/* * Copyright (C) 2016-2017 Andreas Steffen * Copyright (C) 2012-2015 Tobias Brunner * Copyright (C) 2005-2006 Martin Willi * Copyright (C) 2005 Jan Hutter * HSR Hochschule fuer Technik Rapperswil * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ /** * @defgroup hasher hasher * @{ @ingroup crypto */ #ifndef HASHER_H_ #define HASHER_H_ typedef enum hash_algorithm_t hash_algorithm_t; typedef struct hasher_t hasher_t; #include #include #include /** * Hash algorithms as defined for IKEv2 */ enum hash_algorithm_t { /* RFC 7427 */ HASH_SHA1 = 1, HASH_SHA256 = 2, HASH_SHA384 = 3, HASH_SHA512 = 4, /* draft-ietf-ipsecme-eddsa (RFC TBA) */ HASH_IDENTITY = 5, /* use private use range for algorithms not defined/permitted by RFC 7427 */ HASH_UNKNOWN = 1024, HASH_MD2 = 1025, HASH_MD4 = 1026, HASH_MD5 = 1027, HASH_SHA224 = 1028, HASH_SHA3_224 = 1029, HASH_SHA3_256 = 1030, HASH_SHA3_384 = 1031, HASH_SHA3_512 = 1032 }; #define HASH_SIZE_MD2 16 #define HASH_SIZE_MD4 16 #define HASH_SIZE_MD5 16 #define HASH_SIZE_SHA1 20 #define HASH_SIZE_SHA224 28 #define HASH_SIZE_SHA256 32 #define HASH_SIZE_SHA384 48 #define HASH_SIZE_SHA512 64 /** * enum names for hash_algorithm_t. */ extern enum_name_t *hash_algorithm_names; /** * Short names for hash_algorithm_names */ extern enum_name_t *hash_algorithm_short_names; /** * Uppercase short names for hash_algorithm_names */ extern enum_name_t *hash_algorithm_short_names_upper; /** * Generic interface for all hash functions. */ struct hasher_t { /** * Hash data and write it in the buffer. * * If the parameter hash is NULL, no result is written back * and more data can be appended to already hashed data. * If not, the result is written back and the hasher is reset. * * The hash output parameter must hold at least * hash_t.get_block_size() bytes. * * @param data data to hash * @param hash pointer where the hash will be written * @return TRUE if hash created successfully */ bool (*get_hash)(hasher_t *this, chunk_t data, uint8_t *hash) __attribute__((warn_unused_result)); /** * Hash data and allocate space for the hash. * * If the parameter hash is NULL, no result is written back * and more data can be appended to already hashed data. * If not, the result is written back and the hasher is reset. * * @param data chunk with data to hash * @param hash chunk which will hold allocated hash * @return TRUE if hash allocated successfully */ bool (*allocate_hash)(hasher_t *this, chunk_t data, chunk_t *hash) __attribute__((warn_unused_result)); /** * Get the size of the resulting hash. * * @return hash size in bytes */ size_t (*get_hash_size)(hasher_t *this); /** * Resets the hasher's state. * * @return TRUE if hasher reset successfully */ bool (*reset)(hasher_t *this) __attribute__((warn_unused_result)); /** * Destroys a hasher object. */ void (*destroy)(hasher_t *this); }; /** * Returns the size of the hash for the given algorithm. * * @param alg hash algorithm * @return size of hash or 0 if unknown */ size_t hasher_hash_size(hash_algorithm_t alg); /** * Conversion of ASN.1 OID to hash algorithm. * * @param oid ASN.1 OID * @return hash algorithm, HASH_UNKNOWN if OID unsupported */ hash_algorithm_t hasher_algorithm_from_oid(int oid); /** * Conversion of PRF algorithm to hash algorithm (if based on one). * * @param alg prf algorithm * @return hash algorithm, HASH_UNKNOWN if not based on a hash */ hash_algorithm_t hasher_algorithm_from_prf(pseudo_random_function_t alg); /** * Conversion of integrity algorithm to hash algorithm (if based on one). * * If length is not NULL the length of the resulting signature is returned, * which might be smaller than the output size of the underlying hash. * * @param alg integrity algorithm * @param length returns signature length, if not NULL * @return hash algorithm, HASH_UNKNOWN if not based on a hash */ hash_algorithm_t hasher_algorithm_from_integrity(integrity_algorithm_t alg, size_t *length); /** * Conversion of hash algorithm to integrity algorithm (if based on a hash). * * @param alg hash algorithm * @param length length of the signature * @return integrity algorithm, AUTH_UNDEFINED if none is known * based on the given hash function */ integrity_algorithm_t hasher_algorithm_to_integrity(hash_algorithm_t alg, size_t length); /** * Check if the given algorithm may be used for IKEv2 signature authentication. * * @param alg hash algorithm * @return TRUE if algorithm may be used, FALSE otherwise */ bool hasher_algorithm_for_ikev2(hash_algorithm_t alg); /** * Conversion of hash algorithm into ASN.1 OID. * * @param alg hash algorithm * @return ASN.1 OID, or OID_UNKNOW */ int hasher_algorithm_to_oid(hash_algorithm_t alg); /** * Conversion of hash signature algorithm into ASN.1 OID. * * @param alg hash algorithm * @param key public key type * @return ASN.1 OID if, or OID_UNKNOW */ int hasher_signature_algorithm_to_oid(hash_algorithm_t alg, key_type_t key); /** * Determine the hash algorithm associated with a given signature scheme. * * @param scheme signature scheme * @param params optional parameters * @return hash algorithm (could be HASH_UNKNOWN) */ hash_algorithm_t hasher_from_signature_scheme(signature_scheme_t scheme, void *params); #endif /** HASHER_H_ @}*/