xref: /titanic_44/usr/src/uts/common/fs/dev/sdev_vnops.c (revision a9478106a12424322498e53cf7cd75bd8a4d6004)
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 /*
22  * Copyright (c) 2006, 2010, Oracle and/or its affiliates. All rights reserved.
23  */
24 /*
25  * Copyright (c) 2013, Joyent, Inc.  All rights reserved.
26  */
27 
28 /*
29  * vnode ops for the /dev filesystem
30  *
31  * - VDIR, VCHR, CBLK, and VLNK are considered must supported files
32  * - VREG and VDOOR are used for some internal implementations in
33  *    the global zone, e.g. devname and devfsadm communication
34  * - other file types are unusual in this namespace and
35  *    not supported for now
36  */
37 
38 /*
39  * sdev has a few basic goals:
40  *   o Provide /dev for the global zone as well as various non-global zones.
41  *   o Provide the basic functionality that devfsadm might need (mknod,
42  *     symlinks, etc.)
43  *   o Allow persistent permissions on files in /dev.
44  *   o Allow for dynamic directories and nodes for use by various services (pts,
45  *     zvol, net, etc.)
46  *
47  * The sdev file system is primarily made up of sdev_node_t's which is sdev's
48  * counterpart to the vnode_t. There are two different classes of sdev_node_t's
49  * that we generally care about, dynamic and otherwise.
50  *
51  * Persisting Information
52  * ----------------------
53  *
54  * When sdev is mounted, it keeps track of the underlying file system it is
55  * mounted over. In certain situations, sdev will go and create entries in that
56  * underlying file system. These underlying 'back end' nodes are used as proxies
57  * for various changes in permissions. While specific sets of nodes, such as
58  * dynamic ones, are exempt, this process stores permission changes against
59  * these back end nodes. The point of all of this is to allow for these settings
60  * to persist across host and zone reboots. As an example, consider the entry
61  * /dev/dsk/c0t0d0 which is a character device and that / is in UFS. Upon
62  * changing the permissions on c0t0d0 you'd have the following logical
63  * relationships:
64  *
65  *    +------------------+   sdev_vnode     +--------------+
66  *    | sdev_node_t      |<---------------->| vnode_t      |
67  *    | /dev/dsk/c0t0d0  |<---------------->| for sdev     |
68  *    +------------------+                  +--------------+
69  *           |
70  *           | sdev_attrvp
71  *           |
72  *           |    +---------------------+
73  *           +--->| vnode_t for UFS|ZFS |
74  *                | /dev/dsk/c0t0d0     |
75  *                +---------------------+
76  *
77  * sdev is generally in memory. Therefore when a lookup happens and there is no
78  * entry already inside of a directory cache, it will next check the backing
79  * store. If the backing store exists, we will reconstitute the sdev_node based
80  * on the information that we persisted. When we create the backing store node,
81  * we use the struct vattr information that we already have in sdev_node_t.
82  * Because of this, we already know if the entry was previously a symlink,
83  * directory, or some other kind of type. Note that not all types of nodes are
84  * supported. Currently only VDIR, VCHR, VBLK, VREG, VDOOR, and VLNK are
85  * eligible to be persisted.
86  *
87  * When the sdev_node is created and the lookup is done, we grab a hold on the
88  * underlying vnode as part of the call to VOP_LOOKUP. That reference is held
89  * until the sdev_node becomes inactive. Once its reference count reaches one
90  * and the VOP_INACTIVE callback fires leading to the destruction of the node,
91  * the reference on the underlying vnode will be released.
92  *
93  * The backing store node will be deleted only when the node itself is deleted
94  * through the means of a VOP_REMOVE, VOP_RMDIR, or similar call.
95  *
96  * Not everything can be persisted, see The Rules section for more details.
97  *
98  * Dynamic Nodes
99  * -------------
100  *
101  * Dynamic nodes allow for specific interactions with various kernel subsystems
102  * when looking up directory entries. This allows the lookup and readdir
103  * functions to check against the kernel subsystem's for validity. eg. does a
104  * zvol or nic still exist.
105  *
106  * More specifically, when we create various directories we check if the
107  * directory name matches that of one of the names in the vtab[] (sdev_subr.c).
108  * If it does, we swap out the vnode operations into a new set which combine the
109  * normal sdev vnode operations with the dynamic set here.
110  *
111  * In addition, various dynamic nodes implement a verification entry point. This
112  * verification entry is used as a part of lookup and readdir. The goal for
113  * these dynamic nodes is to allow them to check with the underlying subsystems
114  * to ensure that these devices are still present, or if they have gone away, to
115  * remove them from the results. This is indicated by using the SDEV_VTOR flag
116  * in vtab[].
117  *
118  * Dynamic nodes have additional restrictions placed upon them. They may only
119  * appear at the top level directory of the file system. In addition, users
120  * cannot create dirents below any leve of a dynamic node aside from its special
121  * vnops.
122  *
123  * Profiles
124  * --------
125  *
126  * Profiles exist for the purpose of non-global zones. They work with the zone
127  * brands and zoneadmd to set up a filter of allowed devices that can appear in
128  * a non-global zone's /dev. These are sent to sdev by means of libdevinfo and a
129  * modctl system call. Specifically it allows one to add patterns of device
130  * paths to include and exclude. It allows for a collection of symlinks to be
131  * added and it allows for remapping names.
132  *
133  * When operating in a non-global zone, several of the sdev vnops are redirected
134  * to the profile versions. These impose additional restrictions such as
135  * enforcing that a non-global zone's /dev is read only.
136  *
137  * sdev_node_t States
138  * ------------------
139  *
140  * A given sdev_node_t has a field called the sdev_state which describes where
141  * in the sdev life cycle it is. There are three primary states: SDEV_INIT,
142  * SDEV_READY, and SDEV_ZOMBIE.
143  *
144  *	SDEV_INIT: When a new /dev file is first looked up, a sdev_node
145  *		   is allocated, initialized and added to the directory's
146  *		   sdev_node cache. A node at this state will also
147  *		   have the SDEV_LOOKUP flag set.
148  *
149  *		   Other threads that are trying to look up a node at
150  *		   this state will be blocked until the SDEV_LOOKUP flag
151  *		   is cleared.
152  *
153  *		   When the SDEV_LOOKUP flag is cleared, the node may
154  *		   transition into the SDEV_READY state for a successful
155  *		   lookup or the node is removed from the directory cache
156  *		   and destroyed if the named node can not be found.
157  *		   An ENOENT error is returned for the second case.
158  *
159  *	SDEV_READY: A /dev file has been successfully looked up and
160  *		    associated with a vnode. The /dev file is available
161  *		    for the supported /dev file system operations.
162  *
163  *	SDEV_ZOMBIE: Deletion of a /dev file has been explicitly issued
164  *		    to an SDEV_READY node. The node is transitioned into
165  *		    the SDEV_ZOMBIE state if the vnode reference count
166  *		    is still held. A SDEV_ZOMBIE node does not support
167  *		    any of the /dev file system operations. A SDEV_ZOMBIE
168  *		    node is immediately removed from the directory cache
169  *		    and destroyed once the reference count reaches zero.
170  *
171  * Historically nodes that were marked SDEV_ZOMBIE were not removed from the
172  * underlying directory caches. This has been the source of numerous bugs and
173  * thus to better mimic what happens on a real file system, it is no longer the
174  * case.
175  *
176  * The following state machine describes the life cycle of a given node and its
177  * associated states:
178  *
179  * node is . . . . .
180  * allocated via   .     +-------------+         . . . . . . . vnode_t refcount
181  * sdev_nodeinit() .     | Unallocated |         .             reaches zero and
182  *        +--------*-----|   Memory    |<--------*---+         sdev_inactive is
183  *        |              +-------------+             |         called.
184  *        |       +------------^                     |         called.
185  *        v       |                                  |
186  *  +-----------+ * . . sdev_nodeready()      +-------------+
187  *  | SDEV_INIT | |     or related setup      | SDEV_ZOMBIE |
188  *  +-----------+ |     failure               +-------------+
189  *        |       |                                  ^
190  *        |       |      +------------+              |
191  *        +-*----------->| SDEV_READY |--------*-----+
192  *          .            +------------+        .          The node is no longer
193  *          . . node successfully              . . . . .  valid or we've been
194  *              inserted into the                         asked to remove it.
195  *              directory cache                           This happens via
196  *              and sdev_nodready()                       sdev_dirdelete().
197  *              call successful.
198  *
199  * Adding and Removing Dirents, Zombie Nodes
200  * -----------------------------------------
201  *
202  * As part of doing a lookup, readdir, or an explicit creation operation like
203  * mkdir or create, nodes may be created. Every directory has an avl tree which
204  * contains its children, the sdev_entries tree. This is only used if the type
205  * is VDIR. Access to this is controlled by the sdev_node_t's contents_lock and
206  * it is managed through sdev_cache_update().
207  *
208  * Every sdev_node_t has a field sdev_state, which describes the current state
209  * of the node. A node is generally speaking in the SDEV_READY state. When it is
210  * there, it can be looked up, accessed, and operations performed on it. When a
211  * node is going to be removed from the directory cache it is marked as a
212  * zombie. Once a node becomes a zombie, no other file system operations will
213  * succeed and it will continue to exist as a node until the vnode count on the
214  * node reaches zero. At that point, the node will be freed.  However, once a
215  * node has been marked as a zombie, it will be removed immediately from the
216  * directory cache such that no one else may find it again.  This means that
217  * someone else can insert a new entry into that directory with the same name
218  * and without a problem.
219  *
220  * To remove a node, see the section on that in The Rules.
221  *
222  * The Rules
223  * ---------
224  * These are the rules to live by when working in sdev. These are not
225  * exhaustive.
226  *
227  * - Set 1: Working with Backing Nodes
228  *   o If there is a SDEV_READY sdev_node_t, it knows about its backing node.
229  *   o If we find a backing node when looking up an sdev_node_t for the first
230  *     time, we use its attributes to build our sdev_node_t.
231  *   o If there is a found backing node, or we create a backing node, that's
232  *     when we grab the hold on its vnode.
233  *   o If we mark an sdev_node_t a ZOMBIE, we must remove its backing node from
234  *     the underlying file system. It must not be searchable or findable.
235  *   o We release our hold on the backing node vnode when we destroy the
236  *     sdev_node_t.
237  *
238  * - Set 2: Locking rules for sdev (not exhaustive)
239  *   o The majority of nodes contain an sdev_contents rw lock. You must hold it
240  *     for read or write if manipulating its contents appropriately.
241  *   o You must lock your parent before yourself.
242  *   o If you need your vnode's v_lock and the sdev_contents rw lock, you must
243  *     grab the v_lock before the sdev_contents rw_lock.
244  *   o If you release a lock on the node as a part of upgrading it, you must
245  *     verify that the node has not become a zombie as a part of this process.
246  *
247  * - Set 3: Zombie Status and What it Means
248  *   o If you encounter a node that is a ZOMBIE, that means that it has been
249  *     unlinked from the backing store.
250  *   o If you release your contents lock and acquire it again (say as part of
251  *     trying to grab a write lock) you must check that the node has not become
252  *     a zombie.
253  *   o You should VERIFY that a looked up node is not a zombie. This follows
254  *     from the following logic. To mark something as a zombie means that it is
255  *     removed from the parents directory cache. To do that, you must have a
256  *     write lock on the parent's sdev_contents. To lookup through that
257  *     directory you must have a read lock. This then becomes a simple ordering
258  *     problem. If you've been granted the lock then the other operation cannot
259  *     be in progress or must have already succeeded.
260  *
261  * - Set 4: Removing Directory Entries (aka making nodes Zombies)
262  *   o Write lock must be held on the directory
263  *   o Write lock must be held on the node
264  *   o Remove the sdev_node_t from its parent cache
265  *   o Remove the corresponding backing store node, if it exists, eg. use
266  *     VOP_REMOVE or VOP_RMDIR.
267  *   o You must NOT make any change in the vnode reference count! Nodes should
268  *     only be cleaned up through VOP_INACTIVE callbacks.
269  *   o VOP_INACTIVE is the only one responsible for doing the final vn_rele of
270  *     the backing store vnode that was grabbed during lookup.
271  *
272  * - Set 5: What Nodes may be Persisted
273  *   o The root, /dev is always persisted
274  *   o Any node in vtab which is marked SDEV_DYNAMIC, may not be persisted
275  *     unless it is also marked SDEV_PERSIST
276  *   o Anything whose parent directory is marked SDEV_PERSIST will pass that
277  *     along to the child as long as it does not contradict the above rules
278  */
279 
280 #include <sys/types.h>
281 #include <sys/param.h>
282 #include <sys/t_lock.h>
283 #include <sys/systm.h>
284 #include <sys/sysmacros.h>
285 #include <sys/user.h>
286 #include <sys/time.h>
287 #include <sys/vfs.h>
288 #include <sys/vnode.h>
289 #include <sys/vfs_opreg.h>
290 #include <sys/file.h>
291 #include <sys/fcntl.h>
292 #include <sys/flock.h>
293 #include <sys/kmem.h>
294 #include <sys/uio.h>
295 #include <sys/errno.h>
296 #include <sys/stat.h>
297 #include <sys/cred.h>
298 #include <sys/dirent.h>
299 #include <sys/pathname.h>
300 #include <sys/cmn_err.h>
301 #include <sys/debug.h>
302 #include <sys/policy.h>
303 #include <vm/hat.h>
304 #include <vm/seg_vn.h>
305 #include <vm/seg_map.h>
306 #include <vm/seg.h>
307 #include <vm/as.h>
308 #include <vm/page.h>
309 #include <sys/proc.h>
310 #include <sys/mode.h>
311 #include <sys/sunndi.h>
312 #include <sys/ptms.h>
313 #include <fs/fs_subr.h>
314 #include <sys/fs/dv_node.h>
315 #include <sys/fs/sdev_impl.h>
316 
317 /*ARGSUSED*/
318 static int
319 sdev_open(struct vnode **vpp, int flag, struct cred *cred, caller_context_t *ct)
320 {
321 	struct sdev_node *dv = VTOSDEV(*vpp);
322 	struct sdev_node *ddv = dv->sdev_dotdot;
323 	int error = 0;
324 
325 	if ((*vpp)->v_type == VDIR)
326 		return (0);
327 
328 	if (!SDEV_IS_GLOBAL(dv))
329 		return (ENOTSUP);
330 
331 	if ((*vpp)->v_type == VLNK)
332 		return (ENOENT);
333 	ASSERT((*vpp)->v_type == VREG);
334 	if ((*vpp)->v_type != VREG)
335 		return (ENOTSUP);
336 
337 	ASSERT(ddv);
338 	rw_enter(&ddv->sdev_contents, RW_READER);
339 	if (dv->sdev_attrvp == NULL) {
340 		rw_exit(&ddv->sdev_contents);
341 		return (ENOENT);
342 	}
343 	error = VOP_OPEN(&(dv->sdev_attrvp), flag, cred, ct);
344 	rw_exit(&ddv->sdev_contents);
345 	return (error);
346 }
347 
348 /*ARGSUSED1*/
349 static int
350 sdev_close(struct vnode *vp, int flag, int count,
351     offset_t offset, struct cred *cred, caller_context_t *ct)
352 {
353 	struct sdev_node *dv = VTOSDEV(vp);
354 
355 	if (vp->v_type == VDIR) {
356 		cleanlocks(vp, ttoproc(curthread)->p_pid, 0);
357 		cleanshares(vp, ttoproc(curthread)->p_pid);
358 		return (0);
359 	}
360 
361 	if (!SDEV_IS_GLOBAL(dv))
362 		return (ENOTSUP);
363 
364 	ASSERT(vp->v_type == VREG);
365 	if (vp->v_type != VREG)
366 		return (ENOTSUP);
367 
368 	ASSERT(dv->sdev_attrvp);
369 	return (VOP_CLOSE(dv->sdev_attrvp, flag, count, offset, cred, ct));
370 }
371 
372 /*ARGSUSED*/
373 static int
374 sdev_read(struct vnode *vp, struct uio *uio, int ioflag, struct cred *cred,
375 	struct caller_context *ct)
376 {
377 	struct sdev_node *dv = (struct sdev_node *)VTOSDEV(vp);
378 	int	error;
379 
380 	if (!SDEV_IS_GLOBAL(dv))
381 		return (EINVAL);
382 
383 	if (vp->v_type == VDIR)
384 		return (EISDIR);
385 
386 	/* only supporting regular files in /dev */
387 	ASSERT(vp->v_type == VREG);
388 	if (vp->v_type != VREG)
389 		return (EINVAL);
390 
391 	ASSERT(RW_READ_HELD(&VTOSDEV(vp)->sdev_contents));
392 	ASSERT(dv->sdev_attrvp);
393 	(void) VOP_RWLOCK(dv->sdev_attrvp, 0, ct);
394 	error = VOP_READ(dv->sdev_attrvp, uio, ioflag, cred, ct);
395 	VOP_RWUNLOCK(dv->sdev_attrvp, 0, ct);
396 	return (error);
397 }
398 
399 /*ARGSUSED*/
400 static int
401 sdev_write(struct vnode *vp, struct uio *uio, int ioflag, struct cred *cred,
402 	struct caller_context *ct)
403 {
404 	struct sdev_node *dv = VTOSDEV(vp);
405 	int	error = 0;
406 
407 	if (!SDEV_IS_GLOBAL(dv))
408 		return (EINVAL);
409 
410 	if (vp->v_type == VDIR)
411 		return (EISDIR);
412 
413 	/* only supporting regular files in /dev */
414 	ASSERT(vp->v_type == VREG);
415 	if (vp->v_type != VREG)
416 		return (EINVAL);
417 
418 	ASSERT(dv->sdev_attrvp);
419 
420 	(void) VOP_RWLOCK(dv->sdev_attrvp, 1, ct);
421 	error = VOP_WRITE(dv->sdev_attrvp, uio, ioflag, cred, ct);
422 	VOP_RWUNLOCK(dv->sdev_attrvp, 1, ct);
423 	if (error == 0) {
424 		sdev_update_timestamps(dv->sdev_attrvp, kcred,
425 		    AT_MTIME);
426 	}
427 	return (error);
428 }
429 
430 /*ARGSUSED*/
431 static int
432 sdev_ioctl(struct vnode *vp, int cmd, intptr_t arg, int flag,
433     struct cred *cred, int *rvalp,  caller_context_t *ct)
434 {
435 	struct sdev_node *dv = VTOSDEV(vp);
436 
437 	if (!SDEV_IS_GLOBAL(dv) || (vp->v_type == VDIR))
438 		return (ENOTTY);
439 
440 	ASSERT(vp->v_type == VREG);
441 	if (vp->v_type != VREG)
442 		return (EINVAL);
443 
444 	ASSERT(dv->sdev_attrvp);
445 	return (VOP_IOCTL(dv->sdev_attrvp, cmd, arg, flag, cred, rvalp, ct));
446 }
447 
448 static int
449 sdev_getattr(struct vnode *vp, struct vattr *vap, int flags,
450     struct cred *cr, caller_context_t *ct)
451 {
452 	int			error = 0;
453 	struct sdev_node	*dv = VTOSDEV(vp);
454 	struct sdev_node	*parent = dv->sdev_dotdot;
455 
456 	ASSERT(parent);
457 
458 	rw_enter(&parent->sdev_contents, RW_READER);
459 	ASSERT(dv->sdev_attr || dv->sdev_attrvp);
460 
461 	/*
462 	 * search order:
463 	 * 	- for persistent nodes (SDEV_PERSIST): backstore
464 	 *	- for non-persistent nodes: module ops if global, then memory
465 	 */
466 	if (dv->sdev_attrvp) {
467 		rw_exit(&parent->sdev_contents);
468 		error = VOP_GETATTR(dv->sdev_attrvp, vap, flags, cr, ct);
469 		sdev_vattr_merge(dv, vap);
470 	} else {
471 		ASSERT(dv->sdev_attr);
472 		*vap = *dv->sdev_attr;
473 		sdev_vattr_merge(dv, vap);
474 		rw_exit(&parent->sdev_contents);
475 	}
476 
477 	return (error);
478 }
479 
480 /*ARGSUSED4*/
481 static int
482 sdev_setattr(struct vnode *vp, struct vattr *vap, int flags,
483     struct cred *cred, caller_context_t *ctp)
484 {
485 	return (devname_setattr_func(vp, vap, flags, cred, NULL, 0));
486 }
487 
488 static int
489 sdev_getsecattr(struct vnode *vp, struct vsecattr *vsap, int flags,
490     struct cred *cr, caller_context_t *ct)
491 {
492 	int	error;
493 	struct sdev_node *dv = VTOSDEV(vp);
494 	struct vnode *avp = dv->sdev_attrvp;
495 
496 	if (avp == NULL) {
497 		/* return fs_fab_acl() if flavor matches, else do nothing */
498 		if ((SDEV_ACL_FLAVOR(vp) == _ACL_ACLENT_ENABLED &&
499 		    (vsap->vsa_mask & (VSA_ACLCNT | VSA_DFACLCNT))) ||
500 		    (SDEV_ACL_FLAVOR(vp) == _ACL_ACE_ENABLED &&
501 		    (vsap->vsa_mask & (VSA_ACECNT | VSA_ACE))))
502 			return (fs_fab_acl(vp, vsap, flags, cr, ct));
503 
504 		return (ENOSYS);
505 	}
506 
507 	(void) VOP_RWLOCK(avp, 1, ct);
508 	error = VOP_GETSECATTR(avp, vsap, flags, cr, ct);
509 	VOP_RWUNLOCK(avp, 1, ct);
510 	return (error);
511 }
512 
513 static int
514 sdev_setsecattr(struct vnode *vp, struct vsecattr *vsap, int flags,
515     struct cred *cr, caller_context_t *ct)
516 {
517 	int	error;
518 	struct sdev_node *dv = VTOSDEV(vp);
519 	struct vnode *avp = dv->sdev_attrvp;
520 
521 	if (dv->sdev_state == SDEV_ZOMBIE)
522 		return (0);
523 
524 	if (avp == NULL) {
525 		if (SDEV_IS_GLOBAL(dv) && !SDEV_IS_PERSIST(dv))
526 			return (fs_nosys());
527 		ASSERT(dv->sdev_attr);
528 		/*
529 		 * if coming in directly, the acl system call will
530 		 * have held the read-write lock via VOP_RWLOCK()
531 		 * If coming in via specfs, specfs will have
532 		 * held the rw lock on the realvp i.e. us.
533 		 */
534 		ASSERT(RW_WRITE_HELD(&dv->sdev_contents));
535 		sdev_vattr_merge(dv, dv->sdev_attr);
536 		error = sdev_shadow_node(dv, cr);
537 		if (error) {
538 			return (fs_nosys());
539 		}
540 
541 		ASSERT(dv->sdev_attrvp);
542 		/* clean out the memory copy if any */
543 		if (dv->sdev_attr) {
544 			kmem_free(dv->sdev_attr, sizeof (struct vattr));
545 			dv->sdev_attr = NULL;
546 		}
547 		avp = dv->sdev_attrvp;
548 	}
549 	ASSERT(avp);
550 
551 	(void) VOP_RWLOCK(avp, V_WRITELOCK_TRUE, ct);
552 	error = VOP_SETSECATTR(avp, vsap, flags, cr, ct);
553 	VOP_RWUNLOCK(avp, V_WRITELOCK_TRUE, ct);
554 	return (error);
555 }
556 
557 int
558 sdev_unlocked_access(void *vdv, int mode, struct cred *cr)
559 {
560 	struct sdev_node	*dv = vdv;
561 	int			shift = 0;
562 	uid_t			owner = dv->sdev_attr->va_uid;
563 
564 	if (crgetuid(cr) != owner) {
565 		shift += 3;
566 		if (groupmember(dv->sdev_attr->va_gid, cr) == 0)
567 			shift += 3;
568 	}
569 
570 	return (secpolicy_vnode_access2(cr, SDEVTOV(dv), owner,
571 	    dv->sdev_attr->va_mode << shift, mode));
572 }
573 
574 static int
575 sdev_access(struct vnode *vp, int mode, int flags, struct cred *cr,
576     caller_context_t *ct)
577 {
578 	struct sdev_node	*dv = VTOSDEV(vp);
579 	int ret = 0;
580 
581 	ASSERT(dv->sdev_attr || dv->sdev_attrvp);
582 
583 	if (dv->sdev_attrvp) {
584 		ret = VOP_ACCESS(dv->sdev_attrvp, mode, flags, cr, ct);
585 	} else if (dv->sdev_attr) {
586 		rw_enter(&dv->sdev_contents, RW_READER);
587 		ret = sdev_unlocked_access(dv, mode, cr);
588 		if (ret)
589 			ret = EACCES;
590 		rw_exit(&dv->sdev_contents);
591 	}
592 
593 	return (ret);
594 }
595 
596 /*
597  * Lookup
598  */
599 /*ARGSUSED3*/
600 static int
601 sdev_lookup(struct vnode *dvp, char *nm, struct vnode **vpp,
602     struct pathname *pnp, int flags, struct vnode *rdir, struct cred *cred,
603     caller_context_t *ct, int *direntflags, pathname_t *realpnp)
604 {
605 	struct sdev_node *parent;
606 	int error;
607 
608 	parent = VTOSDEV(dvp);
609 	ASSERT(parent);
610 
611 	/* execute access is required to search the directory */
612 	if ((error = VOP_ACCESS(dvp, VEXEC, 0, cred, ct)) != 0)
613 		return (error);
614 
615 	if (!SDEV_IS_GLOBAL(parent))
616 		return (prof_lookup(dvp, nm, vpp, cred));
617 	return (devname_lookup_func(parent, nm, vpp, cred, NULL, 0));
618 }
619 
620 /*ARGSUSED2*/
621 static int
622 sdev_create(struct vnode *dvp, char *nm, struct vattr *vap, vcexcl_t excl,
623     int mode, struct vnode **vpp, struct cred *cred, int flag,
624     caller_context_t *ct, vsecattr_t *vsecp)
625 {
626 	struct vnode		*vp = NULL;
627 	struct vnode		*avp;
628 	struct sdev_node	*parent;
629 	struct sdev_node	*self = NULL;
630 	int			error = 0;
631 	vtype_t			type = vap->va_type;
632 
633 	ASSERT(type != VNON && type != VBAD);
634 
635 	if ((type == VFIFO) || (type == VSOCK) ||
636 	    (type == VPROC) || (type == VPORT))
637 		return (ENOTSUP);
638 
639 	parent = VTOSDEV(dvp);
640 	ASSERT(parent);
641 
642 	rw_enter(&parent->sdev_dotdot->sdev_contents, RW_READER);
643 	if (parent->sdev_state == SDEV_ZOMBIE) {
644 		rw_exit(&parent->sdev_dotdot->sdev_contents);
645 		return (ENOENT);
646 	}
647 
648 	/* non-global do not allow pure node creation */
649 	if (!SDEV_IS_GLOBAL(parent)) {
650 		rw_exit(&parent->sdev_dotdot->sdev_contents);
651 		return (prof_lookup(dvp, nm, vpp, cred));
652 	}
653 	rw_exit(&parent->sdev_dotdot->sdev_contents);
654 
655 	/* execute access is required to search the directory */
656 	if ((error = VOP_ACCESS(dvp, VEXEC, 0, cred, ct)) != 0)
657 		return (error);
658 
659 	/* check existing name */
660 /* XXXci - We may need to translate the C-I flags on VOP_LOOKUP */
661 	error = VOP_LOOKUP(dvp, nm, &vp, NULL, 0, NULL, cred, ct, NULL, NULL);
662 
663 	/* name found */
664 	if (error == 0) {
665 		ASSERT(vp);
666 		if (excl == EXCL) {
667 			error = EEXIST;
668 		} else if ((vp->v_type == VDIR) && (mode & VWRITE)) {
669 			/* allowing create/read-only an existing directory */
670 			error = EISDIR;
671 		} else {
672 			error = VOP_ACCESS(vp, mode, 0, cred, ct);
673 		}
674 
675 		if (error) {
676 			VN_RELE(vp);
677 			return (error);
678 		}
679 
680 		/* truncation first */
681 		if ((vp->v_type == VREG) && (vap->va_mask & AT_SIZE) &&
682 		    (vap->va_size == 0)) {
683 			ASSERT(parent->sdev_attrvp);
684 			error = VOP_CREATE(parent->sdev_attrvp,
685 			    nm, vap, excl, mode, &avp, cred, flag, ct, vsecp);
686 
687 			if (error) {
688 				VN_RELE(vp);
689 				return (error);
690 			}
691 		}
692 
693 		sdev_update_timestamps(vp, kcred,
694 		    AT_CTIME|AT_MTIME|AT_ATIME);
695 		*vpp = vp;
696 		return (0);
697 	}
698 
699 	/* bail out early */
700 	if (error != ENOENT)
701 		return (error);
702 
703 	/* verify write access - compliance specifies ENXIO */
704 	if ((error = VOP_ACCESS(dvp, VEXEC|VWRITE, 0, cred, ct)) != 0) {
705 		if (error == EACCES)
706 			error = ENXIO;
707 		return (error);
708 	}
709 
710 	/*
711 	 * For memory-based (ROFS) directory:
712 	 * 	- either disallow node creation;
713 	 *	- or implement VOP_CREATE of its own
714 	 */
715 	rw_enter(&parent->sdev_contents, RW_WRITER);
716 	if (!SDEV_IS_PERSIST(parent)) {
717 		rw_exit(&parent->sdev_contents);
718 		return (ENOTSUP);
719 	}
720 	ASSERT(parent->sdev_attrvp);
721 	error = sdev_mknode(parent, nm, &self, vap, NULL, NULL,
722 	    cred, SDEV_READY);
723 	if (error) {
724 		rw_exit(&parent->sdev_contents);
725 		if (self)
726 			SDEV_RELE(self);
727 		return (error);
728 	}
729 	rw_exit(&parent->sdev_contents);
730 
731 	ASSERT(self);
732 	/* take care the timestamps for the node and its parent */
733 	sdev_update_timestamps(SDEVTOV(self), kcred,
734 	    AT_CTIME|AT_MTIME|AT_ATIME);
735 	sdev_update_timestamps(dvp, kcred, AT_MTIME|AT_ATIME);
736 	if (SDEV_IS_GLOBAL(parent))
737 		atomic_inc_ulong(&parent->sdev_gdir_gen);
738 
739 	/* wake up other threads blocked on looking up this node */
740 	mutex_enter(&self->sdev_lookup_lock);
741 	SDEV_UNBLOCK_OTHERS(self, SDEV_LOOKUP);
742 	mutex_exit(&self->sdev_lookup_lock);
743 	error = sdev_to_vp(self, vpp);
744 	return (error);
745 }
746 
747 static int
748 sdev_remove(struct vnode *dvp, char *nm, struct cred *cred,
749     caller_context_t *ct, int flags)
750 {
751 	int	error;
752 	struct sdev_node *parent = (struct sdev_node *)VTOSDEV(dvp);
753 	struct vnode *vp = NULL;
754 	struct sdev_node *dv = NULL;
755 	int len;
756 	int bkstore;
757 
758 	/* bail out early */
759 	len = strlen(nm);
760 	if (nm[0] == '.') {
761 		if (len == 1) {
762 			return (EINVAL);
763 		} else if (len == 2 && nm[1] == '.') {
764 			return (EEXIST);
765 		}
766 	}
767 
768 	ASSERT(parent);
769 	rw_enter(&parent->sdev_contents, RW_READER);
770 	if (!SDEV_IS_GLOBAL(parent)) {
771 		rw_exit(&parent->sdev_contents);
772 		return (ENOTSUP);
773 	}
774 
775 	/* execute access is required to search the directory */
776 	if ((error = VOP_ACCESS(dvp, VEXEC, 0, cred, ct)) != 0) {
777 		rw_exit(&parent->sdev_contents);
778 		return (error);
779 	}
780 
781 	/* check existence first */
782 	dv = sdev_cache_lookup(parent, nm);
783 	if (dv == NULL) {
784 		rw_exit(&parent->sdev_contents);
785 		return (ENOENT);
786 	}
787 
788 	vp = SDEVTOV(dv);
789 	if ((dv->sdev_state == SDEV_INIT) ||
790 	    (dv->sdev_state == SDEV_ZOMBIE)) {
791 		rw_exit(&parent->sdev_contents);
792 		VN_RELE(vp);
793 		return (ENOENT);
794 	}
795 
796 	/* write access is required to remove an entry */
797 	if ((error = VOP_ACCESS(dvp, VWRITE, 0, cred, ct)) != 0) {
798 		rw_exit(&parent->sdev_contents);
799 		VN_RELE(vp);
800 		return (error);
801 	}
802 
803 	bkstore = SDEV_IS_PERSIST(dv) ? 1 : 0;
804 	if (!rw_tryupgrade(&parent->sdev_contents)) {
805 		rw_exit(&parent->sdev_contents);
806 		rw_enter(&parent->sdev_contents, RW_WRITER);
807 		/* Make sure we didn't become a zombie */
808 		if (parent->sdev_state == SDEV_ZOMBIE) {
809 			rw_exit(&parent->sdev_contents);
810 			VN_RELE(vp);
811 			return (ENOENT);
812 		}
813 	}
814 
815 	/* we do not support unlinking a non-empty directory */
816 	if (vp->v_type == VDIR && dv->sdev_nlink > 2) {
817 		rw_exit(&parent->sdev_contents);
818 		VN_RELE(vp);
819 		return (EBUSY);
820 	}
821 
822 	/*
823 	 * sdev_dirdelete does the real job of:
824 	 *  - make sure no open ref count
825 	 *  - destroying the sdev_node
826 	 *  - releasing the hold on attrvp
827 	 */
828 	sdev_cache_update(parent, &dv, nm, SDEV_CACHE_DELETE);
829 	VN_RELE(vp);
830 	rw_exit(&parent->sdev_contents);
831 
832 	/*
833 	 * best efforts clean up the backing store
834 	 */
835 	if (bkstore) {
836 		ASSERT(parent->sdev_attrvp);
837 		error = VOP_REMOVE(parent->sdev_attrvp, nm, cred,
838 		    ct, flags);
839 		/*
840 		 * do not report BUSY error
841 		 * because the backing store ref count is released
842 		 * when the last ref count on the sdev_node is
843 		 * released.
844 		 */
845 		if (error == EBUSY) {
846 			sdcmn_err2(("sdev_remove: device %s is still on"
847 			    "disk %s\n", nm, parent->sdev_path));
848 			error = 0;
849 		}
850 	}
851 
852 	return (error);
853 }
854 
855 /*
856  * Some restrictions for this file system:
857  *  - both oldnm and newnm are in the scope of /dev file system,
858  *    to simply the namespace management model.
859  */
860 /*ARGSUSED6*/
861 static int
862 sdev_rename(struct vnode *odvp, char *onm, struct vnode *ndvp, char *nnm,
863     struct cred *cred, caller_context_t *ct, int flags)
864 {
865 	struct sdev_node	*fromparent = NULL;
866 	struct vattr		vattr;
867 	struct sdev_node	*toparent;
868 	struct sdev_node	*fromdv = NULL;	/* source node */
869 	struct vnode 		*ovp = NULL;	/* source vnode */
870 	struct sdev_node	*todv = NULL;	/* destination node */
871 	struct vnode 		*nvp = NULL;	/* destination vnode */
872 	int			samedir = 0;	/* set if odvp == ndvp */
873 	struct vnode		*realvp;
874 	int error = 0;
875 	dev_t fsid;
876 	int bkstore = 0;
877 	vtype_t type;
878 
879 	/* prevent modifying "." and ".." */
880 	if ((onm[0] == '.' &&
881 	    (onm[1] == '\0' || (onm[1] == '.' && onm[2] == '\0'))) ||
882 	    (nnm[0] == '.' &&
883 	    (nnm[1] == '\0' || (nnm[1] == '.' && nnm[2] == '\0')))) {
884 		return (EINVAL);
885 	}
886 
887 	fromparent = VTOSDEV(odvp);
888 	toparent = VTOSDEV(ndvp);
889 
890 	/* ZOMBIE parent doesn't allow new node creation */
891 	rw_enter(&fromparent->sdev_dotdot->sdev_contents, RW_READER);
892 	if (fromparent->sdev_state == SDEV_ZOMBIE) {
893 		rw_exit(&fromparent->sdev_dotdot->sdev_contents);
894 		return (ENOENT);
895 	}
896 
897 	/* renaming only supported for global device nodes */
898 	if (!SDEV_IS_GLOBAL(fromparent)) {
899 		rw_exit(&fromparent->sdev_dotdot->sdev_contents);
900 		return (ENOTSUP);
901 	}
902 	rw_exit(&fromparent->sdev_dotdot->sdev_contents);
903 
904 	rw_enter(&toparent->sdev_dotdot->sdev_contents, RW_READER);
905 	if (toparent->sdev_state == SDEV_ZOMBIE) {
906 		rw_exit(&toparent->sdev_dotdot->sdev_contents);
907 		return (ENOENT);
908 	}
909 	rw_exit(&toparent->sdev_dotdot->sdev_contents);
910 
911 	/*
912 	 * acquire the global lock to prevent
913 	 * mount/unmount/other rename activities.
914 	 */
915 	mutex_enter(&sdev_lock);
916 
917 	/* check existence of the source node */
918 /* XXXci - We may need to translate the C-I flags on VOP_LOOKUP */
919 	error = VOP_LOOKUP(odvp, onm, &ovp, NULL, 0, NULL, cred, ct,
920 	    NULL, NULL);
921 	if (error) {
922 		sdcmn_err2(("sdev_rename: the source node %s exists\n",
923 		    onm));
924 		mutex_exit(&sdev_lock);
925 		return (error);
926 	}
927 
928 	if (VOP_REALVP(ovp, &realvp, ct) == 0) {
929 		VN_HOLD(realvp);
930 		VN_RELE(ovp);
931 		ovp = realvp;
932 	}
933 
934 	/* check existence of destination */
935 /* XXXci - We may need to translate the C-I flags on VOP_LOOKUP */
936 	error = VOP_LOOKUP(ndvp, nnm, &nvp, NULL, 0, NULL, cred, ct,
937 	    NULL, NULL);
938 	if (error && (error != ENOENT)) {
939 		mutex_exit(&sdev_lock);
940 		VN_RELE(ovp);
941 		return (error);
942 	}
943 
944 	if (nvp && (VOP_REALVP(nvp, &realvp, ct) == 0)) {
945 		VN_HOLD(realvp);
946 		VN_RELE(nvp);
947 		nvp = realvp;
948 	}
949 
950 	/*
951 	 * make sure the source and the destination are
952 	 * in the same dev filesystem
953 	 */
954 	if (odvp != ndvp) {
955 		vattr.va_mask = AT_FSID;
956 		if (error = VOP_GETATTR(odvp, &vattr, 0, cred, ct)) {
957 			mutex_exit(&sdev_lock);
958 			VN_RELE(ovp);
959 			if (nvp != NULL)
960 				VN_RELE(nvp);
961 			return (error);
962 		}
963 		fsid = vattr.va_fsid;
964 		vattr.va_mask = AT_FSID;
965 		if (error = VOP_GETATTR(ndvp, &vattr, 0, cred, ct)) {
966 			mutex_exit(&sdev_lock);
967 			VN_RELE(ovp);
968 			if (nvp != NULL)
969 				VN_RELE(nvp);
970 			return (error);
971 		}
972 		if (fsid != vattr.va_fsid) {
973 			mutex_exit(&sdev_lock);
974 			VN_RELE(ovp);
975 			if (nvp != NULL)
976 				VN_RELE(nvp);
977 			return (EXDEV);
978 		}
979 	}
980 
981 	/* make sure the old entry can be deleted */
982 	error = VOP_ACCESS(odvp, VWRITE, 0, cred, ct);
983 	if (error) {
984 		mutex_exit(&sdev_lock);
985 		VN_RELE(ovp);
986 		if (nvp != NULL)
987 			VN_RELE(nvp);
988 		return (error);
989 	}
990 
991 	/* make sure the destination allows creation */
992 	samedir = (fromparent == toparent);
993 	if (!samedir) {
994 		error = VOP_ACCESS(ndvp, VEXEC|VWRITE, 0, cred, ct);
995 		if (error) {
996 			mutex_exit(&sdev_lock);
997 			VN_RELE(ovp);
998 			if (nvp != NULL)
999 				VN_RELE(nvp);
1000 			return (error);
1001 		}
1002 	}
1003 
1004 	fromdv = VTOSDEV(ovp);
1005 	ASSERT(fromdv);
1006 
1007 	/* destination file exists */
1008 	if (nvp != NULL) {
1009 		todv = VTOSDEV(nvp);
1010 		ASSERT(todv);
1011 	}
1012 
1013 	if ((fromdv->sdev_flags & SDEV_DYNAMIC) != 0 ||
1014 	    (todv != NULL && (todv->sdev_flags & SDEV_DYNAMIC) != 0)) {
1015 		mutex_exit(&sdev_lock);
1016 		if (nvp != NULL)
1017 			VN_RELE(nvp);
1018 		VN_RELE(ovp);
1019 		return (EACCES);
1020 	}
1021 
1022 	/*
1023 	 * link source to new target in the memory. Regardless of failure, we
1024 	 * must rele our hold on nvp.
1025 	 */
1026 	error = sdev_rnmnode(fromparent, fromdv, toparent, &todv, nnm, cred);
1027 	if (nvp != NULL)
1028 		VN_RELE(nvp);
1029 	if (error) {
1030 		sdcmn_err2(("sdev_rename: renaming %s to %s failed "
1031 		    " with error %d\n", onm, nnm, error));
1032 		mutex_exit(&sdev_lock);
1033 		VN_RELE(ovp);
1034 		return (error);
1035 	}
1036 
1037 	/*
1038 	 * unlink from source
1039 	 */
1040 	rw_enter(&fromparent->sdev_contents, RW_READER);
1041 	fromdv = sdev_cache_lookup(fromparent, onm);
1042 	if (fromdv == NULL) {
1043 		rw_exit(&fromparent->sdev_contents);
1044 		mutex_exit(&sdev_lock);
1045 		VN_RELE(ovp);
1046 		sdcmn_err2(("sdev_rename: the source is deleted already\n"));
1047 		return (0);
1048 	}
1049 
1050 	if (fromdv->sdev_state == SDEV_ZOMBIE) {
1051 		rw_exit(&fromparent->sdev_contents);
1052 		mutex_exit(&sdev_lock);
1053 		VN_RELE(SDEVTOV(fromdv));
1054 		VN_RELE(ovp);
1055 		sdcmn_err2(("sdev_rename: the source is being deleted\n"));
1056 		return (0);
1057 	}
1058 	rw_exit(&fromparent->sdev_contents);
1059 	ASSERT(SDEVTOV(fromdv) == ovp);
1060 	VN_RELE(ovp);
1061 
1062 	/* clean out the directory contents before it can be removed */
1063 	type = SDEVTOV(fromdv)->v_type;
1064 	if (type == VDIR) {
1065 		error = sdev_cleandir(fromdv, NULL, 0);
1066 		sdcmn_err2(("sdev_rename: cleandir finished with %d\n",
1067 		    error));
1068 		if (error == EBUSY)
1069 			error = 0;
1070 	}
1071 
1072 	rw_enter(&fromparent->sdev_contents, RW_WRITER);
1073 	bkstore = SDEV_IS_PERSIST(fromdv) ? 1 : 0;
1074 	sdev_cache_update(fromparent, &fromdv, onm,
1075 	    SDEV_CACHE_DELETE);
1076 	VN_RELE(SDEVTOV(fromdv));
1077 
1078 	/* best effforts clean up the backing store */
1079 	if (bkstore) {
1080 		ASSERT(fromparent->sdev_attrvp);
1081 		if (type != VDIR) {
1082 /* XXXci - We may need to translate the C-I flags on VOP_REMOVE */
1083 			error = VOP_REMOVE(fromparent->sdev_attrvp,
1084 			    onm, kcred, ct, 0);
1085 		} else {
1086 /* XXXci - We may need to translate the C-I flags on VOP_RMDIR */
1087 			error = VOP_RMDIR(fromparent->sdev_attrvp,
1088 			    onm, fromparent->sdev_attrvp, kcred, ct, 0);
1089 		}
1090 
1091 		if (error) {
1092 			sdcmn_err2(("sdev_rename: device %s is "
1093 			    "still on disk %s\n", onm,
1094 			    fromparent->sdev_path));
1095 			error = 0;
1096 		}
1097 	}
1098 	rw_exit(&fromparent->sdev_contents);
1099 	mutex_exit(&sdev_lock);
1100 
1101 	/* once reached to this point, the rename is regarded successful */
1102 	return (0);
1103 }
1104 
1105 /*
1106  * dev-fs version of "ln -s path dev-name"
1107  *	tnm - path, e.g. /devices/... or /dev/...
1108  *	lnm - dev_name
1109  */
1110 /*ARGSUSED6*/
1111 static int
1112 sdev_symlink(struct vnode *dvp, char *lnm, struct vattr *tva,
1113     char *tnm, struct cred *cred, caller_context_t *ct, int flags)
1114 {
1115 	int error;
1116 	struct vnode *vp = NULL;
1117 	struct sdev_node *parent = (struct sdev_node *)VTOSDEV(dvp);
1118 	struct sdev_node *self = (struct sdev_node *)NULL;
1119 
1120 	ASSERT(parent);
1121 	rw_enter(&parent->sdev_dotdot->sdev_contents, RW_READER);
1122 	if (parent->sdev_state == SDEV_ZOMBIE) {
1123 		rw_exit(&parent->sdev_dotdot->sdev_contents);
1124 		sdcmn_err2(("sdev_symlink: parent %s is ZOMBIED \n",
1125 		    parent->sdev_name));
1126 		return (ENOENT);
1127 	}
1128 
1129 	if (!SDEV_IS_GLOBAL(parent)) {
1130 		rw_exit(&parent->sdev_dotdot->sdev_contents);
1131 		return (ENOTSUP);
1132 	}
1133 	rw_exit(&parent->sdev_dotdot->sdev_contents);
1134 
1135 	/* execute access is required to search a directory */
1136 	if ((error = VOP_ACCESS(dvp, VEXEC, 0, cred, ct)) != 0)
1137 		return (error);
1138 
1139 	/* find existing name */
1140 /* XXXci - We may need to translate the C-I flags here */
1141 	error = VOP_LOOKUP(dvp, lnm, &vp, NULL, 0, NULL, cred, ct, NULL, NULL);
1142 	if (error == 0) {
1143 		ASSERT(vp);
1144 		VN_RELE(vp);
1145 		sdcmn_err2(("sdev_symlink: node %s already exists\n", lnm));
1146 		return (EEXIST);
1147 	}
1148 	if (error != ENOENT)
1149 		return (error);
1150 
1151 	/* write access is required to create a symlink */
1152 	if ((error = VOP_ACCESS(dvp, VWRITE, 0, cred, ct)) != 0)
1153 		return (error);
1154 
1155 	/* put it into memory cache */
1156 	rw_enter(&parent->sdev_contents, RW_WRITER);
1157 	error = sdev_mknode(parent, lnm, &self, tva, NULL, (void *)tnm,
1158 	    cred, SDEV_READY);
1159 	if (error) {
1160 		rw_exit(&parent->sdev_contents);
1161 		sdcmn_err2(("sdev_symlink: node %s creation failed\n", lnm));
1162 		if (self)
1163 			SDEV_RELE(self);
1164 
1165 		return (error);
1166 	}
1167 	ASSERT(self && (self->sdev_state == SDEV_READY));
1168 	rw_exit(&parent->sdev_contents);
1169 
1170 	/* take care the timestamps for the node and its parent */
1171 	sdev_update_timestamps(SDEVTOV(self), kcred,
1172 	    AT_CTIME|AT_MTIME|AT_ATIME);
1173 	sdev_update_timestamps(dvp, kcred, AT_MTIME|AT_ATIME);
1174 	if (SDEV_IS_GLOBAL(parent))
1175 		atomic_inc_ulong(&parent->sdev_gdir_gen);
1176 
1177 	/* wake up other threads blocked on looking up this node */
1178 	mutex_enter(&self->sdev_lookup_lock);
1179 	SDEV_UNBLOCK_OTHERS(self, SDEV_LOOKUP);
1180 	mutex_exit(&self->sdev_lookup_lock);
1181 	SDEV_RELE(self);	/* don't return with vnode held */
1182 	return (0);
1183 }
1184 
1185 /*ARGSUSED6*/
1186 static int
1187 sdev_mkdir(struct vnode *dvp, char *nm, struct vattr *va, struct vnode **vpp,
1188     struct cred *cred, caller_context_t *ct, int flags, vsecattr_t *vsecp)
1189 {
1190 	int error;
1191 	struct sdev_node *parent = (struct sdev_node *)VTOSDEV(dvp);
1192 	struct sdev_node *self = NULL;
1193 	struct vnode	*vp = NULL;
1194 
1195 	ASSERT(parent && parent->sdev_dotdot);
1196 	rw_enter(&parent->sdev_dotdot->sdev_contents, RW_READER);
1197 	if (parent->sdev_state == SDEV_ZOMBIE) {
1198 		rw_exit(&parent->sdev_dotdot->sdev_contents);
1199 		return (ENOENT);
1200 	}
1201 
1202 	/* non-global do not allow pure directory creation */
1203 	if (!SDEV_IS_GLOBAL(parent)) {
1204 		rw_exit(&parent->sdev_dotdot->sdev_contents);
1205 		return (prof_lookup(dvp, nm, vpp, cred));
1206 	}
1207 	rw_exit(&parent->sdev_dotdot->sdev_contents);
1208 
1209 	/* execute access is required to search the directory */
1210 	if ((error = VOP_ACCESS(dvp, VEXEC, 0, cred, ct)) != 0) {
1211 		return (error);
1212 	}
1213 
1214 	/* find existing name */
1215 /* XXXci - We may need to translate the C-I flags on VOP_LOOKUP */
1216 	error = VOP_LOOKUP(dvp, nm, &vp, NULL, 0, NULL, cred, ct, NULL, NULL);
1217 	if (error == 0) {
1218 		VN_RELE(vp);
1219 		return (EEXIST);
1220 	}
1221 	if (error != ENOENT)
1222 		return (error);
1223 
1224 	/* require write access to create a directory */
1225 	if ((error = VOP_ACCESS(dvp, VWRITE, 0, cred, ct)) != 0) {
1226 		return (error);
1227 	}
1228 
1229 	/* put it into memory */
1230 	rw_enter(&parent->sdev_contents, RW_WRITER);
1231 	error = sdev_mknode(parent, nm, &self,
1232 	    va, NULL, NULL, cred, SDEV_READY);
1233 	if (error) {
1234 		rw_exit(&parent->sdev_contents);
1235 		if (self)
1236 			SDEV_RELE(self);
1237 		return (error);
1238 	}
1239 	ASSERT(self && (self->sdev_state == SDEV_READY));
1240 	rw_exit(&parent->sdev_contents);
1241 
1242 	/* take care the timestamps for the node and its parent */
1243 	sdev_update_timestamps(SDEVTOV(self), kcred,
1244 	    AT_CTIME|AT_MTIME|AT_ATIME);
1245 	sdev_update_timestamps(dvp, kcred, AT_MTIME|AT_ATIME);
1246 	if (SDEV_IS_GLOBAL(parent))
1247 		atomic_inc_ulong(&parent->sdev_gdir_gen);
1248 
1249 	/* wake up other threads blocked on looking up this node */
1250 	mutex_enter(&self->sdev_lookup_lock);
1251 	SDEV_UNBLOCK_OTHERS(self, SDEV_LOOKUP);
1252 	mutex_exit(&self->sdev_lookup_lock);
1253 	*vpp = SDEVTOV(self);
1254 	return (0);
1255 }
1256 
1257 /*
1258  * allowing removing an empty directory under /dev
1259  */
1260 /*ARGSUSED*/
1261 static int
1262 sdev_rmdir(struct vnode *dvp, char *nm, struct vnode *cdir, struct cred *cred,
1263     caller_context_t *ct, int flags)
1264 {
1265 	int error = 0;
1266 	struct sdev_node *parent = (struct sdev_node *)VTOSDEV(dvp);
1267 	struct sdev_node *self = NULL;
1268 	struct vnode *vp = NULL;
1269 
1270 	/* bail out early */
1271 	if (strcmp(nm, ".") == 0)
1272 		return (EINVAL);
1273 	if (strcmp(nm, "..") == 0)
1274 		return (EEXIST); /* should be ENOTEMPTY */
1275 
1276 	/* no destruction of non-global node */
1277 	ASSERT(parent && parent->sdev_dotdot);
1278 	rw_enter(&parent->sdev_dotdot->sdev_contents, RW_READER);
1279 	if (!SDEV_IS_GLOBAL(parent)) {
1280 		rw_exit(&parent->sdev_dotdot->sdev_contents);
1281 		return (ENOTSUP);
1282 	}
1283 	rw_exit(&parent->sdev_dotdot->sdev_contents);
1284 
1285 	/* execute access is required to search the directory */
1286 	if ((error = VOP_ACCESS(dvp, VEXEC|VWRITE, 0, cred, ct)) != 0)
1287 		return (error);
1288 
1289 	/* check existing name */
1290 	rw_enter(&parent->sdev_contents, RW_WRITER);
1291 	self = sdev_cache_lookup(parent, nm);
1292 	if (self == NULL) {
1293 		rw_exit(&parent->sdev_contents);
1294 		return (ENOENT);
1295 	}
1296 
1297 	vp = SDEVTOV(self);
1298 	if ((self->sdev_state == SDEV_INIT) ||
1299 	    (self->sdev_state == SDEV_ZOMBIE)) {
1300 		rw_exit(&parent->sdev_contents);
1301 		VN_RELE(vp);
1302 		return (ENOENT);
1303 	}
1304 
1305 	/* some sanity checks */
1306 	if (vp == dvp || vp == cdir) {
1307 		rw_exit(&parent->sdev_contents);
1308 		VN_RELE(vp);
1309 		return (EINVAL);
1310 	}
1311 
1312 	if (vp->v_type != VDIR) {
1313 		rw_exit(&parent->sdev_contents);
1314 		VN_RELE(vp);
1315 		return (ENOTDIR);
1316 	}
1317 
1318 	if (vn_vfswlock(vp)) {
1319 		rw_exit(&parent->sdev_contents);
1320 		VN_RELE(vp);
1321 		return (EBUSY);
1322 	}
1323 
1324 	if (vn_mountedvfs(vp) != NULL) {
1325 		rw_exit(&parent->sdev_contents);
1326 		vn_vfsunlock(vp);
1327 		VN_RELE(vp);
1328 		return (EBUSY);
1329 	}
1330 
1331 	self = VTOSDEV(vp);
1332 	/* bail out on a non-empty directory */
1333 	rw_enter(&self->sdev_contents, RW_READER);
1334 	if (self->sdev_nlink > 2) {
1335 		rw_exit(&self->sdev_contents);
1336 		rw_exit(&parent->sdev_contents);
1337 		vn_vfsunlock(vp);
1338 		VN_RELE(vp);
1339 		return (ENOTEMPTY);
1340 	}
1341 	rw_exit(&self->sdev_contents);
1342 
1343 	/* unlink it from the directory cache */
1344 	sdev_cache_update(parent, &self, nm, SDEV_CACHE_DELETE);
1345 	rw_exit(&parent->sdev_contents);
1346 	vn_vfsunlock(vp);
1347 	VN_RELE(vp);
1348 
1349 	/* best effort to clean up the backing store */
1350 	if (SDEV_IS_PERSIST(parent)) {
1351 		ASSERT(parent->sdev_attrvp);
1352 		error = VOP_RMDIR(parent->sdev_attrvp, nm,
1353 		    parent->sdev_attrvp, kcred, ct, flags);
1354 
1355 		if (error)
1356 			sdcmn_err2(("sdev_rmdir: cleaning device %s is on"
1357 			    " disk error %d\n", parent->sdev_path, error));
1358 		if (error == EBUSY)
1359 			error = 0;
1360 
1361 	}
1362 
1363 	return (error);
1364 }
1365 
1366 /*
1367  * read the contents of a symbolic link
1368  */
1369 static int
1370 sdev_readlink(struct vnode *vp, struct uio *uiop, struct cred *cred,
1371     caller_context_t *ct)
1372 {
1373 	struct sdev_node *dv;
1374 	int	error = 0;
1375 
1376 	ASSERT(vp->v_type == VLNK);
1377 
1378 	dv = VTOSDEV(vp);
1379 
1380 	if (dv->sdev_attrvp) {
1381 		/* non-NULL attrvp implys a persisted node at READY state */
1382 		return (VOP_READLINK(dv->sdev_attrvp, uiop, cred, ct));
1383 	} else if (dv->sdev_symlink != NULL) {
1384 		/* memory nodes, e.g. local nodes */
1385 		rw_enter(&dv->sdev_contents, RW_READER);
1386 		sdcmn_err2(("sdev_readlink link is %s\n", dv->sdev_symlink));
1387 		error = uiomove(dv->sdev_symlink, strlen(dv->sdev_symlink),
1388 		    UIO_READ, uiop);
1389 		rw_exit(&dv->sdev_contents);
1390 		return (error);
1391 	}
1392 
1393 	return (ENOENT);
1394 }
1395 
1396 /*ARGSUSED4*/
1397 static int
1398 sdev_readdir(struct vnode *dvp, struct uio *uiop, struct cred *cred, int *eofp,
1399     caller_context_t *ct, int flags)
1400 {
1401 	struct sdev_node *parent = VTOSDEV(dvp);
1402 	int error;
1403 
1404 	/*
1405 	 * We must check that we have execute access to search the directory --
1406 	 * but because our sdev_contents lock is already held as a reader (the
1407 	 * caller must have done a VOP_RWLOCK()), we call directly into the
1408 	 * underlying access routine if sdev_attr is non-NULL.
1409 	 */
1410 	if (parent->sdev_attr != NULL) {
1411 		VERIFY(RW_READ_HELD(&parent->sdev_contents));
1412 
1413 		if (sdev_unlocked_access(parent, VEXEC, cred) != 0)
1414 			return (EACCES);
1415 	} else {
1416 		if ((error = VOP_ACCESS(dvp, VEXEC, 0, cred, ct)) != 0)
1417 			return (error);
1418 	}
1419 
1420 	ASSERT(parent);
1421 	if (!SDEV_IS_GLOBAL(parent))
1422 		prof_filldir(parent);
1423 	return (devname_readdir_func(dvp, uiop, cred, eofp, SDEV_BROWSE));
1424 }
1425 
1426 /*ARGSUSED1*/
1427 static void
1428 sdev_inactive(struct vnode *vp, struct cred *cred, caller_context_t *ct)
1429 {
1430 	devname_inactive_func(vp, cred, NULL);
1431 }
1432 
1433 /*ARGSUSED2*/
1434 static int
1435 sdev_fid(struct vnode *vp, struct fid *fidp, caller_context_t *ct)
1436 {
1437 	struct sdev_node	*dv = VTOSDEV(vp);
1438 	struct sdev_fid	*sdev_fid;
1439 
1440 	if (fidp->fid_len < (sizeof (struct sdev_fid) - sizeof (ushort_t))) {
1441 		fidp->fid_len = sizeof (struct sdev_fid) - sizeof (ushort_t);
1442 		return (ENOSPC);
1443 	}
1444 
1445 	sdev_fid = (struct sdev_fid *)fidp;
1446 	bzero(sdev_fid, sizeof (struct sdev_fid));
1447 	sdev_fid->sdevfid_len =
1448 	    (int)sizeof (struct sdev_fid) - sizeof (ushort_t);
1449 	sdev_fid->sdevfid_ino = dv->sdev_ino;
1450 
1451 	return (0);
1452 }
1453 
1454 /*
1455  * This pair of routines bracket all VOP_READ, VOP_WRITE
1456  * and VOP_READDIR requests.  The contents lock stops things
1457  * moving around while we're looking at them.
1458  */
1459 /*ARGSUSED2*/
1460 static int
1461 sdev_rwlock(struct vnode *vp, int write_flag, caller_context_t *ctp)
1462 {
1463 	rw_enter(&VTOSDEV(vp)->sdev_contents,
1464 	    write_flag ? RW_WRITER : RW_READER);
1465 	return (write_flag ? V_WRITELOCK_TRUE : V_WRITELOCK_FALSE);
1466 }
1467 
1468 /*ARGSUSED1*/
1469 static void
1470 sdev_rwunlock(struct vnode *vp, int write_flag, caller_context_t *ctp)
1471 {
1472 	rw_exit(&VTOSDEV(vp)->sdev_contents);
1473 }
1474 
1475 /*ARGSUSED1*/
1476 static int
1477 sdev_seek(struct vnode *vp, offset_t ooff, offset_t *noffp,
1478     caller_context_t *ct)
1479 {
1480 	struct vnode *attrvp = VTOSDEV(vp)->sdev_attrvp;
1481 
1482 	ASSERT(vp->v_type != VCHR &&
1483 	    vp->v_type != VBLK && vp->v_type != VLNK);
1484 
1485 	if (vp->v_type == VDIR)
1486 		return (fs_seek(vp, ooff, noffp, ct));
1487 
1488 	ASSERT(attrvp);
1489 	return (VOP_SEEK(attrvp, ooff, noffp, ct));
1490 }
1491 
1492 /*ARGSUSED1*/
1493 static int
1494 sdev_frlock(struct vnode *vp, int cmd, struct flock64 *bfp, int flag,
1495     offset_t offset, struct flk_callback *flk_cbp, struct cred *cr,
1496     caller_context_t *ct)
1497 {
1498 	int error;
1499 	struct sdev_node *dv = VTOSDEV(vp);
1500 
1501 	ASSERT(dv);
1502 	ASSERT(dv->sdev_attrvp);
1503 	error = VOP_FRLOCK(dv->sdev_attrvp, cmd, bfp, flag, offset,
1504 	    flk_cbp, cr, ct);
1505 
1506 	return (error);
1507 }
1508 
1509 static int
1510 sdev_pathconf(vnode_t *vp, int cmd, ulong_t *valp, cred_t *cr,
1511     caller_context_t *ct)
1512 {
1513 	switch (cmd) {
1514 	case _PC_ACL_ENABLED:
1515 		*valp = SDEV_ACL_FLAVOR(vp);
1516 		return (0);
1517 	}
1518 
1519 	return (fs_pathconf(vp, cmd, valp, cr, ct));
1520 }
1521 
1522 vnodeops_t *sdev_vnodeops;
1523 
1524 const fs_operation_def_t sdev_vnodeops_tbl[] = {
1525 	VOPNAME_OPEN,		{ .vop_open = sdev_open },
1526 	VOPNAME_CLOSE,		{ .vop_close = sdev_close },
1527 	VOPNAME_READ,		{ .vop_read = sdev_read },
1528 	VOPNAME_WRITE,		{ .vop_write = sdev_write },
1529 	VOPNAME_IOCTL,		{ .vop_ioctl = sdev_ioctl },
1530 	VOPNAME_GETATTR,	{ .vop_getattr = sdev_getattr },
1531 	VOPNAME_SETATTR,	{ .vop_setattr = sdev_setattr },
1532 	VOPNAME_ACCESS,		{ .vop_access = sdev_access },
1533 	VOPNAME_LOOKUP,		{ .vop_lookup = sdev_lookup },
1534 	VOPNAME_CREATE,		{ .vop_create = sdev_create },
1535 	VOPNAME_RENAME,		{ .vop_rename = sdev_rename },
1536 	VOPNAME_REMOVE,		{ .vop_remove = sdev_remove },
1537 	VOPNAME_MKDIR,		{ .vop_mkdir = sdev_mkdir },
1538 	VOPNAME_RMDIR,		{ .vop_rmdir = sdev_rmdir },
1539 	VOPNAME_READDIR,	{ .vop_readdir = sdev_readdir },
1540 	VOPNAME_SYMLINK,	{ .vop_symlink = sdev_symlink },
1541 	VOPNAME_READLINK,	{ .vop_readlink = sdev_readlink },
1542 	VOPNAME_INACTIVE,	{ .vop_inactive = sdev_inactive },
1543 	VOPNAME_FID,		{ .vop_fid = sdev_fid },
1544 	VOPNAME_RWLOCK,		{ .vop_rwlock = sdev_rwlock },
1545 	VOPNAME_RWUNLOCK,	{ .vop_rwunlock = sdev_rwunlock },
1546 	VOPNAME_SEEK,		{ .vop_seek = sdev_seek },
1547 	VOPNAME_FRLOCK,		{ .vop_frlock = sdev_frlock },
1548 	VOPNAME_PATHCONF,	{ .vop_pathconf = sdev_pathconf },
1549 	VOPNAME_SETSECATTR,	{ .vop_setsecattr = sdev_setsecattr },
1550 	VOPNAME_GETSECATTR,	{ .vop_getsecattr = sdev_getsecattr },
1551 	NULL,			NULL
1552 };
1553 
1554 int sdev_vnodeops_tbl_size = sizeof (sdev_vnodeops_tbl);
1555