/* oc.c - object class routines */ /* $OpenLDAP$ */ /* * Copyright 1998-2000 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ #include "portable.h" #include #include #include #include #include "slap.h" #include "ldap_pvt.h" int is_object_subclass( ObjectClass *sub, ObjectClass *sup ) { int i; if( sub == NULL || sup == NULL ) return 0; #if 0 Debug( LDAP_DEBUG_TRACE, "is_object_subclass(%s,%s) %d\n", sub->soc_oid, sup->soc_oid, sup == sub ); #endif if( sup == sub ) { return 1; } if( sup->soc_sups == NULL ) { return 0; } for( i=0; sup->soc_sups[i] != NULL; i++ ) { if( is_object_subclass( sub, sup->soc_sups[i] ) ) { return 1; } } return 0; } int is_entry_objectclass( Entry* e, ObjectClass *oc ) { Attribute *attr; int i; AttributeDescription *objectClass = slap_schema.si_ad_objectClass; assert(!( e == NULL || oc == NULL )); if( e == NULL || oc == NULL ) { return 0; } /* * find objectClass attribute */ attr = attr_find(e->e_attrs, objectClass); if( attr == NULL ) { /* no objectClass attribute */ #ifdef NEW_LOGGING LDAP_LOG(( "operation", LDAP_LEVEL_ERR, "is_entry_objectclass: " "dn(%s), oid (%s), no objectClass attribute.\n", e->e_dn == NULL ? "" : e->e_dn, oc->soc_oclass.oc_oid )); #else Debug( LDAP_DEBUG_ANY, "is_entry_objectclass(\"%s\", \"%s\") " "no objectClass attribute\n", e->e_dn == NULL ? "" : e->e_dn, oc->soc_oclass.oc_oid, 0 ); #endif return 0; } for( i=0; attr->a_vals[i]; i++ ) { ObjectClass *objectClass = oc_find( attr->a_vals[i]->bv_val ); if( objectClass == oc ) { return 1; } } return 0; } struct oindexrec { char *oir_name; ObjectClass *oir_oc; }; static Avlnode *oc_index = NULL; static ObjectClass *oc_list = NULL; static int oc_index_cmp( struct oindexrec *oir1, struct oindexrec *oir2 ) { assert( oir1->oir_name ); assert( oir1->oir_oc ); assert( oir2->oir_name ); assert( oir2->oir_oc ); return strcasecmp( oir1->oir_name, oir2->oir_name ); } static int oc_index_name_cmp( char *name, struct oindexrec *oir ) { assert( oir->oir_name ); assert( oir->oir_oc ); return (strcasecmp( name, oir->oir_name )); } ObjectClass * oc_find( const char *ocname ) { struct oindexrec *oir; oir = (struct oindexrec *) avl_find( oc_index, ocname, (AVL_CMP) oc_index_name_cmp ); if ( oir != NULL ) { assert( oir->oir_name ); assert( oir->oir_oc ); return( oir->oir_oc ); } return( NULL ); } static int oc_create_required( ObjectClass *soc, char **attrs, const char **err ) { char **attrs1; AttributeType *sat; AttributeType **satp; int i; if ( attrs ) { attrs1 = attrs; while ( *attrs1 ) { sat = at_find(*attrs1); if ( !sat ) { *err = *attrs1; return SLAP_SCHERR_ATTR_NOT_FOUND; } if ( at_find_in_list(sat, soc->soc_required) < 0) { if ( at_append_to_list(sat, &soc->soc_required) ) { *err = *attrs1; return SLAP_SCHERR_OUTOFMEM; } } attrs1++; } /* Now delete duplicates from the allowed list */ for ( satp = soc->soc_required; *satp; satp++ ) { i = at_find_in_list(*satp,soc->soc_allowed); if ( i >= 0 ) { at_delete_from_list(i, &soc->soc_allowed); } } } return 0; } static int oc_create_allowed( ObjectClass *soc, char **attrs, const char **err ) { char **attrs1; AttributeType *sat; if ( attrs ) { attrs1 = attrs; while ( *attrs1 ) { sat = at_find(*attrs1); if ( !sat ) { *err = *attrs1; return SLAP_SCHERR_ATTR_NOT_FOUND; } if ( at_find_in_list(sat, soc->soc_required) < 0 && at_find_in_list(sat, soc->soc_allowed) < 0 ) { if ( at_append_to_list(sat, &soc->soc_allowed) ) { *err = *attrs1; return SLAP_SCHERR_OUTOFMEM; } } attrs1++; } } return 0; } static int oc_add_sups( ObjectClass *soc, char **sups, const char **err ) { int code; ObjectClass *soc1; int nsups; char **sups1; int add_sups = 0; if ( sups ) { if ( !soc->soc_sups ) { /* We are at the first recursive level */ add_sups = 1; nsups = 1; sups1 = sups; while ( *sups1 ) { nsups++; sups1++; } soc->soc_sups = (ObjectClass **)ch_calloc(nsups, sizeof(ObjectClass *)); } nsups = 0; sups1 = sups; while ( *sups1 ) { soc1 = oc_find(*sups1); if ( !soc1 ) { *err = *sups1; return SLAP_SCHERR_CLASS_NOT_FOUND; } /* check object class usage * abstract classes can only sup abstract classes * structural classes can not sup auxiliary classes * auxiliary classes can not sup structural classes */ if( soc->soc_kind != soc1->soc_kind && soc1->soc_kind != LDAP_SCHEMA_ABSTRACT ) { *err = *sups1; return SLAP_SCHERR_CLASS_BAD_USAGE; } if ( add_sups ) soc->soc_sups[nsups] = soc1; code = oc_add_sups( soc, soc1->soc_sup_oids, err ); if ( code ) return code; code = oc_create_required( soc, soc1->soc_at_oids_must, err ); if ( code ) return code; code = oc_create_allowed( soc, soc1->soc_at_oids_may, err ); if ( code ) return code; nsups++; sups1++; } } return 0; } void oc_destroy( void ) { ObjectClass *o, *n; avl_free(oc_index, ldap_memfree); for (o=oc_list; o; o=n) { n = o->soc_next; ldap_memfree(o->soc_sups); ldap_memfree(o->soc_required); ldap_memfree(o->soc_allowed); ldap_objectclass_free((LDAPObjectClass *)o); } } static int oc_insert( ObjectClass *soc, const char **err ) { ObjectClass **ocp; struct oindexrec *oir; char **names; ocp = &oc_list; while ( *ocp != NULL ) { ocp = &(*ocp)->soc_next; } *ocp = soc; if ( soc->soc_oid ) { oir = (struct oindexrec *) ch_calloc( 1, sizeof(struct oindexrec) ); oir->oir_name = soc->soc_oid; oir->oir_oc = soc; assert( oir->oir_name ); assert( oir->oir_oc ); if ( avl_insert( &oc_index, (caddr_t) oir, (AVL_CMP) oc_index_cmp, (AVL_DUP) avl_dup_error ) ) { *err = soc->soc_oid; ldap_memfree(oir); return SLAP_SCHERR_DUP_CLASS; } /* FIX: temporal consistency check */ assert( oc_find(oir->oir_name) != NULL ); } if ( (names = soc->soc_names) ) { while ( *names ) { oir = (struct oindexrec *) ch_calloc( 1, sizeof(struct oindexrec) ); oir->oir_name = *names; oir->oir_oc = soc; assert( oir->oir_name ); assert( oir->oir_oc ); if ( avl_insert( &oc_index, (caddr_t) oir, (AVL_CMP) oc_index_cmp, (AVL_DUP) avl_dup_error ) ) { *err = *names; ldap_memfree(oir); return SLAP_SCHERR_DUP_CLASS; } /* FIX: temporal consistency check */ assert( oc_find(oir->oir_name) != NULL ); names++; } } return 0; } int oc_add( LDAPObjectClass *oc, const char **err ) { ObjectClass *soc; int code; if ( oc->oc_names != NULL ) { int i; for( i=0; oc->oc_names[i]; i++ ) { if( !slap_valid_descr( oc->oc_names[i] ) ) { return SLAP_SCHERR_BAD_DESCR; } } } soc = (ObjectClass *) ch_calloc( 1, sizeof(ObjectClass) ); AC_MEMCPY( &soc->soc_oclass, oc, sizeof(LDAPObjectClass) ); if( soc->soc_sup_oids == NULL && soc->soc_kind == LDAP_SCHEMA_STRUCTURAL ) { /* structural object classes implicitly inherit from 'top' */ static char *top_oids[] = { SLAPD_TOP_OID, NULL }; code = oc_add_sups( soc, top_oids, err ); } else { code = oc_add_sups( soc, soc->soc_sup_oids, err ); } if ( code != 0 ) return code; code = oc_create_required( soc, soc->soc_at_oids_must, err ); if ( code != 0 ) return code; code = oc_create_allowed( soc, soc->soc_at_oids_may, err ); if ( code != 0 ) return code; code = oc_insert(soc,err); return code; } #ifdef LDAP_DEBUG static void oc_print( ObjectClass *oc ) { int i; const char *mid; printf( "objectclass %s\n", ldap_objectclass2name( &oc->soc_oclass ) ); if ( oc->soc_required != NULL ) { mid = "\trequires "; for ( i = 0; oc->soc_required[i] != NULL; i++, mid = "," ) printf( "%s%s", mid, ldap_attributetype2name( &oc->soc_required[i]->sat_atype ) ); printf( "\n" ); } if ( oc->soc_allowed != NULL ) { mid = "\tallows "; for ( i = 0; oc->soc_allowed[i] != NULL; i++, mid = "," ) printf( "%s%s", mid, ldap_attributetype2name( &oc->soc_allowed[i]->sat_atype ) ); printf( "\n" ); } } #endif #if defined( SLAPD_SCHEMA_DN ) int oc_schema_info( Entry *e ) { struct berval val; struct berval *vals[2]; ObjectClass *oc; AttributeDescription *ad_objectClasses = slap_schema.si_ad_objectClasses; vals[0] = &val; vals[1] = NULL; for ( oc = oc_list; oc; oc = oc->soc_next ) { val.bv_val = ldap_objectclass2str( &oc->soc_oclass ); if ( val.bv_val == NULL ) { return -1; } val.bv_len = strlen( val.bv_val ); #if 0 Debug( LDAP_DEBUG_TRACE, "Merging oc [%ld] %s\n", (long) val.bv_len, val.bv_val, 0 ); #endif attr_merge( e, ad_objectClasses, vals ); ldap_memfree( val.bv_val ); } return 0; } #endif