/**
* \file
* \author Egor Tensin <Egor.Tensin@gmail.com>
* \date 2015
* \copyright This file is licensed under the terms of the MIT License.
* See LICENSE.txt for details.
*/
#include "block_common.hpp"
#include <aesni/all.h>
#include <aesnixx/all.hpp>
#include <deque>
#include <exception>
#include <iostream>
#include <string>
namespace
{
template <aesni::Algorithm algorithm, aesni::Mode mode>
bool encrypt_with_mode(
const std::string& key_str,
std::deque<std::string>& plaintexts,
bool verbose = false)
{
typename aesni::Types<algorithm>::Block iv;
if (aesni::ModeRequiresInitializationVector<mode>::value)
{
if (plaintexts.empty())
return false;
aesni::from_string<algorithm>(iv, plaintexts.front());
plaintexts.pop_front();
if (verbose)
dump_iv<algorithm>(iv);
}
typename aesni::Types<algorithm>::Key key;
aesni::from_string<algorithm>(key, key_str);
if (verbose)
dump_key<algorithm>(key);
aesni::EncryptWrapper<algorithm, mode> encrypt(key, iv);
if (verbose)
dump_wrapper<algorithm, mode>(encrypt);
while (!plaintexts.empty())
{
typename aesni::Types<algorithm>::Block plaintext, ciphertext;
aesni::from_string<algorithm>(plaintext, plaintexts.front());
plaintexts.pop_front();
encrypt.encrypt_block(plaintext, ciphertext);
if (verbose)
{
dump_plaintext<algorithm>(plaintext);
dump_ciphertext<algorithm>(ciphertext);
dump_next_iv<algorithm, mode>(encrypt);
}
else
{
std::cout << aesni::to_string<algorithm>(ciphertext) << "\n";
}
}
return true;
}
template <aesni::Algorithm algorithm>
bool encrypt_with_algorithm(
aesni::Mode mode,
const std::string& key_str,
std::deque<std::string>& plaintexts,
bool verbose = false)
{
switch (mode)
{
case AESNI_ECB:
return encrypt_with_mode<algorithm, AESNI_ECB>(key_str, plaintexts, verbose);
case AESNI_CBC:
return encrypt_with_mode<algorithm, AESNI_CBC>(key_str, plaintexts, verbose);
case AESNI_CFB:
return encrypt_with_mode<algorithm, AESNI_CFB>(key_str, plaintexts, verbose);
case AESNI_OFB:
return encrypt_with_mode<algorithm, AESNI_OFB>(key_str, plaintexts, verbose);
case AESNI_CTR:
return encrypt_with_mode<algorithm, AESNI_CTR>(key_str, plaintexts, verbose);
default:
return false;
}
}
bool encrypt_using_cxx_api(
aesni::Algorithm algorithm,
aesni::Mode mode,
const std::string& key_str,
std::deque<std::string>& plaintexts,
bool verbose = false)
{
switch (algorithm)
{
case AESNI_AES128:
return encrypt_with_algorithm<AESNI_AES128>(mode, key_str, plaintexts, verbose);
case AESNI_AES192:
return encrypt_with_algorithm<AESNI_AES192>(mode, key_str, plaintexts, verbose);
case AESNI_AES256:
return encrypt_with_algorithm<AESNI_AES256>(mode, key_str, plaintexts, verbose);
default:
return false;
}
}
template <aesni::Algorithm algorithm>
bool encrypt_using_boxes_with_algorithm(
const AesNI_BoxAlgorithmParams& algorithm_params,
aesni::Mode mode,
const std::string& key,
std::deque<std::string> plaintexts)
{
AesNI_BoxBlock iv;
AesNI_BoxBlock* iv_ptr = nullptr;
if (aesni::mode_requires_initialization_vector(mode))
{
if (plaintexts.empty())
return false;
aesni::from_string<AESNI_AES128>(iv.aes_block, plaintexts.front());
iv_ptr = &iv;
plaintexts.pop_front();
}
AesNI_Box box;
aesni_box_init(
&box,
algorithm,
&algorithm_params,
mode,
iv_ptr,
aesni::ErrorDetailsThrowsInDestructor());
while (!plaintexts.empty())
{
AesNI_BoxBlock plaintext;
aesni::from_string<algorithm>(plaintext.aes_block, plaintexts.front());
plaintexts.pop_front();
AesNI_BoxBlock ciphertext;
aesni_box_encrypt_block(
&box,
&plaintext,
&ciphertext,
aesni::ErrorDetailsThrowsInDestructor());
std::cout << aesni::to_string<algorithm>(ciphertext.aes_block) << "\n";
}
return true;
}
bool encrypt_using_boxes(
aesni::Algorithm algorithm,
aesni::Mode mode,
const std::string& key,
std::deque<std::string> plaintexts)
{
AesNI_BoxAlgorithmParams algorithm_params;
switch (algorithm)
{
case AESNI_AES128:
aesni::from_string<AESNI_AES128>(
algorithm_params.aes128_key, key);
return encrypt_using_boxes_with_algorithm<AESNI_AES128>(
algorithm_params, mode, key, plaintexts);
case AESNI_AES192:
aesni::from_string<AESNI_AES192>(
algorithm_params.aes192_key, key);
return encrypt_using_boxes_with_algorithm<AESNI_AES192>(
algorithm_params, mode, key, plaintexts);
case AESNI_AES256:
aesni::from_string<AESNI_AES256>(
algorithm_params.aes256_key, key);
return encrypt_using_boxes_with_algorithm<AESNI_AES256>(
algorithm_params, mode, key, plaintexts);
default:
return false;
}
}
}
int main(int argc, char** argv)
{
try
{
CommandLineParser cmd_parser("encrypt_block.exe");
if (!cmd_parser.parse_options(argc, argv))
return 0;
const auto algorithm = cmd_parser.get_algorithm();
const auto mode = cmd_parser.get_mode();
auto args = cmd_parser.get_args();
while (!args.empty())
{
const auto key = args.front();
args.pop_front();
std::deque<std::string> plaintexts;
while (!args.empty())
{
if (args.front() == "--")
{
args.pop_front();
break;
}
plaintexts.push_back(args.front());
args.pop_front();
}
const auto success = cmd_parser.use_boxes()
? encrypt_using_boxes(algorithm, mode, key, plaintexts)
: encrypt_using_cxx_api(algorithm, mode, key, plaintexts, cmd_parser.verbose());
if (!success)
{
cmd_parser.print_usage();
return 1;
}
}
return 0;
}
catch (const boost::program_options::error& e)
{
std::cerr << "Usage error: " << e.what() << "\n";
return 1;
}
catch (const aesni::Error& e)
{
std::cerr << e;
return 1;
}
catch (const std::exception& e)
{
std::cerr << e.what() << "\n";
return 1;
}
}