openldap/servers/slapd/back-ldbm/back-ldbm.h
2003-01-03 20:20:47 +00:00

152 lines
3.9 KiB
C

/* back-ldbm.h - ldap ldbm back-end header file */
/* $OpenLDAP$ */
/*
* Copyright 1998-2003 The OpenLDAP Foundation, All Rights Reserved.
* COPYING RESTRICTIONS APPLY, see COPYRIGHT file
*/
#ifndef _BACK_LDBM_H_
#define _BACK_LDBM_H_
#include "ldbm.h"
LDAP_BEGIN_DECL
#define DEFAULT_CACHE_SIZE 1000
#if defined(HAVE_BERKELEY_DB) && DB_VERSION_MAJOR >= 2
# define DEFAULT_DBCACHE_SIZE (100 * DEFAULT_DB_PAGE_SIZE)
#else
# define DEFAULT_DBCACHE_SIZE 100000
#endif
#define DN_BASE_PREFIX SLAP_INDEX_EQUALITY_PREFIX
#define DN_ONE_PREFIX '%'
#define DN_SUBTREE_PREFIX '@'
/*
* there is a single index for each attribute. these prefixes ensure
* that there is no collision among keys.
*/
/* allow PREFIX + byte for continuate number */
#define SLAP_INDEX_CONT_SIZE ( sizeof(SLAP_INDEX_CONT_PREFIX) + sizeof(unsigned char) )
#define DEFAULT_BLOCKSIZE 8192
/*
* This structure represents an id block on disk and an id list
* in core.
*
* The fields have the following meanings:
*
* b_nmax maximum number of ids in this block. if this is == ALLIDSBLOCK,
* then this block represents all ids.
* b_nids current number of ids in use in this block. if this
* is == INDBLOCK, then this block is an indirect block
* containing a list of other blocks containing actual ids.
* the list is terminated by an id of NOID.
* b_ids a list of the actual ids themselves
*/
typedef ID ID_BLOCK;
#define ID_BLOCK_NMAX_OFFSET 0
#define ID_BLOCK_NIDS_OFFSET 1
#define ID_BLOCK_IDS_OFFSET 2
/* all ID_BLOCK macros operate on a pointer to a ID_BLOCK */
#define ID_BLOCK_NMAX(b) ((b)[ID_BLOCK_NMAX_OFFSET])
/* Use this macro to get the value, but not to set it.
* By default this is identical to above.
*/
#define ID_BLOCK_NMAXN(b) ID_BLOCK_NMAX(b)
#define ID_BLOCK_NIDS(b) ((b)[ID_BLOCK_NIDS_OFFSET])
#define ID_BLOCK_ID(b, n) ((b)[ID_BLOCK_IDS_OFFSET+(n)])
#define ID_BLOCK_NOID(b, n) (ID_BLOCK_ID((b),(n)) == NOID)
#define ID_BLOCK_ALLIDS_VALUE 0
#define ID_BLOCK_ALLIDS(b) (ID_BLOCK_NMAX(b) == ID_BLOCK_ALLIDS_VALUE)
#define ID_BLOCK_INDIRECT_VALUE 0
#define ID_BLOCK_INDIRECT(b) (ID_BLOCK_NIDS(b) == ID_BLOCK_INDIRECT_VALUE)
#define USE_INDIRECT_NIDS 1
#ifdef USE_INDIRECT_NIDS
/*
* Use the high bit of ID_BLOCK_NMAX to indicate an INDIRECT block, thus
* freeing up the ID_BLOCK_NIDS to store an actual count. This allows us
* to use binary search on INDIRECT blocks.
*/
#undef ID_BLOCK_NMAXN
#define ID_BLOCK_NMAXN(b) ((b)[ID_BLOCK_NMAX_OFFSET]&0x7fffffff)
#undef ID_BLOCK_INDIRECT_VALUE
#define ID_BLOCK_INDIRECT_VALUE 0x80000000
#undef ID_BLOCK_INDIRECT
#define ID_BLOCK_INDIRECT(b) (ID_BLOCK_NMAX(b) & ID_BLOCK_INDIRECT_VALUE)
#endif /* USE_INDIRECT_NIDS */
/* for the in-core cache of entries */
typedef struct ldbm_cache {
int c_maxsize;
int c_cursize;
Avlnode *c_dntree;
Avlnode *c_idtree;
Entry *c_lruhead; /* lru - add accessed entries here */
Entry *c_lrutail; /* lru - rem lru entries from here */
ldap_pvt_thread_mutex_t c_mutex;
} Cache;
#define CACHE_READ_LOCK 0
#define CACHE_WRITE_LOCK 1
/* for the cache of open index files */
typedef struct ldbm_dbcache {
int dbc_refcnt;
int dbc_maxids;
int dbc_maxindirect;
int dbc_dirty;
int dbc_flags;
time_t dbc_lastref;
long dbc_blksize;
char *dbc_name;
LDBM dbc_db;
ldap_pvt_thread_mutex_t dbc_write_mutex;
} DBCache;
#define MAXDBCACHE 128
struct ldbminfo {
ldap_pvt_thread_rdwr_t li_giant_rwlock;
ID li_nextid;
int li_mode;
slap_mask_t li_defaultmask;
char *li_directory;
Cache li_cache;
Avlnode *li_attrs;
int li_dblocking; /* lock databases */
int li_dbwritesync; /* write sync */
int li_dbcachesize;
DBCache li_dbcache[MAXDBCACHE];
ldap_pvt_thread_mutex_t li_dbcache_mutex;
ldap_pvt_thread_cond_t li_dbcache_cv;
DB_ENV *li_dbenv;
int li_envdirok;
int li_dbsyncfreq;
int li_dbsyncwaitn;
int li_dbsyncwaitinterval;
ldap_pvt_thread_t li_dbsynctid;
int li_dbshutdown;
};
LDAP_END_DECL
#include "proto-back-ldbm.h"
#endif /* _back_ldbm_h_ */