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root: macro: crypto: add hash.C

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Generates encoded digests using all available cryptographic libraries.
This commit is contained in:
Aaron Fiore
2024-07-23 15:30:41 -07:00
parent b08187abba
commit 1092cd4adc
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// docker-finance | modern accounting for the power-user
//
// Copyright (C) 2024 Aaron Fiore (Founder, Evergreen Crypto LLC)
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <https://www.gnu.org/licenses/>.
//! \file
//! \author Aaron Fiore (Founder, Evergreen Crypto LLC)
//! \note File intended to be loaded into ROOT.cern framework / Cling interpreter
//! \since docker-finance 1.0.0
#ifndef CONTAINER_SRC_ROOT_MACRO_CRYPTO_HASH_C_
#define CONTAINER_SRC_ROOT_MACRO_CRYPTO_HASH_C_
#include <iostream>
#include <map>
#include <string>
#include "../common/crypto.hh"
//! \namespace docker_finance
//! \since docker-finance 1.0.0
namespace docker_finance
{
//! \namespace docker_finance::macro
//! \brief ROOT macros
//! \since docker-finance 1.0.0
namespace macro
{
//! \namespace docker_finance::macro::crypto
//! \brief ROOT cryptographic-based macros
//! \since docker-finance 1.0.0
namespace crypto
{
namespace common = ::docker_finance::macro::common;
namespace libsodium = common::crypto::libsodium;
namespace cryptopp = common::crypto::cryptopp;
namespace botan = common::crypto::botan;
//! \brief Hash generator macro
class Hash final
{
using t_hash = std::map<std::string, std::string>;
public:
Hash() = default;
~Hash() = default;
Hash(const Hash&) = delete;
Hash& operator=(const Hash&) = delete;
Hash(Hash&&) = default;
Hash& operator=(Hash&&) = default;
protected:
//! \brief Botan Hash encoder
//! \param message Message to encode
//! \return t_hash Hash map to print (label, digest)
static t_hash botan_encode(const std::string& message)
{
t_hash hash;
//
// BLAKE2
//
hash["botan::Hash::BLAKE2b"] =
botan::g_Hash->encode<botan::Hash::BLAKE2b>(message);
//
// Keccak
//
hash["botan::Hash::Keccak_224"] =
botan::g_Hash->encode<botan::Hash::Keccak_224>(message);
hash["botan::Hash::Keccak_256"] =
botan::g_Hash->encode<botan::Hash::Keccak_256>(message);
hash["botan::Hash::Keccak_384"] =
botan::g_Hash->encode<botan::Hash::Keccak_384>(message);
hash["botan::Hash::Keccak_512"] =
botan::g_Hash->encode<botan::Hash::Keccak_512>(message);
//
// SHA
//
hash["botan::Hash::SHA1"] =
botan::g_Hash->encode<botan::Hash::SHA1>(message);
hash["botan::Hash::SHA2_224"] =
botan::g_Hash->encode<botan::Hash::SHA2_224>(message);
hash["botan::Hash::SHA2_256"] =
botan::g_Hash->encode<botan::Hash::SHA2_256>(message);
hash["botan::Hash::SHA2_384"] =
botan::g_Hash->encode<botan::Hash::SHA2_384>(message);
hash["botan::Hash::SHA2_512"] =
botan::g_Hash->encode<botan::Hash::SHA2_512>(message);
hash["botan::Hash::SHA3_224"] =
botan::g_Hash->encode<botan::Hash::SHA3_224>(message);
hash["botan::Hash::SHA3_256"] =
botan::g_Hash->encode<botan::Hash::SHA3_256>(message);
hash["botan::Hash::SHA3_384"] =
botan::g_Hash->encode<botan::Hash::SHA3_384>(message);
hash["botan::Hash::SHA3_512"] =
botan::g_Hash->encode<botan::Hash::SHA3_512>(message);
//
// SHAKE
//
hash["botan::Hash::SHAKE128"] =
botan::g_Hash->encode<botan::Hash::SHAKE128>(message);
hash["botan::Hash::SHAKE256"] =
botan::g_Hash->encode<botan::Hash::SHAKE256>(message);
return hash;
}
//! \brief Crypto++ Hash encoder
//! \param message Message to encode
//! \return t_hash Hash map to print (label, digest)
static t_hash cryptopp_encode(const std::string& message)
{
t_hash hash;
//
// BLAKE2
//
hash["cryptopp::Hash::BLAKE2b"] =
cryptopp::g_Hash->encode<cryptopp::Hash::BLAKE2b>(message);
hash["cryptopp::Hash::BLAKE2s"] =
cryptopp::g_Hash->encode<cryptopp::Hash::BLAKE2s>(message);
//
// Keccak
//
hash["cryptopp::Hash::Keccak_224"] =
cryptopp::g_Hash->encode<cryptopp::Hash::Keccak_224>(message);
hash["cryptopp::Hash::Keccak_256"] =
cryptopp::g_Hash->encode<cryptopp::Hash::Keccak_256>(message);
hash["cryptopp::Hash::Keccak_384"] =
cryptopp::g_Hash->encode<cryptopp::Hash::Keccak_384>(message);
hash["cryptopp::Hash::Keccak_512"] =
cryptopp::g_Hash->encode<cryptopp::Hash::Keccak_512>(message);
//
// SHA
//
hash["cryptopp::Hash::SHA1"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA1>(message);
hash["cryptopp::Hash::SHA2_224"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA2_224>(message);
hash["cryptopp::Hash::SHA2_256"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA2_256>(message);
hash["cryptopp::Hash::SHA2_384"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA2_384>(message);
hash["cryptopp::Hash::SHA2_512"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA2_512>(message);
hash["cryptopp::Hash::SHA3_224"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA3_224>(message);
hash["cryptopp::Hash::SHA3_256"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA3_256>(message);
hash["cryptopp::Hash::SHA3_384"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA3_384>(message);
hash["cryptopp::Hash::SHA3_512"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHA3_512>(message);
//
// SHAKE
//
hash["cryptopp::Hash::SHAKE128"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHAKE128>(message);
hash["cryptopp::Hash::SHAKE256"] =
cryptopp::g_Hash->encode<cryptopp::Hash::SHAKE256>(message);
return hash;
}
//! \brief libsodium Hash encoder
//! \param message Message to encode
//! \return t_hash Hash map to print (label, digest)
static t_hash libsodium_encode(const std::string& message)
{
t_hash hash;
//
// BLAKE2
//
hash["libsodium::Hash::BLAKE2b"] =
libsodium::g_Hash->encode<libsodium::Hash::BLAKE2b>(message);
//
// SHA
//
hash["libsodium::Hash::SHA2_256"] =
libsodium::g_Hash->encode<libsodium::Hash::SHA2_256>(message);
hash["libsodium::Hash::SHA2_512"] =
libsodium::g_Hash->encode<libsodium::Hash::SHA2_512>(message);
return hash;
}
public:
//! \brief Print t_hash encoded digest of given message
static void encode(const std::string& message)
{
auto print = [](const std::string& title, const t_hash& hash) {
std::cout << title;
for (const auto& [label, digest] : hash)
{
std::cout << "\n" << label << "\n" << digest << "\n";
}
};
std::cout << "\nMessage:\n\n" << message << "\n";
print("\nEncoded (Botan):\n", Hash::botan_encode(message));
print("\nEncoded (Crypto++):\n", Hash::cryptopp_encode(message));
print("\nEncoded (libsodium):\n", Hash::libsodium_encode(message));
std::cout << std::endl;
}
//! \brief Wrapper to encoder
//! \param message Message to encode
static void run(const std::string& message) { Hash::encode(message); }
};
} // namespace crypto
} // namespace macro
} // namespace docker_finance
#endif // CONTAINER_SRC_ROOT_MACRO_CRYPTO_HASH_C_
// # vim: sw=2 sts=2 si ai et