::Success(),

- ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(jwk),

- import_algorithm, true, test.usage, &public_key2));

- ASSERT_TRUE(public_key2.handle());

- EXPECT_EQ(blink::WebCryptoKeyTypePublic, public_key2.type());

- EXPECT_TRUE(public_key2.extractable());

- EXPECT_EQ(import_algorithm.id(), public_key2.algorithm().id());

- // TODO(eroman): Export the SPKI and verify matches.

- }

-} // namespace

-} // namespace webcrypto

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