gecko-dev/db/mp/mp_sync.c

514 строки
13 KiB
C

/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 1996, 1997, 1998
* Sleepycat Software. All rights reserved.
*/
#include "config.h"
#ifndef lint
static const char sccsid[] = "@(#)mp_sync.c 10.25 (Sleepycat) 4/26/98";
#endif /* not lint */
#ifndef NO_SYSTEM_INCLUDES
#include <sys/types.h>
#include <errno.h>
#include <stdlib.h>
#endif
#include "db_int.h"
#include "shqueue.h"
#include "db_shash.h"
#include "mp.h"
#include "common_ext.h"
static int __bhcmp __P((const void *, const void *));
static int __memp_fsync __P((DB_MPOOLFILE *));
/*
* memp_sync --
* Mpool sync function.
*/
int
memp_sync(dbmp, lsnp)
DB_MPOOL *dbmp;
DB_LSN *lsnp;
{
BH *bhp, **bharray;
DB_ENV *dbenv;
MPOOL *mp;
MPOOLFILE *mfp;
int ar_cnt, cnt, nalloc, next, ret, wrote;
dbenv = dbmp->dbenv;
if (dbenv->lg_info == NULL) {
__db_err(dbenv, "memp_sync: requires logging");
return (EINVAL);
}
/*
* We try and write the buffers in page order so that the underlying
* filesystem doesn't have to seek and can write contiguous blocks,
* plus, we don't want to hold the region lock while we write the
* buffers. Get memory to hold the buffer pointers. Get a good-size
* block, too, because we realloc while holding the region lock if we
* run out.
*/
if ((bharray =
(BH **)__db_malloc((nalloc = 1024) * sizeof(BH *))) == NULL)
return (ENOMEM);
LOCKREGION(dbmp);
/*
* If the application is asking about a previous call to memp_sync(),
* and we haven't found any buffers that the application holding the
* pin couldn't write, return yes or no based on the current count.
* Note, if the application is asking about a LSN *smaller* than one
* we've already handled or are currently handling, then we return a
* result based on the count for the larger LSN.
*/
mp = dbmp->mp;
if (!F_ISSET(mp, MP_LSN_RETRY) && log_compare(lsnp, &mp->lsn) <= 0) {
if (mp->lsn_cnt == 0) {
*lsnp = mp->lsn;
ret = 0;
} else
ret = DB_INCOMPLETE;
goto done;
}
/* Else, it's a new checkpoint. */
F_CLR(mp, MP_LSN_RETRY);
/*
* Save the LSN. We know that it's a new LSN or larger than the one
* for which we were already doing a checkpoint. (BTW, I don't expect
* to see multiple LSN's from the same or multiple processes, but You
* Just Never Know. Responding as if they all called with the largest
* of the LSNs specified makes everything work.)
*
* We don't currently use the LSN we save. We could potentially save
* the last-written LSN in each buffer header and use it to determine
* what buffers need to be written. The problem with this is that it's
* sizeof(LSN) more bytes of buffer header. We currently write all the
* dirty buffers instead.
*
* Walk the list of shared memory segments clearing the count of
* buffers waiting to be written.
*/
mp->lsn = *lsnp;
mp->lsn_cnt = 0;
for (mfp = SH_TAILQ_FIRST(&dbmp->mp->mpfq, __mpoolfile);
mfp != NULL; mfp = SH_TAILQ_NEXT(mfp, q, __mpoolfile))
mfp->lsn_cnt = 0;
/*
* Walk the list of buffers and mark all dirty buffers to be written
* and all pinned buffers to be potentially written (we can't know if
* we'll need to write them until the holding process returns them to
* the cache). We do this in one pass while holding the region locked
* so that processes can't make new buffers dirty, causing us to never
* finish. Since the application may have restarted the sync, clear
* any BH_WRITE flags that appear to be left over from previous calls.
*
* Keep a count of the total number of buffers we need to write in
* MPOOL->lsn_cnt, and for each file, in MPOOLFILE->lsn_count.
*/
ar_cnt = 0;
for (bhp = SH_TAILQ_FIRST(&mp->bhq, __bh);
bhp != NULL; bhp = SH_TAILQ_NEXT(bhp, q, __bh))
if (F_ISSET(bhp, BH_DIRTY) || bhp->ref != 0) {
F_SET(bhp, BH_WRITE);
++mp->lsn_cnt;
mfp = R_ADDR(dbmp, bhp->mf_offset);
++mfp->lsn_cnt;
/*
* If the buffer isn't in use, we should be able to
* write it immediately, so save a reference to it.
*/
if (bhp->ref == 0) {
if (ar_cnt == nalloc) {
nalloc *= 2;
if ((bharray =
(BH **)__db_realloc(bharray,
nalloc * sizeof(BH *))) == NULL) {
ret = ENOMEM;
goto err;
}
}
bharray[ar_cnt++] = bhp;
}
} else
if (F_ISSET(bhp, BH_WRITE))
F_CLR(bhp, BH_WRITE);
/* If there no buffers we can write immediately, we're done. */
if (ar_cnt == 0) {
ret = mp->lsn_cnt ? DB_INCOMPLETE : 0;
goto done;
}
/* Lock down the buffers and their contents. */
for (cnt = 0; cnt < ar_cnt; ++cnt)
++bharray[cnt]->ref;
UNLOCKREGION(dbmp);
/* Sort the buffers we're going to write. */
qsort(bharray, ar_cnt, sizeof(BH *), __bhcmp);
LOCKREGION(dbmp);
/* Walk the array, writing buffers. */
for (next = 0; next < ar_cnt; ++next) {
/*
* It's possible for a thread to have gotten the buffer since
* we listed it for writing. If the reference count is still
* 1, we're the only ones using the buffer, go ahead and write.
* If it's >1, then skip the buffer and assume that it will be
* written when it's returned to the cache.
*/
if (bharray[next]->ref > 1) {
--bharray[next]->ref;
continue;
}
/* Write the buffer. */
mfp = R_ADDR(dbmp, bharray[next]->mf_offset);
ret = __memp_bhwrite(dbmp, mfp, bharray[next], NULL, &wrote);
/* Release the buffer. */
--bharray[next]->ref;
/* If there's an error, release the rest of the buffers. */
if (ret != 0 || !wrote) {
/*
* Any process syncing the shared memory buffer pool
* had better be able to write to any underlying file.
* Be understanding, but firm, on this point.
*/
if (ret == 0) {
__db_err(dbenv, "%s: unable to flush page: %lu",
__memp_fns(dbmp, mfp),
(u_long)bharray[next]->pgno);
ret = EPERM;
}
while (++next < ar_cnt)
--bharray[next]->ref;
goto err;
}
}
ret = mp->lsn_cnt ? DB_INCOMPLETE : 0;
done:
if (0) {
err: /*
* On error, clear:
* MPOOL->lsn_cnt (the total sync count)
* MPOOLFILE->lsn_cnt (the per-file sync count)
* BH_WRITE flag (the scheduled for writing flag)
*/
mp->lsn_cnt = 0;
for (mfp = SH_TAILQ_FIRST(&dbmp->mp->mpfq, __mpoolfile);
mfp != NULL; mfp = SH_TAILQ_NEXT(mfp, q, __mpoolfile))
mfp->lsn_cnt = 0;
for (bhp = SH_TAILQ_FIRST(&mp->bhq, __bh);
bhp != NULL; bhp = SH_TAILQ_NEXT(bhp, q, __bh))
F_CLR(bhp, BH_WRITE);
}
UNLOCKREGION(dbmp);
__db_free(bharray);
return (ret);
}
/*
* memp_fsync --
* Mpool file sync function.
*/
int
memp_fsync(dbmfp)
DB_MPOOLFILE *dbmfp;
{
DB_MPOOL *dbmp;
int is_tmp;
dbmp = dbmfp->dbmp;
/*
* If this handle doesn't have a file descriptor that's open for
* writing, or if the file is a temporary, there's no reason to
* proceed further.
*/
if (F_ISSET(dbmfp, MP_READONLY))
return (0);
LOCKREGION(dbmp);
is_tmp = F_ISSET(dbmfp->mfp, MP_TEMP);
UNLOCKREGION(dbmp);
if (is_tmp)
return (0);
return (__memp_fsync(dbmfp));
}
/*
* __mp_xxx_fd --
* Return a file descriptor for DB 1.85 compatibility locking.
*
* PUBLIC: int __mp_xxx_fd __P((DB_MPOOLFILE *, int *));
*/
int
__mp_xxx_fd(dbmfp, fdp)
DB_MPOOLFILE *dbmfp;
int *fdp;
{
int ret;
/*
* This is a truly spectacular layering violation, intended ONLY to
* support compatibility for the DB 1.85 DB->fd call.
*
* Sync the database file to disk, creating the file as necessary.
*
* We skip the MP_READONLY and MP_TEMP tests done by memp_fsync(3).
* The MP_READONLY test isn't interesting because we will either
* already have a file descriptor (we opened the database file for
* reading) or we aren't readonly (we created the database which
* requires write privileges). The MP_TEMP test isn't interesting
* because we want to write to the backing file regardless so that
* we get a file descriptor to return.
*/
ret = dbmfp->fd == -1 ? __memp_fsync(dbmfp) : 0;
return ((*fdp = dbmfp->fd) == -1 ? ENOENT : ret);
}
/*
* __memp_fsync --
* Mpool file internal sync function.
*/
static int
__memp_fsync(dbmfp)
DB_MPOOLFILE *dbmfp;
{
BH *bhp, **bharray;
DB_MPOOL *dbmp;
size_t mf_offset;
int ar_cnt, cnt, nalloc, next, pincnt, ret, wrote;
ret = 0;
dbmp = dbmfp->dbmp;
mf_offset = R_OFFSET(dbmp, dbmfp->mfp);
/*
* We try and write the buffers in page order so that the underlying
* filesystem doesn't have to seek and can write contiguous blocks,
* plus, we don't want to hold the region lock while we write the
* buffers. Get memory to hold the buffer pointers. Get a good-size
* block, too, because we realloc while holding the region lock if we
* run out.
*/
nalloc = 1024;
if ((bharray =
(BH **)__db_malloc((size_t)nalloc * sizeof(BH *))) == NULL)
return (ENOMEM);
LOCKREGION(dbmp);
/*
* Walk the LRU list of buffer headers, and get a list of buffers to
* write for this MPOOLFILE.
*/
ar_cnt = pincnt = 0;
for (bhp = SH_TAILQ_FIRST(&dbmp->mp->bhq, __bh);
bhp != NULL; bhp = SH_TAILQ_NEXT(bhp, q, __bh)) {
if (!F_ISSET(bhp, BH_DIRTY) || bhp->mf_offset != mf_offset)
continue;
if (bhp->ref != 0 || F_ISSET(bhp, BH_LOCKED)) {
++pincnt;
continue;
}
if (ar_cnt == nalloc) {
nalloc *= 2;
if ((bharray = (BH **)__db_realloc(bharray,
nalloc * sizeof(BH *))) == NULL) {
ret = ENOMEM;
goto err;
}
}
bharray[ar_cnt++] = bhp;
}
/* Lock down the buffers and their contents. */
for (cnt = 0; cnt < ar_cnt; ++cnt)
++bharray[cnt]->ref;
UNLOCKREGION(dbmp);
/* Sort the buffers we're going to write. */
qsort(bharray, ar_cnt, sizeof(BH *), __bhcmp);
LOCKREGION(dbmp);
/* Walk the array, writing buffers. */
for (next = 0; next < ar_cnt; ++next) {
/*
* It's possible for a thread to have gotten the buffer since
* we listed it for writing. If the reference count is still
* 1, we're the only ones using the buffer, go ahead and write.
* If it's >1, then skip the buffer and assume that it will be
* written when it's returned to the cache.
*/
if (bharray[next]->ref > 1) {
++pincnt;
--bharray[next]->ref;
continue;
}
/* Write the buffer. */
ret = __memp_pgwrite(dbmfp, bharray[next], NULL, &wrote);
/* Release the buffer. */
--bharray[next]->ref;
/* If there's an error, release the rest of the buffers. */
if (ret != 0) {
while (++next < ar_cnt)
--bharray[next]->ref;
goto err;
}
if (!wrote)
++pincnt;
}
err: UNLOCKREGION(dbmp);
__db_free(bharray);
/*
* Sync the underlying file as the last thing we do, so that the OS
* has maximal opportunity to flush buffers before we request it.
*
* XXX:
* Don't lock the region around the sync, fsync(2) has no atomicity
* issues.
*/
if (ret == 0)
return (pincnt == 0 ? __db_fsync(dbmfp->fd) : DB_INCOMPLETE);
return (ret);
}
/*
* memp_trickle --
* Keep a specified percentage of the buffers clean.
*/
int
memp_trickle(dbmp, pct, nwrotep)
DB_MPOOL *dbmp;
int pct, *nwrotep;
{
BH *bhp;
MPOOL *mp;
MPOOLFILE *mfp;
u_long total;
int ret, wrote;
mp = dbmp->mp;
if (nwrotep != NULL)
*nwrotep = 0;
if (pct < 1 || pct > 100)
return (EINVAL);
LOCKREGION(dbmp);
/*
* If there are sufficient clean buffers, or no buffers or no dirty
* buffers, we're done.
*
* XXX
* Using st_page_clean and st_page_dirty is our only choice at the
* moment, but it's not as correct as we might like in the presence
* of pools with more than one buffer size, as a free 512-byte buffer
* isn't the same as a free 8K buffer.
*/
loop: total = mp->stat.st_page_clean + mp->stat.st_page_dirty;
if (total == 0 || mp->stat.st_page_dirty == 0 ||
(mp->stat.st_page_clean * 100) / total >= (u_long)pct) {
UNLOCKREGION(dbmp);
return (0);
}
/* Loop until we write a buffer. */
for (bhp = SH_TAILQ_FIRST(&mp->bhq, __bh);
bhp != NULL; bhp = SH_TAILQ_NEXT(bhp, q, __bh)) {
if (bhp->ref != 0 ||
!F_ISSET(bhp, BH_DIRTY) || F_ISSET(bhp, BH_LOCKED))
continue;
mfp = R_ADDR(dbmp, bhp->mf_offset);
/*
* We can't write to temporary files -- see the comment in
* mp_bh.c:__memp_bhwrite().
*/
if (F_ISSET(mfp, MP_TEMP))
continue;
if ((ret = __memp_bhwrite(dbmp, mfp, bhp, NULL, &wrote)) != 0)
goto err;
/*
* Any process syncing the shared memory buffer pool had better
* be able to write to any underlying file. Be understanding,
* but firm, on this point.
*/
if (!wrote) {
__db_err(dbmp->dbenv, "%s: unable to flush page: %lu",
__memp_fns(dbmp, mfp), (u_long)bhp->pgno);
ret = EPERM;
goto err;
}
++mp->stat.st_page_trickle;
if (nwrotep != NULL)
++*nwrotep;
goto loop;
}
/* No more buffers to write. */
ret = 0;
err: UNLOCKREGION(dbmp);
return (ret);
}
static int
__bhcmp(p1, p2)
const void *p1, *p2;
{
BH *bhp1, *bhp2;
bhp1 = *(BH * const *)p1;
bhp2 = *(BH * const *)p2;
/* Sort by file (shared memory pool offset). */
if (bhp1->mf_offset < bhp2->mf_offset)
return (-1);
if (bhp1->mf_offset > bhp2->mf_offset)
return (1);
/* Sort by page in file. */
return (bhp1->pgno < bhp2->pgno ? -1 : 1);
}