xref: /titanic_50/usr/src/uts/common/nfs/export.h (revision c9a6ea2e938727c95af7108c5e00eee4c890c7ae)
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) 1989, 2010, Oracle and/or its affiliates. All rights reserved.
23  */
24 
25 /*	Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T	*/
26 /*	  All Rights Reserved  	*/
27 
28 #ifndef	_NFS_EXPORT_H
29 #define	_NFS_EXPORT_H
30 
31 #include <nfs/nfs_sec.h>
32 #include <nfs/auth.h>
33 #include <sys/vnode.h>
34 #include <nfs/nfs4.h>
35 #include <sys/kiconv.h>
36 
37 #ifdef	__cplusplus
38 extern "C" {
39 #endif
40 
41 /*
42  * nfs pseudo flavor number is owned by IANA. Need to make sure the
43  * Solaris specific NFS_FLAVOR_NOMAP number will not overlap with any
44  * new IANA defined pseudo flavor numbers. The chance for the overlap
45  * is very small since the growth of new flavor numbers is expected
46  * to be limited.
47  */
48 #define	NFS_FLAVOR_NOMAP	999999	/* no nfs flavor mapping */
49 
50 /*
51  * As duplicate flavors can be passed into exportfs in the arguments, we
52  * allocate a cleaned up array with non duplicate flavors on the stack.
53  * So we need to know how much to allocate.
54  */
55 #define	MAX_FLAVORS		6	/* none, sys, dh, krb5, krb5i krb5p */
56 
57 /*
58  * Note: exported_lock is currently used to ensure the integrity of
59  * the secinfo fields.
60  */
61 struct secinfo {
62 	seconfig_t	s_secinfo;	/* /etc/nfssec.conf entry */
63 	unsigned int	s_flags;	/* flags (see below) */
64 	int32_t		s_refcnt;	/* reference count for tracking */
65 					/* how many children (self included) */
66 					/* use this flavor. */
67 	int 		s_window;	/* window */
68 	uint_t		s_rootid;	/* UID to use for authorized roots */
69 	int		s_rootcnt;	/* count of root names */
70 	caddr_t		*s_rootnames;	/* array of root names */
71 					/* they are strings for AUTH_DES and */
72 					/* rpc_gss_principal_t for RPCSEC_GSS */
73 };
74 
75 #ifdef _SYSCALL32
76 struct secinfo32 {
77 	seconfig32_t	s_secinfo;	/* /etc/nfssec.conf entry */
78 	uint32_t	s_flags;	/* flags (see below) */
79 	int32_t		s_refcnt;	/* reference count for tracking */
80 					/* how many children (self included) */
81 					/* use this flavor. */
82 	int32_t 	s_window;	/* window */
83 	uint32_t	s_rootid;	/* UID to use for authorized roots */
84 	int32_t		s_rootcnt;	/* count of root names */
85 	caddr32_t	s_rootnames;	/* array of root names */
86 					/* they are strings for AUTH_DES and */
87 					/* rpc_gss_principal_t for RPCSEC_GSS */
88 };
89 #endif /* _SYSCALL32 */
90 
91 /*
92  * security negotiation related
93  */
94 
95 #define	SEC_QUERY	0x01	/* query sec modes */
96 
97 struct sec_ol {
98 	int		sec_flags;	/* security nego flags */
99 	uint_t		sec_index;	/* index into sec flavor array */
100 };
101 
102 /*
103  * Per-mode flags (secinfo.s_flags)
104  */
105 #define	M_RO		0x01	/* exported ro to all */
106 #define	M_ROL		0x02	/* exported ro to all listed */
107 #define	M_RW		0x04	/* exported rw to all */
108 #define	M_RWL		0x08	/* exported ro to all listed */
109 #define	M_ROOT		0x10	/* root list is defined */
110 #define	M_4SEC_EXPORTED	0x20	/* this is an explicitly shared flavor */
111 #define	M_NONE		0x40	/* none list is defined */
112 
113 /* invalid secinfo reference count */
114 #define	SEC_REF_INVALID(p) ((p)->s_refcnt < 1)
115 
116 /* last secinfo reference */
117 #define	SEC_REF_LAST(p) ((p)->s_refcnt == 1)
118 
119 /* sec flavor explicitly shared for the exported node */
120 #define	SEC_REF_EXPORTED(p) ((p)->s_flags & M_4SEC_EXPORTED)
121 
122 /* the only reference count left is for referring itself */
123 #define	SEC_REF_SELF(p) (SEC_REF_LAST(p) && SEC_REF_EXPORTED(p))
124 
125 /*
126  * The export information passed to exportfs() (Version 2)
127  */
128 #define	EX_CURRENT_VERSION 2	/* current version of exportdata struct */
129 
130 struct exportdata {
131 	int		ex_version;	/* structure version */
132 	char		*ex_path;	/* exported path */
133 	size_t		ex_pathlen;	/* path length */
134 	int		ex_flags;	/* flags */
135 	unsigned int	ex_anon;	/* uid for unauthenticated requests */
136 	int		ex_seccnt;	/* count of security modes */
137 	struct secinfo	*ex_secinfo;	/* security mode info */
138 	char		*ex_index;	/* index file for public filesystem */
139 	char		*ex_log_buffer;	/* path to logging buffer file */
140 	size_t		ex_log_bufferlen;	/* buffer file path len */
141 	char		*ex_tag;	/* tag used to identify log config */
142 	size_t		ex_taglen;	/* tag length */
143 };
144 
145 #ifdef _SYSCALL32
146 struct exportdata32 {
147 	int32_t		ex_version;	/* structure version */
148 	caddr32_t	ex_path;	/* exported path */
149 	int32_t		ex_pathlen;	/* path length */
150 	int32_t		ex_flags;	/* flags */
151 	uint32_t	ex_anon;	/* uid for unauthenticated requests */
152 	int32_t		ex_seccnt;	/* count of security modes */
153 	caddr32_t	ex_secinfo;	/* security mode info */
154 	caddr32_t	ex_index;	/* index file for public filesystem */
155 	caddr32_t	ex_log_buffer;	/* path to logging buffer file */
156 	int32_t		ex_log_bufferlen;	/* buffer file path len */
157 	caddr32_t	ex_tag;		/* tag used to identify log config */
158 	int32_t		ex_taglen;	/* tag length */
159 };
160 #endif /* _SYSCALL32 */
161 
162 /*
163  * exported vfs flags.
164  */
165 
166 #define	EX_NOSUID	0x01	/* exported with unsetable set[ug]ids */
167 #define	EX_ACLOK	0x02	/* exported with maximal access if acl exists */
168 #define	EX_PUBLIC	0x04	/* exported with public filehandle */
169 #define	EX_NOSUB	0x08	/* no nfs_getfh or MCL below export point */
170 #define	EX_INDEX	0x10	/* exported with index file specified */
171 #define	EX_LOG		0x20	/* logging enabled */
172 #define	EX_LOG_ALLOPS	0x40	/* logging of all RPC operations enabled */
173 				/* by default only operations which affect */
174 				/* transaction logging are enabled */
175 #define	EX_PSEUDO	0x80	/* pseudo filesystem export */
176 #ifdef VOLATILE_FH_TEST
177 #define	EX_VOLFH	0x100	/* XXX nfsv4 fh may expire anytime */
178 #define	EX_VOLRNM	0x200	/* XXX nfsv4 fh expire at rename */
179 #define	EX_VOLMIG	0x400	/* XXX nfsv4 fh expire at migration */
180 #define	EX_NOEXPOPEN	0x800	/* XXX nfsv4 fh no expire with open */
181 #endif /* VOLATILE_FH_TEST */
182 
183 #define	EX_CHARMAP	0x1000	/* NFS may need a character set conversion */
184 #define	EX_NOACLFAB	0x2000	/* If set, NFSv2 and v3 servers doesn't */
185 				/* fabricate ACL for VOP_GETSECATTR OTW call */
186 
187 #ifdef	_KERNEL
188 
189 #define	RPC_IDEMPOTENT	0x1	/* idempotent or not */
190 /*
191  * Be very careful about which NFS procedures get the RPC_ALLOWANON bit.
192  * Right now, it this bit is on, we ignore the results of per NFS request
193  * access control.
194  */
195 #define	RPC_ALLOWANON	0x2	/* allow anonymous access */
196 #define	RPC_MAPRESP	0x4	/* use mapped response buffer */
197 #define	RPC_AVOIDWORK	0x8	/* do work avoidance for dups */
198 #define	RPC_PUBLICFH_OK	0x10	/* allow use of public filehandle */
199 
200 /*
201  * RPC_ALL is an or of all above bits to be used with "don't care"
202  * nfsv4 ops. The flags of an nfsv4 request is the bit-AND of the
203  * per-op flags.
204  */
205 #define	RPC_ALL	(RPC_IDEMPOTENT|RPC_ALLOWANON|RPC_AVOIDWORK|RPC_PUBLICFH_OK)
206 
207 
208 #ifdef VOLATILE_FH_TEST
209 struct ex_vol_rename {
210 	nfs_fh4_fmt_t vrn_fh_fmt;
211 	struct ex_vol_rename *vrn_next;
212 };
213 #endif /* VOLATILE_FH_TEST */
214 
215 /*
216  * An auth cache entry can exist in 4 active states, with the inactive
217  * state being indicated by no entry in the cache.
218  *
219  * A FRESH entry is one which is either new or has been refreshed at
220  * least once.
221  *
222  * A STALE entry is one which has been detected to be too old. The
223  * transistion from FRESH to STALE prevents multiple threads from
224  * submitting refresh requests.
225  *
226  * A REFRESHING entry is one which is actively engaging the user land
227  * mountd code to re-authenticate the cache entry.
228  *
229  * An INVALID entry was one which was either STALE or REFRESHING
230  * and was deleted out of the encapsulating exi. Since we can't
231  * delete it yet, we mark it as INVALID, which lets the refreshq
232  * know not to work on it.
233  *
234  * Note that the auth state of the entry is always valid, even if the
235  * entry is STALE. Just as you can eat stale bread, you can consume
236  * a stale cache entry. The only time the contents change could be
237  * during the transistion from REFRESHING to FRESH.
238  */
239 typedef enum auth_state {
240 	NFS_AUTH_FRESH,
241 	NFS_AUTH_STALE,
242 	NFS_AUTH_REFRESHING,
243 	NFS_AUTH_INVALID
244 } auth_state_t;
245 
246 /*
247  * An authorization cache entry
248  *
249  * Either the state in auth_state will protect the
250  * contents or auth_lock must be held.
251  */
252 struct auth_cache {
253 	struct netbuf		auth_addr;
254 	int			auth_flavor;
255 	int			auth_access;
256 	time_t			auth_time;
257 	time_t			auth_freshness;
258 	auth_state_t		auth_state;
259 	char			*auth_netid;
260 	kmutex_t		auth_lock;
261 	struct auth_cache	*auth_next;
262 };
263 
264 #define	AUTH_TABLESIZE	32
265 
266 /*
267  * Structure containing log file meta-data.
268  */
269 struct log_file {
270 	unsigned int	lf_flags;	/* flags (see below) */
271 	int		lf_writers;	/* outstanding writers */
272 	int		lf_refcnt;	/* references to this struct */
273 	caddr_t		lf_path;	/* buffer file location */
274 	vnode_t		*lf_vp;		/* vnode for the buffer file */
275 	kmutex_t	lf_lock;
276 	kcondvar_t	lf_cv_waiters;
277 };
278 
279 /*
280  * log_file and log_buffer flags.
281  */
282 #define	L_WAITING	0x01		/* flush of in-core data to stable */
283 					/* storage in progress */
284 #define	L_PRINTED	0x02		/* error message printed to console */
285 #define	L_ERROR		0x04		/* error condition detected */
286 
287 /*
288  * The logging buffer information.
289  * This structure may be shared by multiple exportinfo structures,
290  * if they share the same buffer file.
291  * This structure contains the basic information about the buffer, such
292  * as it's location in the filesystem.
293  *
294  * 'lb_lock' protects all the fields in this structure except for 'lb_path',
295  * and 'lb_next'.
296  * 'lb_path' is a write-once/read-many field which needs no locking, it is
297  * set before the structure is linked to any exportinfo structure.
298  * 'lb_next' is protected by the log_buffer_list_lock.
299  */
300 struct log_buffer {
301 	unsigned int	lb_flags;	/* L_ONLIST set? */
302 	int		lb_refcnt;	/* references to this struct */
303 	unsigned int	lb_rec_id;	/* used to generate unique id */
304 	caddr_t		lb_path;	/* buffer file pathname */
305 	struct log_file	*lb_logfile;	/* points to log_file structure */
306 	kmutex_t	lb_lock;
307 	struct log_buffer	*lb_next;
308 	kcondvar_t	lb_cv_waiters;
309 	caddr_t		lb_records;	/* linked list of records to write */
310 	int		lb_num_recs;	/* # of records to write */
311 	ssize_t		lb_size_queued; /* number of bytes queued for write */
312 };
313 
314 #define	LOG_BUFFER_HOLD(lbp)	{ \
315 	mutex_enter(&(lbp)->lb_lock); \
316 	(lbp)->lb_refcnt++; \
317 	mutex_exit(&(lbp)->lb_lock); \
318 }
319 
320 #define	LOG_BUFFER_RELE(lbp)	{ \
321 	log_buffer_rele(lbp); \
322 }
323 
324 /*
325  * Structure for character set conversion mapping based on client address.
326  */
327 struct charset_cache {
328 	struct charset_cache *next;
329 	kiconv_t	inbound;
330 	kiconv_t	outbound;
331 	struct sockaddr	client_addr;
332 };
333 
334 /* Forward declarations */
335 struct exportinfo;
336 struct exp_visible;
337 struct svc_req;
338 
339 /*
340  * Treenodes are used to build tree representing every node which is part
341  * of nfs server pseudo namespace. They are connected with both exportinfo
342  * and exp_visible struct. They were introduced to avoid lookup of ".."
343  * in the underlying file system during unshare, which was failing if the
344  * file system was forcibly unmounted or if the directory was removed.
345  * One exp_visible_t can be shared via several treenode_t, i.e.
346  * different tree_vis can point to the same exp_visible_t.
347  * This will happen if some directory is on two different shared paths:
348  * E.g. after share /tmp/a/b1 and share /tmp/a/b2 there will be two treenodes
349  * corresponding to /tmp/a and both will have same value in tree_vis.
350  *
351  *
352  *
353  *     NEW DATA STRUCT         ORIGINAL DATA STRUCT
354  *
355  * ns_root +---+               +----------+
356  *         | / |               |PSEUDO EXP|-->+---+   +---+   +---+
357  *         +---+---------  ----+----------+   | a |-->| k |-->| b |
358  *          /\                                +---+   +---+   +---+
359  *         /  \                                .       .       .
360  *     +---+...\.........  .....................       .       .
361  *    *| a |    \              +----------+            .       .
362  *     +---+-----\-------  ----|REAL EXP a|            .       .
363  *       /        \            +----------+            .       .
364  *      /        +===+...  .............................       .
365  *     /        *| k |         +----------+                    .
366  *    /          +===+---  ----|REAL EXP k|                    .
367  *   /                         +----------+                    .
368  *  +===+................  .....................................
369  * *| b |                      +----------+
370  *  +===+----------------  ----|REAL EXP b|-->+---+
371  *     \                       +----------+   | d |
372  *     +===+.............  ...................+---+
373  *     | d |                   +----------+
374  *     +===+-------------  ----|PSEUDO EXP|-->+---+   +---+
375  *     /                       +----------+   | e |-->| g |
376  * +---+.................  ...................+---+   +---+
377  * | e |                                              .
378  * +---+                                              .
379  *    \                                               .
380  *    +---+..............  ............................
381  *   *| g |                    +----------+
382  *    +---+--------------  ----|REAL EXP g|
383  *                             +----------+
384  *
385  *
386  *
387  * +===+               +---+                    +---+
388  * | b |..mountpoint   | e |..directory/file   *| a |..node is shared
389  * +===+  (VROOT)      +---+                    +---+
390  *
391  *
392  * Bi-directional interconnect:
393  * treenode_t::tree_exi ---------  exportinfo_t::exi_tree
394  * One-way direction connection:
395  * treenode_t::tree_vis .........> exp_visible_t
396  */
397 /* Access to treenode_t is under protection of exported_lock RW_LOCK */
398 typedef struct treenode {
399 	/* support for generic n-ary trees */
400 	struct treenode *tree_parent;
401 	struct treenode *tree_child_first;
402 	struct treenode *tree_sibling; /* next sibling */
403 	/* private, nfs specific part */
404 	struct exportinfo  *tree_exi;
405 	struct exp_visible *tree_vis;
406 } treenode_t;
407 
408 /*
409  * TREE_ROOT checks if the node corresponds to a filesystem root
410  * TREE_EXPORTED checks if the node is explicitly shared
411  */
412 
413 #define	TREE_ROOT(t) \
414 	((t)->tree_exi && (t)->tree_exi->exi_vp->v_flag & VROOT)
415 
416 #define	TREE_EXPORTED(t) \
417 	((t)->tree_exi && !PSEUDO((t)->tree_exi))
418 
419 /* Root of nfs pseudo namespace */
420 extern treenode_t *ns_root;
421 
422 #define	EXPTABLESIZE   256
423 
424 struct exp_hash {
425 	struct exportinfo	*prev;  /* ptr to the previous exportinfo */
426 	struct exportinfo	*next;  /* ptr to the next exportinfo */
427 	struct exportinfo	**bckt; /* backpointer to the hash bucket */
428 };
429 
430 /*
431  * A node associated with an export entry on the
432  * list of exported filesystems.
433  *
434  * exi_count+exi_lock protects an individual exportinfo from being freed
435  * when in use.
436  *
437  * You must have the writer lock on exported_lock to add/delete an exportinfo
438  * structure to/from the list.
439  *
440  * exi_volatile_dev maps to VSW_VOLATILEDEV.  It means that the
441  * underlying fs devno can change on each mount.  When set, the server
442  * should not use va_fsid for a GETATTR(FATTR4_FSID) reply.  It must
443  * use exi_fsid because it is guaranteed to be persistent.  This isn't
444  * in any way related to NFS4 volatile filehandles.
445  */
446 struct exportinfo {
447 	struct exportdata	exi_export;
448 	fsid_t			exi_fsid;
449 	struct fid		exi_fid;
450 	struct exp_hash		fid_hash;
451 	struct exp_hash		path_hash;
452 	struct treenode		*exi_tree;
453 	fhandle_t		exi_fh;
454 	krwlock_t		exi_cache_lock;
455 	kmutex_t		exi_lock;
456 	uint_t			exi_count;
457 	vnode_t			*exi_vp;
458 	vnode_t			*exi_dvp;
459 	struct auth_cache	*exi_cache[AUTH_TABLESIZE];
460 	struct log_buffer	*exi_logbuffer;
461 	struct exp_visible	*exi_visible;
462 	struct charset_cache	*exi_charset;
463 	unsigned		exi_volatile_dev:1;
464 	unsigned		exi_moved:1;
465 #ifdef VOLATILE_FH_TEST
466 	uint32_t		exi_volatile_id;
467 	struct ex_vol_rename	*exi_vol_rename;
468 	kmutex_t		exi_vol_rename_lock;
469 #endif /* VOLATILE_FH_TEST */
470 };
471 
472 typedef struct exportinfo exportinfo_t;
473 typedef struct exportdata exportdata_t;
474 typedef struct secinfo secinfo_t;
475 
476 /*
477  * exp_visible is a visible list per filesystem. It is for filesystems
478  * that may need a limited view of its contents. A pseudo export and
479  * a real export at the mount point (VROOT) which has a subtree shared
480  * has a visible list.
481  *
482  * The exi_visible field is NULL for normal, non=pseudo filesystems
483  * which do not have any subtree exported. If the field is non-null,
484  * it points to a list of visible entries, identified by vis_fid and/or
485  * vis_ino. The presence of a "visible" list means that if this export
486  * can only have a limited view, it can only view the entries in the
487  * exp_visible list. The directories in the fid list comprise paths that
488  * lead to exported directories.
489  *
490  * The vis_count field records the number of paths in this filesystem
491  * that use this directory. The vis_exported field is non-zero if the
492  * entry is an exported directory (leaf node).
493  *
494  * exp_visible itself is not reference counted. Each exp_visible is
495  * referenced twice:
496  * 1) from treenode::tree_vis
497  * 2) linked from exportinfo::exi_visible
498  * The 'owner' of exp_visible is the exportinfo structure. exp_visible should
499  * be always freed only from exportinfo_t, never from treenode::tree_vis.
500  */
501 
502 struct exp_visible {
503 	vnode_t			*vis_vp;
504 	fid_t			vis_fid;
505 	u_longlong_t		vis_ino;
506 	int			vis_count;
507 	int			vis_exported;
508 	struct exp_visible	*vis_next;
509 	struct secinfo		*vis_secinfo;
510 	int			vis_seccnt;
511 };
512 typedef struct exp_visible exp_visible_t;
513 
514 #define	PSEUDO(exi)	((exi)->exi_export.ex_flags & EX_PSEUDO)
515 #define	EXP_LINKED(exi)	((exi)->fid_hash.bckt != NULL)
516 
517 #define	EQFSID(fsidp1, fsidp2)	\
518 	(((fsidp1)->val[0] == (fsidp2)->val[0]) && \
519 	    ((fsidp1)->val[1] == (fsidp2)->val[1]))
520 
521 #define	EQFID(fidp1, fidp2)	\
522 	((fidp1)->fid_len == (fidp2)->fid_len && \
523 	    bcmp((char *)(fidp1)->fid_data, (char *)(fidp2)->fid_data, \
524 	    (uint_t)(fidp1)->fid_len) == 0)
525 
526 #define	exportmatch(exi, fsid, fid)	\
527 	(EQFSID(&(exi)->exi_fsid, (fsid)) && EQFID(&(exi)->exi_fid, (fid)))
528 
529 /*
530  * Returns true iff exported filesystem is read-only to the given host.
531  *
532  * Note:  this macro should be as fast as possible since it's called
533  * on each NFS modification request.
534  */
535 #define	rdonly(exi, req)  (nfsauth_access(exi, req) & NFSAUTH_RO)
536 #define	rdonly4(exi, vp, req)  \
537 	(vn_is_readonly(vp) || \
538 	    (nfsauth4_access(exi, vp, req) & (NFSAUTH_RO | NFSAUTH_LIMITED)))
539 
540 extern int	nfsauth4_access(struct exportinfo *, vnode_t *,
541 				struct svc_req *);
542 extern int	nfsauth4_secinfo_access(struct exportinfo *,
543 				struct svc_req *, int, int);
544 extern int	nfs_fhbcmp(char *, char *, int);
545 extern int	nfs_exportinit(void);
546 extern void	nfs_exportfini(void);
547 extern int	chk_clnt_sec(struct exportinfo *, struct svc_req *req);
548 extern int	makefh(fhandle_t *, struct vnode *, struct exportinfo *);
549 extern int	makefh_ol(fhandle_t *, struct exportinfo *, uint_t);
550 extern int	makefh3(nfs_fh3 *, struct vnode *, struct exportinfo *);
551 extern int	makefh3_ol(nfs_fh3 *, struct exportinfo *, uint_t);
552 extern vnode_t *nfs_fhtovp(fhandle_t *, struct exportinfo *);
553 extern vnode_t *nfs3_fhtovp(nfs_fh3 *, struct exportinfo *);
554 extern vnode_t *lm_fhtovp(fhandle_t *fh);
555 extern vnode_t *lm_nfs3_fhtovp(nfs_fh3 *fh);
556 extern struct	exportinfo *checkexport(fsid_t *, struct fid *);
557 extern struct	exportinfo *checkexport4(fsid_t *, struct fid *, vnode_t *vp);
558 extern void	exi_hold(struct exportinfo *);
559 extern void	exi_rele(struct exportinfo *);
560 extern struct exportinfo *nfs_vptoexi(vnode_t *, vnode_t *, cred_t *, int *,
561     int *, bool_t);
562 extern int	nfs_check_vpexi(vnode_t *, vnode_t *, cred_t *,
563 			struct exportinfo **);
564 extern void	export_link(struct exportinfo *);
565 extern void	export_unlink(struct exportinfo *);
566 extern vnode_t *untraverse(vnode_t *);
567 extern int	vn_is_nfs_reparse(vnode_t *, cred_t *);
568 extern int	client_is_downrev(struct svc_req *);
569 extern char    *build_symlink(vnode_t *, cred_t *, size_t *);
570 
571 /*
572  * Functions that handle the NFSv4 server namespace
573  */
574 extern exportinfo_t *vis2exi(treenode_t *);
575 extern int	treeclimb_export(struct exportinfo *);
576 extern void	treeclimb_unexport(struct exportinfo *);
577 extern int	nfs_visible(struct exportinfo *, vnode_t *, int *);
578 extern int	nfs_visible_inode(struct exportinfo *, ino64_t, int *);
579 extern int	has_visible(struct exportinfo *, vnode_t *);
580 extern void	free_visible(struct exp_visible *);
581 extern int	nfs_exported(struct exportinfo *, vnode_t *);
582 extern struct exportinfo *pseudo_exportfs(vnode_t *, fid_t *,
583     struct exp_visible *, struct exportdata *);
584 extern int	vop_fid_pseudo(vnode_t *, fid_t *fidp);
585 extern int	nfs4_vget_pseudo(struct exportinfo *, vnode_t **, fid_t *);
586 /*
587  * Functions that handle the NFSv4 server namespace security flavors
588  * information.
589  */
590 extern void	srv_secinfo_exp2pseu(struct exportdata *, struct exportdata *);
591 extern void	srv_secinfo_list_free(struct secinfo *, int);
592 
593 /*
594  * "public" and default (root) location for public filehandle
595  */
596 extern struct exportinfo *exi_public, *exi_root;
597 extern fhandle_t nullfh2;	/* for comparing V2 filehandles */
598 extern krwlock_t exported_lock;
599 extern struct exportinfo *exptable[];
600 
601 /*
602  * Two macros for identifying public filehandles.
603  * A v2 public filehandle is 32 zero bytes.
604  * A v3 public filehandle is zero length.
605  */
606 #define	PUBLIC_FH2(fh) \
607 	((fh)->fh_fsid.val[1] == 0 && \
608 	bcmp((fh), &nullfh2, sizeof (fhandle_t)) == 0)
609 
610 #define	PUBLIC_FH3(fh) \
611 	((fh)->fh3_length == 0)
612 
613 extern int	makefh4(nfs_fh4 *, struct vnode *, struct exportinfo *);
614 extern vnode_t *nfs4_fhtovp(nfs_fh4 *, struct exportinfo *, nfsstat4 *);
615 
616 #endif /* _KERNEL */
617 
618 #ifdef	__cplusplus
619 }
620 #endif
621 
622 #endif	/* _NFS_EXPORT_H */
623