Refactor WebCrypto code

content/child/webcrypto/shared_crypto.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 "content/child/webcrypto/shared_crypto.h"
-
-#include "base/logging.h"
-#include "content/child/webcrypto/crypto_data.h"
-#include "content/child/webcrypto/jwk.h"
-#include "content/child/webcrypto/platform_crypto.h"
-#include "content/child/webcrypto/status.h"
-#include "content/child/webcrypto/webcrypto_util.h"
-#include "crypto/secure_util.h"
-#include "third_party/WebKit/public/platform/WebCryptoAlgorithm.h"
-#include "third_party/WebKit/public/platform/WebCryptoAlgorithmParams.h"
-#include "third_party/WebKit/public/platform/WebCryptoKey.h"
-#include "third_party/WebKit/public/platform/WebCryptoKeyAlgorithm.h"
-
-namespace content {
-
-namespace webcrypto {
-
-// ------------
-// Threading:
-// ------------
-//
-// All functions in this file are called from the webcrypto worker pool except
-// for:
-//
-//   * SerializeKeyForClone()
-//   * DeserializeKeyForClone()
-//   * ImportKey() // TODO(eroman): Change this.
-
-namespace {
-
-// TODO(eroman): Move this helper to WebCryptoKey.
-bool KeyUsageAllows(const blink::WebCryptoKey& key,
-                    const blink::WebCryptoKeyUsage usage) {
-  return ((key.usages() & usage) != 0);
-}
-
-bool IsValidAesKeyLengthBits(unsigned int length_bits) {
-  // 192-bit AES is disallowed.
-  return length_bits == 128 || length_bits == 256;
-}
-
-bool IsValidAesKeyLengthBytes(unsigned int length_bytes) {
-  // 192-bit AES is disallowed.
-  return length_bytes == 16 || length_bytes == 32;
-}
-
-const size_t kAesBlockSizeBytes = 16;
-
-Status EncryptDecryptAesCbc(EncryptOrDecrypt mode,
-                            const blink::WebCryptoAlgorithm& algorithm,
-                            const blink::WebCryptoKey& key,
-                            const CryptoData& data,
-                            std::vector<uint8>* buffer) {
-  platform::SymKey* sym_key;
-  Status status = ToPlatformSymKey(key, &sym_key);
-  if (status.IsError())
-    return status;
-
-  const blink::WebCryptoAesCbcParams* params = algorithm.aesCbcParams();
-  if (!params)
-    return Status::ErrorUnexpected();
-
-  CryptoData iv(params->iv().data(), params->iv().size());
-  if (iv.byte_length() != kAesBlockSizeBytes)
-    return Status::ErrorIncorrectSizeAesCbcIv();
-
-  return platform::EncryptDecryptAesCbc(mode, sym_key, data, iv, buffer);
-}
-
-Status EncryptDecryptAesGcm(EncryptOrDecrypt mode,
-                            const blink::WebCryptoAlgorithm& algorithm,
-                            const blink::WebCryptoKey& key,
-                            const CryptoData& data,
-                            std::vector<uint8>* buffer) {
-  platform::SymKey* sym_key;
-  Status status = ToPlatformSymKey(key, &sym_key);
-  if (status.IsError())
-    return status;
-
-  const blink::WebCryptoAesGcmParams* params = algorithm.aesGcmParams();
-  if (!params)
-    return Status::ErrorUnexpected();
-
-  unsigned int tag_length_bits = 128;
-  if (params->hasTagLengthBits())
-    tag_length_bits = params->optionalTagLengthBits();
-
-  if (tag_length_bits != 32 && tag_length_bits != 64 && tag_length_bits != 96 &&
-      tag_length_bits != 104 && tag_length_bits != 112 &&
-      tag_length_bits != 120 && tag_length_bits != 128)
-    return Status::ErrorInvalidAesGcmTagLength();
-
-  return platform::EncryptDecryptAesGcm(
-      mode,
-      sym_key,
-      data,
-      CryptoData(params->iv()),
-      CryptoData(params->optionalAdditionalData()),
-      tag_length_bits,
-      buffer);
-}
-
-Status EncryptRsaOaep(const blink::WebCryptoAlgorithm& algorithm,
-                      const blink::WebCryptoKey& key,
-                      const CryptoData& data,
-                      std::vector<uint8>* buffer) {
-  platform::PublicKey* public_key;
-  Status status = ToPlatformPublicKey(key, &public_key);
-  if (status.IsError())
-    return status;
-
-  const blink::WebCryptoRsaOaepParams* params = algorithm.rsaOaepParams();
-  if (!params)
-    return Status::ErrorUnexpected();
-
-  return platform::EncryptRsaOaep(public_key,
-                                  key.algorithm().rsaHashedParams()->hash(),
-                                  CryptoData(params->optionalLabel()),
-                                  data,
-                                  buffer);
-}
-
-Status DecryptRsaOaep(const blink::WebCryptoAlgorithm& algorithm,
-                      const blink::WebCryptoKey& key,
-                      const CryptoData& data,
-                      std::vector<uint8>* buffer) {
-  platform::PrivateKey* private_key;
-  Status status = ToPlatformPrivateKey(key, &private_key);
-  if (status.IsError())
-    return status;
-
-  const blink::WebCryptoRsaOaepParams* params = algorithm.rsaOaepParams();
-  if (!params)
-    return Status::ErrorUnexpected();
-
-  return platform::DecryptRsaOaep(private_key,
-                                  key.algorithm().rsaHashedParams()->hash(),
-                                  CryptoData(params->optionalLabel()),
-                                  data,
-                                  buffer);
-}
-
-Status SignHmac(const blink::WebCryptoAlgorithm& algorithm,
-                const blink::WebCryptoKey& key,
-                const CryptoData& data,
-                std::vector<uint8>* buffer) {
-  platform::SymKey* sym_key;
-  Status status = ToPlatformSymKey(key, &sym_key);
-  if (status.IsError())
-    return status;
-
-  return platform::SignHmac(
-      sym_key, key.algorithm().hmacParams()->hash(), data, buffer);
-}
-
-Status VerifyHmac(const blink::WebCryptoAlgorithm& algorithm,
-                  const blink::WebCryptoKey& key,
-                  const CryptoData& signature,
-                  const CryptoData& data,
-                  bool* signature_match) {
-  std::vector<uint8> result;
-  Status status = SignHmac(algorithm, key, data, &result);
-  if (status.IsError())
-    return status;
-
-  // Do not allow verification of truncated MACs.
-  *signature_match =
-      result.size() == signature.byte_length() &&
-      crypto::SecureMemEqual(
-          Uint8VectorStart(result), signature.bytes(), signature.byte_length());
-
-  return Status::Success();
-}
-
-Status SignRsaSsaPkcs1v1_5(const blink::WebCryptoAlgorithm& algorithm,
-                           const blink::WebCryptoKey& key,
-                           const CryptoData& data,
-                           std::vector<uint8>* buffer) {
-  platform::PrivateKey* private_key;
-  Status status = ToPlatformPrivateKey(key, &private_key);
-  if (status.IsError())
-    return status;
-
-  return platform::SignRsaSsaPkcs1v1_5(
-      private_key, key.algorithm().rsaHashedParams()->hash(), data, buffer);
-}
-
-Status VerifyRsaSsaPkcs1v1_5(const blink::WebCryptoAlgorithm& algorithm,
-                             const blink::WebCryptoKey& key,
-                             const CryptoData& signature,
-                             const CryptoData& data,
-                             bool* signature_match) {
-  platform::PublicKey* public_key;
-  Status status = ToPlatformPublicKey(key, &public_key);
-  if (status.IsError())
-    return status;
-
-  return platform::VerifyRsaSsaPkcs1v1_5(
-      public_key,
-      key.algorithm().rsaHashedParams()->hash(),
-      signature,
-      data,
-      signature_match);
-}
-
-// Note that this function may be called from the target Blink thread.
-Status ImportKeyRaw(const CryptoData& key_data,
-                    const blink::WebCryptoAlgorithm& algorithm,
-                    bool extractable,
-                    blink::WebCryptoKeyUsageMask usage_mask,
-                    blink::WebCryptoKey* key) {
-  switch (algorithm.id()) {
-    case blink::WebCryptoAlgorithmIdAesCtr:
-    case blink::WebCryptoAlgorithmIdAesCbc:
-    case blink::WebCryptoAlgorithmIdAesGcm:
-    case blink::WebCryptoAlgorithmIdAesKw:
-      if (!IsValidAesKeyLengthBytes(key_data.byte_length())) {
-        return key_data.byte_length() == 24
-                   ? Status::ErrorAes192BitUnsupported()
-                   : Status::ErrorImportAesKeyLength();
-      }
-    // Fallthrough intentional!
-    case blink::WebCryptoAlgorithmIdHmac:
-      return platform::ImportKeyRaw(
-          algorithm, key_data, extractable, usage_mask, key);
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-// Returns the key format to use for structured cloning.
-blink::WebCryptoKeyFormat GetCloneFormatForKeyType(
-    blink::WebCryptoKeyType type) {
-  switch (type) {
-    case blink::WebCryptoKeyTypeSecret:
-      return blink::WebCryptoKeyFormatRaw;
-    case blink::WebCryptoKeyTypePublic:
-      return blink::WebCryptoKeyFormatSpki;
-    case blink::WebCryptoKeyTypePrivate:
-      return blink::WebCryptoKeyFormatPkcs8;
-  }
-
-  NOTREACHED();
-  return blink::WebCryptoKeyFormatRaw;
-}
-
-// Converts a KeyAlgorithm into an equivalent Algorithm for import.
-blink::WebCryptoAlgorithm KeyAlgorithmToImportAlgorithm(
-    const blink::WebCryptoKeyAlgorithm& algorithm) {
-  switch (algorithm.paramsType()) {
-    case blink::WebCryptoKeyAlgorithmParamsTypeAes:
-      return CreateAlgorithm(algorithm.id());
-    case blink::WebCryptoKeyAlgorithmParamsTypeHmac:
-      return CreateHmacImportAlgorithm(algorithm.hmacParams()->hash().id());
-    case blink::WebCryptoKeyAlgorithmParamsTypeRsaHashed:
-      return CreateRsaHashedImportAlgorithm(
-          algorithm.id(), algorithm.rsaHashedParams()->hash().id());
-    case blink::WebCryptoKeyAlgorithmParamsTypeNone:
-      break;
-    default:
-      break;
-  }
-  return blink::WebCryptoAlgorithm::createNull();
-}
-
-// There is some duplicated information in the serialized format used by
-// structured clone (since the KeyAlgorithm is serialized separately from the
-// key data). Use this extra information to further validate what was
-// deserialized from the key data.
-//
-// A failure here implies either a bug in the code, or that the serialized data
-// was corrupted.
-bool ValidateDeserializedKey(const blink::WebCryptoKey& key,
-                             const blink::WebCryptoKeyAlgorithm& algorithm,
-                             blink::WebCryptoKeyType type) {
-  if (algorithm.id() != key.algorithm().id())
-    return false;
-
-  if (key.type() != type)
-    return false;
-
-  switch (algorithm.paramsType()) {
-    case blink::WebCryptoKeyAlgorithmParamsTypeAes:
-      if (algorithm.aesParams()->lengthBits() !=
-          key.algorithm().aesParams()->lengthBits())
-        return false;
-      break;
-    case blink::WebCryptoKeyAlgorithmParamsTypeRsaHashed:
-      if (algorithm.rsaHashedParams()->modulusLengthBits() !=
-          key.algorithm().rsaHashedParams()->modulusLengthBits())
-        return false;
-      if (algorithm.rsaHashedParams()->publicExponent().size() !=
-          key.algorithm().rsaHashedParams()->publicExponent().size())
-        return false;
-      if (memcmp(algorithm.rsaHashedParams()->publicExponent().data(),
-                 key.algorithm().rsaHashedParams()->publicExponent().data(),
-                 key.algorithm().rsaHashedParams()->publicExponent().size()) !=
-          0)
-        return false;
-      break;
-    case blink::WebCryptoKeyAlgorithmParamsTypeNone:
-    case blink::WebCryptoKeyAlgorithmParamsTypeHmac:
-      break;
-    default:
-      return false;
-  }
-
-  return true;
-}
-
-Status EncryptDecryptAesKw(EncryptOrDecrypt mode,
-                           const blink::WebCryptoAlgorithm& algorithm,
-                           const blink::WebCryptoKey& key,
-                           const CryptoData& data,
-                           std::vector<uint8>* buffer) {
-  platform::SymKey* sym_key;
-  Status status = ToPlatformSymKey(key, &sym_key);
-  if (status.IsError())
-    return status;
-
-  unsigned int min_length = mode == ENCRYPT ? 16 : 24;
-
-  if (data.byte_length() < min_length)
-    return Status::ErrorDataTooSmall();
-  if (data.byte_length() % 8)
-    return Status::ErrorInvalidAesKwDataLength();
-
-  if (status.IsError())
-    return status;
-  return platform::EncryptDecryptAesKw(mode, sym_key, data, buffer);
-}
-
-Status DecryptDontCheckKeyUsage(const blink::WebCryptoAlgorithm& algorithm,
-                                const blink::WebCryptoKey& key,
-                                const CryptoData& data,
-                                std::vector<uint8>* buffer) {
-  if (algorithm.id() != key.algorithm().id())
-    return Status::ErrorUnexpected();
-  switch (algorithm.id()) {
-    case blink::WebCryptoAlgorithmIdAesCbc:
-      return EncryptDecryptAesCbc(DECRYPT, algorithm, key, data, buffer);
-    case blink::WebCryptoAlgorithmIdAesGcm:
-      return EncryptDecryptAesGcm(DECRYPT, algorithm, key, data, buffer);
-    case blink::WebCryptoAlgorithmIdRsaOaep:
-      return DecryptRsaOaep(algorithm, key, data, buffer);
-    case blink::WebCryptoAlgorithmIdAesKw:
-      return EncryptDecryptAesKw(DECRYPT, algorithm, key, data, buffer);
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-Status EncryptDontCheckUsage(const blink::WebCryptoAlgorithm& algorithm,
-                             const blink::WebCryptoKey& key,
-                             const CryptoData& data,
-                             std::vector<uint8>* buffer) {
-  if (algorithm.id() != key.algorithm().id())
-    return Status::ErrorUnexpected();
-  switch (algorithm.id()) {
-    case blink::WebCryptoAlgorithmIdAesCbc:
-      return EncryptDecryptAesCbc(ENCRYPT, algorithm, key, data, buffer);
-    case blink::WebCryptoAlgorithmIdAesGcm:
-      return EncryptDecryptAesGcm(ENCRYPT, algorithm, key, data, buffer);
-    case blink::WebCryptoAlgorithmIdAesKw:
-      return EncryptDecryptAesKw(ENCRYPT, algorithm, key, data, buffer);
-    case blink::WebCryptoAlgorithmIdRsaOaep:
-      return EncryptRsaOaep(algorithm, key, data, buffer);
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-Status UnwrapKeyDecryptAndImport(
-    blink::WebCryptoKeyFormat format,
-    const CryptoData& wrapped_key_data,
-    const blink::WebCryptoKey& wrapping_key,
-    const blink::WebCryptoAlgorithm& wrapping_algorithm,
-    const blink::WebCryptoAlgorithm& algorithm,
-    bool extractable,
-    blink::WebCryptoKeyUsageMask usage_mask,
-    blink::WebCryptoKey* key) {
-  std::vector<uint8> buffer;
-  Status status = DecryptDontCheckKeyUsage(
-      wrapping_algorithm, wrapping_key, wrapped_key_data, &buffer);
-  if (status.IsError())
-    return status;
-  // NOTE that returning the details of ImportKey() failures may leak
-  // information about the plaintext of the encrypted key (for instance the JWK
-  // key_ops). As long as the ImportKey error messages don't describe actual
-  // key bytes however this should be OK. For more discussion see
-  // http://crubg.com/372040
-  return ImportKey(
-      format, CryptoData(buffer), algorithm, extractable, usage_mask, key);
-}
-
-Status WrapKeyExportAndEncrypt(
-    blink::WebCryptoKeyFormat format,
-    const blink::WebCryptoKey& key_to_wrap,
-    const blink::WebCryptoKey& wrapping_key,
-    const blink::WebCryptoAlgorithm& wrapping_algorithm,
-    std::vector<uint8>* buffer) {
-  std::vector<uint8> exported_data;
-  Status status = ExportKey(format, key_to_wrap, &exported_data);
-  if (status.IsError())
-    return status;
-  return EncryptDontCheckUsage(
-      wrapping_algorithm, wrapping_key, CryptoData(exported_data), buffer);
-}
-
-// Returns the internal block size for SHA-*
-unsigned int ShaBlockSizeBytes(blink::WebCryptoAlgorithmId hash_id) {
-  switch (hash_id) {
-    case blink::WebCryptoAlgorithmIdSha1:
-    case blink::WebCryptoAlgorithmIdSha256:
-      return 64;
-    case blink::WebCryptoAlgorithmIdSha384:
-    case blink::WebCryptoAlgorithmIdSha512:
-      return 128;
-    default:
-      NOTREACHED();
-      return 0;
-  }
-}
-
-// Returns the mask of all key usages that are possible for |algorithm| and
-// |key_type|. If the combination of |algorithm| and |key_type| doesn't make
-// sense, then returns 0 (no usages).
-blink::WebCryptoKeyUsageMask GetValidKeyUsagesForKeyType(
-    blink::WebCryptoAlgorithmId algorithm,
-    blink::WebCryptoKeyType key_type) {
-  if (IsAlgorithmAsymmetric(algorithm) ==
-      (key_type == blink::WebCryptoKeyTypeSecret))
-    return 0;
-
-  switch (algorithm) {
-    case blink::WebCryptoAlgorithmIdAesCbc:
-    case blink::WebCryptoAlgorithmIdAesGcm:
-    case blink::WebCryptoAlgorithmIdAesCtr:
-      return blink::WebCryptoKeyUsageEncrypt | blink::WebCryptoKeyUsageDecrypt |
-             blink::WebCryptoKeyUsageWrapKey |
-             blink::WebCryptoKeyUsageUnwrapKey;
-    case blink::WebCryptoAlgorithmIdAesKw:
-      return blink::WebCryptoKeyUsageWrapKey |
-             blink::WebCryptoKeyUsageUnwrapKey;
-    case blink::WebCryptoAlgorithmIdHmac:
-      return blink::WebCryptoKeyUsageSign | blink::WebCryptoKeyUsageVerify;
-    case blink::WebCryptoAlgorithmIdRsaSsaPkcs1v1_5:
-      switch (key_type) {
-        case blink::WebCryptoKeyTypePublic:
-          return blink::WebCryptoKeyUsageVerify;
-        case blink::WebCryptoKeyTypePrivate:
-          return blink::WebCryptoKeyUsageSign;
-        default:
-          return 0;
-      }
-    case blink::WebCryptoAlgorithmIdRsaOaep:
-      switch (key_type) {
-        case blink::WebCryptoKeyTypePublic:
-          return blink::WebCryptoKeyUsageEncrypt |
-                 blink::WebCryptoKeyUsageWrapKey;
-        case blink::WebCryptoKeyTypePrivate:
-          return blink::WebCryptoKeyUsageDecrypt |
-                 blink::WebCryptoKeyUsageUnwrapKey;
-        default:
-          return 0;
-      }
-    default:
-      return 0;
-  }
-}
-
-// Returns Status::Success() if |usages| is a valid set of key usages for
-// |algorithm| and |key_type|. Otherwise returns an error.
-// In the case of JWK format the check is incomplete for asymmetric algorithms.
-Status BestEffortCheckKeyUsagesForImport(blink::WebCryptoAlgorithmId algorithm,
-                                         blink::WebCryptoKeyFormat format,
-                                         blink::WebCryptoKeyUsageMask usages) {
-  if (!IsAlgorithmAsymmetric(algorithm))
-    return CheckKeyUsages(algorithm, blink::WebCryptoKeyTypeSecret, usages);
-
-  // Try to infer the key type given the import format.
-  blink::WebCryptoKeyType key_type;
-  bool key_type_known = false;
-
-  switch (format) {
-    case blink::WebCryptoKeyFormatRaw:
-      // TODO(eroman): The spec defines Diffie-Hellman raw import for public
-      // keys, so this will need to be updated in the future when DH is
-      // implemented.
-      return Status::ErrorUnexpected();
-    case blink::WebCryptoKeyFormatSpki:
-      key_type = blink::WebCryptoKeyTypePublic;
-      key_type_known = true;
-      break;
-    case blink::WebCryptoKeyFormatPkcs8:
-      key_type = blink::WebCryptoKeyTypePrivate;
-      key_type_known = true;
-      break;
-    case blink::WebCryptoKeyFormatJwk:
-      key_type_known = false;
-      break;
-    default:
-      return Status::ErrorUnexpected();
-  }
-
-  if (key_type_known)
-    return CheckKeyUsages(algorithm, key_type, usages);
-
-  // If the key type is not known, then the algorithm is asymmetric. Whether the
-  // key data describes a public or private key isn't known yet. But it must at
-  // least be ONE of those two.
-  DCHECK(IsAlgorithmAsymmetric(algorithm));
-
-  if (CheckKeyUsages(algorithm, blink::WebCryptoKeyTypePublic, usages)
-          .IsError() &&
-      CheckKeyUsages(algorithm, blink::WebCryptoKeyTypePrivate, usages)
-          .IsError()) {
-    return Status::ErrorCreateKeyBadUsages();
-  }
-
-  return Status::Success();
-}
-
-// Returns an error if |combined_usage_mask| is invalid for generating a key
-// pair for |algorithm|. Otherwise returns Status::Success(), and fills
-// |public_key_usages| with the usages for the public key, and
-// |private_key_usages| with those for the private key.
-Status CheckKeyUsagesForGenerateKeyPair(
-    blink::WebCryptoAlgorithmId algorithm,
-    blink::WebCryptoKeyUsageMask combined_usage_mask,
-    blink::WebCryptoKeyUsageMask* public_key_usages,
-    blink::WebCryptoKeyUsageMask* private_key_usages) {
-  DCHECK(IsAlgorithmAsymmetric(algorithm));
-
-  blink::WebCryptoKeyUsageMask all_public_key_usages =
-      GetValidKeyUsagesForKeyType(algorithm, blink::WebCryptoKeyTypePublic);
-  blink::WebCryptoKeyUsageMask all_private_key_usages =
-      GetValidKeyUsagesForKeyType(algorithm, blink::WebCryptoKeyTypePrivate);
-
-  if (!ContainsKeyUsages(all_public_key_usages | all_private_key_usages,
-                         combined_usage_mask))
-    return Status::ErrorCreateKeyBadUsages();
-
-  *public_key_usages = combined_usage_mask & all_public_key_usages;
-  *private_key_usages = combined_usage_mask & all_private_key_usages;
-
-  return Status::Success();
-}
-
-// Converts a (big-endian) WebCrypto BigInteger, with or without leading zeros,
-// to unsigned long.
-bool BigIntegerToLong(const uint8* data,
-                      unsigned int data_size,
-                      unsigned long* result) {
-  // TODO(padolph): Is it correct to say that empty data is an error, or does it
-  // mean value 0? See https://www.w3.org/Bugs/Public/show_bug.cgi?id=23655
-  if (data_size == 0)
-    return false;
-
-  *result = 0;
-  for (size_t i = 0; i < data_size; ++i) {
-    size_t reverse_i = data_size - i - 1;
-
-    if (reverse_i >= sizeof(unsigned long) && data[i])
-      return false;  // Too large for a long.
-
-    *result |= data[i] << 8 * reverse_i;
-  }
-  return true;
-}
-
-
-}  // namespace
-
-void Init() { platform::Init(); }
-
-Status Encrypt(const blink::WebCryptoAlgorithm& algorithm,
-               const blink::WebCryptoKey& key,
-               const CryptoData& data,
-               std::vector<uint8>* buffer) {
-  if (!KeyUsageAllows(key, blink::WebCryptoKeyUsageEncrypt))
-    return Status::ErrorUnexpected();
-  return EncryptDontCheckUsage(algorithm, key, data, buffer);
-}
-
-Status Decrypt(const blink::WebCryptoAlgorithm& algorithm,
-               const blink::WebCryptoKey& key,
-               const CryptoData& data,
-               std::vector<uint8>* buffer) {
-  if (!KeyUsageAllows(key, blink::WebCryptoKeyUsageDecrypt))
-    return Status::ErrorUnexpected();
-  return DecryptDontCheckKeyUsage(algorithm, key, data, buffer);
-}
-
-Status Digest(const blink::WebCryptoAlgorithm& algorithm,
-              const CryptoData& data,
-              std::vector<uint8>* buffer) {
-  switch (algorithm.id()) {
-    case blink::WebCryptoAlgorithmIdSha1:
-    case blink::WebCryptoAlgorithmIdSha256:
-    case blink::WebCryptoAlgorithmIdSha384:
-    case blink::WebCryptoAlgorithmIdSha512:
-      return platform::DigestSha(algorithm.id(), data, buffer);
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-scoped_ptr<blink::WebCryptoDigestor> CreateDigestor(
-    blink::WebCryptoAlgorithmId algorithm) {
-  return platform::CreateDigestor(algorithm);
-}
-
-Status GenerateSecretKey(const blink::WebCryptoAlgorithm& algorithm,
-                         bool extractable,
-                         blink::WebCryptoKeyUsageMask usage_mask,
-                         blink::WebCryptoKey* key) {
-  Status status =
-      CheckKeyUsages(algorithm.id(), blink::WebCryptoKeyTypeSecret, usage_mask);
-  if (status.IsError())
-    return status;
-
-  unsigned int keylen_bytes = 0;
-
-  // Get the secret key length in bytes from generation parameters.
-  // This resolves any defaults.
-  switch (algorithm.id()) {
-    case blink::WebCryptoAlgorithmIdAesCbc:
-    case blink::WebCryptoAlgorithmIdAesGcm:
-    case blink::WebCryptoAlgorithmIdAesKw: {
-      if (!IsValidAesKeyLengthBits(algorithm.aesKeyGenParams()->lengthBits())) {
-        return algorithm.aesKeyGenParams()->lengthBits() == 192
-                   ? Status::ErrorAes192BitUnsupported()
-                   : Status::ErrorGenerateKeyLength();
-      }
-      keylen_bytes = algorithm.aesKeyGenParams()->lengthBits() / 8;
-      break;
-    }
-    case blink::WebCryptoAlgorithmIdHmac: {
-      const blink::WebCryptoHmacKeyGenParams* params =
-          algorithm.hmacKeyGenParams();
-      DCHECK(params);
-      if (params->hasLengthBits()) {
-        if (params->optionalLengthBits() % 8)
-          return Status::ErrorGenerateKeyLength();
-        keylen_bytes = params->optionalLengthBits() / 8;
-      } else {
-        keylen_bytes = ShaBlockSizeBytes(params->hash().id());
-        if (keylen_bytes == 0)
-          return Status::ErrorUnsupported();
-      }
-      break;
-    }
-
-    default:
-      return Status::ErrorUnsupported();
-  }
-
-  // TODO(eroman): Is this correct? HMAC can import zero-length keys, so should
-  //               probably be able to allowed to generate them too.
-  if (keylen_bytes == 0)
-    return Status::ErrorGenerateKeyLength();
-
-  return platform::GenerateSecretKey(
-      algorithm, extractable, usage_mask, keylen_bytes, key);
-}
-
-Status GenerateKeyPair(const blink::WebCryptoAlgorithm& algorithm,
-                       bool extractable,
-                       blink::WebCryptoKeyUsageMask combined_usage_mask,
-                       blink::WebCryptoKey* public_key,
-                       blink::WebCryptoKey* private_key) {
-  blink::WebCryptoKeyUsageMask public_key_usage_mask = 0;
-  blink::WebCryptoKeyUsageMask private_key_usage_mask = 0;
-
-  Status status = CheckKeyUsagesForGenerateKeyPair(algorithm.id(),
-                                                   combined_usage_mask,
-                                                   &public_key_usage_mask,
-                                                   &private_key_usage_mask);
-  if (status.IsError())
-    return status;
-
-  // TODO(padolph): Handle other asymmetric algorithm key generation.
-  switch (algorithm.paramsType()) {
-    case blink::WebCryptoAlgorithmParamsTypeRsaHashedKeyGenParams: {
-      const blink::WebCryptoRsaHashedKeyGenParams* params =
-          algorithm.rsaHashedKeyGenParams();
-
-      if (!params->modulusLengthBits())
-        return Status::ErrorGenerateRsaZeroModulus();
-
-      unsigned long public_exponent = 0;
-      if (!BigIntegerToLong(params->publicExponent().data(),
-                            params->publicExponent().size(),
-                            &public_exponent) ||
-          (public_exponent != 3 && public_exponent != 65537)) {
-        return Status::ErrorGenerateKeyPublicExponent();
-      }
-
-      return platform::GenerateRsaKeyPair(algorithm,
-                                          extractable,
-                                          public_key_usage_mask,
-                                          private_key_usage_mask,
-                                          params->modulusLengthBits(),
-                                          public_exponent,
-                                          public_key,
-                                          private_key);
-    }
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-// Note that this function may be called from the target Blink thread.
-Status ImportKey(blink::WebCryptoKeyFormat format,
-                 const CryptoData& key_data,
-                 const blink::WebCryptoAlgorithm& algorithm,
-                 bool extractable,
-                 blink::WebCryptoKeyUsageMask usage_mask,
-                 blink::WebCryptoKey* key) {
-  // This is "best effort" because it is incomplete for JWK (for which the key
-  // type is not yet known). ImportKeyJwk() does extra checks on key usage once
-  // the key type has been determined.
-  Status status =
-      BestEffortCheckKeyUsagesForImport(algorithm.id(), format, usage_mask);
-  if (status.IsError())
-    return status;
-
-  switch (format) {
-    case blink::WebCryptoKeyFormatRaw:
-      return ImportKeyRaw(key_data, algorithm, extractable, usage_mask, key);
-    case blink::WebCryptoKeyFormatSpki:
-      return platform::ImportKeySpki(
-          algorithm, key_data, extractable, usage_mask, key);
-    case blink::WebCryptoKeyFormatPkcs8:
-      return platform::ImportKeyPkcs8(
-          algorithm, key_data, extractable, usage_mask, key);
-    case blink::WebCryptoKeyFormatJwk:
-      return ImportKeyJwk(key_data, algorithm, extractable, usage_mask, key);
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-// TODO(eroman): Move this to anonymous namespace.
-Status ExportKeyDontCheckExtractability(blink::WebCryptoKeyFormat format,
-                                        const blink::WebCryptoKey& key,
-                                        std::vector<uint8>* buffer) {
-  switch (format) {
-    case blink::WebCryptoKeyFormatRaw: {
-      platform::SymKey* sym_key;
-      Status status = ToPlatformSymKey(key, &sym_key);
-      if (status.IsError())
-        return status;
-      return platform::ExportKeyRaw(sym_key, buffer);
-    }
-    case blink::WebCryptoKeyFormatSpki: {
-      platform::PublicKey* public_key;
-      Status status = ToPlatformPublicKey(key, &public_key);
-      if (status.IsError())
-        return status;
-      return platform::ExportKeySpki(public_key, buffer);
-    }
-    case blink::WebCryptoKeyFormatPkcs8: {
-      platform::PrivateKey* private_key;
-      Status status = ToPlatformPrivateKey(key, &private_key);
-      if (status.IsError())
-        return status;
-      return platform::ExportKeyPkcs8(private_key, key.algorithm(), buffer);
-    }
-    case blink::WebCryptoKeyFormatJwk:
-      return ExportKeyJwk(key, buffer);
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-Status ExportKey(blink::WebCryptoKeyFormat format,
-                 const blink::WebCryptoKey& key,
-                 std::vector<uint8>* buffer) {
-  if (!key.extractable())
-    return Status::ErrorKeyNotExtractable();
-  return ExportKeyDontCheckExtractability(format, key, buffer);
-}
-
-Status Sign(const blink::WebCryptoAlgorithm& algorithm,
-            const blink::WebCryptoKey& key,
-            const CryptoData& data,
-            std::vector<uint8>* buffer) {
-  if (!KeyUsageAllows(key, blink::WebCryptoKeyUsageSign))
-    return Status::ErrorUnexpected();
-  if (algorithm.id() != key.algorithm().id())
-    return Status::ErrorUnexpected();
-
-  switch (algorithm.id()) {
-    case blink::WebCryptoAlgorithmIdHmac:
-      return SignHmac(algorithm, key, data, buffer);
-    case blink::WebCryptoAlgorithmIdRsaSsaPkcs1v1_5:
-      return SignRsaSsaPkcs1v1_5(algorithm, key, data, buffer);
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-Status VerifySignature(const blink::WebCryptoAlgorithm& algorithm,
-                       const blink::WebCryptoKey& key,
-                       const CryptoData& signature,
-                       const CryptoData& data,
-                       bool* signature_match) {
-  if (!KeyUsageAllows(key, blink::WebCryptoKeyUsageVerify))
-    return Status::ErrorUnexpected();
-  if (algorithm.id() != key.algorithm().id())
-    return Status::ErrorUnexpected();
-
-  if (!signature.byte_length()) {
-    // None of the algorithms generate valid zero-length signatures so this
-    // will necessarily fail verification. Early return to protect
-    // implementations from dealing with a NULL signature pointer.
-    *signature_match = false;
-    return Status::Success();
-  }
-
-  switch (algorithm.id()) {
-    case blink::WebCryptoAlgorithmIdHmac:
-      return VerifyHmac(algorithm, key, signature, data, signature_match);
-    case blink::WebCryptoAlgorithmIdRsaSsaPkcs1v1_5:
-      return VerifyRsaSsaPkcs1v1_5(
-          algorithm, key, signature, data, signature_match);
-    default:
-      return Status::ErrorUnsupported();
-  }
-}
-
-Status WrapKey(blink::WebCryptoKeyFormat format,
-               const blink::WebCryptoKey& key_to_wrap,
-               const blink::WebCryptoKey& wrapping_key,
-               const blink::WebCryptoAlgorithm& wrapping_algorithm,
-               std::vector<uint8>* buffer) {
-  if (!KeyUsageAllows(wrapping_key, blink::WebCryptoKeyUsageWrapKey))
-    return Status::ErrorUnexpected();
-  if (wrapping_algorithm.id() != wrapping_key.algorithm().id())
-    return Status::ErrorUnexpected();
-
-  return WrapKeyExportAndEncrypt(
-      format, key_to_wrap, wrapping_key, wrapping_algorithm, buffer);
-}
-
-Status UnwrapKey(blink::WebCryptoKeyFormat format,
-                 const CryptoData& wrapped_key_data,
-                 const blink::WebCryptoKey& wrapping_key,
-                 const blink::WebCryptoAlgorithm& wrapping_algorithm,
-                 const blink::WebCryptoAlgorithm& algorithm,
-                 bool extractable,
-                 blink::WebCryptoKeyUsageMask usage_mask,
-                 blink::WebCryptoKey* key) {
-  if (!KeyUsageAllows(wrapping_key, blink::WebCryptoKeyUsageUnwrapKey))
-    return Status::ErrorUnexpected();
-  if (wrapping_algorithm.id() != wrapping_key.algorithm().id())
-    return Status::ErrorUnexpected();
-
-  // Fail-fast if the key usages don't make sense. This avoids decrypting the
-  // key only to then have import fail. It is "best effort" because when
-  // unwrapping JWK for asymmetric algorithms the key type isn't known yet.
-  Status status =
-      BestEffortCheckKeyUsagesForImport(algorithm.id(), format, usage_mask);
-  if (status.IsError())
-    return status;
-
-  return UnwrapKeyDecryptAndImport(format,
-                                   wrapped_key_data,
-                                   wrapping_key,
-                                   wrapping_algorithm,
-                                   algorithm,
-                                   extractable,
-                                   usage_mask,
-                                   key);
-}
-
-// Note that this function is called from the target Blink thread.
-bool SerializeKeyForClone(const blink::WebCryptoKey& key,
-                          blink::WebVector<uint8>* key_data) {
-  return static_cast<webcrypto::platform::Key*>(key.handle())
-      ->ThreadSafeSerializeForClone(key_data);
-}
-
-// Note that this function is called from the target Blink thread.
-bool DeserializeKeyForClone(const blink::WebCryptoKeyAlgorithm& algorithm,
-                            blink::WebCryptoKeyType type,
-                            bool extractable,
-                            blink::WebCryptoKeyUsageMask usage_mask,
-                            const CryptoData& key_data,
-                            blink::WebCryptoKey* key) {
-  // TODO(eroman): This should not call into the platform crypto layer.
-  // Otherwise it runs the risk of stalling while the NSS/OpenSSL global locks
-  // are held.
-  //
-  // An alternate approach is to defer the key import until the key is used.
-  // However this means that any deserialization errors would have to be
-  // surfaced as WebCrypto errors, leading to slightly different behaviors. For
-  // instance you could clone a key which fails to be deserialized.
-  Status status = ImportKey(GetCloneFormatForKeyType(type),
-                            key_data,
-                            KeyAlgorithmToImportAlgorithm(algorithm),
-                            extractable,
-                            usage_mask,
-                            key);
-  if (status.IsError())
-    return false;
-  return ValidateDeserializedKey(*key, algorithm, type);
-}
-
-Status ToPlatformSymKey(const blink::WebCryptoKey& key,
-                        platform::SymKey** out) {
-  *out = static_cast<platform::Key*>(key.handle())->AsSymKey();
-  if (!*out)
-    return Status::ErrorUnexpectedKeyType();
-  return Status::Success();
-}
-
-Status ToPlatformPublicKey(const blink::WebCryptoKey& key,
-                           platform::PublicKey** out) {
-  *out = static_cast<platform::Key*>(key.handle())->AsPublicKey();
-  if (!*out)
-    return Status::ErrorUnexpectedKeyType();
-  return Status::Success();
-}
-
-Status ToPlatformPrivateKey(const blink::WebCryptoKey& key,
-                            platform::PrivateKey** out) {
-  *out = static_cast<platform::Key*>(key.handle())->AsPrivateKey();
-  if (!*out)
-    return Status::ErrorUnexpectedKeyType();
-  return Status::Success();
-}
-
-// Returns Status::Success() if |usages| is a valid set of key usages for
-// |algorithm| and |key_type|. Otherwise returns an error.
-Status CheckKeyUsages(blink::WebCryptoAlgorithmId algorithm,
-                      blink::WebCryptoKeyType key_type,
-                      blink::WebCryptoKeyUsageMask usages) {
-  if (!ContainsKeyUsages(GetValidKeyUsagesForKeyType(algorithm, key_type),
-                         usages))
-    return Status::ErrorCreateKeyBadUsages();
-
-  return Status::Success();
-}
-
-}  // namespace webcrypto
-
-}  // namespace content