/* $OpenLDAP$ */ /* * Copyright 1998-2002 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ #ifndef _PROTO_BACK_LDBM #define _PROTO_BACK_LDBM #include #include "external.h" LDAP_BEGIN_DECL /* * alias.c */ Entry *deref_internal_r LDAP_P(( Backend *be, Entry *e, struct berval *dn, int *err, Entry **matched, const char **text )); #define deref_entry_r( be, e, err, matched, text ) \ deref_internal_r( be, e, NULL, err, matched, text ) #define deref_dn_r( be, dn, err, matched, text ) \ deref_internal_r( be, NULL, dn, err, matched, text) /* * attr.c */ void attr_mask LDAP_P(( struct ldbminfo *li, AttributeDescription *desc, slap_mask_t *indexmask )); int attr_index_config LDAP_P(( struct ldbminfo *li, const char *fname, int lineno, int argc, char **argv )); void attr_index_destroy LDAP_P(( Avlnode *tree )); /* * cache.c */ int cache_add_entry_rw LDAP_P(( Cache *cache, Entry *e, int rw )); int cache_update_entry LDAP_P(( Cache *cache, Entry *e )); void cache_return_entry_rw LDAP_P(( Cache *cache, Entry *e, int rw )); #define cache_return_entry_r(c, e) cache_return_entry_rw((c), (e), 0) #define cache_return_entry_w(c, e) cache_return_entry_rw((c), (e), 1) void cache_entry_commit LDAP_P(( Entry *e )); ID cache_find_entry_ndn2id LDAP_P(( Backend *be, Cache *cache, struct berval *ndn )); Entry * cache_find_entry_id LDAP_P(( Cache *cache, ID id, int rw )); int cache_delete_entry LDAP_P(( Cache *cache, Entry *e )); void cache_release_all LDAP_P(( Cache *cache )); /* * dbcache.c */ DBCache * ldbm_cache_open LDAP_P(( Backend *be, const char *name, const char *suffix, int flags )); void ldbm_cache_close LDAP_P(( Backend *be, DBCache *db )); void ldbm_cache_really_close LDAP_P(( Backend *be, DBCache *db )); void ldbm_cache_flush_all LDAP_P(( Backend *be )); void ldbm_cache_sync LDAP_P(( Backend *be )); Datum ldbm_cache_fetch LDAP_P(( DBCache *db, Datum key )); int ldbm_cache_store LDAP_P(( DBCache *db, Datum key, Datum data, int flags )); int ldbm_cache_delete LDAP_P(( DBCache *db, Datum key )); void *ldbm_cache_sync_daemon LDAP_P(( void *)); /* * dn2id.c */ int dn2id_add LDAP_P(( Backend *be, struct berval *dn, ID id )); int dn2id LDAP_P(( Backend *be, struct berval *dn, ID *idp )); int dn2idl LDAP_P(( Backend *be, struct berval *dn, int prefix, ID_BLOCK **idlp )); int dn2id_delete LDAP_P(( Backend *be, struct berval *dn, ID id )); Entry * dn2entry_rw LDAP_P(( Backend *be, struct berval *dn, Entry **matched, int rw )); #define dn2entry_r(be, dn, m) dn2entry_rw((be), (dn), (m), 0) #define dn2entry_w(be, dn, m) dn2entry_rw((be), (dn), (m), 1) /* * entry.c */ int ldbm_back_entry_release_rw LDAP_P(( Backend *be, Connection *conn, Operation *op, Entry *e, int rw )); /* * filterindex.c */ ID_BLOCK * filter_candidates LDAP_P(( Backend *be, Filter *f )); /* * id2children.c */ int id2children_add LDAP_P(( Backend *be, Entry *p, Entry *e )); int id2children_remove LDAP_P(( Backend *be, Entry *p, Entry *e )); int has_children LDAP_P(( Backend *be, Entry *p )); /* * id2entry.c */ int id2entry_add LDAP_P(( Backend *be, Entry *e )); int id2entry_delete LDAP_P(( Backend *be, Entry *e )); Entry * id2entry_rw LDAP_P(( Backend *be, ID id, int rw )); #define id2entry_r(be, id) id2entry_rw((be), (id), 0) #define id2entry_w(be, id) id2entry_rw((be), (id), 1) /* * idl.c */ ID_BLOCK * idl_alloc LDAP_P(( unsigned int nids )); ID_BLOCK * idl_allids LDAP_P(( Backend *be )); void idl_free LDAP_P(( ID_BLOCK *idl )); ID_BLOCK * idl_fetch LDAP_P(( Backend *be, DBCache *db, Datum key )); int idl_insert_key LDAP_P(( Backend *be, DBCache *db, Datum key, ID id )); int idl_insert LDAP_P(( ID_BLOCK **idl, ID id, unsigned int maxids )); int idl_delete_key LDAP_P(( Backend *be, DBCache *db, Datum key, ID id )); ID_BLOCK * idl_intersection LDAP_P(( Backend *be, ID_BLOCK *a, ID_BLOCK *b )); ID_BLOCK * idl_union LDAP_P(( Backend *be, ID_BLOCK *a, ID_BLOCK *b )); ID_BLOCK * idl_notin LDAP_P(( Backend *be, ID_BLOCK *a, ID_BLOCK *b )); ID idl_firstid LDAP_P(( ID_BLOCK *idl, ID *cursor )); ID idl_nextid LDAP_P(( ID_BLOCK *idl, ID *cursor )); /* * index.c */ extern int index_is_indexed LDAP_P(( Backend *be, AttributeDescription *desc )); extern int index_param LDAP_P(( Backend *be, AttributeDescription *desc, int ftype, char **dbname, slap_mask_t *mask, struct berval *prefix )); extern int index_values LDAP_P(( Backend *be, AttributeDescription *desc, BerVarray vals, ID id, int op )); int index_entry LDAP_P(( Backend *be, int r, Entry *e, Attribute *ap )); #define index_entry_add(be,e,ap) index_entry((be),SLAP_INDEX_ADD_OP,(e),(ap)) #define index_entry_del(be,e,ap) index_entry((be),SLAP_INDEX_DELETE_OP,(e),(ap)) /* * key.c */ extern int key_change LDAP_P(( Backend *be, DBCache *db, struct berval *k, ID id, int op )); extern int key_read LDAP_P(( Backend *be, DBCache *db, struct berval *k, ID_BLOCK **idout )); /* * passwd.c */ extern BI_op_extended ldbm_back_exop_passwd; /* * modify.c * These prototypes are placed here because they are used by modify and * modify rdn which are implemented in different files. * * We need ldbm_internal_modify here because of LDAP modrdn & modify use * it. If we do not add this, there would be a bunch of code replication * here and there and of course the likelihood of bugs increases. * Juan C. Gomez (gomez@engr.sgi.com) 05/18/99 * */ /* returns LDAP error code indicating error OR SLAPD_ABANDON */ int ldbm_modify_internal LDAP_P((Backend *be, Connection *conn, Operation *op, const char *dn, Modifications *mods, Entry *e, const char **text, char *textbuf, size_t textlen )); /* * nextid.c */ int next_id LDAP_P(( Backend *be, ID *idp )); int next_id_get LDAP_P(( Backend *be, ID *idp )); int next_id_write LDAP_P(( Backend *be, ID id )); LDAP_END_DECL #endif