/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1999-2003 * Sleepycat Software. All rights reserved. */ #include "db_config.h" #ifndef lint static const char revid[] = "$Id: db_method.c,v 1.2 2004/03/30 01:21:24 jtownsen Exp $"; #endif /* not lint */ #ifndef NO_SYSTEM_INCLUDES #include #ifdef HAVE_RPC #include #endif #include #endif #include "db_int.h" #include "dbinc/crypto.h" #include "dbinc/db_page.h" #include "dbinc/db_shash.h" #include "dbinc/btree.h" #include "dbinc/hash.h" #include "dbinc/lock.h" #include "dbinc/mp.h" #include "dbinc/qam.h" #include "dbinc/xa.h" #include "dbinc_auto/xa_ext.h" #ifdef HAVE_RPC #include "dbinc_auto/db_server.h" #include "dbinc_auto/rpc_client_ext.h" #endif static int __db_get_byteswapped __P((DB *, int *)); static int __db_get_dbname __P((DB *, const char **, const char **)); static int __db_get_env __P((DB *, DB_ENV **)); static int __db_get_lorder __P((DB *, int *)); static int __db_get_transactional __P((DB *, int *)); static int __db_get_type __P((DB *, DBTYPE *dbtype)); static int __db_init __P((DB *, u_int32_t)); static int __db_set_alloc __P((DB *, void *(*)(size_t), void *(*)(void *, size_t), void (*)(void *))); static int __db_set_append_recno __P((DB *, int (*)(DB *, DBT *, db_recno_t))); static int __db_get_cachesize __P((DB *, u_int32_t *, u_int32_t *, int *)); static int __db_set_cachesize __P((DB *, u_int32_t, u_int32_t, int)); static int __db_set_dup_compare __P((DB *, int (*)(DB *, const DBT *, const DBT *))); static int __db_get_encrypt_flags __P((DB *, u_int32_t *)); static int __db_set_encrypt __P((DB *, const char *, u_int32_t)); static int __db_set_feedback __P((DB *, void (*)(DB *, int, int))); static void __db_map_flags __P((DB *, u_int32_t *, u_int32_t *)); static int __db_get_flags __P((DB *, u_int32_t *)); static int __db_get_pagesize __P((DB *, u_int32_t *)); static int __db_set_paniccall __P((DB *, void (*)(DB_ENV *, int))); static void __db_set_errcall __P((DB *, void (*)(const char *, char *))); static void __db_get_errfile __P((DB *, FILE **)); static void __db_set_errfile __P((DB *, FILE *)); static void __db_get_errpfx __P((DB *, const char **)); static void __db_set_errpfx __P((DB *, const char *)); static void __dbh_err __P((DB *, int, const char *, ...)); static void __dbh_errx __P((DB *, const char *, ...)); #ifdef HAVE_RPC static int __dbcl_init __P((DB *, DB_ENV *, u_int32_t)); #endif /* * db_create -- * DB constructor. * * EXTERN: int db_create __P((DB **, DB_ENV *, u_int32_t)); */ int db_create(dbpp, dbenv, flags) DB **dbpp; DB_ENV *dbenv; u_int32_t flags; { DB *dbp; int ret; /* Check for invalid function flags. */ switch (flags) { case 0: break; case DB_REP_CREATE: break; case DB_XA_CREATE: if (dbenv != NULL) { __db_err(dbenv, "XA applications may not specify an environment to db_create"); return (EINVAL); } /* * If it's an XA database, open it within the XA environment, * taken from the global list of environments. (When the XA * transaction manager called our xa_start() routine the * "current" environment was moved to the start of the list. */ dbenv = TAILQ_FIRST(&DB_GLOBAL(db_envq)); break; default: return (__db_ferr(dbenv, "db_create", 0)); } /* Allocate the DB. */ if ((ret = __os_calloc(dbenv, 1, sizeof(*dbp), &dbp)) != 0) return (ret); #ifdef HAVE_RPC if (dbenv != NULL && RPC_ON(dbenv)) ret = __dbcl_init(dbp, dbenv, flags); else #endif ret = __db_init(dbp, flags); if (ret != 0) goto err; /* If we don't have an environment yet, allocate a local one. */ if (dbenv == NULL) { if ((ret = db_env_create(&dbenv, 0)) != 0) goto err; F_SET(dbenv, DB_ENV_DBLOCAL); } dbp->dbenv = dbenv; MUTEX_THREAD_LOCK(dbenv, dbenv->dblist_mutexp); ++dbenv->db_ref; MUTEX_THREAD_UNLOCK(dbenv, dbenv->dblist_mutexp); /* * Set the replication timestamp; it's 0 if we're not in a replicated * environment. */ dbp->timestamp = (F_ISSET(dbenv, DB_ENV_DBLOCAL) || !REP_ON(dbenv)) ? 0 : ((DB_REP *)dbenv->rep_handle)->region->timestamp; /* Open a backing DB_MPOOLFILE handle in the memory pool. */ if ((ret = __memp_fcreate(dbenv, &dbp->mpf)) != 0) goto err; dbp->type = DB_UNKNOWN; *dbpp = dbp; return (0); err: if (dbp->mpf != NULL) (void)__memp_fclose(dbp->mpf, 0); if (dbenv != NULL && F_ISSET(dbenv, DB_ENV_DBLOCAL)) (void)__dbenv_close(dbenv, 0); __os_free(dbenv, dbp); *dbpp = NULL; return (ret); } /* * __db_init -- * Initialize a DB structure. */ static int __db_init(dbp, flags) DB *dbp; u_int32_t flags; { int ret; dbp->lid = DB_LOCK_INVALIDID; LOCK_INIT(dbp->handle_lock); TAILQ_INIT(&dbp->free_queue); TAILQ_INIT(&dbp->active_queue); TAILQ_INIT(&dbp->join_queue); LIST_INIT(&dbp->s_secondaries); FLD_SET(dbp->am_ok, DB_OK_BTREE | DB_OK_HASH | DB_OK_QUEUE | DB_OK_RECNO); dbp->associate = __db_associate_pp; dbp->close = __db_close_pp; dbp->cursor = __db_cursor_pp; dbp->del = __db_del_pp; dbp->err = __dbh_err; dbp->errx = __dbh_errx; dbp->fd = __db_fd_pp; dbp->get = __db_get_pp; dbp->get_byteswapped = __db_get_byteswapped; dbp->get_dbname = __db_get_dbname; dbp->get_env = __db_get_env; dbp->get_open_flags = __db_get_open_flags; dbp->get_transactional = __db_get_transactional; dbp->get_type = __db_get_type; dbp->join = __db_join_pp; dbp->key_range = __db_key_range_pp; dbp->open = __db_open_pp; dbp->pget = __db_pget_pp; dbp->put = __db_put_pp; dbp->remove = __db_remove_pp; dbp->rename = __db_rename_pp; dbp->truncate = __db_truncate_pp; dbp->set_alloc = __db_set_alloc; dbp->set_append_recno = __db_set_append_recno; dbp->get_cachesize = __db_get_cachesize; dbp->set_cachesize = __db_set_cachesize; dbp->set_dup_compare = __db_set_dup_compare; dbp->get_encrypt_flags = __db_get_encrypt_flags; dbp->set_encrypt = __db_set_encrypt; dbp->set_errcall = __db_set_errcall; dbp->get_errfile = __db_get_errfile; dbp->set_errfile = __db_set_errfile; dbp->get_errpfx = __db_get_errpfx; dbp->set_errpfx = __db_set_errpfx; dbp->set_feedback = __db_set_feedback; dbp->get_flags = __db_get_flags; dbp->set_flags = __db_set_flags; dbp->get_lorder = __db_get_lorder; dbp->set_lorder = __db_set_lorder; dbp->get_pagesize = __db_get_pagesize; dbp->set_pagesize = __db_set_pagesize; dbp->set_paniccall = __db_set_paniccall; dbp->stat = __db_stat_pp; dbp->sync = __db_sync_pp; dbp->upgrade = __db_upgrade_pp; dbp->verify = __db_verify_pp; /* Access method specific. */ if ((ret = __bam_db_create(dbp)) != 0) return (ret); if ((ret = __ham_db_create(dbp)) != 0) return (ret); if ((ret = __qam_db_create(dbp)) != 0) return (ret); /* * XA specific: must be last, as we replace methods set by the * access methods. */ if (LF_ISSET(DB_XA_CREATE) && (ret = __db_xa_create(dbp)) != 0) return (ret); if (LF_ISSET(DB_REP_CREATE)) F_SET(dbp, DB_AM_REPLICATION); return (0); } /* * __dbh_am_chk -- * Error if an unreasonable method is called. * * PUBLIC: int __dbh_am_chk __P((DB *, u_int32_t)); */ int __dbh_am_chk(dbp, flags) DB *dbp; u_int32_t flags; { /* * We start out allowing any access methods to be called, and as the * application calls the methods the options become restricted. The * idea is to quit as soon as an illegal method combination is called. */ if ((LF_ISSET(DB_OK_BTREE) && FLD_ISSET(dbp->am_ok, DB_OK_BTREE)) || (LF_ISSET(DB_OK_HASH) && FLD_ISSET(dbp->am_ok, DB_OK_HASH)) || (LF_ISSET(DB_OK_QUEUE) && FLD_ISSET(dbp->am_ok, DB_OK_QUEUE)) || (LF_ISSET(DB_OK_RECNO) && FLD_ISSET(dbp->am_ok, DB_OK_RECNO))) { FLD_CLR(dbp->am_ok, ~flags); return (0); } __db_err(dbp->dbenv, "call implies an access method which is inconsistent with previous calls"); return (EINVAL); } /* * __dbh_err -- * Error message, including the standard error string. */ static void #ifdef STDC_HEADERS __dbh_err(DB *dbp, int error, const char *fmt, ...) #else __dbh_err(dbp, error, fmt, va_alist) DB *dbp; int error; const char *fmt; va_dcl #endif { DB_REAL_ERR(dbp->dbenv, error, 1, 1, fmt); } /* * __dbh_errx -- * Error message. */ static void #ifdef STDC_HEADERS __dbh_errx(DB *dbp, const char *fmt, ...) #else __dbh_errx(dbp, fmt, va_alist) DB *dbp; const char *fmt; va_dcl #endif { DB_REAL_ERR(dbp->dbenv, 0, 0, 1, fmt); } /* * __db_get_byteswapped -- * Return if database requires byte swapping. */ static int __db_get_byteswapped(dbp, isswapped) DB *dbp; int *isswapped; { DB_ILLEGAL_BEFORE_OPEN(dbp, "DB->get_byteswapped"); *isswapped = F_ISSET(dbp, DB_AM_SWAP) ? 1 : 0; return (0); } /* * __db_get_dbname -- * Get the name of the database as passed to DB->open. */ static int __db_get_dbname(dbp, fnamep, dnamep) DB *dbp; const char **fnamep, **dnamep; { DB_ILLEGAL_BEFORE_OPEN(dbp, "DB->get_dbname"); if (fnamep != NULL) *fnamep = dbp->fname; if (dnamep != NULL) *dnamep = dbp->dname; return (0); } /* * __db_get_env -- * Get the DB_ENV handle that was passed to db_create. */ static int __db_get_env(dbp, dbenvp) DB *dbp; DB_ENV **dbenvp; { *dbenvp = dbp->dbenv; return (0); } /* * get_transactional -- * Get whether this database was created in a transaction. */ static int __db_get_transactional(dbp, istxnp) DB *dbp; int *istxnp; { DB_ILLEGAL_BEFORE_OPEN(dbp, "DB->get_transactional"); *istxnp = F_ISSET(dbp, DB_AM_TXN) ? 1 : 0; return (0); } /* * __db_get_type -- * Return type of underlying database. */ static int __db_get_type(dbp, dbtype) DB *dbp; DBTYPE *dbtype; { DB_ILLEGAL_BEFORE_OPEN(dbp, "DB->get_type"); *dbtype = dbp->type; return (0); } /* * __db_set_append_recno -- * Set record number append routine. */ static int __db_set_append_recno(dbp, func) DB *dbp; int (*func) __P((DB *, DBT *, db_recno_t)); { DB_ILLEGAL_AFTER_OPEN(dbp, "DB->set_append_recno"); DB_ILLEGAL_METHOD(dbp, DB_OK_QUEUE | DB_OK_RECNO); dbp->db_append_recno = func; return (0); } /* * __db_get_cachesize -- * Get underlying cache size. */ static int __db_get_cachesize(dbp, cache_gbytesp, cache_bytesp, ncachep) DB *dbp; u_int32_t *cache_gbytesp, *cache_bytesp; int *ncachep; { DB_ILLEGAL_IN_ENV(dbp, "DB->get_cachesize"); return (__memp_get_cachesize(dbp->dbenv, cache_gbytesp, cache_bytesp, ncachep)); } /* * __db_set_cachesize -- * Set underlying cache size. */ static int __db_set_cachesize(dbp, cache_gbytes, cache_bytes, ncache) DB *dbp; u_int32_t cache_gbytes, cache_bytes; int ncache; { DB_ILLEGAL_IN_ENV(dbp, "DB->set_cachesize"); DB_ILLEGAL_AFTER_OPEN(dbp, "DB->set_cachesize"); return (__memp_set_cachesize( dbp->dbenv, cache_gbytes, cache_bytes, ncache)); } /* * __db_set_dup_compare -- * Set duplicate comparison routine. */ static int __db_set_dup_compare(dbp, func) DB *dbp; int (*func) __P((DB *, const DBT *, const DBT *)); { int ret; DB_ILLEGAL_AFTER_OPEN(dbp, "DB->dup_compare"); DB_ILLEGAL_METHOD(dbp, DB_OK_BTREE | DB_OK_HASH); if ((ret = __db_set_flags(dbp, DB_DUPSORT)) != 0) return (ret); dbp->dup_compare = func; return (0); } /* * __db_get_encrypt_flags -- */ static int __db_get_encrypt_flags(dbp, flagsp) DB *dbp; u_int32_t *flagsp; { DB_ILLEGAL_IN_ENV(dbp, "DB->get_encrypt_flags"); return (__dbenv_get_encrypt_flags(dbp->dbenv, flagsp)); } /* * __db_set_encrypt -- * Set database passwd. */ static int __db_set_encrypt(dbp, passwd, flags) DB *dbp; const char *passwd; u_int32_t flags; { DB_CIPHER *db_cipher; int ret; DB_ILLEGAL_IN_ENV(dbp, "DB->set_encrypt"); DB_ILLEGAL_AFTER_OPEN(dbp, "DB->set_encrypt"); if ((ret = __dbenv_set_encrypt(dbp->dbenv, passwd, flags)) != 0) return (ret); /* * In a real env, this gets initialized with the region. In a local * env, we must do it here. */ db_cipher = (DB_CIPHER *)dbp->dbenv->crypto_handle; if (!F_ISSET(db_cipher, CIPHER_ANY) && (ret = db_cipher->init(dbp->dbenv, db_cipher)) != 0) return (ret); return (__db_set_flags(dbp, DB_ENCRYPT)); } static void __db_set_errcall(dbp, errcall) DB *dbp; void (*errcall) __P((const char *, char *)); { __dbenv_set_errcall(dbp->dbenv, errcall); } static void __db_get_errfile(dbp, errfilep) DB *dbp; FILE **errfilep; { __dbenv_get_errfile(dbp->dbenv, errfilep); } static void __db_set_errfile(dbp, errfile) DB *dbp; FILE *errfile; { __dbenv_set_errfile(dbp->dbenv, errfile); } static void __db_get_errpfx(dbp, errpfxp) DB *dbp; const char **errpfxp; { __dbenv_get_errpfx(dbp->dbenv, errpfxp); } static void __db_set_errpfx(dbp, errpfx) DB *dbp; const char *errpfx; { __dbenv_set_errpfx(dbp->dbenv, errpfx); } static int __db_set_feedback(dbp, feedback) DB *dbp; void (*feedback) __P((DB *, int, int)); { dbp->db_feedback = feedback; return (0); } /* * __db_map_flags -- * Maps between public and internal flag values. * This function doesn't check for validity, so it can't fail. */ static void __db_map_flags(dbp, inflagsp, outflagsp) DB *dbp; u_int32_t *inflagsp, *outflagsp; { COMPQUIET(dbp, NULL); if (FLD_ISSET(*inflagsp, DB_CHKSUM)) { FLD_SET(*outflagsp, DB_AM_CHKSUM); FLD_CLR(*inflagsp, DB_CHKSUM); } if (FLD_ISSET(*inflagsp, DB_ENCRYPT)) { FLD_SET(*outflagsp, DB_AM_ENCRYPT | DB_AM_CHKSUM); FLD_CLR(*inflagsp, DB_ENCRYPT); } if (FLD_ISSET(*inflagsp, DB_TXN_NOT_DURABLE)) { FLD_SET(*outflagsp, DB_AM_NOT_DURABLE); FLD_CLR(*inflagsp, DB_TXN_NOT_DURABLE); } } static int __db_get_flags(dbp, flagsp) DB *dbp; u_int32_t *flagsp; { static const u_int32_t db_flags[] = { DB_CHKSUM, DB_DUP, DB_DUPSORT, DB_ENCRYPT, DB_RECNUM, DB_RENUMBER, DB_REVSPLITOFF, DB_SNAPSHOT, DB_TXN_NOT_DURABLE, 0 }; u_int32_t f, flags, mapped_flag; int i; flags = 0; for (i = 0; (f = db_flags[i]) != 0; i++) { mapped_flag = 0; __db_map_flags(dbp, &f, &mapped_flag); __bam_map_flags(dbp, &f, &mapped_flag); __ram_map_flags(dbp, &f, &mapped_flag); DB_ASSERT(f == 0); if (F_ISSET(dbp, mapped_flag) == mapped_flag) LF_SET(db_flags[i]); } *flagsp = flags; return (0); } /* * __db_set_flags -- * DB->set_flags. * * PUBLIC: int __db_set_flags __P((DB *, u_int32_t)); */ int __db_set_flags(dbp, flags) DB *dbp; u_int32_t flags; { DB_ENV *dbenv; int ret; dbenv = dbp->dbenv; if (LF_ISSET(DB_ENCRYPT) && !CRYPTO_ON(dbenv)) { __db_err(dbenv, "Database environment not configured for encryption"); return (EINVAL); } if (LF_ISSET(DB_TXN_NOT_DURABLE)) ENV_REQUIRES_CONFIG(dbenv, dbenv->tx_handle, "DB_NOT_DURABLE", DB_INIT_TXN); __db_map_flags(dbp, &flags, &dbp->flags); if ((ret = __bam_set_flags(dbp, &flags)) != 0) return (ret); if ((ret = __ram_set_flags(dbp, &flags)) != 0) return (ret); return (flags == 0 ? 0 : __db_ferr(dbenv, "DB->set_flags", 0)); } /* * __db_get_lorder -- * Get whether lorder is swapped or not. */ static int __db_get_lorder(dbp, db_lorderp) DB *dbp; int *db_lorderp; { int ret; /* Flag if the specified byte order requires swapping. */ switch (ret = __db_byteorder(dbp->dbenv, 1234)) { case 0: *db_lorderp = F_ISSET(dbp, DB_AM_SWAP) ? 4321 : 1234; break; case DB_SWAPBYTES: *db_lorderp = F_ISSET(dbp, DB_AM_SWAP) ? 1234 : 4321; break; default: return (ret); /* NOTREACHED */ } return (0); } /* * __db_set_lorder -- * Set whether lorder is swapped or not. * * PUBLIC: int __db_set_lorder __P((DB *, int)); */ int __db_set_lorder(dbp, db_lorder) DB *dbp; int db_lorder; { int ret; DB_ILLEGAL_AFTER_OPEN(dbp, "DB->set_lorder"); /* Flag if the specified byte order requires swapping. */ switch (ret = __db_byteorder(dbp->dbenv, db_lorder)) { case 0: F_CLR(dbp, DB_AM_SWAP); break; case DB_SWAPBYTES: F_SET(dbp, DB_AM_SWAP); break; default: return (ret); /* NOTREACHED */ } return (0); } static int __db_set_alloc(dbp, mal_func, real_func, free_func) DB *dbp; void *(*mal_func) __P((size_t)); void *(*real_func) __P((void *, size_t)); void (*free_func) __P((void *)); { DB_ILLEGAL_IN_ENV(dbp, "DB->set_alloc"); DB_ILLEGAL_AFTER_OPEN(dbp, "DB->set_alloc"); return (__dbenv_set_alloc(dbp->dbenv, mal_func, real_func, free_func)); } static int __db_get_pagesize(dbp, db_pagesizep) DB *dbp; u_int32_t *db_pagesizep; { *db_pagesizep = dbp->pgsize; return (0); } /* * __db_set_pagesize -- * DB->set_pagesize * * PUBLIC: int __db_set_pagesize __P((DB *, u_int32_t)); */ int __db_set_pagesize(dbp, db_pagesize) DB *dbp; u_int32_t db_pagesize; { DB_ILLEGAL_AFTER_OPEN(dbp, "DB->set_pagesize"); if (db_pagesize < DB_MIN_PGSIZE) { __db_err(dbp->dbenv, "page sizes may not be smaller than %lu", (u_long)DB_MIN_PGSIZE); return (EINVAL); } if (db_pagesize > DB_MAX_PGSIZE) { __db_err(dbp->dbenv, "page sizes may not be larger than %lu", (u_long)DB_MAX_PGSIZE); return (EINVAL); } /* * We don't want anything that's not a power-of-2, as we rely on that * for alignment of various types on the pages. */ if (!POWER_OF_TWO(db_pagesize)) { __db_err(dbp->dbenv, "page sizes must be a power-of-2"); return (EINVAL); } /* * XXX * Should we be checking for a page size that's not a multiple of 512, * so that we never try and write less than a disk sector? */ dbp->pgsize = db_pagesize; return (0); } static int __db_set_paniccall(dbp, paniccall) DB *dbp; void (*paniccall) __P((DB_ENV *, int)); { return (__dbenv_set_paniccall(dbp->dbenv, paniccall)); } #ifdef HAVE_RPC /* * __dbcl_init -- * Initialize a DB structure on the server. */ static int __dbcl_init(dbp, dbenv, flags) DB *dbp; DB_ENV *dbenv; u_int32_t flags; { TAILQ_INIT(&dbp->free_queue); TAILQ_INIT(&dbp->active_queue); /* !!! * Note that we don't need to initialize the join_queue; it's * not used in RPC clients. See the comment in __dbcl_db_join_ret(). */ dbp->associate = __dbcl_db_associate; dbp->close = __dbcl_db_close; dbp->cursor = __dbcl_db_cursor; dbp->del = __dbcl_db_del; dbp->err = __dbh_err; dbp->errx = __dbh_errx; dbp->fd = __dbcl_db_fd; dbp->get = __dbcl_db_get; dbp->get_byteswapped = __db_get_byteswapped; dbp->get_transactional = __db_get_transactional; dbp->get_type = __db_get_type; dbp->join = __dbcl_db_join; dbp->key_range = __dbcl_db_key_range; dbp->get_dbname = __dbcl_db_get_name; dbp->get_open_flags = __dbcl_db_get_open_flags; dbp->open = __dbcl_db_open_wrap; dbp->pget = __dbcl_db_pget; dbp->put = __dbcl_db_put; dbp->remove = __dbcl_db_remove; dbp->rename = __dbcl_db_rename; dbp->set_alloc = __dbcl_db_alloc; dbp->set_append_recno = __dbcl_db_set_append_recno; dbp->get_cachesize = __dbcl_db_get_cachesize; dbp->set_cachesize = __dbcl_db_cachesize; dbp->set_dup_compare = __dbcl_db_dup_compare; dbp->get_encrypt_flags = __dbcl_db_get_encrypt_flags; dbp->set_encrypt = __dbcl_db_encrypt; dbp->set_errcall = __db_set_errcall; dbp->get_errfile = __db_get_errfile; dbp->set_errfile = __db_set_errfile; dbp->get_errpfx = __db_get_errpfx; dbp->set_errpfx = __db_set_errpfx; dbp->set_feedback = __dbcl_db_feedback; dbp->get_flags = __dbcl_db_get_flags; dbp->set_flags = __dbcl_db_flags; dbp->get_lorder = __dbcl_db_get_lorder; dbp->set_lorder = __dbcl_db_lorder; dbp->get_pagesize = __dbcl_db_get_pagesize; dbp->set_pagesize = __dbcl_db_pagesize; dbp->set_paniccall = __dbcl_db_panic; dbp->stat = __dbcl_db_stat; dbp->sync = __dbcl_db_sync; dbp->truncate = __dbcl_db_truncate; dbp->upgrade = __dbcl_db_upgrade; dbp->verify = __dbcl_db_verify; /* * Set all the method specific functions to client funcs as well. */ dbp->set_bt_compare = __dbcl_db_bt_compare; dbp->set_bt_maxkey = __dbcl_db_bt_maxkey; dbp->get_bt_minkey = __dbcl_db_get_bt_minkey; dbp->set_bt_minkey = __dbcl_db_bt_minkey; dbp->set_bt_prefix = __dbcl_db_bt_prefix; dbp->get_h_ffactor = __dbcl_db_get_h_ffactor; dbp->set_h_ffactor = __dbcl_db_h_ffactor; dbp->set_h_hash = __dbcl_db_h_hash; dbp->get_h_nelem = __dbcl_db_get_h_nelem; dbp->set_h_nelem = __dbcl_db_h_nelem; dbp->get_q_extentsize = __dbcl_db_get_extentsize; dbp->set_q_extentsize = __dbcl_db_extentsize; dbp->get_re_delim = __dbcl_db_get_re_delim; dbp->set_re_delim = __dbcl_db_re_delim; dbp->get_re_len = __dbcl_db_get_re_len; dbp->set_re_len = __dbcl_db_re_len; dbp->get_re_pad = __dbcl_db_get_re_pad; dbp->set_re_pad = __dbcl_db_re_pad; dbp->get_re_source = __dbcl_db_get_re_source; dbp->set_re_source = __dbcl_db_re_source; return (__dbcl_db_create(dbp, dbenv, flags)); } #endif