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2 * Copyright (c) 2002-2006 Apple Computer, Inc. All rights reserved.
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7 * as defined in and that are subject to the Apple Public Source License
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29 * Copyright (c) 1982, 1986, 1990, 1993, 1995
30 * The Regents of the University of California. All rights reserved.
32 * This code is derived from software contributed to Berkeley by
33 * Robert Elz at The University of Melbourne.
35 * Redistribution and use in source and binary forms, with or without
36 * modification, are permitted provided that the following conditions
38 * 1. Redistributions of source code must retain the above copyright
39 * notice, this list of conditions and the following disclaimer.
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43 * 3. All advertising materials mentioning features or use of this software
44 * must display the following acknowledgement:
45 * This product includes software developed by the University of
46 * California, Berkeley and its contributors.
47 * 4. Neither the name of the University nor the names of its contributors
48 * may be used to endorse or promote products derived from this software
49 * without specific prior written permission.
51 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
52 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
53 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
54 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
55 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
56 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
57 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
58 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
59 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
60 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
64 * derived from @(#)ufs_quota.c 8.5 (Berkeley) 5/20/95
67 #include <sys/param.h>
68 #include <sys/kernel.h>
69 #include <sys/systm.h>
70 #include <sys/malloc.h>
71 #include <sys/file_internal.h>
72 #include <sys/proc_internal.h>
73 #include <sys/vnode_internal.h>
74 #include <sys/mount_internal.h>
75 #include <sys/quota.h>
76 #include <sys/uio_internal.h>
78 #include <libkern/OSByteOrder.h>
81 /* vars for quota file lock */
82 lck_grp_t
* qf_lck_grp
;
83 lck_grp_attr_t
* qf_lck_grp_attr
;
84 lck_attr_t
* qf_lck_attr
;
86 /* vars for quota list lock */
87 lck_grp_t
* quota_list_lck_grp
;
88 lck_grp_attr_t
* quota_list_lck_grp_attr
;
89 lck_attr_t
* quota_list_lck_attr
;
90 lck_mtx_t
* quota_list_mtx_lock
;
92 /* Routines to lock and unlock the quota global data */
93 static int dq_list_lock(void);
94 static void dq_list_unlock(void);
96 static void dq_lock_internal(struct dquot
*dq
);
97 static void dq_unlock_internal(struct dquot
*dq
);
99 static u_int32_t quotamagic
[MAXQUOTAS
] = INITQMAGICS
;
103 * Code pertaining to management of the in-core dquot data structures.
105 #define DQHASH(dqvp, id) \
106 (&dqhashtbl[((((intptr_t)(dqvp)) >> 8) + id) & dqhash])
107 LIST_HEAD(dqhash
, dquot
) *dqhashtbl
;
110 #define DQUOTINC 5 /* minimum free dquots desired */
111 long numdquot
, desireddquot
= DQUOTINC
;
116 TAILQ_HEAD(dqfreelist
, dquot
) dqfreelist
;
118 * Dquot dirty orphans list
120 TAILQ_HEAD(dqdirtylist
, dquot
) dqdirtylist
;
123 static int dqlookup(struct quotafile
*, u_int32_t
, struct dqblk
*, u_int32_t
*);
124 static int dqsync_locked(struct dquot
*dq
);
126 static void qf_lock(struct quotafile
*);
127 static void qf_unlock(struct quotafile
*);
128 static int qf_ref(struct quotafile
*);
129 static void qf_rele(struct quotafile
*);
133 * Initialize locks for the quota system.
139 * Allocate quota list lock group attribute and group
141 quota_list_lck_grp_attr
= lck_grp_attr_alloc_init();
142 quota_list_lck_grp
= lck_grp_alloc_init("quota list", quota_list_lck_grp_attr
);
145 * Allocate qouta list lock attribute
147 quota_list_lck_attr
= lck_attr_alloc_init();
150 * Allocate quota list lock
152 quota_list_mtx_lock
= lck_mtx_alloc_init(quota_list_lck_grp
, quota_list_lck_attr
);
156 * allocate quota file lock group attribute and group
158 qf_lck_grp_attr
= lck_grp_attr_alloc_init();
159 qf_lck_grp
= lck_grp_alloc_init("quota file", qf_lck_grp_attr
);
162 * Allocate quota file lock attribute
164 qf_lck_attr
= lck_attr_alloc_init();
168 * Report whether dqhashinit has been run.
171 dqisinitialized(void)
173 return (dqhashtbl
!= NULL
);
177 * Initialize hash table for dquot structures.
183 if (dqisinitialized())
186 TAILQ_INIT(&dqfreelist
);
187 TAILQ_INIT(&dqdirtylist
);
188 dqhashtbl
= hashinit(desiredvnodes
, M_DQUOT
, &dqhash
);
194 static volatile int dq_list_lock_cnt
= 0;
199 lck_mtx_lock(quota_list_mtx_lock
);
200 return ++dq_list_lock_cnt
;
204 dq_list_lock_changed(int oldval
) {
205 return (dq_list_lock_cnt
!= oldval
);
209 dq_list_lock_val(void) {
210 return dq_list_lock_cnt
;
216 lck_mtx_unlock(quota_list_mtx_lock
);
221 * must be called with the quota_list_lock held
224 dq_lock_internal(struct dquot
*dq
)
226 while (dq
->dq_lflags
& DQ_LLOCK
) {
227 dq
->dq_lflags
|= DQ_LWANT
;
228 msleep(&dq
->dq_lflags
, quota_list_mtx_lock
, PVFS
, "dq_lock_internal", NULL
);
230 dq
->dq_lflags
|= DQ_LLOCK
;
234 * must be called with the quota_list_lock held
237 dq_unlock_internal(struct dquot
*dq
)
239 int wanted
= dq
->dq_lflags
& DQ_LWANT
;
241 dq
->dq_lflags
&= ~(DQ_LLOCK
| DQ_LWANT
);
244 wakeup(&dq
->dq_lflags
);
248 dqlock(struct dquot
*dq
) {
250 lck_mtx_lock(quota_list_mtx_lock
);
252 dq_lock_internal(dq
);
254 lck_mtx_unlock(quota_list_mtx_lock
);
258 dqunlock(struct dquot
*dq
) {
260 lck_mtx_lock(quota_list_mtx_lock
);
262 dq_unlock_internal(dq
);
264 lck_mtx_unlock(quota_list_mtx_lock
);
270 qf_get(struct quotafile
*qfp
, int type
)
279 while ( (qfp
->qf_qflags
& (QTF_OPENING
| QTF_CLOSING
)) ) {
280 if ( (qfp
->qf_qflags
& QTF_OPENING
) ) {
284 if ( (qfp
->qf_qflags
& QTF_CLOSING
) ) {
285 qfp
->qf_qflags
|= QTF_WANTED
;
286 msleep(&qfp
->qf_qflags
, quota_list_mtx_lock
, PVFS
, "qf_get", NULL
);
289 if (qfp
->qf_vp
!= NULLVP
)
292 qfp
->qf_qflags
|= QTF_OPENING
;
296 if ( (qfp
->qf_qflags
& QTF_CLOSING
) ) {
300 qfp
->qf_qflags
|= QTF_CLOSING
;
302 while ( (qfp
->qf_qflags
& QTF_OPENING
) || qfp
->qf_refcnt
) {
303 qfp
->qf_qflags
|= QTF_WANTED
;
304 msleep(&qfp
->qf_qflags
, quota_list_mtx_lock
, PVFS
, "qf_get", NULL
);
306 if (qfp
->qf_vp
== NULLVP
) {
307 qfp
->qf_qflags
&= ~QTF_CLOSING
;
318 qf_put(struct quotafile
*qfp
, int type
)
327 qfp
->qf_qflags
&= ~type
;
330 if ( (qfp
->qf_qflags
& QTF_WANTED
) ) {
331 qfp
->qf_qflags
&= ~QTF_WANTED
;
332 wakeup(&qfp
->qf_qflags
);
339 qf_lock(struct quotafile
*qfp
)
341 lck_mtx_lock(&qfp
->qf_lock
);
345 qf_unlock(struct quotafile
*qfp
)
347 lck_mtx_unlock(&qfp
->qf_lock
);
352 * take a reference on the quota file while we're
353 * in dqget... this will prevent a quota_off from
354 * occurring while we're potentially playing with
355 * the quota file... the quota_off will stall until
356 * all the current references 'die'... once we start
357 * into quoto_off, all new references will be rejected
358 * we also don't want any dqgets being processed while
359 * we're in the middle of the quota_on... once we've
360 * actually got the quota file open and the associated
361 * struct quotafile inited, we can let them come through
363 * quota list lock must be held on entry
366 qf_ref(struct quotafile
*qfp
)
370 if ( (qfp
->qf_qflags
& (QTF_OPENING
| QTF_CLOSING
)) || (qfp
->qf_vp
== NULLVP
) )
379 * drop our reference and wakeup any waiters if
380 * we were the last one holding a ref
382 * quota list lock must be held on entry
385 qf_rele(struct quotafile
*qfp
)
389 if ( (qfp
->qf_qflags
& QTF_WANTED
) && qfp
->qf_refcnt
== 0) {
390 qfp
->qf_qflags
&= ~QTF_WANTED
;
391 wakeup(&qfp
->qf_qflags
);
397 dqfileinit(struct quotafile
*qfp
)
402 lck_mtx_init(&qfp
->qf_lock
, qf_lck_grp
, qf_lck_attr
);
407 * Initialize a quota file
409 * must be called with the quota file lock held
412 dqfileopen(struct quotafile
*qfp
, int type
)
414 struct dqfilehdr header
;
415 struct vfs_context context
;
419 char uio_buf
[ UIO_SIZEOF(1) ];
421 context
.vc_thread
= current_thread();
422 context
.vc_ucred
= qfp
->qf_cred
;
424 /* Obtain the file size */
425 if ((error
= vnode_size(qfp
->qf_vp
, &file_size
, &context
)) != 0)
428 /* Read the file header */
429 auio
= uio_createwithbuffer(1, 0, UIO_SYSSPACE
, UIO_READ
,
430 &uio_buf
[0], sizeof(uio_buf
));
431 uio_addiov(auio
, CAST_USER_ADDR_T(&header
), sizeof (header
));
432 error
= VNOP_READ(qfp
->qf_vp
, auio
, 0, &context
);
435 else if (uio_resid(auio
)) {
439 /* Sanity check the quota file header. */
440 if ((OSSwapBigToHostInt32(header
.dqh_magic
) != quotamagic
[type
]) ||
441 (OSSwapBigToHostInt32(header
.dqh_version
) > QF_VERSION
) ||
442 (!powerof2(OSSwapBigToHostInt32(header
.dqh_maxentries
))) ||
443 (OSSwapBigToHostInt32(header
.dqh_maxentries
) > (file_size
/ sizeof(struct dqblk
)))) {
447 /* Set up the time limits for this quota. */
448 if (header
.dqh_btime
!= 0)
449 qfp
->qf_btime
= OSSwapBigToHostInt32(header
.dqh_btime
);
451 qfp
->qf_btime
= MAX_DQ_TIME
;
452 if (header
.dqh_itime
!= 0)
453 qfp
->qf_itime
= OSSwapBigToHostInt32(header
.dqh_itime
);
455 qfp
->qf_itime
= MAX_IQ_TIME
;
457 /* Calculate the hash table constants. */
458 qfp
->qf_maxentries
= OSSwapBigToHostInt32(header
.dqh_maxentries
);
459 qfp
->qf_entrycnt
= OSSwapBigToHostInt32(header
.dqh_entrycnt
);
460 qfp
->qf_shift
= dqhashshift(qfp
->qf_maxentries
);
466 * Close down a quota file
469 dqfileclose(struct quotafile
*qfp
, __unused
int type
)
471 struct dqfilehdr header
;
472 struct vfs_context context
;
474 char uio_buf
[ UIO_SIZEOF(1) ];
476 auio
= uio_createwithbuffer(1, 0, UIO_SYSSPACE
, UIO_READ
,
477 &uio_buf
[0], sizeof(uio_buf
));
478 uio_addiov(auio
, CAST_USER_ADDR_T(&header
), sizeof (header
));
480 context
.vc_thread
= current_thread();
481 context
.vc_ucred
= qfp
->qf_cred
;
483 if (VNOP_READ(qfp
->qf_vp
, auio
, 0, &context
) == 0) {
484 header
.dqh_entrycnt
= OSSwapHostToBigInt32(qfp
->qf_entrycnt
);
485 uio_reset(auio
, 0, UIO_SYSSPACE
, UIO_WRITE
);
486 uio_addiov(auio
, CAST_USER_ADDR_T(&header
), sizeof (header
));
487 (void) VNOP_WRITE(qfp
->qf_vp
, auio
, 0, &context
);
493 * Obtain a dquot structure for the specified identifier and quota file
494 * reading the information from the file if necessary.
497 dqget(u_int32_t id
, struct quotafile
*qfp
, int type
, struct dquot
**dqp
)
500 struct dquot
*ndq
= NULL
;
501 struct dquot
*fdq
= NULL
;
507 if (!dqisinitialized()) {
512 if ( id
== 0 || qfp
->qf_vp
== NULLVP
) {
518 if ( (qf_ref(qfp
)) ) {
524 if ( (dqvp
= qfp
->qf_vp
) == NULLVP
) {
531 dqh
= DQHASH(dqvp
, id
);
534 listlockval
= dq_list_lock_val();
537 * Check the cache first.
539 for (dq
= dqh
->lh_first
; dq
; dq
= dq
->dq_hash
.le_next
) {
540 if (dq
->dq_id
!= id
||
541 dq
->dq_qfile
->qf_vp
!= dqvp
)
544 dq_lock_internal(dq
);
545 if (dq_list_lock_changed(listlockval
)) {
546 dq_unlock_internal(dq
);
551 * dq_lock_internal may drop the quota_list_lock to msleep, so
552 * we need to re-evaluate the identity of this dq
554 if (dq
->dq_id
!= id
|| dq
->dq_qfile
== NULL
||
555 dq
->dq_qfile
->qf_vp
!= dqvp
) {
556 dq_unlock_internal(dq
);
560 * Cache hit with no references. Take
561 * the structure off the free list.
563 if (dq
->dq_cnt
++ == 0) {
564 if (dq
->dq_flags
& DQ_MOD
)
565 TAILQ_REMOVE(&dqdirtylist
, dq
, dq_freelist
);
567 TAILQ_REMOVE(&dqfreelist
, dq
, dq_freelist
);
569 dq_unlock_internal(dq
);
573 * we grabbed this from the free list in the first pass
574 * but we found the dq we were looking for in
575 * the cache the 2nd time through
576 * so stick it back on the free list and return the cached entry
578 TAILQ_INSERT_HEAD(&dqfreelist
, fdq
, dq_freelist
);
585 * we allocated this in the first pass
586 * but we found the dq we were looking for in
587 * the cache the 2nd time through so free it
596 * Not in cache, allocate a new one.
598 if (TAILQ_EMPTY(&dqfreelist
) &&
599 numdquot
< MAXQUOTAS
* desiredvnodes
)
600 desireddquot
+= DQUOTINC
;
604 * we captured this from the free list
605 * in the first pass through, so go
610 } else if (numdquot
< desireddquot
) {
613 * drop the quota list lock since MALLOC may block
617 ndq
= (struct dquot
*)_MALLOC(sizeof *dq
, M_DQUOT
, M_WAITOK
);
618 bzero((char *)ndq
, sizeof *dq
);
620 listlockval
= dq_list_lock();
622 * need to look for the entry again in the cache
623 * since we dropped the quota list lock and
624 * someone else may have beaten us to creating it
629 * we allocated this in the first pass through
630 * and we're still under out target, so go
638 if (TAILQ_EMPTY(&dqfreelist
)) {
644 * we allocated this in the first pass through
645 * but we're now at the limit of our cache size
654 dq
= TAILQ_FIRST(&dqfreelist
);
656 dq_lock_internal(dq
);
658 if (dq_list_lock_changed(listlockval
) || dq
->dq_cnt
|| (dq
->dq_flags
& DQ_MOD
)) {
660 * we lost the race while we weren't holding
661 * the quota list lock... dq_lock_internal
662 * will drop it to msleep... this dq has been
663 * reclaimed... go find another
665 dq_unlock_internal(dq
);
668 * need to look for the entry again in the cache
669 * since we dropped the quota list lock and
670 * someone else may have beaten us to creating it
674 TAILQ_REMOVE(&dqfreelist
, dq
, dq_freelist
);
676 if (dq
->dq_qfile
!= NULL
) {
677 LIST_REMOVE(dq
, dq_hash
);
681 dq_unlock_internal(dq
);
684 * because we may have dropped the quota list lock
685 * in the call to dq_lock_internal, we need to
686 * relookup in the hash in case someone else
687 * caused a dq with this identity to be created...
688 * if we don't find it, we'll use this one
694 * we've either freshly allocated a dq
695 * or we've atomically pulled it out of
696 * the hash and freelists... no one else
697 * can have a reference, which means no
698 * one else can be trying to use this dq
700 dq_lock_internal(dq
);
701 if (dq_list_lock_changed(listlockval
)) {
702 dq_unlock_internal(dq
);
707 * Initialize the contents of the dquot structure.
715 * once we insert it in the hash and
716 * drop the quota_list_lock, it can be
717 * 'found'... however, we're still holding
718 * the dq_lock which will keep us from doing
719 * anything with it until we've finished
722 LIST_INSERT_HEAD(dqh
, dq
, dq_hash
);
727 * we allocated this in the first pass through
728 * but we didn't need it, so free it after
729 * we've droped the quota list lock
734 error
= dqlookup(qfp
, id
, &dq
->dq_dqb
, &dq
->dq_index
);
737 * I/O error in reading quota file, release
738 * quota structure and reflect problem to caller.
745 LIST_REMOVE(dq
, dq_hash
);
747 dq_unlock_internal(dq
);
757 * Check for no limit to enforce.
758 * Initialize time values if necessary.
760 if (dq
->dq_isoftlimit
== 0 && dq
->dq_bsoftlimit
== 0 &&
761 dq
->dq_ihardlimit
== 0 && dq
->dq_bhardlimit
== 0)
762 dq
->dq_flags
|= DQ_FAKE
;
763 if (dq
->dq_id
!= 0) {
767 if (dq
->dq_btime
== 0)
768 dq
->dq_btime
= tv
.tv_sec
+ qfp
->qf_btime
;
769 if (dq
->dq_itime
== 0)
770 dq
->dq_itime
= tv
.tv_sec
+ qfp
->qf_itime
;
773 dq_unlock_internal(dq
);
782 * Lookup a dqblk structure for the specified identifier and
783 * quota file. If there is no entry for this identifier then
784 * one is inserted. The actual hash table index is returned.
787 dqlookup(struct quotafile
*qfp
, u_int32_t id
, struct dqblk
*dqb
, uint32_t *index
)
790 struct vfs_context context
;
795 char uio_buf
[ UIO_SIZEOF(1) ];
802 context
.vc_thread
= current_thread();
803 context
.vc_ucred
= qfp
->qf_cred
;
805 mask
= qfp
->qf_maxentries
- 1;
806 i
= dqhash1(id
, qfp
->qf_shift
, mask
);
807 skip
= dqhash2(id
, mask
);
809 for (last
= (i
+ (qfp
->qf_maxentries
-1) * skip
) & mask
;
811 i
= (i
+ skip
) & mask
) {
812 auio
= uio_createwithbuffer(1, dqoffset(i
), UIO_SYSSPACE
, UIO_READ
,
813 &uio_buf
[0], sizeof(uio_buf
));
814 uio_addiov(auio
, CAST_USER_ADDR_T(dqb
), sizeof (struct dqblk
));
815 error
= VNOP_READ(dqvp
, auio
, 0, &context
);
817 printf("dqlookup: error %d looking up id %u at index %d\n", error
, id
, i
);
819 } else if (uio_resid(auio
)) {
821 printf("dqlookup: error looking up id %u at index %d\n", id
, i
);
825 * An empty entry means there is no entry
826 * with that id. In this case a new dqb
827 * record will be inserted.
829 if (dqb
->dqb_id
== 0) {
830 bzero(dqb
, sizeof(struct dqblk
));
831 dqb
->dqb_id
= OSSwapHostToBigInt32(id
);
833 * Write back to reserve entry for this id
835 uio_reset(auio
, dqoffset(i
), UIO_SYSSPACE
, UIO_WRITE
);
836 uio_addiov(auio
, CAST_USER_ADDR_T(dqb
), sizeof (struct dqblk
));
837 error
= VNOP_WRITE(dqvp
, auio
, 0, &context
);
838 if (uio_resid(auio
) && error
== 0)
845 /* An id match means an entry was found. */
846 if (OSSwapBigToHostInt32(dqb
->dqb_id
) == id
) {
847 dqb
->dqb_bhardlimit
= OSSwapBigToHostInt64(dqb
->dqb_bhardlimit
);
848 dqb
->dqb_bsoftlimit
= OSSwapBigToHostInt64(dqb
->dqb_bsoftlimit
);
849 dqb
->dqb_curbytes
= OSSwapBigToHostInt64(dqb
->dqb_curbytes
);
850 dqb
->dqb_ihardlimit
= OSSwapBigToHostInt32(dqb
->dqb_ihardlimit
);
851 dqb
->dqb_isoftlimit
= OSSwapBigToHostInt32(dqb
->dqb_isoftlimit
);
852 dqb
->dqb_curinodes
= OSSwapBigToHostInt32(dqb
->dqb_curinodes
);
853 dqb
->dqb_btime
= OSSwapBigToHostInt32(dqb
->dqb_btime
);
854 dqb
->dqb_itime
= OSSwapBigToHostInt32(dqb
->dqb_itime
);
855 dqb
->dqb_id
= OSSwapBigToHostInt32(dqb
->dqb_id
);
861 *index
= i
; /* remember index so we don't have to recompute it later */
868 * Release a reference to a dquot.
871 dqrele(struct dquot
*dq
)
878 if (dq
->dq_cnt
> 1) {
884 if (dq
->dq_flags
& DQ_MOD
)
885 (void) dqsync_locked(dq
);
889 TAILQ_INSERT_TAIL(&dqfreelist
, dq
, dq_freelist
);
890 dq_unlock_internal(dq
);
895 * Release a reference to a dquot but don't do any I/O.
898 dqreclaim(struct dquot
*dq
)
905 dq_lock_internal(dq
);
907 if (--dq
->dq_cnt
> 0) {
908 dq_unlock_internal(dq
);
912 if (dq
->dq_flags
& DQ_MOD
)
913 TAILQ_INSERT_TAIL(&dqdirtylist
, dq
, dq_freelist
);
915 TAILQ_INSERT_TAIL(&dqfreelist
, dq
, dq_freelist
);
917 dq_unlock_internal(dq
);
922 * Update a quota file's orphaned disk quotas.
925 dqsync_orphans(struct quotafile
*qfp
)
931 TAILQ_FOREACH(dq
, &dqdirtylist
, dq_freelist
) {
932 if (dq
->dq_qfile
!= qfp
)
935 dq_lock_internal(dq
);
937 if (dq
->dq_qfile
!= qfp
) {
939 * the identity of this dq changed while
940 * the quota_list_lock was dropped
941 * dq_lock_internal can drop it to msleep
943 dq_unlock_internal(dq
);
946 if ((dq
->dq_flags
& DQ_MOD
) == 0) {
948 * someone cleaned and removed this from
949 * the dq from the dirty list while the
950 * quota_list_lock was dropped
952 dq_unlock_internal(dq
);
956 panic("dqsync_orphans: dquot in use");
958 TAILQ_REMOVE(&dqdirtylist
, dq
, dq_freelist
);
962 * we're still holding the dqlock at this point
963 * with the reference count == 0
964 * we shouldn't be able
965 * to pick up another one since we hold dqlock
967 (void) dqsync_locked(dq
);
971 TAILQ_INSERT_TAIL(&dqfreelist
, dq
, dq_freelist
);
973 dq_unlock_internal(dq
);
980 dqsync(struct dquot
*dq
)
987 if ( (dq
->dq_flags
& DQ_MOD
) )
988 error
= dqsync_locked(dq
);
997 * Update the disk quota in the quota file.
1000 dqsync_locked(struct dquot
*dq
)
1002 struct vfs_context context
;
1004 struct dqblk dqb
, *dqblkp
;
1007 char uio_buf
[ UIO_SIZEOF(1) ];
1009 if (dq
->dq_id
== 0) {
1010 dq
->dq_flags
&= ~DQ_MOD
;
1013 if (dq
->dq_qfile
== NULL
)
1014 panic("dqsync: NULL dq_qfile");
1015 if ((dqvp
= dq
->dq_qfile
->qf_vp
) == NULLVP
)
1016 panic("dqsync: NULL qf_vp");
1018 auio
= uio_createwithbuffer(1, dqoffset(dq
->dq_index
), UIO_SYSSPACE
,
1019 UIO_WRITE
, &uio_buf
[0], sizeof(uio_buf
));
1020 uio_addiov(auio
, CAST_USER_ADDR_T(&dqb
), sizeof (struct dqblk
));
1022 context
.vc_thread
= current_thread(); /* XXX */
1023 context
.vc_ucred
= dq
->dq_qfile
->qf_cred
;
1025 dqblkp
= &dq
->dq_dqb
;
1026 dqb
.dqb_bhardlimit
= OSSwapHostToBigInt64(dqblkp
->dqb_bhardlimit
);
1027 dqb
.dqb_bsoftlimit
= OSSwapHostToBigInt64(dqblkp
->dqb_bsoftlimit
);
1028 dqb
.dqb_curbytes
= OSSwapHostToBigInt64(dqblkp
->dqb_curbytes
);
1029 dqb
.dqb_ihardlimit
= OSSwapHostToBigInt32(dqblkp
->dqb_ihardlimit
);
1030 dqb
.dqb_isoftlimit
= OSSwapHostToBigInt32(dqblkp
->dqb_isoftlimit
);
1031 dqb
.dqb_curinodes
= OSSwapHostToBigInt32(dqblkp
->dqb_curinodes
);
1032 dqb
.dqb_btime
= OSSwapHostToBigInt32(dqblkp
->dqb_btime
);
1033 dqb
.dqb_itime
= OSSwapHostToBigInt32(dqblkp
->dqb_itime
);
1034 dqb
.dqb_id
= OSSwapHostToBigInt32(dqblkp
->dqb_id
);
1035 dqb
.dqb_spare
[0] = 0;
1036 dqb
.dqb_spare
[1] = 0;
1037 dqb
.dqb_spare
[2] = 0;
1038 dqb
.dqb_spare
[3] = 0;
1040 error
= VNOP_WRITE(dqvp
, auio
, 0, &context
);
1041 if (uio_resid(auio
) && error
== 0)
1043 dq
->dq_flags
&= ~DQ_MOD
;
1049 * Flush all entries from the cache for a particular vnode.
1052 dqflush(struct vnode
*vp
)
1054 struct dquot
*dq
, *nextdq
;
1057 if (!dqisinitialized())
1061 * Move all dquot's that used to refer to this quota
1062 * file off their hash chains (they will eventually
1063 * fall off the head of the free list and be re-used).
1067 for (dqh
= &dqhashtbl
[dqhash
]; dqh
>= dqhashtbl
; dqh
--) {
1068 for (dq
= dqh
->lh_first
; dq
; dq
= nextdq
) {
1069 nextdq
= dq
->dq_hash
.le_next
;
1070 if (dq
->dq_qfile
->qf_vp
!= vp
)
1073 panic("dqflush: stray dquot");
1074 LIST_REMOVE(dq
, dq_hash
);
1075 dq
->dq_qfile
= NULL
;
1082 * LP64 support for munging dqblk structure.
1083 * XXX conversion of user_time_t to time_t loses precision; not an issue for
1084 * XXX us now, since we are only ever setting 32 bits worth of time into it.
1086 __private_extern__
void
1087 munge_dqblk(struct dqblk
*dqblkp
, struct user_dqblk
*user_dqblkp
, boolean_t to64
)
1090 /* munge kernel (32 bit) dqblk into user (64 bit) dqblk */
1091 bcopy((caddr_t
)dqblkp
, (caddr_t
)user_dqblkp
, offsetof(struct dqblk
, dqb_btime
));
1092 user_dqblkp
->dqb_id
= dqblkp
->dqb_id
;
1093 user_dqblkp
->dqb_itime
= dqblkp
->dqb_itime
;
1094 user_dqblkp
->dqb_btime
= dqblkp
->dqb_btime
;
1098 /* munge user (64 bit) dqblk into kernel (32 bit) dqblk */
1099 bcopy((caddr_t
)user_dqblkp
, (caddr_t
)dqblkp
, offsetof(struct dqblk
, dqb_btime
));
1100 dqblkp
->dqb_id
= user_dqblkp
->dqb_id
;
1101 dqblkp
->dqb_itime
= user_dqblkp
->dqb_itime
; /* XXX - lose precision */
1102 dqblkp
->dqb_btime
= user_dqblkp
->dqb_btime
; /* XXX - lose precision */