diff options
-rw-r--r-- | sys/ufs/ufs/dirhash.h | 3 | ||||
-rw-r--r-- | sys/ufs/ufs/ufs_dirhash.c | 516 |
2 files changed, 291 insertions, 228 deletions
diff --git a/sys/ufs/ufs/dirhash.h b/sys/ufs/ufs/dirhash.h index e819139..5be6872 100644 --- a/sys/ufs/ufs/dirhash.h +++ b/sys/ufs/ufs/dirhash.h @@ -80,12 +80,13 @@ ((dh)->dh_hash[(slot) >> DH_BLKOFFSHIFT][(slot) & DH_BLKOFFMASK]) struct dirhash { - struct mtx dh_mtx; /* protects all fields except dh_list */ + struct lock dh_lock; /* protects all fields except list & score */ doff_t **dh_hash; /* the hash array (2-level) */ int dh_narrays; /* number of entries in dh_hash */ int dh_hlen; /* total slots in the 2-level hash array */ int dh_hused; /* entries in use */ + int dh_memreq; /* Memory used. */ /* Free space statistics. XXX assumes DIRBLKSIZ is 512. */ u_int8_t *dh_blkfree; /* free DIRALIGN words in each dir block */ diff --git a/sys/ufs/ufs/ufs_dirhash.c b/sys/ufs/ufs/ufs_dirhash.c index 093e195..6e25fbb 100644 --- a/sys/ufs/ufs/ufs_dirhash.c +++ b/sys/ufs/ufs/ufs_dirhash.c @@ -38,6 +38,7 @@ __FBSDID("$FreeBSD$"); #include <sys/systm.h> #include <sys/kernel.h> #include <sys/lock.h> +#include <sys/lockmgr.h> #include <sys/mutex.h> #include <sys/malloc.h> #include <sys/fnv_hash.h> @@ -88,15 +89,16 @@ static int ufsdirhash_findslot(struct dirhash *dh, char *name, int namelen, doff_t offset); static doff_t ufsdirhash_getprev(struct direct *dp, doff_t offset); static int ufsdirhash_recycle(int wanted); +static void ufsdirhash_free_locked(struct inode *ip); static uma_zone_t ufsdirhash_zone; #define DIRHASHLIST_LOCK() mtx_lock(&ufsdirhash_mtx) #define DIRHASHLIST_UNLOCK() mtx_unlock(&ufsdirhash_mtx) -#define DIRHASH_LOCK(dh) mtx_lock(&(dh)->dh_mtx) -#define DIRHASH_UNLOCK(dh) mtx_unlock(&(dh)->dh_mtx) #define DIRHASH_BLKALLOC_WAITOK() uma_zalloc(ufsdirhash_zone, M_WAITOK) #define DIRHASH_BLKFREE(ptr) uma_zfree(ufsdirhash_zone, (ptr)) +#define DIRHASH_ASSERT_LOCKED(dh) \ + lockmgr_assert(&(dh)->dh_lock, KA_LOCKED) /* Dirhash list; recently-used entries are near the tail. */ static TAILQ_HEAD(, dirhash) ufsdirhash_list; @@ -105,16 +107,154 @@ static TAILQ_HEAD(, dirhash) ufsdirhash_list; static struct mtx ufsdirhash_mtx; /* - * Locking order: - * ufsdirhash_mtx - * dh_mtx + * Locking: * - * The dh_mtx mutex should be acquired either via the inode lock, or via - * ufsdirhash_mtx. Only the owner of the inode may free the associated - * dirhash, but anything can steal its memory and set dh_hash to NULL. + * The relationship between inode and dirhash is protected either by an + * exclusive vnode lock or the vnode interlock where a shared vnode lock + * may be used. The dirhash_mtx is acquired after the dirhash lock. + * + * ufsdirhash_build() acquires a shared lock on the dirhash when it is + * successful. This lock is released after a call to ufsdirhash_lookup(). + * + * Functions requiring exclusive access use ufsdirhash_acquire() which may + * free a dirhash structure that was recycled by ufsdirhash_recycle(). + * + * The dirhash lock may be held across io operations. */ /* + * Release the lock on a dirhash. + */ +static void +ufsdirhash_release(struct dirhash *dh) +{ + + lockmgr(&dh->dh_lock, LK_RELEASE, 0); +} + +/* + * Either acquire an existing hash locked shared or create a new hash and + * return it exclusively locked. May return NULL if the allocation fails. + * + * The vnode interlock is used to protect the i_dirhash pointer from + * simultaneous access while only a shared vnode lock is held. + */ +static struct dirhash * +ufsdirhash_create(struct inode *ip) +{ + struct dirhash *ndh; + struct dirhash *dh; + struct vnode *vp; + int error; + + error = 0; + ndh = dh = NULL; + vp = ip->i_vnode; + for (;;) { + /* Racy check for i_dirhash to prefetch an dirhash structure. */ + if (ip->i_dirhash == NULL && ndh == NULL) { + MALLOC(ndh, struct dirhash *, sizeof *dh, M_DIRHASH, + M_NOWAIT | M_ZERO); + if (ndh == NULL) + return (NULL); + lockinit(&ndh->dh_lock, PRIBIO, "dirhash", 0, 0); + lockmgr(&ndh->dh_lock, LK_EXCLUSIVE, NULL); + } + /* + * Check i_dirhash. If it's NULL just try to use a + * preallocated structure. If none exists loop and try again. + */ + VI_LOCK(vp); + dh = ip->i_dirhash; + if (dh == NULL) { + ip->i_dirhash = ndh; + VI_UNLOCK(vp); + if (ndh == NULL) + continue; + return (ndh); + } + /* Try to acquire shared on existing hashes. */ + if (lockmgr(&dh->dh_lock, LK_SHARED | LK_INTERLOCK, + VI_MTX(vp))) + continue; + /* The hash could've been recycled while we were waiting. */ + if (ip->i_dirhash != dh) { + ufsdirhash_release(dh); + continue; + } + /* If the hash is still valid we've succeeded. */ + if (dh->dh_hash != NULL) + break; + /* + * If the hash is NULL it has been recycled. Try to upgrade + * so we can recreate it. If we fail the upgrade another + * thread must've already exclusively locked it. + */ + if (lockmgr(&dh->dh_lock, LK_UPGRADE | LK_SLEEPFAIL, NULL) == 0) + break; + } + /* Free the preallocated structure if it was not necessary. */ + if (ndh) { + lockmgr(&ndh->dh_lock, LK_RELEASE, NULL); + lockdestroy(&ndh->dh_lock); + FREE(ndh, M_DIRHASH); + } + return (dh); +} + +/* + * Acquire an exclusive lock on an existing hash. Requires an exclusive + * vnode lock to protect the i_dirhash pointer. hashes that have been + * recycled are reclaimed here and NULL is returned. + */ +static struct dirhash * +ufsdirhash_acquire(struct inode *ip) +{ + struct dirhash *dh; + struct vnode *vp; + + ASSERT_VOP_ELOCKED(ip->i_vnode, __FUNCTION__); + + vp = ip->i_vnode; + dh = ip->i_dirhash; + if (dh == NULL) + return (NULL); + lockmgr(&dh->dh_lock, LK_EXCLUSIVE, 0); + if (dh->dh_hash != NULL) + return (dh); + ufsdirhash_free_locked(ip); + return (NULL); +} + +/* + * Acquire exclusively and free the hash pointed to by ip. Works with a + * shared or exclusive vnode lock. + */ +void +ufsdirhash_free(struct inode *ip) +{ + struct dirhash *dh; + struct vnode *vp; + + vp = ip->i_vnode; + for (;;) { + VI_LOCK(vp); + dh = ip->i_dirhash; + if (dh == NULL) { + VI_UNLOCK(vp); + return; + } + if (lockmgr(&dh->dh_lock, LK_EXCLUSIVE | LK_INTERLOCK, + VI_MTX(vp))) + continue; + if (ip->i_dirhash == dh) + break; + ufsdirhash_release(dh); + } + ufsdirhash_free_locked(ip); +} + +/* * Attempt to build up a hash table for the directory contents in * inode 'ip'. Returns 0 on success, or -1 of the operation failed. */ @@ -128,27 +268,23 @@ ufsdirhash_build(struct inode *ip) doff_t bmask, pos; int dirblocks, i, j, memreqd, nblocks, narrays, nslots, slot; - /* Check if we can/should use dirhash. */ - if (ip->i_dirhash == NULL) { - if (ip->i_size < ufs_mindirhashsize || OFSFMT(ip->i_vnode)) + /* Take care of a decreased sysctl value. */ + while (ufs_dirhashmem > ufs_dirhashmaxmem) + if (ufsdirhash_recycle(0) != 0) return (-1); - } else { - /* Hash exists, but sysctls could have changed. */ - if (ip->i_size < ufs_mindirhashsize || - ufs_dirhashmem > ufs_dirhashmaxmem) { + + /* Check if we can/should use dirhash. */ + if (ip->i_size < ufs_mindirhashsize || OFSFMT(ip->i_vnode) || + ip->i_effnlink == 0) { + if (ip->i_dirhash) ufsdirhash_free(ip); - return (-1); - } - /* Check if hash exists and is intact (note: unlocked read). */ - if (ip->i_dirhash->dh_hash != NULL) - return (0); - /* Free the old, recycled hash and build a new one. */ - ufsdirhash_free(ip); + return (-1); } - - /* Don't hash removed directories. */ - if (ip->i_effnlink == 0) + dh = ufsdirhash_create(ip); + if (dh == NULL) return (-1); + if (dh->dh_hash != NULL) + return (0); vp = ip->i_vnode; /* Allocate 50% more entries than this dir size could ever need. */ @@ -159,7 +295,6 @@ ufsdirhash_build(struct inode *ip) nslots = narrays * DH_NBLKOFF; dirblocks = howmany(ip->i_size, DIRBLKSIZ); nblocks = (dirblocks * 3 + 1) / 2; - memreqd = sizeof(*dh) + narrays * sizeof(*dh->dh_hash) + narrays * DH_NBLKOFF * sizeof(**dh->dh_hash) + nblocks * sizeof(*dh->dh_blkfree); @@ -167,33 +302,40 @@ ufsdirhash_build(struct inode *ip) if (memreqd + ufs_dirhashmem > ufs_dirhashmaxmem) { DIRHASHLIST_UNLOCK(); if (memreqd > ufs_dirhashmaxmem / 2) - return (-1); - + goto fail; /* Try to free some space. */ if (ufsdirhash_recycle(memreqd) != 0) - return (-1); + goto fail; /* Enough was freed, and list has been locked. */ } ufs_dirhashmem += memreqd; DIRHASHLIST_UNLOCK(); + /* Initialise the hash table and block statistics. */ + dh->dh_memreq = memreqd; + dh->dh_narrays = narrays; + dh->dh_hlen = nslots; + dh->dh_nblk = nblocks; + dh->dh_dirblks = dirblocks; + for (i = 0; i < DH_NFSTATS; i++) + dh->dh_firstfree[i] = -1; + dh->dh_firstfree[DH_NFSTATS] = 0; + dh->dh_hused = 0; + dh->dh_seqopt = 0; + dh->dh_seqoff = 0; + dh->dh_score = DH_SCOREINIT; + /* * Use non-blocking mallocs so that we will revert to a linear * lookup on failure rather than potentially blocking forever. */ - MALLOC(dh, struct dirhash *, sizeof *dh, M_DIRHASH, M_NOWAIT | M_ZERO); - if (dh == NULL) { - DIRHASHLIST_LOCK(); - ufs_dirhashmem -= memreqd; - DIRHASHLIST_UNLOCK(); - return (-1); - } - mtx_init(&dh->dh_mtx, "dirhash", NULL, MTX_DEF); MALLOC(dh->dh_hash, doff_t **, narrays * sizeof(dh->dh_hash[0]), M_DIRHASH, M_NOWAIT | M_ZERO); + if (dh->dh_hash == NULL) + goto fail; MALLOC(dh->dh_blkfree, u_int8_t *, nblocks * sizeof(dh->dh_blkfree[0]), M_DIRHASH, M_NOWAIT); - if (dh->dh_hash == NULL || dh->dh_blkfree == NULL) + if (dh->dh_blkfree == NULL) goto fail; for (i = 0; i < narrays; i++) { if ((dh->dh_hash[i] = DIRHASH_BLKALLOC_WAITOK()) == NULL) @@ -201,22 +343,8 @@ ufsdirhash_build(struct inode *ip) for (j = 0; j < DH_NBLKOFF; j++) dh->dh_hash[i][j] = DIRHASH_EMPTY; } - - /* Initialise the hash table and block statistics. */ - dh->dh_narrays = narrays; - dh->dh_hlen = nslots; - dh->dh_nblk = nblocks; - dh->dh_dirblks = dirblocks; for (i = 0; i < dirblocks; i++) dh->dh_blkfree[i] = DIRBLKSIZ / DIRALIGN; - for (i = 0; i < DH_NFSTATS; i++) - dh->dh_firstfree[i] = -1; - dh->dh_firstfree[DH_NFSTATS] = 0; - dh->dh_seqopt = 0; - dh->dh_seqoff = 0; - dh->dh_score = DH_SCOREINIT; - ip->i_dirhash = dh; - bmask = VFSTOUFS(vp->v_mount)->um_mountp->mnt_stat.f_iosize - 1; pos = 0; while (pos < ip->i_size) { @@ -254,63 +382,64 @@ ufsdirhash_build(struct inode *ip) TAILQ_INSERT_TAIL(&ufsdirhash_list, dh, dh_list); dh->dh_onlist = 1; DIRHASHLIST_UNLOCK(); + lockmgr(&dh->dh_lock, LK_DOWNGRADE, 0); return (0); fail: - if (dh->dh_hash != NULL) { - for (i = 0; i < narrays; i++) - if (dh->dh_hash[i] != NULL) - DIRHASH_BLKFREE(dh->dh_hash[i]); - FREE(dh->dh_hash, M_DIRHASH); - } - if (dh->dh_blkfree != NULL) - FREE(dh->dh_blkfree, M_DIRHASH); - mtx_destroy(&dh->dh_mtx); - FREE(dh, M_DIRHASH); - ip->i_dirhash = NULL; - DIRHASHLIST_LOCK(); - ufs_dirhashmem -= memreqd; - DIRHASHLIST_UNLOCK(); + ufsdirhash_free_locked(ip); return (-1); } /* * Free any hash table associated with inode 'ip'. */ -void -ufsdirhash_free(struct inode *ip) +static void +ufsdirhash_free_locked(struct inode *ip) { struct dirhash *dh; - int i, mem; - - if ((dh = ip->i_dirhash) == NULL) - return; - DIRHASHLIST_LOCK(); - DIRHASH_LOCK(dh); - if (dh->dh_onlist) - TAILQ_REMOVE(&ufsdirhash_list, dh, dh_list); - DIRHASH_UNLOCK(dh); - DIRHASHLIST_UNLOCK(); - - /* The dirhash pointed to by 'dh' is exclusively ours now. */ + struct vnode *vp; + int i; - mem = sizeof(*dh); + DIRHASH_ASSERT_LOCKED(ip->i_dirhash); + /* + * Clear the pointer in the inode to prevent new threads from + * finding the dead structure. + */ + vp = ip->i_vnode; + VI_LOCK(vp); + dh = ip->i_dirhash; + ip->i_dirhash = NULL; + VI_UNLOCK(vp); + /* + * Drain waiters. They will abort when they see that ip->i_dirhash + * is NULL after locking. + */ + lockmgr(&dh->dh_lock, LK_RELEASE, 0); + lockmgr(&dh->dh_lock, LK_DRAIN, 0); + /* + * Handle partially recycled as well as fully constructed hashes. + */ if (dh->dh_hash != NULL) { for (i = 0; i < dh->dh_narrays; i++) - DIRHASH_BLKFREE(dh->dh_hash[i]); + if (dh->dh_hash[i] != NULL) + DIRHASH_BLKFREE(dh->dh_hash[i]); FREE(dh->dh_hash, M_DIRHASH); - FREE(dh->dh_blkfree, M_DIRHASH); - mem += dh->dh_narrays * sizeof(*dh->dh_hash) + - dh->dh_narrays * DH_NBLKOFF * sizeof(**dh->dh_hash) + - dh->dh_nblk * sizeof(*dh->dh_blkfree); + if (dh->dh_blkfree != NULL) + FREE(dh->dh_blkfree, M_DIRHASH); } - mtx_destroy(&dh->dh_mtx); - FREE(dh, M_DIRHASH); - ip->i_dirhash = NULL; - DIRHASHLIST_LOCK(); - ufs_dirhashmem -= mem; + if (dh->dh_onlist) + TAILQ_REMOVE(&ufsdirhash_list, dh, dh_list); + ufs_dirhashmem -= dh->dh_memreq; DIRHASHLIST_UNLOCK(); + /* + * Release the lock and reclaim datastructure memory. + */ + lockmgr(&dh->dh_lock, LK_RELEASE, 0); + lockdestroy(&dh->dh_lock); + FREE(dh, M_DIRHASH); + + return; } /* @@ -323,6 +452,8 @@ ufsdirhash_free(struct inode *ip) * prevoffp is non-NULL, the offset of the previous entry within * the DIRBLKSIZ-sized block is stored in *prevoffp (if the entry * is the first in a block, the start of the block is used). + * + * Must be called with the hash locked. Returns with the hash unlocked. */ int ufsdirhash_lookup(struct inode *ip, char *name, int namelen, doff_t *offp, @@ -334,48 +465,36 @@ ufsdirhash_lookup(struct inode *ip, char *name, int namelen, doff_t *offp, struct buf *bp; doff_t blkoff, bmask, offset, prevoff; int i, slot; + int error; - if ((dh = ip->i_dirhash) == NULL) - return (EJUSTRETURN); + dh = ip->i_dirhash; + KASSERT(dh != NULL && dh->dh_hash != NULL, + ("ufsdirhash_lookup: Invalid dirhash %p\n", dh)); + DIRHASH_ASSERT_LOCKED(dh); /* * Move this dirhash towards the end of the list if it has a - * score higher than the next entry, and acquire the dh_mtx. - * Optimise the case where it's already the last by performing - * an unlocked read of the TAILQ_NEXT pointer. - * - * In both cases, end up holding just dh_mtx. + * score higher than the next entry, and acquire the dh_lock. */ + DIRHASHLIST_LOCK(); if (TAILQ_NEXT(dh, dh_list) != NULL) { - DIRHASHLIST_LOCK(); - DIRHASH_LOCK(dh); /* * If the new score will be greater than that of the next * entry, then move this entry past it. With both mutexes * held, dh_next won't go away, but its dh_score could * change; that's not important since it is just a hint. */ - if (dh->dh_hash != NULL && - (dh_next = TAILQ_NEXT(dh, dh_list)) != NULL && + if ((dh_next = TAILQ_NEXT(dh, dh_list)) != NULL && dh->dh_score >= dh_next->dh_score) { KASSERT(dh->dh_onlist, ("dirhash: not on list")); TAILQ_REMOVE(&ufsdirhash_list, dh, dh_list); TAILQ_INSERT_AFTER(&ufsdirhash_list, dh_next, dh, dh_list); } - DIRHASHLIST_UNLOCK(); - } else { - /* Already the last, though that could change as we wait. */ - DIRHASH_LOCK(dh); - } - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); - return (EJUSTRETURN); } - /* Update the score. */ if (dh->dh_score < DH_SCOREMAX) dh->dh_score++; + DIRHASHLIST_UNLOCK(); vp = ip->i_vnode; bmask = VFSTOUFS(vp->v_mount)->um_mountp->mnt_stat.f_iosize - 1; @@ -410,23 +529,23 @@ restart: slot = WRAPINCR(slot, dh->dh_hlen)) { if (offset == DIRHASH_DEL) continue; - DIRHASH_UNLOCK(dh); - if (offset < 0 || offset >= ip->i_size) panic("ufsdirhash_lookup: bad offset in hash array"); if ((offset & ~bmask) != blkoff) { if (bp != NULL) brelse(bp); blkoff = offset & ~bmask; - if (UFS_BLKATOFF(vp, (off_t)blkoff, NULL, &bp) != 0) - return (EJUSTRETURN); + if (UFS_BLKATOFF(vp, (off_t)blkoff, NULL, &bp) != 0) { + error = EJUSTRETURN; + goto fail; + } } dp = (struct direct *)(bp->b_data + (offset & bmask)); if (dp->d_reclen == 0 || dp->d_reclen > DIRBLKSIZ - (offset & (DIRBLKSIZ - 1))) { /* Corrupted directory. */ - brelse(bp); - return (EJUSTRETURN); + error = EJUSTRETURN; + goto fail; } if (dp->d_namlen == namelen && bcmp(dp->d_name, name, namelen) == 0) { @@ -436,8 +555,8 @@ restart: prevoff = ufsdirhash_getprev(dp, offset); if (prevoff == -1) { - brelse(bp); - return (EJUSTRETURN); + error = EJUSTRETURN; + goto fail; } } else prevoff = offset; @@ -448,20 +567,12 @@ restart: if (dh->dh_seqopt == 0 && dh->dh_seqoff == offset) dh->dh_seqopt = 1; dh->dh_seqoff = offset + DIRSIZ(0, dp); - *bpp = bp; *offp = offset; + ufsdirhash_release(dh); return (0); } - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - if (bp != NULL) - brelse(bp); - ufsdirhash_free(ip); - return (EJUSTRETURN); - } /* * When the name doesn't match in the seqopt case, go back * and search normally. @@ -471,10 +582,12 @@ restart: goto restart; } } - DIRHASH_UNLOCK(dh); + error = ENOENT; +fail: + ufsdirhash_release(dh); if (bp != NULL) brelse(bp); - return (ENOENT); + return (error); } /* @@ -502,29 +615,22 @@ ufsdirhash_findfree(struct inode *ip, int slotneeded, int *slotsize) doff_t pos, slotstart; int dirblock, error, freebytes, i; - if ((dh = ip->i_dirhash) == NULL) - return (-1); - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); - return (-1); - } + dh = ip->i_dirhash; + KASSERT(dh != NULL && dh->dh_hash != NULL, + ("ufsdirhash_findfree: Invalid dirhash %p\n", dh)); + DIRHASH_ASSERT_LOCKED(dh); /* Find a directory block with the desired free space. */ dirblock = -1; for (i = howmany(slotneeded, DIRALIGN); i <= DH_NFSTATS; i++) if ((dirblock = dh->dh_firstfree[i]) != -1) break; - if (dirblock == -1) { - DIRHASH_UNLOCK(dh); + if (dirblock == -1) return (-1); - } KASSERT(dirblock < dh->dh_nblk && dh->dh_blkfree[dirblock] >= howmany(slotneeded, DIRALIGN), ("ufsdirhash_findfree: bad stats")); - DIRHASH_UNLOCK(dh); pos = dirblock * DIRBLKSIZ; error = UFS_BLKATOFF(ip->i_vnode, (off_t)pos, (char **)&dp, &bp); if (error) @@ -582,24 +688,18 @@ ufsdirhash_enduseful(struct inode *ip) struct dirhash *dh; int i; - if ((dh = ip->i_dirhash) == NULL) - return (-1); - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); - return (-1); - } + dh = ip->i_dirhash; + DIRHASH_ASSERT_LOCKED(dh); + KASSERT(dh != NULL && dh->dh_hash != NULL, + ("ufsdirhash_enduseful: Invalid dirhash %p\n", dh)); - if (dh->dh_blkfree[dh->dh_dirblks - 1] != DIRBLKSIZ / DIRALIGN) { - DIRHASH_UNLOCK(dh); + if (dh->dh_blkfree[dh->dh_dirblks - 1] != DIRBLKSIZ / DIRALIGN) return (-1); - } for (i = dh->dh_dirblks - 1; i >= 0; i--) if (dh->dh_blkfree[i] != DIRBLKSIZ / DIRALIGN) break; - DIRHASH_UNLOCK(dh); + return ((doff_t)(i + 1) * DIRBLKSIZ); } @@ -614,15 +714,9 @@ ufsdirhash_add(struct inode *ip, struct direct *dirp, doff_t offset) struct dirhash *dh; int slot; - if ((dh = ip->i_dirhash) == NULL) - return; - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); + if ((dh = ufsdirhash_acquire(ip)) == NULL) return; - } - + KASSERT(offset < dh->dh_dirblks * DIRBLKSIZ, ("ufsdirhash_add: bad offset")); /* @@ -630,8 +724,7 @@ ufsdirhash_add(struct inode *ip, struct direct *dirp, doff_t offset) * remove the hash entirely and let it be rebuilt later. */ if (dh->dh_hused >= (dh->dh_hlen * 3) / 4) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); + ufsdirhash_free_locked(ip); return; } @@ -645,7 +738,7 @@ ufsdirhash_add(struct inode *ip, struct direct *dirp, doff_t offset) /* Update the per-block summary info. */ ufsdirhash_adjfree(dh, offset, -DIRSIZ(0, dirp)); - DIRHASH_UNLOCK(dh); + ufsdirhash_release(dh); } /* @@ -659,14 +752,8 @@ ufsdirhash_remove(struct inode *ip, struct direct *dirp, doff_t offset) struct dirhash *dh; int slot; - if ((dh = ip->i_dirhash) == NULL) - return; - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); + if ((dh = ufsdirhash_acquire(ip)) == NULL) return; - } KASSERT(offset < dh->dh_dirblks * DIRBLKSIZ, ("ufsdirhash_remove: bad offset")); @@ -678,7 +765,7 @@ ufsdirhash_remove(struct inode *ip, struct direct *dirp, doff_t offset) /* Update the per-block summary info. */ ufsdirhash_adjfree(dh, offset, DIRSIZ(0, dirp)); - DIRHASH_UNLOCK(dh); + ufsdirhash_release(dh); } /* @@ -692,14 +779,8 @@ ufsdirhash_move(struct inode *ip, struct direct *dirp, doff_t oldoff, struct dirhash *dh; int slot; - if ((dh = ip->i_dirhash) == NULL) + if ((dh = ufsdirhash_acquire(ip)) == NULL) return; - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); - return; - } KASSERT(oldoff < dh->dh_dirblks * DIRBLKSIZ && newoff < dh->dh_dirblks * DIRBLKSIZ, @@ -707,7 +788,7 @@ ufsdirhash_move(struct inode *ip, struct direct *dirp, doff_t oldoff, /* Find the entry, and update the offset. */ slot = ufsdirhash_findslot(dh, dirp->d_name, dirp->d_namlen, oldoff); DH_ENTRY(dh, slot) = newoff; - DIRHASH_UNLOCK(dh); + ufsdirhash_release(dh); } /* @@ -720,22 +801,15 @@ ufsdirhash_newblk(struct inode *ip, doff_t offset) struct dirhash *dh; int block; - if ((dh = ip->i_dirhash) == NULL) - return; - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); + if ((dh = ufsdirhash_acquire(ip)) == NULL) return; - } KASSERT(offset == dh->dh_dirblks * DIRBLKSIZ, ("ufsdirhash_newblk: bad offset")); block = offset / DIRBLKSIZ; if (block >= dh->dh_nblk) { /* Out of space; must rebuild. */ - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); + ufsdirhash_free_locked(ip); return; } dh->dh_dirblks = block + 1; @@ -744,7 +818,7 @@ ufsdirhash_newblk(struct inode *ip, doff_t offset) dh->dh_blkfree[block] = DIRBLKSIZ / DIRALIGN; if (dh->dh_firstfree[DH_NFSTATS] == -1) dh->dh_firstfree[DH_NFSTATS] = block; - DIRHASH_UNLOCK(dh); + ufsdirhash_release(dh); } /* @@ -756,14 +830,8 @@ ufsdirhash_dirtrunc(struct inode *ip, doff_t offset) struct dirhash *dh; int block, i; - if ((dh = ip->i_dirhash) == NULL) - return; - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); + if ((dh = ufsdirhash_acquire(ip)) == NULL) return; - } KASSERT(offset <= dh->dh_dirblks * DIRBLKSIZ, ("ufsdirhash_dirtrunc: bad offset")); @@ -775,8 +843,7 @@ ufsdirhash_dirtrunc(struct inode *ip, doff_t offset) * if necessary. */ if (block < dh->dh_nblk / 8 && dh->dh_narrays > 1) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); + ufsdirhash_free_locked(ip); return; } @@ -794,7 +861,7 @@ ufsdirhash_dirtrunc(struct inode *ip, doff_t offset) if (dh->dh_firstfree[i] >= block) panic("ufsdirhash_dirtrunc: first free corrupt"); dh->dh_dirblks = block; - DIRHASH_UNLOCK(dh); + ufsdirhash_release(dh); } /* @@ -815,14 +882,8 @@ ufsdirhash_checkblock(struct inode *ip, char *buf, doff_t offset) if (!ufs_dirhashcheck) return; - if ((dh = ip->i_dirhash) == NULL) + if ((dh = ufsdirhash_acquire(ip)) == NULL) return; - DIRHASH_LOCK(dh); - if (dh->dh_hash == NULL) { - DIRHASH_UNLOCK(dh); - ufsdirhash_free(ip); - return; - } block = offset / DIRBLKSIZ; if ((offset & (DIRBLKSIZ - 1)) != 0 || block >= dh->dh_dirblks) @@ -866,7 +927,7 @@ ufsdirhash_checkblock(struct inode *ip, char *buf, doff_t offset) panic("ufsdirhash_checkblock: bad first-free"); if (dh->dh_firstfree[ffslot] == -1) panic("ufsdirhash_checkblock: missing first-free entry"); - DIRHASH_UNLOCK(dh); + ufsdirhash_release(dh); } /* @@ -893,7 +954,7 @@ ufsdirhash_hash(struct dirhash *dh, char *name, int namelen) * by the value specified by `diff'. * * The caller must ensure we have exclusive access to `dh'; normally - * that means that dh_mtx should be held, but this is also called + * that means that dh_lock should be held, but this is also called * from ufsdirhash_build() where exclusive access can be assumed. */ static void @@ -937,7 +998,7 @@ ufsdirhash_findslot(struct dirhash *dh, char *name, int namelen, doff_t offset) { int slot; - mtx_assert(&dh->dh_mtx, MA_OWNED); + DIRHASH_ASSERT_LOCKED(dh); /* Find the entry. */ KASSERT(dh->dh_hused < dh->dh_hlen, ("dirhash find full")); @@ -961,7 +1022,7 @@ ufsdirhash_delslot(struct dirhash *dh, int slot) { int i; - mtx_assert(&dh->dh_mtx, MA_OWNED); + DIRHASH_ASSERT_LOCKED(dh); /* Mark the entry as deleted. */ DH_ENTRY(dh, slot) = DIRHASH_DEL; @@ -1026,21 +1087,22 @@ ufsdirhash_recycle(int wanted) int i, mem, narrays; DIRHASHLIST_LOCK(); + dh = TAILQ_FIRST(&ufsdirhash_list); while (wanted + ufs_dirhashmem > ufs_dirhashmaxmem) { - /* Find a dirhash, and lock it. */ - if ((dh = TAILQ_FIRST(&ufsdirhash_list)) == NULL) { - DIRHASHLIST_UNLOCK(); - return (-1); - } - DIRHASH_LOCK(dh); - KASSERT(dh->dh_hash != NULL, ("dirhash: NULL hash on list")); - /* Decrement the score; only recycle if it becomes zero. */ - if (--dh->dh_score > 0) { - DIRHASH_UNLOCK(dh); + if (dh == NULL || --dh->dh_score > 0) { DIRHASHLIST_UNLOCK(); return (-1); } + /* + * If we can't lock it it's in use and we don't want to + * recycle it anyway. + */ + if (lockmgr(&dh->dh_lock, LK_EXCLUSIVE | LK_NOWAIT, NULL)) { + dh = TAILQ_NEXT(dh, dh_list); + continue; + } + KASSERT(dh->dh_hash != NULL, ("dirhash: NULL hash on list")); /* Remove it from the list and detach its memory. */ TAILQ_REMOVE(&ufsdirhash_list, dh, dh_list); @@ -1050,12 +1112,11 @@ ufsdirhash_recycle(int wanted) blkfree = dh->dh_blkfree; dh->dh_blkfree = NULL; narrays = dh->dh_narrays; - mem = narrays * sizeof(*dh->dh_hash) + - narrays * DH_NBLKOFF * sizeof(**dh->dh_hash) + - dh->dh_nblk * sizeof(*dh->dh_blkfree); + mem = dh->dh_memreq; + dh->dh_memreq = 0; /* Unlock everything, free the detached memory. */ - DIRHASH_UNLOCK(dh); + ufsdirhash_release(dh); DIRHASHLIST_UNLOCK(); for (i = 0; i < narrays; i++) DIRHASH_BLKFREE(hash[i]); @@ -1065,6 +1126,7 @@ ufsdirhash_recycle(int wanted) /* Account for the returned memory, and repeat if necessary. */ DIRHASHLIST_LOCK(); ufs_dirhashmem -= mem; + dh = TAILQ_FIRST(&ufsdirhash_list); } /* Success; return with list locked. */ return (0); |