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[dragonfly.git] / sys / kern / vfs_vopops.c
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1 /*
2 * Copyright (c) 2004,2009 The DragonFly Project. All rights reserved.
3 *
4 * This code is derived from software contributed to The DragonFly Project
5 * by Matthew Dillon <dillon@backplane.com>
6 *
7 * Redistribution and use in source and binary forms, with or without
8 * modification, are permitted provided that the following conditions
9 * are met:
11 * 1. Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 * notice, this list of conditions and the following disclaimer in
15 * the documentation and/or other materials provided with the
16 * distribution.
17 * 3. Neither the name of The DragonFly Project nor the names of its
18 * contributors may be used to endorse or promote products derived
19 * from this software without specific, prior written permission.
21 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
22 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
23 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
24 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
25 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
26 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
27 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
28 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
29 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
30 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
31 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32 * SUCH DAMAGE.
35 * Implement vnode ops wrappers. All vnode ops are wrapped through
36 * these functions.
38 * These wrappers are responsible for hanlding all MPSAFE issues related
39 * to a vnode operation.
42 #include <sys/param.h>
43 #include <sys/systm.h>
44 #include <sys/buf.h>
45 #include <sys/conf.h>
46 #include <sys/dirent.h>
47 #include <sys/domain.h>
48 #include <sys/eventhandler.h>
49 #include <sys/fcntl.h>
50 #include <sys/kernel.h>
51 #include <sys/kthread.h>
52 #include <sys/malloc.h>
53 #include <sys/mbuf.h>
54 #include <sys/mount.h>
55 #include <sys/proc.h>
56 #include <sys/namei.h>
57 #include <sys/reboot.h>
58 #include <sys/socket.h>
59 #include <sys/stat.h>
60 #include <sys/sysctl.h>
61 #include <sys/syslog.h>
62 #include <sys/vmmeter.h>
63 #include <sys/vnode.h>
64 #include <sys/vfsops.h>
65 #include <sys/sysmsg.h>
66 #include <sys/vfs_quota.h>
68 #include <machine/limits.h>
70 #include <vm/vm.h>
71 #include <vm/vm_object.h>
72 #include <vm/vm_extern.h>
73 #include <vm/vm_kern.h>
74 #include <vm/pmap.h>
75 #include <vm/vm_map.h>
76 #include <vm/vm_page.h>
77 #include <vm/vm_pager.h>
78 #include <vm/vnode_pager.h>
79 #include <vm/vm_zone.h>
81 #include <sys/buf2.h>
82 #include <sys/thread2.h>
83 #include <sys/mplock2.h>
85 #define VDESCNAME(name) __CONCAT(__CONCAT(vop_,name),_desc)
87 #define VNODEOP_DESC_INIT(name) \
88 struct syslink_desc VDESCNAME(name) = { \
89 __offsetof(struct vop_ops, __CONCAT(vop_, name)), \
90 #name }
92 VNODEOP_DESC_INIT(default);
93 VNODEOP_DESC_INIT(old_lookup);
94 VNODEOP_DESC_INIT(old_create);
95 VNODEOP_DESC_INIT(old_whiteout);
96 VNODEOP_DESC_INIT(old_mknod);
97 VNODEOP_DESC_INIT(open);
98 VNODEOP_DESC_INIT(close);
99 VNODEOP_DESC_INIT(access);
100 VNODEOP_DESC_INIT(getattr);
101 VNODEOP_DESC_INIT(setattr);
102 VNODEOP_DESC_INIT(read);
103 VNODEOP_DESC_INIT(write);
104 VNODEOP_DESC_INIT(ioctl);
105 VNODEOP_DESC_INIT(poll);
106 VNODEOP_DESC_INIT(kqfilter);
107 VNODEOP_DESC_INIT(mmap);
108 VNODEOP_DESC_INIT(fsync);
109 VNODEOP_DESC_INIT(old_remove);
110 VNODEOP_DESC_INIT(old_link);
111 VNODEOP_DESC_INIT(old_rename);
113 VNODEOP_DESC_INIT(old_mkdir);
114 VNODEOP_DESC_INIT(old_rmdir);
115 VNODEOP_DESC_INIT(old_symlink);
116 VNODEOP_DESC_INIT(readdir);
117 VNODEOP_DESC_INIT(readlink);
118 VNODEOP_DESC_INIT(inactive);
119 VNODEOP_DESC_INIT(reclaim);
120 VNODEOP_DESC_INIT(bmap);
121 VNODEOP_DESC_INIT(strategy);
122 VNODEOP_DESC_INIT(print);
123 VNODEOP_DESC_INIT(pathconf);
124 VNODEOP_DESC_INIT(advlock);
125 VNODEOP_DESC_INIT(balloc);
126 VNODEOP_DESC_INIT(reallocblks);
127 VNODEOP_DESC_INIT(getpages);
128 VNODEOP_DESC_INIT(putpages);
129 VNODEOP_DESC_INIT(freeblks);
130 VNODEOP_DESC_INIT(getacl);
131 VNODEOP_DESC_INIT(setacl);
132 VNODEOP_DESC_INIT(aclcheck);
133 VNODEOP_DESC_INIT(getextattr);
134 VNODEOP_DESC_INIT(setextattr);
135 VNODEOP_DESC_INIT(mountctl);
136 VNODEOP_DESC_INIT(markatime);
138 VNODEOP_DESC_INIT(nresolve);
139 VNODEOP_DESC_INIT(nlookupdotdot);
140 VNODEOP_DESC_INIT(ncreate);
141 VNODEOP_DESC_INIT(nmkdir);
142 VNODEOP_DESC_INIT(nmknod);
143 VNODEOP_DESC_INIT(nlink);
144 VNODEOP_DESC_INIT(nsymlink);
145 VNODEOP_DESC_INIT(nwhiteout);
146 VNODEOP_DESC_INIT(nremove);
147 VNODEOP_DESC_INIT(nrmdir);
148 VNODEOP_DESC_INIT(nrename);
150 #define DO_OPS(ops, error, ap, vop_field) \
151 error = ops->vop_field(ap)
153 /************************************************************************
154 * PRIMARY HIGH LEVEL VNODE OPERATIONS CALLS *
155 ************************************************************************
157 * These procedures are called directly from the kernel and/or fileops
158 * code to perform file/device operations on the system.
160 * NOTE: The old namespace api functions such as vop_rename() are no
161 * longer available for general use and have been renamed to
162 * vop_old_*(). Only the code in vfs_default.c is allowed to call
163 * those ops.
165 * NOTE: The VFS_MPLOCK() macro handle mounts which do not set MNTK_MPSAFE.
167 * MPSAFE
171 vop_old_lookup(struct vop_ops *ops, struct vnode *dvp,
172 struct vnode **vpp, struct componentname *cnp)
174 struct vop_old_lookup_args ap;
175 VFS_MPLOCK_DECLARE;
176 int error;
178 ap.a_head.a_desc = &vop_old_lookup_desc;
179 ap.a_head.a_ops = ops;
180 ap.a_dvp = dvp;
181 ap.a_vpp = vpp;
182 ap.a_cnp = cnp;
183 VFS_MPLOCK(dvp->v_mount);
184 DO_OPS(ops, error, &ap, vop_old_lookup);
185 VFS_MPUNLOCK(dvp->v_mount);
186 return(error);
190 * MPSAFE
193 vop_old_create(struct vop_ops *ops, struct vnode *dvp,
194 struct vnode **vpp, struct componentname *cnp, struct vattr *vap)
196 struct vop_old_create_args ap;
197 VFS_MPLOCK_DECLARE;
198 int error;
200 ap.a_head.a_desc = &vop_old_create_desc;
201 ap.a_head.a_ops = ops;
202 ap.a_dvp = dvp;
203 ap.a_vpp = vpp;
204 ap.a_cnp = cnp;
205 ap.a_vap = vap;
207 VFS_MPLOCK(dvp->v_mount);
208 DO_OPS(ops, error, &ap, vop_old_create);
209 VFS_MPUNLOCK(dvp->v_mount);
210 return(error);
214 * MPSAFE
217 vop_old_whiteout(struct vop_ops *ops, struct vnode *dvp,
218 struct componentname *cnp, int flags)
220 struct vop_old_whiteout_args ap;
221 VFS_MPLOCK_DECLARE;
222 int error;
224 ap.a_head.a_desc = &vop_old_whiteout_desc;
225 ap.a_head.a_ops = ops;
226 ap.a_dvp = dvp;
227 ap.a_cnp = cnp;
228 ap.a_flags = flags;
230 VFS_MPLOCK(dvp->v_mount);
231 DO_OPS(ops, error, &ap, vop_old_whiteout);
232 VFS_MPUNLOCK(dvp->v_mount);
233 return(error);
237 * MPSAFE
240 vop_old_mknod(struct vop_ops *ops, struct vnode *dvp,
241 struct vnode **vpp, struct componentname *cnp, struct vattr *vap)
243 struct vop_old_mknod_args ap;
244 VFS_MPLOCK_DECLARE;
245 int error;
247 ap.a_head.a_desc = &vop_old_mknod_desc;
248 ap.a_head.a_ops = ops;
249 ap.a_dvp = dvp;
250 ap.a_vpp = vpp;
251 ap.a_cnp = cnp;
252 ap.a_vap = vap;
254 VFS_MPLOCK(dvp->v_mount);
255 DO_OPS(ops, error, &ap, vop_old_mknod);
256 VFS_MPUNLOCK(dvp->v_mount);
257 return(error);
261 * NOTE: VAGE is always cleared when calling VOP_OPEN().
264 vop_open(struct vop_ops *ops, struct vnode *vp, int mode, struct ucred *cred,
265 struct file *fp)
267 struct vop_open_args ap;
268 VFS_MPLOCK_DECLARE;
269 int error;
272 * Decrement 3-2-1-0. Does not decrement beyond 0
274 if (vp->v_flag & VAGE0) {
275 vclrflags(vp, VAGE0);
276 } else if (vp->v_flag & VAGE1) {
277 vclrflags(vp, VAGE1);
278 vsetflags(vp, VAGE0);
281 ap.a_head.a_desc = &vop_open_desc;
282 ap.a_head.a_ops = ops;
283 ap.a_vp = vp;
284 ap.a_fp = fp;
285 ap.a_mode = mode;
286 ap.a_cred = cred;
288 VFS_MPLOCK(vp->v_mount);
289 DO_OPS(ops, error, &ap, vop_open);
290 VFS_MPUNLOCK(vp->v_mount);
291 return(error);
295 * MPSAFE
298 vop_close(struct vop_ops *ops, struct vnode *vp, int fflag,
299 struct file *fp)
301 struct vop_close_args ap;
302 VFS_MPLOCK_DECLARE;
303 int error;
305 ap.a_head.a_desc = &vop_close_desc;
306 ap.a_head.a_ops = ops;
307 ap.a_vp = vp;
308 ap.a_fp = fp;
309 ap.a_fflag = fflag;
311 VFS_MPLOCK(vp->v_mount);
312 DO_OPS(ops, error, &ap, vop_close);
313 VFS_MPUNLOCK(vp->v_mount);
314 return(error);
318 * MPSAFE
321 vop_access(struct vop_ops *ops, struct vnode *vp, int mode, int flags,
322 struct ucred *cred)
324 struct vop_access_args ap;
325 VFS_MPLOCK_DECLARE;
326 int error;
328 ap.a_head.a_desc = &vop_access_desc;
329 ap.a_head.a_ops = ops;
330 ap.a_vp = vp;
331 ap.a_mode = mode;
332 ap.a_flags = flags;
333 ap.a_cred = cred;
335 VFS_MPLOCK(vp->v_mount);
336 DO_OPS(ops, error, &ap, vop_access);
337 VFS_MPUNLOCK(vp->v_mount);
338 return(error);
342 * MPSAFE
345 vop_getattr(struct vop_ops *ops, struct vnode *vp, struct vattr *vap)
347 struct vop_getattr_args ap;
348 VFS_MPLOCK_DECLARE;
349 int error;
351 ap.a_head.a_desc = &vop_getattr_desc;
352 ap.a_head.a_ops = ops;
353 ap.a_vp = vp;
354 ap.a_vap = vap;
356 VFS_MPLOCK_FLAG(vp->v_mount, MNTK_GA_MPSAFE);
357 DO_OPS(ops, error, &ap, vop_getattr);
358 VFS_MPUNLOCK(vp->v_mount);
360 return(error);
364 * MPSAFE
367 vop_setattr(struct vop_ops *ops, struct vnode *vp, struct vattr *vap,
368 struct ucred *cred)
370 struct vop_setattr_args ap;
371 VFS_MPLOCK_DECLARE;
372 int error;
374 ap.a_head.a_desc = &vop_setattr_desc;
375 ap.a_head.a_ops = ops;
376 ap.a_vp = vp;
377 ap.a_vap = vap;
378 ap.a_cred = cred;
380 VFS_MPLOCK(vp->v_mount);
381 DO_OPS(ops, error, &ap, vop_setattr);
382 VFS_MPUNLOCK(vp->v_mount);
383 return(error);
387 * MPSAFE
390 vop_read(struct vop_ops *ops, struct vnode *vp, struct uio *uio, int ioflag,
391 struct ucred *cred)
393 struct vop_read_args ap;
394 VFS_MPLOCK_DECLARE;
395 int error;
397 ap.a_head.a_desc = &vop_read_desc;
398 ap.a_head.a_ops = ops;
399 ap.a_vp = vp;
400 ap.a_uio = uio;
401 ap.a_ioflag = ioflag;
402 ap.a_cred = cred;
404 VFS_MPLOCK_FLAG(vp->v_mount, MNTK_RD_MPSAFE);
405 DO_OPS(ops, error, &ap, vop_read);
406 VFS_MPUNLOCK(vp->v_mount);
407 return(error);
411 * MPSAFE
414 vop_write(struct vop_ops *ops, struct vnode *vp, struct uio *uio, int ioflag,
415 struct ucred *cred)
417 struct vop_write_args ap;
418 VFS_MPLOCK_DECLARE;
419 int error, do_accounting = 0;
420 struct vattr va;
421 uint64_t size_before=0, size_after=0;
422 struct mount *mp;
423 uint64_t offset, delta;
425 ap.a_head.a_desc = &vop_write_desc;
426 ap.a_head.a_ops = ops;
427 ap.a_vp = vp;
428 ap.a_uio = uio;
429 ap.a_ioflag = ioflag;
430 ap.a_cred = cred;
432 /* is this a regular vnode ? */
433 VFS_MPLOCK_FLAG(vp->v_mount, MNTK_WR_MPSAFE);
434 if (vfs_quota_enabled && (vp->v_type == VREG)) {
435 if ((error = VOP_GETATTR(vp, &va)) != 0)
436 goto done;
437 size_before = va.va_size;
438 /* this file may already have been removed */
439 if (va.va_nlink > 0)
440 do_accounting = 1;
442 offset = uio->uio_offset;
443 if (ioflag & IO_APPEND)
444 offset = size_before;
445 size_after = offset + uio->uio_resid;
446 if (size_after < size_before)
447 size_after = size_before;
448 delta = size_after - size_before;
449 mp = vq_vptomp(vp);
450 /* QUOTA CHECK */
451 if (!vq_write_ok(mp, va.va_uid, va.va_gid, delta)) {
452 error = EDQUOT;
453 goto done;
456 DO_OPS(ops, error, &ap, vop_write);
457 if ((error == 0) && do_accounting) {
458 VFS_ACCOUNT(mp, va.va_uid, va.va_gid, size_after - size_before);
460 done:
461 VFS_MPUNLOCK(vp->v_mount);
462 return(error);
466 * MPSAFE
469 vop_ioctl(struct vop_ops *ops, struct vnode *vp, u_long command, caddr_t data,
470 int fflag, struct ucred *cred, struct sysmsg *msg)
472 struct vop_ioctl_args ap;
473 VFS_MPLOCK_DECLARE;
474 int error;
476 ap.a_head.a_desc = &vop_ioctl_desc;
477 ap.a_head.a_ops = ops;
478 ap.a_vp = vp;
479 ap.a_command = command;
480 ap.a_data = data;
481 ap.a_fflag = fflag;
482 ap.a_cred = cred;
483 ap.a_sysmsg = msg;
485 VFS_MPLOCK(vp->v_mount);
486 DO_OPS(ops, error, &ap, vop_ioctl);
487 VFS_MPUNLOCK(vp->v_mount);
488 return(error);
492 * MPSAFE
495 vop_poll(struct vop_ops *ops, struct vnode *vp, int events, struct ucred *cred)
497 struct vop_poll_args ap;
498 VFS_MPLOCK_DECLARE;
499 int error;
501 ap.a_head.a_desc = &vop_poll_desc;
502 ap.a_head.a_ops = ops;
503 ap.a_vp = vp;
504 ap.a_events = events;
505 ap.a_cred = cred;
507 VFS_MPLOCK(vp->v_mount);
508 DO_OPS(ops, error, &ap, vop_poll);
509 VFS_MPUNLOCK(vp->v_mount);
510 return(error);
514 * MPSAFE
517 vop_kqfilter(struct vop_ops *ops, struct vnode *vp, struct knote *kn)
519 struct vop_kqfilter_args ap;
520 VFS_MPLOCK_DECLARE;
521 int error;
523 ap.a_head.a_desc = &vop_kqfilter_desc;
524 ap.a_head.a_ops = ops;
525 ap.a_vp = vp;
526 ap.a_kn = kn;
528 VFS_MPLOCK(vp->v_mount);
529 DO_OPS(ops, error, &ap, vop_kqfilter);
530 VFS_MPUNLOCK(vp->v_mount);
531 return(error);
535 * MPSAFE
538 vop_mmap(struct vop_ops *ops, struct vnode *vp, int fflags, struct ucred *cred)
540 struct vop_mmap_args ap;
541 VFS_MPLOCK_DECLARE;
542 int error;
544 ap.a_head.a_desc = &vop_mmap_desc;
545 ap.a_head.a_ops = ops;
546 ap.a_vp = vp;
547 ap.a_fflags = fflags;
548 ap.a_cred = cred;
550 VFS_MPLOCK(vp->v_mount);
551 DO_OPS(ops, error, &ap, vop_mmap);
552 VFS_MPUNLOCK(vp->v_mount);
553 return(error);
557 * MPSAFE
560 vop_fsync(struct vop_ops *ops, struct vnode *vp, int waitfor, int flags)
562 struct vop_fsync_args ap;
563 VFS_MPLOCK_DECLARE;
564 int error;
566 ap.a_head.a_desc = &vop_fsync_desc;
567 ap.a_head.a_ops = ops;
568 ap.a_vp = vp;
569 ap.a_waitfor = waitfor;
570 ap.a_flags = flags;
572 VFS_MPLOCK(vp->v_mount);
573 DO_OPS(ops, error, &ap, vop_fsync);
574 VFS_MPUNLOCK(vp->v_mount);
575 return(error);
579 * MPSAFE
582 vop_old_remove(struct vop_ops *ops, struct vnode *dvp,
583 struct vnode *vp, struct componentname *cnp)
585 struct vop_old_remove_args ap;
586 VFS_MPLOCK_DECLARE;
587 int error;
589 ap.a_head.a_desc = &vop_old_remove_desc;
590 ap.a_head.a_ops = ops;
591 ap.a_dvp = dvp;
592 ap.a_vp = vp;
593 ap.a_cnp = cnp;
595 VFS_MPLOCK(dvp->v_mount);
596 DO_OPS(ops, error, &ap, vop_old_remove);
597 VFS_MPUNLOCK(dvp->v_mount);
598 return(error);
602 * MPSAFE
605 vop_old_link(struct vop_ops *ops, struct vnode *tdvp,
606 struct vnode *vp, struct componentname *cnp)
608 struct vop_old_link_args ap;
609 VFS_MPLOCK_DECLARE;
610 int error;
612 ap.a_head.a_desc = &vop_old_link_desc;
613 ap.a_head.a_ops = ops;
614 ap.a_tdvp = tdvp;
615 ap.a_vp = vp;
616 ap.a_cnp = cnp;
618 VFS_MPLOCK(tdvp->v_mount);
619 DO_OPS(ops, error, &ap, vop_old_link);
620 VFS_MPUNLOCK(tdvp->v_mount);
621 return(error);
625 * MPSAFE
628 vop_old_rename(struct vop_ops *ops,
629 struct vnode *fdvp, struct vnode *fvp, struct componentname *fcnp,
630 struct vnode *tdvp, struct vnode *tvp, struct componentname *tcnp)
632 struct vop_old_rename_args ap;
633 VFS_MPLOCK_DECLARE;
634 int error;
636 ap.a_head.a_desc = &vop_old_rename_desc;
637 ap.a_head.a_ops = ops;
638 ap.a_fdvp = fdvp;
639 ap.a_fvp = fvp;
640 ap.a_fcnp = fcnp;
641 ap.a_tdvp = tdvp;
642 ap.a_tvp = tvp;
643 ap.a_tcnp = tcnp;
645 VFS_MPLOCK(tdvp->v_mount);
646 DO_OPS(ops, error, &ap, vop_old_rename);
647 VFS_MPUNLOCK(tdvp->v_mount);
648 return(error);
652 * MPSAFE
655 vop_old_mkdir(struct vop_ops *ops, struct vnode *dvp,
656 struct vnode **vpp, struct componentname *cnp, struct vattr *vap)
658 struct vop_old_mkdir_args ap;
659 VFS_MPLOCK_DECLARE;
660 int error;
662 ap.a_head.a_desc = &vop_old_mkdir_desc;
663 ap.a_head.a_ops = ops;
664 ap.a_dvp = dvp;
665 ap.a_vpp = vpp;
666 ap.a_cnp = cnp;
667 ap.a_vap = vap;
669 VFS_MPLOCK(dvp->v_mount);
670 DO_OPS(ops, error, &ap, vop_old_mkdir);
671 VFS_MPUNLOCK(dvp->v_mount);
672 return(error);
676 * MPSAFE
679 vop_old_rmdir(struct vop_ops *ops, struct vnode *dvp,
680 struct vnode *vp, struct componentname *cnp)
682 struct vop_old_rmdir_args ap;
683 VFS_MPLOCK_DECLARE;
684 int error;
686 ap.a_head.a_desc = &vop_old_rmdir_desc;
687 ap.a_head.a_ops = ops;
688 ap.a_dvp = dvp;
689 ap.a_vp = vp;
690 ap.a_cnp = cnp;
692 VFS_MPLOCK(dvp->v_mount);
693 DO_OPS(ops, error, &ap, vop_old_rmdir);
694 VFS_MPUNLOCK(dvp->v_mount);
695 return(error);
699 * MPSAFE
702 vop_old_symlink(struct vop_ops *ops, struct vnode *dvp,
703 struct vnode **vpp, struct componentname *cnp,
704 struct vattr *vap, char *target)
706 struct vop_old_symlink_args ap;
707 VFS_MPLOCK_DECLARE;
708 int error;
710 ap.a_head.a_desc = &vop_old_symlink_desc;
711 ap.a_head.a_ops = ops;
712 ap.a_dvp = dvp;
713 ap.a_vpp = vpp;
714 ap.a_cnp = cnp;
715 ap.a_vap = vap;
716 ap.a_target = target;
718 VFS_MPLOCK(dvp->v_mount);
719 DO_OPS(ops, error, &ap, vop_old_symlink);
720 VFS_MPUNLOCK(dvp->v_mount);
721 return(error);
725 * MPSAFE
728 vop_readdir(struct vop_ops *ops, struct vnode *vp, struct uio *uio,
729 struct ucred *cred, int *eofflag, int *ncookies, off_t **cookies)
731 struct vop_readdir_args ap;
732 VFS_MPLOCK_DECLARE;
733 int error;
735 ap.a_head.a_desc = &vop_readdir_desc;
736 ap.a_head.a_ops = ops;
737 ap.a_vp = vp;
738 ap.a_uio = uio;
739 ap.a_cred = cred;
740 ap.a_eofflag = eofflag;
741 ap.a_ncookies = ncookies;
742 ap.a_cookies = cookies;
744 VFS_MPLOCK(vp->v_mount);
745 DO_OPS(ops, error, &ap, vop_readdir);
746 VFS_MPUNLOCK(vp->v_mount);
747 return(error);
751 * MPSAFE
754 vop_readlink(struct vop_ops *ops, struct vnode *vp, struct uio *uio,
755 struct ucred *cred)
757 struct vop_readlink_args ap;
758 VFS_MPLOCK_DECLARE;
759 int error;
761 ap.a_head.a_desc = &vop_readlink_desc;
762 ap.a_head.a_ops = ops;
763 ap.a_vp = vp;
764 ap.a_uio = uio;
765 ap.a_cred = cred;
767 VFS_MPLOCK(vp->v_mount);
768 DO_OPS(ops, error, &ap, vop_readlink);
769 VFS_MPUNLOCK(vp->v_mount);
770 return(error);
774 * MPSAFE
777 vop_inactive(struct vop_ops *ops, struct vnode *vp)
779 struct vop_inactive_args ap;
780 struct mount *mp;
781 VFS_MPLOCK_DECLARE;
782 int error;
784 ap.a_head.a_desc = &vop_inactive_desc;
785 ap.a_head.a_ops = ops;
786 ap.a_vp = vp;
789 * WARNING! Deactivation of the vnode can cause it to be recycled,
790 * clearing vp->v_mount.
792 mp = vp->v_mount;
793 VFS_MPLOCK_FLAG(mp, MNTK_IN_MPSAFE);
794 DO_OPS(ops, error, &ap, vop_inactive);
795 VFS_MPUNLOCK(mp);
796 return(error);
800 * MPSAFE
803 vop_reclaim(struct vop_ops *ops, struct vnode *vp)
805 struct vop_reclaim_args ap;
806 struct mount *mp;
807 VFS_MPLOCK_DECLARE;
808 int error;
810 ap.a_head.a_desc = &vop_reclaim_desc;
811 ap.a_head.a_ops = ops;
812 ap.a_vp = vp;
815 * WARNING! Reclamation of the vnode will clear vp->v_mount.
817 mp = vp->v_mount;
818 VFS_MPLOCK(mp);
819 DO_OPS(ops, error, &ap, vop_reclaim);
820 VFS_MPUNLOCK(mp);
821 return(error);
825 * MPSAFE
828 vop_bmap(struct vop_ops *ops, struct vnode *vp, off_t loffset,
829 off_t *doffsetp, int *runp, int *runb, buf_cmd_t cmd)
831 struct vop_bmap_args ap;
832 VFS_MPLOCK_DECLARE;
833 int error;
835 ap.a_head.a_desc = &vop_bmap_desc;
836 ap.a_head.a_ops = ops;
837 ap.a_vp = vp;
838 ap.a_loffset = loffset;
839 ap.a_doffsetp = doffsetp;
840 ap.a_runp = runp;
841 ap.a_runb = runb;
842 ap.a_cmd = cmd;
844 VFS_MPLOCK(vp->v_mount);
845 DO_OPS(ops, error, &ap, vop_bmap);
846 VFS_MPUNLOCK(vp->v_mount);
847 return(error);
851 * MPSAFE
854 vop_strategy(struct vop_ops *ops, struct vnode *vp, struct bio *bio)
856 struct vop_strategy_args ap;
857 VFS_MPLOCK_DECLARE;
858 int error;
860 ap.a_head.a_desc = &vop_strategy_desc;
861 ap.a_head.a_ops = ops;
862 ap.a_vp = vp;
863 ap.a_bio = bio;
865 if (vp->v_mount) {
866 VFS_MPLOCK_FLAG(vp->v_mount, MNTK_SG_MPSAFE);
867 DO_OPS(ops, error, &ap, vop_strategy);
868 VFS_MPUNLOCK(vp->v_mount);
869 } else {
870 /* ugly hack for swap */
871 get_mplock();
872 DO_OPS(ops, error, &ap, vop_strategy);
873 rel_mplock();
875 return(error);
879 * MPSAFE
882 vop_print(struct vop_ops *ops, struct vnode *vp)
884 struct vop_print_args ap;
885 VFS_MPLOCK_DECLARE;
886 int error;
888 ap.a_head.a_desc = &vop_print_desc;
889 ap.a_head.a_ops = ops;
890 ap.a_vp = vp;
892 VFS_MPLOCK(vp->v_mount);
893 DO_OPS(ops, error, &ap, vop_print);
894 VFS_MPUNLOCK(vp->v_mount);
895 return(error);
899 * MPSAFE
902 vop_pathconf(struct vop_ops *ops, struct vnode *vp, int name,
903 register_t *retval)
905 struct vop_pathconf_args ap;
906 VFS_MPLOCK_DECLARE;
907 int error;
909 ap.a_head.a_desc = &vop_pathconf_desc;
910 ap.a_head.a_ops = ops;
911 ap.a_vp = vp;
912 ap.a_name = name;
913 ap.a_retval = retval;
915 VFS_MPLOCK(vp->v_mount);
916 DO_OPS(ops, error, &ap, vop_pathconf);
917 VFS_MPUNLOCK(vp->v_mount);
918 return(error);
922 * MPSAFE
925 vop_advlock(struct vop_ops *ops, struct vnode *vp, caddr_t id, int op,
926 struct flock *fl, int flags)
928 struct vop_advlock_args ap;
929 VFS_MPLOCK_DECLARE;
930 int error;
932 ap.a_head.a_desc = &vop_advlock_desc;
933 ap.a_head.a_ops = ops;
934 ap.a_vp = vp;
935 ap.a_id = id;
936 ap.a_op = op;
937 ap.a_fl = fl;
938 ap.a_flags = flags;
940 VFS_MPLOCK(vp->v_mount);
941 DO_OPS(ops, error, &ap, vop_advlock);
942 VFS_MPUNLOCK(vp->v_mount);
943 return(error);
947 * MPSAFE
950 vop_balloc(struct vop_ops *ops, struct vnode *vp, off_t startoffset,
951 int size, struct ucred *cred, int flags,
952 struct buf **bpp)
954 struct vop_balloc_args ap;
955 VFS_MPLOCK_DECLARE;
956 int error;
958 ap.a_head.a_desc = &vop_balloc_desc;
959 ap.a_head.a_ops = ops;
960 ap.a_vp = vp;
961 ap.a_startoffset = startoffset;
962 ap.a_size = size;
963 ap.a_cred = cred;
964 ap.a_flags = flags;
965 ap.a_bpp = bpp;
967 VFS_MPLOCK(vp->v_mount);
968 DO_OPS(ops, error, &ap, vop_balloc);
969 VFS_MPUNLOCK(vp->v_mount);
970 return(error);
974 * MPSAFE
977 vop_reallocblks(struct vop_ops *ops, struct vnode *vp,
978 struct cluster_save *buflist)
980 struct vop_reallocblks_args ap;
981 VFS_MPLOCK_DECLARE;
982 int error;
984 ap.a_head.a_desc = &vop_reallocblks_desc;
985 ap.a_head.a_ops = ops;
986 ap.a_vp = vp;
987 ap.a_buflist = buflist;
989 VFS_MPLOCK(vp->v_mount);
990 DO_OPS(ops, error, &ap, vop_reallocblks);
991 VFS_MPUNLOCK(vp->v_mount);
992 return(error);
996 * MPSAFE
999 vop_getpages(struct vop_ops *ops, struct vnode *vp, vm_page_t *m, int count,
1000 int reqpage, vm_ooffset_t offset, int seqaccess)
1002 struct vop_getpages_args ap;
1003 VFS_MPLOCK_DECLARE;
1004 int error;
1006 ap.a_head.a_desc = &vop_getpages_desc;
1007 ap.a_head.a_ops = ops;
1008 ap.a_vp = vp;
1009 ap.a_m = m;
1010 ap.a_count = count;
1011 ap.a_reqpage = reqpage;
1012 ap.a_offset = offset;
1013 ap.a_seqaccess = seqaccess;
1015 VFS_MPLOCK(vp->v_mount);
1016 DO_OPS(ops, error, &ap, vop_getpages);
1017 VFS_MPUNLOCK(vp->v_mount);
1018 return(error);
1022 * MPSAFE
1025 vop_putpages(struct vop_ops *ops, struct vnode *vp, vm_page_t *m, int count,
1026 int sync, int *rtvals, vm_ooffset_t offset)
1028 struct vop_putpages_args ap;
1029 VFS_MPLOCK_DECLARE;
1030 int error;
1032 ap.a_head.a_desc = &vop_putpages_desc;
1033 ap.a_head.a_ops = ops;
1034 ap.a_vp = vp;
1035 ap.a_m = m;
1036 ap.a_count = count;
1037 ap.a_sync = sync;
1038 ap.a_rtvals = rtvals;
1039 ap.a_offset = offset;
1041 VFS_MPLOCK(vp->v_mount);
1042 DO_OPS(ops, error, &ap, vop_putpages);
1043 VFS_MPUNLOCK(vp->v_mount);
1044 return(error);
1048 * MPSAFE
1051 vop_freeblks(struct vop_ops *ops, struct vnode *vp, off_t offset, int length)
1053 struct vop_freeblks_args ap;
1054 VFS_MPLOCK_DECLARE;
1055 int error;
1057 ap.a_head.a_desc = &vop_freeblks_desc;
1058 ap.a_head.a_ops = ops;
1059 ap.a_vp = vp;
1060 ap.a_offset = offset;
1061 ap.a_length = length;
1063 VFS_MPLOCK(vp->v_mount);
1064 DO_OPS(ops, error, &ap, vop_freeblks);
1065 VFS_MPUNLOCK(vp->v_mount);
1066 return(error);
1070 * MPSAFE
1073 vop_getacl(struct vop_ops *ops, struct vnode *vp, acl_type_t type,
1074 struct acl *aclp, struct ucred *cred)
1076 struct vop_getacl_args ap;
1077 VFS_MPLOCK_DECLARE;
1078 int error;
1080 ap.a_head.a_desc = &vop_getacl_desc;
1081 ap.a_head.a_ops = ops;
1082 ap.a_vp = vp;
1083 ap.a_type = type;
1084 ap.a_aclp = aclp;
1085 ap.a_cred = cred;
1087 VFS_MPLOCK(vp->v_mount);
1088 DO_OPS(ops, error, &ap, vop_getacl);
1089 VFS_MPUNLOCK(vp->v_mount);
1090 return(error);
1094 * MPSAFE
1097 vop_setacl(struct vop_ops *ops, struct vnode *vp, acl_type_t type,
1098 struct acl *aclp, struct ucred *cred)
1100 struct vop_setacl_args ap;
1101 VFS_MPLOCK_DECLARE;
1102 int error;
1104 ap.a_head.a_desc = &vop_setacl_desc;
1105 ap.a_head.a_ops = ops;
1106 ap.a_vp = vp;
1107 ap.a_type = type;
1108 ap.a_aclp = aclp;
1109 ap.a_cred = cred;
1111 VFS_MPLOCK(vp->v_mount);
1112 DO_OPS(ops, error, &ap, vop_setacl);
1113 VFS_MPUNLOCK(vp->v_mount);
1114 return(error);
1118 * MPSAFE
1121 vop_aclcheck(struct vop_ops *ops, struct vnode *vp, acl_type_t type,
1122 struct acl *aclp, struct ucred *cred)
1124 struct vop_aclcheck_args ap;
1125 VFS_MPLOCK_DECLARE;
1126 int error;
1128 ap.a_head.a_desc = &vop_aclcheck_desc;
1129 ap.a_head.a_ops = ops;
1130 ap.a_vp = vp;
1131 ap.a_type = type;
1132 ap.a_aclp = aclp;
1133 ap.a_cred = cred;
1135 VFS_MPLOCK(vp->v_mount);
1136 DO_OPS(ops, error, &ap, vop_aclcheck);
1137 VFS_MPUNLOCK(vp->v_mount);
1138 return(error);
1142 * MPSAFE
1145 vop_getextattr(struct vop_ops *ops, struct vnode *vp, int attrnamespace,
1146 char *attrname, struct uio *uio, struct ucred *cred)
1148 struct vop_getextattr_args ap;
1149 VFS_MPLOCK_DECLARE;
1150 int error;
1152 ap.a_head.a_desc = &vop_getextattr_desc;
1153 ap.a_head.a_ops = ops;
1154 ap.a_vp = vp;
1155 ap.a_attrnamespace = attrnamespace;
1156 ap.a_attrname = attrname;
1157 ap.a_uio = uio;
1158 ap.a_cred = cred;
1160 VFS_MPLOCK(vp->v_mount);
1161 DO_OPS(ops, error, &ap, vop_getextattr);
1162 VFS_MPUNLOCK(vp->v_mount);
1163 return(error);
1167 * MPSAFE
1170 vop_setextattr(struct vop_ops *ops, struct vnode *vp, int attrnamespace,
1171 char *attrname, struct uio *uio, struct ucred *cred)
1173 struct vop_setextattr_args ap;
1174 VFS_MPLOCK_DECLARE;
1175 int error;
1177 ap.a_head.a_desc = &vop_setextattr_desc;
1178 ap.a_head.a_ops = ops;
1179 ap.a_vp = vp;
1180 ap.a_attrnamespace = attrnamespace;
1181 ap.a_attrname = attrname;
1182 ap.a_uio = uio;
1183 ap.a_cred = cred;
1185 VFS_MPLOCK(vp->v_mount);
1186 DO_OPS(ops, error, &ap, vop_setextattr);
1187 VFS_MPUNLOCK(vp->v_mount);
1188 return(error);
1192 * MPSAFE
1195 vop_mountctl(struct vop_ops *ops, struct vnode *vp, int op, struct file *fp,
1196 const void *ctl, int ctllen, void *buf, int buflen, int *res)
1198 struct vop_mountctl_args ap;
1199 VFS_MPLOCK_DECLARE;
1200 int error;
1202 ap.a_head.a_desc = &vop_mountctl_desc;
1203 ap.a_head.a_ops = ops;
1204 ap.a_op = op;
1205 ap.a_ctl = ctl;
1206 ap.a_fp = fp;
1207 ap.a_ctllen = ctllen;
1208 ap.a_buf = buf;
1209 ap.a_buflen = buflen;
1210 ap.a_res = res;
1212 VFS_MPLOCK(vp->v_mount);
1213 DO_OPS(ops, error, &ap, vop_mountctl);
1214 VFS_MPUNLOCK(vp->v_mount);
1215 return(error);
1219 * MPSAFE
1222 vop_markatime(struct vop_ops *ops, struct vnode *vp, struct ucred *cred)
1224 struct vop_markatime_args ap;
1225 VFS_MPLOCK_DECLARE;
1226 int error;
1228 ap.a_head.a_desc = &vop_markatime_desc;
1229 ap.a_head.a_ops = ops;
1230 ap.a_vp = vp;
1231 ap.a_cred = cred;
1233 VFS_MPLOCK(vp->v_mount);
1234 DO_OPS(ops, error, &ap, vop_markatime);
1235 VFS_MPUNLOCK(vp->v_mount);
1236 return(error);
1240 * NEW API FUNCTIONS
1242 * nresolve takes a locked ncp, a referenced but unlocked dvp, and a cred,
1243 * and resolves the ncp into a positive or negative hit.
1245 * The namecache is automatically adjusted by this function. The ncp
1246 * is left locked on return.
1248 * MPSAFE
1251 vop_nresolve(struct vop_ops *ops, struct nchandle *nch,
1252 struct vnode *dvp, struct ucred *cred)
1254 struct vop_nresolve_args ap;
1255 VFS_MPLOCK_DECLARE;
1256 int error;
1258 ap.a_head.a_desc = &vop_nresolve_desc;
1259 ap.a_head.a_ops = ops;
1260 ap.a_nch = nch;
1261 ap.a_dvp = dvp;
1262 ap.a_cred = cred;
1264 VFS_MPLOCK(dvp->v_mount);
1265 DO_OPS(ops, error, &ap, vop_nresolve);
1266 VFS_MPUNLOCK(dvp->v_mount);
1267 return(error);
1271 * nlookupdotdot takes an unlocked directory, referenced dvp, and looks
1272 * up "..", returning a locked parent directory in *vpp. If an error
1273 * occurs *vpp will be NULL.
1275 * MPSAFE
1278 vop_nlookupdotdot(struct vop_ops *ops, struct vnode *dvp,
1279 struct vnode **vpp, struct ucred *cred, char **fakename)
1281 struct vop_nlookupdotdot_args ap;
1282 VFS_MPLOCK_DECLARE;
1283 int error;
1285 ap.a_head.a_desc = &vop_nlookupdotdot_desc;
1286 ap.a_head.a_ops = ops;
1287 ap.a_dvp = dvp;
1288 ap.a_vpp = vpp;
1289 ap.a_cred = cred;
1290 ap.a_fakename = fakename;
1292 VFS_MPLOCK(dvp->v_mount);
1293 DO_OPS(ops, error, &ap, vop_nlookupdotdot);
1294 VFS_MPUNLOCK(dvp->v_mount);
1295 return(error);
1299 * ncreate takes a locked, resolved ncp that typically represents a negative
1300 * cache hit and creates the file or node specified by the ncp, cred, and
1301 * vattr. If no error occurs a locked vnode is returned in *vpp.
1303 * The dvp passed in is referenced but unlocked.
1305 * The namecache is automatically adjusted by this function. The ncp
1306 * is left locked on return.
1308 * MPSAFE
1311 vop_ncreate(struct vop_ops *ops, struct nchandle *nch, struct vnode *dvp,
1312 struct vnode **vpp, struct ucred *cred, struct vattr *vap)
1314 struct vop_ncreate_args ap;
1315 VFS_MPLOCK_DECLARE;
1316 int error;
1318 ap.a_head.a_desc = &vop_ncreate_desc;
1319 ap.a_head.a_ops = ops;
1320 ap.a_nch = nch;
1321 ap.a_dvp = dvp;
1322 ap.a_vpp = vpp;
1323 ap.a_cred = cred;
1324 ap.a_vap = vap;
1326 VFS_MPLOCK(dvp->v_mount);
1327 DO_OPS(ops, error, &ap, vop_ncreate);
1328 VFS_MPUNLOCK(dvp->v_mount);
1329 return(error);
1333 * nmkdir takes a locked, resolved ncp that typically represents a negative
1334 * cache hit and creates the directory specified by the ncp, cred, and
1335 * vattr. If no error occurs a locked vnode is returned in *vpp.
1337 * The dvp passed in is referenced but unlocked.
1339 * The namecache is automatically adjusted by this function. The ncp
1340 * is left locked on return.
1342 * MPSAFE
1345 vop_nmkdir(struct vop_ops *ops, struct nchandle *nch, struct vnode *dvp,
1346 struct vnode **vpp, struct ucred *cred, struct vattr *vap)
1348 struct vop_nmkdir_args ap;
1349 VFS_MPLOCK_DECLARE;
1350 int error;
1352 ap.a_head.a_desc = &vop_nmkdir_desc;
1353 ap.a_head.a_ops = ops;
1354 ap.a_nch = nch;
1355 ap.a_dvp = dvp;
1356 ap.a_vpp = vpp;
1357 ap.a_cred = cred;
1358 ap.a_vap = vap;
1360 VFS_MPLOCK(dvp->v_mount);
1361 DO_OPS(ops, error, &ap, vop_nmkdir);
1362 VFS_MPUNLOCK(dvp->v_mount);
1363 return(error);
1367 * nmknod takes a locked, resolved ncp that typically represents a negative
1368 * cache hit and creates the node specified by the ncp, cred, and
1369 * vattr. If no error occurs a locked vnode is returned in *vpp.
1371 * The dvp passed in is referenced but unlocked.
1373 * The namecache is automatically adjusted by this function. The ncp
1374 * is left locked on return.
1376 * MPSAFE
1379 vop_nmknod(struct vop_ops *ops, struct nchandle *nch, struct vnode *dvp,
1380 struct vnode **vpp, struct ucred *cred, struct vattr *vap)
1382 struct vop_nmknod_args ap;
1383 VFS_MPLOCK_DECLARE;
1384 int error;
1386 ap.a_head.a_desc = &vop_nmknod_desc;
1387 ap.a_head.a_ops = ops;
1388 ap.a_nch = nch;
1389 ap.a_dvp = dvp;
1390 ap.a_vpp = vpp;
1391 ap.a_cred = cred;
1392 ap.a_vap = vap;
1394 VFS_MPLOCK(dvp->v_mount);
1395 DO_OPS(ops, error, &ap, vop_nmknod);
1396 VFS_MPUNLOCK(dvp->v_mount);
1397 return(error);
1401 * nlink takes a locked, resolved ncp that typically represents a negative
1402 * cache hit and creates the node specified by the ncp, cred, and
1403 * existing vnode. The passed vp must be locked and will remain locked
1404 * on return, as does the ncp, whether an error occurs or not.
1406 * The dvp passed in is referenced but unlocked.
1408 * The namecache is automatically adjusted by this function. The ncp
1409 * is left locked on return.
1411 * MPSAFE
1414 vop_nlink(struct vop_ops *ops, struct nchandle *nch, struct vnode *dvp,
1415 struct vnode *vp, struct ucred *cred)
1417 struct vop_nlink_args ap;
1418 VFS_MPLOCK_DECLARE;
1419 int error;
1421 ap.a_head.a_desc = &vop_nlink_desc;
1422 ap.a_head.a_ops = ops;
1423 ap.a_nch = nch;
1424 ap.a_dvp = dvp;
1425 ap.a_vp = vp;
1426 ap.a_cred = cred;
1428 VFS_MPLOCK(dvp->v_mount);
1429 DO_OPS(ops, error, &ap, vop_nlink);
1430 VFS_MPUNLOCK(dvp->v_mount);
1431 return(error);
1435 * nsymlink takes a locked, resolved ncp that typically represents a negative
1436 * cache hit and creates a symbolic link based on cred, vap, and target (the
1437 * contents of the link). If no error occurs a locked vnode is returned in
1438 * *vpp.
1440 * The dvp passed in is referenced but unlocked.
1442 * The namecache is automatically adjusted by this function. The ncp
1443 * is left locked on return.
1445 * MPSAFE
1448 vop_nsymlink(struct vop_ops *ops, struct nchandle *nch, struct vnode *dvp,
1449 struct vnode **vpp, struct ucred *cred,
1450 struct vattr *vap, char *target)
1452 struct vop_nsymlink_args ap;
1453 VFS_MPLOCK_DECLARE;
1454 int error;
1456 ap.a_head.a_desc = &vop_nsymlink_desc;
1457 ap.a_head.a_ops = ops;
1458 ap.a_nch = nch;
1459 ap.a_dvp = dvp;
1460 ap.a_vpp = vpp;
1461 ap.a_cred = cred;
1462 ap.a_vap = vap;
1463 ap.a_target = target;
1465 VFS_MPLOCK(dvp->v_mount);
1466 DO_OPS(ops, error, &ap, vop_nsymlink);
1467 VFS_MPUNLOCK(dvp->v_mount);
1468 return(error);
1472 * nwhiteout takes a locked, resolved ncp that can represent a positive or
1473 * negative hit and executes the whiteout function specified in flags.
1475 * The dvp passed in is referenced but unlocked.
1477 * The namecache is automatically adjusted by this function. The ncp
1478 * is left locked on return.
1480 * MPSAFE
1483 vop_nwhiteout(struct vop_ops *ops, struct nchandle *nch, struct vnode *dvp,
1484 struct ucred *cred, int flags)
1486 struct vop_nwhiteout_args ap;
1487 VFS_MPLOCK_DECLARE;
1488 int error;
1490 ap.a_head.a_desc = &vop_nwhiteout_desc;
1491 ap.a_head.a_ops = ops;
1492 ap.a_nch = nch;
1493 ap.a_dvp = dvp;
1494 ap.a_cred = cred;
1495 ap.a_flags = flags;
1497 VFS_MPLOCK(dvp->v_mount);
1498 DO_OPS(ops, error, &ap, vop_nwhiteout);
1499 VFS_MPUNLOCK(dvp->v_mount);
1500 return(error);
1504 * nremove takes a locked, resolved ncp that generally represents a
1505 * positive hit and removes the file.
1507 * The dvp passed in is referenced but unlocked.
1509 * The namecache is automatically adjusted by this function. The ncp
1510 * is left locked on return.
1512 * MPSAFE
1515 vop_nremove(struct vop_ops *ops, struct nchandle *nch, struct vnode *dvp,
1516 struct ucred *cred)
1518 struct vop_nremove_args ap;
1519 VFS_MPLOCK_DECLARE;
1520 int error;
1521 struct vattr va;
1523 ap.a_head.a_desc = &vop_nremove_desc;
1524 ap.a_head.a_ops = ops;
1525 ap.a_nch = nch;
1526 ap.a_dvp = dvp;
1527 ap.a_cred = cred;
1529 if ((error = VOP_GETATTR(nch->ncp->nc_vp, &va)) != 0)
1530 return (error);
1532 VFS_MPLOCK(dvp->v_mount);
1533 DO_OPS(ops, error, &ap, vop_nremove);
1534 /* Only update space counters if this is the last hard link */
1535 if ((error == 0) && (va.va_nlink == 1)) {
1536 VFS_ACCOUNT(nch->mount, va.va_uid, va.va_gid, -va.va_size);
1538 VFS_MPUNLOCK(dvp->v_mount);
1539 return(error);
1543 * nrmdir takes a locked, resolved ncp that generally represents a
1544 * directory and removes the directory.
1546 * The dvp passed in is referenced but unlocked.
1548 * The namecache is automatically adjusted by this function. The ncp
1549 * is left locked on return.
1551 * MPSAFE
1554 vop_nrmdir(struct vop_ops *ops, struct nchandle *nch, struct vnode *dvp,
1555 struct ucred *cred)
1557 struct vop_nrmdir_args ap;
1558 VFS_MPLOCK_DECLARE;
1559 int error;
1561 ap.a_head.a_desc = &vop_nrmdir_desc;
1562 ap.a_head.a_ops = ops;
1563 ap.a_nch = nch;
1564 ap.a_dvp = dvp;
1565 ap.a_cred = cred;
1567 VFS_MPLOCK(dvp->v_mount);
1568 DO_OPS(ops, error, &ap, vop_nrmdir);
1569 VFS_MPUNLOCK(dvp->v_mount);
1570 return(error);
1574 * nrename takes TWO locked, resolved ncp's and the cred of the caller
1575 * and renames the source ncp to the target ncp. The target ncp may
1576 * represent a positive or negative hit.
1578 * The fdvp and tdvp passed in are referenced but unlocked.
1580 * The namecache is automatically adjusted by this function. The ncp
1581 * is left locked on return. The source ncp is typically changed to
1582 * a negative cache hit and the target ncp typically takes on the
1583 * source ncp's underlying file.
1585 * MPSAFE
1588 vop_nrename(struct vop_ops *ops,
1589 struct nchandle *fnch, struct nchandle *tnch,
1590 struct vnode *fdvp, struct vnode *tdvp,
1591 struct ucred *cred)
1593 struct vop_nrename_args ap;
1594 VFS_MPLOCK_DECLARE;
1595 int error;
1597 ap.a_head.a_desc = &vop_nrename_desc;
1598 ap.a_head.a_ops = ops;
1599 ap.a_fnch = fnch;
1600 ap.a_tnch = tnch;
1601 ap.a_fdvp = fdvp;
1602 ap.a_tdvp = tdvp;
1603 ap.a_cred = cred;
1605 VFS_MPLOCK(fdvp->v_mount);
1606 DO_OPS(ops, error, &ap, vop_nrename);
1607 VFS_MPUNLOCK(fdvp->v_mount);
1608 return(error);
1611 /************************************************************************
1612 * PRIMARY VNODE OPERATIONS FORWARDING CALLS *
1613 ************************************************************************
1615 * These procedures are called from VFSs such as nullfs
1616 * when they wish to forward an operation on one VFS to another. The
1617 * argument structure/message is modified and then directly passed to the
1618 * appropriate routine. This routines may also be called by initiators
1619 * who have an argument structure in hand rather then discreet arguments.
1621 * MPSAFE - Caller expected to already hold the appropriate vfs lock.
1624 vop_vnoperate_ap(struct vop_generic_args *ap)
1626 struct vop_ops *ops;
1627 int error;
1629 ops = ap->a_ops;
1630 error = VOCALL(ops, ap);
1632 return (error);
1636 * This routine is called by the cache coherency layer to execute the actual
1637 * VFS operation. If a journaling layer is present we call though it, else
1638 * we call the native VOP functions.
1641 vop_cache_operate_ap(struct vop_generic_args *ap)
1643 struct vop_ops *ops;
1644 int error;
1646 ops = ap->a_ops;
1647 if (ops->head.vv_mount->mnt_vn_journal_ops)
1648 error = VOCALL(ops->head.vv_mount->mnt_vn_journal_ops, ap);
1649 else
1650 error = VOCALL(ops->head.vv_mount->mnt_vn_norm_ops, ap);
1651 return (error);
1656 * This routine is called by the journaling layer to execute the actual
1657 * VFS operation.
1660 vop_journal_operate_ap(struct vop_generic_args *ap)
1662 struct vop_ops *ops;
1663 int error;
1665 ops = ap->a_ops;
1666 error = VOCALL(ops->head.vv_mount->mnt_vn_norm_ops, ap);
1668 return (error);
1672 vop_open_ap(struct vop_open_args *ap)
1674 int error;
1676 DO_OPS(ap->a_head.a_ops, error, ap, vop_open);
1677 return(error);
1681 vop_close_ap(struct vop_close_args *ap)
1683 int error;
1685 DO_OPS(ap->a_head.a_ops, error, ap, vop_close);
1686 return(error);
1690 vop_access_ap(struct vop_access_args *ap)
1692 int error;
1694 DO_OPS(ap->a_head.a_ops, error, ap, vop_access);
1695 return(error);
1699 vop_getattr_ap(struct vop_getattr_args *ap)
1701 int error;
1703 DO_OPS(ap->a_head.a_ops, error, ap, vop_getattr);
1704 return(error);
1708 vop_setattr_ap(struct vop_setattr_args *ap)
1710 int error;
1712 DO_OPS(ap->a_head.a_ops, error, ap, vop_setattr);
1713 return(error);
1717 vop_read_ap(struct vop_read_args *ap)
1719 int error;
1721 DO_OPS(ap->a_head.a_ops, error, ap, vop_read);
1722 return(error);
1726 vop_write_ap(struct vop_write_args *ap)
1728 int error;
1730 DO_OPS(ap->a_head.a_ops, error, ap, vop_write);
1731 return(error);
1735 vop_ioctl_ap(struct vop_ioctl_args *ap)
1737 int error;
1739 DO_OPS(ap->a_head.a_ops, error, ap, vop_ioctl);
1740 return(error);
1744 vop_poll_ap(struct vop_poll_args *ap)
1746 int error;
1748 DO_OPS(ap->a_head.a_ops, error, ap, vop_poll);
1749 return(error);
1753 vop_kqfilter_ap(struct vop_kqfilter_args *ap)
1755 int error;
1757 DO_OPS(ap->a_head.a_ops, error, ap, vop_kqfilter);
1758 return(error);
1762 vop_mmap_ap(struct vop_mmap_args *ap)
1764 int error;
1766 DO_OPS(ap->a_head.a_ops, error, ap, vop_mmap);
1767 return(error);
1771 vop_fsync_ap(struct vop_fsync_args *ap)
1773 int error;
1775 DO_OPS(ap->a_head.a_ops, error, ap, vop_fsync);
1776 return(error);
1780 vop_readdir_ap(struct vop_readdir_args *ap)
1782 int error;
1784 DO_OPS(ap->a_head.a_ops, error, ap, vop_readdir);
1785 return(error);
1789 vop_readlink_ap(struct vop_readlink_args *ap)
1791 int error;
1793 DO_OPS(ap->a_head.a_ops, error, ap, vop_readlink);
1794 return(error);
1798 vop_inactive_ap(struct vop_inactive_args *ap)
1800 int error;
1802 DO_OPS(ap->a_head.a_ops, error, ap, vop_inactive);
1803 return(error);
1807 vop_reclaim_ap(struct vop_reclaim_args *ap)
1809 int error;
1811 DO_OPS(ap->a_head.a_ops, error, ap, vop_reclaim);
1812 return(error);
1816 vop_bmap_ap(struct vop_bmap_args *ap)
1818 int error;
1820 DO_OPS(ap->a_head.a_ops, error, ap, vop_bmap);
1821 return(error);
1825 vop_strategy_ap(struct vop_strategy_args *ap)
1827 int error;
1829 DO_OPS(ap->a_head.a_ops, error, ap, vop_strategy);
1830 return(error);
1834 vop_print_ap(struct vop_print_args *ap)
1836 int error;
1838 DO_OPS(ap->a_head.a_ops, error, ap, vop_print);
1839 return(error);
1843 vop_pathconf_ap(struct vop_pathconf_args *ap)
1845 int error;
1847 DO_OPS(ap->a_head.a_ops, error, ap, vop_pathconf);
1848 return(error);
1852 vop_advlock_ap(struct vop_advlock_args *ap)
1854 int error;
1856 DO_OPS(ap->a_head.a_ops, error, ap, vop_advlock);
1857 return(error);
1861 vop_balloc_ap(struct vop_balloc_args *ap)
1863 int error;
1865 DO_OPS(ap->a_head.a_ops, error, ap, vop_balloc);
1866 return(error);
1870 vop_reallocblks_ap(struct vop_reallocblks_args *ap)
1872 int error;
1874 DO_OPS(ap->a_head.a_ops, error, ap, vop_reallocblks);
1875 return(error);
1879 vop_getpages_ap(struct vop_getpages_args *ap)
1881 int error;
1883 DO_OPS(ap->a_head.a_ops, error, ap, vop_getpages);
1884 return(error);
1888 vop_putpages_ap(struct vop_putpages_args *ap)
1890 int error;
1892 DO_OPS(ap->a_head.a_ops, error, ap, vop_putpages);
1893 return(error);
1897 vop_freeblks_ap(struct vop_freeblks_args *ap)
1899 int error;
1901 DO_OPS(ap->a_head.a_ops, error, ap, vop_freeblks);
1902 return(error);
1906 vop_getacl_ap(struct vop_getacl_args *ap)
1908 int error;
1910 DO_OPS(ap->a_head.a_ops, error, ap, vop_getacl);
1911 return(error);
1915 vop_setacl_ap(struct vop_setacl_args *ap)
1917 int error;
1919 DO_OPS(ap->a_head.a_ops, error, ap, vop_setacl);
1920 return(error);
1924 vop_aclcheck_ap(struct vop_aclcheck_args *ap)
1926 int error;
1928 DO_OPS(ap->a_head.a_ops, error, ap, vop_aclcheck);
1929 return(error);
1933 vop_getextattr_ap(struct vop_getextattr_args *ap)
1935 int error;
1937 DO_OPS(ap->a_head.a_ops, error, ap, vop_getextattr);
1938 return(error);
1942 vop_setextattr_ap(struct vop_setextattr_args *ap)
1944 int error;
1946 DO_OPS(ap->a_head.a_ops, error, ap, vop_setextattr);
1947 return(error);
1951 vop_mountctl_ap(struct vop_mountctl_args *ap)
1953 int error;
1955 DO_OPS(ap->a_head.a_ops, error, ap, vop_mountctl);
1956 return(error);
1960 vop_markatime_ap(struct vop_markatime_args *ap)
1962 int error;
1964 DO_OPS(ap->a_head.a_ops, error, ap, vop_markatime);
1965 return(error);
1969 vop_nresolve_ap(struct vop_nresolve_args *ap)
1971 int error;
1973 DO_OPS(ap->a_head.a_ops, error, ap, vop_nresolve);
1974 return(error);
1978 vop_nlookupdotdot_ap(struct vop_nlookupdotdot_args *ap)
1980 int error;
1982 DO_OPS(ap->a_head.a_ops, error, ap, vop_nlookupdotdot);
1983 return(error);
1987 vop_ncreate_ap(struct vop_ncreate_args *ap)
1989 int error;
1991 DO_OPS(ap->a_head.a_ops, error, ap, vop_ncreate);
1992 return(error);
1996 vop_nmkdir_ap(struct vop_nmkdir_args *ap)
1998 int error;
2000 DO_OPS(ap->a_head.a_ops, error, ap, vop_nmkdir);
2001 return(error);
2005 vop_nmknod_ap(struct vop_nmknod_args *ap)
2007 int error;
2009 DO_OPS(ap->a_head.a_ops, error, ap, vop_nmknod);
2010 return(error);
2014 vop_nlink_ap(struct vop_nlink_args *ap)
2016 int error;
2018 DO_OPS(ap->a_head.a_ops, error, ap, vop_nlink);
2019 return(error);
2023 vop_nsymlink_ap(struct vop_nsymlink_args *ap)
2025 int error;
2027 DO_OPS(ap->a_head.a_ops, error, ap, vop_nsymlink);
2028 return(error);
2032 vop_nwhiteout_ap(struct vop_nwhiteout_args *ap)
2034 int error;
2036 DO_OPS(ap->a_head.a_ops, error, ap, vop_nwhiteout);
2037 return(error);
2041 vop_nremove_ap(struct vop_nremove_args *ap)
2043 int error;
2045 DO_OPS(ap->a_head.a_ops, error, ap, vop_nremove);
2046 return(error);
2050 vop_nrmdir_ap(struct vop_nrmdir_args *ap)
2052 int error;
2054 DO_OPS(ap->a_head.a_ops, error, ap, vop_nrmdir);
2055 return(error);
2059 vop_nrename_ap(struct vop_nrename_args *ap)
2061 int error;
2063 DO_OPS(ap->a_head.a_ops, error, ap, vop_nrename);
2064 return(error);