/******************************************************************************/ /* SlunkCrypt, by LoRd_MuldeR */ /* This work has been released under the CC0 1.0 Universal license! */ /******************************************************************************/ #ifndef INC_SLUNKCRYPT_PLUSPLUS #define INC_SLUNKCRYPT_PLUSPLUS /* * Compiler check */ #if (!defined(__cplusplus) || (__cplusplus < 201103L)) && (!defined(_MSVC_LANG) || (_MSVC_LANG < 201103L)) #error This file requires compiler and library support for the ISO C++11 standard. #endif /* * Dependencies */ #include "slunkcrypt.h" #include #include #include /* * Namespace */ namespace slunkcrypt { /* * Class for encryption */ class Encryptor { public: Encryptor(const std::string& passwd) { if (slunkcrypt_generate_nonce(&m_nonce) != SLUNKCRYPT_SUCCESS) { throw std::runtime_error("SlunkCryptEncr: Failed to generate the seed value!"); } if ((m_instance = slunkcrypt_alloc(m_nonce, (const uint8_t*)passwd.c_str(), passwd.length(), SLUNKCRYPT_ENCRYPT)) == SLUNKCRYPT_NULL) { throw std::runtime_error("SlunkCryptEncr: Failed to create encoder instance!"); } } Encryptor(Encryptor&& other) noexcept { this->m_instance = other.m_instance; this->m_nonce = other.m_nonce; other.m_instance = SLUNKCRYPT_NULL; other.m_nonce = (uint64_t)(-1); } ~Encryptor(void) { if (m_instance != SLUNKCRYPT_NULL) { slunkcrypt_free(m_instance); } } bool process(const uint8_t* const input, uint8_t* const output, size_t length) { return (slunkcrypt_process(m_instance, input, output, length) == SLUNKCRYPT_SUCCESS); } bool process(const std::vector& input, std::vector& output) { if (output.size() >= input.size()) { return (slunkcrypt_process(m_instance, input.data(), output.data(), input.size()) == SLUNKCRYPT_SUCCESS); } return false; } bool process_inplace(uint8_t* const buffer, size_t length) { return (slunkcrypt_process_inplace(m_instance, buffer, length) == SLUNKCRYPT_SUCCESS); } bool process_inplace(std::vector& buffer) { return (slunkcrypt_process_inplace(m_instance, buffer.data(), buffer.size()) == SLUNKCRYPT_SUCCESS); } uint64_t get_nonce(void) const { return m_nonce; } private: Encryptor(const Encryptor&) = delete; Encryptor& operator=(const Encryptor&) = delete; uint64_t m_nonce; slunkcrypt_t m_instance; }; /* * Class for decryption */ class Decryptor { public: Decryptor(const uint64_t nonce, const std::string& passwd) { if ((m_instance = slunkcrypt_alloc(nonce, (const uint8_t*)passwd.c_str(), passwd.length(), SLUNKCRYPT_DECRYPT)) == SLUNKCRYPT_NULL) { throw std::runtime_error("SlunkCryptDecr: Failed to create decoder instance!"); } } Decryptor(Decryptor&& other) noexcept { this->m_instance = other.m_instance; other.m_instance = SLUNKCRYPT_NULL; } ~Decryptor(void) { if (m_instance != SLUNKCRYPT_NULL) { slunkcrypt_free(m_instance); } } bool process(const uint8_t* const input, uint8_t* const output, size_t length) { return (slunkcrypt_process(m_instance, input, output, length) == SLUNKCRYPT_SUCCESS); } bool process(const std::vector& input, std::vector& output) { if (output.size() >= input.size()) { return (slunkcrypt_process(m_instance, input.data(), output.data(), input.size()) == SLUNKCRYPT_SUCCESS); } return false; } bool process_inplace(uint8_t* const buffer, size_t length) { return (slunkcrypt_process_inplace(m_instance, buffer, length) == SLUNKCRYPT_SUCCESS); } bool process_inplace(std::vector& buffer) { return (slunkcrypt_process_inplace(m_instance, buffer.data(), buffer.size()) == SLUNKCRYPT_SUCCESS); } private: Decryptor(const Decryptor&) = delete; Decryptor& operator=(const Decryptor&) = delete; slunkcrypt_t m_instance; }; } #endif