/** * Stream Cipher * (C) 1999-2007 Jack Lloyd */ #ifndef BOTAN_STREAM_CIPHER_H__ #define BOTAN_STREAM_CIPHER_H__ #include namespace Botan { /************************************************* * Stream Cipher * *************************************************/ class BOTAN_DLL StreamCipher : public SymmetricAlgorithm { public: const u32bit IV_LENGTH; /** * Encrypt a message. * @param i the plaintext * @param o the byte array to hold the output, i.e. the ciphertext * @param len the length of both i and o */ void encrypt(const byte i[], byte o[], u32bit len) { cipher(i, o, len); } /** * Decrypt a message. * @param i the ciphertext to decrypt * @param o the byte array to hold the output, i.e. the plaintext * @param len the length of both i and o */ void decrypt(const byte i[], byte o[], u32bit len) { cipher(i, o, len); } /** * Encrypt a message. * @param in the plaintext as input, after the function has * returned it will hold the ciphertext * @param len the length of in */ void encrypt(byte in[], u32bit len) { cipher(in, in, len); } /** * Decrypt a message. * @param in the ciphertext as input, after the function has * returned it will hold the plaintext * @param len the length of in */ void decrypt(byte in[], u32bit len) { cipher(in, in, len); } /** * Resync the cipher using the IV * @param iv the initialization vector * @param iv_len the length of the IV in bytes */ virtual void resync(const byte iv[], u32bit iv_len); /** * Seek ahead in the stream. * @param len the length to seek ahead. */ virtual void seek(u32bit len); /** * Get a new object representing the same algorithm as *this */ virtual StreamCipher* clone() const = 0; /** * Zeroize internal state */ virtual void clear() throw() = 0; StreamCipher(u32bit key_min, u32bit key_max = 0, u32bit key_mod = 1, u32bit iv_len = 0) : SymmetricAlgorithm(key_min, key_max, key_mod), IV_LENGTH(iv_len) {} virtual ~StreamCipher() {} private: virtual void cipher(const byte[], byte[], u32bit) = 0; }; } #endif