/************************************************* * Algorithm Retrieval Source File * * (C) 1999-2007 Jack Lloyd * *************************************************/ #include #include #include namespace Botan { /** * Acquire a block cipher */ const BlockCipher* retrieve_block_cipher(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.prototype_block_cipher(algo_spec); } /** * Get a block cipher by name */ BlockCipher* get_block_cipher(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.make_block_cipher(algo_spec); } /** * Acquire a stream cipher */ const StreamCipher* retrieve_stream_cipher(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.prototype_stream_cipher(algo_spec); } /** * Get a stream cipher by name */ StreamCipher* get_stream_cipher(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.make_stream_cipher(algo_spec); } /** * Acquire a hash function */ const HashFunction* retrieve_hash(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.prototype_hash_function(algo_spec); } /** * Get a hash function by name */ HashFunction* get_hash(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.make_hash_function(algo_spec); } /** * Query if Botan has the named hash function */ bool have_hash(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.prototype_hash_function(algo_spec); } /** * Acquire an authentication code */ const MessageAuthenticationCode* retrieve_mac(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.prototype_mac(algo_spec); } /** * Get a MAC by name */ MessageAuthenticationCode* get_mac(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.make_mac(algo_spec); } /** * Query if Botan has the named MAC */ bool have_mac(const std::string& algo_spec) { Algorithm_Factory& af = global_state().algorithm_factory(); return af.prototype_mac(algo_spec); } /** * Query if an algorithm exists */ bool have_algorithm(const std::string& name) { if(retrieve_block_cipher(name)) return true; if(retrieve_stream_cipher(name)) return true; if(retrieve_hash(name)) return true; if(retrieve_mac(name)) return true; return false; } /** * Query if Botan has the named block cipher */ bool have_block_cipher(const std::string& name) { return (retrieve_block_cipher(name) != 0); } /** * Query if Botan has the named stream cipher */ bool have_stream_cipher(const std::string& name) { return (retrieve_stream_cipher(name) != 0); } /** * Query the block size of a cipher or hash */ u32bit block_size_of(const std::string& name) { const BlockCipher* cipher = retrieve_block_cipher(name); if(cipher) return cipher->BLOCK_SIZE; const HashFunction* hash = retrieve_hash(name); if(hash) return hash->HASH_BLOCK_SIZE; throw Algorithm_Not_Found(name); } /** * Query the OUTPUT_LENGTH of a hash or MAC */ u32bit output_length_of(const std::string& name) { const HashFunction* hash = retrieve_hash(name); if(hash) return hash->OUTPUT_LENGTH; const MessageAuthenticationCode* mac = retrieve_mac(name); if(mac) return mac->OUTPUT_LENGTH; throw Algorithm_Not_Found(name); } /** * Check if a keylength is valid for this algo */ bool valid_keylength_for(u32bit key_len, const std::string& name) { const BlockCipher* bc = retrieve_block_cipher(name); if(bc) return bc->valid_keylength(key_len); const StreamCipher* sc = retrieve_stream_cipher(name); if(sc) return sc->valid_keylength(key_len); const MessageAuthenticationCode* mac = retrieve_mac(name); if(mac) return mac->valid_keylength(key_len); throw Algorithm_Not_Found(name); } /** * Query the MINIMUM_KEYLENGTH of an algorithm */ u32bit min_keylength_of(const std::string& name) { const BlockCipher* bc = retrieve_block_cipher(name); if(bc) return bc->MINIMUM_KEYLENGTH; const StreamCipher* sc = retrieve_stream_cipher(name); if(sc) return sc->MINIMUM_KEYLENGTH; const MessageAuthenticationCode* mac = retrieve_mac(name); if(mac) return mac->MINIMUM_KEYLENGTH; throw Algorithm_Not_Found(name); } /** * Query the MAXIMUM_KEYLENGTH of an algorithm */ u32bit max_keylength_of(const std::string& name) { const BlockCipher* bc = retrieve_block_cipher(name); if(bc) return bc->MAXIMUM_KEYLENGTH; const StreamCipher* sc = retrieve_stream_cipher(name); if(sc) return sc->MAXIMUM_KEYLENGTH; const MessageAuthenticationCode* mac = retrieve_mac(name); if(mac) return mac->MAXIMUM_KEYLENGTH; throw Algorithm_Not_Found(name); } /** * Query the KEYLENGTH_MULTIPLE of an algorithm */ u32bit keylength_multiple_of(const std::string& name) { const BlockCipher* bc = retrieve_block_cipher(name); if(bc) return bc->KEYLENGTH_MULTIPLE; const StreamCipher* sc = retrieve_stream_cipher(name); if(sc) return sc->KEYLENGTH_MULTIPLE; const MessageAuthenticationCode* mac = retrieve_mac(name); if(mac) return mac->KEYLENGTH_MULTIPLE; throw Algorithm_Not_Found(name); } /** * Get a cipher object */ Keyed_Filter* get_cipher(const std::string& algo_spec, Cipher_Dir direction) { Algorithm_Factory& af = global_state().algorithm_factory(); Algorithm_Factory::Engine_Iterator i(af); while(Engine* engine = i.next()) { Keyed_Filter* algo = engine->get_cipher(algo_spec, direction, af); if(algo) return algo; } throw Algorithm_Not_Found(algo_spec); } /** * Get a cipher object */ Keyed_Filter* get_cipher(const std::string& algo_spec, const SymmetricKey& key, const InitializationVector& iv, Cipher_Dir direction) { Keyed_Filter* cipher = get_cipher(algo_spec, direction); cipher->set_key(key); if(iv.length()) cipher->set_iv(iv); return cipher; } /** * Get a cipher object */ Keyed_Filter* get_cipher(const std::string& algo_spec, const SymmetricKey& key, Cipher_Dir direction) { return get_cipher(algo_spec, key, InitializationVector(), direction); } }