/* * Block Cipher Base Class * (C) 1999-2009 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_BLOCK_CIPHER_H__ #define BOTAN_BLOCK_CIPHER_H__ #include #include #include namespace Botan { /** * This class represents a block cipher object. */ class BOTAN_DLL BlockCipher : public SymmetricAlgorithm { public: typedef SCAN_Name Spec; /** * Create an instance based on a name * If provider is empty then best available is chosen. * @param algo_spec algorithm name * @param provider provider implementation to choose * @return a null pointer if the algo/provider combination cannot be found */ static std::unique_ptr create(const std::string& algo_spec, const std::string& provider = ""); /** * @return list of available providers for this algorithm, empty if not available * @param algo_spec algorithm name */ static std::vector providers(const std::string& algo_spec); /** * @return block size of this algorithm */ virtual size_t block_size() const = 0; /** * @return native parallelism of this cipher in blocks */ virtual size_t parallelism() const { return 1; } /** * @return prefererred parallelism of this cipher in bytes */ size_t parallel_bytes() const { return parallelism() * block_size() * BOTAN_BLOCK_CIPHER_PAR_MULT; } /** * @return provider information about this implementation. Default is "base", * might also return "sse2", "avx2", "openssl", or some other arbitrary string. */ virtual std::string provider() const { return "base"; } /** * Encrypt a block. * @param in The plaintext block to be encrypted as a byte array. * Must be of length block_size(). * @param out The byte array designated to hold the encrypted block. * Must be of length block_size(). */ void encrypt(const byte in[], byte out[]) const { encrypt_n(in, out, 1); } /** * Decrypt a block. * @param in The ciphertext block to be decypted as a byte array. * Must be of length block_size(). * @param out The byte array designated to hold the decrypted block. * Must be of length block_size(). */ void decrypt(const byte in[], byte out[]) const { decrypt_n(in, out, 1); } /** * Encrypt a block. * @param block the plaintext block to be encrypted * Must be of length block_size(). Will hold the result when the function * has finished. */ void encrypt(byte block[]) const { encrypt_n(block, block, 1); } /** * Decrypt a block. * @param block the ciphertext block to be decrypted * Must be of length block_size(). Will hold the result when the function * has finished. */ void decrypt(byte block[]) const { decrypt_n(block, block, 1); } /** * Encrypt one or more blocks * @param block the input/output buffer (multiple of block_size()) */ template void encrypt(std::vector& block) const { return encrypt_n(block.data(), block.data(), block.size() / block_size()); } /** * Decrypt one or more blocks * @param block the input/output buffer (multiple of block_size()) */ template void decrypt(std::vector& block) const { return decrypt_n(block.data(), block.data(), block.size() / block_size()); } /** * Encrypt one or more blocks * @param in the input buffer (multiple of block_size()) * @param out the output buffer (same size as in) */ template void encrypt(const std::vector& in, std::vector& out) const { return encrypt_n(in.data(), out.data(), in.size() / block_size()); } /** * Decrypt one or more blocks * @param in the input buffer (multiple of block_size()) * @param out the output buffer (same size as in) */ template void decrypt(const std::vector& in, std::vector& out) const { return decrypt_n(in.data(), out.data(), in.size() / block_size()); } /** * Encrypt one or more blocks * @param in the input buffer (multiple of block_size()) * @param out the output buffer (same size as in) * @param blocks the number of blocks to process */ virtual void encrypt_n(const byte in[], byte out[], size_t blocks) const = 0; /** * Decrypt one or more blocks * @param in the input buffer (multiple of block_size()) * @param out the output buffer (same size as in) * @param blocks the number of blocks to process */ virtual void decrypt_n(const byte in[], byte out[], size_t blocks) const = 0; /** * @return new object representing the same algorithm as *this */ virtual BlockCipher* clone() const = 0; virtual ~BlockCipher(); }; /** * Represents a block cipher with a single fixed block size */ template class Block_Cipher_Fixed_Params : public BlockCipher { public: enum { BLOCK_SIZE = BS }; size_t block_size() const override { return BS; } Key_Length_Specification key_spec() const override { return Key_Length_Specification(KMIN, KMAX, KMOD); } }; } #endif