Annotation of src/sys/ufs/ufs/ufs_dirhash.c, Revision 1.37
1.37 ! christos 1: /* $NetBSD: ufs_dirhash.c,v 1.36 2014/02/25 18:30:13 pooka Exp $ */
1.1 rumble 2:
3: /*
4: * Copyright (c) 2001, 2002 Ian Dowse. All rights reserved.
5: *
6: * Redistribution and use in source and binary forms, with or without
7: * modification, are permitted provided that the following conditions
8: * are met:
9: * 1. Redistributions of source code must retain the above copyright
10: * notice, this list of conditions and the following disclaimer.
11: * 2. Redistributions in binary form must reproduce the above copyright
12: * notice, this list of conditions and the following disclaimer in the
13: * documentation and/or other materials provided with the distribution.
14: *
15: * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
16: * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
17: * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
18: * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
19: * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
20: * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
21: * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22: * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
23: * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
24: * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
25: * SUCH DAMAGE.
26: *
27: * $FreeBSD: src/sys/ufs/ufs/ufs_dirhash.c,v 1.3.2.8 2004/12/08 11:54:13 dwmalone Exp $
28: */
29:
1.19 rumble 30: #include <sys/cdefs.h>
1.37 ! christos 31: __KERNEL_RCSID(0, "$NetBSD: ufs_dirhash.c,v 1.36 2014/02/25 18:30:13 pooka Exp $");
1.19 rumble 32:
1.1 rumble 33: /*
34: * This implements a hash-based lookup scheme for UFS directories.
35: */
36:
37: #include <sys/param.h>
38: #include <sys/systm.h>
39: #include <sys/kernel.h>
1.23 ad 40: #include <sys/kmem.h>
1.1 rumble 41: #include <sys/types.h>
42: #include <sys/hash.h>
43: #include <sys/proc.h>
44: #include <sys/buf.h>
45: #include <sys/vnode.h>
46: #include <sys/mount.h>
47: #include <sys/pool.h>
48: #include <sys/sysctl.h>
1.23 ad 49: #include <sys/atomic.h>
1.1 rumble 50:
51: #include <ufs/ufs/inode.h>
52: #include <ufs/ufs/dir.h>
53: #include <ufs/ufs/dirhash.h>
54: #include <ufs/ufs/ufsmount.h>
55: #include <ufs/ufs/ufs_bswap.h>
56: #include <ufs/ufs/ufs_extern.h>
57:
58: #define WRAPINCR(val, limit) (((val) + 1 == (limit)) ? 0 : ((val) + 1))
59: #define WRAPDECR(val, limit) (((val) == 0) ? ((limit) - 1) : ((val) - 1))
60: #define OFSFMT(ip) ((ip)->i_ump->um_maxsymlinklen <= 0)
61: #define BLKFREE2IDX(n) ((n) > DH_NFSTATS ? DH_NFSTATS : (n))
62:
1.23 ad 63: static u_int ufs_dirhashminblks = 5;
64: static u_int ufs_dirhashmaxmem = 2 * 1024 * 1024;
65: static u_int ufs_dirhashmem;
66: static u_int ufs_dirhashcheck = 0;
1.1 rumble 67:
68: static int ufsdirhash_hash(struct dirhash *dh, const char *name, int namelen);
69: static void ufsdirhash_adjfree(struct dirhash *dh, doff_t offset, int diff,
70: int dirblksiz);
71: static void ufsdirhash_delslot(struct dirhash *dh, int slot);
72: static int ufsdirhash_findslot(struct dirhash *dh, const char *name,
73: int namelen, doff_t offset);
74: static doff_t ufsdirhash_getprev(struct direct *dp, doff_t offset,
75: int dirblksiz);
76: static int ufsdirhash_recycle(int wanted);
77:
1.23 ad 78: static pool_cache_t ufsdirhashblk_cache;
1.21 ad 79: static pool_cache_t ufsdirhash_cache;
1.1 rumble 80:
1.16 ad 81: #define DIRHASHLIST_LOCK() mutex_enter(&ufsdirhash_lock)
82: #define DIRHASHLIST_UNLOCK() mutex_exit(&ufsdirhash_lock)
83: #define DIRHASH_LOCK(dh) mutex_enter(&(dh)->dh_lock)
84: #define DIRHASH_UNLOCK(dh) mutex_exit(&(dh)->dh_lock)
1.23 ad 85: #define DIRHASH_BLKALLOC() \
86: pool_cache_get(ufsdirhashblk_cache, PR_NOWAIT)
1.21 ad 87: #define DIRHASH_BLKFREE(ptr) \
1.23 ad 88: pool_cache_put(ufsdirhashblk_cache, ptr)
1.1 rumble 89:
90: /* Dirhash list; recently-used entries are near the tail. */
91: static TAILQ_HEAD(, dirhash) ufsdirhash_list;
92:
1.16 ad 93: /* Protects: ufsdirhash_list, `dh_list' field, ufs_dirhashmem. */
94: static kmutex_t ufsdirhash_lock;
95:
1.26 rumble 96: static struct sysctllog *ufsdirhash_sysctl_log;
97:
1.16 ad 98: /*
99: * Locking order:
100: * ufsdirhash_lock
101: * dh_lock
102: *
103: * The dh_lock mutex should be acquired either via the inode lock, or via
104: * ufsdirhash_lock. Only the owner of the inode may free the associated
105: * dirhash, but anything can steal its memory and set dh_hash to NULL.
106: */
107:
1.1 rumble 108: /*
109: * Attempt to build up a hash table for the directory contents in
110: * inode 'ip'. Returns 0 on success, or -1 of the operation failed.
111: */
112: int
113: ufsdirhash_build(struct inode *ip)
114: {
115: struct dirhash *dh;
116: struct buf *bp = NULL;
117: struct direct *ep;
118: struct vnode *vp;
119: doff_t bmask, pos;
120: int dirblocks, i, j, memreqd, nblocks, narrays, nslots, slot;
1.2 perry 121: const int needswap = UFS_MPNEEDSWAP(ip->i_ump);
1.1 rumble 122: int dirblksiz = ip->i_ump->um_dirblksiz;
123:
124: /* Check if we can/should use dirhash. */
125: if (ip->i_dirhash == NULL) {
126: if (ip->i_size < (ufs_dirhashminblks * dirblksiz) || OFSFMT(ip))
127: return (-1);
128: } else {
129: /* Hash exists, but sysctls could have changed. */
130: if (ip->i_size < (ufs_dirhashminblks * dirblksiz) ||
131: ufs_dirhashmem > ufs_dirhashmaxmem) {
132: ufsdirhash_free(ip);
133: return (-1);
134: }
135: /* Check if hash exists and is intact (note: unlocked read). */
136: if (ip->i_dirhash->dh_hash != NULL)
137: return (0);
138: /* Free the old, recycled hash and build a new one. */
139: ufsdirhash_free(ip);
140: }
141:
142: /* Don't hash removed directories. */
1.28 ad 143: if (ip->i_nlink == 0)
1.1 rumble 144: return (-1);
145:
146: vp = ip->i_vnode;
147: /* Allocate 50% more entries than this dir size could ever need. */
148: KASSERT(ip->i_size >= dirblksiz);
1.35 dholland 149: nslots = ip->i_size / UFS_DIRECTSIZ(1);
1.1 rumble 150: nslots = (nslots * 3 + 1) / 2;
151: narrays = howmany(nslots, DH_NBLKOFF);
152: nslots = narrays * DH_NBLKOFF;
153: dirblocks = howmany(ip->i_size, dirblksiz);
154: nblocks = (dirblocks * 3 + 1) / 2;
155:
156: memreqd = sizeof(*dh) + narrays * sizeof(*dh->dh_hash) +
157: narrays * DH_NBLKOFF * sizeof(**dh->dh_hash) +
158: nblocks * sizeof(*dh->dh_blkfree);
1.23 ad 159:
160: while (atomic_add_int_nv(&ufs_dirhashmem, memreqd) >
161: ufs_dirhashmaxmem) {
162: atomic_add_int(&ufs_dirhashmem, -memreqd);
1.1 rumble 163: if (memreqd > ufs_dirhashmaxmem / 2)
164: return (-1);
165: /* Try to free some space. */
166: if (ufsdirhash_recycle(memreqd) != 0)
167: return (-1);
1.24 skd 168: else
169: DIRHASHLIST_UNLOCK();
1.1 rumble 170: }
171:
172: /*
173: * Use non-blocking mallocs so that we will revert to a linear
174: * lookup on failure rather than potentially blocking forever.
175: */
1.23 ad 176: dh = pool_cache_get(ufsdirhash_cache, PR_NOWAIT);
1.1 rumble 177: if (dh == NULL) {
1.23 ad 178: atomic_add_int(&ufs_dirhashmem, -memreqd);
1.1 rumble 179: return (-1);
180: }
1.23 ad 181: memset(dh, 0, sizeof(*dh));
1.16 ad 182: mutex_init(&dh->dh_lock, MUTEX_DEFAULT, IPL_NONE);
1.25 skd 183: DIRHASH_LOCK(dh);
1.23 ad 184: dh->dh_hashsz = narrays * sizeof(dh->dh_hash[0]);
185: dh->dh_hash = kmem_zalloc(dh->dh_hashsz, KM_NOSLEEP);
186: dh->dh_blkfreesz = nblocks * sizeof(dh->dh_blkfree[0]);
187: dh->dh_blkfree = kmem_zalloc(dh->dh_blkfreesz, KM_NOSLEEP);
1.1 rumble 188: if (dh->dh_hash == NULL || dh->dh_blkfree == NULL)
189: goto fail;
190: for (i = 0; i < narrays; i++) {
1.23 ad 191: if ((dh->dh_hash[i] = DIRHASH_BLKALLOC()) == NULL)
1.1 rumble 192: goto fail;
193: for (j = 0; j < DH_NBLKOFF; j++)
194: dh->dh_hash[i][j] = DIRHASH_EMPTY;
195: }
196:
197: /* Initialise the hash table and block statistics. */
198: dh->dh_narrays = narrays;
199: dh->dh_hlen = nslots;
200: dh->dh_nblk = nblocks;
201: dh->dh_dirblks = dirblocks;
202: for (i = 0; i < dirblocks; i++)
203: dh->dh_blkfree[i] = dirblksiz / DIRALIGN;
204: for (i = 0; i < DH_NFSTATS; i++)
205: dh->dh_firstfree[i] = -1;
206: dh->dh_firstfree[DH_NFSTATS] = 0;
207: dh->dh_seqopt = 0;
208: dh->dh_seqoff = 0;
209: dh->dh_score = DH_SCOREINIT;
210: ip->i_dirhash = dh;
211:
212: bmask = VFSTOUFS(vp->v_mount)->um_mountp->mnt_stat.f_iosize - 1;
213: pos = 0;
214: while (pos < ip->i_size) {
1.8 yamt 215: if ((curcpu()->ci_schedstate.spc_flags & SPCF_SHOULDYIELD)
216: != 0) {
1.12 ad 217: preempt();
1.8 yamt 218: }
1.1 rumble 219: /* If necessary, get the next directory block. */
220: if ((pos & bmask) == 0) {
221: if (bp != NULL)
1.20 ad 222: brelse(bp, 0);
1.22 hannken 223: if (ufs_blkatoff(vp, (off_t)pos, NULL, &bp, false) != 0)
1.1 rumble 224: goto fail;
225: }
226:
227: /* Add this entry to the hash. */
228: ep = (struct direct *)((char *)bp->b_data + (pos & bmask));
229: if (ep->d_reclen == 0 || ep->d_reclen >
230: dirblksiz - (pos & (dirblksiz - 1))) {
231: /* Corrupted directory. */
1.20 ad 232: brelse(bp, 0);
1.1 rumble 233: goto fail;
234: }
235: if (ep->d_ino != 0) {
236: /* Add the entry (simplified ufsdirhash_add). */
237: slot = ufsdirhash_hash(dh, ep->d_name, ep->d_namlen);
238: while (DH_ENTRY(dh, slot) != DIRHASH_EMPTY)
239: slot = WRAPINCR(slot, dh->dh_hlen);
240: dh->dh_hused++;
241: DH_ENTRY(dh, slot) = pos;
1.35 dholland 242: ufsdirhash_adjfree(dh, pos, -UFS_DIRSIZ(0, ep, needswap),
1.1 rumble 243: dirblksiz);
244: }
245: pos += ep->d_reclen;
246: }
247:
248: if (bp != NULL)
1.20 ad 249: brelse(bp, 0);
1.1 rumble 250: DIRHASHLIST_LOCK();
251: TAILQ_INSERT_TAIL(&ufsdirhash_list, dh, dh_list);
252: dh->dh_onlist = 1;
1.25 skd 253: DIRHASH_UNLOCK(dh);
1.1 rumble 254: DIRHASHLIST_UNLOCK();
255: return (0);
256:
257: fail:
1.37 ! christos 258: ip->i_dirhash = NULL;
1.27 ad 259: DIRHASH_UNLOCK(dh);
1.1 rumble 260: if (dh->dh_hash != NULL) {
261: for (i = 0; i < narrays; i++)
262: if (dh->dh_hash[i] != NULL)
263: DIRHASH_BLKFREE(dh->dh_hash[i]);
1.23 ad 264: kmem_free(dh->dh_hash, dh->dh_hashsz);
1.1 rumble 265: }
266: if (dh->dh_blkfree != NULL)
1.23 ad 267: kmem_free(dh->dh_blkfree, dh->dh_blkfreesz);
1.16 ad 268: mutex_destroy(&dh->dh_lock);
1.23 ad 269: pool_cache_put(ufsdirhash_cache, dh);
270: atomic_add_int(&ufs_dirhashmem, -memreqd);
1.1 rumble 271: return (-1);
272: }
273:
274: /*
275: * Free any hash table associated with inode 'ip'.
276: */
277: void
278: ufsdirhash_free(struct inode *ip)
279: {
280: struct dirhash *dh;
281: int i, mem;
282:
283: if ((dh = ip->i_dirhash) == NULL)
284: return;
1.23 ad 285:
1.37 ! christos 286: ip->i_dirhash = NULL;
! 287:
1.23 ad 288: if (dh->dh_onlist) {
289: DIRHASHLIST_LOCK();
290: if (dh->dh_onlist)
291: TAILQ_REMOVE(&ufsdirhash_list, dh, dh_list);
292: DIRHASHLIST_UNLOCK();
293: }
1.1 rumble 294:
295: /* The dirhash pointed to by 'dh' is exclusively ours now. */
296: mem = sizeof(*dh);
297: if (dh->dh_hash != NULL) {
298: for (i = 0; i < dh->dh_narrays; i++)
299: DIRHASH_BLKFREE(dh->dh_hash[i]);
1.23 ad 300: kmem_free(dh->dh_hash, dh->dh_hashsz);
301: kmem_free(dh->dh_blkfree, dh->dh_blkfreesz);
302: mem += dh->dh_hashsz;
303: mem += dh->dh_narrays * DH_NBLKOFF * sizeof(**dh->dh_hash);
304: mem += dh->dh_nblk * sizeof(*dh->dh_blkfree);
1.1 rumble 305: }
1.16 ad 306: mutex_destroy(&dh->dh_lock);
1.23 ad 307: pool_cache_put(ufsdirhash_cache, dh);
1.1 rumble 308:
1.23 ad 309: atomic_add_int(&ufs_dirhashmem, -mem);
1.1 rumble 310: }
311:
312: /*
313: * Find the offset of the specified name within the given inode.
314: * Returns 0 on success, ENOENT if the entry does not exist, or
315: * EJUSTRETURN if the caller should revert to a linear search.
316: *
317: * If successful, the directory offset is stored in *offp, and a
318: * pointer to a struct buf containing the entry is stored in *bpp. If
319: * prevoffp is non-NULL, the offset of the previous entry within
1.35 dholland 320: * the UFS_DIRBLKSIZ-sized block is stored in *prevoffp (if the entry
1.1 rumble 321: * is the first in a block, the start of the block is used).
322: */
323: int
324: ufsdirhash_lookup(struct inode *ip, const char *name, int namelen, doff_t *offp,
325: struct buf **bpp, doff_t *prevoffp)
326: {
327: struct dirhash *dh, *dh_next;
328: struct direct *dp;
329: struct vnode *vp;
330: struct buf *bp;
331: doff_t blkoff, bmask, offset, prevoff;
332: int i, slot;
1.2 perry 333: const int needswap = UFS_MPNEEDSWAP(ip->i_ump);
1.1 rumble 334: int dirblksiz = ip->i_ump->um_dirblksiz;
335:
336: if ((dh = ip->i_dirhash) == NULL)
337: return (EJUSTRETURN);
1.23 ad 338:
1.1 rumble 339: /*
340: * Move this dirhash towards the end of the list if it has a
1.16 ad 341: * score higher than the next entry, and acquire the dh_lock.
1.1 rumble 342: * Optimise the case where it's already the last by performing
343: * an unlocked read of the TAILQ_NEXT pointer.
344: *
1.16 ad 345: * In both cases, end up holding just dh_lock.
1.1 rumble 346: */
347: if (TAILQ_NEXT(dh, dh_list) != NULL) {
348: DIRHASHLIST_LOCK();
349: DIRHASH_LOCK(dh);
350: /*
351: * If the new score will be greater than that of the next
352: * entry, then move this entry past it. With both mutexes
353: * held, dh_next won't go away, but its dh_score could
354: * change; that's not important since it is just a hint.
355: */
356: if (dh->dh_hash != NULL &&
357: (dh_next = TAILQ_NEXT(dh, dh_list)) != NULL &&
358: dh->dh_score >= dh_next->dh_score) {
359: KASSERT(dh->dh_onlist);
360: TAILQ_REMOVE(&ufsdirhash_list, dh, dh_list);
361: TAILQ_INSERT_AFTER(&ufsdirhash_list, dh_next, dh,
362: dh_list);
363: }
364: DIRHASHLIST_UNLOCK();
365: } else {
366: /* Already the last, though that could change as we wait. */
367: DIRHASH_LOCK(dh);
368: }
369: if (dh->dh_hash == NULL) {
370: DIRHASH_UNLOCK(dh);
371: ufsdirhash_free(ip);
372: return (EJUSTRETURN);
373: }
374:
375: /* Update the score. */
376: if (dh->dh_score < DH_SCOREMAX)
377: dh->dh_score++;
378:
379: vp = ip->i_vnode;
380: bmask = VFSTOUFS(vp->v_mount)->um_mountp->mnt_stat.f_iosize - 1;
381: blkoff = -1;
382: bp = NULL;
383: restart:
384: slot = ufsdirhash_hash(dh, name, namelen);
385:
386: if (dh->dh_seqopt) {
387: /*
388: * Sequential access optimisation. dh_seqoff contains the
389: * offset of the directory entry immediately following
390: * the last entry that was looked up. Check if this offset
391: * appears in the hash chain for the name we are looking for.
392: */
393: for (i = slot; (offset = DH_ENTRY(dh, i)) != DIRHASH_EMPTY;
394: i = WRAPINCR(i, dh->dh_hlen))
395: if (offset == dh->dh_seqoff)
396: break;
397: if (offset == dh->dh_seqoff) {
398: /*
399: * We found an entry with the expected offset. This
400: * is probably the entry we want, but if not, the
401: * code below will turn off seqoff and retry.
1.2 perry 402: */
1.1 rumble 403: slot = i;
1.2 perry 404: } else
1.1 rumble 405: dh->dh_seqopt = 0;
406: }
407:
408: for (; (offset = DH_ENTRY(dh, slot)) != DIRHASH_EMPTY;
409: slot = WRAPINCR(slot, dh->dh_hlen)) {
410: if (offset == DIRHASH_DEL)
411: continue;
412:
413: if (offset < 0 || offset >= ip->i_size)
414: panic("ufsdirhash_lookup: bad offset in hash array");
415: if ((offset & ~bmask) != blkoff) {
416: if (bp != NULL)
1.20 ad 417: brelse(bp, 0);
1.1 rumble 418: blkoff = offset & ~bmask;
1.22 hannken 419: if (ufs_blkatoff(vp, (off_t)blkoff,
1.33 hannken 420: NULL, &bp, false) != 0) {
1.23 ad 421: DIRHASH_UNLOCK(dh);
1.1 rumble 422: return (EJUSTRETURN);
1.23 ad 423: }
1.1 rumble 424: }
1.13 christos 425: dp = (struct direct *)((char *)bp->b_data + (offset & bmask));
1.1 rumble 426: if (dp->d_reclen == 0 || dp->d_reclen >
427: dirblksiz - (offset & (dirblksiz - 1))) {
428: /* Corrupted directory. */
1.23 ad 429: DIRHASH_UNLOCK(dh);
1.20 ad 430: brelse(bp, 0);
1.1 rumble 431: return (EJUSTRETURN);
432: }
433: if (dp->d_namlen == namelen &&
1.30 cegger 434: memcmp(dp->d_name, name, namelen) == 0) {
1.1 rumble 435: /* Found. Get the prev offset if needed. */
436: if (prevoffp != NULL) {
437: if (offset & (dirblksiz - 1)) {
438: prevoff = ufsdirhash_getprev(dp,
439: offset, dirblksiz);
440: if (prevoff == -1) {
1.20 ad 441: brelse(bp, 0);
1.1 rumble 442: return (EJUSTRETURN);
443: }
444: } else
445: prevoff = offset;
446: *prevoffp = prevoff;
447: }
448:
449: /* Check for sequential access, and update offset. */
450: if (dh->dh_seqopt == 0 && dh->dh_seqoff == offset)
451: dh->dh_seqopt = 1;
1.35 dholland 452: dh->dh_seqoff = offset + UFS_DIRSIZ(0, dp, needswap);
1.23 ad 453: DIRHASH_UNLOCK(dh);
1.1 rumble 454:
455: *bpp = bp;
456: *offp = offset;
457: return (0);
458: }
459:
460: if (dh->dh_hash == NULL) {
461: DIRHASH_UNLOCK(dh);
462: if (bp != NULL)
1.20 ad 463: brelse(bp, 0);
1.1 rumble 464: ufsdirhash_free(ip);
465: return (EJUSTRETURN);
466: }
467: /*
468: * When the name doesn't match in the seqopt case, go back
469: * and search normally.
470: */
471: if (dh->dh_seqopt) {
472: dh->dh_seqopt = 0;
473: goto restart;
474: }
475: }
476: DIRHASH_UNLOCK(dh);
477: if (bp != NULL)
1.20 ad 478: brelse(bp, 0);
1.1 rumble 479: return (ENOENT);
480: }
481:
482: /*
483: * Find a directory block with room for 'slotneeded' bytes. Returns
484: * the offset of the directory entry that begins the free space.
485: * This will either be the offset of an existing entry that has free
486: * space at the end, or the offset of an entry with d_ino == 0 at
1.35 dholland 487: * the start of a UFS_DIRBLKSIZ block.
1.1 rumble 488: *
489: * To use the space, the caller may need to compact existing entries in
490: * the directory. The total number of bytes in all of the entries involved
491: * in the compaction is stored in *slotsize. In other words, all of
492: * the entries that must be compacted are exactly contained in the
493: * region beginning at the returned offset and spanning *slotsize bytes.
494: *
495: * Returns -1 if no space was found, indicating that the directory
496: * must be extended.
497: */
498: doff_t
499: ufsdirhash_findfree(struct inode *ip, int slotneeded, int *slotsize)
500: {
501: struct direct *dp;
502: struct dirhash *dh;
503: struct buf *bp;
504: doff_t pos, slotstart;
505: int dirblock, error, freebytes, i;
1.2 perry 506: const int needswap = UFS_MPNEEDSWAP(ip->i_ump);
1.1 rumble 507: int dirblksiz = ip->i_ump->um_dirblksiz;
508:
509: if ((dh = ip->i_dirhash) == NULL)
510: return (-1);
1.23 ad 511:
1.1 rumble 512: DIRHASH_LOCK(dh);
513: if (dh->dh_hash == NULL) {
514: DIRHASH_UNLOCK(dh);
515: ufsdirhash_free(ip);
516: return (-1);
517: }
518:
519: /* Find a directory block with the desired free space. */
520: dirblock = -1;
521: for (i = howmany(slotneeded, DIRALIGN); i <= DH_NFSTATS; i++)
522: if ((dirblock = dh->dh_firstfree[i]) != -1)
523: break;
524: if (dirblock == -1) {
525: DIRHASH_UNLOCK(dh);
526: return (-1);
527: }
528:
529: KASSERT(dirblock < dh->dh_nblk &&
530: dh->dh_blkfree[dirblock] >= howmany(slotneeded, DIRALIGN));
531: pos = dirblock * dirblksiz;
1.22 hannken 532: error = ufs_blkatoff(ip->i_vnode, (off_t)pos, (void *)&dp, &bp, false);
1.23 ad 533: if (error) {
534: DIRHASH_UNLOCK(dh);
1.1 rumble 535: return (-1);
1.23 ad 536: }
1.1 rumble 537: /* Find the first entry with free space. */
538: for (i = 0; i < dirblksiz; ) {
539: if (dp->d_reclen == 0) {
1.23 ad 540: DIRHASH_UNLOCK(dh);
1.20 ad 541: brelse(bp, 0);
1.1 rumble 542: return (-1);
543: }
1.35 dholland 544: if (dp->d_ino == 0 || dp->d_reclen > UFS_DIRSIZ(0, dp, needswap))
1.1 rumble 545: break;
546: i += dp->d_reclen;
547: dp = (struct direct *)((char *)dp + dp->d_reclen);
548: }
549: if (i > dirblksiz) {
1.23 ad 550: DIRHASH_UNLOCK(dh);
1.20 ad 551: brelse(bp, 0);
1.1 rumble 552: return (-1);
553: }
554: slotstart = pos + i;
555:
556: /* Find the range of entries needed to get enough space */
557: freebytes = 0;
558: while (i < dirblksiz && freebytes < slotneeded) {
559: freebytes += dp->d_reclen;
560: if (dp->d_ino != 0)
1.35 dholland 561: freebytes -= UFS_DIRSIZ(0, dp, needswap);
1.1 rumble 562: if (dp->d_reclen == 0) {
1.23 ad 563: DIRHASH_UNLOCK(dh);
1.20 ad 564: brelse(bp, 0);
1.1 rumble 565: return (-1);
566: }
567: i += dp->d_reclen;
568: dp = (struct direct *)((char *)dp + dp->d_reclen);
569: }
570: if (i > dirblksiz) {
1.23 ad 571: DIRHASH_UNLOCK(dh);
1.20 ad 572: brelse(bp, 0);
1.1 rumble 573: return (-1);
574: }
575: if (freebytes < slotneeded)
576: panic("ufsdirhash_findfree: free mismatch");
1.23 ad 577: DIRHASH_UNLOCK(dh);
1.20 ad 578: brelse(bp, 0);
1.1 rumble 579: *slotsize = pos + i - slotstart;
580: return (slotstart);
581: }
582:
583: /*
584: * Return the start of the unused space at the end of a directory, or
585: * -1 if there are no trailing unused blocks.
586: */
587: doff_t
588: ufsdirhash_enduseful(struct inode *ip)
589: {
590: struct dirhash *dh;
591: int i;
592: int dirblksiz = ip->i_ump->um_dirblksiz;
593:
594: if ((dh = ip->i_dirhash) == NULL)
595: return (-1);
1.23 ad 596:
1.1 rumble 597: DIRHASH_LOCK(dh);
598: if (dh->dh_hash == NULL) {
599: DIRHASH_UNLOCK(dh);
600: ufsdirhash_free(ip);
601: return (-1);
602: }
603:
604: if (dh->dh_blkfree[dh->dh_dirblks - 1] != dirblksiz / DIRALIGN) {
605: DIRHASH_UNLOCK(dh);
606: return (-1);
607: }
608:
609: for (i = dh->dh_dirblks - 1; i >= 0; i--)
610: if (dh->dh_blkfree[i] != dirblksiz / DIRALIGN)
611: break;
612: DIRHASH_UNLOCK(dh);
613: return ((doff_t)(i + 1) * dirblksiz);
614: }
615:
616: /*
617: * Insert information into the hash about a new directory entry. dirp
618: * points to a struct direct containing the entry, and offset specifies
619: * the offset of this entry.
620: */
621: void
622: ufsdirhash_add(struct inode *ip, struct direct *dirp, doff_t offset)
623: {
624: struct dirhash *dh;
625: int slot;
626: const int needswap = UFS_MPNEEDSWAP(ip->i_ump);
627: int dirblksiz = ip->i_ump->um_dirblksiz;
628:
629: if ((dh = ip->i_dirhash) == NULL)
630: return;
1.23 ad 631:
1.1 rumble 632: DIRHASH_LOCK(dh);
633: if (dh->dh_hash == NULL) {
634: DIRHASH_UNLOCK(dh);
635: ufsdirhash_free(ip);
636: return;
637: }
638:
639: KASSERT(offset < dh->dh_dirblks * dirblksiz);
640: /*
641: * Normal hash usage is < 66%. If the usage gets too high then
642: * remove the hash entirely and let it be rebuilt later.
643: */
644: if (dh->dh_hused >= (dh->dh_hlen * 3) / 4) {
645: DIRHASH_UNLOCK(dh);
646: ufsdirhash_free(ip);
647: return;
648: }
649:
650: /* Find a free hash slot (empty or deleted), and add the entry. */
651: slot = ufsdirhash_hash(dh, dirp->d_name, dirp->d_namlen);
652: while (DH_ENTRY(dh, slot) >= 0)
653: slot = WRAPINCR(slot, dh->dh_hlen);
654: if (DH_ENTRY(dh, slot) == DIRHASH_EMPTY)
655: dh->dh_hused++;
656: DH_ENTRY(dh, slot) = offset;
657:
658: /* Update the per-block summary info. */
1.35 dholland 659: ufsdirhash_adjfree(dh, offset, -UFS_DIRSIZ(0, dirp, needswap), dirblksiz);
1.1 rumble 660: DIRHASH_UNLOCK(dh);
661: }
662:
663: /*
664: * Remove the specified directory entry from the hash. The entry to remove
665: * is defined by the name in `dirp', which must exist at the specified
666: * `offset' within the directory.
667: */
668: void
669: ufsdirhash_remove(struct inode *ip, struct direct *dirp, doff_t offset)
670: {
671: struct dirhash *dh;
672: int slot;
673: const int needswap = UFS_MPNEEDSWAP(ip->i_ump);
674: int dirblksiz = ip->i_ump->um_dirblksiz;
675:
676: if ((dh = ip->i_dirhash) == NULL)
677: return;
1.23 ad 678:
1.1 rumble 679: DIRHASH_LOCK(dh);
680: if (dh->dh_hash == NULL) {
681: DIRHASH_UNLOCK(dh);
682: ufsdirhash_free(ip);
683: return;
684: }
685:
686: KASSERT(offset < dh->dh_dirblks * dirblksiz);
687: /* Find the entry */
688: slot = ufsdirhash_findslot(dh, dirp->d_name, dirp->d_namlen, offset);
689:
690: /* Remove the hash entry. */
691: ufsdirhash_delslot(dh, slot);
692:
693: /* Update the per-block summary info. */
1.35 dholland 694: ufsdirhash_adjfree(dh, offset, UFS_DIRSIZ(0, dirp, needswap), dirblksiz);
1.1 rumble 695: DIRHASH_UNLOCK(dh);
696: }
697:
698: /*
699: * Change the offset associated with a directory entry in the hash. Used
700: * when compacting directory blocks.
701: */
702: void
703: ufsdirhash_move(struct inode *ip, struct direct *dirp, doff_t oldoff,
704: doff_t newoff)
705: {
706: struct dirhash *dh;
707: int slot;
708:
709: if ((dh = ip->i_dirhash) == NULL)
710: return;
711: DIRHASH_LOCK(dh);
712: if (dh->dh_hash == NULL) {
713: DIRHASH_UNLOCK(dh);
714: ufsdirhash_free(ip);
715: return;
716: }
717:
718: KASSERT(oldoff < dh->dh_dirblks * ip->i_ump->um_dirblksiz &&
719: newoff < dh->dh_dirblks * ip->i_ump->um_dirblksiz);
720: /* Find the entry, and update the offset. */
721: slot = ufsdirhash_findslot(dh, dirp->d_name, dirp->d_namlen, oldoff);
722: DH_ENTRY(dh, slot) = newoff;
723: DIRHASH_UNLOCK(dh);
724: }
725:
726: /*
727: * Inform dirhash that the directory has grown by one block that
1.35 dholland 728: * begins at offset (i.e. the new length is offset + UFS_DIRBLKSIZ).
1.1 rumble 729: */
730: void
731: ufsdirhash_newblk(struct inode *ip, doff_t offset)
732: {
733: struct dirhash *dh;
734: int block;
735: int dirblksiz = ip->i_ump->um_dirblksiz;
736:
737: if ((dh = ip->i_dirhash) == NULL)
738: return;
739: DIRHASH_LOCK(dh);
740: if (dh->dh_hash == NULL) {
741: DIRHASH_UNLOCK(dh);
742: ufsdirhash_free(ip);
743: return;
744: }
745:
746: KASSERT(offset == dh->dh_dirblks * dirblksiz);
747: block = offset / dirblksiz;
748: if (block >= dh->dh_nblk) {
749: /* Out of space; must rebuild. */
750: DIRHASH_UNLOCK(dh);
751: ufsdirhash_free(ip);
752: return;
753: }
754: dh->dh_dirblks = block + 1;
755:
756: /* Account for the new free block. */
757: dh->dh_blkfree[block] = dirblksiz / DIRALIGN;
758: if (dh->dh_firstfree[DH_NFSTATS] == -1)
759: dh->dh_firstfree[DH_NFSTATS] = block;
760: DIRHASH_UNLOCK(dh);
761: }
762:
763: /*
764: * Inform dirhash that the directory is being truncated.
765: */
766: void
767: ufsdirhash_dirtrunc(struct inode *ip, doff_t offset)
768: {
769: struct dirhash *dh;
770: int block, i;
771: int dirblksiz = ip->i_ump->um_dirblksiz;
772:
773: if ((dh = ip->i_dirhash) == NULL)
774: return;
1.23 ad 775:
1.1 rumble 776: DIRHASH_LOCK(dh);
777: if (dh->dh_hash == NULL) {
778: DIRHASH_UNLOCK(dh);
779: ufsdirhash_free(ip);
780: return;
781: }
782:
783: KASSERT(offset <= dh->dh_dirblks * dirblksiz);
784: block = howmany(offset, dirblksiz);
785: /*
786: * If the directory shrinks to less than 1/8 of dh_nblk blocks
787: * (about 20% of its original size due to the 50% extra added in
788: * ufsdirhash_build) then free it, and let the caller rebuild
789: * if necessary.
790: */
791: if (block < dh->dh_nblk / 8 && dh->dh_narrays > 1) {
792: DIRHASH_UNLOCK(dh);
793: ufsdirhash_free(ip);
794: return;
795: }
796:
797: /*
798: * Remove any `first free' information pertaining to the
799: * truncated blocks. All blocks we're removing should be
800: * completely unused.
801: */
802: if (dh->dh_firstfree[DH_NFSTATS] >= block)
803: dh->dh_firstfree[DH_NFSTATS] = -1;
804: for (i = block; i < dh->dh_dirblks; i++)
805: if (dh->dh_blkfree[i] != dirblksiz / DIRALIGN)
806: panic("ufsdirhash_dirtrunc: blocks in use");
807: for (i = 0; i < DH_NFSTATS; i++)
808: if (dh->dh_firstfree[i] >= block)
809: panic("ufsdirhash_dirtrunc: first free corrupt");
810: dh->dh_dirblks = block;
811: DIRHASH_UNLOCK(dh);
812: }
813:
814: /*
815: * Debugging function to check that the dirhash information about
816: * a directory block matches its actual contents. Panics if a mismatch
817: * is detected.
818: *
1.3 christos 819: * On entry, `sbuf' should point to the start of an in-core
1.1 rumble 820: * DIRBLKSIZ-sized directory block, and `offset' should contain the
821: * offset from the start of the directory of that block.
822: */
823: void
1.3 christos 824: ufsdirhash_checkblock(struct inode *ip, char *sbuf, doff_t offset)
1.1 rumble 825: {
826: struct dirhash *dh;
827: struct direct *dp;
828: int block, ffslot, i, nfree;
829: const int needswap = UFS_MPNEEDSWAP(ip->i_ump);
830: int dirblksiz = ip->i_ump->um_dirblksiz;
831:
832: if (!ufs_dirhashcheck)
833: return;
834: if ((dh = ip->i_dirhash) == NULL)
835: return;
1.23 ad 836:
1.1 rumble 837: DIRHASH_LOCK(dh);
838: if (dh->dh_hash == NULL) {
839: DIRHASH_UNLOCK(dh);
840: ufsdirhash_free(ip);
841: return;
842: }
843:
844: block = offset / dirblksiz;
845: if ((offset & (dirblksiz - 1)) != 0 || block >= dh->dh_dirblks)
846: panic("ufsdirhash_checkblock: bad offset");
847:
848: nfree = 0;
849: for (i = 0; i < dirblksiz; i += dp->d_reclen) {
1.3 christos 850: dp = (struct direct *)(sbuf + i);
1.1 rumble 851: if (dp->d_reclen == 0 || i + dp->d_reclen > dirblksiz)
852: panic("ufsdirhash_checkblock: bad dir");
853:
854: if (dp->d_ino == 0) {
855: #if 0
856: /*
857: * XXX entries with d_ino == 0 should only occur
858: * at the start of a DIRBLKSIZ block. However the
859: * ufs code is tolerant of such entries at other
860: * offsets, and fsck does not fix them.
861: */
862: if (i != 0)
863: panic("ufsdirhash_checkblock: bad dir inode");
864: #endif
865: nfree += dp->d_reclen;
866: continue;
867: }
868:
869: /* Check that the entry exists (will panic if it doesn't). */
870: ufsdirhash_findslot(dh, dp->d_name, dp->d_namlen, offset + i);
871:
1.35 dholland 872: nfree += dp->d_reclen - UFS_DIRSIZ(0, dp, needswap);
1.1 rumble 873: }
874: if (i != dirblksiz)
875: panic("ufsdirhash_checkblock: bad dir end");
876:
877: if (dh->dh_blkfree[block] * DIRALIGN != nfree)
878: panic("ufsdirhash_checkblock: bad free count");
879:
880: ffslot = BLKFREE2IDX(nfree / DIRALIGN);
881: for (i = 0; i <= DH_NFSTATS; i++)
882: if (dh->dh_firstfree[i] == block && i != ffslot)
883: panic("ufsdirhash_checkblock: bad first-free");
884: if (dh->dh_firstfree[ffslot] == -1)
885: panic("ufsdirhash_checkblock: missing first-free entry");
886: DIRHASH_UNLOCK(dh);
887: }
888:
889: /*
890: * Hash the specified filename into a dirhash slot.
891: */
892: static int
893: ufsdirhash_hash(struct dirhash *dh, const char *name, int namelen)
894: {
895: u_int32_t hash;
896:
897: /*
898: * We hash the name and then some other bit of data that is
899: * invariant over the dirhash's lifetime. Otherwise names
900: * differing only in the last byte are placed close to one
901: * another in the table, which is bad for linear probing.
902: */
903: hash = hash32_buf(name, namelen, HASH32_BUF_INIT);
904: hash = hash32_buf(&dh, sizeof(dh), hash);
905: return (hash % dh->dh_hlen);
906: }
907:
908: /*
909: * Adjust the number of free bytes in the block containing `offset'
910: * by the value specified by `diff'.
911: *
912: * The caller must ensure we have exclusive access to `dh'; normally
1.16 ad 913: * that means that dh_lock should be held, but this is also called
1.1 rumble 914: * from ufsdirhash_build() where exclusive access can be assumed.
915: */
916: static void
917: ufsdirhash_adjfree(struct dirhash *dh, doff_t offset, int diff, int dirblksiz)
918: {
919: int block, i, nfidx, ofidx;
920:
1.23 ad 921: KASSERT(mutex_owned(&dh->dh_lock));
922:
1.1 rumble 923: /* Update the per-block summary info. */
924: block = offset / dirblksiz;
925: KASSERT(block < dh->dh_nblk && block < dh->dh_dirblks);
926: ofidx = BLKFREE2IDX(dh->dh_blkfree[block]);
927: dh->dh_blkfree[block] = (int)dh->dh_blkfree[block] + (diff / DIRALIGN);
928: nfidx = BLKFREE2IDX(dh->dh_blkfree[block]);
929:
930: /* Update the `first free' list if necessary. */
931: if (ofidx != nfidx) {
932: /* If removing, scan forward for the next block. */
933: if (dh->dh_firstfree[ofidx] == block) {
934: for (i = block + 1; i < dh->dh_dirblks; i++)
935: if (BLKFREE2IDX(dh->dh_blkfree[i]) == ofidx)
936: break;
937: dh->dh_firstfree[ofidx] = (i < dh->dh_dirblks) ? i : -1;
938: }
939:
940: /* Make this the new `first free' if necessary */
941: if (dh->dh_firstfree[nfidx] > block ||
942: dh->dh_firstfree[nfidx] == -1)
943: dh->dh_firstfree[nfidx] = block;
944: }
945: }
946:
947: /*
948: * Find the specified name which should have the specified offset.
949: * Returns a slot number, and panics on failure.
950: *
951: * `dh' must be locked on entry and remains so on return.
952: */
953: static int
954: ufsdirhash_findslot(struct dirhash *dh, const char *name, int namelen,
955: doff_t offset)
956: {
957: int slot;
958:
1.16 ad 959: KASSERT(mutex_owned(&dh->dh_lock));
960:
1.1 rumble 961: /* Find the entry. */
962: KASSERT(dh->dh_hused < dh->dh_hlen);
963: slot = ufsdirhash_hash(dh, name, namelen);
964: while (DH_ENTRY(dh, slot) != offset &&
965: DH_ENTRY(dh, slot) != DIRHASH_EMPTY)
966: slot = WRAPINCR(slot, dh->dh_hlen);
967: if (DH_ENTRY(dh, slot) != offset)
968: panic("ufsdirhash_findslot: '%.*s' not found", namelen, name);
969:
970: return (slot);
971: }
972:
973: /*
974: * Remove the entry corresponding to the specified slot from the hash array.
975: *
976: * `dh' must be locked on entry and remains so on return.
977: */
978: static void
979: ufsdirhash_delslot(struct dirhash *dh, int slot)
980: {
981: int i;
982:
1.16 ad 983: KASSERT(mutex_owned(&dh->dh_lock));
984:
1.1 rumble 985: /* Mark the entry as deleted. */
986: DH_ENTRY(dh, slot) = DIRHASH_DEL;
987:
988: /* If this is the end of a chain of DIRHASH_DEL slots, remove them. */
989: for (i = slot; DH_ENTRY(dh, i) == DIRHASH_DEL; )
990: i = WRAPINCR(i, dh->dh_hlen);
991: if (DH_ENTRY(dh, i) == DIRHASH_EMPTY) {
992: i = WRAPDECR(i, dh->dh_hlen);
993: while (DH_ENTRY(dh, i) == DIRHASH_DEL) {
994: DH_ENTRY(dh, i) = DIRHASH_EMPTY;
995: dh->dh_hused--;
996: i = WRAPDECR(i, dh->dh_hlen);
997: }
998: KASSERT(dh->dh_hused >= 0);
999: }
1000: }
1001:
1002: /*
1003: * Given a directory entry and its offset, find the offset of the
1.35 dholland 1004: * previous entry in the same UFS_DIRBLKSIZ-sized block. Returns an
1.1 rumble 1005: * offset, or -1 if there is no previous entry in the block or some
1006: * other problem occurred.
1007: */
1008: static doff_t
1009: ufsdirhash_getprev(struct direct *dirp, doff_t offset, int dirblksiz)
1010: {
1011: struct direct *dp;
1012: char *blkbuf;
1013: doff_t blkoff, prevoff;
1014: int entrypos, i;
1015:
1016: blkoff = offset & ~(dirblksiz - 1); /* offset of start of block */
1017: entrypos = offset & (dirblksiz - 1); /* entry relative to block */
1018: blkbuf = (char *)dirp - entrypos;
1019: prevoff = blkoff;
1020:
1021: /* If `offset' is the start of a block, there is no previous entry. */
1022: if (entrypos == 0)
1023: return (-1);
1024:
1025: /* Scan from the start of the block until we get to the entry. */
1026: for (i = 0; i < entrypos; i += dp->d_reclen) {
1027: dp = (struct direct *)(blkbuf + i);
1028: if (dp->d_reclen == 0 || i + dp->d_reclen > entrypos)
1029: return (-1); /* Corrupted directory. */
1030: prevoff = blkoff + i;
1031: }
1032: return (prevoff);
1033: }
1034:
1035: /*
1036: * Try to free up `wanted' bytes by stealing memory from existing
1037: * dirhashes. Returns zero with list locked if successful.
1038: */
1039: static int
1040: ufsdirhash_recycle(int wanted)
1041: {
1042: struct dirhash *dh;
1043: doff_t **hash;
1044: u_int8_t *blkfree;
1045: int i, mem, narrays;
1.23 ad 1046: size_t hashsz, blkfreesz;
1.1 rumble 1047:
1048: DIRHASHLIST_LOCK();
1049: while (wanted + ufs_dirhashmem > ufs_dirhashmaxmem) {
1050: /* Find a dirhash, and lock it. */
1051: if ((dh = TAILQ_FIRST(&ufsdirhash_list)) == NULL) {
1052: DIRHASHLIST_UNLOCK();
1053: return (-1);
1054: }
1055: DIRHASH_LOCK(dh);
1056: KASSERT(dh->dh_hash != NULL);
1057:
1058: /* Decrement the score; only recycle if it becomes zero. */
1059: if (--dh->dh_score > 0) {
1060: DIRHASH_UNLOCK(dh);
1061: DIRHASHLIST_UNLOCK();
1062: return (-1);
1063: }
1064:
1065: /* Remove it from the list and detach its memory. */
1066: TAILQ_REMOVE(&ufsdirhash_list, dh, dh_list);
1067: dh->dh_onlist = 0;
1068: hash = dh->dh_hash;
1.23 ad 1069: hashsz = dh->dh_hashsz;
1.1 rumble 1070: dh->dh_hash = NULL;
1071: blkfree = dh->dh_blkfree;
1.23 ad 1072: blkfreesz = dh->dh_blkfreesz;
1.1 rumble 1073: dh->dh_blkfree = NULL;
1074: narrays = dh->dh_narrays;
1075: mem = narrays * sizeof(*dh->dh_hash) +
1076: narrays * DH_NBLKOFF * sizeof(**dh->dh_hash) +
1077: dh->dh_nblk * sizeof(*dh->dh_blkfree);
1078:
1079: /* Unlock everything, free the detached memory. */
1080: DIRHASH_UNLOCK(dh);
1081: DIRHASHLIST_UNLOCK();
1.23 ad 1082:
1.1 rumble 1083: for (i = 0; i < narrays; i++)
1084: DIRHASH_BLKFREE(hash[i]);
1.23 ad 1085: kmem_free(hash, hashsz);
1086: kmem_free(blkfree, blkfreesz);
1.1 rumble 1087:
1088: /* Account for the returned memory, and repeat if necessary. */
1089: DIRHASHLIST_LOCK();
1.34 rmind 1090: atomic_add_int(&ufs_dirhashmem, -mem);
1.1 rumble 1091: }
1.23 ad 1092: /* Success. */
1.1 rumble 1093: return (0);
1094: }
1095:
1.26 rumble 1096: static void
1097: ufsdirhash_sysctl_init(void)
1.1 rumble 1098: {
1.4 atatat 1099: const struct sysctlnode *rnode, *cnode;
1.1 rumble 1100:
1.26 rumble 1101: sysctl_createv(&ufsdirhash_sysctl_log, 0, NULL, &rnode,
1.1 rumble 1102: CTLFLAG_PERMANENT,
1103: CTLTYPE_NODE, "ufs",
1104: SYSCTL_DESCR("ufs"),
1105: NULL, 0, NULL, 0,
1.36 pooka 1106: CTL_VFS, CTL_CREATE, CTL_EOL);
1.1 rumble 1107:
1.26 rumble 1108: sysctl_createv(&ufsdirhash_sysctl_log, 0, &rnode, &rnode,
1.1 rumble 1109: CTLFLAG_PERMANENT,
1110: CTLTYPE_NODE, "dirhash",
1111: SYSCTL_DESCR("dirhash"),
1112: NULL, 0, NULL, 0,
1113: CTL_CREATE, CTL_EOL);
1114:
1.26 rumble 1115: sysctl_createv(&ufsdirhash_sysctl_log, 0, &rnode, &cnode,
1.1 rumble 1116: CTLFLAG_PERMANENT|CTLFLAG_READWRITE,
1117: CTLTYPE_INT, "minblocks",
1118: SYSCTL_DESCR("minimum hashed directory size in blocks"),
1119: NULL, 0, &ufs_dirhashminblks, 0,
1120: CTL_CREATE, CTL_EOL);
1121:
1.26 rumble 1122: sysctl_createv(&ufsdirhash_sysctl_log, 0, &rnode, &cnode,
1.1 rumble 1123: CTLFLAG_PERMANENT|CTLFLAG_READWRITE,
1124: CTLTYPE_INT, "maxmem",
1125: SYSCTL_DESCR("maximum dirhash memory usage"),
1126: NULL, 0, &ufs_dirhashmaxmem, 0,
1127: CTL_CREATE, CTL_EOL);
1128:
1.26 rumble 1129: sysctl_createv(&ufsdirhash_sysctl_log, 0, &rnode, &cnode,
1.1 rumble 1130: CTLFLAG_PERMANENT|CTLFLAG_READONLY,
1131: CTLTYPE_INT, "memused",
1132: SYSCTL_DESCR("current dirhash memory usage"),
1133: NULL, 0, &ufs_dirhashmem, 0,
1134: CTL_CREATE, CTL_EOL);
1135:
1.26 rumble 1136: sysctl_createv(&ufsdirhash_sysctl_log, 0, &rnode, &cnode,
1.1 rumble 1137: CTLFLAG_PERMANENT|CTLFLAG_READWRITE,
1138: CTLTYPE_INT, "docheck",
1139: SYSCTL_DESCR("enable extra sanity checks"),
1140: NULL, 0, &ufs_dirhashcheck, 0,
1141: CTL_CREATE, CTL_EOL);
1142: }
1.26 rumble 1143:
1144: void
1.29 cegger 1145: ufsdirhash_init(void)
1.26 rumble 1146: {
1147:
1148: mutex_init(&ufsdirhash_lock, MUTEX_DEFAULT, IPL_NONE);
1149: ufsdirhashblk_cache = pool_cache_init(DH_NBLKOFF * sizeof(daddr_t), 0,
1150: 0, 0, "dirhashblk", NULL, IPL_NONE, NULL, NULL, NULL);
1151: ufsdirhash_cache = pool_cache_init(sizeof(struct dirhash), 0,
1152: 0, 0, "dirhash", NULL, IPL_NONE, NULL, NULL, NULL);
1153: TAILQ_INIT(&ufsdirhash_list);
1154: ufsdirhash_sysctl_init();
1155: }
1156:
1157: void
1158: ufsdirhash_done(void)
1159: {
1160:
1161: KASSERT(TAILQ_EMPTY(&ufsdirhash_list));
1162: pool_cache_destroy(ufsdirhashblk_cache);
1163: pool_cache_destroy(ufsdirhash_cache);
1164: mutex_destroy(&ufsdirhash_lock);
1165: sysctl_teardown(&ufsdirhash_sysctl_log);
1166: }
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