GCC Code Coverage Report
Directory: ./ Exec Total Coverage
File: crypto/crypto_keygen.h Lines: 67 93 72.0 %
Date: 2022-06-07 04:15:38 Branches: 25 43 58.1 %

Line Branch Exec Source
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#ifndef SRC_CRYPTO_CRYPTO_KEYGEN_H_
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#define SRC_CRYPTO_CRYPTO_KEYGEN_H_
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#if defined(NODE_WANT_INTERNALS) && NODE_WANT_INTERNALS
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#include "async_wrap.h"
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#include "base_object.h"
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#include "crypto/crypto_keys.h"
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#include "crypto/crypto_util.h"
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#include "env.h"
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#include "memory_tracker.h"
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#include "v8.h"
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namespace node {
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namespace crypto {
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namespace Keygen {
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void Initialize(Environment* env, v8::Local<v8::Object> target);
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void RegisterExternalReferences(ExternalReferenceRegistry* registry);
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}  // namespace Keygen
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enum class KeyGenJobStatus {
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  OK,
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  FAILED
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};
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// A Base CryptoJob for generating secret keys or key pairs.
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// The KeyGenTraits is largely responsible for the details of
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// the implementation, while KeyGenJob handles the common
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// mechanisms.
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template <typename KeyGenTraits>
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class KeyGenJob final : public CryptoJob<KeyGenTraits> {
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 public:
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  using AdditionalParams = typename KeyGenTraits::AdditionalParameters;
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  static void New(const v8::FunctionCallbackInfo<v8::Value>& args) {
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    Environment* env = Environment::GetCurrent(args);
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    CHECK(args.IsConstructCall());
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    CryptoJobMode mode = GetCryptoJobMode(args[0]);
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    unsigned int offset = 1;
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    AdditionalParams params;
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    if (KeyGenTraits::AdditionalConfig(mode, args, &offset, &params)
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            .IsNothing()) {
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      // The KeyGenTraits::AdditionalConfig is responsible for
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      // calling an appropriate THROW_CRYPTO_* variant reporting
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      // whatever error caused initialization to fail.
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      return;
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    }
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    new KeyGenJob<KeyGenTraits>(env, args.This(), mode, std::move(params));
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  }
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  static void Initialize(
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      Environment* env,
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      v8::Local<v8::Object> target) {
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    CryptoJob<KeyGenTraits>::Initialize(New, env, target);
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  }
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  static void RegisterExternalReferences(ExternalReferenceRegistry* registry) {
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    CryptoJob<KeyGenTraits>::RegisterExternalReferences(New, registry);
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  }
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  KeyGenJob(
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      Environment* env,
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      v8::Local<v8::Object> object,
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      CryptoJobMode mode,
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      AdditionalParams&& params)
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      : CryptoJob<KeyGenTraits>(
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            env,
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            object,
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            KeyGenTraits::Provider,
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            mode,
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            std::move(params)) {}
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  void DoThreadPoolWork() override {
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    // Make sure the CSPRNG is properly seeded so the results are secure.
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    CheckEntropy();
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    AdditionalParams* params = CryptoJob<KeyGenTraits>::params();
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    switch (KeyGenTraits::DoKeyGen(AsyncWrap::env(), params)) {
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      case KeyGenJobStatus::OK:
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        status_ = KeyGenJobStatus::OK;
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        // Success!
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        break;
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      case KeyGenJobStatus::FAILED: {
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        CryptoErrorStore* errors = CryptoJob<KeyGenTraits>::errors();
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        errors->Capture();
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        if (errors->Empty())
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          errors->Insert(NodeCryptoError::KEY_GENERATION_JOB_FAILED);
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      }
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    }
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  }
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  v8::Maybe<bool> ToResult(
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      v8::Local<v8::Value>* err,
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      v8::Local<v8::Value>* result) override {
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    Environment* env = AsyncWrap::env();
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    CryptoErrorStore* errors = CryptoJob<KeyGenTraits>::errors();
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    AdditionalParams* params = CryptoJob<KeyGenTraits>::params();
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    if (status_ == KeyGenJobStatus::OK) {
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      v8::Maybe<bool> ret = KeyGenTraits::EncodeKey(env, params, result);
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      if (ret.IsJust() && ret.FromJust()) {
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        *err = Undefined(env->isolate());
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      }
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      return ret;
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    }
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    if (errors->Empty())
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      errors->Capture();
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    CHECK(!errors->Empty());
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    *result = Undefined(env->isolate());
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    return v8::Just(errors->ToException(env).ToLocal(err));
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  }
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  SET_SELF_SIZE(KeyGenJob)
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 private:
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  KeyGenJobStatus status_ = KeyGenJobStatus::FAILED;
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};
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// A Base KeyGenTraits for Key Pair generation algorithms.
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template <typename KeyPairAlgorithmTraits>
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struct KeyPairGenTraits final {
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  using AdditionalParameters =
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      typename KeyPairAlgorithmTraits::AdditionalParameters;
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  static const AsyncWrap::ProviderType Provider =
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      AsyncWrap::PROVIDER_KEYPAIRGENREQUEST;
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  static constexpr const char* JobName = KeyPairAlgorithmTraits::JobName;
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  static v8::Maybe<bool> AdditionalConfig(
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      CryptoJobMode mode,
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      const v8::FunctionCallbackInfo<v8::Value>& args,
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      unsigned int* offset,
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      AdditionalParameters* params) {
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    // Notice that offset is a pointer. Each of the AdditionalConfig,
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    // GetPublicKeyEncodingFromJs, and GetPrivateKeyEncodingFromJs
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    // functions will update the value of the offset as they successfully
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    // process input parameters. This allows each job to have a variable
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    // number of input parameters specific to each job type.
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    if (KeyPairAlgorithmTraits::AdditionalConfig(mode, args, offset, params)
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            .IsNothing()) {
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      return v8::Just(false);
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    }
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    params->public_key_encoding = ManagedEVPPKey::GetPublicKeyEncodingFromJs(
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        args,
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        offset,
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        kKeyContextGenerate);
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    auto private_key_encoding =
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        ManagedEVPPKey::GetPrivateKeyEncodingFromJs(
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            args,
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            offset,
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            kKeyContextGenerate);
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    if (!private_key_encoding.IsEmpty())
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      params->private_key_encoding = private_key_encoding.Release();
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    return v8::Just(true);
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  }
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  static KeyGenJobStatus DoKeyGen(
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      Environment* env,
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      AdditionalParameters* params) {
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    EVPKeyCtxPointer ctx = KeyPairAlgorithmTraits::Setup(params);
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    if (!ctx)
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      return KeyGenJobStatus::FAILED;
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    // Generate the key
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    EVP_PKEY* pkey = nullptr;
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    if (!EVP_PKEY_keygen(ctx.get(), &pkey))
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      return KeyGenJobStatus::FAILED;
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    params->key = ManagedEVPPKey(EVPKeyPointer(pkey));
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    return KeyGenJobStatus::OK;
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  }
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  static v8::Maybe<bool> EncodeKey(
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      Environment* env,
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      AdditionalParameters* params,
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      v8::Local<v8::Value>* result) {
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    v8::Local<v8::Value> keys[2];
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    if (ManagedEVPPKey::ToEncodedPublicKey(
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            env,
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            std::move(params->key),
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            params->public_key_encoding,
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            &keys[0]).IsNothing() ||
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        ManagedEVPPKey::ToEncodedPrivateKey(
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            env,
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            std::move(params->key),
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            params->private_key_encoding,
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            &keys[1]).IsNothing()) {
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      return v8::Nothing<bool>();
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    }
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    *result = v8::Array::New(env->isolate(), keys, arraysize(keys));
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    return v8::Just(true);
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  }
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};
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struct SecretKeyGenConfig final : public MemoryRetainer {
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  size_t length;  // Expressed a a number of bits
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  char* out = nullptr;  // Placeholder for the generated key bytes
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  void MemoryInfo(MemoryTracker* tracker) const override;
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  SET_MEMORY_INFO_NAME(SecretKeyGenConfig)
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  SET_SELF_SIZE(SecretKeyGenConfig)
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};
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struct SecretKeyGenTraits final {
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  using AdditionalParameters = SecretKeyGenConfig;
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  static const AsyncWrap::ProviderType Provider =
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      AsyncWrap::PROVIDER_KEYGENREQUEST;
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  static constexpr const char* JobName = "SecretKeyGenJob";
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  static v8::Maybe<bool> AdditionalConfig(
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      CryptoJobMode mode,
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      const v8::FunctionCallbackInfo<v8::Value>& args,
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      unsigned int* offset,
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      SecretKeyGenConfig* params);
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  static KeyGenJobStatus DoKeyGen(
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      Environment* env,
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      SecretKeyGenConfig* params);
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  static v8::Maybe<bool> EncodeKey(
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      Environment* env,
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      SecretKeyGenConfig* params,
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      v8::Local<v8::Value>* result);
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};
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template <typename AlgorithmParams>
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struct KeyPairGenConfig final : public MemoryRetainer {
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  PublicKeyEncodingConfig public_key_encoding;
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  PrivateKeyEncodingConfig private_key_encoding;
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  ManagedEVPPKey key;
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  AlgorithmParams params;
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  KeyPairGenConfig() = default;
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  ~KeyPairGenConfig() {
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    Mutex::ScopedLock priv_lock(*key.mutex());
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  }
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  explicit KeyPairGenConfig(KeyPairGenConfig&& other) noexcept
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      : public_key_encoding(other.public_key_encoding),
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        private_key_encoding(
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            std::forward<PrivateKeyEncodingConfig>(
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                other.private_key_encoding)),
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        key(std::move(other.key)),
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        params(std::move(other.params)) {}
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  KeyPairGenConfig& operator=(KeyPairGenConfig&& other) noexcept {
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    if (&other == this) return *this;
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    this->~KeyPairGenConfig();
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    return *new (this) KeyPairGenConfig(std::move(other));
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  }
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  void MemoryInfo(MemoryTracker* tracker) const override {
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    tracker->TrackField("key", key);
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    if (!private_key_encoding.passphrase_.IsEmpty()) {
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      tracker->TrackFieldWithSize("private_key_encoding.passphrase",
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                                  private_key_encoding.passphrase_->size());
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    }
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    tracker->TrackField("params", params);
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  }
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  SET_MEMORY_INFO_NAME(KeyPairGenConfig)
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  SET_SELF_SIZE(KeyPairGenConfig)
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};
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struct NidKeyPairParams final : public MemoryRetainer {
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  int id;
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  SET_NO_MEMORY_INFO()
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  SET_MEMORY_INFO_NAME(NidKeyPairParams)
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  SET_SELF_SIZE(NidKeyPairParams)
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};
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using NidKeyPairGenConfig = KeyPairGenConfig<NidKeyPairParams>;
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struct NidKeyPairGenTraits final {
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  using AdditionalParameters = NidKeyPairGenConfig;
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  static constexpr const char* JobName = "NidKeyPairGenJob";
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  static EVPKeyCtxPointer Setup(NidKeyPairGenConfig* params);
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  static v8::Maybe<bool> AdditionalConfig(
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      CryptoJobMode mode,
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      const v8::FunctionCallbackInfo<v8::Value>& args,
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      unsigned int* offset,
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      NidKeyPairGenConfig* params);
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};
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using NidKeyPairGenJob = KeyGenJob<KeyPairGenTraits<NidKeyPairGenTraits>>;
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using SecretKeyGenJob = KeyGenJob<SecretKeyGenTraits>;
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}  // namespace crypto
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}  // namespace node
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#endif  // defined(NODE_WANT_INTERNALS) && NODE_WANT_INTERNALS
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#endif  // SRC_CRYPTO_CRYPTO_KEYGEN_H_
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