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/*-
* 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_upg_opd.c,v 1.1.1.1 2003/11/20 22:13:14 toshok Exp $";
#endif /* not lint */
#ifndef NO_SYSTEM_INCLUDES
#include <sys/types.h>
#include <string.h>
#endif
#include "db_int.h"
#include "dbinc/db_page.h"
#include "dbinc/btree.h"
static int __db_build_bi __P((DB *, DB_FH *, PAGE *, PAGE *, u_int32_t, int *));
static int __db_build_ri __P((DB *, DB_FH *, PAGE *, PAGE *, u_int32_t, int *));
static int __db_up_ovref __P((DB *, DB_FH *, db_pgno_t));
#define GET_PAGE(dbp, fhp, pgno, page) { \
if ((ret = __os_seek(dbp->dbenv, \
fhp, (dbp)->pgsize, pgno, 0, 0, DB_OS_SEEK_SET)) != 0) \
goto err; \
if ((ret = __os_read(dbp->dbenv, \
fhp, page, (dbp)->pgsize, &n)) != 0) \
goto err; \
}
#define PUT_PAGE(dbp, fhp, pgno, page) { \
if ((ret = __os_seek(dbp->dbenv, \
fhp, (dbp)->pgsize, pgno, 0, 0, DB_OS_SEEK_SET)) != 0) \
goto err; \
if ((ret = __os_write(dbp->dbenv, \
fhp, page, (dbp)->pgsize, &n)) != 0) \
goto err; \
}
/*
* __db_31_offdup --
* Convert 3.0 off-page duplicates to 3.1 off-page duplicates.
*
* PUBLIC: int __db_31_offdup __P((DB *, char *, DB_FH *, int, db_pgno_t *));
*/
int
__db_31_offdup(dbp, real_name, fhp, sorted, pgnop)
DB *dbp;
char *real_name;
DB_FH *fhp;
int sorted;
db_pgno_t *pgnop;
{
PAGE *ipage, *page;
db_indx_t indx;
db_pgno_t cur_cnt, i, next_cnt, pgno, *pgno_cur, pgno_last;
db_pgno_t *pgno_next, pgno_max, *tmp;
db_recno_t nrecs;
size_t n;
int level, nomem, ret;
ipage = page = NULL;
pgno_cur = pgno_next = NULL;
/* Allocate room to hold a page. */
if ((ret = __os_malloc(dbp->dbenv, dbp->pgsize, &page)) != 0)
goto err;
/*
* Walk the chain of 3.0 off-page duplicates. Each one is converted
* in place to a 3.1 off-page duplicate page. If the duplicates are
* sorted, they are converted to a Btree leaf page, otherwise to a
* Recno leaf page.
*/
for (nrecs = 0, cur_cnt = pgno_max = 0,
pgno = *pgnop; pgno != PGNO_INVALID;) {
if (pgno_max == cur_cnt) {
pgno_max += 20;
if ((ret = __os_realloc(dbp->dbenv, pgno_max *
sizeof(db_pgno_t), &pgno_cur)) != 0)
goto err;
}
pgno_cur[cur_cnt++] = pgno;
GET_PAGE(dbp, fhp, pgno, page);
nrecs += NUM_ENT(page);
LEVEL(page) = LEAFLEVEL;
TYPE(page) = sorted ? P_LDUP : P_LRECNO;
/*
* !!!
* DB didn't zero the LSNs on off-page duplicates pages.
*/
ZERO_LSN(LSN(page));
PUT_PAGE(dbp, fhp, pgno, page);
pgno = NEXT_PGNO(page);
}
/* If we only have a single page, it's easy. */
if (cur_cnt > 1) {
/*
* pgno_cur is the list of pages we just converted. We're
* going to walk that list, but we'll need to create a new
* list while we do so.
*/
if ((ret = __os_malloc(dbp->dbenv,
cur_cnt * sizeof(db_pgno_t), &pgno_next)) != 0)
goto err;
/* Figure out where we can start allocating new pages. */
if ((ret = __db_lastpgno(dbp, real_name, fhp, &pgno_last)) != 0)
goto err;
/* Allocate room for an internal page. */
if ((ret = __os_malloc(dbp->dbenv,
dbp->pgsize, &ipage)) != 0)
goto err;
PGNO(ipage) = PGNO_INVALID;
}
/*
* Repeatedly walk the list of pages, building internal pages, until
* there's only one page at a level.
*/
for (level = LEAFLEVEL + 1; cur_cnt > 1; ++level) {
for (indx = 0, i = next_cnt = 0; i < cur_cnt;) {
if (indx == 0) {
P_INIT(ipage, dbp->pgsize, pgno_last,
PGNO_INVALID, PGNO_INVALID,
level, sorted ? P_IBTREE : P_IRECNO);
ZERO_LSN(LSN(ipage));
pgno_next[next_cnt++] = pgno_last++;
}
GET_PAGE(dbp, fhp, pgno_cur[i], page);
/*
* If the duplicates are sorted, put the first item on
* the lower-level page onto a Btree internal page. If
* the duplicates are not sorted, create an internal
* Recno structure on the page. If either case doesn't
* fit, push out the current page and start a new one.
*/
nomem = 0;
if (sorted) {
if ((ret = __db_build_bi(
dbp, fhp, ipage, page, indx, &nomem)) != 0)
goto err;
} else
if ((ret = __db_build_ri(
dbp, fhp, ipage, page, indx, &nomem)) != 0)
goto err;
if (nomem) {
indx = 0;
PUT_PAGE(dbp, fhp, PGNO(ipage), ipage);
} else {
++indx;
++NUM_ENT(ipage);
++i;
}
}
/*
* Push out the last internal page. Set the top-level record
* count if we've reached the top.
*/
if (next_cnt == 1)
RE_NREC_SET(ipage, nrecs);
PUT_PAGE(dbp, fhp, PGNO(ipage), ipage);
/* Swap the current and next page number arrays. */
cur_cnt = next_cnt;
tmp = pgno_cur;
pgno_cur = pgno_next;
pgno_next = tmp;
}
*pgnop = pgno_cur[0];
err: if (pgno_cur != NULL)
__os_free(dbp->dbenv, pgno_cur);
if (pgno_next != NULL)
__os_free(dbp->dbenv, pgno_next);
if (ipage != NULL)
__os_free(dbp->dbenv, ipage);
if (page != NULL)
__os_free(dbp->dbenv, page);
return (ret);
}
/*
* __db_build_bi --
* Build a BINTERNAL entry for a parent page.
*/
static int
__db_build_bi(dbp, fhp, ipage, page, indx, nomemp)
DB *dbp;
DB_FH *fhp;
PAGE *ipage, *page;
u_int32_t indx;
int *nomemp;
{
BINTERNAL bi, *child_bi;
BKEYDATA *child_bk;
u_int8_t *p;
int ret;
db_indx_t *inp;
inp = P_INP(dbp, ipage);
switch (TYPE(page)) {
case P_IBTREE:
child_bi = GET_BINTERNAL(dbp, page, 0);
if (P_FREESPACE(dbp, ipage) < BINTERNAL_PSIZE(child_bi->len)) {
*nomemp = 1;
return (0);
}
inp[indx] =
HOFFSET(ipage) -= BINTERNAL_SIZE(child_bi->len);
p = P_ENTRY(dbp, ipage, indx);
bi.len = child_bi->len;
B_TSET(bi.type, child_bi->type, 0);
bi.pgno = PGNO(page);
bi.nrecs = __bam_total(dbp, page);
memcpy(p, &bi, SSZA(BINTERNAL, data));
p += SSZA(BINTERNAL, data);
memcpy(p, child_bi->data, child_bi->len);
/* Increment the overflow ref count. */
if (B_TYPE(child_bi->type) == B_OVERFLOW)
if ((ret = __db_up_ovref(dbp, fhp,
((BOVERFLOW *)(child_bi->data))->pgno)) != 0)
return (ret);
break;
case P_LDUP:
child_bk = GET_BKEYDATA(dbp, page, 0);
switch (B_TYPE(child_bk->type)) {
case B_KEYDATA:
if (P_FREESPACE(dbp, ipage) <
BINTERNAL_PSIZE(child_bk->len)) {
*nomemp = 1;
return (0);
}
inp[indx] =
HOFFSET(ipage) -= BINTERNAL_SIZE(child_bk->len);
p = P_ENTRY(dbp, ipage, indx);
bi.len = child_bk->len;
B_TSET(bi.type, child_bk->type, 0);
bi.pgno = PGNO(page);
bi.nrecs = __bam_total(dbp, page);
memcpy(p, &bi, SSZA(BINTERNAL, data));
p += SSZA(BINTERNAL, data);
memcpy(p, child_bk->data, child_bk->len);
break;
case B_OVERFLOW:
if (P_FREESPACE(dbp, ipage) <
BINTERNAL_PSIZE(BOVERFLOW_SIZE)) {
*nomemp = 1;
return (0);
}
inp[indx] =
HOFFSET(ipage) -= BINTERNAL_SIZE(BOVERFLOW_SIZE);
p = P_ENTRY(dbp, ipage, indx);
bi.len = BOVERFLOW_SIZE;
B_TSET(bi.type, child_bk->type, 0);
bi.pgno = PGNO(page);
bi.nrecs = __bam_total(dbp, page);
memcpy(p, &bi, SSZA(BINTERNAL, data));
p += SSZA(BINTERNAL, data);
memcpy(p, child_bk, BOVERFLOW_SIZE);
/* Increment the overflow ref count. */
if ((ret = __db_up_ovref(dbp, fhp,
((BOVERFLOW *)child_bk)->pgno)) != 0)
return (ret);
break;
default:
return (__db_pgfmt(dbp->dbenv, PGNO(page)));
}
break;
default:
return (__db_pgfmt(dbp->dbenv, PGNO(page)));
}
return (0);
}
/*
* __db_build_ri --
* Build a RINTERNAL entry for an internal parent page.
*/
static int
__db_build_ri(dbp, fhp, ipage, page, indx, nomemp)
DB *dbp;
DB_FH *fhp;
PAGE *ipage, *page;
u_int32_t indx;
int *nomemp;
{
RINTERNAL ri;
db_indx_t *inp;
COMPQUIET(fhp, NULL);
inp = P_INP(dbp, ipage);
if (P_FREESPACE(dbp, ipage) < RINTERNAL_PSIZE) {
*nomemp = 1;
return (0);
}
ri.pgno = PGNO(page);
ri.nrecs = __bam_total(dbp, page);
inp[indx] = HOFFSET(ipage) -= RINTERNAL_SIZE;
memcpy(P_ENTRY(dbp, ipage, indx), &ri, RINTERNAL_SIZE);
return (0);
}
/*
* __db_up_ovref --
* Increment/decrement the reference count on an overflow page.
*/
static int
__db_up_ovref(dbp, fhp, pgno)
DB *dbp;
DB_FH *fhp;
db_pgno_t pgno;
{
PAGE *page;
size_t n;
int ret;
/* Allocate room to hold a page. */
if ((ret = __os_malloc(dbp->dbenv, dbp->pgsize, &page)) != 0)
return (ret);
GET_PAGE(dbp, fhp, pgno, page);
++OV_REF(page);
PUT_PAGE(dbp, fhp, pgno, page);
err: __os_free(dbp->dbenv, page);
return (ret);
}
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