2 * Copyright (c) 2008 Isilon Inc http://www.isilon.com/
3 * Authors: Doug Rabson <dfr@rabson.org>
4 * Developed with Red Inc: Alfred Perlstein <alfred@freebsd.org>
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions
9 * 1. Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * 2. Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
15 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
16 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
17 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
18 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
19 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
20 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
21 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
23 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
24 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
31 * Copyright 2012 Nexenta Systems, Inc. All rights reserved.
32 * Copyright (c) 2012 by Delphix. All rights reserved.
36 * NFS Lock Manager (NLM) private declarations, etc.
38 * Source code derived from FreeBSD nlm.h
44 #include <sys/cmn_err.h>
45 #include <sys/queue.h>
46 #include <sys/modhash.h>
49 #define RPC_MSGOUT(args...) cmn_err(CE_NOTE, args)
50 #define NLM_ERR(...) cmn_err(CE_NOTE, __VA_ARGS__)
51 #define NLM_WARN(...) cmn_err(CE_WARN, __VA_ARGS__)
64 * Maximum offset supported by NLM calls using the older
65 * (32-bit) versions of the protocol.
67 #define MAX_UOFF32 0xffffffffULL
76 * How to read the code: probably the best point to start
77 * it the nlm_host structure that is sort of most major
78 * structure in klmmod. nlm_host is closely tied with all
79 * other NLM structures.
81 * There're three major locks we use inside NLM:
82 * 1) Global read-write lock (lm_lck) that is used to
83 * protect operations with sysid allocation and
84 * management of zone globals structures for each
86 * 2) Zone global lock: (nlm_globals->lock) is a mutex
87 * used to protect all operations inside particular
89 * 3) Host's lock: (nlm_host->nh_lock) is per-host mutex
90 * used to protect host's internal fields and all
91 * operations with the given host.
93 * Locks order _must_ obey the following scheme:
94 * lm_lck then nlm_globals->lock then nlm_host->nh_lock
97 * (g) locked by lm_lck
98 * (z) locked by nlm_globals->lock
99 * (l) locked by host->nh_lock
100 * (c) const until freeing
104 * Callback functions for nlm_do_lock() and others.
106 * Calls to nlm_do_lock are unusual, because it needs to handle
107 * the reply itself, instead of letting it happen the normal way.
108 * It also needs to make an RPC call _back_ to the client when a
109 * blocked lock request completes.
111 * We pass three callback functions to nlm_do_lock:
112 * nlm_reply_cb: send a normal RPC reply
113 * nlm_res_cb: do a _res (message style) RPC (call)
114 * nlm_testargs_cb: do a "granted" RPC call (after blocking)
115 * Only one of the 1st or 2nd is used.
116 * The 3rd is used only for blocking
118 * We also use callback functions for all the _msg variants
119 * of the NLM svc calls, where the reply is a reverse call.
120 * The nlm_testres_cb is used by the _test_msg svc calls.
121 * The nlm_res_cb type is used by the other _msg calls.
123 typedef bool_t (*nlm_reply_cb
)(SVCXPRT
*, nlm4_res
*);
124 typedef enum clnt_stat (*nlm_res_cb
)(nlm4_res
*, void *, CLIENT
*);
125 typedef enum clnt_stat (*nlm_testargs_cb
)(nlm4_testargs
*, void *, CLIENT
*);
126 typedef enum clnt_stat (*nlm_testres_cb
)(nlm4_testres
*, void *, CLIENT
*);
129 * NLM sleeping lock request.
131 * Sleeping lock requests are server side only objects
132 * that are created when client asks server to add new
133 * sleeping lock and when this lock needs to block.
134 * Server keeps a track of these requests in order to be
135 * able to cancel them or clean them up.
137 * Sleeping lock requests are closely tiled with particular
138 * vnode or, strictly speaking, NLM vhold object that holds
142 * nsr_fl: an information about file lock
143 * nsr_link: a list node to store lock requests
147 struct flock64 nsr_fl
;
148 TAILQ_ENTRY(nlm_slreq
) nsr_link
;
150 TAILQ_HEAD(nlm_slreq_list
, nlm_slreq
);
153 * NLM vhold object is a sort of wrapper on vnodes remote
154 * clients have locked (or added share reservation)
155 * on NLM server. Vhold keeps vnode held (by VN_HOLD())
156 * while vnode has any locks or shares made by parent host.
157 * Vholds are used for two purposes:
158 * 1) Hold vnode (with VN_HOLD) while it has any locks;
159 * 2) Keep a track of all vnodes remote host touched
160 * with lock/share operations on NLM server, so that NLM
161 * can know what vnodes are potentially locked;
163 * Vholds are used on server side only. For server side it's really
164 * important to keep vnodes held while they potentially have
165 * any locks/shares. In contrast, it's not important for clinet
166 * side at all. When particular vnode comes to the NLM client side
167 * code, it's already held (VN_HOLD) by the process calling
168 * lock/share function (it's referenced because client calls open()
169 * before making locks or shares).
171 * Each NLM host object has a collection of vholds associated
172 * with vnodes host touched earlier by adding locks or shares.
173 * Having this collection allows us to decide if host is still
174 * in use. When it has any vhold objects it's considered to be
175 * in use. Otherwise we're free to destroy it.
177 * Vholds are destroyed by the NLM garbage collecter thread that
178 * periodically checks whether they have any locks or shares.
179 * Checking occures when parent host is untouched by client
180 * or server for some period of time.
183 * nv_vp: a pointer to vnode that is hold by given nlm_vhold
184 * nv_refcnt: reference counter (non zero when vhold is inuse)
185 * nv_slreqs: sleeping lock requests that were made on the nv_vp
186 * nv_link: list node to store vholds in host's nh_vnodes_list
189 vnode_t
*nv_vp
; /* (c) */
190 int nv_refcnt
; /* (l) */
191 struct nlm_slreq_list nv_slreqs
; /* (l) */
192 TAILQ_ENTRY(nlm_vhold
) nv_link
; /* (l) */
194 TAILQ_HEAD(nlm_vhold_list
, nlm_vhold
);
197 * Client side sleeping lock state.
198 * - NLM_SL_BLOCKED: some thread is blocked on this lock
199 * - NLM_SL_GRANTED: server granted us the lock
200 * - NLM_SL_CANCELLED: the lock is cancelled (i.e. invalid/inactive)
202 typedef enum nlm_slock_state
{
210 * A client side sleeping lock request (set by F_SETLKW)
211 * stored in nlm_slocks collection of nlm_globals.
214 * nsl_state: Sleeping lock state.
215 * (see nlm_slock_state for more information)
216 * nsl_cond: Condvar that is used when sleeping lock
217 * needs to wait for a GRANT callback
218 * or cancellation event.
219 * nsl_lock: nlm4_lock structure that is sent to the server
220 * nsl_fh: Filehandle that corresponds to nw_vp
221 * nsl_host: A host owning this sleeping lock
222 * nsl_vp: A vnode sleeping lock is waiting on.
223 * nsl_link: A list node for nlm_globals->nlm_slocks list.
226 nlm_slock_state_t nsl_state
; /* (z) */
227 kcondvar_t nsl_cond
; /* (z) */
228 nlm4_lock nsl_lock
; /* (c) */
229 struct netobj nsl_fh
; /* (c) */
230 struct nlm_host
*nsl_host
; /* (c) */
231 struct vnode
*nsl_vp
; /* (c) */
232 TAILQ_ENTRY(nlm_slock
) nsl_link
; /* (z) */
234 TAILQ_HEAD(nlm_slock_list
, nlm_slock
);
237 * Share reservation description. NLM tracks all active
238 * share reservations made by the client side, so that
239 * they can be easily recovered if remote NLM server
240 * reboots. Share reservations tracking is also useful
241 * when NLM needs to determine whether host owns any
242 * resources on the system and can't be destroyed.
245 * ns_shr: share reservation description
246 * ns_vp: a pointer to vnode where share reservation is located
247 * ns_next: next nlm_shres instance (or NULL if next item isn't
251 struct shrlock
*ns_shr
;
253 struct nlm_shres
*ns_next
;
257 * NLM RPC handle object.
259 * In kRPC subsystem it's unsafe to use one RPC handle by
260 * several threads simultaneously. It was designed so that
261 * each thread has to create an RPC handle that it'll use.
262 * RPC handle creation can be quite expensive operation, especially
263 * with session oriented protocols (such as TCP) that need to
264 * establish session at first. NLM RPC handle object is a sort of
265 * wrapper on kRPC handle object that can be cached and used in
266 * future. We store all created RPC handles for given host in a
267 * host's RPC handles cache, so that to make new requests threads
268 * can simply take ready objects from the cache. That improves
272 * nr_handle: a kRPC handle itself.
273 * nr_vers: a version of NLM protocol kRPC handle was
275 * nr_link: a list node to store NLM RPC handles in the host
278 typedef struct nlm_rpc
{
279 CLIENT
*nr_handle
; /* (l) */
280 rpcvers_t nr_vers
; /* (c) */
281 TAILQ_ENTRY(nlm_rpc
) nr_link
; /* (l) */
283 TAILQ_HEAD(nlm_rpch_list
, nlm_rpc
);
286 * Describes the state of NLM host's RPC binding.
287 * RPC binding can be in one of three states:
288 * 1) NRPCB_NEED_UPDATE:
289 * Binding is either not initialized or stale.
290 * 2) NRPCB_UPDATE_INPROGRESS:
291 * When some thread updates host's RPC binding,
292 * it sets binding's state to NRPCB_UPDATE_INPROGRESS
293 * which denotes that other threads must wait until
294 * update process is finished.
296 * Denotes that host's RPC binding is both initialized
299 enum nlm_rpcb_state
{
300 NRPCB_NEED_UPDATE
= 0,
301 NRPCB_UPDATE_INPROGRESS
,
308 #define NLM_NH_MONITORED 0x01
309 #define NLM_NH_RECLAIM 0x02
310 #define NLM_NH_INIDLE 0x04
311 #define NLM_NH_SUSPEND 0x08
314 * NLM host object is the most major structure in NLM.
315 * It identifies remote client or remote server or both.
316 * NLM host object keep a track of all vnodes client/server
317 * locked and all sleeping locks it has. All lock/unlock
318 * operations are done using host object.
321 * nh_lock: a mutex protecting host object fields
322 * nh_refs: reference counter. Identifies how many threads
323 * uses this host object.
324 * nh_link: a list node for keeping host in zone-global list.
325 * nh_by_addr: an AVL tree node for keeping host in zone-global tree.
326 * Host can be looked up in the tree by <netid, address>
328 * nh_name: host name.
329 * nh_netid: netid string identifying type of transport host uses.
330 * nh_knc: host's knetconfig (used by kRPC subsystem).
331 * nh_addr: host's address (either IPv4 or IPv6).
332 * nh_sysid: unique sysid associated with this host.
333 * nh_state: last seen host's state reported by NSM.
334 * nh_flags: ORed host flags.
335 * nh_idle_timeout: host idle timeout. When expired host is freed.
336 * nh_recl_cv: condition variable used for reporting that reclamation
337 * process is finished.
338 * nh_rpcb_cv: condition variable that is used to make sure
339 * that only one thread renews host's RPC binding.
340 * nh_rpcb_ustat: error code returned by RPC binding update operation.
341 * nh_rpcb_state: host's RPC binding state (see enum nlm_rpcb_state
343 * nh_rpchc: host's RPC handles cache.
344 * nh_vholds_by_vp: a hash table of all vholds host owns. (used for lookup)
345 * nh_vholds_list: a linked list of all vholds host owns. (used for iteration)
346 * nh_shrlist: a list of all active share resevations on the client side.
347 * nh_reclaimer: a pointer to reclamation thread (kthread_t)
348 * NULL if reclamation thread doesn't exist
351 kmutex_t nh_lock
; /* (c) */
352 volatile uint_t nh_refs
; /* (z) */
353 TAILQ_ENTRY(nlm_host
) nh_link
; /* (z) */
354 avl_node_t nh_by_addr
; /* (z) */
355 char *nh_name
; /* (c) */
356 char *nh_netid
; /* (c) */
357 struct knetconfig nh_knc
; /* (c) */
358 struct netbuf nh_addr
; /* (c) */
359 sysid_t nh_sysid
; /* (c) */
360 int32_t nh_state
; /* (z) */
361 clock_t nh_idle_timeout
; /* (z) */
362 uint8_t nh_flags
; /* (z) */
363 kcondvar_t nh_recl_cv
; /* (z) */
364 kcondvar_t nh_rpcb_cv
; /* (l) */
365 enum clnt_stat nh_rpcb_ustat
; /* (l) */
366 enum nlm_rpcb_state nh_rpcb_state
; /* (l) */
367 struct nlm_rpch_list nh_rpchc
; /* (l) */
368 mod_hash_t
*nh_vholds_by_vp
; /* (l) */
369 struct nlm_vhold_list nh_vholds_list
; /* (l) */
370 struct nlm_shres
*nh_shrlist
; /* (l) */
371 kthread_t
*nh_reclaimer
; /* (l) */
373 TAILQ_HEAD(nlm_host_list
, nlm_host
);
376 * nlm_nsm structure describes RPC client handle that can be
377 * used to communicate with local NSM via kRPC.
379 * We need to wrap handle with nlm_nsm structure because kRPC
380 * can not share one handle between several threads. It's assumed
381 * that NLM uses only one NSM handle per zone, thus all RPC operations
382 * on NSM's handle are serialized using nlm_nsm->sem semaphore.
384 * nlm_nsm also contains refcnt field used for reference counting.
385 * It's used because there exist a possibility of simultaneous
386 * execution of NLM shutdown operation and host monitor/unmonitor
390 * ns_sem: a semaphore for serialization network operations to statd
391 * ns_knc: a kneconfig describing transport that is used for communication
392 * ns_addr: an address of local statd we're talking to
393 * ns_handle: an RPC handle used for talking to local statd using the status
394 * monitor protocol (SM_PROG)
395 * ns_addr_handle: an RPC handle used for talking to local statd using the
396 * address registration protocol (NSM_ADDR_PROGRAM)
400 struct knetconfig ns_knc
; /* (c) */
401 struct netbuf ns_addr
; /* (c) */
402 CLIENT
*ns_handle
; /* (c) */
403 CLIENT
*ns_addr_handle
; /* (c) */
407 * Could use flock.h flk_nlm_status_t instead, but
408 * prefer our own enum with initial zero...
418 * nlm_globals structure allows NLM be zone aware. The structure
419 * collects all "global variables" NLM has for each zone.
421 * struct nlm_globals:
422 * lock: mutex protecting all operations inside given zone
423 * grace_threshold: grace period expiration time (in ticks)
424 * lockd_pid: PID of lockd user space daemon
425 * run_status: run status of klmmod inside given zone
426 * nsm_state: state obtained from local statd during klmmod startup
427 * nlm_gc_thread: garbage collector thread
428 * nlm_gc_sched_cv: condvar that can be signalled to wakeup GC
429 * nlm_gc_finish_cv: condvar that is signalled just before GC thread exits
430 * nlm_nsm: an object describing RPC handle used for talking to local statd
431 * nlm_hosts_tree: an AVL tree of all hosts in the given zone
432 * (used for hosts lookup by <netid, address> pair)
433 * nlm_hosts_hash: a hash table of all hosts in the given zone
434 * (used for hosts lookup by sysid)
435 * nlm_idle_hosts: a list of all hosts that are idle state (i.e. unused)
436 * nlm_slocks: a list of all client-side sleeping locks in the zone
437 * cn_idle_tmo: a value of idle timeout (in seconds) obtained from lockd
438 * grace_period: a value of grace period (in seconds) obtained from lockd
439 * retrans_tmo: a value of retransmission timeout (in seconds) obtained
441 * clean_lock: mutex used to serialize clear_locks calls.
442 * nlm_link: a list node used for keeping all nlm_globals objects
443 * in one global linked list.
447 clock_t grace_threshold
; /* (z) */
448 pid_t lockd_pid
; /* (z) */
449 nlm_run_status_t run_status
; /* (z) */
450 int32_t nsm_state
; /* (z) */
451 kthread_t
*nlm_gc_thread
; /* (z) */
452 kcondvar_t nlm_gc_sched_cv
; /* (z) */
453 kcondvar_t nlm_gc_finish_cv
; /* (z) */
454 struct nlm_nsm nlm_nsm
; /* (z) */
455 avl_tree_t nlm_hosts_tree
; /* (z) */
456 mod_hash_t
*nlm_hosts_hash
; /* (z) */
457 struct nlm_host_list nlm_idle_hosts
; /* (z) */
458 struct nlm_slock_list nlm_slocks
; /* (z) */
459 int cn_idle_tmo
; /* (z) */
460 int grace_period
; /* (z) */
461 int retrans_tmo
; /* (z) */
462 kmutex_t clean_lock
; /* (c) */
463 TAILQ_ENTRY(nlm_globals
) nlm_link
; /* (g) */
465 TAILQ_HEAD(nlm_globals_list
, nlm_globals
);
469 * This is what we pass as the "owner handle" for NLM_LOCK.
470 * This lets us find the blocked lock in NLM_GRANTED.
471 * It also exposes on the wire what we're using as the
472 * sysid for any server, which can be very helpful for
473 * problem diagnosis. (Observability is good).
475 struct nlm_owner_handle
{
476 sysid_t oh_sysid
; /* of remote host */
480 * Number retries NLM RPC call is repeatead in case of failure.
481 * (used in case of conectionless transport).
483 #define NLM_RPC_RETRIES 5
486 * Klmmod global variables
488 extern krwlock_t lm_lck
;
489 extern zone_key_t nlm_zone_key
;
492 * NLM interface functions (called directly by
493 * either klmmod or klmpos)
495 extern int nlm_frlock(struct vnode
*, int, struct flock64
*, int, u_offset_t
,
496 struct cred
*, struct netobj
*, struct flk_callback
*, int);
497 extern int nlm_shrlock(struct vnode
*, int, struct shrlock
*, int,
498 struct netobj
*, int);
499 extern int nlm_safemap(const vnode_t
*);
500 extern int nlm_safelock(vnode_t
*, const struct flock64
*, cred_t
*);
501 extern int nlm_has_sleep(const vnode_t
*);
502 extern void nlm_register_lock_locally(struct vnode
*, struct nlm_host
*,
503 struct flock64
*, int, u_offset_t
);
504 int nlm_vp_active(const vnode_t
*vp
);
505 void nlm_sysid_free(sysid_t
);
506 int nlm_vp_active(const vnode_t
*);
507 void nlm_unexport(struct exportinfo
*);
510 * NLM startup/shutdown
512 int nlm_svc_starting(struct nlm_globals
*, struct file
*,
513 const char *, struct knetconfig
*);
514 void nlm_svc_stopping(struct nlm_globals
*);
515 int nlm_svc_add_ep(struct file
*, const char *, struct knetconfig
*);
520 void nlm_cprsuspend(void);
521 void nlm_cprresume(void);
524 * NLM internal functions for initialization.
527 void nlm_rpc_init(void);
528 void nlm_rpc_cache_destroy(struct nlm_host
*);
529 void nlm_globals_register(struct nlm_globals
*);
530 void nlm_globals_unregister(struct nlm_globals
*);
531 sysid_t
nlm_sysid_alloc(void);
534 * Client reclamation/cancelation
536 void nlm_reclaim_client(struct nlm_globals
*, struct nlm_host
*);
537 void nlm_client_cancel_all(struct nlm_globals
*, struct nlm_host
*);
539 /* (nlm_rpc_clnt.c) */
540 enum clnt_stat
nlm_null_rpc(CLIENT
*, rpcvers_t
);
541 enum clnt_stat
nlm_test_rpc(nlm4_testargs
*, nlm4_testres
*,
542 CLIENT
*, rpcvers_t
);
543 enum clnt_stat
nlm_lock_rpc(nlm4_lockargs
*, nlm4_res
*,
544 CLIENT
*, rpcvers_t
);
545 enum clnt_stat
nlm_cancel_rpc(nlm4_cancargs
*, nlm4_res
*,
546 CLIENT
*, rpcvers_t
);
547 enum clnt_stat
nlm_unlock_rpc(nlm4_unlockargs
*, nlm4_res
*,
548 CLIENT
*, rpcvers_t
);
549 enum clnt_stat
nlm_share_rpc(nlm4_shareargs
*, nlm4_shareres
*,
550 CLIENT
*, rpcvers_t
);
551 enum clnt_stat
nlm_unshare_rpc(nlm4_shareargs
*, nlm4_shareres
*,
552 CLIENT
*, rpcvers_t
);
556 * RPC service functions.
559 void nlm_prog_3(struct svc_req
*rqstp
, SVCXPRT
*transp
);
560 void nlm_prog_4(struct svc_req
*rqstp
, SVCXPRT
*transp
);
563 * Functions for working with knetconfigs (nlm_netconfig.c)
565 const char *nlm_knc_to_netid(struct knetconfig
*);
566 int nlm_knc_from_netid(const char *, struct knetconfig
*);
569 * NLM host functions (nlm_impl.c)
571 struct nlm_host
*nlm_host_findcreate(struct nlm_globals
*, char *,
572 const char *, struct netbuf
*);
573 struct nlm_host
*nlm_host_find(struct nlm_globals
*,
574 const char *, struct netbuf
*);
575 struct nlm_host
*nlm_host_find_by_sysid(struct nlm_globals
*, sysid_t
);
576 void nlm_host_release(struct nlm_globals
*, struct nlm_host
*);
578 void nlm_host_monitor(struct nlm_globals
*, struct nlm_host
*, int);
579 void nlm_host_unmonitor(struct nlm_globals
*, struct nlm_host
*);
581 void nlm_host_notify_server(struct nlm_host
*, int32_t);
582 void nlm_host_notify_client(struct nlm_host
*, int32_t);
584 int nlm_host_get_state(struct nlm_host
*);
586 struct nlm_vhold
*nlm_vhold_get(struct nlm_host
*, vnode_t
*);
587 void nlm_vhold_release(struct nlm_host
*, struct nlm_vhold
*);
588 struct nlm_vhold
*nlm_vhold_find_locked(struct nlm_host
*, const vnode_t
*);
590 struct nlm_slock
*nlm_slock_register(struct nlm_globals
*,
591 struct nlm_host
*, struct nlm4_lock
*, struct vnode
*);
592 void nlm_slock_unregister(struct nlm_globals
*, struct nlm_slock
*);
593 int nlm_slock_wait(struct nlm_globals
*, struct nlm_slock
*, uint_t
);
594 int nlm_slock_grant(struct nlm_globals
*,
595 struct nlm_host
*, struct nlm4_lock
*);
596 void nlm_host_cancel_slocks(struct nlm_globals
*, struct nlm_host
*);
598 int nlm_slreq_register(struct nlm_host
*,
599 struct nlm_vhold
*, struct flock64
*);
600 int nlm_slreq_unregister(struct nlm_host
*,
601 struct nlm_vhold
*, struct flock64
*);
603 void nlm_shres_track(struct nlm_host
*, vnode_t
*, struct shrlock
*);
604 void nlm_shres_untrack(struct nlm_host
*, vnode_t
*, struct shrlock
*);
605 struct nlm_shres
*nlm_get_active_shres(struct nlm_host
*);
606 void nlm_free_shrlist(struct nlm_shres
*);
608 int nlm_host_wait_grace(struct nlm_host
*);
609 int nlm_host_cmp(const void *, const void *);
610 void nlm_copy_netobj(struct netobj
*, struct netobj
*);
612 int nlm_host_get_rpc(struct nlm_host
*, int, nlm_rpc_t
**);
613 void nlm_host_rele_rpc(struct nlm_host
*, nlm_rpc_t
*);
616 * NLM server functions (nlm_service.c)
618 int nlm_vp_active(const vnode_t
*vp
);
619 void nlm_do_notify1(nlm_sm_status
*, void *, struct svc_req
*);
620 void nlm_do_notify2(nlm_sm_status
*, void *, struct svc_req
*);
621 void nlm_do_test(nlm4_testargs
*, nlm4_testres
*,
622 struct svc_req
*, nlm_testres_cb
);
623 void nlm_do_lock(nlm4_lockargs
*, nlm4_res
*, struct svc_req
*,
624 nlm_reply_cb
, nlm_res_cb
, nlm_testargs_cb
);
625 void nlm_do_cancel(nlm4_cancargs
*, nlm4_res
*,
626 struct svc_req
*, nlm_res_cb
);
627 void nlm_do_unlock(nlm4_unlockargs
*, nlm4_res
*,
628 struct svc_req
*, nlm_res_cb
);
629 void nlm_do_granted(nlm4_testargs
*, nlm4_res
*,
630 struct svc_req
*, nlm_res_cb
);
631 void nlm_do_share(nlm4_shareargs
*, nlm4_shareres
*, struct svc_req
*);
632 void nlm_do_unshare(nlm4_shareargs
*, nlm4_shareres
*, struct svc_req
*);
633 void nlm_do_free_all(nlm4_notify
*, void *, struct svc_req
*);
638 enum clnt_stat
nlm_clnt_call(CLIENT
*, rpcproc_t
, xdrproc_t
,
639 caddr_t
, xdrproc_t
, caddr_t
, struct timeval
);
640 bool_t
nlm_caller_is_local(SVCXPRT
*);
642 #endif /* _NLM_NLM_H_ */