/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996, 1997, 1998, 1999, 2000 * Sleepycat Software. All rights reserved. */ /* * Copyright (c) 1990, 1993, 1994 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Margo Seltzer. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "db_config.h" #ifndef lint static const char revid[] = "$Id: hash_dup.c,v 11.49 2000/12/21 21:54:35 margo Exp $"; #endif /* not lint */ /* * PACKAGE: hashing * * DESCRIPTION: * Manipulation of duplicates for the hash package. * * ROUTINES: * * External * __add_dup * Internal */ #ifndef NO_SYSTEM_INCLUDES #include #include #endif #include "db_int.h" #include "db_page.h" #include "hash.h" #include "btree.h" #include "txn.h" static int __ham_check_move __P((DBC *, u_int32_t)); static int __ham_dcursor __P((DBC *, db_pgno_t, u_int32_t)); /* * Called from hash_access to add a duplicate key. nval is the new * value that we want to add. The flags correspond to the flag values * to cursor_put indicating where to add the new element. * There are 4 cases. * Case 1: The existing duplicate set already resides on a separate page. * We return and let the common code handle this. * Case 2: The element is small enough to just be added to the existing set. * Case 3: The element is large enough to be a big item, so we're going to * have to push the set onto a new page. * Case 4: The element is large enough to push the duplicate set onto a * separate page. * * PUBLIC: int __ham_add_dup __P((DBC *, DBT *, u_int32_t, db_pgno_t *)); */ int __ham_add_dup(dbc, nval, flags, pgnop) DBC *dbc; DBT *nval; u_int32_t flags; db_pgno_t *pgnop; { DB *dbp; HASH_CURSOR *hcp; DBT pval, tmp_val; u_int32_t add_bytes, new_size; int cmp, ret; u_int8_t *hk; dbp = dbc->dbp; hcp = (HASH_CURSOR *)dbc->internal; DB_ASSERT(flags != DB_CURRENT); add_bytes = nval->size + (F_ISSET(nval, DB_DBT_PARTIAL) ? nval->doff : 0); add_bytes = DUP_SIZE(add_bytes); if ((ret = __ham_check_move(dbc, add_bytes)) != 0) return (ret); /* * Check if resulting duplicate set is going to need to go * onto a separate duplicate page. If so, convert the * duplicate set and add the new one. After conversion, * hcp->dndx is the first free ndx or the index of the * current pointer into the duplicate set. */ hk = H_PAIRDATA(hcp->page, hcp->indx); /* Add the len bytes to the current singleton. */ if (HPAGE_PTYPE(hk) != H_DUPLICATE) add_bytes += DUP_SIZE(0); new_size = LEN_HKEYDATA(hcp->page, dbp->pgsize, H_DATAINDEX(hcp->indx)) + add_bytes; /* * We convert to off-page duplicates if the item is a big item, * the addition of the new item will make the set large, or * if there isn't enough room on this page to add the next item. */ if (HPAGE_PTYPE(hk) != H_OFFDUP && (HPAGE_PTYPE(hk) == H_OFFPAGE || ISBIG(hcp, new_size) || add_bytes > P_FREESPACE(hcp->page))) { if ((ret = __ham_dup_convert(dbc)) != 0) return (ret); return (hcp->opd->c_am_put(hcp->opd, NULL, nval, flags, NULL)); } /* There are two separate cases here: on page and off page. */ if (HPAGE_PTYPE(hk) != H_OFFDUP) { if (HPAGE_PTYPE(hk) != H_DUPLICATE) { pval.flags = 0; pval.data = HKEYDATA_DATA(hk); pval.size = LEN_HDATA(hcp->page, dbp->pgsize, hcp->indx); if ((ret = __ham_make_dup(dbp->dbenv, &pval, &tmp_val, &dbc->rdata.data, &dbc->rdata.ulen)) != 0 || (ret = __ham_replpair(dbc, &tmp_val, 1)) != 0) return (ret); hk = H_PAIRDATA(hcp->page, hcp->indx); HPAGE_PTYPE(hk) = H_DUPLICATE; /* * Update the cursor position since we now are in * duplicates. */ F_SET(hcp, H_ISDUP); hcp->dup_off = 0; hcp->dup_len = pval.size; hcp->dup_tlen = DUP_SIZE(hcp->dup_len); } /* Now make the new entry a duplicate. */ if ((ret = __ham_make_dup(dbp->dbenv, nval, &tmp_val, &dbc->rdata.data, &dbc->rdata.ulen)) != 0) return (ret); tmp_val.dlen = 0; switch (flags) { /* On page. */ case DB_KEYFIRST: case DB_KEYLAST: case DB_NODUPDATA: if (dbp->dup_compare != NULL) { __ham_dsearch(dbc, nval, &tmp_val.doff, &cmp); /* dup dups are not supported w/ sorted dups */ if (cmp == 0) return (__db_duperr(dbp, flags)); } else { hcp->dup_tlen = LEN_HDATA(hcp->page, dbp->pgsize, hcp->indx); hcp->dup_len = nval->size; F_SET(hcp, H_ISDUP); if (flags == DB_KEYFIRST) hcp->dup_off = tmp_val.doff = 0; else hcp->dup_off = tmp_val.doff = hcp->dup_tlen; } break; case DB_BEFORE: tmp_val.doff = hcp->dup_off; break; case DB_AFTER: tmp_val.doff = hcp->dup_off + DUP_SIZE(hcp->dup_len); break; } /* Add the duplicate. */ ret = __ham_replpair(dbc, &tmp_val, 0); if (ret == 0) ret = memp_fset(dbp->mpf, hcp->page, DB_MPOOL_DIRTY); if (ret != 0) return (ret); /* Now, update the cursor if necessary. */ switch (flags) { case DB_AFTER: hcp->dup_off += DUP_SIZE(hcp->dup_len); hcp->dup_len = nval->size; hcp->dup_tlen += DUP_SIZE(nval->size); break; case DB_KEYFIRST: case DB_KEYLAST: case DB_BEFORE: hcp->dup_tlen += DUP_SIZE(nval->size); hcp->dup_len = nval->size; break; } ret = __ham_c_update(dbc, tmp_val.size, 1, 1); return (ret); } /* * If we get here, then we're on duplicate pages; set pgnop and * return so the common code can handle it. */ memcpy(pgnop, HOFFDUP_PGNO(H_PAIRDATA(hcp->page, hcp->indx)), sizeof(db_pgno_t)); return (ret); } /* * Convert an on-page set of duplicates to an offpage set of duplicates. * * PUBLIC: int __ham_dup_convert __P((DBC *)); */ int __ham_dup_convert(dbc) DBC *dbc; { DB *dbp; DBC **hcs; DB_LSN lsn; PAGE *dp; HASH_CURSOR *hcp; BOVERFLOW bo; DBT dbt; HOFFPAGE ho; db_indx_t i, len, off; int c, ret, t_ret; u_int8_t *p, *pend; dbp = dbc->dbp; hcp = (HASH_CURSOR *)dbc->internal; /* * Create a new page for the duplicates. */ if ((ret = __db_new(dbc, dbp->dup_compare == NULL ? P_LRECNO : P_LDUP, &dp)) != 0) return (ret); P_INIT(dp, dbp->pgsize, dp->pgno, PGNO_INVALID, PGNO_INVALID, LEAFLEVEL, TYPE(dp)); /* * Get the list of cursors that may need to be updated. */ if ((ret = __ham_get_clist(dbp, PGNO(hcp->page), (u_int32_t)hcp->indx, &hcs)) != 0) return (ret); /* * Now put the duplicates onto the new page. */ dbt.flags = 0; switch (HPAGE_PTYPE(H_PAIRDATA(hcp->page, hcp->indx))) { case H_KEYDATA: /* Simple case, one key on page; move it to dup page. */ dbt.size = LEN_HDATA(hcp->page, dbp->pgsize, hcp->indx); dbt.data = HKEYDATA_DATA(H_PAIRDATA(hcp->page, hcp->indx)); ret = __db_pitem(dbc, dp, 0, BKEYDATA_SIZE(dbt.size), NULL, &dbt); goto finish; case H_OFFPAGE: /* Simple case, one key on page; move it to dup page. */ memcpy(&ho, P_ENTRY(hcp->page, H_DATAINDEX(hcp->indx)), HOFFPAGE_SIZE); UMRW_SET(bo.unused1); B_TSET(bo.type, ho.type, 0); UMRW_SET(bo.unused2); bo.pgno = ho.pgno; bo.tlen = ho.tlen; dbt.size = BOVERFLOW_SIZE; dbt.data = &bo; ret = __db_pitem(dbc, dp, 0, dbt.size, &dbt, NULL); finish: if (ret == 0) { memp_fset(dbp->mpf, dp, DB_MPOOL_DIRTY); /* * Update any other cursors */ if (hcs != NULL && DB_LOGGING(dbc) && IS_SUBTRANSACTION(dbc->txn)) { if ((ret = __ham_chgpg_log(dbp->dbenv, dbc->txn, &lsn, 0, dbp->log_fileid, DB_HAM_DUP, PGNO(hcp->page), PGNO(dp), hcp->indx, 0)) != 0) break; } for (c = 0; hcs != NULL && hcs[c] != NULL; c++) if ((ret = __ham_dcursor(hcs[c], PGNO(dp), 0)) != 0) break; } break; case H_DUPLICATE: p = HKEYDATA_DATA(H_PAIRDATA(hcp->page, hcp->indx)); pend = p + LEN_HDATA(hcp->page, dbp->pgsize, hcp->indx); /* * We need to maintain the duplicate cursor position. * Keep track of where we are in the duplicate set via * the offset, and when it matches the one in the cursor, * set the off-page duplicate cursor index to the current * index. */ for (off = 0, i = 0; p < pend; i++) { memcpy(&len, p, sizeof(db_indx_t)); dbt.size = len; p += sizeof(db_indx_t); dbt.data = p; p += len + sizeof(db_indx_t); if ((ret = __db_pitem(dbc, dp, i, BKEYDATA_SIZE(dbt.size), NULL, &dbt)) != 0) break; /* * Update any other cursors */ for (c = 0; hcs != NULL && hcs[c] != NULL; c++) if (((HASH_CURSOR *)(hcs[c]->internal))->dup_off == off && (ret = __ham_dcursor(hcs[c], PGNO(dp), i)) != 0) goto out; off += len + 2 * sizeof(db_indx_t); } out: break; default: ret = __db_pgfmt(dbp, (u_long)hcp->pgno); break; } if (ret == 0) { /* * Now attach this to the source page in place of * the old duplicate item. */ __ham_move_offpage(dbc, hcp->page, (u_int32_t)H_DATAINDEX(hcp->indx), PGNO(dp)); ret = memp_fset(dbp->mpf, hcp->page, DB_MPOOL_DIRTY); if ((t_ret = memp_fput(dbp->mpf, dp, DB_MPOOL_DIRTY)) != 0) ret = t_ret; hcp->dup_tlen = hcp->dup_off = hcp->dup_len = 0; } else (void)__db_free(dbc, dp); if (hcs != NULL) __os_free(hcs, 0); return (ret); } /* * __ham_make_dup * * Take a regular dbt and make it into a duplicate item with all the partial * information set appropriately. If the incoming dbt is a partial, assume * we are creating a new entry and make sure that we do any initial padding. * * PUBLIC: int __ham_make_dup __P((DB_ENV *, * PUBLIC: const DBT *, DBT *d, void **, u_int32_t *)); */ int __ham_make_dup(dbenv, notdup, duplicate, bufp, sizep) DB_ENV *dbenv; const DBT *notdup; DBT *duplicate; void **bufp; u_int32_t *sizep; { db_indx_t tsize, item_size; int ret; u_int8_t *p; item_size = (db_indx_t)notdup->size; if (F_ISSET(notdup, DB_DBT_PARTIAL)) item_size += notdup->doff; tsize = DUP_SIZE(item_size); if ((ret = __ham_init_dbt(dbenv, duplicate, tsize, bufp, sizep)) != 0) return (ret); duplicate->dlen = 0; duplicate->flags = notdup->flags; F_SET(duplicate, DB_DBT_PARTIAL); p = duplicate->data; memcpy(p, &item_size, sizeof(db_indx_t)); p += sizeof(db_indx_t); if (F_ISSET(notdup, DB_DBT_PARTIAL)) { memset(p, 0, notdup->doff); p += notdup->doff; } memcpy(p, notdup->data, notdup->size); p += notdup->size; memcpy(p, &item_size, sizeof(db_indx_t)); duplicate->doff = 0; duplicate->dlen = notdup->size; return (0); } /* * __ham_check_move -- * * Check if we can do whatever we need to on this page. If not, * then we'll have to move the current element to a new page. */ static int __ham_check_move(dbc, add_len) DBC *dbc; u_int32_t add_len; { DB *dbp; HASH_CURSOR *hcp; DBT k, d; DB_LSN new_lsn; PAGE *next_pagep; db_pgno_t next_pgno; u_int32_t new_datalen, old_len, rectype; u_int8_t *hk; int ret; dbp = dbc->dbp; hcp = (HASH_CURSOR *)dbc->internal; hk = H_PAIRDATA(hcp->page, hcp->indx); /* * If the item is already off page duplicates or an offpage item, * then we know we can do whatever we need to do in-place */ if (HPAGE_PTYPE(hk) == H_OFFDUP || HPAGE_PTYPE(hk) == H_OFFPAGE) return (0); old_len = LEN_HITEM(hcp->page, dbp->pgsize, H_DATAINDEX(hcp->indx)); new_datalen = old_len - HKEYDATA_SIZE(0) + add_len; if (HPAGE_PTYPE(hk) != H_DUPLICATE) new_datalen += DUP_SIZE(0); /* * We need to add a new page under two conditions: * 1. The addition makes the total data length cross the BIG * threshold and the OFFDUP structure won't fit on this page. * 2. The addition does not make the total data cross the * threshold, but the new data won't fit on the page. * If neither of these is true, then we can return. */ if (ISBIG(hcp, new_datalen) && (old_len > HOFFDUP_SIZE || HOFFDUP_SIZE - old_len <= P_FREESPACE(hcp->page))) return (0); if (!ISBIG(hcp, new_datalen) && add_len <= P_FREESPACE(hcp->page)) return (0); /* * If we get here, then we need to move the item to a new page. * Check if there are more pages in the chain. We now need to * update new_datalen to include the size of both the key and * the data that we need to move. */ new_datalen = ISBIG(hcp, new_datalen) ? HOFFDUP_SIZE : HKEYDATA_SIZE(new_datalen); new_datalen += LEN_HITEM(hcp->page, dbp->pgsize, H_KEYINDEX(hcp->indx)); next_pagep = NULL; for (next_pgno = NEXT_PGNO(hcp->page); next_pgno != PGNO_INVALID; next_pgno = NEXT_PGNO(next_pagep)) { if (next_pagep != NULL && (ret = memp_fput(dbp->mpf, next_pagep, 0)) != 0) return (ret); if ((ret = memp_fget(dbp->mpf, &next_pgno, DB_MPOOL_CREATE, &next_pagep)) != 0) return (ret); if (P_FREESPACE(next_pagep) >= new_datalen) break; } /* No more pages, add one. */ if (next_pagep == NULL && (ret = __ham_add_ovflpage(dbc, hcp->page, 0, &next_pagep)) != 0) return (ret); /* Add new page at the end of the chain. */ if (P_FREESPACE(next_pagep) < new_datalen && (ret = __ham_add_ovflpage(dbc, next_pagep, 1, &next_pagep)) != 0) { (void)memp_fput(dbp->mpf, next_pagep, 0); return (ret); } /* Copy the item to the new page. */ if (DB_LOGGING(dbc)) { rectype = PUTPAIR; k.flags = 0; d.flags = 0; if (HPAGE_PTYPE( H_PAIRKEY(hcp->page, hcp->indx)) == H_OFFPAGE) { rectype |= PAIR_KEYMASK; k.data = H_PAIRKEY(hcp->page, hcp->indx); k.size = HOFFPAGE_SIZE; } else { k.data = HKEYDATA_DATA(H_PAIRKEY(hcp->page, hcp->indx)); k.size = LEN_HKEY(hcp->page, dbp->pgsize, hcp->indx); } if (HPAGE_PTYPE(hk) == H_OFFPAGE) { rectype |= PAIR_DATAMASK; d.data = H_PAIRDATA(hcp->page, hcp->indx); d.size = HOFFPAGE_SIZE; } else { if (HPAGE_PTYPE(H_PAIRDATA(hcp->page, hcp->indx)) == H_DUPLICATE) rectype |= PAIR_DUPMASK; d.data = HKEYDATA_DATA(H_PAIRDATA(hcp->page, hcp->indx)); d.size = LEN_HDATA(hcp->page, dbp->pgsize, hcp->indx); } if ((ret = __ham_insdel_log(dbp->dbenv, dbc->txn, &new_lsn, 0, rectype, dbp->log_fileid, PGNO(next_pagep), (u_int32_t)NUM_ENT(next_pagep), &LSN(next_pagep), &k, &d)) != 0) { (void)memp_fput(dbp->mpf, next_pagep, 0); return (ret); } /* Move lsn onto page. */ LSN(next_pagep) = new_lsn; /* Structure assignment. */ } __ham_copy_item(dbp->pgsize, hcp->page, H_KEYINDEX(hcp->indx), next_pagep); __ham_copy_item(dbp->pgsize, hcp->page, H_DATAINDEX(hcp->indx), next_pagep); /* * We've just manually inserted a key and set of data onto * next_pagep; however, it's possible that our caller will * return without further modifying the new page, for instance * if DB_NODUPDATA is set and our new item is a duplicate duplicate. * Thus, to be on the safe side, we need to mark the page dirty * here. [#2996] * * Note that __ham_del_pair should dirty the page we're moving * the items from, so we need only dirty the new page ourselves. */ if ((ret = memp_fset(dbp->mpf, next_pagep, DB_MPOOL_DIRTY)) != 0) goto out; /* Update all cursors that used to point to this item. */ if ((ret = __ham_c_chgpg(dbc, PGNO(hcp->page), H_KEYINDEX(hcp->indx), PGNO(next_pagep), NUM_ENT(next_pagep) - 2)) != 0) goto out; /* Now delete the pair from the current page. */ ret = __ham_del_pair(dbc, 0); /* * __ham_del_pair decremented nelem. This is incorrect; we * manually copied the element elsewhere, so the total number * of elements hasn't changed. Increment it again. */ if (!STD_LOCKING(dbc)) hcp->hdr->nelem++; out: (void)memp_fput(dbp->mpf, hcp->page, DB_MPOOL_DIRTY); hcp->page = next_pagep; hcp->pgno = PGNO(hcp->page); hcp->indx = NUM_ENT(hcp->page) - 2; F_SET(hcp, H_EXPAND); F_CLR(hcp, H_DELETED); return (ret); } /* * __ham_move_offpage -- * Replace an onpage set of duplicates with the OFFDUP structure * that references the duplicate page. * * XXX * This is really just a special case of __onpage_replace; we should * probably combine them. * * PUBLIC: void __ham_move_offpage __P((DBC *, PAGE *, u_int32_t, db_pgno_t)); */ void __ham_move_offpage(dbc, pagep, ndx, pgno) DBC *dbc; PAGE *pagep; u_int32_t ndx; db_pgno_t pgno; { DB *dbp; HASH_CURSOR *hcp; DBT new_dbt; DBT old_dbt; HOFFDUP od; db_indx_t i; int32_t shrink; u_int8_t *src; dbp = dbc->dbp; hcp = (HASH_CURSOR *)dbc->internal; od.type = H_OFFDUP; UMRW_SET(od.unused[0]); UMRW_SET(od.unused[1]); UMRW_SET(od.unused[2]); od.pgno = pgno; if (DB_LOGGING(dbc)) { new_dbt.data = &od; new_dbt.size = HOFFDUP_SIZE; old_dbt.data = P_ENTRY(pagep, ndx); old_dbt.size = LEN_HITEM(pagep, dbp->pgsize, ndx); (void)__ham_replace_log(dbp->dbenv, dbc->txn, &LSN(pagep), 0, dbp->log_fileid, PGNO(pagep), (u_int32_t)ndx, &LSN(pagep), -1, &old_dbt, &new_dbt, 0); } shrink = LEN_HITEM(pagep, dbp->pgsize, ndx) - HOFFDUP_SIZE; if (shrink != 0) { /* Copy data. */ src = (u_int8_t *)(pagep) + HOFFSET(pagep); memmove(src + shrink, src, pagep->inp[ndx] - HOFFSET(pagep)); HOFFSET(pagep) += shrink; /* Update index table. */ for (i = ndx; i < NUM_ENT(pagep); i++) pagep->inp[i] += shrink; } /* Now copy the offdup entry onto the page. */ memcpy(P_ENTRY(pagep, ndx), &od, HOFFDUP_SIZE); } /* * __ham_dsearch: * Locate a particular duplicate in a duplicate set. Make sure that * we exit with the cursor set appropriately. * * PUBLIC: void __ham_dsearch __P((DBC *, DBT *, u_int32_t *, int *)); */ void __ham_dsearch(dbc, dbt, offp, cmpp) DBC *dbc; DBT *dbt; u_int32_t *offp; int *cmpp; { DB *dbp; HASH_CURSOR *hcp; DBT cur; db_indx_t i, len; int (*func) __P((DB *, const DBT *, const DBT *)); u_int8_t *data; dbp = dbc->dbp; hcp = (HASH_CURSOR *)dbc->internal; if (dbp->dup_compare == NULL) func = __bam_defcmp; else func = dbp->dup_compare; i = F_ISSET(hcp, H_CONTINUE) ? hcp->dup_off: 0; data = HKEYDATA_DATA(H_PAIRDATA(hcp->page, hcp->indx)) + i; hcp->dup_tlen = LEN_HDATA(hcp->page, dbp->pgsize, hcp->indx); while (i < hcp->dup_tlen) { memcpy(&len, data, sizeof(db_indx_t)); data += sizeof(db_indx_t); cur.data = data; cur.size = (u_int32_t)len; *cmpp = func(dbp, dbt, &cur); if (*cmpp == 0 || (*cmpp < 0 && dbp->dup_compare != NULL)) break; i += len + 2 * sizeof(db_indx_t); data += len + sizeof(db_indx_t); } *offp = i; hcp->dup_off = i; hcp->dup_len = len; F_SET(hcp, H_ISDUP); } #ifdef DEBUG /* * __ham_cprint -- * Display the current cursor list. * * PUBLIC: int __ham_cprint __P((DB *)); */ int __ham_cprint(dbp) DB *dbp; { HASH_CURSOR *cp; DBC *dbc; MUTEX_THREAD_LOCK(dbp->dbenv, dbp->mutexp); for (dbc = TAILQ_FIRST(&dbp->active_queue); dbc != NULL; dbc = TAILQ_NEXT(dbc, links)) { cp = (HASH_CURSOR *)dbc->internal; fprintf(stderr, "%#0lx->%#0lx: page: %lu index: %lu", P_TO_ULONG(dbc), P_TO_ULONG(cp), (u_long)cp->pgno, (u_long)cp->indx); if (F_ISSET(cp, H_DELETED)) fprintf(stderr, " (deleted)"); fprintf(stderr, "\n"); } MUTEX_THREAD_UNLOCK(dbp->dbenv, dbp->mutexp); return (0); } #endif /* DEBUG */ /* * __ham_dcursor -- * * Create an off page duplicate cursor for this cursor. */ static int __ham_dcursor(dbc, pgno, indx) DBC *dbc; db_pgno_t pgno; u_int32_t indx; { DB *dbp; DBC *dbc_nopd; HASH_CURSOR *hcp; BTREE_CURSOR *dcp; int ret; dbp = dbc->dbp; if ((ret = __db_c_newopd(dbc, pgno, &dbc_nopd)) != 0) return (ret); dcp = (BTREE_CURSOR *)dbc_nopd->internal; dcp->pgno = pgno; dcp->indx = indx; if (dbp->dup_compare == NULL) { /* * Converting to off-page Recno trees is tricky. The * record number for the cursor is the index + 1 (to * convert to 1-based record numbers). */ dcp->recno = indx + 1; } /* * Transfer the deleted flag from the top-level cursor to the * created one. */ hcp = (HASH_CURSOR *)dbc->internal; if (F_ISSET(hcp, H_DELETED)) { F_SET(dcp, C_DELETED); F_CLR(hcp, H_DELETED); } /* Stack the cursors and reset the initial cursor's index. */ hcp->opd = dbc_nopd; return (0); }