[refactor] Rename the webcrypto/openssl and webcrypto/test directories.

components/webcrypto/test/hmac_unittest.cc

-// Copyright 2014 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 "base/logging.h"
-#include "base/stl_util.h"
-#include "components/webcrypto/algorithm_dispatch.h"
-#include "components/webcrypto/crypto_data.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 HMAC algorithm whose parameters struct is compatible with key
-// generation. It is an error to call this with a hash_id that is not a SHA*.
-// The key_length_bits parameter is optional, with zero meaning unspecified.
-blink::WebCryptoAlgorithm CreateHmacKeyGenAlgorithm(
-    blink::WebCryptoAlgorithmId hash_id,
-    unsigned int key_length_bits) {
-  DCHECK(blink::WebCryptoAlgorithm::isHash(hash_id));
-  // key_length_bytes == 0 means unspecified
-  return blink::WebCryptoAlgorithm::adoptParamsAndCreate(
-      blink::WebCryptoAlgorithmIdHmac,
-      new blink::WebCryptoHmacKeyGenParams(
-          CreateAlgorithm(hash_id), (key_length_bits != 0), key_length_bits));
-}
-
-blink::WebCryptoAlgorithm CreateHmacImportAlgorithmWithLength(
-    blink::WebCryptoAlgorithmId hash_id,
-    unsigned int length_bits) {
-  DCHECK(blink::WebCryptoAlgorithm::isHash(hash_id));
-  return blink::WebCryptoAlgorithm::adoptParamsAndCreate(
-      blink::WebCryptoAlgorithmIdHmac,
-      new blink::WebCryptoHmacImportParams(CreateAlgorithm(hash_id), true,
-                                           length_bits));
-}
-
-TEST(WebCryptoHmacTest, HMACSampleSets) {
-  scoped_ptr<base::ListValue> tests;
-  ASSERT_TRUE(ReadJsonTestFileToList("hmac.json", &tests));
-  for (size_t test_index = 0; test_index < tests->GetSize(); ++test_index) {
-    SCOPED_TRACE(test_index);
-    base::DictionaryValue* test;
-    ASSERT_TRUE(tests->GetDictionary(test_index, &test));
-
-    blink::WebCryptoAlgorithm test_hash = GetDigestAlgorithm(test, "hash");
-    const std::vector<uint8_t> test_key = GetBytesFromHexString(test, "key");
-    const std::vector<uint8_t> test_message =
-        GetBytesFromHexString(test, "message");
-    const std::vector<uint8_t> test_mac = GetBytesFromHexString(test, "mac");
-
-    blink::WebCryptoAlgorithm algorithm =
-        CreateAlgorithm(blink::WebCryptoAlgorithmIdHmac);
-
-    blink::WebCryptoAlgorithm import_algorithm =
-        CreateHmacImportAlgorithmNoLength(test_hash.id());
-
-    blink::WebCryptoKey key = ImportSecretKeyFromRaw(
-        test_key, import_algorithm,
-        blink::WebCryptoKeyUsageSign | blink::WebCryptoKeyUsageVerify);
-
-    EXPECT_EQ(test_hash.id(), key.algorithm().hmacParams()->hash().id());
-    EXPECT_EQ(test_key.size() * 8, key.algorithm().hmacParams()->lengthBits());
-
-    // Verify exported raw key is identical to the imported data
-    std::vector<uint8_t> raw_key;
-    EXPECT_EQ(Status::Success(),
-              ExportKey(blink::WebCryptoKeyFormatRaw, key, &raw_key));
-    EXPECT_BYTES_EQ(test_key, raw_key);
-
-    std::vector<uint8_t> output;
-
-    ASSERT_EQ(Status::Success(),
-              Sign(algorithm, key, CryptoData(test_message), &output));
-
-    EXPECT_BYTES_EQ(test_mac, output);
-
-    bool signature_match = false;
-    EXPECT_EQ(Status::Success(),
-              Verify(algorithm, key, CryptoData(output),
-                     CryptoData(test_message), &signature_match));
-    EXPECT_TRUE(signature_match);
-
-    // Ensure truncated signature does not verify by passing one less byte.
-    EXPECT_EQ(Status::Success(),
-              Verify(algorithm, key,
-                     CryptoData(vector_as_array(&output),
-                                static_cast<unsigned int>(output.size()) - 1),
-                     CryptoData(test_message), &signature_match));
-    EXPECT_FALSE(signature_match);
-
-    // Ensure truncated signature does not verify by passing no bytes.
-    EXPECT_EQ(Status::Success(),
-              Verify(algorithm, key, CryptoData(), CryptoData(test_message),
-                     &signature_match));
-    EXPECT_FALSE(signature_match);
-
-    // Ensure extra long signature does not cause issues and fails.
-    const unsigned char kLongSignature[1024] = {0};
-    EXPECT_EQ(Status::Success(),
-              Verify(algorithm, key,
-                     CryptoData(kLongSignature, sizeof(kLongSignature)),
-                     CryptoData(test_message), &signature_match));
-    EXPECT_FALSE(signature_match);
-  }
-}
-
-TEST(WebCryptoHmacTest, GenerateKeyIsRandom) {
-  // Generate a small sample of HMAC keys.
-  std::vector<std::vector<uint8_t>> keys;
-  for (int i = 0; i < 16; ++i) {
-    std::vector<uint8_t> key_bytes;
-    blink::WebCryptoKey key;
-    blink::WebCryptoAlgorithm algorithm =
-        CreateHmacKeyGenAlgorithm(blink::WebCryptoAlgorithmIdSha1, 512);
-    ASSERT_EQ(
-        Status::Success(),
-        GenerateSecretKey(algorithm, true, blink::WebCryptoKeyUsageSign, &key));
-    EXPECT_FALSE(key.isNull());
-    EXPECT_TRUE(key.handle());
-    EXPECT_EQ(blink::WebCryptoKeyTypeSecret, key.type());
-    EXPECT_EQ(blink::WebCryptoAlgorithmIdHmac, key.algorithm().id());
-    EXPECT_EQ(blink::WebCryptoAlgorithmIdSha1,
-              key.algorithm().hmacParams()->hash().id());
-    EXPECT_EQ(512u, key.algorithm().hmacParams()->lengthBits());
-
-    std::vector<uint8_t> raw_key;
-    ASSERT_EQ(Status::Success(),
-              ExportKey(blink::WebCryptoKeyFormatRaw, key, &raw_key));
-    EXPECT_EQ(64U, raw_key.size());
-    keys.push_back(raw_key);
-  }
-  // Ensure all entries in the key sample set are unique. This is a simplistic
-  // estimate of whether the generated keys appear random.
-  EXPECT_FALSE(CopiesExist(keys));
-}
-
-// If the key length is not provided, then the block size is used.
-TEST(WebCryptoHmacTest, GenerateKeyNoLengthSha1) {
-  blink::WebCryptoKey key;
-  blink::WebCryptoAlgorithm algorithm =
-      CreateHmacKeyGenAlgorithm(blink::WebCryptoAlgorithmIdSha1, 0);
-  ASSERT_EQ(
-      Status::Success(),
-      GenerateSecretKey(algorithm, true, blink::WebCryptoKeyUsageSign, &key));
-  EXPECT_TRUE(key.handle());
-  EXPECT_EQ(blink::WebCryptoKeyTypeSecret, key.type());
-  EXPECT_EQ(blink::WebCryptoAlgorithmIdHmac, key.algorithm().id());
-  EXPECT_EQ(blink::WebCryptoAlgorithmIdSha1,
-            key.algorithm().hmacParams()->hash().id());
-  EXPECT_EQ(512u, key.algorithm().hmacParams()->lengthBits());
-  std::vector<uint8_t> raw_key;
-  ASSERT_EQ(Status::Success(),
-            ExportKey(blink::WebCryptoKeyFormatRaw, key, &raw_key));
-  EXPECT_EQ(64U, raw_key.size());
-}
-
-// If the key length is not provided, then the block size is used.
-TEST(WebCryptoHmacTest, GenerateKeyNoLengthSha512) {
-  blink::WebCryptoKey key;
-  blink::WebCryptoAlgorithm algorithm =
-      CreateHmacKeyGenAlgorithm(blink::WebCryptoAlgorithmIdSha512, 0);
-  ASSERT_EQ(
-      Status::Success(),
-      GenerateSecretKey(algorithm, true, blink::WebCryptoKeyUsageSign, &key));
-  EXPECT_EQ(blink::WebCryptoAlgorithmIdHmac, key.algorithm().id());
-  EXPECT_EQ(blink::WebCryptoAlgorithmIdSha512,
-            key.algorithm().hmacParams()->hash().id());
-  EXPECT_EQ(1024u, key.algorithm().hmacParams()->lengthBits());
-  std::vector<uint8_t> raw_key;
-  ASSERT_EQ(Status::Success(),
-            ExportKey(blink::WebCryptoKeyFormatRaw, key, &raw_key));
-  EXPECT_EQ(128U, raw_key.size());
-}
-
-TEST(WebCryptoHmacTest, GenerateKeyEmptyUsage) {
-  blink::WebCryptoKey key;
-  blink::WebCryptoAlgorithm algorithm =
-      CreateHmacKeyGenAlgorithm(blink::WebCryptoAlgorithmIdSha512, 0);
-  ASSERT_EQ(Status::ErrorCreateKeyEmptyUsages(),
-            GenerateSecretKey(algorithm, true, 0, &key));
-}
-
-// Generate a 1 bit key. The exported key is 1 byte long, and 7 of the bits are
-// guaranteed to be zero.
-TEST(WebCryptoHmacTest, Generate1BitKey) {
-  blink::WebCryptoKey key;
-  blink::WebCryptoAlgorithm algorithm =
-      CreateHmacKeyGenAlgorithm(blink::WebCryptoAlgorithmIdSha1, 1);
-
-  ASSERT_EQ(
-      Status::Success(),
-      GenerateSecretKey(algorithm, true, blink::WebCryptoKeyUsageSign, &key));
-  EXPECT_EQ(1u, key.algorithm().hmacParams()->lengthBits());
-
-  std::vector<uint8_t> raw_key;
-  ASSERT_EQ(Status::Success(),
-            ExportKey(blink::WebCryptoKeyFormatRaw, key, &raw_key));
-  ASSERT_EQ(1U, raw_key.size());
-
-  EXPECT_FALSE(raw_key[0] & 0x7F);
-}
-
-TEST(WebCryptoHmacTest, ImportKeyEmptyUsage) {
-  blink::WebCryptoKey key;
-  std::string key_raw_hex_in = "025a8cf3f08b4f6c5f33bbc76a471939";
-  EXPECT_EQ(Status::ErrorCreateKeyEmptyUsages(),
-            ImportKey(blink::WebCryptoKeyFormatRaw,
-                      CryptoData(HexStringToBytes(key_raw_hex_in)),
-                      CreateHmacImportAlgorithmNoLength(
-                          blink::WebCryptoAlgorithmIdSha1),
-                      true, 0, &key));
-}
-
-TEST(WebCryptoHmacTest, ImportKeyJwkKeyOpsSignVerify) {
-  blink::WebCryptoKey key;
-  base::DictionaryValue dict;
-  dict.SetString("kty", "oct");
-  dict.SetString("k", "GADWrMRHwQfoNaXU5fZvTg");
-  base::ListValue* key_ops = new base::ListValue;
-  dict.Set("key_ops", key_ops);  // Takes ownership.
-
-  key_ops->AppendString("sign");
-
-  EXPECT_EQ(Status::Success(),
-            ImportKeyJwkFromDict(dict, CreateHmacImportAlgorithmNoLength(
-                                           blink::WebCryptoAlgorithmIdSha256),
-                                 false, blink::WebCryptoKeyUsageSign, &key));
-
-  EXPECT_EQ(blink::WebCryptoKeyUsageSign, key.usages());
-
-  key_ops->AppendString("verify");
-
-  EXPECT_EQ(Status::Success(),
-            ImportKeyJwkFromDict(dict, CreateHmacImportAlgorithmNoLength(
-                                           blink::WebCryptoAlgorithmIdSha256),
-                                 false, blink::WebCryptoKeyUsageVerify, &key));
-
-  EXPECT_EQ(blink::WebCryptoKeyUsageVerify, key.usages());
-}
-
-// Test 'use' inconsistent with 'key_ops'.
-TEST(WebCryptoHmacTest, ImportKeyJwkUseInconsisteWithKeyOps) {
-  blink::WebCryptoKey key;
-  base::DictionaryValue dict;
-  dict.SetString("kty", "oct");
-  dict.SetString("k", "GADWrMRHwQfoNaXU5fZvTg");
-  base::ListValue* key_ops = new base::ListValue;
-  dict.Set("key_ops", key_ops);  // Takes ownership.
-
-  dict.SetString("alg", "HS256");
-  dict.SetString("use", "sig");
-  key_ops->AppendString("sign");
-  key_ops->AppendString("verify");
-  key_ops->AppendString("encrypt");
-  EXPECT_EQ(
-      Status::ErrorJwkUseAndKeyopsInconsistent(),
-      ImportKeyJwkFromDict(
-          dict,
-          CreateHmacImportAlgorithmNoLength(blink::WebCryptoAlgorithmIdSha256),
-          false, blink::WebCryptoKeyUsageSign | blink::WebCryptoKeyUsageVerify,
-          &key));
-}
-
-// Test JWK composite 'sig' use
-TEST(WebCryptoHmacTest, ImportKeyJwkUseSig) {
-  blink::WebCryptoKey key;
-  base::DictionaryValue dict;
-  dict.SetString("kty", "oct");
-  dict.SetString("k", "GADWrMRHwQfoNaXU5fZvTg");
-
-  dict.SetString("use", "sig");
-  EXPECT_EQ(
-      Status::Success(),
-      ImportKeyJwkFromDict(
-          dict,
-          CreateHmacImportAlgorithmNoLength(blink::WebCryptoAlgorithmIdSha256),
-          false, blink::WebCryptoKeyUsageSign | blink::WebCryptoKeyUsageVerify,
-          &key));
-
-  EXPECT_EQ(blink::WebCryptoKeyUsageSign | blink::WebCryptoKeyUsageVerify,
-            key.usages());
-}
-
-TEST(WebCryptoHmacTest, ImportJwkInputConsistency) {
-  // The Web Crypto spec says that if a JWK value is present, but is
-  // inconsistent with the input value, the operation must fail.
-
-  // Consistency rules when JWK value is not present: Inputs should be used.
-  blink::WebCryptoKey key;
-  bool extractable = false;
-  blink::WebCryptoAlgorithm algorithm =
-      CreateHmacImportAlgorithmNoLength(blink::WebCryptoAlgorithmIdSha256);
-  blink::WebCryptoKeyUsageMask usages = blink::WebCryptoKeyUsageVerify;
-  base::DictionaryValue dict;
-  dict.SetString("kty", "oct");
-  dict.SetString("k", "l3nZEgZCeX8XRwJdWyK3rGB8qwjhdY8vOkbIvh4lxTuMao9Y_--hdg");
-  std::vector<uint8_t> json_vec = MakeJsonVector(dict);
-  EXPECT_EQ(Status::Success(),
-            ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json_vec),
-                      algorithm, extractable, usages, &key));
-  EXPECT_TRUE(key.handle());
-  EXPECT_EQ(blink::WebCryptoKeyTypeSecret, key.type());
-  EXPECT_EQ(extractable, key.extractable());
-  EXPECT_EQ(blink::WebCryptoAlgorithmIdHmac, key.algorithm().id());
-  EXPECT_EQ(blink::WebCryptoAlgorithmIdSha256,
-            key.algorithm().hmacParams()->hash().id());
-  EXPECT_EQ(320u, key.algorithm().hmacParams()->lengthBits());
-  EXPECT_EQ(blink::WebCryptoKeyUsageVerify, key.usages());
-  key = blink::WebCryptoKey::createNull();
-
-  // Consistency rules when JWK value exists: Fail if inconsistency is found.
-
-  // Pass: All input values are consistent with the JWK values.
-  dict.Clear();
-  dict.SetString("kty", "oct");
-  dict.SetString("alg", "HS256");
-  dict.SetString("use", "sig");
-  dict.SetBoolean("ext", false);
-  dict.SetString("k", "l3nZEgZCeX8XRwJdWyK3rGB8qwjhdY8vOkbIvh4lxTuMao9Y_--hdg");
-  json_vec = MakeJsonVector(dict);
-  EXPECT_EQ(Status::Success(),
-            ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json_vec),
-                      algorithm, extractable, usages, &key));
-
-  // Extractable cases:
-  // 1. input=T, JWK=F ==> fail (inconsistent)
-  // 4. input=F, JWK=F ==> pass, result extractable is F
-  // 2. input=T, JWK=T ==> pass, result extractable is T
-  // 3. input=F, JWK=T ==> pass, result extractable is F
-  EXPECT_EQ(Status::ErrorJwkExtInconsistent(),
-            ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json_vec),
-                      algorithm, true, usages, &key));
-  EXPECT_EQ(Status::Success(),
-            ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json_vec),
-                      algorithm, false, usages, &key));
-  EXPECT_FALSE(key.extractable());
-  dict.SetBoolean("ext", true);
-  EXPECT_EQ(Status::Success(),
-            ImportKeyJwkFromDict(dict, algorithm, true, usages, &key));
-  EXPECT_TRUE(key.extractable());
-  EXPECT_EQ(Status::Success(),
-            ImportKeyJwkFromDict(dict, algorithm, false, usages, &key));
-  EXPECT_FALSE(key.extractable());
-  dict.SetBoolean("ext", true);  // restore previous value
-
-  // Fail: Input algorithm (AES-CBC) is inconsistent with JWK value
-  // (HMAC SHA256).
-  dict.Clear();
-  dict.SetString("kty", "oct");
-  dict.SetString("alg", "HS256");
-  dict.SetString("k", "l3nZEgZCeX8XRwJdWyK3rGB8qwjhdY8vOkbIvh4lxTuMao9Y_--hdg");
-  EXPECT_EQ(Status::ErrorJwkAlgorithmInconsistent(),
-            ImportKeyJwkFromDict(
-                dict, CreateAlgorithm(blink::WebCryptoAlgorithmIdAesCbc),
-                extractable, blink::WebCryptoKeyUsageEncrypt, &key));
-  // Fail: Input usage (encrypt) is inconsistent with JWK value (use=sig).
-  EXPECT_EQ(Status::ErrorJwkUseInconsistent(),
-            ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json_vec),
-                      CreateAlgorithm(blink::WebCryptoAlgorithmIdAesCbc),
-                      extractable, blink::WebCryptoKeyUsageEncrypt, &key));
-
-  // Fail: Input algorithm (HMAC SHA1) is inconsistent with JWK value
-  // (HMAC SHA256).
-  EXPECT_EQ(Status::ErrorJwkAlgorithmInconsistent(),
-            ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json_vec),
-                      CreateHmacImportAlgorithmNoLength(
-                          blink::WebCryptoAlgorithmIdSha1),
-                      extractable, usages, &key));
-
-  // Pass: JWK alg missing but input algorithm specified: use input value
-  dict.Remove("alg", NULL);
-  EXPECT_EQ(Status::Success(),
-            ImportKeyJwkFromDict(dict, CreateHmacImportAlgorithmNoLength(
-                                           blink::WebCryptoAlgorithmIdSha256),
-                                 extractable, usages, &key));
-  EXPECT_EQ(blink::WebCryptoAlgorithmIdHmac, algorithm.id());
-  dict.SetString("alg", "HS256");
-
-  // Fail: Input usages (encrypt) is not a subset of the JWK value
-  // (sign|verify). Moreover "encrypt" is not a valid usage for HMAC.
-  EXPECT_EQ(
-      Status::ErrorCreateKeyBadUsages(),
-      ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json_vec), algorithm,
-                extractable, blink::WebCryptoKeyUsageEncrypt, &key));
-
-  // Fail: Input usages (encrypt|sign|verify) is not a subset of the JWK
-  // value (sign|verify). Moreover "encrypt" is not a valid usage for HMAC.
-  usages = blink::WebCryptoKeyUsageEncrypt | blink::WebCryptoKeyUsageSign |
-           blink::WebCryptoKeyUsageVerify;
-  EXPECT_EQ(Status::ErrorCreateKeyBadUsages(),
-            ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json_vec),
-                      algorithm, extractable, usages, &key));
-
-  // TODO(padolph): kty vs alg consistency tests: Depending on the kty value,
-  // only certain alg values are permitted. For example, when kty = "RSA" alg
-  // must be of the RSA family, or when kty = "oct" alg must be symmetric
-  // algorithm.
-
-  // TODO(padolph): key_ops consistency tests
-}
-
-TEST(WebCryptoHmacTest, ImportJwkHappy) {
-  // This test verifies the happy path of JWK import, including the application
-  // of the imported key material.
-
-  blink::WebCryptoKey key;
-  bool extractable = false;
-  blink::WebCryptoAlgorithm algorithm =
-      CreateHmacImportAlgorithmNoLength(blink::WebCryptoAlgorithmIdSha256);
-  blink::WebCryptoKeyUsageMask usages = blink::WebCryptoKeyUsageSign;
-
-  // Import a symmetric key JWK and HMAC-SHA256 sign()
-  // Uses the first SHA256 test vector from the HMAC sample set above.
-
-  base::DictionaryValue dict;
-  dict.SetString("kty", "oct");
-  dict.SetString("alg", "HS256");
-  dict.SetString("use", "sig");
-  dict.SetBoolean("ext", false);
-  dict.SetString("k", "l3nZEgZCeX8XRwJdWyK3rGB8qwjhdY8vOkbIvh4lxTuMao9Y_--hdg");
-
-  ASSERT_EQ(Status::Success(),
-            ImportKeyJwkFromDict(dict, algorithm, extractable, usages, &key));
-
-  EXPECT_EQ(blink::WebCryptoAlgorithmIdSha256,
-            key.algorithm().hmacParams()->hash().id());
-
-  const std::vector<uint8_t> message_raw = HexStringToBytes(
-      "b1689c2591eaf3c9e66070f8a77954ffb81749f1b00346f9dfe0b2ee905dcc288baf4a"
-      "92de3f4001dd9f44c468c3d07d6c6ee82faceafc97c2fc0fc0601719d2dcd0aa2aec92"
-      "d1b0ae933c65eb06a03c9c935c2bad0459810241347ab87e9f11adb30415424c6c7f5f"
-      "22a003b8ab8de54f6ded0e3ab9245fa79568451dfa258e");
-
-  std::vector<uint8_t> output;
-
-  ASSERT_EQ(Status::Success(),
-            Sign(CreateAlgorithm(blink::WebCryptoAlgorithmIdHmac), key,
-                 CryptoData(message_raw), &output));
-
-  const std::string mac_raw =
-      "769f00d3e6a6cc1fb426a14a4f76c6462e6149726e0dee0ec0cf97a16605ac8b";
-
-  EXPECT_BYTES_EQ_HEX(mac_raw, output);
-
-  // TODO(padolph): Import an RSA public key JWK and use it
-}
-
-TEST(WebCryptoHmacTest, ImportExportJwk) {
-  // HMAC SHA-1
-  ImportExportJwkSymmetricKey(
-      256, CreateHmacImportAlgorithmNoLength(blink::WebCryptoAlgorithmIdSha1),
-      blink::WebCryptoKeyUsageSign | blink::WebCryptoKeyUsageVerify, "HS1");
-
-  // HMAC SHA-384
-  ImportExportJwkSymmetricKey(
-      384, CreateHmacImportAlgorithmNoLength(blink::WebCryptoAlgorithmIdSha384),
-      blink::WebCryptoKeyUsageSign, "HS384");
-
-  // HMAC SHA-512
-  ImportExportJwkSymmetricKey(
-      512, CreateHmacImportAlgorithmNoLength(blink::WebCryptoAlgorithmIdSha512),
-      blink::WebCryptoKeyUsageVerify, "HS512");
-}
-
-TEST(WebCryptoHmacTest, ExportJwkEmptyKey) {
-  blink::WebCryptoKeyUsageMask usages = blink::WebCryptoKeyUsageSign;
-
-  // Importing empty HMAC key is no longer allowed. However such a key can be
-  // created via de-serialization.
-  blink::WebCryptoKey key;
-  ASSERT_TRUE(DeserializeKeyForClone(blink::WebCryptoKeyAlgorithm::createHmac(
-                                         blink::WebCryptoAlgorithmIdSha1, 0),
-                                     blink::WebCryptoKeyTypeSecret, true,
-                                     usages, CryptoData(), &key));
-
-  // Export the key in JWK format and validate.
-  std::vector<uint8_t> json;
-  ASSERT_EQ(Status::Success(),
-            ExportKey(blink::WebCryptoKeyFormatJwk, key, &json));
-  EXPECT_TRUE(VerifySecretJwk(json, "HS1", "", usages));
-
-  // Now try re-importing the JWK key.
-  key = blink::WebCryptoKey::createNull();
-  EXPECT_EQ(Status::ErrorHmacImportEmptyKey(),
-            ImportKey(blink::WebCryptoKeyFormatJwk, CryptoData(json),
-                      CreateHmacImportAlgorithmNoLength(
-                          blink::WebCryptoAlgorithmIdSha1),
-                      true, usages, &key));
-}
-
-// Imports an HMAC key contaning no byte data.
-TEST(WebCryptoHmacTest, ImportRawEmptyKey) {
-  const blink::WebCryptoAlgorithm import_algorithm =
-      CreateHmacImportAlgorithmNoLength(blink::WebCryptoAlgorithmIdSha1);
-
-  blink::WebCryptoKeyUsageMask usages = blink::WebCryptoKeyUsageSign;
-  blink::WebCryptoKey key;
-
-  ASSERT_EQ(Status::ErrorHmacImportEmptyKey(),
-            ImportKey(blink::WebCryptoKeyFormatRaw, CryptoData(),
-                      import_algorithm, true, usages, &key));
-}
-
-// Imports an HMAC key contaning 1 byte data, however the length was set to 0.
-TEST(WebCryptoHmacTest, ImportRawKeyWithZeroLength) {
-  const blink::WebCryptoAlgorithm import_algorithm =
-      CreateHmacImportAlgorithm(blink::WebCryptoAlgorithmIdSha1, 0);
-
-  blink::WebCryptoKeyUsageMask usages = blink::WebCryptoKeyUsageSign;
-  blink::WebCryptoKey key;
-
-  std::vector<uint8_t> key_data(1);
-  ASSERT_EQ(Status::ErrorHmacImportBadLength(),
-            ImportKey(blink::WebCryptoKeyFormatRaw, CryptoData(key_data),
-                      import_algorithm, true, usages, &key));
-}
-
-// Import a huge hmac key (UINT_MAX bytes). This will fail before actually
-// reading the bytes, as the key is too large.
-TEST(WebCryptoHmacTest, ImportRawKeyTooLarge) {
-  CryptoData big_data(NULL, UINT_MAX);  // Invalid data of big length.
-
-  blink::WebCryptoKey key;
-  EXPECT_EQ(Status::ErrorDataTooLarge(),
-            ImportKey(blink::WebCryptoKeyFormatRaw, CryptoData(big_data),
-                      CreateHmacImportAlgorithmNoLength(
-                          blink::WebCryptoAlgorithmIdSha1),
-                      true, blink::WebCryptoKeyUsageSign, &key));
-}
-
-// Import an HMAC key with 120 bits of data, however request 128 bits worth.
-TEST(WebCryptoHmacTest, ImportRawKeyLengthTooLarge) {
-  blink::WebCryptoKey key;
-  EXPECT_EQ(Status::ErrorHmacImportBadLength(),
-            ImportKey(blink::WebCryptoKeyFormatRaw,
-                      CryptoData(std::vector<uint8_t>(15)),
-                      CreateHmacImportAlgorithmWithLength(
-                          blink::WebCryptoAlgorithmIdSha1, 128),
-                      true, blink::WebCryptoKeyUsageSign, &key));
-}
-
-// Import an HMAC key with 128 bits of data, however request 120 bits worth.
-TEST(WebCryptoHmacTest, ImportRawKeyLengthTooSmall) {
-  blink::WebCryptoKey key;
-  EXPECT_EQ(Status::ErrorHmacImportBadLength(),
-            ImportKey(blink::WebCryptoKeyFormatRaw,
-                      CryptoData(std::vector<uint8_t>(16)),
-                      CreateHmacImportAlgorithmWithLength(
-                          blink::WebCryptoAlgorithmIdSha1, 120),
-                      true, blink::WebCryptoKeyUsageSign, &key));
-}
-
-// Import an HMAC key with 16 bits of data and request a 12 bit key, using the
-// "raw" format.
-TEST(WebCryptoHmacTest, ImportRawKeyTruncation) {
-  const std::vector<uint8_t> data = HexStringToBytes("b1ff");
-
-  blink::WebCryptoKey key;
-  EXPECT_EQ(Status::Success(),
-            ImportKey(blink::WebCryptoKeyFormatRaw, CryptoData(data),
-                      CreateHmacImportAlgorithmWithLength(
-                          blink::WebCryptoAlgorithmIdSha1, 12),
-                      true, blink::WebCryptoKeyUsageSign, &key));
-
-  // On export the last 4 bits has been set to zero.
-  std::vector<uint8_t> raw_key;
-  EXPECT_EQ(Status::Success(),
-            ExportKey(blink::WebCryptoKeyFormatRaw, key, &raw_key));
-  EXPECT_BYTES_EQ(HexStringToBytes("b1f0"), raw_key);
-}
-
-// The same test as above, but using the JWK format.
-TEST(WebCryptoHmacTest, ImportJwkKeyTruncation) {
-  base::DictionaryValue dict;
-  dict.SetString("kty", "oct");
-  dict.SetString("k", "sf8");  // 0xB1FF
-
-  blink::WebCryptoKey key;
-  EXPECT_EQ(Status::Success(),
-            ImportKeyJwkFromDict(dict, CreateHmacImportAlgorithmWithLength(
-                                           blink::WebCryptoAlgorithmIdSha1, 12),
-                                 true, blink::WebCryptoKeyUsageSign, &key));
-
-  // On export the last 4 bits has been set to zero.
-  std::vector<uint8_t> raw_key;
-  EXPECT_EQ(Status::Success(),
-            ExportKey(blink::WebCryptoKeyFormatRaw, key, &raw_key));
-  EXPECT_BYTES_EQ(HexStringToBytes("b1f0"), raw_key);
-}
-
-}  // namespace
-
-}  // namespace webcrypto