/* * Copyright (C) 2002 Ueli Galizzi, Ariane Seiler * Copyright (C) 2003 Martin Berner, Lukas Suter * Copyright (C) 2002-2009 Andreas Steffen * Copyright (C) 2009 Martin Willi * * 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. */ #include "x509_ac.h" #include #include #include #include #include #include #include #include #include #include #include extern chunk_t x509_parse_authorityKeyIdentifier(chunk_t blob, int level0, chunk_t *authKeySerialNumber); typedef struct private_x509_ac_t private_x509_ac_t; /** * private data of x509_ac_t object */ struct private_x509_ac_t { /** * public functions */ x509_ac_t public; /** * X.509 attribute certificate encoding in ASN.1 DER format */ chunk_t encoding; /** * X.509 attribute certificate body over which signature is computed */ chunk_t certificateInfo; /** * Version of the X.509 attribute certificate */ u_int version; /** * Serial number of the X.509 attribute certificate */ chunk_t serialNumber; /** * ID representing the issuer of the holder certificate */ identification_t *holderIssuer; /** * Serial number of the holder certificate */ chunk_t holderSerial; /** * ID representing the holder */ identification_t *entityName; /** * ID representing the attribute certificate issuer */ identification_t *issuerName; /** * Start time of certificate validity */ time_t notBefore; /** * End time of certificate validity */ time_t notAfter; /** * List of charging attributes */ ietf_attributes_t *charging; /** * List of groub attributes */ ietf_attributes_t *groups; /** * Authority Key Identifier */ chunk_t authKeyIdentifier; /** * Authority Key Serial Number */ chunk_t authKeySerialNumber; /** * No revocation information available */ bool noRevAvail; /** * Signature algorithm */ int algorithm; /** * Signature */ chunk_t signature; /** * Holder certificate */ certificate_t *holderCert; /** * Signer certificate */ certificate_t *signerCert; /** * Signer private key; */ private_key_t *signerKey; /** * reference count */ refcount_t ref; }; static chunk_t ASN1_noRevAvail_ext = chunk_from_chars( 0x30, 0x09, 0x06, 0x03, 0x55, 0x1d, 0x38, 0x04, 0x02, 0x05, 0x00 ); /** * declaration of function implemented in x509_cert.c */ extern void x509_parse_generalNames(chunk_t blob, int level0, bool implicit, linked_list_t *list); /** * parses a directoryName */ static bool parse_directoryName(chunk_t blob, int level, bool implicit, identification_t **name) { bool has_directoryName; linked_list_t *list = linked_list_create(); x509_parse_generalNames(blob, level, implicit, list); has_directoryName = list->get_count(list) > 0; if (has_directoryName) { iterator_t *iterator = list->create_iterator(list, TRUE); identification_t *directoryName; bool first = TRUE; while (iterator->iterate(iterator, (void**)&directoryName)) { if (first) { *name = directoryName; first = FALSE; } else { DBG1(DBG_LIB, "more than one directory name - first selected"); directoryName->destroy(directoryName); } } iterator->destroy(iterator); } else { DBG1(DBG_LIB, "no directoryName found"); } list->destroy(list); return has_directoryName; } /** * ASN.1 definition of roleSyntax */ static const asn1Object_t roleSyntaxObjects[] = { { 0, "roleSyntax", ASN1_SEQUENCE, ASN1_NONE }, /* 0 */ { 1, "roleAuthority", ASN1_CONTEXT_C_0, ASN1_OPT | ASN1_OBJ }, /* 1 */ { 1, "end opt", ASN1_EOC, ASN1_END }, /* 2 */ { 1, "roleName", ASN1_CONTEXT_C_1, ASN1_OBJ }, /* 3 */ { 0, "exit", ASN1_EOC, ASN1_EXIT } }; /** * Parses roleSyntax */ static void parse_roleSyntax(chunk_t blob, int level0) { asn1_parser_t *parser; chunk_t object; int objectID; parser = asn1_parser_create(roleSyntaxObjects, blob); parser->set_top_level(parser, level0); while (parser->iterate(parser, &objectID, &object)) { switch (objectID) { default: break; } } parser->destroy(parser); } /** * ASN.1 definition of an X509 attribute certificate */ static const asn1Object_t acObjects[] = { { 0, "AttributeCertificate", ASN1_SEQUENCE, ASN1_OBJ }, /* 0 */ { 1, "AttributeCertificateInfo", ASN1_SEQUENCE, ASN1_OBJ }, /* 1 */ { 2, "version", ASN1_INTEGER, ASN1_DEF | ASN1_BODY }, /* 2 */ { 2, "holder", ASN1_SEQUENCE, ASN1_NONE }, /* 3 */ { 3, "baseCertificateID", ASN1_CONTEXT_C_0, ASN1_OPT }, /* 4 */ { 4, "issuer", ASN1_SEQUENCE, ASN1_OBJ }, /* 5 */ { 4, "serial", ASN1_INTEGER, ASN1_BODY }, /* 6 */ { 4, "issuerUID", ASN1_BIT_STRING, ASN1_OPT | ASN1_BODY }, /* 7 */ { 4, "end opt", ASN1_EOC, ASN1_END }, /* 8 */ { 3, "end opt", ASN1_EOC, ASN1_END }, /* 9 */ { 3, "entityName", ASN1_CONTEXT_C_1, ASN1_OPT | ASN1_OBJ }, /* 10 */ { 3, "end opt", ASN1_EOC, ASN1_END }, /* 11 */ { 3, "objectDigestInfo", ASN1_CONTEXT_C_2, ASN1_OPT }, /* 12 */ { 4, "digestedObjectType", ASN1_ENUMERATED, ASN1_BODY }, /* 13 */ { 4, "otherObjectTypeID", ASN1_OID, ASN1_OPT | ASN1_BODY }, /* 14 */ { 4, "end opt", ASN1_EOC, ASN1_END }, /* 15 */ { 4, "digestAlgorithm", ASN1_EOC, ASN1_RAW }, /* 16 */ { 3, "end opt", ASN1_EOC, ASN1_END }, /* 17 */ { 2, "v2Form", ASN1_CONTEXT_C_0, ASN1_NONE }, /* 18 */ { 3, "issuerName", ASN1_SEQUENCE, ASN1_OPT | ASN1_OBJ }, /* 19 */ { 3, "end opt", ASN1_EOC, ASN1_END }, /* 20 */ { 3, "baseCertificateID", ASN1_CONTEXT_C_0, ASN1_OPT }, /* 21 */ { 4, "issuerSerial", ASN1_SEQUENCE, ASN1_NONE }, /* 22 */ { 5, "issuer", ASN1_SEQUENCE, ASN1_OBJ }, /* 23 */ { 5, "serial", ASN1_INTEGER, ASN1_BODY }, /* 24 */ { 5, "issuerUID", ASN1_BIT_STRING, ASN1_OPT | ASN1_BODY }, /* 25 */ { 5, "end opt", ASN1_EOC, ASN1_END }, /* 26 */ { 3, "end opt", ASN1_EOC, ASN1_END }, /* 27 */ { 3, "objectDigestInfo", ASN1_CONTEXT_C_1, ASN1_OPT }, /* 28 */ { 4, "digestInfo", ASN1_SEQUENCE, ASN1_OBJ }, /* 29 */ { 5, "digestedObjectType", ASN1_ENUMERATED, ASN1_BODY }, /* 30 */ { 5, "otherObjectTypeID", ASN1_OID, ASN1_OPT | ASN1_BODY }, /* 31 */ { 5, "end opt", ASN1_EOC, ASN1_END }, /* 32 */ { 5, "digestAlgorithm", ASN1_EOC, ASN1_RAW }, /* 33 */ { 3, "end opt", ASN1_EOC, ASN1_END }, /* 34 */ { 2, "signature", ASN1_EOC, ASN1_RAW }, /* 35 */ { 2, "serialNumber", ASN1_INTEGER, ASN1_BODY }, /* 36 */ { 2, "attrCertValidityPeriod", ASN1_SEQUENCE, ASN1_NONE }, /* 37 */ { 3, "notBeforeTime", ASN1_GENERALIZEDTIME, ASN1_BODY }, /* 38 */ { 3, "notAfterTime", ASN1_GENERALIZEDTIME, ASN1_BODY }, /* 39 */ { 2, "attributes", ASN1_SEQUENCE, ASN1_LOOP }, /* 40 */ { 3, "attribute", ASN1_SEQUENCE, ASN1_NONE }, /* 41 */ { 4, "type", ASN1_OID, ASN1_BODY }, /* 42 */ { 4, "values", ASN1_SET, ASN1_LOOP }, /* 43 */ { 5, "value", ASN1_EOC, ASN1_RAW }, /* 44 */ { 4, "end loop", ASN1_EOC, ASN1_END }, /* 45 */ { 2, "end loop", ASN1_EOC, ASN1_END }, /* 46 */ { 2, "extensions", ASN1_SEQUENCE, ASN1_LOOP }, /* 47 */ { 3, "extension", ASN1_SEQUENCE, ASN1_NONE }, /* 48 */ { 4, "extnID", ASN1_OID, ASN1_BODY }, /* 49 */ { 4, "critical", ASN1_BOOLEAN, ASN1_DEF | ASN1_BODY }, /* 50 */ { 4, "extnValue", ASN1_OCTET_STRING, ASN1_BODY }, /* 51 */ { 2, "end loop", ASN1_EOC, ASN1_END }, /* 52 */ { 1, "signatureAlgorithm", ASN1_EOC, ASN1_RAW }, /* 53 */ { 1, "signatureValue", ASN1_BIT_STRING, ASN1_BODY }, /* 54 */ { 0, "exit", ASN1_EOC, ASN1_EXIT } }; #define AC_OBJ_CERTIFICATE_INFO 1 #define AC_OBJ_VERSION 2 #define AC_OBJ_HOLDER_ISSUER 5 #define AC_OBJ_HOLDER_SERIAL 6 #define AC_OBJ_ENTITY_NAME 10 #define AC_OBJ_ISSUER_NAME 19 #define AC_OBJ_ISSUER 23 #define AC_OBJ_SIG_ALG 35 #define AC_OBJ_SERIAL_NUMBER 36 #define AC_OBJ_NOT_BEFORE 38 #define AC_OBJ_NOT_AFTER 39 #define AC_OBJ_ATTRIBUTE_TYPE 42 #define AC_OBJ_ATTRIBUTE_VALUE 44 #define AC_OBJ_EXTN_ID 49 #define AC_OBJ_CRITICAL 50 #define AC_OBJ_EXTN_VALUE 51 #define AC_OBJ_ALGORITHM 53 #define AC_OBJ_SIGNATURE 54 /** * Parses an X.509 attribute certificate */ static bool parse_certificate(private_x509_ac_t *this) { asn1_parser_t *parser; chunk_t object; int objectID; int type = OID_UNKNOWN; int extn_oid = OID_UNKNOWN; int sig_alg = OID_UNKNOWN; bool success = FALSE; bool critical; parser = asn1_parser_create(acObjects, this->encoding); while (parser->iterate(parser, &objectID, &object)) { u_int level = parser->get_level(parser)+1; switch (objectID) { case AC_OBJ_CERTIFICATE_INFO: this->certificateInfo = object; break; case AC_OBJ_VERSION: this->version = (object.len) ? (1 + (u_int)*object.ptr) : 1; DBG2(DBG_LIB, " v%d", this->version); if (this->version != 2) { DBG1(DBG_LIB, "v%d attribute certificates are not " "supported", this->version); goto end; } break; case AC_OBJ_HOLDER_ISSUER: if (!parse_directoryName(object, level, FALSE, &this->holderIssuer)) { goto end; } break; case AC_OBJ_HOLDER_SERIAL: this->holderSerial = object; break; case AC_OBJ_ENTITY_NAME: if (!parse_directoryName(object, level, TRUE, &this->entityName)) { goto end; } break; case AC_OBJ_ISSUER_NAME: if (!parse_directoryName(object, level, FALSE, &this->issuerName)) { goto end; } break; case AC_OBJ_SIG_ALG: sig_alg = asn1_parse_algorithmIdentifier(object, level, NULL); break; case AC_OBJ_SERIAL_NUMBER: this->serialNumber = chunk_clone(object); break; case AC_OBJ_NOT_BEFORE: this->notBefore = asn1_to_time(&object, ASN1_GENERALIZEDTIME); break; case AC_OBJ_NOT_AFTER: this->notAfter = asn1_to_time(&object, ASN1_GENERALIZEDTIME); break; case AC_OBJ_ATTRIBUTE_TYPE: type = asn1_known_oid(object); break; case AC_OBJ_ATTRIBUTE_VALUE: { switch (type) { case OID_AUTHENTICATION_INFO: DBG2(DBG_LIB, " need to parse authenticationInfo"); break; case OID_ACCESS_IDENTITY: DBG2(DBG_LIB, " need to parse accessIdentity"); break; case OID_CHARGING_IDENTITY: DBG2(DBG_LIB, "-- > --"); this->charging = ietf_attributes_create_from_encoding(object); DBG2(DBG_LIB, "-- < --"); break; case OID_GROUP: DBG2(DBG_LIB, "-- > --"); this->groups = ietf_attributes_create_from_encoding(object); DBG2(DBG_LIB, "-- < --"); break; case OID_ROLE: parse_roleSyntax(object, level); break; default: break; } break; } case AC_OBJ_EXTN_ID: extn_oid = asn1_known_oid(object); break; case AC_OBJ_CRITICAL: critical = object.len && *object.ptr; DBG2(DBG_LIB, " %s",(critical)?"TRUE":"FALSE"); break; case AC_OBJ_EXTN_VALUE: { switch (extn_oid) { case OID_CRL_DISTRIBUTION_POINTS: DBG2(DBG_LIB, " need to parse crlDistributionPoints"); break; case OID_AUTHORITY_KEY_ID: this->authKeyIdentifier = x509_parse_authorityKeyIdentifier(object, level, &this->authKeySerialNumber); break; case OID_TARGET_INFORMATION: DBG2(DBG_LIB, " need to parse targetInformation"); break; case OID_NO_REV_AVAIL: this->noRevAvail = TRUE; break; default: break; } break; } case AC_OBJ_ALGORITHM: this->algorithm = asn1_parse_algorithmIdentifier(object, level, NULL); if (this->algorithm != sig_alg) { DBG1(DBG_LIB, " signature algorithms do not agree"); success = FALSE; goto end; } break; case AC_OBJ_SIGNATURE: this->signature = object; break; default: break; } } success = parser->success(parser); end: parser->destroy(parser); return success; } /** * build directoryName */ static chunk_t build_directoryName(asn1_t tag, chunk_t name) { return asn1_wrap(tag, "m", asn1_simple_object(ASN1_CONTEXT_C_4, name)); } /** * build holder */ static chunk_t build_holder(private_x509_ac_t *this) { x509_t* x509 = (x509_t*)this->holderCert; identification_t *issuer = this->holderCert->get_issuer(this->holderCert); identification_t *subject = this->holderCert->get_subject(this->holderCert); return asn1_wrap(ASN1_SEQUENCE, "mm", asn1_wrap(ASN1_CONTEXT_C_0, "mm", build_directoryName(ASN1_SEQUENCE, issuer->get_encoding(issuer)), asn1_simple_object(ASN1_INTEGER, x509->get_serial(x509)) ), build_directoryName(ASN1_CONTEXT_C_1, subject->get_encoding(subject))); } /** * build v2Form */ static chunk_t build_v2_form(private_x509_ac_t *this) { identification_t *subject = this->signerCert->get_subject(this->signerCert); return asn1_wrap(ASN1_CONTEXT_C_0, "m", build_directoryName(ASN1_SEQUENCE, subject->get_encoding(subject))); } /** * build attrCertValidityPeriod */ static chunk_t build_attr_cert_validity(private_x509_ac_t *this) { return asn1_wrap(ASN1_SEQUENCE, "mm", asn1_from_time(&this->notBefore, ASN1_GENERALIZEDTIME), asn1_from_time(&this->notAfter, ASN1_GENERALIZEDTIME)); } /** * build attribute type */ static chunk_t build_attribute_type(int type, chunk_t content) { return asn1_wrap(ASN1_SEQUENCE, "mm", asn1_build_known_oid(type), asn1_wrap(ASN1_SET, "m", content)); } /** * build attributes */ static chunk_t build_attributes(private_x509_ac_t *this) { return asn1_wrap(ASN1_SEQUENCE, "m", build_attribute_type(OID_GROUP, this->groups->get_encoding(this->groups))); } /** * build authorityKeyIdentifier */ static chunk_t build_authorityKeyIdentifier(private_x509_ac_t *this) { chunk_t keyIdentifier = chunk_empty; chunk_t authorityCertIssuer; chunk_t authorityCertSerialNumber; identification_t *issuer; public_key_t *public; x509_t *x509; x509 = (x509_t*)this->signerCert; issuer = this->signerCert->get_issuer(this->signerCert); public = this->signerCert->get_public_key(this->signerCert); if (public) { if (public->get_fingerprint(public, KEY_ID_PUBKEY_SHA1, &keyIdentifier)) { this->authKeyIdentifier = chunk_clone(keyIdentifier); } public->destroy(public); } authorityCertIssuer = build_directoryName(ASN1_CONTEXT_C_1, issuer->get_encoding(issuer)); authorityCertSerialNumber = asn1_simple_object(ASN1_CONTEXT_S_2, x509->get_serial(x509)); return asn1_wrap(ASN1_SEQUENCE, "mm", asn1_build_known_oid(OID_AUTHORITY_KEY_ID), asn1_wrap(ASN1_OCTET_STRING, "m", asn1_wrap(ASN1_SEQUENCE, "cmm", keyIdentifier, authorityCertIssuer, authorityCertSerialNumber ) ) ); } /** * build extensions */ static chunk_t build_extensions(private_x509_ac_t *this) { return asn1_wrap(ASN1_SEQUENCE, "mc", build_authorityKeyIdentifier(this), ASN1_noRevAvail_ext); } /** * build attributeCertificateInfo */ static chunk_t build_attr_cert_info(private_x509_ac_t *this) { return asn1_wrap(ASN1_SEQUENCE, "cmmmmmmm", ASN1_INTEGER_1, build_holder(this), build_v2_form(this), asn1_algorithmIdentifier(OID_SHA1_WITH_RSA), asn1_simple_object(ASN1_INTEGER, this->serialNumber), build_attr_cert_validity(this), build_attributes(this), build_extensions(this)); } /** * build an X.509 attribute certificate */ static chunk_t build_ac(private_x509_ac_t *this) { chunk_t signatureValue; chunk_t attributeCertificateInfo; attributeCertificateInfo = build_attr_cert_info(this); this->signerKey->sign(this->signerKey, SIGN_RSA_EMSA_PKCS1_SHA1, attributeCertificateInfo, &signatureValue); return asn1_wrap(ASN1_SEQUENCE, "mmm", attributeCertificateInfo, asn1_algorithmIdentifier(OID_SHA1_WITH_RSA), asn1_bitstring("m", signatureValue)); } /** * Implementation of ac_t.get_serial. */ static chunk_t get_serial(private_x509_ac_t *this) { return this->serialNumber; } /** * Implementation of ac_t.get_holderSerial. */ static chunk_t get_holderSerial(private_x509_ac_t *this) { return this->holderSerial; } /** * Implementation of ac_t.get_holderIssuer. */ static identification_t* get_holderIssuer(private_x509_ac_t *this) { return this->holderIssuer; } /** * Implementation of ac_t.get_authKeyIdentifier. */ static chunk_t get_authKeyIdentifier(private_x509_ac_t *this) { return this->authKeyIdentifier; } /** * Implementation of certificate_t.get_groups. */ static ietf_attributes_t* get_groups(private_x509_ac_t *this) { return this->groups ? this->groups->get_ref(this->groups) : NULL; } /** * Implementation of certificate_t.get_type */ static certificate_type_t get_type(private_x509_ac_t *this) { return CERT_X509_AC; } /** * Implementation of certificate_t.get_subject */ static identification_t* get_subject(private_x509_ac_t *this) { return this->entityName; } /** * Implementation of certificate_t.get_issuer */ static identification_t* get_issuer(private_x509_ac_t *this) { return this->issuerName; } /** * Implementation of certificate_t.has_subject. */ static id_match_t has_subject(private_x509_ac_t *this, identification_t *subject) { return ID_MATCH_NONE; } /** * Implementation of certificate_t.has_issuer. */ static id_match_t has_issuer(private_x509_ac_t *this, identification_t *issuer) { if (issuer->get_type(issuer) == ID_KEY_ID && this->authKeyIdentifier.ptr && chunk_equals(this->authKeyIdentifier, issuer->get_encoding(issuer))) { return ID_MATCH_PERFECT; } return this->issuerName->matches(this->issuerName, issuer); } /** * Implementation of certificate_t.issued_by */ static bool issued_by(private_x509_ac_t *this, certificate_t *issuer) { public_key_t *key; signature_scheme_t scheme; bool valid; x509_t *x509 = (x509_t*)issuer; /* check if issuer is an X.509 AA certificate */ if (issuer->get_type(issuer) != CERT_X509) { return FALSE; } if (!(x509->get_flags(x509) & X509_AA)) { return FALSE; } /* get the public key of the issuer */ key = issuer->get_public_key(issuer); /* compare keyIdentifiers if available, otherwise use DNs */ if (this->authKeyIdentifier.ptr && key) { chunk_t fingerprint; if (!key->get_fingerprint(key, KEY_ID_PUBKEY_SHA1, &fingerprint) || !chunk_equals(fingerprint, this->authKeyIdentifier)) { return FALSE; } } else { if (!this->issuerName->equals(this->issuerName, issuer->get_subject(issuer))) { return FALSE; } } /* determine signature scheme */ scheme = signature_scheme_from_oid(this->algorithm); if (scheme == SIGN_UNKNOWN || key == NULL) { return FALSE; } valid = key->verify(key, scheme, this->certificateInfo, this->signature); key->destroy(key); return valid; } /** * Implementation of certificate_t.get_public_key. */ static public_key_t* get_public_key(private_x509_ac_t *this) { return NULL; } /** * Implementation of certificate_t.get_ref. */ static private_x509_ac_t* get_ref(private_x509_ac_t *this) { ref_get(&this->ref); return this; } /** * Implementation of certificate_t.get_validity. */ static bool get_validity(private_x509_ac_t *this, time_t *when, time_t *not_before, time_t *not_after) { time_t t = when ? *when : time(NULL); if (not_before) { *not_before = this->notBefore; } if (not_after) { *not_after = this->notAfter; } return (t >= this->notBefore && t <= this->notAfter); } /** * Implementation of certificate_t.is_newer. */ static bool is_newer(private_x509_ac_t *this, ac_t *that) { certificate_t *this_cert = &this->public.interface.certificate; certificate_t *that_cert = &that->certificate; time_t this_update, that_update, now = time(NULL); bool new; this_cert->get_validity(this_cert, &now, &this_update, NULL); that_cert->get_validity(that_cert, &now, &that_update, NULL); new = this_update > that_update; DBG1(DBG_LIB, " attr cert from %T is %s - existing attr cert from %T %s", &this_update, FALSE, new ? "newer":"not newer", &that_update, FALSE, new ? "replaced":"retained"); return new; } /** * Implementation of certificate_t.get_encoding. */ static chunk_t get_encoding(private_x509_ac_t *this) { return chunk_clone(this->encoding); } /** * Implementation of certificate_t.equals. */ static bool equals(private_x509_ac_t *this, certificate_t *other) { chunk_t encoding; bool equal; if ((certificate_t*)this == other) { return TRUE; } if (other->equals == (void*)equals) { /* skip allocation if we have the same implementation */ return chunk_equals(this->encoding, ((private_x509_ac_t*)other)->encoding); } encoding = other->get_encoding(other); equal = chunk_equals(this->encoding, encoding); free(encoding.ptr); return equal; } /** * Implementation of x509_ac_t.destroy */ static void destroy(private_x509_ac_t *this) { if (ref_put(&this->ref)) { DESTROY_IF(this->holderIssuer); DESTROY_IF(this->entityName); DESTROY_IF(this->issuerName); DESTROY_IF(this->holderCert); DESTROY_IF(this->signerCert); DESTROY_IF(this->signerKey); DESTROY_IF(this->charging); DESTROY_IF(this->groups); free(this->serialNumber.ptr); free(this->authKeyIdentifier.ptr); free(this->encoding.ptr); free(this); } } /** * create an empty but initialized X.509 attribute certificate */ static private_x509_ac_t *create_empty(void) { private_x509_ac_t *this = malloc_thing(private_x509_ac_t); /* public functions */ this->public.interface.get_serial = (chunk_t (*)(ac_t*))get_serial; this->public.interface.get_holderSerial = (chunk_t (*)(ac_t*))get_holderSerial; this->public.interface.get_holderIssuer = (identification_t* (*)(ac_t*))get_holderIssuer; this->public.interface.get_authKeyIdentifier = (chunk_t (*)(ac_t*))get_authKeyIdentifier; this->public.interface.get_groups = (ietf_attributes_t* (*)(ac_t*))get_groups; this->public.interface.certificate.get_type = (certificate_type_t (*)(certificate_t *this))get_type; this->public.interface.certificate.get_subject = (identification_t* (*)(certificate_t *this))get_subject; this->public.interface.certificate.get_issuer = (identification_t* (*)(certificate_t *this))get_issuer; this->public.interface.certificate.has_subject = (id_match_t(*)(certificate_t*, identification_t *subject))has_subject; this->public.interface.certificate.has_issuer = (id_match_t(*)(certificate_t*, identification_t *issuer))has_issuer; this->public.interface.certificate.issued_by = (bool (*)(certificate_t *this, certificate_t *issuer))issued_by; this->public.interface.certificate.get_public_key = (public_key_t* (*)(certificate_t *this))get_public_key; this->public.interface.certificate.get_validity = (bool(*)(certificate_t*, time_t *when, time_t *, time_t*))get_validity; this->public.interface.certificate.is_newer = (bool (*)(certificate_t*,certificate_t*))is_newer; this->public.interface.certificate.get_encoding = (chunk_t(*)(certificate_t*))get_encoding; this->public.interface.certificate.equals = (bool(*)(certificate_t*, certificate_t *other))equals; this->public.interface.certificate.get_ref = (certificate_t* (*)(certificate_t *this))get_ref; this->public.interface.certificate.destroy = (void (*)(certificate_t *this))destroy; /* initialize */ this->encoding = chunk_empty; this->serialNumber = chunk_empty; this->holderSerial = chunk_empty; this->authKeyIdentifier = chunk_empty; this->holderIssuer = NULL; this->entityName = NULL; this->issuerName = NULL; this->holderCert = NULL; this->signerCert = NULL; this->signerKey = NULL; this->charging = NULL; this->groups = NULL; this->ref = 1; return this; } /** * See header. */ x509_ac_t *x509_ac_load(certificate_type_t type, va_list args) { chunk_t blob = chunk_empty; while (TRUE) { switch (va_arg(args, builder_part_t)) { case BUILD_BLOB_ASN1_DER: blob = va_arg(args, chunk_t); continue; case BUILD_END: break; default: return NULL; } break; } if (blob.ptr) { private_x509_ac_t *ac = create_empty(); ac->encoding = chunk_clone(blob); if (parse_certificate(ac)) { return &ac->public; } destroy(ac); } return NULL; } /** * See header. */ x509_ac_t *x509_ac_gen(certificate_type_t type, va_list args) { private_x509_ac_t *ac; ac = create_empty(); while (TRUE) { switch (va_arg(args, builder_part_t)) { case BUILD_NOT_BEFORE_TIME: ac->notBefore = va_arg(args, time_t); continue; case BUILD_NOT_AFTER_TIME: ac->notAfter = va_arg(args, time_t); continue; case BUILD_SERIAL: ac->serialNumber = chunk_clone(va_arg(args, chunk_t)); continue; case BUILD_IETF_GROUP_ATTR: ac->groups = ietf_attributes_create_from_string(va_arg(args, char*)); continue; case BUILD_CERT: ac->holderCert = va_arg(args, certificate_t*); ac->holderCert->get_ref(ac->holderCert); continue; case BUILD_SIGNING_CERT: ac->signerCert = va_arg(args, certificate_t*); ac->signerCert->get_ref(ac->signerCert); continue; case BUILD_SIGNING_KEY: ac->signerKey = va_arg(args, private_key_t*); ac->signerKey->get_ref(ac->signerKey); continue; case BUILD_END: break; default: destroy(ac); return NULL; } break; } if (ac->signerKey && ac->holderCert && ac->signerCert && ac->holderCert->get_type(ac->holderCert) == CERT_X509 && ac->signerCert->get_type(ac->signerCert) == CERT_X509) { ac->encoding = build_ac(ac); return &ac->public; } destroy(ac); return NULL; }