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crypto_scrypt.cc
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crypto_scrypt.cc
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#include "crypto/crypto_scrypt.h"
#include "async_wrap-inl.h"
#include "crypto/crypto_util.h"
#include "env-inl.h"
#include "memory_tracker-inl.h"
#include "node_buffer.h"
#include "threadpoolwork-inl.h"
#include "v8.h"
namespace node {
using v8::FunctionCallbackInfo;
using v8::Int32;
using v8::Just;
using v8::Maybe;
using v8::Nothing;
using v8::Uint32;
using v8::Value;
namespace crypto {
#ifndef OPENSSL_NO_SCRYPT
ScryptConfig::ScryptConfig(ScryptConfig&& other) noexcept
: mode(other.mode),
pass(std::move(other.pass)),
salt(std::move(other.salt)),
N(other.N),
r(other.r),
p(other.p),
maxmem(other.maxmem),
length(other.length) {}
ScryptConfig& ScryptConfig::operator=(ScryptConfig&& other) noexcept {
if (&other == this) return *this;
this->~ScryptConfig();
return *new (this) ScryptConfig(std::move(other));
}
void ScryptConfig::MemoryInfo(MemoryTracker* tracker) const {
if (mode == kCryptoJobAsync) {
tracker->TrackFieldWithSize("pass", pass.size());
tracker->TrackFieldWithSize("salt", salt.size());
}
}
Maybe<bool> ScryptTraits::EncodeOutput(
Environment* env,
const ScryptConfig& params,
ByteSource* out,
v8::Local<v8::Value>* result) {
*result = out->ToArrayBuffer(env);
return Just(!result->IsEmpty());
}
Maybe<bool> ScryptTraits::AdditionalConfig(
CryptoJobMode mode,
const FunctionCallbackInfo<Value>& args,
unsigned int offset,
ScryptConfig* params) {
Environment* env = Environment::GetCurrent(args);
params->mode = mode;
ArrayBufferOrViewContents<char> pass(args[offset]);
ArrayBufferOrViewContents<char> salt(args[offset + 1]);
if (UNLIKELY(!pass.CheckSizeInt32())) {
THROW_ERR_OUT_OF_RANGE(env, "pass is too large");
return Nothing<bool>();
}
if (UNLIKELY(!salt.CheckSizeInt32())) {
THROW_ERR_OUT_OF_RANGE(env, "salt is too large");
return Nothing<bool>();
}
params->pass = mode == kCryptoJobAsync
? pass.ToCopy()
: pass.ToByteSource();
params->salt = mode == kCryptoJobAsync
? salt.ToCopy()
: salt.ToByteSource();
CHECK(args[offset + 2]->IsUint32()); // N
CHECK(args[offset + 3]->IsUint32()); // r
CHECK(args[offset + 4]->IsUint32()); // p
CHECK(args[offset + 5]->IsNumber()); // maxmem
CHECK(args[offset + 6]->IsInt32()); // length
params->N = args[offset + 2].As<Uint32>()->Value();
params->r = args[offset + 3].As<Uint32>()->Value();
params->p = args[offset + 4].As<Uint32>()->Value();
params->maxmem = args[offset + 5]->IntegerValue(env->context()).ToChecked();
if (EVP_PBE_scrypt(
nullptr,
0,
nullptr,
0,
params->N,
params->r,
params->p,
params->maxmem,
nullptr,
0) != 1) {
THROW_ERR_CRYPTO_INVALID_SCRYPT_PARAMS(env);
return Nothing<bool>();
}
params->length = args[offset + 6].As<Int32>()->Value();
CHECK_GE(params->length, 0);
return Just(true);
}
bool ScryptTraits::DeriveBits(
Environment* env,
const ScryptConfig& params,
ByteSource* out) {
ByteSource::Builder buf(params.length);
// Both the pass and salt may be zero-length at this point
if (!EVP_PBE_scrypt(params.pass.data<char>(),
params.pass.size(),
params.salt.data<unsigned char>(),
params.salt.size(),
params.N,
params.r,
params.p,
params.maxmem,
buf.data<unsigned char>(),
params.length)) {
return false;
}
*out = std::move(buf).release();
return true;
}
#endif // !OPENSSL_NO_SCRYPT
} // namespace crypto
} // namespace node