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// Copyright 2011 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "crypto/symmetric_key.h"
#include <stddef.h>
#include <stdint.h>
#include <algorithm>
#include <utility>
#include "base/check_op.h"
#include "base/notreached.h"
#include "base/strings/string_util.h"
#include "crypto/openssl_util.h"
#include "third_party/boringssl/src/include/openssl/evp.h"
#include "third_party/boringssl/src/include/openssl/rand.h"
namespace crypto {
namespace {
bool CheckDerivationParameters(SymmetricKey::Algorithm algorithm,
size_t key_size_in_bits) {
switch (algorithm) {
case SymmetricKey::AES:
// Check for supported key sizes. Historically, NSS supported AES-192
// while BoringSSL did not and this check aligned their behavior.
return key_size_in_bits == 128 || key_size_in_bits == 256;
case SymmetricKey::HMAC_SHA1:
return key_size_in_bits % 8 == 0 && key_size_in_bits != 0;
}
NOTREACHED();
return false;
}
} // namespace
SymmetricKey::~SymmetricKey() {
std::fill(key_.begin(), key_.end(), '\0'); // Zero out the confidential key.
}
// static
std::unique_ptr<SymmetricKey> SymmetricKey::GenerateRandomKey(
Algorithm algorithm,
size_t key_size_in_bits) {
DCHECK_EQ(AES, algorithm);
// Check for supported key sizes. Historically, NSS supported AES-192 while
// BoringSSL did not and this check aligned their behavior.
if (key_size_in_bits != 128 && key_size_in_bits != 256)
return nullptr;
size_t key_size_in_bytes = key_size_in_bits / 8;
DCHECK_EQ(key_size_in_bits, key_size_in_bytes * 8);
if (key_size_in_bytes == 0)
return nullptr;
OpenSSLErrStackTracer err_tracer(FROM_HERE);
std::unique_ptr<SymmetricKey> key(new SymmetricKey);
uint8_t* key_data = reinterpret_cast<uint8_t*>(
base::WriteInto(&key->key_, key_size_in_bytes + 1));
int rv = RAND_bytes(key_data, static_cast<int>(key_size_in_bytes));
return rv == 1 ? std::move(key) : nullptr;
}
// static
std::unique_ptr<SymmetricKey> SymmetricKey::DeriveKeyFromPasswordUsingPbkdf2(
Algorithm algorithm,
const std::string& password,
const std::string& salt,
size_t iterations,
size_t key_size_in_bits) {
if (!CheckDerivationParameters(algorithm, key_size_in_bits))
return nullptr;
size_t key_size_in_bytes = key_size_in_bits / 8;
OpenSSLErrStackTracer err_tracer(FROM_HERE);
std::unique_ptr<SymmetricKey> key(new SymmetricKey);
uint8_t* key_data = reinterpret_cast<uint8_t*>(
base::WriteInto(&key->key_, key_size_in_bytes + 1));
int rv = PKCS5_PBKDF2_HMAC_SHA1(
password.data(), password.length(),
reinterpret_cast<const uint8_t*>(salt.data()), salt.length(),
static_cast<unsigned>(iterations),
key_size_in_bytes, key_data);
return rv == 1 ? std::move(key) : nullptr;
}
// static
std::unique_ptr<SymmetricKey> SymmetricKey::DeriveKeyFromPasswordUsingScrypt(
Algorithm algorithm,
const std::string& password,
const std::string& salt,
size_t cost_parameter,
size_t block_size,
size_t parallelization_parameter,
size_t max_memory_bytes,
size_t key_size_in_bits) {
if (!CheckDerivationParameters(algorithm, key_size_in_bits))
return nullptr;
size_t key_size_in_bytes = key_size_in_bits / 8;
OpenSSLErrStackTracer err_tracer(FROM_HERE);
std::unique_ptr<SymmetricKey> key(new SymmetricKey);
uint8_t* key_data = reinterpret_cast<uint8_t*>(
base::WriteInto(&key->key_, key_size_in_bytes + 1));
int rv = EVP_PBE_scrypt(password.data(), password.length(),
reinterpret_cast<const uint8_t*>(salt.data()),
salt.length(), cost_parameter, block_size,
parallelization_parameter, max_memory_bytes, key_data,
key_size_in_bytes);
return rv == 1 ? std::move(key) : nullptr;
}
// static
std::unique_ptr<SymmetricKey> SymmetricKey::Import(Algorithm algorithm,
const std::string& raw_key) {
if (algorithm == AES) {
// Check for supported key sizes. Historically, NSS supported AES-192 while
// BoringSSL did not and this check aligned their behavior.
if (raw_key.size() != 128/8 && raw_key.size() != 256/8)
return nullptr;
}
std::unique_ptr<SymmetricKey> key(new SymmetricKey);
key->key_ = raw_key;
return key;
}
SymmetricKey::SymmetricKey() = default;
} // namespace crypto