/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996-2002 * Sleepycat Software. All rights reserved. */ #include "db_config.h" #ifndef lint static const char revid[] = "$Id: db_iface.c,v 1.1.1.1 2003/11/20 22:13:13 toshok Exp $"; #endif /* not lint */ #ifndef NO_SYSTEM_INCLUDES #include #endif #include "db_int.h" #include "dbinc/db_page.h" #include "dbinc/db_am.h" static int __db_curinval __P((const DB_ENV *)); static int __db_fnl __P((const DB_ENV *, const char *)); static int __db_rdonly __P((const DB_ENV *, const char *)); static int __dbt_ferr __P((const DB *, const char *, const DBT *, int)); /* * A database should be required to be readonly if it's been explicitly * specified as such or if we're a client in a replicated environment and * we don't have the special "client-writer" designation. */ #define IS_READONLY(dbp) \ (F_ISSET(dbp, DB_AM_RDONLY) || \ (F_ISSET((dbp)->dbenv, DB_ENV_REP_CLIENT) && \ !F_ISSET((dbp), DB_AM_CL_WRITER))) /* * __db_cursorchk -- * Common cursor argument checking routine. * * PUBLIC: int __db_cursorchk __P((const DB *, u_int32_t)); */ int __db_cursorchk(dbp, flags) const DB *dbp; u_int32_t flags; { /* DB_DIRTY_READ is the only valid bit-flag and requires locking. */ if (LF_ISSET(DB_DIRTY_READ)) { if (!LOCKING_ON(dbp->dbenv)) return (__db_fnl(dbp->dbenv, "DB->cursor")); LF_CLR(DB_DIRTY_READ); } /* Check for invalid function flags. */ switch (flags) { case 0: break; case DB_WRITECURSOR: if (IS_READONLY(dbp)) return (__db_rdonly(dbp->dbenv, "DB->cursor")); if (!CDB_LOCKING(dbp->dbenv)) return (__db_ferr(dbp->dbenv, "DB->cursor", 0)); break; case DB_WRITELOCK: if (IS_READONLY(dbp)) return (__db_rdonly(dbp->dbenv, "DB->cursor")); break; default: return (__db_ferr(dbp->dbenv, "DB->cursor", 0)); } return (0); } /* * __db_ccountchk -- * Common cursor count argument checking routine. * * PUBLIC: int __db_ccountchk __P((const DB *, u_int32_t, int)); */ int __db_ccountchk(dbp, flags, isvalid) const DB *dbp; u_int32_t flags; int isvalid; { /* Check for invalid function flags. */ switch (flags) { case 0: break; default: return (__db_ferr(dbp->dbenv, "DBcursor->c_count", 0)); } /* * The cursor must be initialized, return EINVAL for an invalid cursor, * otherwise 0. */ return (isvalid ? 0 : __db_curinval(dbp->dbenv)); } /* * __db_cdelchk -- * Common cursor delete argument checking routine. * * PUBLIC: int __db_cdelchk __P((const DB *, u_int32_t, int)); */ int __db_cdelchk(dbp, flags, isvalid) const DB *dbp; u_int32_t flags; int isvalid; { /* Check for changes to a read-only tree. */ if (IS_READONLY(dbp)) return (__db_rdonly(dbp->dbenv, "c_del")); /* Check for invalid function flags. */ switch (flags) { case 0: break; case DB_UPDATE_SECONDARY: DB_ASSERT(F_ISSET(dbp, DB_AM_SECONDARY)); break; default: return (__db_ferr(dbp->dbenv, "DBcursor->c_del", 0)); } /* * The cursor must be initialized, return EINVAL for an invalid cursor, * otherwise 0. */ return (isvalid ? 0 : __db_curinval(dbp->dbenv)); } /* * __db_cgetchk -- * Common cursor get argument checking routine. * * PUBLIC: int __db_cgetchk __P((const DB *, DBT *, DBT *, u_int32_t, int)); */ int __db_cgetchk(dbp, key, data, flags, isvalid) const DB *dbp; DBT *key, *data; u_int32_t flags; int isvalid; { int dirty, multi, ret; /* * Check for read-modify-write validity. DB_RMW doesn't make sense * with CDB cursors since if you're going to write the cursor, you * had to create it with DB_WRITECURSOR. Regardless, we check for * LOCKING_ON and not STD_LOCKING, as we don't want to disallow it. * If this changes, confirm that DB does not itself set the DB_RMW * flag in a path where CDB may have been configured. */ dirty = 0; if (LF_ISSET(DB_DIRTY_READ | DB_RMW)) { if (!LOCKING_ON(dbp->dbenv)) return (__db_fnl(dbp->dbenv, "DBcursor->c_get")); if (LF_ISSET(DB_DIRTY_READ)) dirty = 1; LF_CLR(DB_DIRTY_READ | DB_RMW); } multi = 0; if (LF_ISSET(DB_MULTIPLE | DB_MULTIPLE_KEY)) { multi = 1; if (LF_ISSET(DB_MULTIPLE) && LF_ISSET(DB_MULTIPLE_KEY)) goto multi_err; LF_CLR(DB_MULTIPLE | DB_MULTIPLE_KEY); } /* Check for invalid function flags. */ switch (flags) { case DB_CONSUME: case DB_CONSUME_WAIT: if (dirty) { __db_err(dbp->dbenv, "DB_DIRTY_READ is not supported with DB_CONSUME or DB_CONSUME_WAIT"); return (EINVAL); } if (dbp->type != DB_QUEUE) goto err; break; case DB_CURRENT: case DB_FIRST: case DB_GET_BOTH: case DB_GET_BOTH_RANGE: case DB_NEXT: case DB_NEXT_DUP: case DB_NEXT_NODUP: case DB_SET: case DB_SET_RANGE: break; case DB_LAST: case DB_PREV: case DB_PREV_NODUP: if (multi) multi_err: return (__db_ferr(dbp->dbenv, "DBcursor->c_get", 1)); break; case DB_GET_BOTHC: if (dbp->type == DB_QUEUE) goto err; break; case DB_GET_RECNO: /* * The one situation in which this might be legal with a * non-RECNUM dbp is if dbp is a secondary and its primary is * DB_AM_RECNUM. */ if (!F_ISSET(dbp, DB_AM_RECNUM) && (!F_ISSET(dbp, DB_AM_SECONDARY) || !F_ISSET(dbp->s_primary, DB_AM_RECNUM))) goto err; break; case DB_SET_RECNO: if (!F_ISSET(dbp, DB_AM_RECNUM)) goto err; break; default: err: return (__db_ferr(dbp->dbenv, "DBcursor->c_get", 0)); } /* Check for invalid key/data flags. */ if ((ret = __dbt_ferr(dbp, "key", key, 0)) != 0) return (ret); if ((ret = __dbt_ferr(dbp, "data", data, 0)) != 0) return (ret); if (multi && !F_ISSET(data, DB_DBT_USERMEM)) { __db_err(dbp->dbenv, "DB_MULTIPLE(_KEY) requires that DB_DBT_USERMEM be set"); return (EINVAL); } if (multi && (F_ISSET(key, DB_DBT_PARTIAL) || F_ISSET(data, DB_DBT_PARTIAL))) { __db_err(dbp->dbenv, "DB_DBT_PARTIAL forbidden with DB_MULTIPLE(_KEY)"); return (EINVAL); } /* * The cursor must be initialized for DB_CURRENT, DB_GET_RECNO and * DB_NEXT_DUP. Return EINVAL for an invalid cursor, otherwise 0. */ if (isvalid || (flags != DB_CURRENT && flags != DB_GET_RECNO && flags != DB_NEXT_DUP)) return (0); return (__db_curinval(dbp->dbenv)); } /* * __db_cputchk -- * Common cursor put argument checking routine. * * PUBLIC: int __db_cputchk __P((const DB *, * PUBLIC: const DBT *, DBT *, u_int32_t, int)); */ int __db_cputchk(dbp, key, data, flags, isvalid) const DB *dbp; const DBT *key; DBT *data; u_int32_t flags; int isvalid; { int key_flags, ret; key_flags = 0; /* Check for changes to a read-only tree. */ if (IS_READONLY(dbp)) return (__db_rdonly(dbp->dbenv, "c_put")); /* Check for puts on a secondary. */ if (F_ISSET(dbp, DB_AM_SECONDARY)) { if (flags == DB_UPDATE_SECONDARY) flags = DB_KEYLAST; else { __db_err(dbp->dbenv, "DBcursor->c_put forbidden on secondary indices"); return (EINVAL); } } /* Check for invalid function flags. */ switch (flags) { case DB_AFTER: case DB_BEFORE: switch (dbp->type) { case DB_BTREE: case DB_HASH: /* Only with unsorted duplicates. */ if (!F_ISSET(dbp, DB_AM_DUP)) goto err; if (dbp->dup_compare != NULL) goto err; break; case DB_QUEUE: /* Not permitted. */ goto err; case DB_RECNO: /* Only with mutable record numbers. */ if (!F_ISSET(dbp, DB_AM_RENUMBER)) goto err; key_flags = 1; break; default: goto err; } break; case DB_CURRENT: /* * If there is a comparison function, doing a DB_CURRENT * must not change the part of the data item that is used * for the comparison. */ break; case DB_NODUPDATA: if (!F_ISSET(dbp, DB_AM_DUPSORT)) goto err; /* FALLTHROUGH */ case DB_KEYFIRST: case DB_KEYLAST: key_flags = 1; break; default: err: return (__db_ferr(dbp->dbenv, "DBcursor->c_put", 0)); } /* Check for invalid key/data flags. */ if (key_flags && (ret = __dbt_ferr(dbp, "key", key, 0)) != 0) return (ret); if ((ret = __dbt_ferr(dbp, "data", data, 0)) != 0) return (ret); /* * The cursor must be initialized for anything other than DB_KEYFIRST * and DB_KEYLAST, return EINVAL for an invalid cursor, otherwise 0. */ if (isvalid || flags == DB_KEYFIRST || flags == DB_KEYLAST || flags == DB_NODUPDATA) return (0); return (__db_curinval(dbp->dbenv)); } /* * __db_pgetchk -- * DB->pget flag check. * * PUBLIC: int __db_pgetchk __P((const DB *, const DBT *, DBT *, DBT *, * PUBLIC: u_int32_t)); */ int __db_pgetchk(dbp, skey, pkey, data, flags) const DB *dbp; const DBT *skey; DBT *pkey, *data; u_int32_t flags; { int ret; u_int32_t save_flags; save_flags = flags; if (!F_ISSET(dbp, DB_AM_SECONDARY)) { __db_err(dbp->dbenv, "DB->pget may only be used on secondary indices"); return (EINVAL); } if (LF_ISSET(DB_MULTIPLE | DB_MULTIPLE_KEY)) { __db_err(dbp->dbenv, "DB_MULTIPLE and DB_MULTIPLE_KEY may not be used on secondary indices"); return (EINVAL); } /* DB_CONSUME makes no sense on a secondary index. */ LF_CLR(DB_RMW); switch (flags) { case DB_CONSUME: case DB_CONSUME_WAIT: return (__db_ferr(dbp->dbenv, "DB->pget", 0)); default: /* __db_getchk will catch the rest. */ break; } /* * We allow the pkey field to be NULL, so that we can make the * two-DBT get calls into wrappers for the three-DBT ones. */ if (pkey != NULL && (ret = __dbt_ferr(dbp, "primary key", pkey, 1)) != 0) return (ret); /* But the pkey field can't be NULL if we're doing a DB_GET_BOTH. */ if (pkey == NULL && flags == DB_GET_BOTH) { __db_err(dbp->dbenv, "DB_GET_BOTH on a secondary index requires a primary key"); return (EINVAL); } return (__db_getchk(dbp, skey, data, save_flags)); } /* * __db_cpgetchk -- * Secondary-index cursor get argument checking routine. * * PUBLIC: int __db_cpgetchk __P((const DB *, * PUBLIC: DBT *, DBT *, DBT *, u_int32_t, int)); */ int __db_cpgetchk(dbp, skey, pkey, data, flags, isvalid) const DB *dbp; DBT *skey, *pkey, *data; u_int32_t flags; int isvalid; { int ret; u_int32_t save_flags; save_flags = flags; if (!F_ISSET(dbp, DB_AM_SECONDARY)) { __db_err(dbp->dbenv, "DBcursor->c_pget may only be used on secondary indices"); return (EINVAL); } if (LF_ISSET(DB_MULTIPLE | DB_MULTIPLE_KEY)) { __db_err(dbp->dbenv, "DB_MULTIPLE and DB_MULTIPLE_KEY may not be used on secondary indices"); return (EINVAL); } LF_CLR(DB_RMW); switch (flags) { case DB_CONSUME: case DB_CONSUME_WAIT: /* DB_CONSUME makes no sense on a secondary index. */ return (__db_ferr(dbp->dbenv, "DBcursor->c_pget", 0)); case DB_GET_BOTH: /* DB_GET_BOTH is "get both the primary and the secondary". */ if (pkey == NULL) { __db_err(dbp->dbenv, "DB_GET_BOTH requires both a secondary and a primary key"); return (EINVAL); } break; default: /* __db_cgetchk will catch the rest. */ break; } /* * We allow the pkey field to be NULL, so that we can make the * two-DBT get calls into wrappers for the three-DBT ones. */ if (pkey != NULL && (ret = __dbt_ferr(dbp, "primary key", pkey, 0)) != 0) return (ret); /* But the pkey field can't be NULL if we're doing a DB_GET_BOTH. */ if (pkey == NULL && flags == DB_GET_BOTH) { __db_err(dbp->dbenv, "DB_GET_BOTH on a secondary index requires a primary key"); return (EINVAL); } return (__db_cgetchk(dbp, skey, data, save_flags, isvalid)); } /* * __db_delchk -- * Common delete argument checking routine. * * PUBLIC: int __db_delchk __P((const DB *, DBT *, u_int32_t)); */ int __db_delchk(dbp, key, flags) const DB *dbp; DBT *key; u_int32_t flags; { COMPQUIET(key, NULL); /* Check for changes to a read-only tree. */ if (IS_READONLY(dbp)) return (__db_rdonly(dbp->dbenv, "delete")); /* Check for invalid function flags. */ LF_CLR(DB_AUTO_COMMIT); switch (flags) { case 0: break; default: return (__db_ferr(dbp->dbenv, "DB->del", 0)); } return (0); } /* * __db_getchk -- * Common get argument checking routine. * * PUBLIC: int __db_getchk __P((const DB *, const DBT *, DBT *, u_int32_t)); */ int __db_getchk(dbp, key, data, flags) const DB *dbp; const DBT *key; DBT *data; u_int32_t flags; { int dirty, multi, ret; /* * Check for read-modify-write validity. DB_RMW doesn't make sense * with CDB cursors since if you're going to write the cursor, you * had to create it with DB_WRITECURSOR. Regardless, we check for * LOCKING_ON and not STD_LOCKING, as we don't want to disallow it. * If this changes, confirm that DB does not itself set the DB_RMW * flag in a path where CDB may have been configured. */ dirty = 0; if (LF_ISSET(DB_DIRTY_READ | DB_RMW)) { if (!LOCKING_ON(dbp->dbenv)) return (__db_fnl(dbp->dbenv, "DB->get")); if (LF_ISSET(DB_DIRTY_READ)) dirty = 1; LF_CLR(DB_DIRTY_READ | DB_RMW); } multi = 0; if (LF_ISSET(DB_MULTIPLE | DB_MULTIPLE_KEY)) { if (LF_ISSET(DB_MULTIPLE_KEY)) goto multi_err; multi = LF_ISSET(DB_MULTIPLE) ? 1 : 0; LF_CLR(DB_MULTIPLE); } /* Check for invalid function flags. */ switch (flags) { case 0: case DB_GET_BOTH: break; case DB_SET_RECNO: if (!F_ISSET(dbp, DB_AM_RECNUM)) goto err; break; case DB_CONSUME: case DB_CONSUME_WAIT: if (dirty) { __db_err(dbp->dbenv, "DB_DIRTY_READ is not supported with DB_CONSUME or DB_CONSUME_WAIT"); return (EINVAL); } if (multi) multi_err: return (__db_ferr(dbp->dbenv, "DB->get", 1)); if (dbp->type == DB_QUEUE) break; /* FALLTHROUGH */ default: err: return (__db_ferr(dbp->dbenv, "DB->get", 0)); } /* * Check for invalid key/data flags. * * XXX: Dave Krinsky * Remember to modify this when we fix the flag-returning problem. */ if ((ret = __dbt_ferr(dbp, "key", key, flags == DB_SET_RECNO)) != 0) return (ret); if ((ret = __dbt_ferr(dbp, "data", data, 1)) != 0) return (ret); if (multi && !F_ISSET(data, DB_DBT_USERMEM)) { __db_err(dbp->dbenv, "DB_MULTIPLE requires that DB_DBT_USERMEM be set"); return (EINVAL); } if (multi && (F_ISSET(key, DB_DBT_PARTIAL) || F_ISSET(data, DB_DBT_PARTIAL))) { __db_err(dbp->dbenv, "DB_DBT_PARTIAL forbidden with DB_MULTIPLE(_KEY)"); return (EINVAL); } return (0); } /* * __db_joinchk -- * Common join argument checking routine. * * PUBLIC: int __db_joinchk __P((const DB *, DBC * const *, u_int32_t)); */ int __db_joinchk(dbp, curslist, flags) const DB *dbp; DBC * const *curslist; u_int32_t flags; { DB_TXN *txn; int i; switch (flags) { case 0: case DB_JOIN_NOSORT: break; default: return (__db_ferr(dbp->dbenv, "DB->join", 0)); } if (curslist == NULL || curslist[0] == NULL) { __db_err(dbp->dbenv, "At least one secondary cursor must be specified to DB->join"); return (EINVAL); } txn = curslist[0]->txn; for (i = 1; curslist[i] != NULL; i++) if (curslist[i]->txn != txn) { __db_err(dbp->dbenv, "All secondary cursors must share the same transaction"); return (EINVAL); } return (0); } /* * __db_joingetchk -- * Common join_get argument checking routine. * * PUBLIC: int __db_joingetchk __P((const DB *, DBT *, u_int32_t)); */ int __db_joingetchk(dbp, key, flags) const DB *dbp; DBT *key; u_int32_t flags; { if (LF_ISSET(DB_DIRTY_READ | DB_RMW)) { if (!LOCKING_ON(dbp->dbenv)) return (__db_fnl(dbp->dbenv, "DBcursor->c_get")); LF_CLR(DB_DIRTY_READ | DB_RMW); } switch (flags) { case 0: case DB_JOIN_ITEM: break; default: return (__db_ferr(dbp->dbenv, "DBcursor->c_get", 0)); } /* * A partial get of the key of a join cursor don't make much sense; * the entire key is necessary to query the primary database * and find the datum, and so regardless of the size of the key * it would not be a performance improvement. Since it would require * special handling, we simply disallow it. * * A partial get of the data, however, potentially makes sense (if * all possible data are a predictable large structure, for instance) * and causes us no headaches, so we permit it. */ if (F_ISSET(key, DB_DBT_PARTIAL)) { __db_err(dbp->dbenv, "DB_DBT_PARTIAL may not be set on key during join_get"); return (EINVAL); } return (0); } /* * __db_putchk -- * Common put argument checking routine. * * PUBLIC: int __db_putchk * PUBLIC: __P((const DB *, DBT *, const DBT *, u_int32_t, int)); */ int __db_putchk(dbp, key, data, flags, isdup) const DB *dbp; DBT *key; const DBT *data; u_int32_t flags; int isdup; { int ret, returnkey; returnkey = 0; /* Check for changes to a read-only tree. */ if (IS_READONLY(dbp)) return (__db_rdonly(dbp->dbenv, "put")); /* Check for puts on a secondary. */ if (F_ISSET(dbp, DB_AM_SECONDARY)) { __db_err(dbp->dbenv, "DB->put forbidden on secondary indices"); return (EINVAL); } /* Check for invalid function flags. */ LF_CLR(DB_AUTO_COMMIT); switch (flags) { case 0: case DB_NOOVERWRITE: break; case DB_APPEND: if (dbp->type != DB_RECNO && dbp->type != DB_QUEUE) goto err; returnkey = 1; break; case DB_NODUPDATA: if (F_ISSET(dbp, DB_AM_DUPSORT)) break; /* FALLTHROUGH */ default: err: return (__db_ferr(dbp->dbenv, "DB->put", 0)); } /* Check for invalid key/data flags. */ if ((ret = __dbt_ferr(dbp, "key", key, returnkey)) != 0) return (ret); if ((ret = __dbt_ferr(dbp, "data", data, 0)) != 0) return (ret); /* Check for partial puts in the presence of duplicates. */ if (isdup && F_ISSET(data, DB_DBT_PARTIAL)) { __db_err(dbp->dbenv, "a partial put in the presence of duplicates requires a cursor operation"); return (EINVAL); } return (0); } /* * __db_statchk -- * Common stat argument checking routine. * * PUBLIC: int __db_statchk __P((const DB *, u_int32_t)); */ int __db_statchk(dbp, flags) const DB *dbp; u_int32_t flags; { /* Check for invalid function flags. */ switch (flags) { case 0: case DB_FAST_STAT: case DB_CACHED_COUNTS: /* Deprecated and undocumented. */ break; case DB_RECORDCOUNT: /* Deprecated and undocumented. */ if (dbp->type == DB_RECNO) break; if (dbp->type == DB_BTREE && F_ISSET(dbp, DB_AM_RECNUM)) break; goto err; default: err: return (__db_ferr(dbp->dbenv, "DB->stat", 0)); } return (0); } /* * __db_syncchk -- * Common sync argument checking routine. * * PUBLIC: int __db_syncchk __P((const DB *, u_int32_t)); */ int __db_syncchk(dbp, flags) const DB *dbp; u_int32_t flags; { /* Check for invalid function flags. */ switch (flags) { case 0: break; default: return (__db_ferr(dbp->dbenv, "DB->sync", 0)); } return (0); } /* * __dbt_ferr -- * Check a DBT for flag errors. */ static int __dbt_ferr(dbp, name, dbt, check_thread) const DB *dbp; const char *name; const DBT *dbt; int check_thread; { DB_ENV *dbenv; int ret; dbenv = dbp->dbenv; /* * Check for invalid DBT flags. We allow any of the flags to be * specified to any DB or DBcursor call so that applications can * set DB_DBT_MALLOC when retrieving a data item from a secondary * database and then specify that same DBT as a key to a primary * database, without having to clear flags. */ if ((ret = __db_fchk(dbenv, name, dbt->flags, DB_DBT_APPMALLOC | DB_DBT_MALLOC | DB_DBT_DUPOK | DB_DBT_REALLOC | DB_DBT_USERMEM | DB_DBT_PARTIAL)) != 0) return (ret); switch (F_ISSET(dbt, DB_DBT_MALLOC | DB_DBT_REALLOC | DB_DBT_USERMEM)) { case 0: case DB_DBT_MALLOC: case DB_DBT_REALLOC: case DB_DBT_USERMEM: break; default: return (__db_ferr(dbenv, name, 1)); } if (check_thread && DB_IS_THREADED(dbp) && !F_ISSET(dbt, DB_DBT_MALLOC | DB_DBT_REALLOC | DB_DBT_USERMEM)) { __db_err(dbenv, "DB_THREAD mandates memory allocation flag on DBT %s", name); return (EINVAL); } return (0); } /* * __db_rdonly -- * Common readonly message. */ static int __db_rdonly(dbenv, name) const DB_ENV *dbenv; const char *name; { __db_err(dbenv, "%s: attempt to modify a read-only tree", name); return (EACCES); } /* * __db_fnl -- * Common flag-needs-locking message. */ static int __db_fnl(dbenv, name) const DB_ENV *dbenv; const char *name; { __db_err(dbenv, "%s: the DB_DIRTY_READ and DB_RMW flags require locking", name); return (EINVAL); } /* * __db_curinval * Report that a cursor is in an invalid state. */ static int __db_curinval(dbenv) const DB_ENV *dbenv; { __db_err(dbenv, "Cursor position must be set before performing this operation"); return (EINVAL); } /* * __db_secondary_corrupt -- * Report that a secondary index appears corrupt, as it has a record * that does not correspond to a record in the primary. * * PUBLIC: int __db_secondary_corrupt __P((DB *)); */ int __db_secondary_corrupt(dbp) DB *dbp; { __db_err(dbp->dbenv, "Secondary index corrupt: item in secondary not found in primary"); return (DB_SECONDARY_BAD); } /* * __db_associatechk -- * Argument checking routine for DB->associate(). * * PUBLIC: int __db_associatechk __P((DB *, DB *, * PUBLIC: int (*)(DB *, const DBT *, const DBT *, DBT *), u_int32_t)); */ int __db_associatechk(dbp, sdbp, callback, flags) DB *dbp, *sdbp; int (*callback) __P((DB *, const DBT *, const DBT *, DBT *)); u_int32_t flags; { DB_ENV *dbenv; dbenv = dbp->dbenv; if (F_ISSET(sdbp, DB_AM_SECONDARY)) { __db_err(dbenv, "Secondary index handles may not be re-associated"); return (EINVAL); } if (F_ISSET(dbp, DB_AM_SECONDARY)) { __db_err(dbenv, "Secondary indices may not be used as primary databases"); return (EINVAL); } if (F_ISSET(dbp, DB_AM_DUP)) { __db_err(dbenv, "Primary databases may not be configured with duplicates"); return (EINVAL); } if (F_ISSET(dbp, DB_AM_RENUMBER)) { __db_err(dbenv, "Renumbering recno databases may not be used as primary databases"); return (EINVAL); } if (callback == NULL && (!F_ISSET(dbp, DB_AM_RDONLY) || !F_ISSET(sdbp, DB_AM_RDONLY))) { __db_err(dbenv, "Callback function may be NULL only when database handles are read-only"); return (EINVAL); } return (__db_fchk(dbenv, "DB->associate", flags, DB_CREATE | DB_AUTO_COMMIT)); } /* * __db_txn_auto -- * Handle DB_AUTO_COMMIT initialization. * * PUBLIC: int __db_txn_auto __P((DB *, DB_TXN **)); */ int __db_txn_auto(dbp, txnidp) DB *dbp; DB_TXN **txnidp; { DB_ENV *dbenv; dbenv = dbp->dbenv; if (*txnidp != NULL) { __db_err(dbenv, "DB_AUTO_COMMIT may not be specified along with a transaction handle"); return (EINVAL); } if (!TXN_ON(dbenv)) { __db_err(dbenv, "DB_AUTO_COMMIT may not be specified in non-transactional environment"); return (EINVAL); } return (dbenv->txn_begin(dbenv, NULL, txnidp, 0)); }