/* ldbm.c - ldap dbm compatibility routines */ /* $OpenLDAP$ */ /* * Copyright 1998-2000 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ /* Patched for Berkeley DB version 2.0; /KSp; 98/02/23 * * - DB version 2.6.4b ; 1998/12/28, /KSp * - DB_DBT_MALLOC ; 1998/03/22, /KSp * - basic implementation; 1998/02/23, /KSp */ #include "portable.h" #ifdef SLAPD_LDBM #include #include #include #include #include "ldbm.h" #include "ldap_pvt_thread.h" void ldbm_datum_free( LDBM ldbm, Datum data ) { if ( data.dptr ) { free( data.dptr ); memset( &data, '\0', sizeof( Datum )); data.dptr = NULL; } } Datum ldbm_datum_dup( LDBM ldbm, Datum data ) { Datum dup; ldbm_datum_init( dup ); if ( data.dsize == 0 ) { dup.dsize = 0; dup.dptr = NULL; return( dup ); } dup.dsize = data.dsize; if ( (dup.dptr = (char *) malloc( data.dsize )) != NULL ) AC_MEMCPY( dup.dptr, data.dptr, data.dsize ); return( dup ); } static int ldbm_initialized = 0; #ifdef HAVE_BERKELEY_DB_THREAD #define LDBM_LOCK ((void)0) #define LDBM_UNLOCK ((void)0) #else /* Only DB2 or DB3 with DB_THREAD is thread-free */ static ldap_pvt_thread_mutex_t ldbm_big_mutex; #define LDBM_LOCK (ldap_pvt_thread_mutex_lock(&ldbm_big_mutex)) #define LDBM_UNLOCK (ldap_pvt_thread_mutex_unlock(&ldbm_big_mutex)) #endif /******************************************************************* * * * Create some special functions to initialize Berkeley DB for * * versions greater than 2. * * * *******************************************************************/ #if defined( HAVE_BERKELEY_DB ) && (DB_VERSION_MAJOR >= 2) void * ldbm_malloc( size_t size ) { return( calloc( 1, size )); } #ifdef LDAP_SYSLOG #include #endif static void ldbm_db_errcall( const char *prefix, char *message ) { #ifdef LDAP_SYSLOG syslog( LOG_INFO, "ldbm: %s %s", prefix, message ); #endif } /* a dbEnv for BERKELEYv2 */ DB_ENV *ldbm_Env = NULL; int ldbm_initialize( const char* home ) { int err; u_int32_t envFlags; if(ldbm_initialized++) return 1; #if DB_VERSION_MAJOR < 3 ldbm_Env = calloc( 1, sizeof( DB_ENV )); if( ldbm_Env == NULL ) return 1; ldbm_Env->db_errcall = ldbm_db_errcall; ldbm_Env->db_errpfx = "==>"; #else ldbm_Env = NULL; #endif envFlags = #if defined( DB_PRIVATE ) DB_PRIVATE | #endif #if defined( HAVE_BERKELEY_DB_THREAD ) DB_THREAD | #endif DB_CREATE; #if DB_VERSION_MAJOR >= 3 err = db_env_create( &ldbm_Env, 0 ); #else envFlags |= DB_USE_ENVIRON; err = db_appinit( home, NULL, ldbm_Env, envFlags ); #endif if ( err ) { char error[BUFSIZ]; sprintf( error, "%s (%d)\n", STRERROR( err ), err ); #ifdef LDAP_SYSLOG syslog( LOG_INFO, #if DB_VERSION_MAJOR >= 3 "ldbm_initialize(): FATAL error in db_env_create() : %s\n", #else "ldbm_initialize(): FATAL error in db_appinit() : %s\n", #endif error ); #endif return( 1 ); } #if DB_VERSION_MAJOR > 2 ldbm_Env->set_errcall( ldbm_Env, ldbm_db_errcall ); ldbm_Env->set_errpfx( ldbm_Env, "==>" ); envFlags |= DB_INIT_MPOOL | DB_USE_ENVIRON; #if (DB_VERSION_MAJOR > 3) || (DB_VERSION_MINOR >= 1) err = ldbm_Env->open( ldbm_Env, home, envFlags, 0 ); #else err = ldbm_Env->open( ldbm_Env, home, NULL, envFlags, 0 ); #endif if ( err != 0 ) { char error[BUFSIZ]; sprintf( error, "%s (%d)\n", STRERROR( err ), err ); #ifdef LDAP_SYSLOG syslog( LOG_INFO, "ldbm_initialize(): FATAL error in dbEnv->open() : %s\n", error ); #endif ldbm_Env->close( ldbm_Env, 0 ); return( 1 ); } #endif return 0; } int ldbm_shutdown( void ) { if( !ldbm_initialized ) return 1; #if DB_VERSION_MAJOR >= 3 ldbm_Env->close( ldbm_Env, 0 ); #else db_appexit( ldbm_Env ); #endif return 0; } #else /* some DB other than Berkeley V2 or greater */ int ldbm_initialize( const char * home ) { if(ldbm_initialized++) return 1; ldap_pvt_thread_mutex_init( &ldbm_big_mutex ); return 0; } int ldbm_shutdown( void ) { if( !ldbm_initialized ) return 1; ldap_pvt_thread_mutex_destroy( &ldbm_big_mutex ); return 0; } #endif /* HAVE_BERKELEY_DB */ #if defined( LDBM_USE_DBHASH ) || defined( LDBM_USE_DBBTREE ) /***************************************************************** * * * use berkeley db hash or btree package * * * *****************************************************************/ LDBM ldbm_open( char *name, int rw, int mode, int dbcachesize ) { LDBM ret = NULL; #if DB_VERSION_MAJOR >= 3 int err; LDBM_LOCK; err = db_create( &ret, ldbm_Env, 0 ); if ( err != 0 ) { char error[BUFSIZ]; sprintf( error, "%s (%d)\n", STRERROR( err ), err ); (void)ret->close(ret, 0); return NULL; } ret->set_pagesize( ret, DEFAULT_DB_PAGE_SIZE ); ret->set_malloc( ret, ldbm_malloc ); ret->set_cachesize( ret, 0, dbcachesize, 0 ); err = ret->open( ret, name, NULL, DB_TYPE, rw, mode); LDBM_UNLOCK; if ( err != 0 ) { char error[BUFSIZ]; sprintf( error, "%s (%d)\n", STRERROR( err ), err ); (void)ret->close(ret, 0); return NULL; } #elif DB_VERSION_MAJOR >= 2 DB_INFO dbinfo; memset( &dbinfo, '\0', sizeof( dbinfo )); #if DB_VERSION_MAJOR == 2 && DB_VERSION_MINOR == 4 /* * BerkeleyDB 2.4 do not allow db_cachesize * to be specified if an DB_ENV is. */ #else /* set db_cachesize of MPOOL is NOT being used. */ if (( ldbm_Env == NULL ) || ( ldbm_Env->mp_info == NULL )) dbinfo.db_cachesize = dbcachesize; #endif dbinfo.db_pagesize = DEFAULT_DB_PAGE_SIZE; dbinfo.db_malloc = ldbm_malloc; LDBM_LOCK; (void) db_open( name, DB_TYPE, rw, mode, ldbm_Env, &dbinfo, &ret ); LDBM_UNLOCK; #else void *info; BTREEINFO binfo; HASHINFO hinfo; if ( DB_TYPE == DB_HASH ) { memset( (char *) &hinfo, '\0', sizeof(hinfo) ); hinfo.cachesize = dbcachesize; info = &hinfo; } else if ( DB_TYPE == DB_BTREE ) { memset( (char *) &binfo, '\0', sizeof(binfo) ); binfo.cachesize = dbcachesize; info = &binfo; } else { info = NULL; } LDBM_LOCK; ret = dbopen( name, rw, mode, DB_TYPE, info ); LDBM_UNLOCK; #endif return( ret ); } void ldbm_close( LDBM ldbm ) { LDBM_LOCK; #if DB_VERSION_MAJOR >= 3 ldbm->close( ldbm, 0 ); #elif DB_VERSION_MAJOR >= 2 (*ldbm->close)( ldbm, 0 ); #else (*ldbm->close)( ldbm ); #endif LDBM_UNLOCK; } void ldbm_sync( LDBM ldbm ) { LDBM_LOCK; (*ldbm->sync)( ldbm, 0 ); LDBM_UNLOCK; } Datum ldbm_fetch( LDBM ldbm, Datum key ) { Datum data; int rc; LDBM_LOCK; #if DB_VERSION_MAJOR >= 3 ldbm_datum_init( data ); data.flags = DB_DBT_MALLOC; if ( (rc = ldbm->get( ldbm, NULL, &key, &data, 0 )) != 0 ) { ldbm_datum_free( ldbm, data ); #elif DB_VERSION_MAJOR >= 2 ldbm_datum_init( data ); data.flags = DB_DBT_MALLOC; if ( (rc = (*ldbm->get)( ldbm, NULL, &key, &data, 0 )) != 0 ) { ldbm_datum_free( ldbm, data ); #else if ( (rc = (*ldbm->get)( ldbm, &key, &data, 0 )) == 0 ) { /* Berkeley DB 1.85 don't malloc the data for us */ /* duplicate it for to ensure reentrancy */ data = ldbm_datum_dup( ldbm, data ); } else { #endif data.dptr = NULL; data.dsize = 0; } LDBM_UNLOCK; return( data ); } int ldbm_store( LDBM ldbm, Datum key, Datum data, int flags ) { int rc; LDBM_LOCK; #if DB_VERSION_MAJOR >= 3 rc = ldbm->put( ldbm, NULL, &key, &data, flags & ~LDBM_SYNC ); if ( rc != 0 ) { char error[BUFSIZ]; sprintf( error, "%s (%d)\n", STRERROR( rc ), rc ); } rc = (-1) * rc; #elif DB_VERSION_MAJOR >= 2 rc = (*ldbm->put)( ldbm, NULL, &key, &data, flags & ~LDBM_SYNC ); rc = (-1 ) * rc; #else rc = (*ldbm->put)( ldbm, &key, &data, flags & ~LDBM_SYNC ); #endif if ( flags & LDBM_SYNC ) (*ldbm->sync)( ldbm, 0 ); LDBM_UNLOCK; return( rc ); } int ldbm_delete( LDBM ldbm, Datum key ) { int rc; LDBM_LOCK; #if DB_VERSION_MAJOR >= 3 rc = ldbm->del( ldbm, NULL, &key, 0 ); rc = (-1 ) * rc; #elif DB_VERSION_MAJOR >= 2 rc = (*ldbm->del)( ldbm, NULL, &key, 0 ); rc = (-1 ) * rc; #else rc = (*ldbm->del)( ldbm, &key, 0 ); #endif (*ldbm->sync)( ldbm, 0 ); LDBM_UNLOCK; return( rc ); } Datum ldbm_firstkey( LDBM ldbm, LDBMCursor **dbch ) { Datum key, data; #if DB_VERSION_MAJOR >= 2 LDBMCursor *dbci; ldbm_datum_init( key ); ldbm_datum_init( data ); key.flags = data.flags = DB_DBT_MALLOC; LDBM_LOCK; /* acquire a cursor for the DB */ # if DB_VERSION_MAJOR >= 3 if ( ldbm->cursor( ldbm, NULL, &dbci, 0 ) ) # elif defined( DB_VERSION_MAJOR ) && defined( DB_VERSION_MINOR ) && \ (DB_VERSION_MAJOR == 2 && DB_VERSION_MINOR < 6) if ( (*ldbm->cursor)( ldbm, NULL, &dbci )) # else if ( (*ldbm->cursor)( ldbm, NULL, &dbci, 0 )) # endif { key.dptr = NULL; return( key ); } else { *dbch = dbci; if ( (*dbci->c_get)( dbci, &key, &data, DB_NEXT ) == 0 ) { ldbm_datum_free( ldbm, data ); } else { #else int rc; LDBM_LOCK; if ( (rc = (*ldbm->seq)( ldbm, &key, &data, R_FIRST )) == 0 ) { key = ldbm_datum_dup( ldbm, key ); } else { #endif key.dptr = NULL; key.dsize = 0; } #if DB_VERSION_MAJOR >= 2 } #endif LDBM_UNLOCK; return( key ); } Datum ldbm_nextkey( LDBM ldbm, Datum key, LDBMCursor *dbcp ) { Datum data; #if DB_VERSION_MAJOR >= 2 ldbm_datum_init( data ); ldbm_datum_free( ldbm, key ); key.flags = data.flags = DB_DBT_MALLOC; LDBM_LOCK; if ( (*dbcp->c_get)( dbcp, &key, &data, DB_NEXT ) == 0 ) { ldbm_datum_free( ldbm, data ); } else { #else int rc; LDBM_LOCK; if ( (rc = (*ldbm->seq)( ldbm, &key, &data, R_NEXT )) == 0 ) { key = ldbm_datum_dup( ldbm, key ); } else { #endif key.dptr = NULL; key.dsize = 0; } LDBM_UNLOCK; return( key ); } int ldbm_errno( LDBM ldbm ) { return( errno ); } /****************************************************************** * * * END Berkeley section * * * ******************************************************************/ #elif defined( HAVE_GDBM ) #ifdef HAVE_ST_BLKSIZE #include #endif /***************************************************************** * * * use gdbm * * * *****************************************************************/ LDBM ldbm_open( char *name, int rw, int mode, int dbcachesize ) { LDBM db; #ifdef HAVE_ST_BLKSIZE struct stat st; #endif LDBM_LOCK; if ( (db = gdbm_open( name, 0, rw | GDBM_FAST, mode, 0 )) == NULL ) { LDBM_UNLOCK; return( NULL ); } #ifdef HAVE_ST_BLKSIZE if ( dbcachesize > 0 && stat( name, &st ) == 0 ) { dbcachesize /= st.st_blksize; if( dbcachesize == 0 ) dbcachesize = 1; gdbm_setopt( db, GDBM_CACHESIZE, &dbcachesize, sizeof(int) ); } #else if ( dbcachesize > 0 ) { dbcachesize /= 4096; if( dbcachesize == 0 ) dbcachesize = 1; gdbm_setopt( db, GDBM_CACHESIZE, &dbcachesize, sizeof(int) ); } #endif LDBM_UNLOCK; return( db ); } void ldbm_close( LDBM ldbm ) { LDBM_LOCK; gdbm_close( ldbm ); LDBM_UNLOCK; } void ldbm_sync( LDBM ldbm ) { LDBM_LOCK; gdbm_sync( ldbm ); LDBM_UNLOCK; } Datum ldbm_fetch( LDBM ldbm, Datum key ) { Datum d; LDBM_LOCK; d = gdbm_fetch( ldbm, key ); LDBM_UNLOCK; return d; } int ldbm_store( LDBM ldbm, Datum key, Datum data, int flags ) { int rc; LDBM_LOCK; rc = gdbm_store( ldbm, key, data, flags & ~LDBM_SYNC ); if ( flags & LDBM_SYNC ) gdbm_sync( ldbm ); LDBM_UNLOCK; return( rc ); } int ldbm_delete( LDBM ldbm, Datum key ) { int rc; LDBM_LOCK; rc = gdbm_delete( ldbm, key ); gdbm_sync( ldbm ); LDBM_UNLOCK; return( rc ); } Datum ldbm_firstkey( LDBM ldbm, LDBMCursor **dbcp ) { Datum d; LDBM_LOCK; d = gdbm_firstkey( ldbm ); LDBM_UNLOCK; if ( d.dptr != NULL ) { *dbcp = (Datum *) malloc( sizeof( Datum ) ); **dbcp = ldbm_datum_dup( ldbm, d ); } return d; } Datum ldbm_nextkey( LDBM ldbm, Datum key, LDBMCursor *dbcp ) { Datum d; LDBM_LOCK; d = gdbm_nextkey( ldbm, *dbcp ); LDBM_UNLOCK; ldbm_datum_free( ldbm, *dbcp ); if ( d.dptr != NULL ) { *dbcp = ldbm_datum_dup( ldbm, d ); } else { free( dbcp ); } return d; } int ldbm_errno( LDBM ldbm ) { int err; LDBM_LOCK; err = gdbm_errno; LDBM_UNLOCK; return( err ); } #elif HAVE_MDBM /* MMAPED DBM HASHING DATABASE */ #include /* #define MDBM_DEBUG */ #ifdef MDBM_DEBUG #include #endif #define NO_NULL_KEY /* #define MDBM_CHAIN */ #ifdef MDBM_CHAIN /* Use chaining */ #define mdbm_store mdbm_chain_store #define mdbm_fetch mdbm_chain_fetch #define mdbm_delete mdbm_chain_delete #define mdbm_first mdbm_chain_first #define mdbm_next mdbm_chain_next #endif #define MDBM_PG_SZ (4*1024) /***************************************************************** * * * use mdbm * * * *****************************************************************/ LDBM ldbm_open( char *name, int rw, int mode, int dbcachesize ) { LDBM db; #ifdef MDBM_DEBUG fprintf( stdout, "==>(mdbm)ldbm_open(name=%s,rw=%x,mode=%x,cachesize=%d)\n", name ? name : "NULL", rw, mode, dbcachesize ); fflush( stdout ); #endif LDBM_LOCK; /* We need locking here, this is the only non-thread * safe function we have. */ if ( (db = mdbm_open( name, rw, mode, MDBM_PG_SZ )) == NULL ) { LDBM_UNLOCK; #ifdef MDBM_DEBUG fprintf( stdout, "<==(mdbm)ldbm_open(db=NULL)\n" ); fflush( stdout ); #endif return( NULL ); } #ifdef MDBM_CHAIN (void)mdbm_set_chain(db); #endif LDBM_UNLOCK; #ifdef MDBM_DEBUG fprintf( stdout, "<==(mdbm)ldbm_open(db=%p)\n", db ); fflush( stdout ); #endif return( db ); } void ldbm_close( LDBM ldbm ) { /* Open and close are not reentrant so we need to use locks here */ #ifdef MDBM_DEBUG fprintf( stdout, "==>(mdbm)ldbm_close(db=%p)\n", ldbm ); fflush( stdout ); #endif LDBM_LOCK; mdbm_close( ldbm ); LDBM_UNLOCK; #ifdef MDBM_DEBUG fprintf( stdout, "<==(mdbm)ldbm_close()\n" ); fflush( stdout ); #endif } void ldbm_sync( LDBM ldbm ) { /* XXX: Not sure if this is re-entrant need to check code, if so * you can leave LOCKS out. */ LDBM_LOCK; mdbm_sync( ldbm ); LDBM_UNLOCK; } #define MAX_MDBM_RETRY 5 Datum ldbm_fetch( LDBM ldbm, Datum key ) { Datum d; kvpair k; int retry = 0; /* This hack is needed because MDBM does not take keys * which begin with NULL when working in the chaining * mode. */ /* LDBM_LOCK; */ #ifdef NO_NULL_KEY k.key.dsize = key.dsize + 1; k.key.dptr = malloc(k.key.dsize); *(k.key.dptr) = 'l'; AC_MEMCPY( (void *)(k.key.dptr + 1), key.dptr, key.dsize ); #else k.key = key; #endif k.val.dptr = NULL; k.val.dsize = 0; do { d = mdbm_fetch( ldbm, k ); if ( d.dsize > 0 ) { if ( k.val.dptr != NULL ) { free( k.val.dptr ); } if ( (k.val.dptr = malloc( d.dsize )) != NULL ) { k.val.dsize = d.dsize; d = mdbm_fetch( ldbm, k ); } else { d.dsize = 0; break; } }/* if ( d.dsize > 0 ) */ } while ((d.dsize > k.val.dsize) && (++retry < MAX_MDBM_RETRY)); /* LDBM_UNLOCK; */ #ifdef NO_NULL_KEY free(k.key.dptr); #endif return d; } int ldbm_store( LDBM ldbm, Datum key, Datum data, int flags ) { int rc; Datum int_key; /* Internal key */ #ifdef MDBM_DEBUG fprintf( stdout, "==>(mdbm)ldbm_store(db=%p, key(dptr=%p,sz=%d), data(dptr=%p,sz=%d), flags=%x)\n", ldbm, key.dptr, key.dsize, data.dptr, data.dsize, flags ); fflush( stdout ); #endif /* LDBM_LOCK; */ #ifdef NO_NULL_KEY int_key.dsize = key.dsize + 1; int_key.dptr = malloc( int_key.dsize ); *(int_key.dptr) = 'l'; /* Must not be NULL !*/ AC_MEMCPY( (void *)(int_key.dptr + 1), key.dptr, key.dsize ); #else int_key = key; #endif rc = mdbm_store( ldbm, int_key, data, flags ); if ( flags & LDBM_SYNC ) { mdbm_sync( ldbm ); } /* LDBM_UNLOCK; */ #ifdef MDBM_DEBUG fprintf( stdout, "<==(mdbm)ldbm_store(rc=%d)\n", rc ); fflush( stdout ); #endif #ifdef NO_NULL_KEY free(int_key.dptr); #endif return( rc ); } int ldbm_delete( LDBM ldbm, Datum key ) { int rc; Datum int_key; /* LDBM_LOCK; */ #ifdef NO_NULL_KEY int_key.dsize = key.dsize + 1; int_key.dptr = malloc(int_key.dsize); *(int_key.dptr) = 'l'; AC_MEMCPY( (void *)(int_key.dptr + 1), key.dptr, key.dsize ); #else int_key = key; #endif rc = mdbm_delete( ldbm, int_key ); /* LDBM_UNLOCK; */ #ifdef NO_NULL_KEY free(int_key.dptr); #endif return( rc ); } static Datum ldbm_get_next( LDBM ldbm, kvpair (*fptr)(MDBM *, kvpair) ) { kvpair out; kvpair in; Datum ret; size_t sz = MDBM_PAGE_SIZE(ldbm); #ifdef NO_NULL_KEY int delta = 1; #else int delta = 0; #endif /* LDBM_LOCK; */ in.key.dsize = sz; /* Assume first key in one pg */ in.key.dptr = malloc(sz); in.val.dptr = NULL; /* Don't need data just key */ in.val.dsize = 0; ret.dptr = NULL; ret.dsize = NULL; out = fptr( ldbm, in ); if (out.key.dsize > 0) { ret.dsize = out.key.dsize - delta; if ((ret.dptr = (char *)malloc(ret.dsize)) == NULL) { ret.dsize = 0; ret.dptr = NULL; } else { AC_MEMCPY(ret.dptr, (void *)(out.key.dptr + delta), ret.dsize ); } } /* LDBM_UNLOCK; */ free(in.key.dptr); return ret; } Datum ldbm_firstkey( LDBM ldbm, LDBMCursor **dbcp ) { return ldbm_get_next( ldbm, mdbm_first ); } Datum ldbm_nextkey( LDBM ldbm, Datum key, LDBMCursor *dbcp ) { /* XXX: * don't know if this will affect the LDAP server opertaion * but mdbm cannot take and input key. */ return ldbm_get_next( ldbm, mdbm_next ); } int ldbm_errno( LDBM ldbm ) { /* XXX: best we can do with current mdbm interface */ return( errno ); } #elif defined( HAVE_NDBM ) /***************************************************************** * * * if no gdbm or mdbm, fall back to using ndbm, the standard unix thing * * * *****************************************************************/ /* ARGSUSED */ LDBM ldbm_open( char *name, int rw, int mode, int dbcachesize ) { LDBM ldbm; LDBM_LOCK; ldbm = dbm_open( name, rw, mode ); LDBM_UNLOCK; return( ldbm ); } void ldbm_close( LDBM ldbm ) { LDBM_LOCK; dbm_close( ldbm ); LDBM_UNLOCK; } /* ARGSUSED */ void ldbm_sync( LDBM ldbm ) { return; } Datum ldbm_fetch( LDBM ldbm, Datum key ) { Datum d; LDBM_LOCK; d = ldbm_datum_dup( ldbm, dbm_fetch( ldbm, key ) ); LDBM_UNLOCK; return d; } int ldbm_store( LDBM ldbm, Datum key, Datum data, int flags ) { int rc; LDBM_LOCK; rc = dbm_store( ldbm, key, data, flags ); LDBM_UNLOCK; return rc; } int ldbm_delete( LDBM ldbm, Datum key ) { int rc; LDBM_LOCK; rc = dbm_delete( ldbm, key ); LDBM_UNLOCK; return rc; } Datum ldbm_firstkey( LDBM ldbm, LDBMCursor **dbcp ) { Datum d; LDBM_LOCK; d = dbm_firstkey( ldbm ); LDBM_UNLOCK; return d; } Datum ldbm_nextkey( LDBM ldbm, Datum key, LDBMCursor *dbcp ) { Datum d; LDBM_LOCK; d = dbm_nextkey( ldbm ); LDBM_UNLOCK; return d; } int ldbm_errno( LDBM ldbm ) { int err; LDBM_LOCK; err = dbm_error( ldbm ); LDBM_UNLOCK; return err; } #endif /* ndbm */ #endif /* ldbm */