/* back-bdb.h - bdb back-end header file */
/* $OpenLDAP: pkg/ldap/servers/slapd/back-bdb/back-bdb.h,v 1.117.2.13 2007/01/03 04:36:04 hyc Exp $ */
/* This work is part of OpenLDAP Software .
*
* Copyright 2000-2007 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
* .
*/
#ifndef _BACK_BDB_H_
#define _BACK_BDB_H_
#include
#include "slap.h"
#include
#include "alock.h"
LDAP_BEGIN_DECL
#define DB_VERSION_FULL ((DB_VERSION_MAJOR << 24) | (DB_VERSION_MINOR << 16) | DB_VERSION_PATCH)
#define DN_BASE_PREFIX SLAP_INDEX_EQUALITY_PREFIX
#define DN_ONE_PREFIX '%'
#define DN_SUBTREE_PREFIX '@'
#define DBTzero(t) (memset((t), 0, sizeof(DBT)))
#define DBT2bv(t,bv) ((bv)->bv_val = (t)->data, \
(bv)->bv_len = (t)->size)
#define bv2DBT(bv,t) ((t)->data = (bv)->bv_val, \
(t)->size = (bv)->bv_len )
#define BDB_TXN_RETRIES 16
#define BDB_MAX_ADD_LOOP 30
#define BDB_SUFFIX ".bdb"
#define BDB_ID2ENTRY 0
#define BDB_DN2ID 1
#define BDB_NDB 2
/* The bdb on-disk entry format is pretty space-inefficient. Average
* sized user entries are 3-4K each. You need at least two entries to
* fit into a single database page, more is better. 64K is BDB's
* upper bound. Smaller pages are better for concurrency.
*/
#ifndef BDB_ID2ENTRY_PAGESIZE
#define BDB_ID2ENTRY_PAGESIZE 16384
#endif
#ifndef BDB_PAGESIZE
#define BDB_PAGESIZE 4096 /* BDB's original default */
#endif
#define DEFAULT_CACHE_SIZE 1000
/* The default search IDL stack cache depth */
#define DEFAULT_SEARCH_STACK_DEPTH 16
/* The minimum we can function with */
#define MINIMUM_SEARCH_STACK_DEPTH 8
typedef struct bdb_idl_cache_entry_s {
struct berval kstr;
ID *idl;
DB *db;
struct bdb_idl_cache_entry_s* idl_lru_prev;
struct bdb_idl_cache_entry_s* idl_lru_next;
} bdb_idl_cache_entry_t;
/* BDB backend specific entry info */
typedef struct bdb_entry_info {
struct bdb_entry_info *bei_parent;
ID bei_id;
/* we use the bei_id as a lockobj, but we need to make the size != 4
* to avoid conflicting with BDB's internal locks. So add a byte here
* that is always zero.
*/
char bei_lockpad;
short bei_state;
#define CACHE_ENTRY_DELETED 1
#define CACHE_ENTRY_NO_KIDS 2
#define CACHE_ENTRY_NOT_LINKED 4
#define CACHE_ENTRY_NO_GRANDKIDS 8
#define CACHE_ENTRY_LOADING 0x10
#define CACHE_ENTRY_WALKING 0x20
#define CACHE_ENTRY_ONELEVEL 0x40
/*
* remaining fields require backend cache lock to access
*/
struct berval bei_nrdn;
#ifdef BDB_HIER
struct berval bei_rdn;
int bei_modrdns; /* track renames */
int bei_ckids; /* number of kids cached */
int bei_dkids; /* number of kids on-disk, plus 1 */
#endif
Entry *bei_e;
Avlnode *bei_kids;
#ifdef SLAP_ZONE_ALLOC
struct bdb_info *bei_bdb;
int bei_zseq;
#endif
ldap_pvt_thread_mutex_t bei_kids_mutex;
struct bdb_entry_info *bei_lrunext; /* for cache lru list */
struct bdb_entry_info *bei_lruprev;
} EntryInfo;
#undef BEI
#define BEI(e) ((EntryInfo *) ((e)->e_private))
/* for the in-core cache of entries */
typedef struct bdb_cache {
int c_maxsize;
int c_cursize;
int c_minfree;
int c_eiused; /* EntryInfo's in use */
int c_leaves; /* EntryInfo leaf nodes */
EntryInfo c_dntree;
EntryInfo *c_eifree; /* free list */
Avlnode *c_idtree;
EntryInfo *c_lruhead; /* lru - add accessed entries here */
EntryInfo *c_lrutail; /* lru - rem lru entries from here */
ldap_pvt_thread_rdwr_t c_rwlock;
ldap_pvt_thread_mutex_t lru_head_mutex;
ldap_pvt_thread_mutex_t lru_tail_mutex;
u_int32_t c_locker; /* used by lru cleaner */
#ifdef SLAP_ZONE_ALLOC
void *c_zctx;
#endif
} Cache;
#define CACHE_READ_LOCK 0
#define CACHE_WRITE_LOCK 1
#define BDB_INDICES 128
struct bdb_db_info {
char *bdi_name;
DB *bdi_db;
};
/* From ldap_rq.h */
struct re_s;
struct bdb_info {
DB_ENV *bi_dbenv;
/* DB_ENV parameters */
/* The DB_ENV can be tuned via DB_CONFIG */
char *bi_dbenv_home;
u_int32_t bi_dbenv_xflags; /* extra flags */
int bi_dbenv_mode;
int bi_ndatabases;
struct bdb_db_info **bi_databases;
ldap_pvt_thread_mutex_t bi_database_mutex;
int bi_db_opflags; /* db-specific flags */
slap_mask_t bi_defaultmask;
Cache bi_cache;
struct bdb_attrinfo **bi_attrs;
int bi_nattrs;
void *bi_search_stack;
int bi_search_stack_depth;
int bi_linear_index;
int bi_txn_cp;
u_int32_t bi_txn_cp_min;
u_int32_t bi_txn_cp_kbyte;
struct re_s *bi_txn_cp_task;
struct re_s *bi_index_task;
int bi_lock_detect;
long bi_shm_key;
ID bi_lastid;
ldap_pvt_thread_mutex_t bi_lastid_mutex;
int bi_idl_cache_max_size;
int bi_idl_cache_size;
Avlnode *bi_idl_tree;
bdb_idl_cache_entry_t *bi_idl_lru_head;
bdb_idl_cache_entry_t *bi_idl_lru_tail;
ldap_pvt_thread_rdwr_t bi_idl_tree_rwlock;
ldap_pvt_thread_mutex_t bi_idl_tree_lrulock;
alock_info_t bi_alock_info;
char *bi_db_config_path;
BerVarray bi_db_config;
int bi_flags;
#define BDB_IS_OPEN 0x01
#define BDB_HAS_CONFIG 0x02
#define BDB_UPD_CONFIG 0x04
#define BDB_DEL_INDEX 0x08
#define BDB_RE_OPEN 0x10
#ifdef BDB_HIER
int bi_modrdns; /* number of modrdns completed */
ldap_pvt_thread_mutex_t bi_modrdns_mutex;
#endif
};
#define bi_id2entry bi_databases[BDB_ID2ENTRY]
#define bi_dn2id bi_databases[BDB_DN2ID]
struct bdb_lock_info {
struct bdb_lock_info *bli_next;
ID bli_id;
DB_LOCK bli_lock;
};
struct bdb_op_info {
BackendDB* boi_bdb;
DB_TXN* boi_txn;
u_int32_t boi_err;
u_int32_t boi_locker;
int boi_acl_cache;
struct bdb_lock_info *boi_locks; /* used when no txn */
};
#define DB_OPEN(db, file, name, type, flags, mode) \
(db)->open(db, file, name, type, flags, mode)
#if DB_VERSION_MAJOR < 4
#define LOCK_DETECT(env,f,t,a) lock_detect(env, f, t, a)
#define LOCK_GET(env,i,f,o,m,l) lock_get(env, i, f, o, m, l)
#define LOCK_PUT(env,l) lock_put(env, l)
#define TXN_CHECKPOINT(env,k,m,f) txn_checkpoint(env, k, m, f)
#define TXN_BEGIN(env,p,t,f) txn_begin((env), p, t, f)
#define TXN_PREPARE(txn,gid) txn_prepare((txn), (gid))
#define TXN_COMMIT(txn,f) txn_commit((txn), (f))
#define TXN_ABORT(txn) txn_abort((txn))
#define TXN_ID(txn) txn_id(txn)
#define XLOCK_ID(env, locker) lock_id(env, locker)
#define XLOCK_ID_FREE(env, locker) lock_id_free(env, locker)
#else
#define LOCK_DETECT(env,f,t,a) (env)->lock_detect(env, f, t, a)
#define LOCK_GET(env,i,f,o,m,l) (env)->lock_get(env, i, f, o, m, l)
#define LOCK_PUT(env,l) (env)->lock_put(env, l)
#define TXN_CHECKPOINT(env,k,m,f) (env)->txn_checkpoint(env, k, m, f)
#define TXN_BEGIN(env,p,t,f) (env)->txn_begin((env), p, t, f)
#define TXN_PREPARE(txn,g) (txn)->prepare((txn), (g))
#define TXN_COMMIT(txn,f) (txn)->commit((txn), (f))
#define TXN_ABORT(txn) (txn)->abort((txn))
#define TXN_ID(txn) (txn)->id(txn)
#define XLOCK_ID(env, locker) (env)->lock_id(env, locker)
#define XLOCK_ID_FREE(env, locker) (env)->lock_id_free(env, locker)
/* BDB 4.1.17 adds txn arg to db->open */
#if DB_VERSION_FULL >= 0x04010011
#undef DB_OPEN
#define DB_OPEN(db, file, name, type, flags, mode) \
(db)->open(db, NULL, file, name, type, flags, mode)
#endif
#endif
#define BDB_REUSE_LOCKERS
#define BDB_CSN_COMMIT 0
#define BDB_CSN_ABORT 1
#define BDB_CSN_RETRY 2
/* Copy an ID "src" to pointer "dst" in big-endian byte order */
#define BDB_ID2DISK( src, dst ) \
do { int i0; ID tmp; unsigned char *_p; \
tmp = (src); _p = (unsigned char *)(dst); \
for ( i0=sizeof(ID)-1; i0>=0; i0-- ) { \
_p[i0] = tmp & 0xff; tmp >>= 8; \
} \
} while(0)
/* Copy a pointer "src" to a pointer "dst" from big-endian to native order */
#define BDB_DISK2ID( src, dst ) \
do { int i0; ID tmp = 0; unsigned char *_p; \
_p = (unsigned char *)(src); \
for ( i0=0; i0