/* at.c - routines for dealing with attribute types */ /* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 1998-2005 The OpenLDAP Foundation. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted only as authorized by the OpenLDAP * Public License. * * A copy of this license is available in the file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ #include "portable.h" #include #include #include #include #include #include #include "slap.h" int is_at_syntax( AttributeType *at, const char *oid ) { for( ; at != NULL; at = at->sat_sup ) { if( at->sat_syntax_oid ) { return ( strcmp( at->sat_syntax_oid, oid ) == 0 ); } } return 0; } int is_at_subtype( AttributeType *sub, AttributeType *sup ) { for( ; sub != NULL; sub = sub->sat_sup ) { if( sub == sup ) return 1; } return 0; } struct aindexrec { struct berval air_name; AttributeType *air_at; }; static Avlnode *attr_index = NULL; static Avlnode *attr_cache = NULL; static LDAP_SLIST_HEAD(ATList, slap_attribute_type) attr_list = LDAP_SLIST_HEAD_INITIALIZER(&attr_list); int at_oc_cache; static int attr_index_cmp( const void *v_air1, const void *v_air2 ) { const struct aindexrec *air1 = v_air1; const struct aindexrec *air2 = v_air2; int i = air1->air_name.bv_len - air2->air_name.bv_len; if (i) return i; return (strcasecmp( air1->air_name.bv_val, air2->air_name.bv_val )); } static int attr_index_name_cmp( const void *v_type, const void *v_air ) { const struct berval *type = v_type; const struct aindexrec *air = v_air; int i = type->bv_len - air->air_name.bv_len; if (i) return i; return (strncasecmp( type->bv_val, air->air_name.bv_val, type->bv_len )); } AttributeType * at_find( const char *name ) { struct berval bv; bv.bv_val = (char *)name; bv.bv_len = strlen( name ); return at_bvfind( &bv ); } AttributeType * at_bvfind( struct berval *name ) { struct aindexrec *air; if ( attr_cache ) { air = avl_find( attr_cache, name, attr_index_name_cmp ); if ( air ) return air->air_at; } air = avl_find( attr_index, name, attr_index_name_cmp ); if ( air && ( slapMode & SLAP_TOOL_MODE ) && at_oc_cache ) { avl_insert( &attr_cache, (caddr_t) air, attr_index_cmp, avl_dup_error ); } return air != NULL ? air->air_at : NULL; } int at_append_to_list( AttributeType *sat, AttributeType ***listp ) { AttributeType **list; AttributeType **list1; int size; list = *listp; if ( !list ) { size = 2; list = ch_calloc(size, sizeof(AttributeType *)); if ( !list ) { return -1; } } else { size = 0; list1 = *listp; while ( *list1 ) { size++; list1++; } size += 2; list1 = ch_realloc(list, size*sizeof(AttributeType *)); if ( !list1 ) { return -1; } list = list1; } list[size-2] = sat; list[size-1] = NULL; *listp = list; return 0; } int at_delete_from_list( int pos, AttributeType ***listp ) { AttributeType **list; AttributeType **list1; int i; int j; if ( pos < 0 ) { return -2; } list = *listp; for ( i=0; list[i]; i++ ) ; if ( pos >= i ) { return -2; } for ( i=pos, j=pos+1; list[j]; i++, j++ ) { list[i] = list[j]; } list[i] = NULL; /* Tell the runtime this can be shrinked */ list1 = ch_realloc(list, (i+1)*sizeof(AttributeType **)); if ( !list1 ) { return -1; } *listp = list1; return 0; } int at_find_in_list( AttributeType *sat, AttributeType **list ) { int i; if ( !list ) { return -1; } for ( i=0; list[i]; i++ ) { if ( sat == list[i] ) { return i; } } return -1; } void at_destroy( void ) { AttributeType *a; avl_free(attr_index, ldap_memfree); while( !LDAP_SLIST_EMPTY(&attr_list) ) { a = LDAP_SLIST_FIRST(&attr_list); LDAP_SLIST_REMOVE_HEAD(&attr_list, sat_next); if (a->sat_subtypes) ldap_memfree(a->sat_subtypes); ad_destroy(a->sat_ad); ldap_pvt_thread_mutex_destroy(&a->sat_ad_mutex); ldap_attributetype_free((LDAPAttributeType *)a); } if ( slap_schema.si_at_undefined ) { ad_destroy(slap_schema.si_at_undefined->sat_ad); } } int at_start( AttributeType **at ) { assert( at ); *at = LDAP_SLIST_FIRST(&attr_list); return (*at != NULL); } int at_next( AttributeType **at ) { assert( at ); #if 1 /* pedantic check */ { AttributeType *tmp = NULL; LDAP_SLIST_FOREACH(tmp,&attr_list,sat_next) { if ( tmp == *at ) { break; } } assert( tmp ); } #endif *at = LDAP_SLIST_NEXT(*at,sat_next); return (*at != NULL); } static int at_insert( AttributeType *sat, const char **err ) { struct aindexrec *air; char **names; LDAP_SLIST_NEXT( sat, sat_next ) = NULL; LDAP_SLIST_INSERT_HEAD( &attr_list, sat, sat_next ); if ( sat->sat_oid ) { air = (struct aindexrec *) ch_calloc( 1, sizeof(struct aindexrec) ); air->air_name.bv_val = sat->sat_oid; air->air_name.bv_len = strlen(sat->sat_oid); air->air_at = sat; if ( avl_insert( &attr_index, (caddr_t) air, attr_index_cmp, avl_dup_error ) ) { *err = sat->sat_oid; ldap_memfree(air); return SLAP_SCHERR_ATTR_DUP; } /* FIX: temporal consistency check */ at_bvfind(&air->air_name); } if ( (names = sat->sat_names) ) { while ( *names ) { air = (struct aindexrec *) ch_calloc( 1, sizeof(struct aindexrec) ); air->air_name.bv_val = *names; air->air_name.bv_len = strlen(*names); air->air_at = sat; if ( avl_insert( &attr_index, (caddr_t) air, attr_index_cmp, avl_dup_error ) ) { *err = *names; ldap_memfree(air); return SLAP_SCHERR_ATTR_DUP; } /* FIX: temporal consistency check */ at_bvfind(&air->air_name); names++; } } return 0; } int at_add( LDAPAttributeType *at, const char **err ) { AttributeType *sat; MatchingRule *mr; Syntax *syn; int i; int code; char *cname; char *oid; if ( !OID_LEADCHAR( at->at_oid[0] )) { /* Expand OID macros */ oid = oidm_find( at->at_oid ); if ( !oid ) { *err = at->at_oid; return SLAP_SCHERR_OIDM; } if ( oid != at->at_oid ) { ldap_memfree( at->at_oid ); at->at_oid = oid; } } if ( at->at_syntax_oid && !OID_LEADCHAR( at->at_syntax_oid[0] )) { /* Expand OID macros */ oid = oidm_find( at->at_syntax_oid ); if ( !oid ) { *err = at->at_syntax_oid; return SLAP_SCHERR_OIDM; } if ( oid != at->at_syntax_oid ) { ldap_memfree( at->at_syntax_oid ); at->at_syntax_oid = oid; } } if ( at->at_names && at->at_names[0] ) { int i; for( i=0; at->at_names[i]; i++ ) { if( !slap_valid_descr( at->at_names[i] ) ) { *err = at->at_names[i]; return SLAP_SCHERR_BAD_DESCR; } } cname = at->at_names[0]; } else if ( at->at_oid ) { cname = at->at_oid; } else { *err = ""; return SLAP_SCHERR_ATTR_INCOMPLETE; } *err = cname; if ( !at->at_usage && at->at_no_user_mod ) { /* user attribute must be modifable */ return SLAP_SCHERR_ATTR_BAD_USAGE; } if ( at->at_collective ) { if( at->at_usage ) { /* collective attributes cannot be operational */ return SLAP_SCHERR_ATTR_BAD_USAGE; } if( at->at_single_value ) { /* collective attributes cannot be single-valued */ return SLAP_SCHERR_ATTR_BAD_USAGE; } } sat = (AttributeType *) ch_calloc( 1, sizeof(AttributeType) ); AC_MEMCPY( &sat->sat_atype, at, sizeof(LDAPAttributeType)); sat->sat_cname.bv_val = cname; sat->sat_cname.bv_len = strlen( cname ); ldap_pvt_thread_mutex_init(&sat->sat_ad_mutex); if ( at->at_sup_oid ) { AttributeType *supsat = at_find(at->at_sup_oid); if ( supsat == NULL ) { *err = at->at_sup_oid; return SLAP_SCHERR_ATTR_NOT_FOUND; } sat->sat_sup = supsat; if ( at_append_to_list(sat, &supsat->sat_subtypes) ) { return SLAP_SCHERR_OUTOFMEM; } if ( sat->sat_usage != supsat->sat_usage ) { /* subtypes must have same usage as their SUP */ return SLAP_SCHERR_ATTR_BAD_USAGE; } if ( supsat->sat_obsolete && !sat->sat_obsolete ) { /* subtypes must be obsolete if super is */ return SLAP_SCHERR_ATTR_BAD_SUP; } if ( sat->sat_flags & SLAP_AT_FINAL ) { /* cannot subtype a "final" attribute type */ return SLAP_SCHERR_ATTR_BAD_SUP; } } /* * Inherit definitions from superiors. We only check the * direct superior since that one has already inherited from * its own superiorss */ if ( sat->sat_sup ) { sat->sat_syntax = sat->sat_sup->sat_syntax; sat->sat_equality = sat->sat_sup->sat_equality; sat->sat_approx = sat->sat_sup->sat_approx; sat->sat_ordering = sat->sat_sup->sat_ordering; sat->sat_substr = sat->sat_sup->sat_substr; } /* * check for X-ORDERED attributes */ if ( sat->sat_extensions ) { for (i=0; sat->sat_extensions[i]; i++) { if (!strcasecmp( sat->sat_extensions[i]->lsei_name, "X-ORDERED" )) { sat->sat_flags |= SLAP_AT_ORDERED; break; } } } if ( at->at_syntax_oid ) { syn = syn_find(sat->sat_syntax_oid); if ( syn == NULL ) { *err = sat->sat_syntax_oid; return SLAP_SCHERR_SYN_NOT_FOUND; } if( sat->sat_syntax != NULL && sat->sat_syntax != syn ) { return SLAP_SCHERR_ATTR_BAD_SUP; } sat->sat_syntax = syn; } else if ( sat->sat_syntax == NULL ) { return SLAP_SCHERR_ATTR_INCOMPLETE; } if ( sat->sat_equality_oid ) { mr = mr_find(sat->sat_equality_oid); if( mr == NULL ) { *err = sat->sat_equality_oid; return SLAP_SCHERR_MR_NOT_FOUND; } if(( mr->smr_usage & SLAP_MR_EQUALITY ) != SLAP_MR_EQUALITY ) { *err = sat->sat_equality_oid; return SLAP_SCHERR_ATTR_BAD_MR; } if( sat->sat_syntax != mr->smr_syntax ) { if( mr->smr_compat_syntaxes == NULL ) { *err = sat->sat_equality_oid; return SLAP_SCHERR_ATTR_BAD_MR; } for(i=0; mr->smr_compat_syntaxes[i]; i++) { if( sat->sat_syntax == mr->smr_compat_syntaxes[i] ) { i = -1; break; } } if( i >= 0 ) { *err = sat->sat_equality_oid; return SLAP_SCHERR_ATTR_BAD_MR; } } sat->sat_equality = mr; sat->sat_approx = mr->smr_associated; } if ( sat->sat_ordering_oid ) { if( !sat->sat_equality ) { *err = sat->sat_ordering_oid; return SLAP_SCHERR_ATTR_BAD_MR; } mr = mr_find(sat->sat_ordering_oid); if( mr == NULL ) { *err = sat->sat_ordering_oid; return SLAP_SCHERR_MR_NOT_FOUND; } if(( mr->smr_usage & SLAP_MR_ORDERING ) != SLAP_MR_ORDERING ) { *err = sat->sat_ordering_oid; return SLAP_SCHERR_ATTR_BAD_MR; } if( sat->sat_syntax != mr->smr_syntax ) { if( mr->smr_compat_syntaxes == NULL ) { *err = sat->sat_ordering_oid; return SLAP_SCHERR_ATTR_BAD_MR; } for(i=0; mr->smr_compat_syntaxes[i]; i++) { if( sat->sat_syntax == mr->smr_compat_syntaxes[i] ) { i = -1; break; } } if( i >= 0 ) { *err = sat->sat_ordering_oid; return SLAP_SCHERR_ATTR_BAD_MR; } } sat->sat_ordering = mr; } if ( sat->sat_substr_oid ) { if( !sat->sat_equality ) { *err = sat->sat_substr_oid; return SLAP_SCHERR_ATTR_BAD_MR; } mr = mr_find(sat->sat_substr_oid); if( mr == NULL ) { *err = sat->sat_substr_oid; return SLAP_SCHERR_MR_NOT_FOUND; } if(( mr->smr_usage & SLAP_MR_SUBSTR ) != SLAP_MR_SUBSTR ) { *err = sat->sat_substr_oid; return SLAP_SCHERR_ATTR_BAD_MR; } /* due to funky LDAP builtin substring rules, * we check against the equality rule assertion * syntax and compat syntaxes instead of those * associated with the substrings rule. */ if( sat->sat_syntax != sat->sat_equality->smr_syntax ) { if( sat->sat_equality->smr_compat_syntaxes == NULL ) { *err = sat->sat_substr_oid; return SLAP_SCHERR_ATTR_BAD_MR; } for(i=0; sat->sat_equality->smr_compat_syntaxes[i]; i++) { if( sat->sat_syntax == sat->sat_equality->smr_compat_syntaxes[i] ) { i = -1; break; } } if( i >= 0 ) { *err = sat->sat_substr_oid; return SLAP_SCHERR_ATTR_BAD_MR; } } sat->sat_substr = mr; } code = at_insert(sat,err); return code; } #ifdef LDAP_DEBUG static int at_index_printnode( void *v_air, void *ignore ) { struct aindexrec *air = v_air; printf("%s = %s\n", air->air_name.bv_val, ldap_attributetype2str(&air->air_at->sat_atype) ); return( 0 ); } static void at_index_print( void ) { printf("Printing attribute type index:\n"); (void) avl_apply( attr_index, at_index_printnode, 0, -1, AVL_INORDER ); } #endif int at_schema_info( Entry *e ) { AttributeDescription *ad_attributeTypes = slap_schema.si_ad_attributeTypes; AttributeType *at; struct berval val; struct berval nval; LDAP_SLIST_FOREACH(at,&attr_list,sat_next) { if( at->sat_flags & SLAP_AT_HIDE ) continue; if ( ldap_attributetype2bv( &at->sat_atype, &val ) == NULL ) { return -1; } nval.bv_val = at->sat_oid; nval.bv_len = strlen(at->sat_oid); if( attr_merge_one( e, ad_attributeTypes, &val, &nval ) ) { return -1; } ldap_memfree( val.bv_val ); } return 0; }