/* * Copyright (C) 2008 Tobias Brunner * 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 openssl_util openssl_util * @{ @ingroup openssl_p */ #ifndef OPENSSL_UTIL_H_ #define OPENSSL_UTIL_H_ #include #ifdef X509_NAME /* from */ # undef X509_NAME #endif #include #include /** * Returns the length in bytes of a field element */ #define EC_FIELD_ELEMENT_LEN(group) ((EC_GROUP_get_degree(group) + 7) / 8) /** * Creates a hash of a given type of a chunk of data. * * Note: this function allocates memory for the hash * * @param hash_type NID of the hash * @param data the chunk of data to hash * @param hash chunk that contains the hash * @return TRUE on success, FALSE otherwise */ bool openssl_hash_chunk(int hash_type, chunk_t data, chunk_t *hash); /** * Concatenates two bignums into a chunk, thereby enfocing the length of * a single BIGNUM, if necessary, by pre-pending it with zeros. * * Note: this function allocates memory for the chunk * * @param len the length of a single BIGNUM * @param a first BIGNUM * @param b second BIGNUM * @param chunk resulting chunk * @return TRUE on success, FALSE otherwise */ bool openssl_bn_cat(const int len, const BIGNUM *a, const BIGNUM *b, chunk_t *chunk); /** * Splits a chunk into two bignums of equal binary length. * * @param chunk a chunk that contains the two BIGNUMs * @param a first BIGNUM * @param b second BIGNUM * @return TRUE on success, FALSE otherwise */ bool openssl_bn_split(chunk_t chunk, BIGNUM *a, BIGNUM *b); /** * Exports the given bignum (assumed to be a positive number) to a chunk in * two's complement format (i.e. a zero byte is added if the MSB is set). * * @param bn the BIGNUM to export * @param chunk the chunk (data gets allocated) * @return TRUE on success, FALSE otherwise */ bool openssl_bn2chunk(const BIGNUM *bn, chunk_t *chunk); /** * Allocate a chunk using the i2d function of a given object * * @param type type of the object * @param obj object to convert to DER * @returns allocated chunk of the object, or chunk_empty */ #define openssl_i2chunk(type, obj) ({ \ unsigned char *ptr = NULL; \ int len = i2d_##type(obj, &ptr); \ len < 0 ? chunk_empty : chunk_create(ptr, len);}) /** * Convert an OpenSSL ASN1_OBJECT to a chunk. * * @param asn1 asn1 object to convert * @return chunk, pointing into asn1 object */ chunk_t openssl_asn1_obj2chunk(ASN1_OBJECT *asn1); /** * Convert an OpenSSL ASN1_STRING to a chunk. * * @param asn1 asn1 string to convert * @return chunk, pointing into asn1 string */ chunk_t openssl_asn1_str2chunk(ASN1_STRING *asn1); /** * Convert an openssl X509_NAME to a identification_t of type ID_DER_ASN1_DN. * * @param name name to convert * @return identification_t, NULL on error */ identification_t *openssl_x509_name2id(X509_NAME *name); /** * Check if an ASN1 oid is a an OID known by libstrongswan. * * @param obj openssl ASN1 object * @returns OID, as defined in */ int openssl_asn1_known_oid(ASN1_OBJECT *obj); /** * Convert an OpenSSL ASN1_TIME to a time_t. * * @param time openssl ASN1_TIME * @returns time_t, 0 on error */ time_t openssl_asn1_to_time(ASN1_TIME *time); /** * Compatibility macros */ #ifdef OPENSSL_IS_BORINGSSL #define EVP_PKEY_base_id(p) EVP_PKEY_type(p->type) #endif /** * Macros to define fallback getters/setters to access keys (BIGNUM*) for types * that were made opaque with OpenSSL 1.1.0. */ #define OPENSSL_KEY_FALLBACK(...) VA_ARGS_DISPATCH(OPENSSL_KEY_FALLBACK, __VA_ARGS__)(__VA_ARGS__) #define OPENSSL_KEY_FALLBACK3(type, k1, k2) \ __attribute__((unused)) \ static inline void type##_get0(const type *o, const BIGNUM **k1, const BIGNUM **k2) { \ if (k1) *k1 = o->k1; \ if (k2) *k2 = o->k2; } \ __attribute__((unused)) \ static inline int type##_set0(type *o, BIGNUM *k1, BIGNUM *k2) { \ if (k1) { BN_clear_free(o->k1); o->k1 = k1; } \ if (k2) { BN_clear_free(o->k2); o->k2 = k2; } \ return 1; } #define OPENSSL_KEY_FALLBACK4(type, name, k1, k2) \ __attribute__((unused)) \ static inline void type##_get0_##name(const type *o, const BIGNUM **k1, const BIGNUM **k2) { \ if (k1) *k1 = o->k1; \ if (k2) *k2 = o->k2; } \ __attribute__((unused)) \ static inline int type##_set0_##name(type *o, BIGNUM *k1, BIGNUM *k2) { \ if (k1) { BN_clear_free(o->k1); o->k1 = k1; } \ if (k2) { BN_clear_free(o->k2); o->k2 = k2; } \ return 1; } #define OPENSSL_KEY_FALLBACK5(type, name, k1, k2, k3) \ __attribute__((unused)) \ static inline void type##_get0_##name(const type *o, const BIGNUM **k1, const BIGNUM **k2, const BIGNUM **k3) { \ if (k1) *k1 = o->k1; \ if (k2) *k2 = o->k2; \ if (k3) *k3 = o->k3; } \ __attribute__((unused)) \ static inline int type##_set0_##name(type *o, BIGNUM *k1, BIGNUM *k2, BIGNUM *k3) { \ if (k1) { BN_clear_free(o->k1); o->k1 = k1; } \ if (k2) { BN_clear_free(o->k2); o->k2 = k2; } \ if (k3) { BN_clear_free(o->k3); o->k3 = k3; } \ return 1; } #endif /** OPENSSL_UTIL_H_ @}*/