xref: /titanic_44/usr/src/uts/common/fs/fs_subr.c (revision 8339b41da2395f0525c46ceedfeb01961893ec44)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*	Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T	*/
22 /*	  All Rights Reserved  	*/
23 
24 
25 /*
26  * Copyright (c) 1989, 2010, Oracle and/or its affiliates. All rights reserved.
27  */
28 
29 /*
30  * Generic vnode operations.
31  */
32 #include <sys/types.h>
33 #include <sys/param.h>
34 #include <sys/systm.h>
35 #include <sys/errno.h>
36 #include <sys/fcntl.h>
37 #include <sys/flock.h>
38 #include <sys/statvfs.h>
39 #include <sys/vfs.h>
40 #include <sys/vnode.h>
41 #include <sys/proc.h>
42 #include <sys/user.h>
43 #include <sys/unistd.h>
44 #include <sys/cred.h>
45 #include <sys/poll.h>
46 #include <sys/debug.h>
47 #include <sys/cmn_err.h>
48 #include <sys/stream.h>
49 #include <fs/fs_subr.h>
50 #include <fs/fs_reparse.h>
51 #include <sys/door.h>
52 #include <sys/acl.h>
53 #include <sys/share.h>
54 #include <sys/file.h>
55 #include <sys/kmem.h>
56 #include <sys/file.h>
57 #include <sys/nbmlock.h>
58 #include <acl/acl_common.h>
59 #include <sys/pathname.h>
60 
61 static callb_cpr_t *frlock_serialize_blocked(flk_cb_when_t, void *);
62 
63 /*
64  * Tunable to limit the number of retry to recover from STALE error.
65  */
66 int fs_estale_retry = 5;
67 
68 /*
69  * supports for reparse point door upcall
70  */
71 static door_handle_t reparsed_door;
72 static kmutex_t reparsed_door_lock;
73 
74 /*
75  * The associated operation is not supported by the file system.
76  */
77 int
78 fs_nosys()
79 {
80 	return (ENOSYS);
81 }
82 
83 /*
84  * The associated operation is invalid (on this vnode).
85  */
86 int
87 fs_inval()
88 {
89 	return (EINVAL);
90 }
91 
92 /*
93  * The associated operation is valid only for directories.
94  */
95 int
96 fs_notdir()
97 {
98 	return (ENOTDIR);
99 }
100 
101 /*
102  * Free the file system specific resources. For the file systems that
103  * do not support the forced unmount, it will be a nop function.
104  */
105 
106 /*ARGSUSED*/
107 void
108 fs_freevfs(vfs_t *vfsp)
109 {
110 }
111 
112 /* ARGSUSED */
113 int
114 fs_nosys_map(struct vnode *vp,
115 	offset_t off,
116 	struct as *as,
117 	caddr_t *addrp,
118 	size_t len,
119 	uchar_t prot,
120 	uchar_t maxprot,
121 	uint_t flags,
122 	struct cred *cr,
123 	caller_context_t *ct)
124 {
125 	return (ENOSYS);
126 }
127 
128 /* ARGSUSED */
129 int
130 fs_nosys_addmap(struct vnode *vp,
131 	offset_t off,
132 	struct as *as,
133 	caddr_t addr,
134 	size_t len,
135 	uchar_t prot,
136 	uchar_t maxprot,
137 	uint_t flags,
138 	struct cred *cr,
139 	caller_context_t *ct)
140 {
141 	return (ENOSYS);
142 }
143 
144 /* ARGSUSED */
145 int
146 fs_nosys_poll(vnode_t *vp,
147 	register short events,
148 	int anyyet,
149 	register short *reventsp,
150 	struct pollhead **phpp,
151 	caller_context_t *ct)
152 {
153 	return (ENOSYS);
154 }
155 
156 
157 /*
158  * The file system has nothing to sync to disk.  However, the
159  * VFS_SYNC operation must not fail.
160  */
161 /* ARGSUSED */
162 int
163 fs_sync(struct vfs *vfspp, short flag, cred_t *cr)
164 {
165 	return (0);
166 }
167 
168 /*
169  * Does nothing but VOP_FSYNC must not fail.
170  */
171 /* ARGSUSED */
172 int
173 fs_fsync(vnode_t *vp, int syncflag, cred_t *cr, caller_context_t *ct)
174 {
175 	return (0);
176 }
177 
178 /*
179  * Does nothing but VOP_PUTPAGE must not fail.
180  */
181 /* ARGSUSED */
182 int
183 fs_putpage(vnode_t *vp, offset_t off, size_t len, int flags, cred_t *cr,
184 	caller_context_t *ctp)
185 {
186 	return (0);
187 }
188 
189 /*
190  * Does nothing but VOP_IOCTL must not fail.
191  */
192 /* ARGSUSED */
193 int
194 fs_ioctl(vnode_t *vp, int com, intptr_t data, int flag, cred_t *cred,
195 	int *rvalp)
196 {
197 	return (0);
198 }
199 
200 /*
201  * Read/write lock/unlock.  Does nothing.
202  */
203 /* ARGSUSED */
204 int
205 fs_rwlock(vnode_t *vp, int write_lock, caller_context_t *ctp)
206 {
207 	return (-1);
208 }
209 
210 /* ARGSUSED */
211 void
212 fs_rwunlock(vnode_t *vp, int write_lock, caller_context_t *ctp)
213 {
214 }
215 
216 /*
217  * Compare two vnodes.
218  */
219 /*ARGSUSED2*/
220 int
221 fs_cmp(vnode_t *vp1, vnode_t *vp2, caller_context_t *ct)
222 {
223 	return (vp1 == vp2);
224 }
225 
226 /*
227  * No-op seek operation.
228  */
229 /* ARGSUSED */
230 int
231 fs_seek(vnode_t *vp, offset_t ooff, offset_t *noffp, caller_context_t *ct)
232 {
233 	return ((*noffp < 0 || *noffp > MAXOFFSET_T) ? EINVAL : 0);
234 }
235 
236 /*
237  * File and record locking.
238  */
239 /* ARGSUSED */
240 int
241 fs_frlock(register vnode_t *vp, int cmd, struct flock64 *bfp, int flag,
242 	offset_t offset, flk_callback_t *flk_cbp, cred_t *cr,
243 	caller_context_t *ct)
244 {
245 	int frcmd;
246 	int nlmid;
247 	int error = 0;
248 	flk_callback_t serialize_callback;
249 	int serialize = 0;
250 	v_mode_t mode;
251 
252 	switch (cmd) {
253 
254 	case F_GETLK:
255 	case F_O_GETLK:
256 		if (flag & F_REMOTELOCK) {
257 			frcmd = RCMDLCK;
258 		} else if (flag & F_PXFSLOCK) {
259 			frcmd = PCMDLCK;
260 		} else {
261 			frcmd = 0;
262 			bfp->l_pid = ttoproc(curthread)->p_pid;
263 			bfp->l_sysid = 0;
264 		}
265 		break;
266 
267 	case F_SETLK_NBMAND:
268 		/*
269 		 * Are NBMAND locks allowed on this file?
270 		 */
271 		if (!vp->v_vfsp ||
272 		    !(vp->v_vfsp->vfs_flag & VFS_NBMAND)) {
273 			error = EINVAL;
274 			goto done;
275 		}
276 		if (vp->v_type != VREG) {
277 			error = EINVAL;
278 			goto done;
279 		}
280 		/*FALLTHROUGH*/
281 
282 	case F_SETLK:
283 		if (flag & F_REMOTELOCK) {
284 			frcmd = SETFLCK|RCMDLCK;
285 		} else if (flag & F_PXFSLOCK) {
286 			frcmd = SETFLCK|PCMDLCK;
287 		} else {
288 			frcmd = SETFLCK;
289 			bfp->l_pid = ttoproc(curthread)->p_pid;
290 			bfp->l_sysid = 0;
291 		}
292 		if (cmd == F_SETLK_NBMAND &&
293 		    (bfp->l_type == F_RDLCK || bfp->l_type == F_WRLCK)) {
294 			frcmd |= NBMLCK;
295 		}
296 
297 		if (nbl_need_check(vp)) {
298 			nbl_start_crit(vp, RW_WRITER);
299 			serialize = 1;
300 			if (frcmd & NBMLCK) {
301 				mode = (bfp->l_type == F_RDLCK) ?
302 				    V_READ : V_RDANDWR;
303 				if (vn_is_mapped(vp, mode)) {
304 					error = EAGAIN;
305 					goto done;
306 				}
307 			}
308 		}
309 		break;
310 
311 	case F_SETLKW:
312 		if (flag & F_REMOTELOCK) {
313 			frcmd = SETFLCK|SLPFLCK|RCMDLCK;
314 		} else if (flag & F_PXFSLOCK) {
315 			frcmd = SETFLCK|SLPFLCK|PCMDLCK;
316 		} else {
317 			frcmd = SETFLCK|SLPFLCK;
318 			bfp->l_pid = ttoproc(curthread)->p_pid;
319 			bfp->l_sysid = 0;
320 		}
321 
322 		if (nbl_need_check(vp)) {
323 			nbl_start_crit(vp, RW_WRITER);
324 			serialize = 1;
325 		}
326 		break;
327 
328 	case F_HASREMOTELOCKS:
329 		nlmid = GETNLMID(bfp->l_sysid);
330 		if (nlmid != 0) {	/* booted as a cluster */
331 			l_has_rmt(bfp) =
332 			    cl_flk_has_remote_locks_for_nlmid(vp, nlmid);
333 		} else {		/* not booted as a cluster */
334 			l_has_rmt(bfp) = flk_has_remote_locks(vp);
335 		}
336 
337 		goto done;
338 
339 	default:
340 		error = EINVAL;
341 		goto done;
342 	}
343 
344 	/*
345 	 * If this is a blocking lock request and we're serializing lock
346 	 * requests, modify the callback list to leave the critical region
347 	 * while we're waiting for the lock.
348 	 */
349 
350 	if (serialize && (frcmd & SLPFLCK) != 0) {
351 		flk_add_callback(&serialize_callback,
352 		    frlock_serialize_blocked, vp, flk_cbp);
353 		flk_cbp = &serialize_callback;
354 	}
355 
356 	error = reclock(vp, bfp, frcmd, flag, offset, flk_cbp);
357 
358 done:
359 	if (serialize)
360 		nbl_end_crit(vp);
361 
362 	return (error);
363 }
364 
365 /*
366  * Callback when a lock request blocks and we are serializing requests.  If
367  * before sleeping, leave the critical region.  If after wakeup, reenter
368  * the critical region.
369  */
370 
371 static callb_cpr_t *
372 frlock_serialize_blocked(flk_cb_when_t when, void *infop)
373 {
374 	vnode_t *vp = (vnode_t *)infop;
375 
376 	if (when == FLK_BEFORE_SLEEP)
377 		nbl_end_crit(vp);
378 	else {
379 		nbl_start_crit(vp, RW_WRITER);
380 	}
381 
382 	return (NULL);
383 }
384 
385 /*
386  * Allow any flags.
387  */
388 /* ARGSUSED */
389 int
390 fs_setfl(
391 	vnode_t *vp,
392 	int oflags,
393 	int nflags,
394 	cred_t *cr,
395 	caller_context_t *ct)
396 {
397 	return (0);
398 }
399 
400 /*
401  * Return the answer requested to poll() for non-device files.
402  * Only POLLIN, POLLRDNORM, and POLLOUT are recognized.
403  */
404 struct pollhead fs_pollhd;
405 
406 /* ARGSUSED */
407 int
408 fs_poll(vnode_t *vp,
409 	register short events,
410 	int anyyet,
411 	register short *reventsp,
412 	struct pollhead **phpp,
413 	caller_context_t *ct)
414 {
415 	*reventsp = 0;
416 	if (events & POLLIN)
417 		*reventsp |= POLLIN;
418 	if (events & POLLRDNORM)
419 		*reventsp |= POLLRDNORM;
420 	if (events & POLLRDBAND)
421 		*reventsp |= POLLRDBAND;
422 	if (events & POLLOUT)
423 		*reventsp |= POLLOUT;
424 	if (events & POLLWRBAND)
425 		*reventsp |= POLLWRBAND;
426 	*phpp = !anyyet && !*reventsp ? &fs_pollhd : (struct pollhead *)NULL;
427 	return (0);
428 }
429 
430 /*
431  * POSIX pathconf() support.
432  */
433 /* ARGSUSED */
434 int
435 fs_pathconf(
436 	vnode_t *vp,
437 	int cmd,
438 	ulong_t *valp,
439 	cred_t *cr,
440 	caller_context_t *ct)
441 {
442 	register ulong_t val;
443 	register int error = 0;
444 	struct statvfs64 vfsbuf;
445 
446 	switch (cmd) {
447 
448 	case _PC_LINK_MAX:
449 		val = MAXLINK;
450 		break;
451 
452 	case _PC_MAX_CANON:
453 		val = MAX_CANON;
454 		break;
455 
456 	case _PC_MAX_INPUT:
457 		val = MAX_INPUT;
458 		break;
459 
460 	case _PC_NAME_MAX:
461 		bzero(&vfsbuf, sizeof (vfsbuf));
462 		if (error = VFS_STATVFS(vp->v_vfsp, &vfsbuf))
463 			break;
464 		val = vfsbuf.f_namemax;
465 		break;
466 
467 	case _PC_PATH_MAX:
468 	case _PC_SYMLINK_MAX:
469 		val = MAXPATHLEN;
470 		break;
471 
472 	case _PC_PIPE_BUF:
473 		val = PIPE_BUF;
474 		break;
475 
476 	case _PC_NO_TRUNC:
477 		if (vp->v_vfsp->vfs_flag & VFS_NOTRUNC)
478 			val = 1;	/* NOTRUNC is enabled for vp */
479 		else
480 			val = (ulong_t)-1;
481 		break;
482 
483 	case _PC_VDISABLE:
484 		val = _POSIX_VDISABLE;
485 		break;
486 
487 	case _PC_CHOWN_RESTRICTED:
488 		if (rstchown)
489 			val = rstchown; /* chown restricted enabled */
490 		else
491 			val = (ulong_t)-1;
492 		break;
493 
494 	case _PC_FILESIZEBITS:
495 
496 		/*
497 		 * If ever we come here it means that underlying file system
498 		 * does not recognise the command and therefore this
499 		 * configurable limit cannot be determined. We return -1
500 		 * and don't change errno.
501 		 */
502 
503 		val = (ulong_t)-1;    /* large file support */
504 		break;
505 
506 	case _PC_ACL_ENABLED:
507 		val = 0;
508 		break;
509 
510 	case _PC_CASE_BEHAVIOR:
511 		val = _CASE_SENSITIVE;
512 		if (vfs_has_feature(vp->v_vfsp, VFSFT_CASEINSENSITIVE) == 1)
513 			val |= _CASE_INSENSITIVE;
514 		if (vfs_has_feature(vp->v_vfsp, VFSFT_NOCASESENSITIVE) == 1)
515 			val &= ~_CASE_SENSITIVE;
516 		break;
517 
518 	case _PC_SATTR_ENABLED:
519 	case _PC_SATTR_EXISTS:
520 		val = 0;
521 		break;
522 
523 	case _PC_ACCESS_FILTERING:
524 		val = 0;
525 		break;
526 
527 	default:
528 		error = EINVAL;
529 		break;
530 	}
531 
532 	if (error == 0)
533 		*valp = val;
534 	return (error);
535 }
536 
537 /*
538  * Dispose of a page.
539  */
540 /* ARGSUSED */
541 void
542 fs_dispose(
543 	struct vnode *vp,
544 	page_t *pp,
545 	int fl,
546 	int dn,
547 	struct cred *cr,
548 	caller_context_t *ct)
549 {
550 
551 	ASSERT(fl == B_FREE || fl == B_INVAL);
552 
553 	if (fl == B_FREE)
554 		page_free(pp, dn);
555 	else
556 		page_destroy(pp, dn);
557 }
558 
559 /* ARGSUSED */
560 void
561 fs_nodispose(
562 	struct vnode *vp,
563 	page_t *pp,
564 	int fl,
565 	int dn,
566 	struct cred *cr,
567 	caller_context_t *ct)
568 {
569 	cmn_err(CE_PANIC, "fs_nodispose invoked");
570 }
571 
572 /*
573  * fabricate acls for file systems that do not support acls.
574  */
575 /* ARGSUSED */
576 int
577 fs_fab_acl(
578 	vnode_t *vp,
579 	vsecattr_t *vsecattr,
580 	int flag,
581 	cred_t *cr,
582 	caller_context_t *ct)
583 {
584 	aclent_t	*aclentp;
585 	struct vattr	vattr;
586 	int		error;
587 	size_t		aclsize;
588 
589 	vsecattr->vsa_aclcnt	= 0;
590 	vsecattr->vsa_aclentsz	= 0;
591 	vsecattr->vsa_aclentp	= NULL;
592 	vsecattr->vsa_dfaclcnt	= 0;	/* Default ACLs are not fabricated */
593 	vsecattr->vsa_dfaclentp	= NULL;
594 
595 	vattr.va_mask = AT_MODE | AT_UID | AT_GID;
596 	if (error = VOP_GETATTR(vp, &vattr, 0, cr, ct))
597 		return (error);
598 
599 	if (vsecattr->vsa_mask & (VSA_ACLCNT | VSA_ACL)) {
600 		aclsize = 4 * sizeof (aclent_t);
601 		vsecattr->vsa_aclcnt	= 4; /* USER, GROUP, OTHER, and CLASS */
602 		vsecattr->vsa_aclentp = kmem_zalloc(aclsize, KM_SLEEP);
603 		aclentp = vsecattr->vsa_aclentp;
604 
605 		aclentp->a_type = USER_OBJ;	/* Owner */
606 		aclentp->a_perm = ((ushort_t)(vattr.va_mode & 0700)) >> 6;
607 		aclentp->a_id = vattr.va_uid;   /* Really undefined */
608 		aclentp++;
609 
610 		aclentp->a_type = GROUP_OBJ;    /* Group */
611 		aclentp->a_perm = ((ushort_t)(vattr.va_mode & 0070)) >> 3;
612 		aclentp->a_id = vattr.va_gid;   /* Really undefined */
613 		aclentp++;
614 
615 		aclentp->a_type = OTHER_OBJ;    /* Other */
616 		aclentp->a_perm = vattr.va_mode & 0007;
617 		aclentp->a_id = (gid_t)-1;	/* Really undefined */
618 		aclentp++;
619 
620 		aclentp->a_type = CLASS_OBJ;    /* Class */
621 		aclentp->a_perm = (ushort_t)(0007);
622 		aclentp->a_id = (gid_t)-1;	/* Really undefined */
623 	} else if (vsecattr->vsa_mask & (VSA_ACECNT | VSA_ACE)) {
624 		VERIFY(0 == acl_trivial_create(vattr.va_mode,
625 		    (ace_t **)&vsecattr->vsa_aclentp, &vsecattr->vsa_aclcnt));
626 		vsecattr->vsa_aclentsz = vsecattr->vsa_aclcnt * sizeof (ace_t);
627 	}
628 
629 	return (error);
630 }
631 
632 /*
633  * Common code for implementing DOS share reservations
634  */
635 /* ARGSUSED4 */
636 int
637 fs_shrlock(
638 	struct vnode *vp,
639 	int cmd,
640 	struct shrlock *shr,
641 	int flag,
642 	cred_t *cr,
643 	caller_context_t *ct)
644 {
645 	int error;
646 
647 	/*
648 	 * Make sure that the file was opened with permissions appropriate
649 	 * for the request, and make sure the caller isn't trying to sneak
650 	 * in an NBMAND request.
651 	 */
652 	if (cmd == F_SHARE) {
653 		if (((shr->s_access & F_RDACC) && (flag & FREAD) == 0) ||
654 		    ((shr->s_access & F_WRACC) && (flag & FWRITE) == 0))
655 			return (EBADF);
656 		if (shr->s_access & (F_RMACC | F_MDACC))
657 			return (EINVAL);
658 		if (shr->s_deny & (F_MANDDNY | F_RMDNY))
659 			return (EINVAL);
660 	}
661 	if (cmd == F_SHARE_NBMAND) {
662 		/* make sure nbmand is allowed on the file */
663 		if (!vp->v_vfsp ||
664 		    !(vp->v_vfsp->vfs_flag & VFS_NBMAND)) {
665 			return (EINVAL);
666 		}
667 		if (vp->v_type != VREG) {
668 			return (EINVAL);
669 		}
670 	}
671 
672 	nbl_start_crit(vp, RW_WRITER);
673 
674 	switch (cmd) {
675 
676 	case F_SHARE_NBMAND:
677 		shr->s_deny |= F_MANDDNY;
678 		/*FALLTHROUGH*/
679 	case F_SHARE:
680 		error = add_share(vp, shr);
681 		break;
682 
683 	case F_UNSHARE:
684 		error = del_share(vp, shr);
685 		break;
686 
687 	case F_HASREMOTELOCKS:
688 		/*
689 		 * We are overloading this command to refer to remote
690 		 * shares as well as remote locks, despite its name.
691 		 */
692 		shr->s_access = shr_has_remote_shares(vp, shr->s_sysid);
693 		error = 0;
694 		break;
695 
696 	default:
697 		error = EINVAL;
698 		break;
699 	}
700 
701 	nbl_end_crit(vp);
702 	return (error);
703 }
704 
705 /*ARGSUSED1*/
706 int
707 fs_vnevent_nosupport(vnode_t *vp, vnevent_t e, vnode_t *dvp, char *fnm,
708     caller_context_t *ct)
709 {
710 	ASSERT(vp != NULL);
711 	return (ENOTSUP);
712 }
713 
714 /*ARGSUSED1*/
715 int
716 fs_vnevent_support(vnode_t *vp, vnevent_t e, vnode_t *dvp, char *fnm,
717     caller_context_t *ct)
718 {
719 	ASSERT(vp != NULL);
720 	return (0);
721 }
722 
723 /*
724  * return 1 for non-trivial ACL.
725  *
726  * NB: It is not necessary for the caller to VOP_RWLOCK since
727  *	we only issue VOP_GETSECATTR.
728  *
729  * Returns 0 == trivial
730  *         1 == NOT Trivial
731  *	   <0 could not determine.
732  */
733 int
734 fs_acl_nontrivial(vnode_t *vp, cred_t *cr)
735 {
736 	ulong_t		acl_styles;
737 	ulong_t		acl_flavor;
738 	vsecattr_t 	vsecattr;
739 	int 		error;
740 	int		isnontrivial;
741 
742 	/* determine the forms of ACLs maintained */
743 	error = VOP_PATHCONF(vp, _PC_ACL_ENABLED, &acl_styles, cr, NULL);
744 
745 	/* clear bits we don't understand and establish default acl_style */
746 	acl_styles &= (_ACL_ACLENT_ENABLED | _ACL_ACE_ENABLED);
747 	if (error || (acl_styles == 0))
748 		acl_styles = _ACL_ACLENT_ENABLED;
749 
750 	vsecattr.vsa_aclentp = NULL;
751 	vsecattr.vsa_dfaclentp = NULL;
752 	vsecattr.vsa_aclcnt = 0;
753 	vsecattr.vsa_dfaclcnt = 0;
754 
755 	while (acl_styles) {
756 		/* select one of the styles as current flavor */
757 		acl_flavor = 0;
758 		if (acl_styles & _ACL_ACLENT_ENABLED) {
759 			acl_flavor = _ACL_ACLENT_ENABLED;
760 			vsecattr.vsa_mask = VSA_ACLCNT | VSA_DFACLCNT;
761 		} else if (acl_styles & _ACL_ACE_ENABLED) {
762 			acl_flavor = _ACL_ACE_ENABLED;
763 			vsecattr.vsa_mask = VSA_ACECNT | VSA_ACE;
764 		}
765 
766 		ASSERT(vsecattr.vsa_mask && acl_flavor);
767 		error = VOP_GETSECATTR(vp, &vsecattr, 0, cr, NULL);
768 		if (error == 0)
769 			break;
770 
771 		/* that flavor failed */
772 		acl_styles &= ~acl_flavor;
773 	}
774 
775 	/* if all styles fail then assume trivial */
776 	if (acl_styles == 0)
777 		return (0);
778 
779 	/* process the flavor that worked */
780 	isnontrivial = 0;
781 	if (acl_flavor & _ACL_ACLENT_ENABLED) {
782 		if (vsecattr.vsa_aclcnt > MIN_ACL_ENTRIES)
783 			isnontrivial = 1;
784 		if (vsecattr.vsa_aclcnt && vsecattr.vsa_aclentp != NULL)
785 			kmem_free(vsecattr.vsa_aclentp,
786 			    vsecattr.vsa_aclcnt * sizeof (aclent_t));
787 		if (vsecattr.vsa_dfaclcnt && vsecattr.vsa_dfaclentp != NULL)
788 			kmem_free(vsecattr.vsa_dfaclentp,
789 			    vsecattr.vsa_dfaclcnt * sizeof (aclent_t));
790 	}
791 	if (acl_flavor & _ACL_ACE_ENABLED) {
792 		isnontrivial = ace_trivial(vsecattr.vsa_aclentp,
793 		    vsecattr.vsa_aclcnt);
794 
795 		if (vsecattr.vsa_aclcnt && vsecattr.vsa_aclentp != NULL)
796 			kmem_free(vsecattr.vsa_aclentp,
797 			    vsecattr.vsa_aclcnt * sizeof (ace_t));
798 		/* ACE has no vsecattr.vsa_dfaclcnt */
799 	}
800 	return (isnontrivial);
801 }
802 
803 /*
804  * Check whether we need a retry to recover from STALE error.
805  */
806 int
807 fs_need_estale_retry(int retry_count)
808 {
809 	if (retry_count < fs_estale_retry)
810 		return (1);
811 	else
812 		return (0);
813 }
814 
815 
816 static int (*fs_av_scan)(vnode_t *, cred_t *, int) = NULL;
817 
818 /*
819  * Routine for anti-virus scanner to call to register its scanning routine.
820  */
821 void
822 fs_vscan_register(int (*av_scan)(vnode_t *, cred_t *, int))
823 {
824 	fs_av_scan = av_scan;
825 }
826 
827 /*
828  * Routine for file systems to call to initiate anti-virus scanning.
829  * Scanning will only be done on REGular files (currently).
830  */
831 int
832 fs_vscan(vnode_t *vp, cred_t *cr, int async)
833 {
834 	int ret = 0;
835 
836 	if (fs_av_scan && vp->v_type == VREG)
837 		ret = (*fs_av_scan)(vp, cr, async);
838 
839 	return (ret);
840 }
841 
842 /*
843  * support functions for reparse point
844  */
845 /*
846  * reparse_vnode_parse
847  *
848  * Read the symlink data of a reparse point specified by the vnode
849  * and return the reparse data as name-value pair in the nvlist.
850  */
851 int
852 reparse_vnode_parse(vnode_t *vp, nvlist_t *nvl)
853 {
854 	int err;
855 	char *lkdata;
856 	struct uio uio;
857 	struct iovec iov;
858 
859 	if (vp == NULL || nvl == NULL)
860 		return (EINVAL);
861 
862 	lkdata = kmem_alloc(MAXREPARSELEN, KM_SLEEP);
863 
864 	/*
865 	 * Set up io vector to read sym link data
866 	 */
867 	iov.iov_base = lkdata;
868 	iov.iov_len = MAXREPARSELEN;
869 	uio.uio_iov = &iov;
870 	uio.uio_iovcnt = 1;
871 	uio.uio_segflg = UIO_SYSSPACE;
872 	uio.uio_extflg = UIO_COPY_CACHED;
873 	uio.uio_loffset = (offset_t)0;
874 	uio.uio_resid = MAXREPARSELEN;
875 
876 	if ((err = VOP_READLINK(vp, &uio, kcred, NULL)) == 0) {
877 		*(lkdata + MAXREPARSELEN - uio.uio_resid) = '\0';
878 		err = reparse_parse(lkdata, nvl);
879 	}
880 	kmem_free(lkdata, MAXREPARSELEN);	/* done with lkdata */
881 
882 	return (err);
883 }
884 
885 void
886 reparse_point_init()
887 {
888 	mutex_init(&reparsed_door_lock, NULL, MUTEX_DEFAULT, NULL);
889 }
890 
891 static door_handle_t
892 reparse_door_get_handle()
893 {
894 	door_handle_t dh;
895 
896 	mutex_enter(&reparsed_door_lock);
897 	if ((dh = reparsed_door) == NULL) {
898 		if (door_ki_open(REPARSED_DOOR, &reparsed_door) != 0) {
899 			reparsed_door = NULL;
900 			dh = NULL;
901 		} else
902 			dh = reparsed_door;
903 	}
904 	mutex_exit(&reparsed_door_lock);
905 	return (dh);
906 }
907 
908 static void
909 reparse_door_reset_handle()
910 {
911 	mutex_enter(&reparsed_door_lock);
912 	reparsed_door = NULL;
913 	mutex_exit(&reparsed_door_lock);
914 }
915 
916 /*
917  * reparse_kderef
918  *
919  * Accepts the service-specific item from the reparse point and returns
920  * the service-specific data requested.  The caller specifies the size of
921  * the buffer provided via *bufsz; the routine will fail with EOVERFLOW
922  * if the results will not fit in the buffer, in which case, *bufsz will
923  * contain the number of bytes needed to hold the results.
924  *
925  * if ok return 0 and update *bufsize with length of actual result
926  * else return error code.
927  */
928 int
929 reparse_kderef(const char *svc_type, const char *svc_data, char *buf,
930     size_t *bufsize)
931 {
932 	int err, retries, need_free, retried_doorhd;
933 	size_t dlen, res_len;
934 	char *darg;
935 	door_arg_t door_args;
936 	reparsed_door_res_t *resp;
937 	door_handle_t rp_door;
938 
939 	if (svc_type == NULL || svc_data == NULL || buf == NULL ||
940 	    bufsize == NULL)
941 		return (EINVAL);
942 
943 	/* get reparsed's door handle */
944 	if ((rp_door = reparse_door_get_handle()) == NULL)
945 		return (EBADF);
946 
947 	/* setup buffer for door_call args and results */
948 	dlen = strlen(svc_type) + strlen(svc_data) + 2;
949 	if (*bufsize < dlen) {
950 		darg = kmem_alloc(dlen, KM_SLEEP);
951 		need_free = 1;
952 	} else {
953 		darg = buf;	/* use same buffer for door's args & results */
954 		need_free = 0;
955 	}
956 
957 	/* build argument string of door call */
958 	(void) snprintf(darg, dlen, "%s:%s", svc_type, svc_data);
959 
960 	/* setup args for door call */
961 	door_args.data_ptr = darg;
962 	door_args.data_size = dlen;
963 	door_args.desc_ptr = NULL;
964 	door_args.desc_num = 0;
965 	door_args.rbuf = buf;
966 	door_args.rsize = *bufsize;
967 
968 	/* do the door_call */
969 	retried_doorhd = 0;
970 	retries = 0;
971 	door_ki_hold(rp_door);
972 	while ((err = door_ki_upcall_limited(rp_door, &door_args,
973 	    NULL, SIZE_MAX, 0)) != 0) {
974 		if (err == EAGAIN || err == EINTR) {
975 			if (++retries < REPARSED_DOORCALL_MAX_RETRY) {
976 				delay(SEC_TO_TICK(1));
977 				continue;
978 			}
979 		} else if (err == EBADF) {
980 			/* door server goes away... */
981 			reparse_door_reset_handle();
982 
983 			if (retried_doorhd == 0) {
984 				door_ki_rele(rp_door);
985 				retried_doorhd++;
986 				rp_door = reparse_door_get_handle();
987 				if (rp_door != NULL) {
988 					door_ki_hold(rp_door);
989 					continue;
990 				}
991 			}
992 		}
993 		break;
994 	}
995 
996 	if (rp_door)
997 		door_ki_rele(rp_door);
998 
999 	if (need_free)
1000 		kmem_free(darg, dlen);		/* done with args buffer */
1001 
1002 	if (err != 0)
1003 		return (err);
1004 
1005 	resp = (reparsed_door_res_t *)door_args.rbuf;
1006 	if ((err = resp->res_status) == 0) {
1007 		/*
1008 		 * have to save the length of the results before the
1009 		 * bcopy below since it's can be an overlap copy that
1010 		 * overwrites the reparsed_door_res_t structure at
1011 		 * the beginning of the buffer.
1012 		 */
1013 		res_len = (size_t)resp->res_len;
1014 
1015 		/* deref call is ok */
1016 		if (res_len > *bufsize)
1017 			err = EOVERFLOW;
1018 		else
1019 			bcopy(resp->res_data, buf, res_len);
1020 		*bufsize = res_len;
1021 	}
1022 	if (door_args.rbuf != buf)
1023 		kmem_free(door_args.rbuf, door_args.rsize);
1024 
1025 	return (err);
1026 }
1027