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|
/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 1996-2003
* Sleepycat Software. All rights reserved.
*/
#include "db_config.h"
#ifndef lint
static const char revid[] = "$Id: mp_fget.c,v 11.81 2003/09/25 02:15:16 sue Exp $";
#endif /* not lint */
#ifndef NO_SYSTEM_INCLUDES
#include <sys/types.h>
#include <string.h>
#endif
#include "db_int.h"
#include "dbinc/db_shash.h"
#include "dbinc/log.h"
#include "dbinc/mp.h"
/*
* __memp_fget_pp --
* DB_MPOOLFILE->get pre/post processing.
*
* PUBLIC: int __memp_fget_pp
* PUBLIC: __P((DB_MPOOLFILE *, db_pgno_t *, u_int32_t, void *));
*/
int
__memp_fget_pp(dbmfp, pgnoaddr, flags, addrp)
DB_MPOOLFILE *dbmfp;
db_pgno_t *pgnoaddr;
u_int32_t flags;
void *addrp;
{
DB_ENV *dbenv;
int rep_check, ret;
dbenv = dbmfp->dbenv;
PANIC_CHECK(dbenv);
MPF_ILLEGAL_BEFORE_OPEN(dbmfp, "DB_MPOOLFILE->get");
/*
* Validate arguments.
*
* !!!
* Don't test for DB_MPOOL_CREATE and DB_MPOOL_NEW flags for readonly
* files here, and create non-existent pages in readonly files if the
* flags are set, later. The reason is that the hash access method
* wants to get empty pages that don't really exist in readonly files.
* The only alternative is for hash to write the last "bucket" all the
* time, which we don't want to do because one of our big goals in life
* is to keep database files small. It's sleazy as hell, but we catch
* any attempt to actually write the file in memp_fput().
*/
#define OKFLAGS (DB_MPOOL_CREATE | DB_MPOOL_LAST | DB_MPOOL_NEW)
if (flags != 0) {
if ((ret = __db_fchk(dbenv, "memp_fget", flags, OKFLAGS)) != 0)
return (ret);
switch (flags) {
case DB_MPOOL_CREATE:
case DB_MPOOL_LAST:
case DB_MPOOL_NEW:
break;
default:
return (__db_ferr(dbenv, "memp_fget", 1));
}
}
rep_check = IS_ENV_REPLICATED(dbenv) ? 1 : 0;
if (rep_check)
__op_rep_enter(dbenv);
ret = __memp_fget(dbmfp, pgnoaddr, flags, addrp);
/*
* We only decrement the count in op_rep_exit if the operattion fails.
* Otherwise the count will be decremeneted when the page
* is no longer pinned in memp_fput.
*/
if (ret != 0 && rep_check)
__op_rep_exit(dbenv);
return (ret);
}
/*
* __memp_fget --
* Get a page from the file.
*
* PUBLIC: int __memp_fget
* PUBLIC: __P((DB_MPOOLFILE *, db_pgno_t *, u_int32_t, void *));
*/
int
__memp_fget(dbmfp, pgnoaddr, flags, addrp)
DB_MPOOLFILE *dbmfp;
db_pgno_t *pgnoaddr;
u_int32_t flags;
void *addrp;
{
enum { FIRST_FOUND, FIRST_MISS, SECOND_FOUND, SECOND_MISS } state;
BH *alloc_bhp, *bhp;
DB_ENV *dbenv;
DB_MPOOL *dbmp;
DB_MPOOL_HASH *hp;
MPOOL *c_mp, *mp;
MPOOLFILE *mfp;
roff_t mf_offset;
u_int32_t n_cache, st_hsearch;
int b_incr, extending, first, ret;
*(void **)addrp = NULL;
dbenv = dbmfp->dbenv;
dbmp = dbenv->mp_handle;
c_mp = NULL;
mp = dbmp->reginfo[0].primary;
mfp = dbmfp->mfp;
mf_offset = R_OFFSET(dbmp->reginfo, mfp);
alloc_bhp = bhp = NULL;
hp = NULL;
b_incr = extending = ret = 0;
switch (flags) {
case DB_MPOOL_LAST:
/* Get the last page number in the file. */
if (flags == DB_MPOOL_LAST) {
R_LOCK(dbenv, dbmp->reginfo);
*pgnoaddr = mfp->last_pgno;
R_UNLOCK(dbenv, dbmp->reginfo);
}
break;
case DB_MPOOL_NEW:
/*
* If always creating a page, skip the first search
* of the hash bucket.
*/
if (flags == DB_MPOOL_NEW)
goto alloc;
break;
case DB_MPOOL_CREATE:
default:
break;
}
/*
* If mmap'ing the file and the page is not past the end of the file,
* just return a pointer.
*
* The page may be past the end of the file, so check the page number
* argument against the original length of the file. If we previously
* returned pages past the original end of the file, last_pgno will
* have been updated to match the "new" end of the file, and checking
* against it would return pointers past the end of the mmap'd region.
*
* If another process has opened the file for writing since we mmap'd
* it, we will start playing the game by their rules, i.e. everything
* goes through the cache. All pages previously returned will be safe,
* as long as the correct locking protocol was observed.
*
* We don't discard the map because we don't know when all of the
* pages will have been discarded from the process' address space.
* It would be possible to do so by reference counting the open
* pages from the mmap, but it's unclear to me that it's worth it.
*/
if (dbmfp->addr != NULL &&
F_ISSET(mfp, MP_CAN_MMAP) && *pgnoaddr <= mfp->orig_last_pgno) {
*(void **)addrp =
R_ADDR(dbmfp, *pgnoaddr * mfp->stat.st_pagesize);
++mfp->stat.st_map;
return (0);
}
hb_search:
/*
* Determine the cache and hash bucket where this page lives and get
* local pointers to them. Reset on each pass through this code, the
* page number can change.
*/
n_cache = NCACHE(mp, mf_offset, *pgnoaddr);
c_mp = dbmp->reginfo[n_cache].primary;
hp = R_ADDR(&dbmp->reginfo[n_cache], c_mp->htab);
hp = &hp[NBUCKET(c_mp, mf_offset, *pgnoaddr)];
/* Search the hash chain for the page. */
retry: st_hsearch = 0;
MUTEX_LOCK(dbenv, &hp->hash_mutex);
for (bhp = SH_TAILQ_FIRST(&hp->hash_bucket, __bh);
bhp != NULL; bhp = SH_TAILQ_NEXT(bhp, hq, __bh)) {
++st_hsearch;
if (bhp->pgno != *pgnoaddr || bhp->mf_offset != mf_offset)
continue;
/*
* Increment the reference count. We may discard the hash
* bucket lock as we evaluate and/or read the buffer, so we
* need to ensure it doesn't move and its contents remain
* unchanged.
*/
if (bhp->ref == UINT16_T_MAX) {
__db_err(dbenv,
"%s: page %lu: reference count overflow",
__memp_fn(dbmfp), (u_long)bhp->pgno);
ret = EINVAL;
MUTEX_UNLOCK(dbenv, &hp->hash_mutex);
goto err;
}
++bhp->ref;
b_incr = 1;
/*
* BH_LOCKED --
* I/O is in progress or sync is waiting on the buffer to write
* it. Because we've incremented the buffer reference count,
* we know the buffer can't move. Unlock the bucket lock, wait
* for the buffer to become available, reacquire the bucket.
*/
for (first = 1; F_ISSET(bhp, BH_LOCKED) &&
!F_ISSET(dbenv, DB_ENV_NOLOCKING); first = 0) {
/*
* If someone is trying to sync this buffer and the
* buffer is hot, they may never get in. Give up
* and try again.
*/
if (!first && bhp->ref_sync != 0) {
--bhp->ref;
b_incr = 0;
MUTEX_UNLOCK(dbenv, &hp->hash_mutex);
__os_yield(dbenv, 1);
goto retry;
}
MUTEX_UNLOCK(dbenv, &hp->hash_mutex);
/*
* Explicitly yield the processor if not the first pass
* through this loop -- if we don't, we might run to the
* end of our CPU quantum as we will simply be swapping
* between the two locks.
*/
if (!first)
__os_yield(dbenv, 1);
MUTEX_LOCK(dbenv, &bhp->mutex);
/* Wait for I/O to finish... */
MUTEX_UNLOCK(dbenv, &bhp->mutex);
MUTEX_LOCK(dbenv, &hp->hash_mutex);
}
++mfp->stat.st_cache_hit;
break;
}
/*
* Update the hash bucket search statistics -- do now because our next
* search may be for a different bucket.
*/
++c_mp->stat.st_hash_searches;
if (st_hsearch > c_mp->stat.st_hash_longest)
c_mp->stat.st_hash_longest = st_hsearch;
c_mp->stat.st_hash_examined += st_hsearch;
/*
* There are 4 possible paths to this location:
*
* FIRST_MISS:
* Didn't find the page in the hash bucket on our first pass:
* bhp == NULL, alloc_bhp == NULL
*
* FIRST_FOUND:
* Found the page in the hash bucket on our first pass:
* bhp != NULL, alloc_bhp == NULL
*
* SECOND_FOUND:
* Didn't find the page in the hash bucket on the first pass,
* allocated space, and found the page in the hash bucket on
* our second pass:
* bhp != NULL, alloc_bhp != NULL
*
* SECOND_MISS:
* Didn't find the page in the hash bucket on the first pass,
* allocated space, and didn't find the page in the hash bucket
* on our second pass:
* bhp == NULL, alloc_bhp != NULL
*/
state = bhp == NULL ?
(alloc_bhp == NULL ? FIRST_MISS : SECOND_MISS) :
(alloc_bhp == NULL ? FIRST_FOUND : SECOND_FOUND);
switch (state) {
case FIRST_FOUND:
/* We found the buffer in our first check -- we're done. */
break;
case FIRST_MISS:
/*
* We didn't find the buffer in our first check. Figure out
* if the page exists, and allocate structures so we can add
* the page to the buffer pool.
*/
MUTEX_UNLOCK(dbenv, &hp->hash_mutex);
alloc: /*
* If DB_MPOOL_NEW is set, we have to allocate a page number.
* If neither DB_MPOOL_CREATE or DB_MPOOL_CREATE is set, then
* it's an error to try and get a page past the end of file.
*/
COMPQUIET(n_cache, 0);
extending = ret = 0;
R_LOCK(dbenv, dbmp->reginfo);
switch (flags) {
case DB_MPOOL_NEW:
extending = 1;
if (mfp->maxpgno != 0 &&
mfp->last_pgno >= mfp->maxpgno) {
__db_err(dbenv, "%s: file limited to %lu pages",
__memp_fn(dbmfp), (u_long)mfp->maxpgno);
ret = ENOSPC;
} else
*pgnoaddr = mfp->last_pgno + 1;
break;
case DB_MPOOL_CREATE:
if (mfp->maxpgno != 0 && *pgnoaddr > mfp->maxpgno) {
__db_err(dbenv, "%s: file limited to %lu pages",
__memp_fn(dbmfp), (u_long)mfp->maxpgno);
ret = ENOSPC;
} else
extending = *pgnoaddr > mfp->last_pgno;
break;
default:
ret = *pgnoaddr > mfp->last_pgno ? DB_PAGE_NOTFOUND : 0;
break;
}
R_UNLOCK(dbenv, dbmp->reginfo);
if (ret != 0)
goto err;
/*
* !!!
* In the DB_MPOOL_NEW code path, mf_offset and n_cache have
* not yet been initialized.
*/
mf_offset = R_OFFSET(dbmp->reginfo, mfp);
n_cache = NCACHE(mp, mf_offset, *pgnoaddr);
c_mp = dbmp->reginfo[n_cache].primary;
/* Allocate a new buffer header and data space. */
if ((ret = __memp_alloc(dbmp,
&dbmp->reginfo[n_cache], mfp, 0, NULL, &alloc_bhp)) != 0)
goto err;
#ifdef DIAGNOSTIC
if ((db_alignp_t)alloc_bhp->buf & (sizeof(size_t) - 1)) {
__db_err(dbenv,
"DB_MPOOLFILE->get: buffer data is NOT size_t aligned");
ret = EINVAL;
goto err;
}
#endif
/*
* If we are extending the file, we'll need the region lock
* again.
*/
if (extending)
R_LOCK(dbenv, dbmp->reginfo);
/*
* DB_MPOOL_NEW does not guarantee you a page unreferenced by
* any other thread of control. (That guarantee is interesting
* for DB_MPOOL_NEW, unlike DB_MPOOL_CREATE, because the caller
* did not specify the page number, and so, may reasonably not
* have any way to lock the page outside of mpool.) Regardless,
* if we allocate the page, and some other thread of control
* requests the page by number, we will not detect that and the
* thread of control that allocated using DB_MPOOL_NEW may not
* have a chance to initialize the page. (Note: we *could*
* detect this case if we set a flag in the buffer header which
* guaranteed that no gets of the page would succeed until the
* reference count went to 0, that is, until the creating page
* put the page.) What we do guarantee is that if two threads
* of control are both doing DB_MPOOL_NEW calls, they won't
* collide, that is, they won't both get the same page.
*
* There's a possibility that another thread allocated the page
* we were planning to allocate while we were off doing buffer
* allocation. We can do that by making sure the page number
* we were going to use is still available. If it's not, then
* we check to see if the next available page number hashes to
* the same mpool region as the old one -- if it does, we can
* continue, otherwise, we have to start over.
*/
if (flags == DB_MPOOL_NEW && *pgnoaddr != mfp->last_pgno + 1) {
*pgnoaddr = mfp->last_pgno + 1;
if (n_cache != NCACHE(mp, mf_offset, *pgnoaddr)) {
/*
* flags == DB_MPOOL_NEW, so extending is set
* and we're holding the region locked.
*/
R_UNLOCK(dbenv, dbmp->reginfo);
R_LOCK(dbenv, &dbmp->reginfo[n_cache]);
__db_shalloc_free(
dbmp->reginfo[n_cache].addr, alloc_bhp);
c_mp->stat.st_pages--;
R_UNLOCK(dbenv, &dbmp->reginfo[n_cache]);
alloc_bhp = NULL;
goto alloc;
}
}
/*
* We released the region lock, so another thread might have
* extended the file. Update the last_pgno and initialize
* the file, as necessary, if we extended the file.
*/
if (extending) {
if (*pgnoaddr > mfp->last_pgno)
mfp->last_pgno = *pgnoaddr;
R_UNLOCK(dbenv, dbmp->reginfo);
if (ret != 0)
goto err;
}
goto hb_search;
case SECOND_FOUND:
/*
* We allocated buffer space for the requested page, but then
* found the page in the buffer cache on our second check.
* That's OK -- we can use the page we found in the pool,
* unless DB_MPOOL_NEW is set.
*
* Free the allocated memory, we no longer need it. Since we
* can't acquire the region lock while holding the hash bucket
* lock, we have to release the hash bucket and re-acquire it.
* That's OK, because we have the buffer pinned down.
*/
MUTEX_UNLOCK(dbenv, &hp->hash_mutex);
R_LOCK(dbenv, &dbmp->reginfo[n_cache]);
__db_shalloc_free(dbmp->reginfo[n_cache].addr, alloc_bhp);
c_mp->stat.st_pages--;
alloc_bhp = NULL;
R_UNLOCK(dbenv, &dbmp->reginfo[n_cache]);
MUTEX_LOCK(dbenv, &hp->hash_mutex);
/*
* We can't use the page we found in the pool if DB_MPOOL_NEW
* was set. (For details, see the above comment beginning
* "DB_MPOOL_NEW does not guarantee you a page unreferenced by
* any other thread of control".) If DB_MPOOL_NEW is set, we
* release our pin on this particular buffer, and try to get
* another one.
*/
if (flags == DB_MPOOL_NEW) {
--bhp->ref;
b_incr = 0;
goto alloc;
}
break;
case SECOND_MISS:
/*
* We allocated buffer space for the requested page, and found
* the page still missing on our second pass through the buffer
* cache. Instantiate the page.
*/
bhp = alloc_bhp;
alloc_bhp = NULL;
/*
* Initialize all the BH and hash bucket fields so we can call
* __memp_bhfree if an error occurs.
*
* Append the buffer to the tail of the bucket list and update
* the hash bucket's priority.
*/
b_incr = 1;
memset(bhp, 0, sizeof(BH));
bhp->ref = 1;
bhp->priority = UINT32_T_MAX;
bhp->pgno = *pgnoaddr;
bhp->mf_offset = mf_offset;
SH_TAILQ_INSERT_TAIL(&hp->hash_bucket, bhp, hq);
hp->hash_priority =
SH_TAILQ_FIRST(&hp->hash_bucket, __bh)->priority;
/* If we extended the file, make sure the page is never lost. */
if (extending) {
++hp->hash_page_dirty;
F_SET(bhp, BH_DIRTY | BH_DIRTY_CREATE);
}
/*
* If we created the page, zero it out. If we didn't create
* the page, read from the backing file.
*
* !!!
* DB_MPOOL_NEW doesn't call the pgin function.
*
* If DB_MPOOL_CREATE is used, then the application's pgin
* function has to be able to handle pages of 0's -- if it
* uses DB_MPOOL_NEW, it can detect all of its page creates,
* and not bother.
*
* If we're running in diagnostic mode, smash any bytes on the
* page that are unknown quantities for the caller.
*
* Otherwise, read the page into memory, optionally creating it
* if DB_MPOOL_CREATE is set.
*/
if (extending) {
if (mfp->clear_len == 0)
memset(bhp->buf, 0, mfp->stat.st_pagesize);
else {
memset(bhp->buf, 0, mfp->clear_len);
#if defined(DIAGNOSTIC) || defined(UMRW)
memset(bhp->buf + mfp->clear_len, CLEAR_BYTE,
mfp->stat.st_pagesize - mfp->clear_len);
#endif
}
if (flags == DB_MPOOL_CREATE && mfp->ftype != 0)
F_SET(bhp, BH_CALLPGIN);
++mfp->stat.st_page_create;
} else {
F_SET(bhp, BH_TRASH);
++mfp->stat.st_cache_miss;
}
/* Increment buffer count referenced by MPOOLFILE. */
MUTEX_LOCK(dbenv, &mfp->mutex);
++mfp->block_cnt;
MUTEX_UNLOCK(dbenv, &mfp->mutex);
/*
* Initialize the mutex. This is the last initialization step,
* because it's the only one that can fail, and everything else
* must be set up or we can't jump to the err label because it
* will call __memp_bhfree.
*/
if ((ret = __db_mutex_setup(dbenv,
&dbmp->reginfo[n_cache], &bhp->mutex, 0)) != 0)
goto err;
}
DB_ASSERT(bhp->ref != 0);
/*
* If we're the only reference, update buffer and bucket priorities.
* We may be about to release the hash bucket lock, and everything
* should be correct, first. (We've already done this if we created
* the buffer, so there is no need to do it again.)
*/
if (state != SECOND_MISS && bhp->ref == 1) {
bhp->priority = UINT32_T_MAX;
SH_TAILQ_REMOVE(&hp->hash_bucket, bhp, hq, __bh);
SH_TAILQ_INSERT_TAIL(&hp->hash_bucket, bhp, hq);
hp->hash_priority =
SH_TAILQ_FIRST(&hp->hash_bucket, __bh)->priority;
}
/*
* BH_TRASH --
* The buffer we found may need to be filled from the disk.
*
* It's possible for the read function to fail, which means we fail as
* well. Note, the __memp_pgread() function discards and reacquires
* the hash lock, so the buffer must be pinned down so that it cannot
* move and its contents are unchanged. Discard the buffer on failure
* unless another thread is waiting on our I/O to complete. It's OK to
* leave the buffer around, as the waiting thread will see the BH_TRASH
* flag set, and will also attempt to discard it. If there's a waiter,
* we need to decrement our reference count.
*/
if (F_ISSET(bhp, BH_TRASH) &&
(ret = __memp_pgread(dbmfp,
&hp->hash_mutex, bhp, LF_ISSET(DB_MPOOL_CREATE) ? 1 : 0)) != 0)
goto err;
/*
* BH_CALLPGIN --
* The buffer was processed for being written to disk, and now has
* to be re-converted for use.
*/
if (F_ISSET(bhp, BH_CALLPGIN)) {
if ((ret = __memp_pg(dbmfp, bhp, 1)) != 0)
goto err;
F_CLR(bhp, BH_CALLPGIN);
}
MUTEX_UNLOCK(dbenv, &hp->hash_mutex);
#ifdef DIAGNOSTIC
/* Update the file's pinned reference count. */
R_LOCK(dbenv, dbmp->reginfo);
++dbmfp->pinref;
R_UNLOCK(dbenv, dbmp->reginfo);
/*
* We want to switch threads as often as possible, and at awkward
* times. Yield every time we get a new page to ensure contention.
*/
if (F_ISSET(dbenv, DB_ENV_YIELDCPU))
__os_yield(dbenv, 1);
#endif
*(void **)addrp = bhp->buf;
return (0);
err: /*
* Discard our reference. If we're the only reference, discard the
* the buffer entirely. If we held a reference to a buffer, we are
* also still holding the hash bucket mutex.
*/
if (b_incr) {
if (bhp->ref == 1)
(void)__memp_bhfree(dbmp, hp, bhp, 1);
else {
--bhp->ref;
MUTEX_UNLOCK(dbenv, &hp->hash_mutex);
}
}
/* If alloc_bhp is set, free the memory. */
if (alloc_bhp != NULL) {
R_LOCK(dbenv, &dbmp->reginfo[n_cache]);
__db_shalloc_free(dbmp->reginfo[n_cache].addr, alloc_bhp);
c_mp->stat.st_pages--;
R_UNLOCK(dbenv, &dbmp->reginfo[n_cache]);
}
return (ret);
}
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