xref: /illumos-gate/usr/src/uts/common/sys/vnode.h (revision 9164a50bf932130cbb5097a16f6986873ce0e6e5)
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 /*
23  * Copyright (c) 1988, 2010, Oracle and/or its affiliates. All rights reserved.
24  * Copyright (c) 2018, Joyent, Inc.
25  * Copyright (c) 2011, 2017 by Delphix. All rights reserved.
26  * Copyright 2016-2024 RackTop Systems, Inc.
27  */
28 
29 /*	Copyright (c) 1983, 1984, 1985, 1986, 1987, 1988, 1989 AT&T	*/
30 /*	  All Rights Reserved	*/
31 
32 /*
33  * University Copyright- Copyright (c) 1982, 1986, 1988
34  * The Regents of the University of California
35  * All Rights Reserved
36  *
37  * University Acknowledgment- Portions of this document are derived from
38  * software developed by the University of California, Berkeley, and its
39  * contributors.
40  */
41 
42 #ifndef _SYS_VNODE_H
43 #define	_SYS_VNODE_H
44 
45 #include <sys/types.h>
46 #include <sys/t_lock.h>
47 #include <sys/rwstlock.h>
48 #include <sys/time_impl.h>
49 #include <sys/cred.h>
50 #include <sys/uio.h>
51 #include <sys/resource.h>
52 #include <vm/seg_enum.h>
53 #include <sys/kstat.h>
54 #include <sys/kmem.h>
55 #include <sys/list.h>
56 #if defined(_KERNEL) || defined(_FAKE_KERNEL)
57 #include <sys/buf.h>
58 #include <sys/sdt.h>
59 #endif	/* _KERNEL || _FAKE_KERNEL */
60 
61 #ifdef	__cplusplus
62 extern "C" {
63 #endif
64 
65 /*
66  * Statistics for all vnode operations.
67  * All operations record number of ops (since boot/mount/zero'ed).
68  * Certain I/O operations (read, write, readdir) also record number
69  * of bytes transferred.
70  * This appears in two places in the system: one is embedded in each
71  * vfs_t.  There is also an array of vopstats_t structures allocated
72  * on a per-fstype basis.
73  */
74 
75 #define	VOPSTATS_STR	"vopstats_"	/* Initial string for vopstat kstats */
76 
77 typedef struct vopstats {
78 	kstat_named_t	nopen;		/* VOP_OPEN */
79 	kstat_named_t	nclose;		/* VOP_CLOSE */
80 	kstat_named_t	nread;		/* VOP_READ */
81 	kstat_named_t	read_bytes;
82 	kstat_named_t	nwrite;		/* VOP_WRITE */
83 	kstat_named_t	write_bytes;
84 	kstat_named_t	nioctl;		/* VOP_IOCTL */
85 	kstat_named_t	nsetfl;		/* VOP_SETFL */
86 	kstat_named_t	ngetattr;	/* VOP_GETATTR */
87 	kstat_named_t	nsetattr;	/* VOP_SETATTR */
88 	kstat_named_t	naccess;	/* VOP_ACCESS */
89 	kstat_named_t	nlookup;	/* VOP_LOOKUP */
90 	kstat_named_t	ncreate;	/* VOP_CREATE */
91 	kstat_named_t	nremove;	/* VOP_REMOVE */
92 	kstat_named_t	nlink;		/* VOP_LINK */
93 	kstat_named_t	nrename;	/* VOP_RENAME */
94 	kstat_named_t	nmkdir;		/* VOP_MKDIR */
95 	kstat_named_t	nrmdir;		/* VOP_RMDIR */
96 	kstat_named_t	nreaddir;	/* VOP_READDIR */
97 	kstat_named_t	readdir_bytes;
98 	kstat_named_t	nsymlink;	/* VOP_SYMLINK */
99 	kstat_named_t	nreadlink;	/* VOP_READLINK */
100 	kstat_named_t	nfsync;		/* VOP_FSYNC */
101 	kstat_named_t	ninactive;	/* VOP_INACTIVE */
102 	kstat_named_t	nfid;		/* VOP_FID */
103 	kstat_named_t	nrwlock;	/* VOP_RWLOCK */
104 	kstat_named_t	nrwunlock;	/* VOP_RWUNLOCK */
105 	kstat_named_t	nseek;		/* VOP_SEEK */
106 	kstat_named_t	ncmp;		/* VOP_CMP */
107 	kstat_named_t	nfrlock;	/* VOP_FRLOCK */
108 	kstat_named_t	nspace;		/* VOP_SPACE */
109 	kstat_named_t	nrealvp;	/* VOP_REALVP */
110 	kstat_named_t	ngetpage;	/* VOP_GETPAGE */
111 	kstat_named_t	nputpage;	/* VOP_PUTPAGE */
112 	kstat_named_t	nmap;		/* VOP_MAP */
113 	kstat_named_t	naddmap;	/* VOP_ADDMAP */
114 	kstat_named_t	ndelmap;	/* VOP_DELMAP */
115 	kstat_named_t	npoll;		/* VOP_POLL */
116 	kstat_named_t	ndump;		/* VOP_DUMP */
117 	kstat_named_t	npathconf;	/* VOP_PATHCONF */
118 	kstat_named_t	npageio;	/* VOP_PAGEIO */
119 	kstat_named_t	ndumpctl;	/* VOP_DUMPCTL */
120 	kstat_named_t	ndispose;	/* VOP_DISPOSE */
121 	kstat_named_t	nsetsecattr;	/* VOP_SETSECATTR */
122 	kstat_named_t	ngetsecattr;	/* VOP_GETSECATTR */
123 	kstat_named_t	nshrlock;	/* VOP_SHRLOCK */
124 	kstat_named_t	nvnevent;	/* VOP_VNEVENT */
125 	kstat_named_t	nreqzcbuf;	/* VOP_REQZCBUF */
126 	kstat_named_t	nretzcbuf;	/* VOP_RETZCBUF */
127 } vopstats_t;
128 
129 /*
130  * The vnode is the focus of all file activity in UNIX.
131  * A vnode is allocated for each active file, each current
132  * directory, each mounted-on file, and the root.
133  *
134  * Each vnode is usually associated with a file-system-specific node (for
135  * UFS, this is the in-memory inode).  Generally, a vnode and an fs-node
136  * should be created and destroyed together as a pair.
137  *
138  * If a vnode is reused for a new file, it should be reinitialized by calling
139  * either vn_reinit() or vn_recycle().
140  *
141  * vn_reinit() resets the entire vnode as if it was returned by vn_alloc().
142  * The caller is responsible for setting up the entire vnode after calling
143  * vn_reinit().  This is important when using kmem caching where the vnode is
144  * allocated by a constructor, for instance.
145  *
146  * vn_recycle() is used when the file system keeps some state around in both
147  * the vnode and the associated FS-node.  In UFS, for example, the inode of
148  * a deleted file can be reused immediately.  The v_data, v_vfsp, v_op, etc.
149  * remains the same but certain fields related to the previous instance need
150  * to be reset.  In particular:
151  *	v_femhead
152  *	v_path
153  *	v_rdcnt, v_wrcnt
154  *	v_mmap_read, v_mmap_write
155  */
156 
157 /*
158  * vnode types.  VNON means no type.  These values are unrelated to
159  * values in on-disk inodes.
160  */
161 typedef enum vtype {
162 	VNON	= 0,
163 	VREG	= 1,
164 	VDIR	= 2,
165 	VBLK	= 3,
166 	VCHR	= 4,
167 	VLNK	= 5,
168 	VFIFO	= 6,
169 	VDOOR	= 7,
170 	VPROC	= 8,
171 	VSOCK	= 9,
172 	VPORT	= 10,
173 	VBAD	= 11
174 } vtype_t;
175 
176 /*
177  * VSD - Vnode Specific Data
178  * Used to associate additional private data with a vnode.
179  */
180 struct vsd_node {
181 	list_node_t vs_nodes;		/* list of all VSD nodes */
182 	uint_t vs_nkeys;		/* entries in value array */
183 	void **vs_value;		/* array of value/key */
184 };
185 
186 /*
187  * Many of the fields in the vnode are read-only once they are initialized
188  * at vnode creation time.  Other fields are protected by locks.
189  *
190  * IMPORTANT: vnodes should be created ONLY by calls to vn_alloc().  They
191  * may not be embedded into the file-system specific node (inode).  The
192  * size of vnodes may change.
193  *
194  * The v_lock protects:
195  *   v_flag
196  *   v_stream
197  *   v_count
198  *   v_shrlocks
199  *   v_path
200  *   v_vsd
201  *   v_xattrdir
202  *
203  * A special lock (implemented by vn_vfswlock in vnode.c) protects:
204  *   v_vfsmountedhere
205  *
206  * The global flock_lock mutex (in flock.c) protects:
207  *   v_filocks
208  *
209  * IMPORTANT NOTE:
210  *
211  *   The following vnode fields are considered public and may safely be
212  *   accessed by file systems or other consumers:
213  *
214  *     v_lock
215  *     v_flag
216  *     v_count
217  *     v_data
218  *     v_vfsp
219  *     v_stream
220  *     v_type
221  *     v_rdev
222  *
223  * ALL OTHER FIELDS SHOULD BE ACCESSED ONLY BY THE OWNER OF THAT FIELD.
224  * In particular, file systems should not access other fields; they may
225  * change or even be removed.  The functionality which was once provided
226  * by these fields is available through vn_* functions.
227  *
228  * VNODE PATH THEORY:
229  * In each vnode, the v_path field holds a cached version of the canonical
230  * filesystem path which that node represents.  Because vnodes lack contextual
231  * information about their own name or position in the VFS hierarchy, this path
232  * must be calculated when the vnode is instantiated by operations such as
233  * fop_create, fop_lookup, or fop_mkdir.  During said operations, both the
234  * parent vnode (and its cached v_path) and future name are known, so the
235  * v_path of the resulting object can easily be set.
236  *
237  * The caching nature of v_path is complicated in the face of directory
238  * renames.  Filesystem drivers are responsible for calling vn_renamepath when
239  * a fop_rename operation succeeds.  While the v_path on the renamed vnode will
240  * be updated, existing children of the directory (direct, or at deeper levels)
241  * will now possess v_path caches which are stale.
242  *
243  * It is expensive (and for non-directories, impossible) to recalculate stale
244  * v_path entries during operations such as vnodetopath.  The best time during
245  * which to correct such wrongs is the same as when v_path is first
246  * initialized: during fop_create/fop_lookup/fop_mkdir/etc, where adequate
247  * context is available to generate the current path.
248  *
249  * In order to quickly detect stale v_path entries (without full lookup
250  * verification) to trigger a v_path update, the v_path_stamp field has been
251  * added to vnode_t.  As part of successful fop_create/fop_lookup/fop_mkdir
252  * operations, where the name and parent vnode are available, the following
253  * rules are used to determine updates to the child:
254  *
255  * 1. If the parent lacks a v_path, clear any existing v_path and v_path_stamp
256  *    on the child.  Until the parent v_path is refreshed to a valid state, the
257  *    child v_path must be considered invalid too.
258  *
259  * 2. If the child lacks a v_path (implying v_path_stamp == 0), it inherits the
260  *    v_path_stamp value from its parent and its v_path is updated.
261  *
262  * 3. If the child v_path_stamp is less than v_path_stamp in the parent, it is
263  *    an indication that the child v_path is stale.  The v_path is updated and
264  *    v_path_stamp in the child is set to the current hrtime().
265  *
266  *    It does _not_ inherit the parent v_path_stamp in order to propagate the
267  *    the time of v_path invalidation through the directory structure.  This
268  *    prevents concurrent invalidations (operating with a now-incorrect v_path)
269  *    at deeper levels in the tree from persisting.
270  *
271  * 4. If the child v_path_stamp is greater or equal to the parent, no action
272  *    needs to be taken.
273  *
274  * Note that fop_rename operations do not follow this ruleset.  They perform an
275  * explicit update of v_path and v_path_stamp (setting it to the current time)
276  *
277  * With these constraints in place, v_path invalidations and updates should
278  * proceed in a timely manner as vnodes are accessed.  While there still are
279  * limited cases where vnodetopath operations will fail, the risk is minimized.
280  */
281 
282 struct fem_head;	/* from fem.h */
283 
284 typedef struct vnode {
285 	kmutex_t	v_lock;		/* protects vnode fields */
286 	uint_t		v_flag;		/* vnode flags (see below) */
287 	uint_t		v_count;	/* reference count */
288 	void		*v_data;	/* private data for fs */
289 	struct vfs	*v_vfsp;	/* ptr to containing VFS */
290 	struct stdata	*v_stream;	/* associated stream */
291 	enum vtype	v_type;		/* vnode type */
292 	dev_t		v_rdev;		/* device (VCHR, VBLK) */
293 
294 	/* PRIVATE FIELDS BELOW - DO NOT USE */
295 
296 	struct vfs	*v_vfsmountedhere; /* ptr to vfs mounted here */
297 	struct vnodeops	*v_op;		/* vnode operations */
298 	struct page	*v_pages;	/* vnode pages list */
299 	struct filock	*v_filocks;	/* ptr to filock list */
300 	struct shrlocklist *v_shrlocks;	/* ptr to shrlock list */
301 	krwlock_t	v_nbllock;	/* sync for NBMAND locks */
302 	kcondvar_t	v_cv;		/* synchronize locking */
303 	void		*v_locality;	/* hook for locality info */
304 	struct fem_head	*v_femhead;	/* fs monitoring */
305 	char		*v_path;	/* cached path */
306 	hrtime_t	v_path_stamp;	/* timestamp for cached path */
307 	uint_t		v_rdcnt;	/* open for read count  (VREG only) */
308 	uint_t		v_wrcnt;	/* open for write count (VREG only) */
309 	u_longlong_t	v_mmap_read;	/* mmap read count */
310 	u_longlong_t	v_mmap_write;	/* mmap write count */
311 	void		*v_mpssdata;	/* info for large page mappings */
312 	void		*v_fopdata;	/* list of file ops event watches */
313 	kmutex_t	v_vsd_lock;	/* protects v_vsd field */
314 	struct vsd_node *v_vsd;		/* vnode specific data */
315 	struct vnode	*v_xattrdir;	/* unnamed extended attr dir (GFS) */
316 	uint_t		v_count_dnlc;	/* dnlc reference count */
317 } vnode_t;
318 
319 #define	IS_DEVVP(vp)	\
320 	((vp)->v_type == VCHR || (vp)->v_type == VBLK || (vp)->v_type == VFIFO)
321 
322 #define	VNODE_ALIGN	64
323 /* Count of low-order 0 bits in a vnode *, based on size and alignment. */
324 #if defined(_LP64)
325 #define	VNODE_ALIGN_LOG2	8
326 #else
327 #define	VNODE_ALIGN_LOG2	7
328 #endif
329 
330 /*
331  * vnode flags.
332  */
333 #define	VROOT		0x01	/* root of its file system */
334 #define	VNOCACHE	0x02	/* don't keep cache pages on vnode */
335 #define	VNOMAP		0x04	/* file cannot be mapped/faulted */
336 #define	VDUP		0x08	/* file should be dup'ed rather then opened */
337 #define	VNOSWAP		0x10	/* file cannot be used as virtual swap device */
338 #define	VNOMOUNT	0x20	/* file cannot be covered by mount */
339 #define	VISSWAP		0x40	/* vnode is being used for swap */
340 #define	VSWAPLIKE	0x80	/* vnode acts like swap (but may not be) */
341 
342 #define	IS_SWAPVP(vp)	(((vp)->v_flag & (VISSWAP | VSWAPLIKE)) != 0)
343 
344 #ifdef _KERNEL
345 typedef struct vn_vfslocks_entry {
346 	rwstlock_t ve_lock;
347 	void *ve_vpvfs;
348 	struct vn_vfslocks_entry *ve_next;
349 	uint32_t ve_refcnt;
350 	char pad[64 - sizeof (rwstlock_t) - 2 * sizeof (void *) - \
351 	    sizeof (uint32_t)];
352 } vn_vfslocks_entry_t;
353 #endif
354 
355 /*
356  * The following two flags are used to lock the v_vfsmountedhere field
357  */
358 #define	VVFSLOCK	0x100
359 #define	VVFSWAIT	0x200
360 
361 /*
362  * Used to serialize VM operations on a vnode
363  */
364 #define	VVMLOCK		0x400
365 
366 /*
367  * Tell vn_open() not to fail a directory open for writing but
368  * to go ahead and call VOP_OPEN() to let the filesystem check.
369  */
370 #define	VDIROPEN	0x800
371 
372 /*
373  * Flag to let the VM system know that this file is most likely a binary
374  * or shared library since it has been mmap()ed EXEC at some time.
375  */
376 #define	VVMEXEC		0x1000
377 
378 #define	VPXFS		0x2000  /* clustering: global fs proxy vnode */
379 
380 #define	IS_PXFSVP(vp)	((vp)->v_flag & VPXFS)
381 
382 #define	V_XATTRDIR	0x4000	/* attribute unnamed directory */
383 
384 #define	IS_XATTRDIR(vp)	((vp)->v_flag & V_XATTRDIR)
385 
386 #define	V_LOCALITY	0x8000	/* whether locality aware */
387 
388 /*
389  * Flag that indicates the VM should maintain the v_pages list with all modified
390  * pages on one end and unmodified pages at the other. This makes finding dirty
391  * pages to write back to disk much faster at the expense of taking a minor
392  * fault on the first store instruction which touches a writable page.
393  */
394 #define	VMODSORT	(0x10000)
395 #define	IS_VMODSORT(vp) \
396 	(pvn_vmodsort_supported != 0 && ((vp)->v_flag  & VMODSORT) != 0)
397 
398 #define	VISSWAPFS	0x20000	/* vnode is being used for swapfs */
399 
400 /*
401  * The mdb memstat command assumes that IS_SWAPFSVP only uses the
402  * vnode's v_flag field.  If this changes, cache the additional
403  * fields in mdb; see vn_get in mdb/common/modules/genunix/memory.c
404  */
405 #define	IS_SWAPFSVP(vp)	(((vp)->v_flag & VISSWAPFS) != 0)
406 
407 #define	V_SYSATTR	0x40000	/* vnode is a GFS system attribute */
408 
409 /*
410  * Indication that VOP_LOOKUP operations on this vnode may yield results from a
411  * different VFS instance.  The main use of this is to suppress v_path
412  * calculation logic when filesystems such as procfs emit results which defy
413  * expectations about normal VFS behavior.
414  */
415 #define	VTRAVERSE	0x80000
416 
417 /*
418  * Vnode attributes.  A bit-mask is supplied as part of the
419  * structure to indicate the attributes the caller wants to
420  * set (setattr) or extract (getattr).
421  */
422 
423 /*
424  * Note that va_nodeid and va_nblocks are 64bit data type.
425  * We support large files over NFSV3. With Solaris client and
426  * Server that generates 64bit ino's and sizes these fields
427  * will overflow if they are 32 bit sizes.
428  */
429 
430 typedef struct vattr {
431 	uint_t		va_mask;	/* bit-mask of attributes */
432 	vtype_t		va_type;	/* vnode type (for create) */
433 	mode_t		va_mode;	/* file access mode */
434 	uid_t		va_uid;		/* owner user id */
435 	gid_t		va_gid;		/* owner group id */
436 	dev_t		va_fsid;	/* file system id (dev for now) */
437 	u_longlong_t	va_nodeid;	/* node id */
438 	nlink_t		va_nlink;	/* number of references to file */
439 	u_offset_t	va_size;	/* file size in bytes */
440 	timestruc_t	va_atime;	/* time of last access */
441 	timestruc_t	va_mtime;	/* time of last modification */
442 	timestruc_t	va_ctime;	/* time of last status change */
443 	dev_t		va_rdev;	/* device the file represents */
444 	uint_t		va_blksize;	/* fundamental block size */
445 	u_longlong_t	va_nblocks;	/* # of blocks allocated */
446 	uint_t		va_seq;		/* sequence number */
447 } vattr_t;
448 
449 #define	AV_SCANSTAMP_SZ	32		/* length of anti-virus scanstamp */
450 
451 /*
452  * Structure of all optional attributes.
453  */
454 typedef struct xoptattr {
455 	timestruc_t	xoa_createtime;	/* Create time of file */
456 	uint8_t		xoa_archive;
457 	uint8_t		xoa_system;
458 	uint8_t		xoa_readonly;
459 	uint8_t		xoa_hidden;
460 	uint8_t		xoa_nounlink;
461 	uint8_t		xoa_immutable;
462 	uint8_t		xoa_appendonly;
463 	uint8_t		xoa_nodump;
464 	uint8_t		xoa_opaque;
465 	uint8_t		xoa_av_quarantined;
466 	uint8_t		xoa_av_modified;
467 	uint8_t		xoa_av_scanstamp[AV_SCANSTAMP_SZ];
468 	uint8_t		xoa_reparse;
469 	uint64_t	xoa_generation;
470 	uint8_t		xoa_offline;
471 	uint8_t		xoa_sparse;
472 	uint8_t		xoa_projinherit;
473 	uint64_t	xoa_projid;
474 } xoptattr_t;
475 
476 /*
477  * The xvattr structure is really a variable length structure that
478  * is made up of:
479  * - The classic vattr_t (xva_vattr)
480  * - a 32 bit quantity (xva_mapsize) that specifies the size of the
481  *   attribute bitmaps in 32 bit words.
482  * - A pointer to the returned attribute bitmap (needed because the
483  *   previous element, the requested attribute bitmap) is variable lenth.
484  * - The requested attribute bitmap, which is an array of 32 bit words.
485  *   Callers use the XVA_SET_REQ() macro to set the bits corresponding to
486  *   the attributes that are being requested.
487  * - The returned attribute bitmap, which is an array of 32 bit words.
488  *   File systems that support optional attributes use the XVA_SET_RTN()
489  *   macro to set the bits corresponding to the attributes that are being
490  *   returned.
491  * - The xoptattr_t structure which contains the attribute values
492  *
493  * xva_mapsize determines how many words in the attribute bitmaps.
494  * Immediately following the attribute bitmaps is the xoptattr_t.
495  * xva_getxoptattr() is used to get the pointer to the xoptattr_t
496  * section.
497  */
498 
499 #define	XVA_MAPSIZE	3		/* Size of attr bitmaps */
500 #define	XVA_MAGIC	0x78766174	/* Magic # for verification */
501 
502 /*
503  * The xvattr structure is an extensible structure which permits optional
504  * attributes to be requested/returned.  File systems may or may not support
505  * optional attributes.  They do so at their own discretion but if they do
506  * support optional attributes, they must register the VFSFT_XVATTR feature
507  * so that the optional attributes can be set/retrived.
508  *
509  * The fields of the xvattr structure are:
510  *
511  * xva_vattr - The first element of an xvattr is a legacy vattr structure
512  * which includes the common attributes.  If AT_XVATTR is set in the va_mask
513  * then the entire structure is treated as an xvattr.  If AT_XVATTR is not
514  * set, then only the xva_vattr structure can be used.
515  *
516  * xva_magic - 0x78766174 (hex for "xvat"). Magic number for verification.
517  *
518  * xva_mapsize - Size of requested and returned attribute bitmaps.
519  *
520  * xva_rtnattrmapp - Pointer to xva_rtnattrmap[].  We need this since the
521  * size of the array before it, xva_reqattrmap[], could change which means
522  * the location of xva_rtnattrmap[] could change.  This will allow unbundled
523  * file systems to find the location of xva_rtnattrmap[] when the sizes change.
524  *
525  * xva_reqattrmap[] - Array of requested attributes.  Attributes are
526  * represented by a specific bit in a specific element of the attribute
527  * map array.  Callers set the bits corresponding to the attributes
528  * that the caller wants to get/set.
529  *
530  * xva_rtnattrmap[] - Array of attributes that the file system was able to
531  * process.  Not all file systems support all optional attributes.  This map
532  * informs the caller which attributes the underlying file system was able
533  * to set/get.  (Same structure as the requested attributes array in terms
534  * of each attribute  corresponding to specific bits and array elements.)
535  *
536  * xva_xoptattrs - Structure containing values of optional attributes.
537  * These values are only valid if the corresponding bits in xva_reqattrmap
538  * are set and the underlying file system supports those attributes.
539  */
540 typedef struct xvattr {
541 	vattr_t		xva_vattr;	/* Embedded vattr structure */
542 	uint32_t	xva_magic;	/* Magic Number */
543 	uint32_t	xva_mapsize;	/* Size of attr bitmap (32-bit words) */
544 	uint32_t	*xva_rtnattrmapp;	/* Ptr to xva_rtnattrmap[] */
545 	uint32_t	xva_reqattrmap[XVA_MAPSIZE];	/* Requested attrs */
546 	uint32_t	xva_rtnattrmap[XVA_MAPSIZE];	/* Returned attrs */
547 	xoptattr_t	xva_xoptattrs;	/* Optional attributes */
548 } xvattr_t;
549 
550 #ifdef _SYSCALL32
551 /*
552  * For bigtypes time_t changed to 64 bit on the 64-bit kernel.
553  * Define an old version for user/kernel interface
554  */
555 
556 #if _LONG_LONG_ALIGNMENT == 8 && _LONG_LONG_ALIGNMENT_32 == 4
557 #pragma pack(4)
558 #endif
559 
560 typedef struct vattr32 {
561 	uint32_t	va_mask;	/* bit-mask of attributes */
562 	vtype_t		va_type;	/* vnode type (for create) */
563 	mode32_t	va_mode;	/* file access mode */
564 	uid32_t		va_uid;		/* owner user id */
565 	gid32_t		va_gid;		/* owner group id */
566 	dev32_t		va_fsid;	/* file system id (dev for now) */
567 	u_longlong_t	va_nodeid;	/* node id */
568 	nlink_t		va_nlink;	/* number of references to file */
569 	u_offset_t	va_size;	/* file size in bytes */
570 	timestruc32_t	va_atime;	/* time of last access */
571 	timestruc32_t	va_mtime;	/* time of last modification */
572 	timestruc32_t	va_ctime;	/* time of last status change */
573 	dev32_t		va_rdev;	/* device the file represents */
574 	uint32_t	va_blksize;	/* fundamental block size */
575 	u_longlong_t	va_nblocks;	/* # of blocks allocated */
576 	uint32_t	va_seq;		/* sequence number */
577 } vattr32_t;
578 
579 #if _LONG_LONG_ALIGNMENT == 8 && _LONG_LONG_ALIGNMENT_32 == 4
580 #pragma pack()
581 #endif
582 
583 #else  /* not _SYSCALL32 */
584 #define	vattr32		vattr
585 typedef vattr_t		vattr32_t;
586 #endif /* _SYSCALL32 */
587 
588 /*
589  * Attributes of interest to the caller of setattr or getattr.
590  */
591 #define	AT_TYPE		0x00001
592 #define	AT_MODE		0x00002
593 #define	AT_UID		0x00004
594 #define	AT_GID		0x00008
595 #define	AT_FSID		0x00010
596 #define	AT_NODEID	0x00020
597 #define	AT_NLINK	0x00040
598 #define	AT_SIZE		0x00080
599 #define	AT_ATIME	0x00100
600 #define	AT_MTIME	0x00200
601 #define	AT_CTIME	0x00400
602 #define	AT_RDEV		0x00800
603 #define	AT_BLKSIZE	0x01000
604 #define	AT_NBLOCKS	0x02000
605 /*			0x04000 */	/* unused */
606 #define	AT_SEQ		0x08000
607 /*
608  * If AT_XVATTR is set then there are additional bits to process in
609  * the xvattr_t's attribute bitmap.  If this is not set then the bitmap
610  * MUST be ignored.  Note that this bit must be set/cleared explicitly.
611  * That is, setting AT_ALL will NOT set AT_XVATTR.
612  */
613 #define	AT_XVATTR	0x10000
614 
615 #define	AT_ALL		(AT_TYPE|AT_MODE|AT_UID|AT_GID|AT_FSID|AT_NODEID|\
616 			AT_NLINK|AT_SIZE|AT_ATIME|AT_MTIME|AT_CTIME|\
617 			AT_RDEV|AT_BLKSIZE|AT_NBLOCKS|AT_SEQ)
618 
619 #define	AT_STAT		(AT_MODE|AT_UID|AT_GID|AT_FSID|AT_NODEID|AT_NLINK|\
620 			AT_SIZE|AT_ATIME|AT_MTIME|AT_CTIME|AT_RDEV|AT_TYPE)
621 
622 #define	AT_TIMES	(AT_ATIME|AT_MTIME|AT_CTIME)
623 
624 #define	AT_NOSET	(AT_NLINK|AT_RDEV|AT_FSID|AT_NODEID|AT_TYPE|\
625 			AT_BLKSIZE|AT_NBLOCKS|AT_SEQ)
626 
627 /*
628  * Attribute bits used in the extensible attribute's (xva's) attribute
629  * bitmaps.  Note that the bitmaps are made up of a variable length number
630  * of 32-bit words.  The convention is to use XAT{n}_{attrname} where "n"
631  * is the element in the bitmap (starting at 1).  This convention is for
632  * the convenience of the maintainer to keep track of which element each
633  * attribute belongs to.
634  *
635  * NOTE THAT CONSUMERS MUST *NOT* USE THE XATn_* DEFINES DIRECTLY.  CONSUMERS
636  * MUST USE THE XAT_* DEFINES.
637  */
638 #define	XAT0_INDEX	0LL		/* Index into bitmap for XAT0 attrs */
639 #define	XAT0_CREATETIME	0x00000001	/* Create time of file */
640 #define	XAT0_ARCHIVE	0x00000002	/* Archive */
641 #define	XAT0_SYSTEM	0x00000004	/* System */
642 #define	XAT0_READONLY	0x00000008	/* Readonly */
643 #define	XAT0_HIDDEN	0x00000010	/* Hidden */
644 #define	XAT0_NOUNLINK	0x00000020	/* Nounlink */
645 #define	XAT0_IMMUTABLE	0x00000040	/* immutable */
646 #define	XAT0_APPENDONLY	0x00000080	/* appendonly */
647 #define	XAT0_NODUMP	0x00000100	/* nodump */
648 #define	XAT0_OPAQUE	0x00000200	/* opaque */
649 #define	XAT0_AV_QUARANTINED	0x00000400	/* anti-virus quarantine */
650 #define	XAT0_AV_MODIFIED	0x00000800	/* anti-virus modified */
651 #define	XAT0_AV_SCANSTAMP	0x00001000	/* anti-virus scanstamp */
652 #define	XAT0_REPARSE	0x00002000	/* FS reparse point */
653 #define	XAT0_GEN	0x00004000	/* object generation number */
654 #define	XAT0_OFFLINE	0x00008000	/* offline */
655 #define	XAT0_SPARSE	0x00010000	/* sparse */
656 #define	XAT0_PROJINHERIT	0x00020000	/* Create with parent projid */
657 #define	XAT0_PROJID	0x00040000	/* Project ID */
658 
659 #define	XAT0_ALL_ATTRS	(XAT0_CREATETIME|XAT0_ARCHIVE|XAT0_SYSTEM| \
660     XAT0_READONLY|XAT0_HIDDEN|XAT0_NOUNLINK|XAT0_IMMUTABLE|XAT0_APPENDONLY| \
661     XAT0_NODUMP|XAT0_OPAQUE|XAT0_AV_QUARANTINED|  XAT0_AV_MODIFIED| \
662     XAT0_AV_SCANSTAMP|XAT0_REPARSE|XATO_GEN|XAT0_OFFLINE|XAT0_SPARSE| \
663     XAT0_PROJINHERIT | XAT0_PROJID)
664 
665 /* Support for XAT_* optional attributes */
666 #define	XVA_MASK		0xffffffff	/* Used to mask off 32 bits */
667 #define	XVA_SHFT		32		/* Used to shift index */
668 
669 /*
670  * Used to pry out the index and attribute bits from the XAT_* attributes
671  * defined below.  Note that we're masking things down to 32 bits then
672  * casting to uint32_t.
673  */
674 #define	XVA_INDEX(attr)		((uint32_t)(((attr) >> XVA_SHFT) & XVA_MASK))
675 #define	XVA_ATTRBIT(attr)	((uint32_t)((attr) & XVA_MASK))
676 
677 /*
678  * The following defines present a "flat namespace" so that consumers don't
679  * need to keep track of which element belongs to which bitmap entry.
680  *
681  * NOTE THAT THESE MUST NEVER BE OR-ed TOGETHER
682  */
683 #define	XAT_CREATETIME		((XAT0_INDEX << XVA_SHFT) | XAT0_CREATETIME)
684 #define	XAT_ARCHIVE		((XAT0_INDEX << XVA_SHFT) | XAT0_ARCHIVE)
685 #define	XAT_SYSTEM		((XAT0_INDEX << XVA_SHFT) | XAT0_SYSTEM)
686 #define	XAT_READONLY		((XAT0_INDEX << XVA_SHFT) | XAT0_READONLY)
687 #define	XAT_HIDDEN		((XAT0_INDEX << XVA_SHFT) | XAT0_HIDDEN)
688 #define	XAT_NOUNLINK		((XAT0_INDEX << XVA_SHFT) | XAT0_NOUNLINK)
689 #define	XAT_IMMUTABLE		((XAT0_INDEX << XVA_SHFT) | XAT0_IMMUTABLE)
690 #define	XAT_APPENDONLY		((XAT0_INDEX << XVA_SHFT) | XAT0_APPENDONLY)
691 #define	XAT_NODUMP		((XAT0_INDEX << XVA_SHFT) | XAT0_NODUMP)
692 #define	XAT_OPAQUE		((XAT0_INDEX << XVA_SHFT) | XAT0_OPAQUE)
693 #define	XAT_AV_QUARANTINED	((XAT0_INDEX << XVA_SHFT) | XAT0_AV_QUARANTINED)
694 #define	XAT_AV_MODIFIED		((XAT0_INDEX << XVA_SHFT) | XAT0_AV_MODIFIED)
695 #define	XAT_AV_SCANSTAMP	((XAT0_INDEX << XVA_SHFT) | XAT0_AV_SCANSTAMP)
696 #define	XAT_REPARSE		((XAT0_INDEX << XVA_SHFT) | XAT0_REPARSE)
697 #define	XAT_GEN			((XAT0_INDEX << XVA_SHFT) | XAT0_GEN)
698 #define	XAT_OFFLINE		((XAT0_INDEX << XVA_SHFT) | XAT0_OFFLINE)
699 #define	XAT_SPARSE		((XAT0_INDEX << XVA_SHFT) | XAT0_SPARSE)
700 #define	XAT_PROJINHERIT		((XAT0_INDEX << XVA_SHFT) | XAT0_PROJINHERIT)
701 #define	XAT_PROJID		((XAT0_INDEX << XVA_SHFT) | XAT0_PROJID)
702 
703 /*
704  * The returned attribute map array (xva_rtnattrmap[]) is located past the
705  * requested attribute map array (xva_reqattrmap[]).  Its location changes
706  * when the array sizes change.  We use a separate pointer in a known location
707  * (xva_rtnattrmapp) to hold the location of xva_rtnattrmap[].  This is
708  * set in xva_init()
709  */
710 #define	XVA_RTNATTRMAP(xvap)	((xvap)->xva_rtnattrmapp)
711 
712 /*
713  * XVA_SET_REQ() sets an attribute bit in the proper element in the bitmap
714  * of requested attributes (xva_reqattrmap[]).
715  */
716 #define	XVA_SET_REQ(xvap, attr)					\
717 	ASSERT((xvap)->xva_vattr.va_mask | AT_XVATTR);		\
718 	ASSERT((xvap)->xva_magic == XVA_MAGIC);			\
719 	(xvap)->xva_reqattrmap[XVA_INDEX(attr)] |= XVA_ATTRBIT(attr)
720 /*
721  * XVA_CLR_REQ() clears an attribute bit in the proper element in the bitmap
722  * of requested attributes (xva_reqattrmap[]).
723  */
724 #define	XVA_CLR_REQ(xvap, attr)					\
725 	ASSERT((xvap)->xva_vattr.va_mask | AT_XVATTR);		\
726 	ASSERT((xvap)->xva_magic == XVA_MAGIC);			\
727 	(xvap)->xva_reqattrmap[XVA_INDEX(attr)] &= ~XVA_ATTRBIT(attr)
728 
729 /*
730  * XVA_SET_RTN() sets an attribute bit in the proper element in the bitmap
731  * of returned attributes (xva_rtnattrmap[]).
732  */
733 #define	XVA_SET_RTN(xvap, attr)					\
734 	ASSERT((xvap)->xva_vattr.va_mask | AT_XVATTR);		\
735 	ASSERT((xvap)->xva_magic == XVA_MAGIC);			\
736 	(XVA_RTNATTRMAP(xvap))[XVA_INDEX(attr)] |= XVA_ATTRBIT(attr)
737 
738 /*
739  * XVA_ISSET_REQ() checks the requested attribute bitmap (xva_reqattrmap[])
740  * to see of the corresponding attribute bit is set.  If so, returns non-zero.
741  */
742 #define	XVA_ISSET_REQ(xvap, attr)					\
743 	((((xvap)->xva_vattr.va_mask | AT_XVATTR) &&			\
744 		((xvap)->xva_magic == XVA_MAGIC) &&			\
745 		((xvap)->xva_mapsize > XVA_INDEX(attr))) ?		\
746 	((xvap)->xva_reqattrmap[XVA_INDEX(attr)] & XVA_ATTRBIT(attr)) :	0)
747 
748 /*
749  * XVA_ISSET_RTN() checks the returned attribute bitmap (xva_rtnattrmap[])
750  * to see of the corresponding attribute bit is set.  If so, returns non-zero.
751  */
752 #define	XVA_ISSET_RTN(xvap, attr)					\
753 	((((xvap)->xva_vattr.va_mask | AT_XVATTR) &&			\
754 		((xvap)->xva_magic == XVA_MAGIC) &&			\
755 		((xvap)->xva_mapsize > XVA_INDEX(attr))) ?		\
756 	((XVA_RTNATTRMAP(xvap))[XVA_INDEX(attr)] & XVA_ATTRBIT(attr)) : 0)
757 
758 /*
759  *  Modes.  Some values same as S_xxx entries from stat.h for convenience.
760  */
761 #define	VSUID		04000		/* set user id on execution */
762 #define	VSGID		02000		/* set group id on execution */
763 #define	VSVTX		01000		/* save swapped text even after use */
764 
765 /*
766  * Permissions.
767  */
768 #define	VREAD		00400
769 #define	VWRITE		00200
770 #define	VEXEC		00100
771 
772 #define	MODEMASK	07777		/* mode bits plus permission bits */
773 #define	PERMMASK	00777		/* permission bits */
774 
775 /*
776  * VOP_ACCESS flags
777  */
778 #define	V_ACE_MASK	0x1	/* mask represents  NFSv4 ACE permissions */
779 #define	V_APPEND	0x2	/* want to do append only check */
780 
781 /*
782  * Check whether mandatory file locking is enabled.
783  */
784 
785 #define	MANDMODE(mode)		(((mode) & (VSGID|(VEXEC>>3))) == VSGID)
786 #define	MANDLOCK(vp, mode)	((vp)->v_type == VREG && MANDMODE(mode))
787 
788 /*
789  * Flags for vnode operations.
790  */
791 enum rm		{ RMFILE, RMDIRECTORY };	/* rm or rmdir (remove) */
792 enum symfollow	{ NO_FOLLOW, FOLLOW };		/* follow symlinks (or not) */
793 enum vcexcl	{ NONEXCL, EXCL };		/* (non)excl create */
794 enum create	{ CRCREAT, CRMKNOD, CRMKDIR };	/* reason for create */
795 
796 typedef enum rm		rm_t;
797 typedef enum symfollow	symfollow_t;
798 typedef enum vcexcl	vcexcl_t;
799 typedef enum create	create_t;
800 
801 /*
802  * Vnode Events - Used by VOP_VNEVENT
803  * The VE_PRE_RENAME_* events fire before the rename operation and are
804  * primarily used for specialized applications, such as NFSv4 delegation, which
805  * need to know about rename before it occurs.
806  */
807 typedef enum vnevent	{
808 	VE_SUPPORT	= 0,	/* Query */
809 	VE_RENAME_SRC	= 1,	/* Rename, with vnode as source */
810 	VE_RENAME_DEST	= 2,	/* Rename, with vnode as target/destination */
811 	VE_REMOVE	= 3,	/* Remove of vnode's name */
812 	VE_RMDIR	= 4,	/* Remove of directory vnode's name */
813 	VE_CREATE	= 5,	/* Create with vnode's name which exists */
814 	VE_LINK		= 6,	/* Link with vnode's name as source */
815 	VE_RENAME_DEST_DIR	= 7,	/* Rename with vnode as target dir */
816 	VE_MOUNTEDOVER	= 8,	/* File or Filesystem got mounted over vnode */
817 	VE_TRUNCATE = 9,	/* Truncate */
818 	VE_PRE_RENAME_SRC = 10,	/* Pre-rename, with vnode as source */
819 	VE_PRE_RENAME_DEST = 11, /* Pre-rename, with vnode as target/dest. */
820 	VE_PRE_RENAME_DEST_DIR = 12 /* Pre-rename with vnode as target dir */
821 } vnevent_t;
822 
823 /*
824  * Values for checking vnode open and map counts
825  */
826 enum v_mode { V_READ, V_WRITE, V_RDORWR, V_RDANDWR };
827 
828 typedef enum v_mode v_mode_t;
829 
830 #define	V_TRUE	1
831 #define	V_FALSE	0
832 
833 /*
834  * Structure used on VOP_GETSECATTR and VOP_SETSECATTR operations
835  */
836 
837 typedef struct vsecattr {
838 	uint_t		vsa_mask;	/* See below */
839 	int		vsa_aclcnt;	/* ACL entry count */
840 	void		*vsa_aclentp;	/* pointer to ACL entries */
841 	int		vsa_dfaclcnt;	/* default ACL entry count */
842 	void		*vsa_dfaclentp;	/* pointer to default ACL entries */
843 	size_t		vsa_aclentsz;	/* ACE size in bytes of vsa_aclentp */
844 	uint_t		vsa_aclflags;	/* ACE ACL flags */
845 } vsecattr_t;
846 
847 /* vsa_mask values */
848 #define	VSA_ACL			0x0001
849 #define	VSA_ACLCNT		0x0002
850 #define	VSA_DFACL		0x0004
851 #define	VSA_DFACLCNT		0x0008
852 #define	VSA_ACE			0x0010
853 #define	VSA_ACECNT		0x0020
854 #define	VSA_ACE_ALLTYPES	0x0040
855 #define	VSA_ACE_ACLFLAGS	0x0080	/* get/set ACE ACL flags */
856 
857 /*
858  * Structure used by various vnode operations to determine
859  * the context (pid, host, identity) of a caller.
860  *
861  * The cc_caller_id is used to identify one or more callers who invoke
862  * operations, possibly on behalf of others.  For example, the NFS
863  * server could have it's own cc_caller_id which can be detected by
864  * vnode/vfs operations or (FEM) monitors on those operations.  New
865  * caller IDs are generated by fs_new_caller_id().
866  */
867 typedef struct caller_context {
868 	pid_t		cc_pid;		/* Process ID of the caller */
869 	int		cc_sysid;	/* System ID, used for remote calls */
870 	u_longlong_t	cc_caller_id;	/* Identifier for (set of) caller(s) */
871 	ulong_t		cc_flags;
872 } caller_context_t;
873 
874 /*
875  * Flags for caller context.  The caller sets CC_DONTBLOCK if it does not
876  * want to block inside of a FEM monitor.  The monitor will set CC_WOULDBLOCK
877  * and return EAGAIN if the operation would have blocked.
878  */
879 #define	CC_WOULDBLOCK	0x01
880 #define	CC_DONTBLOCK	0x02
881 
882 /*
883  * Structure tags for function prototypes, defined elsewhere.
884  */
885 struct pathname;
886 struct fid;
887 struct flock64;
888 struct flk_callback;
889 struct shrlock;
890 struct page;
891 struct seg;
892 struct as;
893 struct pollhead;
894 struct taskq;
895 
896 #if defined(_KERNEL) || defined(_FAKE_KERNEL)
897 
898 /*
899  * VNODE_OPS defines all the vnode operations.  It is used to define
900  * the vnodeops structure (below) and the fs_func_p union (vfs_opreg.h).
901  */
902 #define	VNODE_OPS							\
903 	int	(*vop_open)(vnode_t **, int, cred_t *,			\
904 				caller_context_t *);			\
905 	int	(*vop_close)(vnode_t *, int, int, offset_t, cred_t *,	\
906 				caller_context_t *);			\
907 	int	(*vop_read)(vnode_t *, uio_t *, int, cred_t *,		\
908 				caller_context_t *);			\
909 	int	(*vop_write)(vnode_t *, uio_t *, int, cred_t *,		\
910 				caller_context_t *);			\
911 	int	(*vop_ioctl)(vnode_t *, int, intptr_t, int, cred_t *,	\
912 				int *, caller_context_t *);		\
913 	int	(*vop_setfl)(vnode_t *, int, int, cred_t *,		\
914 				caller_context_t *);			\
915 	int	(*vop_getattr)(vnode_t *, vattr_t *, int, cred_t *,	\
916 				caller_context_t *);			\
917 	int	(*vop_setattr)(vnode_t *, vattr_t *, int, cred_t *,	\
918 				caller_context_t *);			\
919 	int	(*vop_access)(vnode_t *, int, int, cred_t *,		\
920 				caller_context_t *);			\
921 	int	(*vop_lookup)(vnode_t *, char *, vnode_t **,		\
922 				struct pathname *,			\
923 				int, vnode_t *, cred_t *,		\
924 				caller_context_t *, int *,		\
925 				struct pathname *);			\
926 	int	(*vop_create)(vnode_t *, char *, vattr_t *, vcexcl_t,	\
927 				int, vnode_t **, cred_t *, int,		\
928 				caller_context_t *, vsecattr_t *);	\
929 	int	(*vop_remove)(vnode_t *, char *, cred_t *,		\
930 				caller_context_t *, int);		\
931 	int	(*vop_link)(vnode_t *, vnode_t *, char *, cred_t *,	\
932 				caller_context_t *, int);		\
933 	int	(*vop_rename)(vnode_t *, char *, vnode_t *, char *,	\
934 				cred_t *, caller_context_t *, int);	\
935 	int	(*vop_mkdir)(vnode_t *, char *, vattr_t *, vnode_t **,	\
936 				cred_t *, caller_context_t *, int,	\
937 				vsecattr_t *);				\
938 	int	(*vop_rmdir)(vnode_t *, char *, vnode_t *, cred_t *,	\
939 				caller_context_t *, int);		\
940 	int	(*vop_readdir)(vnode_t *, uio_t *, cred_t *, int *,	\
941 				caller_context_t *, int);		\
942 	int	(*vop_symlink)(vnode_t *, char *, vattr_t *, char *,	\
943 				cred_t *, caller_context_t *, int);	\
944 	int	(*vop_readlink)(vnode_t *, uio_t *, cred_t *,		\
945 				caller_context_t *);			\
946 	int	(*vop_fsync)(vnode_t *, int, cred_t *,			\
947 				caller_context_t *);			\
948 	void	(*vop_inactive)(vnode_t *, cred_t *,			\
949 				caller_context_t *);			\
950 	int	(*vop_fid)(vnode_t *, struct fid *,			\
951 				caller_context_t *);			\
952 	int	(*vop_rwlock)(vnode_t *, int, caller_context_t *);	\
953 	void	(*vop_rwunlock)(vnode_t *, int, caller_context_t *);	\
954 	int	(*vop_seek)(vnode_t *, offset_t, offset_t *,		\
955 				caller_context_t *);			\
956 	int	(*vop_cmp)(vnode_t *, vnode_t *, caller_context_t *);	\
957 	int	(*vop_frlock)(vnode_t *, int, struct flock64 *,		\
958 				int, offset_t,				\
959 				struct flk_callback *, cred_t *,	\
960 				caller_context_t *);			\
961 	int	(*vop_space)(vnode_t *, int, struct flock64 *,		\
962 				int, offset_t,				\
963 				cred_t *, caller_context_t *);		\
964 	int	(*vop_realvp)(vnode_t *, vnode_t **,			\
965 				caller_context_t *);			\
966 	int	(*vop_getpage)(vnode_t *, offset_t, size_t, uint_t *,	\
967 				struct page **, size_t, struct seg *,	\
968 				caddr_t, enum seg_rw, cred_t *,		\
969 				caller_context_t *);			\
970 	int	(*vop_putpage)(vnode_t *, offset_t, size_t,		\
971 				int, cred_t *, caller_context_t *);	\
972 	int	(*vop_map)(vnode_t *, offset_t, struct as *,		\
973 				caddr_t *, size_t,			\
974 				uchar_t, uchar_t, uint_t, cred_t *,	\
975 				caller_context_t *);			\
976 	int	(*vop_addmap)(vnode_t *, offset_t, struct as *,		\
977 				caddr_t, size_t,			\
978 				uchar_t, uchar_t, uint_t, cred_t *,	\
979 				caller_context_t *);			\
980 	int	(*vop_delmap)(vnode_t *, offset_t, struct as *,		\
981 				caddr_t, size_t,			\
982 				uint_t, uint_t, uint_t, cred_t *,	\
983 				caller_context_t *);			\
984 	int	(*vop_poll)(vnode_t *, short, int, short *,		\
985 				struct pollhead **,			\
986 				caller_context_t *);			\
987 	int	(*vop_dump)(vnode_t *, caddr_t, offset_t, offset_t,	\
988 				caller_context_t *);			\
989 	int	(*vop_pathconf)(vnode_t *, int, ulong_t *, cred_t *,	\
990 				caller_context_t *);			\
991 	int	(*vop_pageio)(vnode_t *, struct page *,			\
992 				u_offset_t, size_t, int, cred_t *,	\
993 				caller_context_t *);			\
994 	int	(*vop_dumpctl)(vnode_t *, int, offset_t *,		\
995 				caller_context_t *);			\
996 	void	(*vop_dispose)(vnode_t *, struct page *,		\
997 				int, int, cred_t *,			\
998 				caller_context_t *);			\
999 	int	(*vop_setsecattr)(vnode_t *, vsecattr_t *,		\
1000 				int, cred_t *, caller_context_t *);	\
1001 	int	(*vop_getsecattr)(vnode_t *, vsecattr_t *,		\
1002 				int, cred_t *, caller_context_t *);	\
1003 	int	(*vop_shrlock)(vnode_t *, int, struct shrlock *,	\
1004 				int, cred_t *, caller_context_t *);	\
1005 	int	(*vop_vnevent)(vnode_t *, vnevent_t, vnode_t *,		\
1006 				char *, caller_context_t *);		\
1007 	int	(*vop_reqzcbuf)(vnode_t *, enum uio_rw, xuio_t *,	\
1008 				cred_t *, caller_context_t *);		\
1009 	int	(*vop_retzcbuf)(vnode_t *, xuio_t *, cred_t *,		\
1010 				caller_context_t *)
1011 	/* NB: No ";" */
1012 
1013 /*
1014  * Operations on vnodes.  Note: File systems must never operate directly
1015  * on a 'vnodeops' structure -- it WILL change in future releases!  They
1016  * must use vn_make_ops() to create the structure.
1017  */
1018 typedef struct vnodeops {
1019 	const char *vnop_name;
1020 	VNODE_OPS;	/* Signatures of all vnode operations (vops) */
1021 } vnodeops_t;
1022 
1023 typedef int (*fs_generic_func_p) ();	/* Generic vop/vfsop/femop/fsemop ptr */
1024 
1025 extern int	fop_open(vnode_t **, int, cred_t *, caller_context_t *);
1026 extern int	fop_close(vnode_t *, int, int, offset_t, cred_t *,
1027 				caller_context_t *);
1028 extern int	fop_read(vnode_t *, uio_t *, int, cred_t *, caller_context_t *);
1029 extern int	fop_write(vnode_t *, uio_t *, int, cred_t *,
1030 				caller_context_t *);
1031 extern int	fop_ioctl(vnode_t *, int, intptr_t, int, cred_t *, int *,
1032 				caller_context_t *);
1033 extern int	fop_setfl(vnode_t *, int, int, cred_t *, caller_context_t *);
1034 extern int	fop_getattr(vnode_t *, vattr_t *, int, cred_t *,
1035 				caller_context_t *);
1036 extern int	fop_setattr(vnode_t *, vattr_t *, int, cred_t *,
1037 				caller_context_t *);
1038 extern int	fop_access(vnode_t *, int, int, cred_t *, caller_context_t *);
1039 extern int	fop_lookup(vnode_t *, char *, vnode_t **, struct pathname *,
1040 				int, vnode_t *, cred_t *, caller_context_t *,
1041 				int *, struct pathname *);
1042 extern int	fop_create(vnode_t *, char *, vattr_t *, vcexcl_t, int,
1043 				vnode_t **, cred_t *, int, caller_context_t *,
1044 				vsecattr_t *);
1045 extern int	fop_remove(vnode_t *vp, char *, cred_t *, caller_context_t *,
1046 				int);
1047 extern int	fop_link(vnode_t *, vnode_t *, char *, cred_t *,
1048 				caller_context_t *, int);
1049 extern int	fop_rename(vnode_t *, char *, vnode_t *, char *, cred_t *,
1050 				caller_context_t *, int);
1051 extern int	fop_mkdir(vnode_t *, char *, vattr_t *, vnode_t **, cred_t *,
1052 				caller_context_t *, int, vsecattr_t *);
1053 extern int	fop_rmdir(vnode_t *, char *, vnode_t *, cred_t *,
1054 				caller_context_t *, int);
1055 extern int	fop_readdir(vnode_t *, uio_t *, cred_t *, int *,
1056 				caller_context_t *, int);
1057 extern int	fop_symlink(vnode_t *, char *, vattr_t *, char *, cred_t *,
1058 				caller_context_t *, int);
1059 extern int	fop_readlink(vnode_t *, uio_t *, cred_t *, caller_context_t *);
1060 extern int	fop_fsync(vnode_t *, int, cred_t *, caller_context_t *);
1061 extern void	fop_inactive(vnode_t *, cred_t *, caller_context_t *);
1062 extern int	fop_fid(vnode_t *, struct fid *, caller_context_t *);
1063 extern int	fop_rwlock(vnode_t *, int, caller_context_t *);
1064 extern void	fop_rwunlock(vnode_t *, int, caller_context_t *);
1065 extern int	fop_seek(vnode_t *, offset_t, offset_t *, caller_context_t *);
1066 extern int	fop_cmp(vnode_t *, vnode_t *, caller_context_t *);
1067 extern int	fop_frlock(vnode_t *, int, struct flock64 *, int, offset_t,
1068 				struct flk_callback *, cred_t *,
1069 				caller_context_t *);
1070 extern int	fop_space(vnode_t *, int, struct flock64 *, int, offset_t,
1071 				cred_t *, caller_context_t *);
1072 extern int	fop_realvp(vnode_t *, vnode_t **, caller_context_t *);
1073 extern int	fop_getpage(vnode_t *, offset_t, size_t, uint_t *,
1074 				struct page **, size_t, struct seg *,
1075 				caddr_t, enum seg_rw, cred_t *,
1076 				caller_context_t *);
1077 extern int	fop_putpage(vnode_t *, offset_t, size_t, int, cred_t *,
1078 				caller_context_t *);
1079 extern int	fop_map(vnode_t *, offset_t, struct as *, caddr_t *, size_t,
1080 				uchar_t, uchar_t, uint_t, cred_t *cr,
1081 				caller_context_t *);
1082 extern int	fop_addmap(vnode_t *, offset_t, struct as *, caddr_t, size_t,
1083 				uchar_t, uchar_t, uint_t, cred_t *,
1084 				caller_context_t *);
1085 extern int	fop_delmap(vnode_t *, offset_t, struct as *, caddr_t, size_t,
1086 				uint_t, uint_t, uint_t, cred_t *,
1087 				caller_context_t *);
1088 extern int	fop_poll(vnode_t *, short, int, short *, struct pollhead **,
1089 				caller_context_t *);
1090 extern int	fop_dump(vnode_t *, caddr_t, offset_t, offset_t,
1091     caller_context_t *);
1092 extern int	fop_pathconf(vnode_t *, int, ulong_t *, cred_t *,
1093 				caller_context_t *);
1094 extern int	fop_pageio(vnode_t *, struct page *, u_offset_t, size_t, int,
1095 				cred_t *, caller_context_t *);
1096 extern int	fop_dumpctl(vnode_t *, int, offset_t *, caller_context_t *);
1097 extern void	fop_dispose(vnode_t *, struct page *, int, int, cred_t *,
1098 				caller_context_t *);
1099 extern int	fop_setsecattr(vnode_t *, vsecattr_t *, int, cred_t *,
1100 				caller_context_t *);
1101 extern int	fop_getsecattr(vnode_t *, vsecattr_t *, int, cred_t *,
1102 				caller_context_t *);
1103 extern int	fop_shrlock(vnode_t *, int, struct shrlock *, int, cred_t *,
1104 				caller_context_t *);
1105 extern int	fop_vnevent(vnode_t *, vnevent_t, vnode_t *, char *,
1106 				caller_context_t *);
1107 extern int	fop_reqzcbuf(vnode_t *, enum uio_rw, xuio_t *, cred_t *,
1108 				caller_context_t *);
1109 extern int	fop_retzcbuf(vnode_t *, xuio_t *, cred_t *, caller_context_t *);
1110 
1111 #endif	/* _KERNEL || _FAKE_KERNEL */
1112 
1113 #define	VOP_OPEN(vpp, mode, cr, ct) \
1114 	fop_open(vpp, mode, cr, ct)
1115 #define	VOP_CLOSE(vp, f, c, o, cr, ct) \
1116 	fop_close(vp, f, c, o, cr, ct)
1117 #define	VOP_READ(vp, uiop, iof, cr, ct) \
1118 	fop_read(vp, uiop, iof, cr, ct)
1119 #define	VOP_WRITE(vp, uiop, iof, cr, ct) \
1120 	fop_write(vp, uiop, iof, cr, ct)
1121 #define	VOP_IOCTL(vp, cmd, a, f, cr, rvp, ct) \
1122 	fop_ioctl(vp, cmd, a, f, cr, rvp, ct)
1123 #define	VOP_SETFL(vp, f, a, cr, ct) \
1124 	fop_setfl(vp, f, a, cr, ct)
1125 #define	VOP_GETATTR(vp, vap, f, cr, ct) \
1126 	fop_getattr(vp, vap, f, cr, ct)
1127 #define	VOP_SETATTR(vp, vap, f, cr, ct) \
1128 	fop_setattr(vp, vap, f, cr, ct)
1129 #define	VOP_ACCESS(vp, mode, f, cr, ct) \
1130 	fop_access(vp, mode, f, cr, ct)
1131 #define	VOP_LOOKUP(vp, cp, vpp, pnp, f, rdir, cr, ct, defp, rpnp) \
1132 	fop_lookup(vp, cp, vpp, pnp, f, rdir, cr, ct, defp, rpnp)
1133 #define	VOP_CREATE(dvp, p, vap, ex, mode, vpp, cr, flag, ct, vsap) \
1134 	fop_create(dvp, p, vap, ex, mode, vpp, cr, flag, ct, vsap)
1135 #define	VOP_REMOVE(dvp, p, cr, ct, f) \
1136 	fop_remove(dvp, p, cr, ct, f)
1137 #define	VOP_LINK(tdvp, fvp, p, cr, ct, f) \
1138 	fop_link(tdvp, fvp, p, cr, ct, f)
1139 #define	VOP_RENAME(fvp, fnm, tdvp, tnm, cr, ct, f) \
1140 	fop_rename(fvp, fnm, tdvp, tnm, cr, ct, f)
1141 #define	VOP_MKDIR(dp, p, vap, vpp, cr, ct, f, vsap) \
1142 	fop_mkdir(dp, p, vap, vpp, cr, ct, f, vsap)
1143 #define	VOP_RMDIR(dp, p, cdir, cr, ct, f) \
1144 	fop_rmdir(dp, p, cdir, cr, ct, f)
1145 #define	VOP_READDIR(vp, uiop, cr, eofp, ct, f) \
1146 	fop_readdir(vp, uiop, cr, eofp, ct, f)
1147 #define	VOP_SYMLINK(dvp, lnm, vap, tnm, cr, ct, f) \
1148 	fop_symlink(dvp, lnm, vap, tnm, cr, ct, f)
1149 #define	VOP_READLINK(vp, uiop, cr, ct) \
1150 	fop_readlink(vp, uiop, cr, ct)
1151 #define	VOP_FSYNC(vp, syncflag, cr, ct) \
1152 	fop_fsync(vp, syncflag, cr, ct)
1153 #define	VOP_INACTIVE(vp, cr, ct) \
1154 	fop_inactive(vp, cr, ct)
1155 #define	VOP_FID(vp, fidp, ct) \
1156 	fop_fid(vp, fidp, ct)
1157 #define	VOP_RWLOCK(vp, w, ct) \
1158 	fop_rwlock(vp, w, ct)
1159 #define	VOP_RWUNLOCK(vp, w, ct) \
1160 	fop_rwunlock(vp, w, ct)
1161 #define	VOP_SEEK(vp, ooff, noffp, ct) \
1162 	fop_seek(vp, ooff, noffp, ct)
1163 #define	VOP_CMP(vp1, vp2, ct) \
1164 	fop_cmp(vp1, vp2, ct)
1165 #define	VOP_FRLOCK(vp, cmd, a, f, o, cb, cr, ct) \
1166 	fop_frlock(vp, cmd, a, f, o, cb, cr, ct)
1167 #define	VOP_SPACE(vp, cmd, a, f, o, cr, ct) \
1168 	fop_space(vp, cmd, a, f, o, cr, ct)
1169 #define	VOP_REALVP(vp1, vp2, ct) \
1170 	fop_realvp(vp1, vp2, ct)
1171 #define	VOP_GETPAGE(vp, of, sz, pr, pl, ps, sg, a, rw, cr, ct) \
1172 	fop_getpage(vp, of, sz, pr, pl, ps, sg, a, rw, cr, ct)
1173 #define	VOP_PUTPAGE(vp, of, sz, fl, cr, ct) \
1174 	fop_putpage(vp, of, sz, fl, cr, ct)
1175 #define	VOP_MAP(vp, of, as, a, sz, p, mp, fl, cr, ct) \
1176 	fop_map(vp, of, as, a, sz, p, mp, fl, cr, ct)
1177 #define	VOP_ADDMAP(vp, of, as, a, sz, p, mp, fl, cr, ct) \
1178 	fop_addmap(vp, of, as, a, sz, p, mp, fl, cr, ct)
1179 #define	VOP_DELMAP(vp, of, as, a, sz, p, mp, fl, cr, ct) \
1180 	fop_delmap(vp, of, as, a, sz, p, mp, fl, cr, ct)
1181 #define	VOP_POLL(vp, events, anyyet, reventsp, phpp, ct) \
1182 	fop_poll(vp, events, anyyet, reventsp, phpp, ct)
1183 #define	VOP_DUMP(vp, addr, bn, count, ct) \
1184 	fop_dump(vp, addr, bn, count, ct)
1185 #define	VOP_PATHCONF(vp, cmd, valp, cr, ct) \
1186 	fop_pathconf(vp, cmd, valp, cr, ct)
1187 #define	VOP_PAGEIO(vp, pp, io_off, io_len, flags, cr, ct) \
1188 	fop_pageio(vp, pp, io_off, io_len, flags, cr, ct)
1189 #define	VOP_DUMPCTL(vp, action, blkp, ct) \
1190 	fop_dumpctl(vp, action, blkp, ct)
1191 #define	VOP_DISPOSE(vp, pp, flag, dn, cr, ct) \
1192 	fop_dispose(vp, pp, flag, dn, cr, ct)
1193 #define	VOP_GETSECATTR(vp, vsap, f, cr, ct) \
1194 	fop_getsecattr(vp, vsap, f, cr, ct)
1195 #define	VOP_SETSECATTR(vp, vsap, f, cr, ct) \
1196 	fop_setsecattr(vp, vsap, f, cr, ct)
1197 #define	VOP_SHRLOCK(vp, cmd, shr, f, cr, ct) \
1198 	fop_shrlock(vp, cmd, shr, f, cr, ct)
1199 #define	VOP_VNEVENT(vp, vnevent, dvp, fnm, ct) \
1200 	fop_vnevent(vp, vnevent, dvp, fnm, ct)
1201 #define	VOP_REQZCBUF(vp, rwflag, xuiop, cr, ct) \
1202 	fop_reqzcbuf(vp, rwflag, xuiop, cr, ct)
1203 #define	VOP_RETZCBUF(vp, xuiop, cr, ct) \
1204 	fop_retzcbuf(vp, xuiop, cr, ct)
1205 
1206 #define	VOPNAME_OPEN		"open"
1207 #define	VOPNAME_CLOSE		"close"
1208 #define	VOPNAME_READ		"read"
1209 #define	VOPNAME_WRITE		"write"
1210 #define	VOPNAME_IOCTL		"ioctl"
1211 #define	VOPNAME_SETFL		"setfl"
1212 #define	VOPNAME_GETATTR		"getattr"
1213 #define	VOPNAME_SETATTR		"setattr"
1214 #define	VOPNAME_ACCESS		"access"
1215 #define	VOPNAME_LOOKUP		"lookup"
1216 #define	VOPNAME_CREATE		"create"
1217 #define	VOPNAME_REMOVE		"remove"
1218 #define	VOPNAME_LINK		"link"
1219 #define	VOPNAME_RENAME		"rename"
1220 #define	VOPNAME_MKDIR		"mkdir"
1221 #define	VOPNAME_RMDIR		"rmdir"
1222 #define	VOPNAME_READDIR		"readdir"
1223 #define	VOPNAME_SYMLINK		"symlink"
1224 #define	VOPNAME_READLINK	"readlink"
1225 #define	VOPNAME_FSYNC		"fsync"
1226 #define	VOPNAME_INACTIVE	"inactive"
1227 #define	VOPNAME_FID		"fid"
1228 #define	VOPNAME_RWLOCK		"rwlock"
1229 #define	VOPNAME_RWUNLOCK	"rwunlock"
1230 #define	VOPNAME_SEEK		"seek"
1231 #define	VOPNAME_CMP		"cmp"
1232 #define	VOPNAME_FRLOCK		"frlock"
1233 #define	VOPNAME_SPACE		"space"
1234 #define	VOPNAME_REALVP		"realvp"
1235 #define	VOPNAME_GETPAGE		"getpage"
1236 #define	VOPNAME_PUTPAGE		"putpage"
1237 #define	VOPNAME_MAP		"map"
1238 #define	VOPNAME_ADDMAP		"addmap"
1239 #define	VOPNAME_DELMAP		"delmap"
1240 #define	VOPNAME_POLL		"poll"
1241 #define	VOPNAME_DUMP		"dump"
1242 #define	VOPNAME_PATHCONF	"pathconf"
1243 #define	VOPNAME_PAGEIO		"pageio"
1244 #define	VOPNAME_DUMPCTL		"dumpctl"
1245 #define	VOPNAME_DISPOSE		"dispose"
1246 #define	VOPNAME_GETSECATTR	"getsecattr"
1247 #define	VOPNAME_SETSECATTR	"setsecattr"
1248 #define	VOPNAME_SHRLOCK		"shrlock"
1249 #define	VOPNAME_VNEVENT		"vnevent"
1250 #define	VOPNAME_REQZCBUF	"reqzcbuf"
1251 #define	VOPNAME_RETZCBUF	"retzcbuf"
1252 
1253 /*
1254  * Flags for VOP_LOOKUP
1255  *
1256  * Defined in file.h, but also possible, FIGNORECASE and FSEARCH
1257  *
1258  */
1259 #define	LOOKUP_DIR		0x01	/* want parent dir vp */
1260 #define	LOOKUP_XATTR		0x02	/* lookup up extended attr dir */
1261 #define	CREATE_XATTR_DIR	0x04	/* Create extended attr dir */
1262 #define	LOOKUP_HAVE_SYSATTR_DIR	0x08	/* Already created virtual GFS dir */
1263 /* LOOKUP_CHECKREAD		0x10	- private lookuppnvp flag */
1264 #define	LOOKUP_NOACLCHECK	0x20	/* Dont check ACL when checking perms */
1265 
1266 /*
1267  * Flags for VOP_READDIR
1268  */
1269 #define	V_RDDIR_ENTFLAGS	0x01	/* request dirent flags */
1270 #define	V_RDDIR_ACCFILTER	0x02	/* filter out inaccessible dirents */
1271 
1272 /*
1273  * Flags for VOP_RWLOCK/VOP_RWUNLOCK
1274  * VOP_RWLOCK will return the flag that was actually set, or -1 if none.
1275  */
1276 #define	V_WRITELOCK_TRUE	(1)	/* Request write-lock on the vnode */
1277 #define	V_WRITELOCK_FALSE	(0)	/* Request read-lock on the vnode */
1278 
1279 /*
1280  * Flags for VOP_DUMPCTL
1281  */
1282 #define	DUMP_ALLOC	0
1283 #define	DUMP_FREE	1
1284 #define	DUMP_SCAN	2
1285 
1286 /*
1287  * Public vnode manipulation functions.
1288  */
1289 #if defined(_KERNEL) || defined(_FAKE_KERNEL)
1290 
1291 vnode_t *vn_alloc(int);
1292 void	vn_reinit(vnode_t *);
1293 void	vn_recycle(vnode_t *);
1294 void	vn_free(vnode_t *);
1295 
1296 int	vn_is_readonly(vnode_t *);
1297 int	vn_is_opened(vnode_t *, v_mode_t);
1298 int	vn_is_mapped(vnode_t *, v_mode_t);
1299 int	vn_has_other_opens(vnode_t *, v_mode_t);
1300 void	vn_open_upgrade(vnode_t *, int);
1301 void	vn_open_downgrade(vnode_t *, int);
1302 
1303 int	vn_can_change_zones(vnode_t *vp);
1304 
1305 int	vn_has_flocks(vnode_t *);
1306 int	vn_has_mandatory_locks(vnode_t *, int);
1307 int	vn_has_cached_data(vnode_t *);
1308 
1309 void	vn_setops(vnode_t *, vnodeops_t *);
1310 vnodeops_t *vn_getops(vnode_t *);
1311 int	vn_matchops(vnode_t *, vnodeops_t *);
1312 int	vn_matchopval(vnode_t *, char *, fs_generic_func_p);
1313 int	vn_ismntpt(vnode_t *);
1314 
1315 struct vfs *vn_mountedvfs(vnode_t *);
1316 
1317 int	vn_in_dnlc(vnode_t *);
1318 
1319 void	vn_create_cache(void);
1320 void	vn_destroy_cache(void);
1321 
1322 void	vn_freevnodeops(vnodeops_t *);
1323 
1324 int	vn_open(char *pnamep, enum uio_seg seg, int filemode, int createmode,
1325 		struct vnode **vpp, enum create crwhy, mode_t umask);
1326 int	vn_openat(char *pnamep, enum uio_seg seg, int filemode, int createmode,
1327 		struct vnode **vpp, enum create crwhy,
1328 		mode_t umask, struct vnode *startvp, int fd);
1329 int	vn_create(char *pnamep, enum uio_seg seg, struct vattr *vap,
1330 		enum vcexcl excl, int mode, struct vnode **vpp,
1331 		enum create why, int flag, mode_t umask);
1332 int	vn_createat(char *pnamep, enum uio_seg seg, struct vattr *vap,
1333 		enum vcexcl excl, int mode, struct vnode **vpp,
1334 		enum create why, int flag, mode_t umask, struct vnode *startvp);
1335 int	vn_rdwr(enum uio_rw rw, struct vnode *vp, caddr_t base, ssize_t len,
1336 		offset_t offset, enum uio_seg seg, int ioflag, rlim64_t ulimit,
1337 		cred_t *cr, ssize_t *residp);
1338 void	vn_rele(struct vnode *vp);
1339 void	vn_rele_async(struct vnode *vp, struct taskq *taskq);
1340 void	vn_rele_dnlc(struct vnode *vp);
1341 void	vn_rele_stream(struct vnode *vp);
1342 int	vn_link(char *from, char *to, enum uio_seg seg);
1343 int	vn_linkat(vnode_t *fstartvp, char *from, enum symfollow follow,
1344 		vnode_t *tstartvp, char *to, enum uio_seg seg);
1345 int	vn_rename(char *from, char *to, enum uio_seg seg);
1346 int	vn_renameat(vnode_t *fdvp, char *fname, vnode_t *tdvp, char *tname,
1347 		enum uio_seg seg);
1348 int	vn_remove(char *fnamep, enum uio_seg seg, enum rm dirflag);
1349 int	vn_removeat(vnode_t *startvp, char *fnamep, enum uio_seg seg,
1350 		enum rm dirflag);
1351 int	vn_compare(vnode_t *vp1, vnode_t *vp2);
1352 int	vn_vfswlock(struct vnode *vp);
1353 int	vn_vfswlock_wait(struct vnode *vp);
1354 int	vn_vfsrlock(struct vnode *vp);
1355 int	vn_vfsrlock_wait(struct vnode *vp);
1356 void	vn_vfsunlock(struct vnode *vp);
1357 int	vn_vfswlock_held(struct vnode *vp);
1358 vnode_t *specvp(struct vnode *vp, dev_t dev, vtype_t type, struct cred *cr);
1359 vnode_t *makespecvp(dev_t dev, vtype_t type);
1360 
1361 #if !defined(_FAKE_KERNEL)
1362 vn_vfslocks_entry_t *vn_vfslocks_getlock(void *);
1363 void	vn_vfslocks_rele(vn_vfslocks_entry_t *);
1364 #endif
1365 
1366 boolean_t vn_is_reparse(vnode_t *, cred_t *, caller_context_t *);
1367 
1368 void vn_copypath(struct vnode *src, struct vnode *dst);
1369 void vn_setpath_str(struct vnode *vp, const char *str, size_t len);
1370 void vn_setpath(vnode_t *rootvp, struct vnode *startvp, struct vnode *vp,
1371     const char *path, size_t plen);
1372 void vn_renamepath(vnode_t *dvp, vnode_t *vp, const char *nm, size_t len);
1373 
1374 /* Private vnode manipulation functions */
1375 void vn_clearpath(vnode_t *, hrtime_t);
1376 void vn_updatepath(vnode_t *, vnode_t *, const char *);
1377 
1378 
1379 /* Vnode event notification */
1380 void	vnevent_rename_src(vnode_t *, vnode_t *, char *, caller_context_t *);
1381 void	vnevent_rename_dest(vnode_t *, vnode_t *, char *, caller_context_t *);
1382 void	vnevent_remove(vnode_t *, vnode_t *, char *, caller_context_t *);
1383 void	vnevent_rmdir(vnode_t *, vnode_t *, char *, caller_context_t *);
1384 void	vnevent_create(vnode_t *, caller_context_t *);
1385 void	vnevent_link(vnode_t *, caller_context_t *);
1386 void	vnevent_rename_dest_dir(vnode_t *, caller_context_t *ct);
1387 void	vnevent_mountedover(vnode_t *, caller_context_t *);
1388 void	vnevent_truncate(vnode_t *, caller_context_t *);
1389 int	vnevent_support(vnode_t *, caller_context_t *);
1390 void	vnevent_pre_rename_src(vnode_t *, vnode_t *, char *,
1391 	    caller_context_t *);
1392 void	vnevent_pre_rename_dest(vnode_t *, vnode_t *, char *,
1393 	    caller_context_t *);
1394 void	vnevent_pre_rename_dest_dir(vnode_t *, vnode_t *, char *,
1395 	    caller_context_t *);
1396 
1397 /* Vnode specific data */
1398 void vsd_create(uint_t *, void (*)(void *));
1399 void vsd_destroy(uint_t *);
1400 void *vsd_get(vnode_t *, uint_t);
1401 int vsd_set(vnode_t *, uint_t, void *);
1402 void vsd_free(vnode_t *);
1403 
1404 /*
1405  * Extensible vnode attribute (xva) routines:
1406  * xva_init() initializes an xvattr_t (zero struct, init mapsize, set AT_XATTR)
1407  * xva_getxoptattr() returns a ponter to the xoptattr_t section of xvattr_t
1408  */
1409 void		xva_init(xvattr_t *);
1410 xoptattr_t	*xva_getxoptattr(xvattr_t *);	/* Get ptr to xoptattr_t */
1411 
1412 void xattr_init(void);		/* Initialize vnodeops for xattrs */
1413 
1414 /* GFS tunnel for xattrs */
1415 int xattr_dir_lookup(vnode_t *, vnode_t **, int, cred_t *);
1416 
1417 /* Reparse Point */
1418 void reparse_point_init(void);
1419 
1420 /* Context identification */
1421 u_longlong_t	fs_new_caller_id();
1422 
1423 int	vn_vmpss_usepageio(vnode_t *);
1424 
1425 /* Empty v_path placeholder */
1426 extern char *vn_vpath_empty;
1427 
1428 /*
1429  * Needed for use of IS_VMODSORT() in kernel.
1430  */
1431 extern uint_t pvn_vmodsort_supported;
1432 
1433 /*
1434  * All changes to v_count should be done through VN_HOLD() or VN_RELE(), or
1435  * one of their variants. This makes it possible to ensure proper locking,
1436  * and to guarantee that all modifications are accompanied by a firing of
1437  * the vn-hold or vn-rele SDT DTrace probe.
1438  *
1439  * Example DTrace command for tracing vnode references using these probes:
1440  *
1441  * dtrace -q -n 'sdt:::vn-hold,sdt:::vn-rele
1442  * {
1443  *	this->vp = (vnode_t *)arg0;
1444  *	printf("%s %s(%p[%s]) %d\n", execname, probename, this->vp,
1445  *	    this->vp->v_path == NULL ? "NULL" : stringof(this->vp->v_path),
1446  *	    this->vp->v_count)
1447  * }'
1448  */
1449 #define	VN_HOLD_LOCKED(vp) {			\
1450 	ASSERT(mutex_owned(&(vp)->v_lock));	\
1451 	(vp)->v_count++;			\
1452 	DTRACE_PROBE1(vn__hold, vnode_t *, vp);	\
1453 }
1454 
1455 #define	VN_HOLD(vp)	{		\
1456 	mutex_enter(&(vp)->v_lock);	\
1457 	VN_HOLD_LOCKED(vp);		\
1458 	mutex_exit(&(vp)->v_lock);	\
1459 }
1460 
1461 #define	VN_RELE(vp)	{ \
1462 	vn_rele(vp); \
1463 }
1464 
1465 #define	VN_RELE_ASYNC(vp, taskq)	{ \
1466 	vn_rele_async(vp, taskq); \
1467 }
1468 
1469 #define	VN_RELE_LOCKED(vp) {			\
1470 	ASSERT(mutex_owned(&(vp)->v_lock));	\
1471 	ASSERT((vp)->v_count >= 1);		\
1472 	(vp)->v_count--;			\
1473 	DTRACE_PROBE1(vn__rele, vnode_t *, vp);	\
1474 }
1475 
1476 #define	VN_SET_VFS_TYPE_DEV(vp, vfsp, type, dev)	{ \
1477 	(vp)->v_vfsp = (vfsp); \
1478 	(vp)->v_type = (type); \
1479 	(vp)->v_rdev = (dev); \
1480 }
1481 
1482 /*
1483  * Compare two vnodes for equality.  In general this macro should be used
1484  * in preference to calling VOP_CMP directly.
1485  */
1486 #define	VN_CMP(VP1, VP2)	((VP1) == (VP2) ? 1 :	\
1487 	((VP1) && (VP2) && (vn_getops(VP1) == vn_getops(VP2)) ? \
1488 	VOP_CMP(VP1, VP2, NULL) : 0))
1489 
1490 /*
1491  * Some well-known global vnodes used by the VM system to name pages.
1492  */
1493 extern struct vnode kvps[];
1494 
1495 typedef enum {
1496 	KV_KVP,		/* vnode for all segkmem pages */
1497 	KV_ZVP,		/* vnode for all ZFS pages */
1498 	KV_VVP,		/* vnode for all VMM pages */
1499 #if defined(__sparc)
1500 	KV_MPVP,	/* vnode for all page_t meta-pages */
1501 	KV_PROMVP,	/* vnode for all PROM pages */
1502 #endif	/* __sparc */
1503 	KV_MAX		/* total number of vnodes in kvps[] */
1504 } kvps_index_t;
1505 
1506 #define	VN_ISKAS(vp)	((vp) >= &kvps[0] && (vp) < &kvps[KV_MAX])
1507 
1508 #endif	/* _KERNEL || _FAKE_KERNEL */
1509 
1510 /*
1511  * Flags to VOP_SETATTR/VOP_GETATTR.
1512  */
1513 #define	ATTR_UTIME	0x01	/* non-default utime(2) request */
1514 #define	ATTR_EXEC	0x02	/* invocation from exec(2) */
1515 #define	ATTR_COMM	0x04	/* yield common vp attributes */
1516 #define	ATTR_HINT	0x08	/* information returned will be `hint' */
1517 #define	ATTR_REAL	0x10	/* yield attributes of the real vp */
1518 #define	ATTR_NOACLCHECK	0x20	/* Don't check ACL when checking permissions */
1519 #define	ATTR_TRIGGER	0x40	/* Mount first if vnode is a trigger mount */
1520 #define	ATTR_NOIMPLICIT	0x80	/* Disable any implicit owner rights */
1521 /*
1522  * Generally useful macros.
1523  */
1524 #define	VBSIZE(vp)	((vp)->v_vfsp->vfs_bsize)
1525 
1526 #define	VTOZONE(vp)	((vp)->v_vfsp->vfs_zone)
1527 
1528 #define	NULLVP		((struct vnode *)0)
1529 #define	NULLVPP		((struct vnode **)0)
1530 
1531 #ifdef	_KERNEL
1532 
1533 /*
1534  * Structure used while handling asynchronous VOP_PUTPAGE operations.
1535  */
1536 struct async_reqs {
1537 	struct async_reqs *a_next;	/* pointer to next arg struct */
1538 	struct vnode *a_vp;		/* vnode pointer */
1539 	u_offset_t a_off;			/* offset in file */
1540 	uint_t a_len;			/* size of i/o request */
1541 	int a_flags;			/* flags to indicate operation type */
1542 	struct cred *a_cred;		/* cred pointer	*/
1543 	ushort_t a_prealloced;		/* set if struct is pre-allocated */
1544 };
1545 
1546 /*
1547  * VN_DISPOSE() -- given a page pointer, safely invoke VOP_DISPOSE().
1548  * Note that there is no guarantee that the page passed in will be
1549  * freed.  If that is required, then a check after calling VN_DISPOSE would
1550  * be necessary to ensure the page was freed.
1551  */
1552 #define	VN_DISPOSE(pp, flag, dn, cr)	{ \
1553 	if ((pp)->p_vnode != NULL && !VN_ISKAS((pp)->p_vnode)) \
1554 		VOP_DISPOSE((pp)->p_vnode, (pp), (flag), (dn), (cr), NULL); \
1555 	else if ((flag) == B_FREE) \
1556 		page_free((pp), (dn)); \
1557 	else \
1558 		page_destroy((pp), (dn)); \
1559 	}
1560 
1561 #endif	/* _KERNEL */
1562 
1563 #ifdef	__cplusplus
1564 }
1565 #endif
1566 
1567 #endif	/* _SYS_VNODE_H */
1568