/* * EMSA Classes * (C) 1999-2007 Jack Lloyd * * Distributed under the terms of the Botan license */ #ifndef BOTAN_PUBKEY_EMSA_H__ #define BOTAN_PUBKEY_EMSA_H__ #include #include namespace Botan { /** * Encoding Method for Signatures, Appendix */ class BOTAN_DLL EMSA { public: /** * Add more data to the signature computation * @param input some data * @param length length of input in bytes */ virtual void update(const byte input[], size_t length) = 0; /** * @return raw hash */ virtual secure_vector raw_data() = 0; /** * Return the encoding of a message * @param msg the result of raw_data() * @param output_bits the desired output bit size * @param rng a random number generator * @return encoded signature */ virtual secure_vector encoding_of(const secure_vector& msg, size_t output_bits, RandomNumberGenerator& rng) = 0; /** * Verify the encoding * @param coded the received (coded) message representative * @param raw the computed (local, uncoded) message representative * @param key_bits the size of the key in bits * @return true if coded is a valid encoding of raw, otherwise false */ virtual bool verify(const secure_vector& coded, const secure_vector& raw, size_t key_bits) = 0; virtual ~EMSA() {} }; /** * Factory method for EMSA (message-encoding methods for signatures * with appendix) objects * @param algo_spec the name of the EME to create * @return pointer to newly allocated object of that type */ BOTAN_DLL EMSA* get_emsa(const std::string& algo_spec); } #endif