1bbaa8b60SDan Kruchinin /*
2bbaa8b60SDan Kruchinin * Copyright (c) 2008 Isilon Inc http://www.isilon.com/
3bbaa8b60SDan Kruchinin * Authors: Doug Rabson <dfr@rabson.org>
4bbaa8b60SDan Kruchinin * Developed with Red Inc: Alfred Perlstein <alfred@freebsd.org>
5bbaa8b60SDan Kruchinin *
6bbaa8b60SDan Kruchinin * Redistribution and use in source and binary forms, with or without
7bbaa8b60SDan Kruchinin * modification, are permitted provided that the following conditions
8bbaa8b60SDan Kruchinin * are met:
9bbaa8b60SDan Kruchinin * 1. Redistributions of source code must retain the above copyright
10bbaa8b60SDan Kruchinin * notice, this list of conditions and the following disclaimer.
11bbaa8b60SDan Kruchinin * 2. Redistributions in binary form must reproduce the above copyright
12bbaa8b60SDan Kruchinin * notice, this list of conditions and the following disclaimer in the
13bbaa8b60SDan Kruchinin * documentation and/or other materials provided with the distribution.
14bbaa8b60SDan Kruchinin *
15bbaa8b60SDan Kruchinin * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
16bbaa8b60SDan Kruchinin * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
17bbaa8b60SDan Kruchinin * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
18bbaa8b60SDan Kruchinin * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
19bbaa8b60SDan Kruchinin * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
20bbaa8b60SDan Kruchinin * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
21bbaa8b60SDan Kruchinin * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22bbaa8b60SDan Kruchinin * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
23bbaa8b60SDan Kruchinin * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
24bbaa8b60SDan Kruchinin * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
25bbaa8b60SDan Kruchinin * SUCH DAMAGE.
26bbaa8b60SDan Kruchinin */
27bbaa8b60SDan Kruchinin
28bbaa8b60SDan Kruchinin /*
29b1087aecSMarcel Telka * Copyright 2015 Nexenta Systems, Inc. All rights reserved.
30bbaa8b60SDan Kruchinin * Copyright (c) 2012 by Delphix. All rights reserved.
31bbaa8b60SDan Kruchinin */
32bbaa8b60SDan Kruchinin
33bbaa8b60SDan Kruchinin /*
34bbaa8b60SDan Kruchinin * NFS LockManager, start/stop, support functions, etc.
35bbaa8b60SDan Kruchinin * Most of the interesting code is here.
36bbaa8b60SDan Kruchinin *
37bbaa8b60SDan Kruchinin * Source code derived from FreeBSD nlm_prot_impl.c
38bbaa8b60SDan Kruchinin */
39bbaa8b60SDan Kruchinin
40bbaa8b60SDan Kruchinin #include <sys/param.h>
41bbaa8b60SDan Kruchinin #include <sys/systm.h>
42bbaa8b60SDan Kruchinin #include <sys/thread.h>
43bbaa8b60SDan Kruchinin #include <sys/fcntl.h>
44bbaa8b60SDan Kruchinin #include <sys/flock.h>
45bbaa8b60SDan Kruchinin #include <sys/mount.h>
46bbaa8b60SDan Kruchinin #include <sys/priv.h>
47bbaa8b60SDan Kruchinin #include <sys/proc.h>
48bbaa8b60SDan Kruchinin #include <sys/share.h>
49bbaa8b60SDan Kruchinin #include <sys/socket.h>
50bbaa8b60SDan Kruchinin #include <sys/syscall.h>
51bbaa8b60SDan Kruchinin #include <sys/syslog.h>
52bbaa8b60SDan Kruchinin #include <sys/systm.h>
53bbaa8b60SDan Kruchinin #include <sys/class.h>
54bbaa8b60SDan Kruchinin #include <sys/unistd.h>
55bbaa8b60SDan Kruchinin #include <sys/vnode.h>
56bbaa8b60SDan Kruchinin #include <sys/vfs.h>
57bbaa8b60SDan Kruchinin #include <sys/queue.h>
58bbaa8b60SDan Kruchinin #include <sys/bitmap.h>
59bbaa8b60SDan Kruchinin #include <sys/sdt.h>
60bbaa8b60SDan Kruchinin #include <netinet/in.h>
61bbaa8b60SDan Kruchinin
62bbaa8b60SDan Kruchinin #include <rpc/rpc.h>
63bbaa8b60SDan Kruchinin #include <rpc/xdr.h>
64bbaa8b60SDan Kruchinin #include <rpc/pmap_prot.h>
65bbaa8b60SDan Kruchinin #include <rpc/pmap_clnt.h>
66bbaa8b60SDan Kruchinin #include <rpc/rpcb_prot.h>
67bbaa8b60SDan Kruchinin
68bbaa8b60SDan Kruchinin #include <rpcsvc/nlm_prot.h>
69bbaa8b60SDan Kruchinin #include <rpcsvc/sm_inter.h>
70bbaa8b60SDan Kruchinin #include <rpcsvc/nsm_addr.h>
71bbaa8b60SDan Kruchinin
72bbaa8b60SDan Kruchinin #include <nfs/nfs.h>
73bbaa8b60SDan Kruchinin #include <nfs/nfs_clnt.h>
74bbaa8b60SDan Kruchinin #include <nfs/export.h>
75bbaa8b60SDan Kruchinin #include <nfs/rnode.h>
76bbaa8b60SDan Kruchinin #include <nfs/lm.h>
77bbaa8b60SDan Kruchinin
78bbaa8b60SDan Kruchinin #include "nlm_impl.h"
79bbaa8b60SDan Kruchinin
80bbaa8b60SDan Kruchinin struct nlm_knc {
81bbaa8b60SDan Kruchinin struct knetconfig n_knc;
82bbaa8b60SDan Kruchinin const char *n_netid;
83bbaa8b60SDan Kruchinin };
84bbaa8b60SDan Kruchinin
85bbaa8b60SDan Kruchinin /*
86bbaa8b60SDan Kruchinin * Number of attempts NLM tries to obtain RPC binding
87bbaa8b60SDan Kruchinin * of local statd.
88bbaa8b60SDan Kruchinin */
89bbaa8b60SDan Kruchinin #define NLM_NSM_RPCBIND_RETRIES 10
90bbaa8b60SDan Kruchinin
91bbaa8b60SDan Kruchinin /*
92bbaa8b60SDan Kruchinin * Timeout (in seconds) NLM waits before making another
93bbaa8b60SDan Kruchinin * attempt to obtain RPC binding of local statd.
94bbaa8b60SDan Kruchinin */
95bbaa8b60SDan Kruchinin #define NLM_NSM_RPCBIND_TIMEOUT 5
96bbaa8b60SDan Kruchinin
97bbaa8b60SDan Kruchinin /*
98bbaa8b60SDan Kruchinin * Total number of sysids in NLM sysid bitmap
99bbaa8b60SDan Kruchinin */
100bbaa8b60SDan Kruchinin #define NLM_BMAP_NITEMS (LM_SYSID_MAX + 1)
101bbaa8b60SDan Kruchinin
102bbaa8b60SDan Kruchinin /*
103bbaa8b60SDan Kruchinin * Number of ulong_t words in bitmap that is used
104bbaa8b60SDan Kruchinin * for allocation of sysid numbers.
105bbaa8b60SDan Kruchinin */
106bbaa8b60SDan Kruchinin #define NLM_BMAP_WORDS (NLM_BMAP_NITEMS / BT_NBIPUL)
107bbaa8b60SDan Kruchinin
108bbaa8b60SDan Kruchinin /*
109bbaa8b60SDan Kruchinin * Given an integer x, the macro returns
110bbaa8b60SDan Kruchinin * -1 if x is negative,
111bbaa8b60SDan Kruchinin * 0 if x is zero
112bbaa8b60SDan Kruchinin * 1 if x is positive
113bbaa8b60SDan Kruchinin */
114bbaa8b60SDan Kruchinin #define SIGN(x) (((x) > 0) - ((x) < 0))
115bbaa8b60SDan Kruchinin
116bbaa8b60SDan Kruchinin #define ARRSIZE(arr) (sizeof (arr) / sizeof ((arr)[0]))
117bbaa8b60SDan Kruchinin #define NLM_KNCS ARRSIZE(nlm_netconfigs)
118bbaa8b60SDan Kruchinin
119bbaa8b60SDan Kruchinin krwlock_t lm_lck;
120bbaa8b60SDan Kruchinin
121bbaa8b60SDan Kruchinin /*
122bbaa8b60SDan Kruchinin * Zero timeout for asynchronous NLM RPC operations
123bbaa8b60SDan Kruchinin */
124bbaa8b60SDan Kruchinin static const struct timeval nlm_rpctv_zero = { 0, 0 };
125bbaa8b60SDan Kruchinin
126bbaa8b60SDan Kruchinin /*
127bbaa8b60SDan Kruchinin * List of all Zone globals nlm_globals instences
128bbaa8b60SDan Kruchinin * linked together.
129bbaa8b60SDan Kruchinin */
130bbaa8b60SDan Kruchinin static struct nlm_globals_list nlm_zones_list; /* (g) */
131bbaa8b60SDan Kruchinin
132bbaa8b60SDan Kruchinin /*
133bbaa8b60SDan Kruchinin * NLM kmem caches
134bbaa8b60SDan Kruchinin */
135bbaa8b60SDan Kruchinin static struct kmem_cache *nlm_hosts_cache = NULL;
136bbaa8b60SDan Kruchinin static struct kmem_cache *nlm_vhold_cache = NULL;
137bbaa8b60SDan Kruchinin
138bbaa8b60SDan Kruchinin /*
139bbaa8b60SDan Kruchinin * A bitmap for allocation of new sysids.
140bbaa8b60SDan Kruchinin * Sysid is a unique number between LM_SYSID
141bbaa8b60SDan Kruchinin * and LM_SYSID_MAX. Sysid represents unique remote
142bbaa8b60SDan Kruchinin * host that does file locks on the given host.
143bbaa8b60SDan Kruchinin */
144bbaa8b60SDan Kruchinin static ulong_t nlm_sysid_bmap[NLM_BMAP_WORDS]; /* (g) */
145bbaa8b60SDan Kruchinin static int nlm_sysid_nidx; /* (g) */
146bbaa8b60SDan Kruchinin
147bbaa8b60SDan Kruchinin /*
148bbaa8b60SDan Kruchinin * RPC service registration for all transports
149bbaa8b60SDan Kruchinin */
150bbaa8b60SDan Kruchinin static SVC_CALLOUT nlm_svcs[] = {
151bbaa8b60SDan Kruchinin { NLM_PROG, 4, 4, nlm_prog_4 }, /* NLM4_VERS */
152bbaa8b60SDan Kruchinin { NLM_PROG, 1, 3, nlm_prog_3 } /* NLM_VERS - NLM_VERSX */
153bbaa8b60SDan Kruchinin };
154bbaa8b60SDan Kruchinin
155bbaa8b60SDan Kruchinin static SVC_CALLOUT_TABLE nlm_sct = {
156bbaa8b60SDan Kruchinin ARRSIZE(nlm_svcs),
157bbaa8b60SDan Kruchinin FALSE,
158bbaa8b60SDan Kruchinin nlm_svcs
159bbaa8b60SDan Kruchinin };
160bbaa8b60SDan Kruchinin
161bbaa8b60SDan Kruchinin /*
162bbaa8b60SDan Kruchinin * Static table of all netid/knetconfig network
163bbaa8b60SDan Kruchinin * lock manager can work with. nlm_netconfigs table
164bbaa8b60SDan Kruchinin * is used when we need to get valid knetconfig by
165bbaa8b60SDan Kruchinin * netid and vice versa.
166bbaa8b60SDan Kruchinin *
167bbaa8b60SDan Kruchinin * Knetconfigs are activated either by the call from
168bbaa8b60SDan Kruchinin * user-space lockd daemon (server side) or by taking
169bbaa8b60SDan Kruchinin * knetconfig from NFS mountinfo (client side)
170bbaa8b60SDan Kruchinin */
171bbaa8b60SDan Kruchinin static struct nlm_knc nlm_netconfigs[] = { /* (g) */
172bbaa8b60SDan Kruchinin /* UDP */
173bbaa8b60SDan Kruchinin {
174bbaa8b60SDan Kruchinin { NC_TPI_CLTS, NC_INET, NC_UDP, NODEV },
175bbaa8b60SDan Kruchinin "udp",
176bbaa8b60SDan Kruchinin },
177bbaa8b60SDan Kruchinin /* TCP */
178bbaa8b60SDan Kruchinin {
179bbaa8b60SDan Kruchinin { NC_TPI_COTS_ORD, NC_INET, NC_TCP, NODEV },
180bbaa8b60SDan Kruchinin "tcp",
181bbaa8b60SDan Kruchinin },
182bbaa8b60SDan Kruchinin /* UDP over IPv6 */
183bbaa8b60SDan Kruchinin {
184bbaa8b60SDan Kruchinin { NC_TPI_CLTS, NC_INET6, NC_UDP, NODEV },
185bbaa8b60SDan Kruchinin "udp6",
186bbaa8b60SDan Kruchinin },
187bbaa8b60SDan Kruchinin /* TCP over IPv6 */
188bbaa8b60SDan Kruchinin {
189bbaa8b60SDan Kruchinin { NC_TPI_COTS_ORD, NC_INET6, NC_TCP, NODEV },
190bbaa8b60SDan Kruchinin "tcp6",
191bbaa8b60SDan Kruchinin },
192bbaa8b60SDan Kruchinin /* ticlts (loopback over UDP) */
193bbaa8b60SDan Kruchinin {
194bbaa8b60SDan Kruchinin { NC_TPI_CLTS, NC_LOOPBACK, NC_NOPROTO, NODEV },
195bbaa8b60SDan Kruchinin "ticlts",
196bbaa8b60SDan Kruchinin },
197bbaa8b60SDan Kruchinin /* ticotsord (loopback over TCP) */
198bbaa8b60SDan Kruchinin {
199bbaa8b60SDan Kruchinin { NC_TPI_COTS_ORD, NC_LOOPBACK, NC_NOPROTO, NODEV },
200bbaa8b60SDan Kruchinin "ticotsord",
201bbaa8b60SDan Kruchinin },
202bbaa8b60SDan Kruchinin };
203bbaa8b60SDan Kruchinin
204bbaa8b60SDan Kruchinin /*
205bbaa8b60SDan Kruchinin * NLM misc. function
206bbaa8b60SDan Kruchinin */
207bbaa8b60SDan Kruchinin static void nlm_copy_netbuf(struct netbuf *, struct netbuf *);
208bbaa8b60SDan Kruchinin static int nlm_netbuf_addrs_cmp(struct netbuf *, struct netbuf *);
209bbaa8b60SDan Kruchinin static void nlm_kmem_reclaim(void *);
210bbaa8b60SDan Kruchinin static void nlm_pool_shutdown(void);
211bbaa8b60SDan Kruchinin static void nlm_suspend_zone(struct nlm_globals *);
212bbaa8b60SDan Kruchinin static void nlm_resume_zone(struct nlm_globals *);
213bbaa8b60SDan Kruchinin static void nlm_nsm_clnt_init(CLIENT *, struct nlm_nsm *);
214bbaa8b60SDan Kruchinin static void nlm_netbuf_to_netobj(struct netbuf *, int *, netobj *);
215bbaa8b60SDan Kruchinin
216bbaa8b60SDan Kruchinin /*
217bbaa8b60SDan Kruchinin * NLM thread functions
218bbaa8b60SDan Kruchinin */
219bbaa8b60SDan Kruchinin static void nlm_gc(struct nlm_globals *);
220bbaa8b60SDan Kruchinin static void nlm_reclaimer(struct nlm_host *);
221bbaa8b60SDan Kruchinin
222bbaa8b60SDan Kruchinin /*
223bbaa8b60SDan Kruchinin * NLM NSM functions
224bbaa8b60SDan Kruchinin */
225bbaa8b60SDan Kruchinin static int nlm_init_local_knc(struct knetconfig *);
226bbaa8b60SDan Kruchinin static int nlm_nsm_init_local(struct nlm_nsm *);
227bbaa8b60SDan Kruchinin static int nlm_nsm_init(struct nlm_nsm *, struct knetconfig *, struct netbuf *);
228bbaa8b60SDan Kruchinin static void nlm_nsm_fini(struct nlm_nsm *);
229bbaa8b60SDan Kruchinin static enum clnt_stat nlm_nsm_simu_crash(struct nlm_nsm *);
230bbaa8b60SDan Kruchinin static enum clnt_stat nlm_nsm_stat(struct nlm_nsm *, int32_t *);
231bbaa8b60SDan Kruchinin static enum clnt_stat nlm_nsm_mon(struct nlm_nsm *, char *, uint16_t);
232bbaa8b60SDan Kruchinin static enum clnt_stat nlm_nsm_unmon(struct nlm_nsm *, char *);
233bbaa8b60SDan Kruchinin
234bbaa8b60SDan Kruchinin /*
235bbaa8b60SDan Kruchinin * NLM host functions
236bbaa8b60SDan Kruchinin */
237bbaa8b60SDan Kruchinin static int nlm_host_ctor(void *, void *, int);
238bbaa8b60SDan Kruchinin static void nlm_host_dtor(void *, void *);
239bbaa8b60SDan Kruchinin static void nlm_host_destroy(struct nlm_host *);
240bbaa8b60SDan Kruchinin static struct nlm_host *nlm_host_create(char *, const char *,
241bbaa8b60SDan Kruchinin struct knetconfig *, struct netbuf *);
242bbaa8b60SDan Kruchinin static struct nlm_host *nlm_host_find_locked(struct nlm_globals *,
243bbaa8b60SDan Kruchinin const char *, struct netbuf *, avl_index_t *);
244bbaa8b60SDan Kruchinin static void nlm_host_unregister(struct nlm_globals *, struct nlm_host *);
245bbaa8b60SDan Kruchinin static void nlm_host_gc_vholds(struct nlm_host *);
246bbaa8b60SDan Kruchinin static bool_t nlm_host_has_srv_locks(struct nlm_host *);
247bbaa8b60SDan Kruchinin static bool_t nlm_host_has_cli_locks(struct nlm_host *);
248bbaa8b60SDan Kruchinin static bool_t nlm_host_has_locks(struct nlm_host *);
249bbaa8b60SDan Kruchinin
250bbaa8b60SDan Kruchinin /*
251bbaa8b60SDan Kruchinin * NLM vhold functions
252bbaa8b60SDan Kruchinin */
253bbaa8b60SDan Kruchinin static int nlm_vhold_ctor(void *, void *, int);
254bbaa8b60SDan Kruchinin static void nlm_vhold_dtor(void *, void *);
255bbaa8b60SDan Kruchinin static void nlm_vhold_destroy(struct nlm_host *,
256bbaa8b60SDan Kruchinin struct nlm_vhold *);
257bbaa8b60SDan Kruchinin static bool_t nlm_vhold_busy(struct nlm_host *, struct nlm_vhold *);
258bbaa8b60SDan Kruchinin static void nlm_vhold_clean(struct nlm_vhold *, int);
259bbaa8b60SDan Kruchinin
260bbaa8b60SDan Kruchinin /*
261bbaa8b60SDan Kruchinin * NLM client/server sleeping locks/share reservation functions
262bbaa8b60SDan Kruchinin */
263bbaa8b60SDan Kruchinin struct nlm_slreq *nlm_slreq_find_locked(struct nlm_host *,
264bbaa8b60SDan Kruchinin struct nlm_vhold *, struct flock64 *);
265bbaa8b60SDan Kruchinin static struct nlm_shres *nlm_shres_create_item(struct shrlock *, vnode_t *);
266bbaa8b60SDan Kruchinin static void nlm_shres_destroy_item(struct nlm_shres *);
267bbaa8b60SDan Kruchinin static bool_t nlm_shres_equal(struct shrlock *, struct shrlock *);
268bbaa8b60SDan Kruchinin
269bbaa8b60SDan Kruchinin /*
270bbaa8b60SDan Kruchinin * NLM initialization functions.
271bbaa8b60SDan Kruchinin */
272bbaa8b60SDan Kruchinin void
nlm_init(void)273bbaa8b60SDan Kruchinin nlm_init(void)
274bbaa8b60SDan Kruchinin {
275bbaa8b60SDan Kruchinin nlm_hosts_cache = kmem_cache_create("nlm_host_cache",
276bbaa8b60SDan Kruchinin sizeof (struct nlm_host), 0, nlm_host_ctor, nlm_host_dtor,
277bbaa8b60SDan Kruchinin nlm_kmem_reclaim, NULL, NULL, 0);
278bbaa8b60SDan Kruchinin
279bbaa8b60SDan Kruchinin nlm_vhold_cache = kmem_cache_create("nlm_vhold_cache",
280bbaa8b60SDan Kruchinin sizeof (struct nlm_vhold), 0, nlm_vhold_ctor, nlm_vhold_dtor,
281bbaa8b60SDan Kruchinin NULL, NULL, NULL, 0);
282bbaa8b60SDan Kruchinin
283bbaa8b60SDan Kruchinin nlm_rpc_init();
284bbaa8b60SDan Kruchinin TAILQ_INIT(&nlm_zones_list);
285bbaa8b60SDan Kruchinin
286bbaa8b60SDan Kruchinin /* initialize sysids bitmap */
287bbaa8b60SDan Kruchinin bzero(nlm_sysid_bmap, sizeof (nlm_sysid_bmap));
288bbaa8b60SDan Kruchinin nlm_sysid_nidx = 1;
289bbaa8b60SDan Kruchinin
290bbaa8b60SDan Kruchinin /*
291bbaa8b60SDan Kruchinin * Reserv the sysid #0, because it's associated
292bbaa8b60SDan Kruchinin * with local locks only. Don't let to allocate
293bbaa8b60SDan Kruchinin * it for remote locks.
294bbaa8b60SDan Kruchinin */
295bbaa8b60SDan Kruchinin BT_SET(nlm_sysid_bmap, 0);
296bbaa8b60SDan Kruchinin }
297bbaa8b60SDan Kruchinin
298bbaa8b60SDan Kruchinin void
nlm_globals_register(struct nlm_globals * g)299bbaa8b60SDan Kruchinin nlm_globals_register(struct nlm_globals *g)
300bbaa8b60SDan Kruchinin {
301bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_WRITER);
302bbaa8b60SDan Kruchinin TAILQ_INSERT_TAIL(&nlm_zones_list, g, nlm_link);
303bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
304bbaa8b60SDan Kruchinin }
305bbaa8b60SDan Kruchinin
306bbaa8b60SDan Kruchinin void
nlm_globals_unregister(struct nlm_globals * g)307bbaa8b60SDan Kruchinin nlm_globals_unregister(struct nlm_globals *g)
308bbaa8b60SDan Kruchinin {
309bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_WRITER);
310bbaa8b60SDan Kruchinin TAILQ_REMOVE(&nlm_zones_list, g, nlm_link);
311bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
312bbaa8b60SDan Kruchinin }
313bbaa8b60SDan Kruchinin
314bbaa8b60SDan Kruchinin /* ARGSUSED */
315bbaa8b60SDan Kruchinin static void
nlm_kmem_reclaim(void * cdrarg)316bbaa8b60SDan Kruchinin nlm_kmem_reclaim(void *cdrarg)
317bbaa8b60SDan Kruchinin {
318bbaa8b60SDan Kruchinin struct nlm_globals *g;
319bbaa8b60SDan Kruchinin
320bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_READER);
321bbaa8b60SDan Kruchinin TAILQ_FOREACH(g, &nlm_zones_list, nlm_link)
322bbaa8b60SDan Kruchinin cv_broadcast(&g->nlm_gc_sched_cv);
323bbaa8b60SDan Kruchinin
324bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
325bbaa8b60SDan Kruchinin }
326bbaa8b60SDan Kruchinin
327bbaa8b60SDan Kruchinin /*
328bbaa8b60SDan Kruchinin * NLM garbage collector thread (GC).
329bbaa8b60SDan Kruchinin *
330bbaa8b60SDan Kruchinin * NLM GC periodically checks whether there're any host objects
331bbaa8b60SDan Kruchinin * that can be cleaned up. It also releases stale vnodes that
332bbaa8b60SDan Kruchinin * live on the server side (under protection of vhold objects).
333bbaa8b60SDan Kruchinin *
334bbaa8b60SDan Kruchinin * NLM host objects are cleaned up from GC thread because
335bbaa8b60SDan Kruchinin * operations helping us to determine whether given host has
336bbaa8b60SDan Kruchinin * any locks can be quite expensive and it's not good to call
337bbaa8b60SDan Kruchinin * them every time the very last reference to the host is dropped.
338bbaa8b60SDan Kruchinin * Thus we use "lazy" approach for hosts cleanup.
339bbaa8b60SDan Kruchinin *
340bbaa8b60SDan Kruchinin * The work of GC is to release stale vnodes on the server side
341bbaa8b60SDan Kruchinin * and destroy hosts that haven't any locks and any activity for
342bbaa8b60SDan Kruchinin * some time (i.e. idle hosts).
343bbaa8b60SDan Kruchinin */
344bbaa8b60SDan Kruchinin static void
nlm_gc(struct nlm_globals * g)345bbaa8b60SDan Kruchinin nlm_gc(struct nlm_globals *g)
346bbaa8b60SDan Kruchinin {
347bbaa8b60SDan Kruchinin struct nlm_host *hostp;
348bbaa8b60SDan Kruchinin clock_t now, idle_period;
349bbaa8b60SDan Kruchinin
350bbaa8b60SDan Kruchinin idle_period = SEC_TO_TICK(g->cn_idle_tmo);
351bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
352bbaa8b60SDan Kruchinin for (;;) {
353bbaa8b60SDan Kruchinin /*
354bbaa8b60SDan Kruchinin * GC thread can be explicitly scheduled from
355bbaa8b60SDan Kruchinin * memory reclamation function.
356bbaa8b60SDan Kruchinin */
357bbaa8b60SDan Kruchinin (void) cv_timedwait(&g->nlm_gc_sched_cv, &g->lock,
358bbaa8b60SDan Kruchinin ddi_get_lbolt() + idle_period);
359bbaa8b60SDan Kruchinin
360bbaa8b60SDan Kruchinin /*
361bbaa8b60SDan Kruchinin * NLM is shutting down, time to die.
362bbaa8b60SDan Kruchinin */
363bbaa8b60SDan Kruchinin if (g->run_status == NLM_ST_STOPPING)
364bbaa8b60SDan Kruchinin break;
365bbaa8b60SDan Kruchinin
366bbaa8b60SDan Kruchinin now = ddi_get_lbolt();
367bbaa8b60SDan Kruchinin DTRACE_PROBE2(gc__start, struct nlm_globals *, g,
368bbaa8b60SDan Kruchinin clock_t, now);
369bbaa8b60SDan Kruchinin
370bbaa8b60SDan Kruchinin /*
371b1087aecSMarcel Telka * Find all obviously unused vholds and destroy them.
372b1087aecSMarcel Telka */
373b1087aecSMarcel Telka for (hostp = avl_first(&g->nlm_hosts_tree); hostp != NULL;
374b1087aecSMarcel Telka hostp = AVL_NEXT(&g->nlm_hosts_tree, hostp)) {
375b1087aecSMarcel Telka struct nlm_vhold *nvp;
376b1087aecSMarcel Telka
377b1087aecSMarcel Telka mutex_enter(&hostp->nh_lock);
378b1087aecSMarcel Telka
379b1087aecSMarcel Telka nvp = TAILQ_FIRST(&hostp->nh_vholds_list);
380b1087aecSMarcel Telka while (nvp != NULL) {
381b1087aecSMarcel Telka struct nlm_vhold *new_nvp;
382b1087aecSMarcel Telka
383b1087aecSMarcel Telka new_nvp = TAILQ_NEXT(nvp, nv_link);
384b1087aecSMarcel Telka
385b1087aecSMarcel Telka /*
386b1087aecSMarcel Telka * If these conditions are met, the vhold is
387b1087aecSMarcel Telka * obviously unused and we will destroy it. In
388b1087aecSMarcel Telka * a case either v_filocks and/or v_shrlocks is
389b1087aecSMarcel Telka * non-NULL the vhold might still be unused by
390b1087aecSMarcel Telka * the host, but it is expensive to check that.
391b1087aecSMarcel Telka * We defer such check until the host is idle.
392b1087aecSMarcel Telka * The expensive check is done below without
393b1087aecSMarcel Telka * the global lock held.
394b1087aecSMarcel Telka */
395b1087aecSMarcel Telka if (nvp->nv_refcnt == 0 &&
396b1087aecSMarcel Telka nvp->nv_vp->v_filocks == NULL &&
397b1087aecSMarcel Telka nvp->nv_vp->v_shrlocks == NULL) {
398b1087aecSMarcel Telka nlm_vhold_destroy(hostp, nvp);
399b1087aecSMarcel Telka }
400b1087aecSMarcel Telka
401b1087aecSMarcel Telka nvp = new_nvp;
402b1087aecSMarcel Telka }
403b1087aecSMarcel Telka
404b1087aecSMarcel Telka mutex_exit(&hostp->nh_lock);
405b1087aecSMarcel Telka }
406b1087aecSMarcel Telka
407b1087aecSMarcel Telka /*
408bbaa8b60SDan Kruchinin * Handle all hosts that are unused at the moment
409bbaa8b60SDan Kruchinin * until we meet one with idle timeout in future.
410bbaa8b60SDan Kruchinin */
411bbaa8b60SDan Kruchinin while ((hostp = TAILQ_FIRST(&g->nlm_idle_hosts)) != NULL) {
412b1087aecSMarcel Telka bool_t has_locks;
413bbaa8b60SDan Kruchinin
414bbaa8b60SDan Kruchinin if (hostp->nh_idle_timeout > now)
415bbaa8b60SDan Kruchinin break;
416bbaa8b60SDan Kruchinin
417bbaa8b60SDan Kruchinin /*
418bbaa8b60SDan Kruchinin * Drop global lock while doing expensive work
419bbaa8b60SDan Kruchinin * on this host. We'll re-check any conditions
420bbaa8b60SDan Kruchinin * that might change after retaking the global
421bbaa8b60SDan Kruchinin * lock.
422bbaa8b60SDan Kruchinin */
423bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
424bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
425bbaa8b60SDan Kruchinin
426bbaa8b60SDan Kruchinin /*
427bbaa8b60SDan Kruchinin * nlm_globals lock was dropped earlier because
428bbaa8b60SDan Kruchinin * garbage collecting of vholds and checking whether
429bbaa8b60SDan Kruchinin * host has any locks/shares are expensive operations.
430bbaa8b60SDan Kruchinin */
431bbaa8b60SDan Kruchinin nlm_host_gc_vholds(hostp);
432bbaa8b60SDan Kruchinin has_locks = nlm_host_has_locks(hostp);
433bbaa8b60SDan Kruchinin
434bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
435bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
436bbaa8b60SDan Kruchinin
437bbaa8b60SDan Kruchinin /*
438096e63b2SPaul Dagnelie * While we were doing expensive operations
439096e63b2SPaul Dagnelie * outside of nlm_globals critical section,
440096e63b2SPaul Dagnelie * somebody could take the host and remove it
441096e63b2SPaul Dagnelie * from the idle list. Whether its been
442096e63b2SPaul Dagnelie * reinserted or not, our information about
443096e63b2SPaul Dagnelie * the host is outdated, and we should take no
444096e63b2SPaul Dagnelie * further action.
445bbaa8b60SDan Kruchinin */
446b1087aecSMarcel Telka if ((hostp->nh_flags & NLM_NH_INIDLE) == 0 ||
447b1087aecSMarcel Telka hostp->nh_idle_timeout > now)
448bbaa8b60SDan Kruchinin continue;
449bbaa8b60SDan Kruchinin
450bbaa8b60SDan Kruchinin /*
451096e63b2SPaul Dagnelie * If the host has locks we have to renew the
452096e63b2SPaul Dagnelie * host's timeout and put it at the end of LRU
453096e63b2SPaul Dagnelie * list.
454bbaa8b60SDan Kruchinin */
455096e63b2SPaul Dagnelie if (has_locks) {
456bbaa8b60SDan Kruchinin TAILQ_REMOVE(&g->nlm_idle_hosts,
457bbaa8b60SDan Kruchinin hostp, nh_link);
458bbaa8b60SDan Kruchinin hostp->nh_idle_timeout = now + idle_period;
459bbaa8b60SDan Kruchinin TAILQ_INSERT_TAIL(&g->nlm_idle_hosts,
460bbaa8b60SDan Kruchinin hostp, nh_link);
461bbaa8b60SDan Kruchinin continue;
462bbaa8b60SDan Kruchinin }
463bbaa8b60SDan Kruchinin
464bbaa8b60SDan Kruchinin /*
465bbaa8b60SDan Kruchinin * We're here if all the following conditions hold:
466bbaa8b60SDan Kruchinin * 1) Host hasn't any locks or share reservations
467bbaa8b60SDan Kruchinin * 2) Host is unused
468bbaa8b60SDan Kruchinin * 3) Host wasn't touched by anyone at least for
469bbaa8b60SDan Kruchinin * g->cn_idle_tmo seconds.
470bbaa8b60SDan Kruchinin *
471bbaa8b60SDan Kruchinin * So, now we can destroy it.
472bbaa8b60SDan Kruchinin */
473bbaa8b60SDan Kruchinin nlm_host_unregister(g, hostp);
474bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
475bbaa8b60SDan Kruchinin
476bbaa8b60SDan Kruchinin nlm_host_unmonitor(g, hostp);
477bbaa8b60SDan Kruchinin nlm_host_destroy(hostp);
478bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
479bbaa8b60SDan Kruchinin if (g->run_status == NLM_ST_STOPPING)
480bbaa8b60SDan Kruchinin break;
481bbaa8b60SDan Kruchinin
482bbaa8b60SDan Kruchinin }
483bbaa8b60SDan Kruchinin
484bbaa8b60SDan Kruchinin DTRACE_PROBE(gc__end);
485bbaa8b60SDan Kruchinin }
486bbaa8b60SDan Kruchinin
487bbaa8b60SDan Kruchinin DTRACE_PROBE1(gc__exit, struct nlm_globals *, g);
488bbaa8b60SDan Kruchinin
489bbaa8b60SDan Kruchinin /* Let others know that GC has died */
490bbaa8b60SDan Kruchinin g->nlm_gc_thread = NULL;
491bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
492bbaa8b60SDan Kruchinin
493bbaa8b60SDan Kruchinin cv_broadcast(&g->nlm_gc_finish_cv);
494bbaa8b60SDan Kruchinin zthread_exit();
495bbaa8b60SDan Kruchinin }
496bbaa8b60SDan Kruchinin
497bbaa8b60SDan Kruchinin /*
498bbaa8b60SDan Kruchinin * Thread reclaim locks/shares acquired by the client side
499bbaa8b60SDan Kruchinin * on the given server represented by hostp.
500bbaa8b60SDan Kruchinin */
501bbaa8b60SDan Kruchinin static void
nlm_reclaimer(struct nlm_host * hostp)502bbaa8b60SDan Kruchinin nlm_reclaimer(struct nlm_host *hostp)
503bbaa8b60SDan Kruchinin {
504bbaa8b60SDan Kruchinin struct nlm_globals *g;
505bbaa8b60SDan Kruchinin
506bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
507bbaa8b60SDan Kruchinin hostp->nh_reclaimer = curthread;
508bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
509bbaa8b60SDan Kruchinin
510bbaa8b60SDan Kruchinin g = zone_getspecific(nlm_zone_key, curzone);
511bbaa8b60SDan Kruchinin nlm_reclaim_client(g, hostp);
512bbaa8b60SDan Kruchinin
513bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
514bbaa8b60SDan Kruchinin hostp->nh_flags &= ~NLM_NH_RECLAIM;
515bbaa8b60SDan Kruchinin hostp->nh_reclaimer = NULL;
516bbaa8b60SDan Kruchinin cv_broadcast(&hostp->nh_recl_cv);
517bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
518bbaa8b60SDan Kruchinin
519bbaa8b60SDan Kruchinin /*
520bbaa8b60SDan Kruchinin * Host was explicitly referenced before
521bbaa8b60SDan Kruchinin * nlm_reclaim() was called, release it
522bbaa8b60SDan Kruchinin * here.
523bbaa8b60SDan Kruchinin */
524bbaa8b60SDan Kruchinin nlm_host_release(g, hostp);
525bbaa8b60SDan Kruchinin zthread_exit();
526bbaa8b60SDan Kruchinin }
527bbaa8b60SDan Kruchinin
528bbaa8b60SDan Kruchinin /*
529bbaa8b60SDan Kruchinin * Copy a struct netobj. (see xdr.h)
530bbaa8b60SDan Kruchinin */
531bbaa8b60SDan Kruchinin void
nlm_copy_netobj(struct netobj * dst,struct netobj * src)532bbaa8b60SDan Kruchinin nlm_copy_netobj(struct netobj *dst, struct netobj *src)
533bbaa8b60SDan Kruchinin {
534bbaa8b60SDan Kruchinin dst->n_len = src->n_len;
535bbaa8b60SDan Kruchinin dst->n_bytes = kmem_alloc(src->n_len, KM_SLEEP);
536bbaa8b60SDan Kruchinin bcopy(src->n_bytes, dst->n_bytes, src->n_len);
537bbaa8b60SDan Kruchinin }
538bbaa8b60SDan Kruchinin
539bbaa8b60SDan Kruchinin /*
540bbaa8b60SDan Kruchinin * An NLM specificw replacement for clnt_call().
541bbaa8b60SDan Kruchinin * nlm_clnt_call() is used by all RPC functions generated
542bbaa8b60SDan Kruchinin * from nlm_prot.x specification. The function is aware
543bbaa8b60SDan Kruchinin * about some pitfalls of NLM RPC procedures and has a logic
544bbaa8b60SDan Kruchinin * that handles them properly.
545bbaa8b60SDan Kruchinin */
546bbaa8b60SDan Kruchinin enum clnt_stat
nlm_clnt_call(CLIENT * clnt,rpcproc_t procnum,xdrproc_t xdr_args,caddr_t argsp,xdrproc_t xdr_result,caddr_t resultp,struct timeval wait)547bbaa8b60SDan Kruchinin nlm_clnt_call(CLIENT *clnt, rpcproc_t procnum, xdrproc_t xdr_args,
548bbaa8b60SDan Kruchinin caddr_t argsp, xdrproc_t xdr_result, caddr_t resultp, struct timeval wait)
549bbaa8b60SDan Kruchinin {
550bbaa8b60SDan Kruchinin k_sigset_t oldmask;
551bbaa8b60SDan Kruchinin enum clnt_stat stat;
552bbaa8b60SDan Kruchinin bool_t sig_blocked = FALSE;
553bbaa8b60SDan Kruchinin
554bbaa8b60SDan Kruchinin /*
555bbaa8b60SDan Kruchinin * If NLM RPC procnum is one of the NLM _RES procedures
556bbaa8b60SDan Kruchinin * that are used to reply to asynchronous NLM RPC
557bbaa8b60SDan Kruchinin * (MSG calls), explicitly set RPC timeout to zero.
558bbaa8b60SDan Kruchinin * Client doesn't send a reply to RES procedures, so
559bbaa8b60SDan Kruchinin * we don't need to wait anything.
560bbaa8b60SDan Kruchinin *
561bbaa8b60SDan Kruchinin * NOTE: we ignore NLM4_*_RES procnums because they are
562bbaa8b60SDan Kruchinin * equal to NLM_*_RES numbers.
563bbaa8b60SDan Kruchinin */
564bbaa8b60SDan Kruchinin if (procnum >= NLM_TEST_RES && procnum <= NLM_GRANTED_RES)
565bbaa8b60SDan Kruchinin wait = nlm_rpctv_zero;
566bbaa8b60SDan Kruchinin
567bbaa8b60SDan Kruchinin /*
568bbaa8b60SDan Kruchinin * We need to block signals in case of NLM_CANCEL RPC
569bbaa8b60SDan Kruchinin * in order to prevent interruption of network RPC
570bbaa8b60SDan Kruchinin * calls.
571bbaa8b60SDan Kruchinin */
572bbaa8b60SDan Kruchinin if (procnum == NLM_CANCEL) {
573bbaa8b60SDan Kruchinin k_sigset_t newmask;
574bbaa8b60SDan Kruchinin
575bbaa8b60SDan Kruchinin sigfillset(&newmask);
576bbaa8b60SDan Kruchinin sigreplace(&newmask, &oldmask);
577bbaa8b60SDan Kruchinin sig_blocked = TRUE;
578bbaa8b60SDan Kruchinin }
579bbaa8b60SDan Kruchinin
580bbaa8b60SDan Kruchinin stat = clnt_call(clnt, procnum, xdr_args,
581bbaa8b60SDan Kruchinin argsp, xdr_result, resultp, wait);
582bbaa8b60SDan Kruchinin
583bbaa8b60SDan Kruchinin /*
584bbaa8b60SDan Kruchinin * Restore signal mask back if signals were blocked
585bbaa8b60SDan Kruchinin */
586bbaa8b60SDan Kruchinin if (sig_blocked)
587bbaa8b60SDan Kruchinin sigreplace(&oldmask, (k_sigset_t *)NULL);
588bbaa8b60SDan Kruchinin
589bbaa8b60SDan Kruchinin return (stat);
590bbaa8b60SDan Kruchinin }
591bbaa8b60SDan Kruchinin
592bbaa8b60SDan Kruchinin /*
593bbaa8b60SDan Kruchinin * Suspend NLM client/server in the given zone.
594bbaa8b60SDan Kruchinin *
595bbaa8b60SDan Kruchinin * During suspend operation we mark those hosts
596bbaa8b60SDan Kruchinin * that have any locks with NLM_NH_SUSPEND flags,
597bbaa8b60SDan Kruchinin * so that they can be checked later, when resume
598bbaa8b60SDan Kruchinin * operation occurs.
599bbaa8b60SDan Kruchinin */
600bbaa8b60SDan Kruchinin static void
nlm_suspend_zone(struct nlm_globals * g)601bbaa8b60SDan Kruchinin nlm_suspend_zone(struct nlm_globals *g)
602bbaa8b60SDan Kruchinin {
603bbaa8b60SDan Kruchinin struct nlm_host *hostp;
604bbaa8b60SDan Kruchinin struct nlm_host_list all_hosts;
605bbaa8b60SDan Kruchinin
606bbaa8b60SDan Kruchinin /*
607bbaa8b60SDan Kruchinin * Note that while we're doing suspend, GC thread is active
608bbaa8b60SDan Kruchinin * and it can destroy some hosts while we're walking through
609bbaa8b60SDan Kruchinin * the hosts tree. To prevent that and make suspend logic
610bbaa8b60SDan Kruchinin * a bit more simple we put all hosts to local "all_hosts"
611bbaa8b60SDan Kruchinin * list and increment reference counter of each host.
612bbaa8b60SDan Kruchinin * This guaranties that no hosts will be released while
613bbaa8b60SDan Kruchinin * we're doing suspend.
614bbaa8b60SDan Kruchinin * NOTE: reference of each host must be dropped during
615bbaa8b60SDan Kruchinin * resume operation.
616bbaa8b60SDan Kruchinin */
617bbaa8b60SDan Kruchinin TAILQ_INIT(&all_hosts);
618bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
619bbaa8b60SDan Kruchinin for (hostp = avl_first(&g->nlm_hosts_tree); hostp != NULL;
620bbaa8b60SDan Kruchinin hostp = AVL_NEXT(&g->nlm_hosts_tree, hostp)) {
621bbaa8b60SDan Kruchinin /*
622bbaa8b60SDan Kruchinin * If host is idle, remove it from idle list and
623bbaa8b60SDan Kruchinin * clear idle flag. That is done to prevent GC
624bbaa8b60SDan Kruchinin * from touching this host.
625bbaa8b60SDan Kruchinin */
626bbaa8b60SDan Kruchinin if (hostp->nh_flags & NLM_NH_INIDLE) {
627bbaa8b60SDan Kruchinin TAILQ_REMOVE(&g->nlm_idle_hosts, hostp, nh_link);
628bbaa8b60SDan Kruchinin hostp->nh_flags &= ~NLM_NH_INIDLE;
629bbaa8b60SDan Kruchinin }
630bbaa8b60SDan Kruchinin
631bbaa8b60SDan Kruchinin hostp->nh_refs++;
632bbaa8b60SDan Kruchinin TAILQ_INSERT_TAIL(&all_hosts, hostp, nh_link);
633bbaa8b60SDan Kruchinin }
634bbaa8b60SDan Kruchinin
635bbaa8b60SDan Kruchinin /*
636bbaa8b60SDan Kruchinin * Now we can walk through all hosts on the system
637bbaa8b60SDan Kruchinin * with zone globals lock released. The fact the
638bbaa8b60SDan Kruchinin * we have taken a reference to each host guaranties
639bbaa8b60SDan Kruchinin * that no hosts can be destroyed during that process.
640bbaa8b60SDan Kruchinin */
641bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
642bbaa8b60SDan Kruchinin while ((hostp = TAILQ_FIRST(&all_hosts)) != NULL) {
643bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
644bbaa8b60SDan Kruchinin if (nlm_host_has_locks(hostp))
645bbaa8b60SDan Kruchinin hostp->nh_flags |= NLM_NH_SUSPEND;
646bbaa8b60SDan Kruchinin
647bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
648bbaa8b60SDan Kruchinin TAILQ_REMOVE(&all_hosts, hostp, nh_link);
649bbaa8b60SDan Kruchinin }
650bbaa8b60SDan Kruchinin }
651bbaa8b60SDan Kruchinin
652bbaa8b60SDan Kruchinin /*
653bbaa8b60SDan Kruchinin * Resume NLM hosts for the given zone.
654bbaa8b60SDan Kruchinin *
655bbaa8b60SDan Kruchinin * nlm_resume_zone() is called after hosts were suspended
656bbaa8b60SDan Kruchinin * (see nlm_suspend_zone) and its main purpose to check
657bbaa8b60SDan Kruchinin * whether remote locks owned by hosts are still in consistent
658bbaa8b60SDan Kruchinin * state. If they aren't, resume function tries to reclaim
659b1087aecSMarcel Telka * locks (for client side hosts) and clean locks (for
660bbaa8b60SDan Kruchinin * server side hosts).
661bbaa8b60SDan Kruchinin */
662bbaa8b60SDan Kruchinin static void
nlm_resume_zone(struct nlm_globals * g)663bbaa8b60SDan Kruchinin nlm_resume_zone(struct nlm_globals *g)
664bbaa8b60SDan Kruchinin {
665bbaa8b60SDan Kruchinin struct nlm_host *hostp, *h_next;
666bbaa8b60SDan Kruchinin
667bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
668bbaa8b60SDan Kruchinin hostp = avl_first(&g->nlm_hosts_tree);
669bbaa8b60SDan Kruchinin
670bbaa8b60SDan Kruchinin /*
671bbaa8b60SDan Kruchinin * In nlm_suspend_zone() the reference counter of each
672bbaa8b60SDan Kruchinin * host was incremented, so we can safely iterate through
673bbaa8b60SDan Kruchinin * all hosts without worrying that any host we touch will
674bbaa8b60SDan Kruchinin * be removed at the moment.
675bbaa8b60SDan Kruchinin */
676bbaa8b60SDan Kruchinin while (hostp != NULL) {
677bbaa8b60SDan Kruchinin struct nlm_nsm nsm;
678bbaa8b60SDan Kruchinin enum clnt_stat stat;
679bbaa8b60SDan Kruchinin int32_t sm_state;
680bbaa8b60SDan Kruchinin int error;
681bbaa8b60SDan Kruchinin bool_t resume_failed = FALSE;
682bbaa8b60SDan Kruchinin
683bbaa8b60SDan Kruchinin h_next = AVL_NEXT(&g->nlm_hosts_tree, hostp);
684bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
685bbaa8b60SDan Kruchinin
686bbaa8b60SDan Kruchinin DTRACE_PROBE1(resume__host, struct nlm_host *, hostp);
687bbaa8b60SDan Kruchinin
688bbaa8b60SDan Kruchinin /*
689bbaa8b60SDan Kruchinin * Suspend operation marked that the host doesn't
690bbaa8b60SDan Kruchinin * have any locks. Skip it.
691bbaa8b60SDan Kruchinin */
692bbaa8b60SDan Kruchinin if (!(hostp->nh_flags & NLM_NH_SUSPEND))
693bbaa8b60SDan Kruchinin goto cycle_end;
694bbaa8b60SDan Kruchinin
695bbaa8b60SDan Kruchinin error = nlm_nsm_init(&nsm, &hostp->nh_knc, &hostp->nh_addr);
696bbaa8b60SDan Kruchinin if (error != 0) {
697bbaa8b60SDan Kruchinin NLM_ERR("Resume: Failed to contact to NSM of host %s "
698bbaa8b60SDan Kruchinin "[error=%d]\n", hostp->nh_name, error);
699bbaa8b60SDan Kruchinin resume_failed = TRUE;
700bbaa8b60SDan Kruchinin goto cycle_end;
701bbaa8b60SDan Kruchinin }
702bbaa8b60SDan Kruchinin
703bbaa8b60SDan Kruchinin stat = nlm_nsm_stat(&nsm, &sm_state);
704bbaa8b60SDan Kruchinin if (stat != RPC_SUCCESS) {
705bbaa8b60SDan Kruchinin NLM_ERR("Resume: Failed to call SM_STAT operation for "
706bbaa8b60SDan Kruchinin "host %s [stat=%d]\n", hostp->nh_name, stat);
707bbaa8b60SDan Kruchinin resume_failed = TRUE;
708bbaa8b60SDan Kruchinin nlm_nsm_fini(&nsm);
709bbaa8b60SDan Kruchinin goto cycle_end;
710bbaa8b60SDan Kruchinin }
711bbaa8b60SDan Kruchinin
712bbaa8b60SDan Kruchinin if (sm_state != hostp->nh_state) {
713bbaa8b60SDan Kruchinin /*
714bbaa8b60SDan Kruchinin * Current SM state of the host isn't equal
715bbaa8b60SDan Kruchinin * to the one host had when it was suspended.
716bbaa8b60SDan Kruchinin * Probably it was rebooted. Try to reclaim
717bbaa8b60SDan Kruchinin * locks if the host has any on its client side.
718bbaa8b60SDan Kruchinin * Also try to clean up its server side locks
719bbaa8b60SDan Kruchinin * (if the host has any).
720bbaa8b60SDan Kruchinin */
721bbaa8b60SDan Kruchinin nlm_host_notify_client(hostp, sm_state);
722bbaa8b60SDan Kruchinin nlm_host_notify_server(hostp, sm_state);
723bbaa8b60SDan Kruchinin }
724bbaa8b60SDan Kruchinin
725bbaa8b60SDan Kruchinin nlm_nsm_fini(&nsm);
726bbaa8b60SDan Kruchinin
727bbaa8b60SDan Kruchinin cycle_end:
728bbaa8b60SDan Kruchinin if (resume_failed) {
729bbaa8b60SDan Kruchinin /*
730bbaa8b60SDan Kruchinin * Resume failed for the given host.
731bbaa8b60SDan Kruchinin * Just clean up all resources it owns.
732bbaa8b60SDan Kruchinin */
733bbaa8b60SDan Kruchinin nlm_host_notify_server(hostp, 0);
734bbaa8b60SDan Kruchinin nlm_client_cancel_all(g, hostp);
735bbaa8b60SDan Kruchinin }
736bbaa8b60SDan Kruchinin
737bbaa8b60SDan Kruchinin hostp->nh_flags &= ~NLM_NH_SUSPEND;
738bbaa8b60SDan Kruchinin nlm_host_release(g, hostp);
739bbaa8b60SDan Kruchinin hostp = h_next;
740bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
741bbaa8b60SDan Kruchinin }
742bbaa8b60SDan Kruchinin
743bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
744bbaa8b60SDan Kruchinin }
745bbaa8b60SDan Kruchinin
746bbaa8b60SDan Kruchinin /*
747bbaa8b60SDan Kruchinin * NLM functions responsible for operations on NSM handle.
748bbaa8b60SDan Kruchinin */
749bbaa8b60SDan Kruchinin
750bbaa8b60SDan Kruchinin /*
751bbaa8b60SDan Kruchinin * Initialize knetconfig that is used for communication
752bbaa8b60SDan Kruchinin * with local statd via loopback interface.
753bbaa8b60SDan Kruchinin */
754bbaa8b60SDan Kruchinin static int
nlm_init_local_knc(struct knetconfig * knc)755bbaa8b60SDan Kruchinin nlm_init_local_knc(struct knetconfig *knc)
756bbaa8b60SDan Kruchinin {
757bbaa8b60SDan Kruchinin int error;
758bbaa8b60SDan Kruchinin vnode_t *vp;
759bbaa8b60SDan Kruchinin
760bbaa8b60SDan Kruchinin bzero(knc, sizeof (*knc));
761bbaa8b60SDan Kruchinin error = lookupname("/dev/tcp", UIO_SYSSPACE,
762bbaa8b60SDan Kruchinin FOLLOW, NULLVPP, &vp);
763bbaa8b60SDan Kruchinin if (error != 0)
764bbaa8b60SDan Kruchinin return (error);
765bbaa8b60SDan Kruchinin
766bbaa8b60SDan Kruchinin knc->knc_semantics = NC_TPI_COTS;
767bbaa8b60SDan Kruchinin knc->knc_protofmly = NC_INET;
768bbaa8b60SDan Kruchinin knc->knc_proto = NC_TCP;
769bbaa8b60SDan Kruchinin knc->knc_rdev = vp->v_rdev;
770bbaa8b60SDan Kruchinin VN_RELE(vp);
771bbaa8b60SDan Kruchinin
772bbaa8b60SDan Kruchinin
773bbaa8b60SDan Kruchinin return (0);
774bbaa8b60SDan Kruchinin }
775bbaa8b60SDan Kruchinin
776bbaa8b60SDan Kruchinin /*
777bbaa8b60SDan Kruchinin * Initialize NSM handle that will be used to talk
778bbaa8b60SDan Kruchinin * to local statd via loopback interface.
779bbaa8b60SDan Kruchinin */
780bbaa8b60SDan Kruchinin static int
nlm_nsm_init_local(struct nlm_nsm * nsm)781bbaa8b60SDan Kruchinin nlm_nsm_init_local(struct nlm_nsm *nsm)
782bbaa8b60SDan Kruchinin {
783bbaa8b60SDan Kruchinin int error;
784bbaa8b60SDan Kruchinin struct knetconfig knc;
785bbaa8b60SDan Kruchinin struct sockaddr_in sin;
786bbaa8b60SDan Kruchinin struct netbuf nb;
787bbaa8b60SDan Kruchinin
788bbaa8b60SDan Kruchinin error = nlm_init_local_knc(&knc);
789bbaa8b60SDan Kruchinin if (error != 0)
790bbaa8b60SDan Kruchinin return (error);
791bbaa8b60SDan Kruchinin
792bbaa8b60SDan Kruchinin bzero(&sin, sizeof (sin));
793bbaa8b60SDan Kruchinin sin.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
794bbaa8b60SDan Kruchinin sin.sin_family = AF_INET;
795bbaa8b60SDan Kruchinin
796bbaa8b60SDan Kruchinin nb.buf = (char *)&sin;
797bbaa8b60SDan Kruchinin nb.len = nb.maxlen = sizeof (sin);
798bbaa8b60SDan Kruchinin
799bbaa8b60SDan Kruchinin return (nlm_nsm_init(nsm, &knc, &nb));
800bbaa8b60SDan Kruchinin }
801bbaa8b60SDan Kruchinin
802bbaa8b60SDan Kruchinin /*
803bbaa8b60SDan Kruchinin * Initialize NSM handle used for talking to statd
804bbaa8b60SDan Kruchinin */
805bbaa8b60SDan Kruchinin static int
nlm_nsm_init(struct nlm_nsm * nsm,struct knetconfig * knc,struct netbuf * nb)806bbaa8b60SDan Kruchinin nlm_nsm_init(struct nlm_nsm *nsm, struct knetconfig *knc, struct netbuf *nb)
807bbaa8b60SDan Kruchinin {
808bbaa8b60SDan Kruchinin enum clnt_stat stat;
809bbaa8b60SDan Kruchinin int error, retries;
810bbaa8b60SDan Kruchinin
811bbaa8b60SDan Kruchinin bzero(nsm, sizeof (*nsm));
812bbaa8b60SDan Kruchinin nsm->ns_knc = *knc;
813bbaa8b60SDan Kruchinin nlm_copy_netbuf(&nsm->ns_addr, nb);
814bbaa8b60SDan Kruchinin
815bbaa8b60SDan Kruchinin /*
816bbaa8b60SDan Kruchinin * Try several times to get the port of statd service,
817bbaa8b60SDan Kruchinin * If rpcbind_getaddr returns RPC_PROGNOTREGISTERED,
818bbaa8b60SDan Kruchinin * retry an attempt, but wait for NLM_NSM_RPCBIND_TIMEOUT
819bbaa8b60SDan Kruchinin * seconds berofore.
820bbaa8b60SDan Kruchinin */
821bbaa8b60SDan Kruchinin for (retries = 0; retries < NLM_NSM_RPCBIND_RETRIES; retries++) {
822bbaa8b60SDan Kruchinin stat = rpcbind_getaddr(&nsm->ns_knc, SM_PROG,
823bbaa8b60SDan Kruchinin SM_VERS, &nsm->ns_addr);
824bbaa8b60SDan Kruchinin if (stat != RPC_SUCCESS) {
825bbaa8b60SDan Kruchinin if (stat == RPC_PROGNOTREGISTERED) {
826bbaa8b60SDan Kruchinin delay(SEC_TO_TICK(NLM_NSM_RPCBIND_TIMEOUT));
827bbaa8b60SDan Kruchinin continue;
828bbaa8b60SDan Kruchinin }
829bbaa8b60SDan Kruchinin }
830bbaa8b60SDan Kruchinin
831bbaa8b60SDan Kruchinin break;
832bbaa8b60SDan Kruchinin }
833bbaa8b60SDan Kruchinin
834bbaa8b60SDan Kruchinin if (stat != RPC_SUCCESS) {
835bbaa8b60SDan Kruchinin DTRACE_PROBE2(rpcbind__error, enum clnt_stat, stat,
836bbaa8b60SDan Kruchinin int, retries);
837bbaa8b60SDan Kruchinin error = ENOENT;
838bbaa8b60SDan Kruchinin goto error;
839bbaa8b60SDan Kruchinin }
840bbaa8b60SDan Kruchinin
841bbaa8b60SDan Kruchinin /*
842bbaa8b60SDan Kruchinin * Create an RPC handle that'll be used for communication with local
843bbaa8b60SDan Kruchinin * statd using the status monitor protocol.
844bbaa8b60SDan Kruchinin */
845bbaa8b60SDan Kruchinin error = clnt_tli_kcreate(&nsm->ns_knc, &nsm->ns_addr, SM_PROG, SM_VERS,
846bbaa8b60SDan Kruchinin 0, NLM_RPC_RETRIES, kcred, &nsm->ns_handle);
847bbaa8b60SDan Kruchinin if (error != 0)
848bbaa8b60SDan Kruchinin goto error;
849bbaa8b60SDan Kruchinin
850bbaa8b60SDan Kruchinin /*
851bbaa8b60SDan Kruchinin * Create an RPC handle that'll be used for communication with the
852bbaa8b60SDan Kruchinin * local statd using the address registration protocol.
853bbaa8b60SDan Kruchinin */
854bbaa8b60SDan Kruchinin error = clnt_tli_kcreate(&nsm->ns_knc, &nsm->ns_addr, NSM_ADDR_PROGRAM,
855bbaa8b60SDan Kruchinin NSM_ADDR_V1, 0, NLM_RPC_RETRIES, kcred, &nsm->ns_addr_handle);
856bbaa8b60SDan Kruchinin if (error != 0)
857bbaa8b60SDan Kruchinin goto error;
858bbaa8b60SDan Kruchinin
859bbaa8b60SDan Kruchinin sema_init(&nsm->ns_sem, 1, NULL, SEMA_DEFAULT, NULL);
860bbaa8b60SDan Kruchinin return (0);
861bbaa8b60SDan Kruchinin
862bbaa8b60SDan Kruchinin error:
863bbaa8b60SDan Kruchinin kmem_free(nsm->ns_addr.buf, nsm->ns_addr.maxlen);
864bbaa8b60SDan Kruchinin if (nsm->ns_handle)
865bbaa8b60SDan Kruchinin CLNT_DESTROY(nsm->ns_handle);
866bbaa8b60SDan Kruchinin
867bbaa8b60SDan Kruchinin return (error);
868bbaa8b60SDan Kruchinin }
869bbaa8b60SDan Kruchinin
870bbaa8b60SDan Kruchinin static void
nlm_nsm_fini(struct nlm_nsm * nsm)871bbaa8b60SDan Kruchinin nlm_nsm_fini(struct nlm_nsm *nsm)
872bbaa8b60SDan Kruchinin {
873bbaa8b60SDan Kruchinin kmem_free(nsm->ns_addr.buf, nsm->ns_addr.maxlen);
874bbaa8b60SDan Kruchinin CLNT_DESTROY(nsm->ns_addr_handle);
875bbaa8b60SDan Kruchinin nsm->ns_addr_handle = NULL;
876bbaa8b60SDan Kruchinin CLNT_DESTROY(nsm->ns_handle);
877bbaa8b60SDan Kruchinin nsm->ns_handle = NULL;
878bbaa8b60SDan Kruchinin sema_destroy(&nsm->ns_sem);
879bbaa8b60SDan Kruchinin }
880bbaa8b60SDan Kruchinin
881bbaa8b60SDan Kruchinin static enum clnt_stat
nlm_nsm_simu_crash(struct nlm_nsm * nsm)882bbaa8b60SDan Kruchinin nlm_nsm_simu_crash(struct nlm_nsm *nsm)
883bbaa8b60SDan Kruchinin {
884bbaa8b60SDan Kruchinin enum clnt_stat stat;
885bbaa8b60SDan Kruchinin
886bbaa8b60SDan Kruchinin sema_p(&nsm->ns_sem);
887bbaa8b60SDan Kruchinin nlm_nsm_clnt_init(nsm->ns_handle, nsm);
888bbaa8b60SDan Kruchinin stat = sm_simu_crash_1(NULL, NULL, nsm->ns_handle);
889bbaa8b60SDan Kruchinin sema_v(&nsm->ns_sem);
890bbaa8b60SDan Kruchinin
891bbaa8b60SDan Kruchinin return (stat);
892bbaa8b60SDan Kruchinin }
893bbaa8b60SDan Kruchinin
894bbaa8b60SDan Kruchinin static enum clnt_stat
nlm_nsm_stat(struct nlm_nsm * nsm,int32_t * out_stat)895bbaa8b60SDan Kruchinin nlm_nsm_stat(struct nlm_nsm *nsm, int32_t *out_stat)
896bbaa8b60SDan Kruchinin {
897bbaa8b60SDan Kruchinin struct sm_name args;
898bbaa8b60SDan Kruchinin struct sm_stat_res res;
899bbaa8b60SDan Kruchinin enum clnt_stat stat;
900bbaa8b60SDan Kruchinin
901bbaa8b60SDan Kruchinin args.mon_name = uts_nodename();
902bbaa8b60SDan Kruchinin bzero(&res, sizeof (res));
903bbaa8b60SDan Kruchinin
904bbaa8b60SDan Kruchinin sema_p(&nsm->ns_sem);
905bbaa8b60SDan Kruchinin nlm_nsm_clnt_init(nsm->ns_handle, nsm);
906bbaa8b60SDan Kruchinin stat = sm_stat_1(&args, &res, nsm->ns_handle);
907bbaa8b60SDan Kruchinin sema_v(&nsm->ns_sem);
908bbaa8b60SDan Kruchinin
909bbaa8b60SDan Kruchinin if (stat == RPC_SUCCESS)
910bbaa8b60SDan Kruchinin *out_stat = res.state;
911bbaa8b60SDan Kruchinin
912bbaa8b60SDan Kruchinin return (stat);
913bbaa8b60SDan Kruchinin }
914bbaa8b60SDan Kruchinin
915bbaa8b60SDan Kruchinin static enum clnt_stat
nlm_nsm_mon(struct nlm_nsm * nsm,char * hostname,uint16_t priv)916bbaa8b60SDan Kruchinin nlm_nsm_mon(struct nlm_nsm *nsm, char *hostname, uint16_t priv)
917bbaa8b60SDan Kruchinin {
918bbaa8b60SDan Kruchinin struct mon args;
919bbaa8b60SDan Kruchinin struct sm_stat_res res;
920bbaa8b60SDan Kruchinin enum clnt_stat stat;
921bbaa8b60SDan Kruchinin
922bbaa8b60SDan Kruchinin bzero(&args, sizeof (args));
923bbaa8b60SDan Kruchinin bzero(&res, sizeof (res));
924bbaa8b60SDan Kruchinin
925bbaa8b60SDan Kruchinin args.mon_id.mon_name = hostname;
926bbaa8b60SDan Kruchinin args.mon_id.my_id.my_name = uts_nodename();
927bbaa8b60SDan Kruchinin args.mon_id.my_id.my_prog = NLM_PROG;
928bbaa8b60SDan Kruchinin args.mon_id.my_id.my_vers = NLM_SM;
929bbaa8b60SDan Kruchinin args.mon_id.my_id.my_proc = NLM_SM_NOTIFY1;
930bbaa8b60SDan Kruchinin bcopy(&priv, args.priv, sizeof (priv));
931bbaa8b60SDan Kruchinin
932bbaa8b60SDan Kruchinin sema_p(&nsm->ns_sem);
933bbaa8b60SDan Kruchinin nlm_nsm_clnt_init(nsm->ns_handle, nsm);
934bbaa8b60SDan Kruchinin stat = sm_mon_1(&args, &res, nsm->ns_handle);
935bbaa8b60SDan Kruchinin sema_v(&nsm->ns_sem);
936bbaa8b60SDan Kruchinin
937bbaa8b60SDan Kruchinin return (stat);
938bbaa8b60SDan Kruchinin }
939bbaa8b60SDan Kruchinin
940bbaa8b60SDan Kruchinin static enum clnt_stat
nlm_nsm_unmon(struct nlm_nsm * nsm,char * hostname)941bbaa8b60SDan Kruchinin nlm_nsm_unmon(struct nlm_nsm *nsm, char *hostname)
942bbaa8b60SDan Kruchinin {
943bbaa8b60SDan Kruchinin struct mon_id args;
944bbaa8b60SDan Kruchinin struct sm_stat res;
945bbaa8b60SDan Kruchinin enum clnt_stat stat;
946bbaa8b60SDan Kruchinin
947bbaa8b60SDan Kruchinin bzero(&args, sizeof (args));
948bbaa8b60SDan Kruchinin bzero(&res, sizeof (res));
949bbaa8b60SDan Kruchinin
950bbaa8b60SDan Kruchinin args.mon_name = hostname;
951bbaa8b60SDan Kruchinin args.my_id.my_name = uts_nodename();
952bbaa8b60SDan Kruchinin args.my_id.my_prog = NLM_PROG;
953bbaa8b60SDan Kruchinin args.my_id.my_vers = NLM_SM;
954bbaa8b60SDan Kruchinin args.my_id.my_proc = NLM_SM_NOTIFY1;
955bbaa8b60SDan Kruchinin
956bbaa8b60SDan Kruchinin sema_p(&nsm->ns_sem);
957bbaa8b60SDan Kruchinin nlm_nsm_clnt_init(nsm->ns_handle, nsm);
958bbaa8b60SDan Kruchinin stat = sm_unmon_1(&args, &res, nsm->ns_handle);
959bbaa8b60SDan Kruchinin sema_v(&nsm->ns_sem);
960bbaa8b60SDan Kruchinin
961bbaa8b60SDan Kruchinin return (stat);
962bbaa8b60SDan Kruchinin }
963bbaa8b60SDan Kruchinin
964bbaa8b60SDan Kruchinin static enum clnt_stat
nlm_nsmaddr_reg(struct nlm_nsm * nsm,char * name,int family,netobj * address)965bbaa8b60SDan Kruchinin nlm_nsmaddr_reg(struct nlm_nsm *nsm, char *name, int family, netobj *address)
966bbaa8b60SDan Kruchinin {
967bbaa8b60SDan Kruchinin struct reg1args args = { 0 };
968bbaa8b60SDan Kruchinin struct reg1res res = { 0 };
969bbaa8b60SDan Kruchinin enum clnt_stat stat;
970bbaa8b60SDan Kruchinin
971bbaa8b60SDan Kruchinin args.family = family;
972bbaa8b60SDan Kruchinin args.name = name;
973bbaa8b60SDan Kruchinin args.address = *address;
974bbaa8b60SDan Kruchinin
975bbaa8b60SDan Kruchinin sema_p(&nsm->ns_sem);
976bbaa8b60SDan Kruchinin nlm_nsm_clnt_init(nsm->ns_addr_handle, nsm);
977bbaa8b60SDan Kruchinin stat = nsmaddrproc1_reg_1(&args, &res, nsm->ns_addr_handle);
978bbaa8b60SDan Kruchinin sema_v(&nsm->ns_sem);
979bbaa8b60SDan Kruchinin
980bbaa8b60SDan Kruchinin return (stat);
981bbaa8b60SDan Kruchinin }
982bbaa8b60SDan Kruchinin
983bbaa8b60SDan Kruchinin /*
984bbaa8b60SDan Kruchinin * Get NLM vhold object corresponding to vnode "vp".
985bbaa8b60SDan Kruchinin * If no such object was found, create a new one.
986bbaa8b60SDan Kruchinin *
987bbaa8b60SDan Kruchinin * The purpose of this function is to associate vhold
988bbaa8b60SDan Kruchinin * object with given vnode, so that:
989bbaa8b60SDan Kruchinin * 1) vnode is hold (VN_HOLD) while vhold object is alive.
990bbaa8b60SDan Kruchinin * 2) host has a track of all vnodes it touched by lock
991bbaa8b60SDan Kruchinin * or share operations. These vnodes are accessible
992bbaa8b60SDan Kruchinin * via collection of vhold objects.
993bbaa8b60SDan Kruchinin */
994bbaa8b60SDan Kruchinin struct nlm_vhold *
nlm_vhold_get(struct nlm_host * hostp,vnode_t * vp)995bbaa8b60SDan Kruchinin nlm_vhold_get(struct nlm_host *hostp, vnode_t *vp)
996bbaa8b60SDan Kruchinin {
997bbaa8b60SDan Kruchinin struct nlm_vhold *nvp, *new_nvp = NULL;
998bbaa8b60SDan Kruchinin
999bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
1000bbaa8b60SDan Kruchinin nvp = nlm_vhold_find_locked(hostp, vp);
1001bbaa8b60SDan Kruchinin if (nvp != NULL)
1002bbaa8b60SDan Kruchinin goto out;
1003bbaa8b60SDan Kruchinin
1004bbaa8b60SDan Kruchinin /* nlm_vhold wasn't found, then create a new one */
1005bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
1006bbaa8b60SDan Kruchinin new_nvp = kmem_cache_alloc(nlm_vhold_cache, KM_SLEEP);
1007bbaa8b60SDan Kruchinin
1008bbaa8b60SDan Kruchinin /*
1009bbaa8b60SDan Kruchinin * Check if another thread has already
1010bbaa8b60SDan Kruchinin * created the same nlm_vhold.
1011bbaa8b60SDan Kruchinin */
1012bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
1013bbaa8b60SDan Kruchinin nvp = nlm_vhold_find_locked(hostp, vp);
1014bbaa8b60SDan Kruchinin if (nvp == NULL) {
1015bbaa8b60SDan Kruchinin nvp = new_nvp;
1016bbaa8b60SDan Kruchinin new_nvp = NULL;
1017bbaa8b60SDan Kruchinin
1018bbaa8b60SDan Kruchinin TAILQ_INIT(&nvp->nv_slreqs);
1019bbaa8b60SDan Kruchinin nvp->nv_vp = vp;
1020bbaa8b60SDan Kruchinin nvp->nv_refcnt = 1;
1021bbaa8b60SDan Kruchinin VN_HOLD(nvp->nv_vp);
1022bbaa8b60SDan Kruchinin
1023bbaa8b60SDan Kruchinin VERIFY(mod_hash_insert(hostp->nh_vholds_by_vp,
1024bbaa8b60SDan Kruchinin (mod_hash_key_t)vp, (mod_hash_val_t)nvp) == 0);
1025bbaa8b60SDan Kruchinin TAILQ_INSERT_TAIL(&hostp->nh_vholds_list, nvp, nv_link);
1026bbaa8b60SDan Kruchinin }
1027bbaa8b60SDan Kruchinin
1028bbaa8b60SDan Kruchinin out:
1029bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
1030bbaa8b60SDan Kruchinin if (new_nvp != NULL)
1031bbaa8b60SDan Kruchinin kmem_cache_free(nlm_vhold_cache, new_nvp);
1032bbaa8b60SDan Kruchinin
1033bbaa8b60SDan Kruchinin return (nvp);
1034bbaa8b60SDan Kruchinin }
1035bbaa8b60SDan Kruchinin
1036bbaa8b60SDan Kruchinin /*
1037bbaa8b60SDan Kruchinin * Drop a reference to vhold object nvp.
1038bbaa8b60SDan Kruchinin */
1039bbaa8b60SDan Kruchinin void
nlm_vhold_release(struct nlm_host * hostp,struct nlm_vhold * nvp)1040bbaa8b60SDan Kruchinin nlm_vhold_release(struct nlm_host *hostp, struct nlm_vhold *nvp)
1041bbaa8b60SDan Kruchinin {
1042bbaa8b60SDan Kruchinin if (nvp == NULL)
1043bbaa8b60SDan Kruchinin return;
1044bbaa8b60SDan Kruchinin
1045bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
1046bbaa8b60SDan Kruchinin ASSERT(nvp->nv_refcnt > 0);
1047bbaa8b60SDan Kruchinin nvp->nv_refcnt--;
1048b1087aecSMarcel Telka
1049b1087aecSMarcel Telka /*
1050b1087aecSMarcel Telka * If these conditions are met, the vhold is obviously unused and we
1051b1087aecSMarcel Telka * will destroy it. In a case either v_filocks and/or v_shrlocks is
1052b1087aecSMarcel Telka * non-NULL the vhold might still be unused by the host, but it is
1053b1087aecSMarcel Telka * expensive to check that. We defer such check until the host is
1054b1087aecSMarcel Telka * idle. The expensive check is done in the NLM garbage collector.
1055b1087aecSMarcel Telka */
1056b1087aecSMarcel Telka if (nvp->nv_refcnt == 0 &&
1057b1087aecSMarcel Telka nvp->nv_vp->v_filocks == NULL &&
1058b1087aecSMarcel Telka nvp->nv_vp->v_shrlocks == NULL) {
1059b1087aecSMarcel Telka nlm_vhold_destroy(hostp, nvp);
1060b1087aecSMarcel Telka }
1061b1087aecSMarcel Telka
1062bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
1063bbaa8b60SDan Kruchinin }
1064bbaa8b60SDan Kruchinin
1065bbaa8b60SDan Kruchinin /*
1066bbaa8b60SDan Kruchinin * Clean all locks and share reservations on the
1067bbaa8b60SDan Kruchinin * given vhold object that were acquired by the
1068bbaa8b60SDan Kruchinin * given sysid
1069bbaa8b60SDan Kruchinin */
1070bbaa8b60SDan Kruchinin static void
nlm_vhold_clean(struct nlm_vhold * nvp,int sysid)1071bbaa8b60SDan Kruchinin nlm_vhold_clean(struct nlm_vhold *nvp, int sysid)
1072bbaa8b60SDan Kruchinin {
1073bbaa8b60SDan Kruchinin cleanlocks(nvp->nv_vp, IGN_PID, sysid);
1074bbaa8b60SDan Kruchinin cleanshares_by_sysid(nvp->nv_vp, sysid);
1075bbaa8b60SDan Kruchinin }
1076bbaa8b60SDan Kruchinin
1077bbaa8b60SDan Kruchinin static void
nlm_vhold_destroy(struct nlm_host * hostp,struct nlm_vhold * nvp)1078bbaa8b60SDan Kruchinin nlm_vhold_destroy(struct nlm_host *hostp, struct nlm_vhold *nvp)
1079bbaa8b60SDan Kruchinin {
1080bbaa8b60SDan Kruchinin ASSERT(MUTEX_HELD(&hostp->nh_lock));
1081bbaa8b60SDan Kruchinin
1082b1087aecSMarcel Telka ASSERT(nvp->nv_refcnt == 0);
1083b1087aecSMarcel Telka ASSERT(TAILQ_EMPTY(&nvp->nv_slreqs));
1084b1087aecSMarcel Telka
1085bbaa8b60SDan Kruchinin VERIFY(mod_hash_remove(hostp->nh_vholds_by_vp,
1086bbaa8b60SDan Kruchinin (mod_hash_key_t)nvp->nv_vp,
1087bbaa8b60SDan Kruchinin (mod_hash_val_t)&nvp) == 0);
1088bbaa8b60SDan Kruchinin
1089bbaa8b60SDan Kruchinin TAILQ_REMOVE(&hostp->nh_vholds_list, nvp, nv_link);
1090bbaa8b60SDan Kruchinin VN_RELE(nvp->nv_vp);
1091bbaa8b60SDan Kruchinin nvp->nv_vp = NULL;
1092bbaa8b60SDan Kruchinin
1093bbaa8b60SDan Kruchinin kmem_cache_free(nlm_vhold_cache, nvp);
1094bbaa8b60SDan Kruchinin }
1095bbaa8b60SDan Kruchinin
1096bbaa8b60SDan Kruchinin /*
1097bbaa8b60SDan Kruchinin * Return TRUE if the given vhold is busy.
1098bbaa8b60SDan Kruchinin * Vhold object is considered to be "busy" when
1099bbaa8b60SDan Kruchinin * all the following conditions hold:
1100bbaa8b60SDan Kruchinin * 1) No one uses it at the moment;
1101bbaa8b60SDan Kruchinin * 2) It hasn't any locks;
1102bbaa8b60SDan Kruchinin * 3) It hasn't any share reservations;
1103bbaa8b60SDan Kruchinin */
1104bbaa8b60SDan Kruchinin static bool_t
nlm_vhold_busy(struct nlm_host * hostp,struct nlm_vhold * nvp)1105bbaa8b60SDan Kruchinin nlm_vhold_busy(struct nlm_host *hostp, struct nlm_vhold *nvp)
1106bbaa8b60SDan Kruchinin {
1107bbaa8b60SDan Kruchinin vnode_t *vp;
1108bbaa8b60SDan Kruchinin int sysid;
1109bbaa8b60SDan Kruchinin
1110bbaa8b60SDan Kruchinin ASSERT(MUTEX_HELD(&hostp->nh_lock));
1111bbaa8b60SDan Kruchinin
1112bbaa8b60SDan Kruchinin if (nvp->nv_refcnt > 0)
1113bbaa8b60SDan Kruchinin return (TRUE);
1114bbaa8b60SDan Kruchinin
1115bbaa8b60SDan Kruchinin vp = nvp->nv_vp;
1116bbaa8b60SDan Kruchinin sysid = hostp->nh_sysid;
1117bbaa8b60SDan Kruchinin if (flk_has_remote_locks_for_sysid(vp, sysid) ||
1118bbaa8b60SDan Kruchinin shr_has_remote_shares(vp, sysid))
1119bbaa8b60SDan Kruchinin return (TRUE);
1120bbaa8b60SDan Kruchinin
1121bbaa8b60SDan Kruchinin return (FALSE);
1122bbaa8b60SDan Kruchinin }
1123bbaa8b60SDan Kruchinin
1124bbaa8b60SDan Kruchinin /* ARGSUSED */
1125bbaa8b60SDan Kruchinin static int
nlm_vhold_ctor(void * datap,void * cdrarg,int kmflags)1126bbaa8b60SDan Kruchinin nlm_vhold_ctor(void *datap, void *cdrarg, int kmflags)
1127bbaa8b60SDan Kruchinin {
1128bbaa8b60SDan Kruchinin struct nlm_vhold *nvp = (struct nlm_vhold *)datap;
1129bbaa8b60SDan Kruchinin
1130bbaa8b60SDan Kruchinin bzero(nvp, sizeof (*nvp));
1131bbaa8b60SDan Kruchinin return (0);
1132bbaa8b60SDan Kruchinin }
1133bbaa8b60SDan Kruchinin
1134bbaa8b60SDan Kruchinin /* ARGSUSED */
1135bbaa8b60SDan Kruchinin static void
nlm_vhold_dtor(void * datap,void * cdrarg)1136bbaa8b60SDan Kruchinin nlm_vhold_dtor(void *datap, void *cdrarg)
1137bbaa8b60SDan Kruchinin {
1138bbaa8b60SDan Kruchinin struct nlm_vhold *nvp = (struct nlm_vhold *)datap;
1139bbaa8b60SDan Kruchinin
1140bbaa8b60SDan Kruchinin ASSERT(nvp->nv_refcnt == 0);
1141bbaa8b60SDan Kruchinin ASSERT(TAILQ_EMPTY(&nvp->nv_slreqs));
1142bbaa8b60SDan Kruchinin ASSERT(nvp->nv_vp == NULL);
1143bbaa8b60SDan Kruchinin }
1144bbaa8b60SDan Kruchinin
1145bbaa8b60SDan Kruchinin struct nlm_vhold *
nlm_vhold_find_locked(struct nlm_host * hostp,const vnode_t * vp)1146bbaa8b60SDan Kruchinin nlm_vhold_find_locked(struct nlm_host *hostp, const vnode_t *vp)
1147bbaa8b60SDan Kruchinin {
1148bbaa8b60SDan Kruchinin struct nlm_vhold *nvp = NULL;
1149bbaa8b60SDan Kruchinin
1150bbaa8b60SDan Kruchinin ASSERT(MUTEX_HELD(&hostp->nh_lock));
1151bbaa8b60SDan Kruchinin (void) mod_hash_find(hostp->nh_vholds_by_vp,
1152bbaa8b60SDan Kruchinin (mod_hash_key_t)vp,
1153bbaa8b60SDan Kruchinin (mod_hash_val_t)&nvp);
1154bbaa8b60SDan Kruchinin
1155bbaa8b60SDan Kruchinin if (nvp != NULL)
1156bbaa8b60SDan Kruchinin nvp->nv_refcnt++;
1157bbaa8b60SDan Kruchinin
1158bbaa8b60SDan Kruchinin return (nvp);
1159bbaa8b60SDan Kruchinin }
1160bbaa8b60SDan Kruchinin
1161bbaa8b60SDan Kruchinin /*
1162bbaa8b60SDan Kruchinin * NLM host functions
1163bbaa8b60SDan Kruchinin */
1164bbaa8b60SDan Kruchinin static void
nlm_copy_netbuf(struct netbuf * dst,struct netbuf * src)1165bbaa8b60SDan Kruchinin nlm_copy_netbuf(struct netbuf *dst, struct netbuf *src)
1166bbaa8b60SDan Kruchinin {
1167bbaa8b60SDan Kruchinin ASSERT(src->len <= src->maxlen);
1168bbaa8b60SDan Kruchinin
1169bbaa8b60SDan Kruchinin dst->maxlen = src->maxlen;
1170bbaa8b60SDan Kruchinin dst->len = src->len;
1171bbaa8b60SDan Kruchinin dst->buf = kmem_zalloc(src->maxlen, KM_SLEEP);
1172bbaa8b60SDan Kruchinin bcopy(src->buf, dst->buf, src->len);
1173bbaa8b60SDan Kruchinin }
1174bbaa8b60SDan Kruchinin
1175bbaa8b60SDan Kruchinin /* ARGSUSED */
1176bbaa8b60SDan Kruchinin static int
nlm_host_ctor(void * datap,void * cdrarg,int kmflags)1177bbaa8b60SDan Kruchinin nlm_host_ctor(void *datap, void *cdrarg, int kmflags)
1178bbaa8b60SDan Kruchinin {
1179bbaa8b60SDan Kruchinin struct nlm_host *hostp = (struct nlm_host *)datap;
1180bbaa8b60SDan Kruchinin
1181bbaa8b60SDan Kruchinin bzero(hostp, sizeof (*hostp));
1182bbaa8b60SDan Kruchinin return (0);
1183bbaa8b60SDan Kruchinin }
1184bbaa8b60SDan Kruchinin
1185bbaa8b60SDan Kruchinin /* ARGSUSED */
1186bbaa8b60SDan Kruchinin static void
nlm_host_dtor(void * datap,void * cdrarg)1187bbaa8b60SDan Kruchinin nlm_host_dtor(void *datap, void *cdrarg)
1188bbaa8b60SDan Kruchinin {
1189bbaa8b60SDan Kruchinin struct nlm_host *hostp = (struct nlm_host *)datap;
1190bbaa8b60SDan Kruchinin ASSERT(hostp->nh_refs == 0);
1191bbaa8b60SDan Kruchinin }
1192bbaa8b60SDan Kruchinin
1193bbaa8b60SDan Kruchinin static void
nlm_host_unregister(struct nlm_globals * g,struct nlm_host * hostp)1194bbaa8b60SDan Kruchinin nlm_host_unregister(struct nlm_globals *g, struct nlm_host *hostp)
1195bbaa8b60SDan Kruchinin {
1196bbaa8b60SDan Kruchinin ASSERT(hostp->nh_refs == 0);
1197096e63b2SPaul Dagnelie ASSERT(hostp->nh_flags & NLM_NH_INIDLE);
1198bbaa8b60SDan Kruchinin
1199bbaa8b60SDan Kruchinin avl_remove(&g->nlm_hosts_tree, hostp);
1200bbaa8b60SDan Kruchinin VERIFY(mod_hash_remove(g->nlm_hosts_hash,
1201bbaa8b60SDan Kruchinin (mod_hash_key_t)(uintptr_t)hostp->nh_sysid,
1202bbaa8b60SDan Kruchinin (mod_hash_val_t)&hostp) == 0);
1203bbaa8b60SDan Kruchinin TAILQ_REMOVE(&g->nlm_idle_hosts, hostp, nh_link);
1204bbaa8b60SDan Kruchinin hostp->nh_flags &= ~NLM_NH_INIDLE;
1205bbaa8b60SDan Kruchinin }
1206bbaa8b60SDan Kruchinin
1207bbaa8b60SDan Kruchinin /*
1208bbaa8b60SDan Kruchinin * Free resources used by a host. This is called after the reference
1209bbaa8b60SDan Kruchinin * count has reached zero so it doesn't need to worry about locks.
1210bbaa8b60SDan Kruchinin */
1211bbaa8b60SDan Kruchinin static void
nlm_host_destroy(struct nlm_host * hostp)1212bbaa8b60SDan Kruchinin nlm_host_destroy(struct nlm_host *hostp)
1213bbaa8b60SDan Kruchinin {
1214bbaa8b60SDan Kruchinin ASSERT(hostp->nh_name != NULL);
1215bbaa8b60SDan Kruchinin ASSERT(hostp->nh_netid != NULL);
1216bbaa8b60SDan Kruchinin ASSERT(TAILQ_EMPTY(&hostp->nh_vholds_list));
1217bbaa8b60SDan Kruchinin
1218bbaa8b60SDan Kruchinin strfree(hostp->nh_name);
1219bbaa8b60SDan Kruchinin strfree(hostp->nh_netid);
1220bbaa8b60SDan Kruchinin kmem_free(hostp->nh_addr.buf, hostp->nh_addr.maxlen);
1221bbaa8b60SDan Kruchinin
1222bbaa8b60SDan Kruchinin if (hostp->nh_sysid != LM_NOSYSID)
1223bbaa8b60SDan Kruchinin nlm_sysid_free(hostp->nh_sysid);
1224bbaa8b60SDan Kruchinin
1225bbaa8b60SDan Kruchinin nlm_rpc_cache_destroy(hostp);
1226bbaa8b60SDan Kruchinin
1227bbaa8b60SDan Kruchinin ASSERT(TAILQ_EMPTY(&hostp->nh_vholds_list));
1228bbaa8b60SDan Kruchinin mod_hash_destroy_ptrhash(hostp->nh_vholds_by_vp);
1229bbaa8b60SDan Kruchinin
1230bbaa8b60SDan Kruchinin mutex_destroy(&hostp->nh_lock);
1231bbaa8b60SDan Kruchinin cv_destroy(&hostp->nh_rpcb_cv);
1232bbaa8b60SDan Kruchinin cv_destroy(&hostp->nh_recl_cv);
1233bbaa8b60SDan Kruchinin
1234bbaa8b60SDan Kruchinin kmem_cache_free(nlm_hosts_cache, hostp);
1235bbaa8b60SDan Kruchinin }
1236bbaa8b60SDan Kruchinin
1237bbaa8b60SDan Kruchinin /*
1238bbaa8b60SDan Kruchinin * Cleanup SERVER-side state after a client restarts,
1239bbaa8b60SDan Kruchinin * or becomes unresponsive, or whatever.
1240bbaa8b60SDan Kruchinin *
1241bbaa8b60SDan Kruchinin * We unlock any active locks owned by the host.
1242bbaa8b60SDan Kruchinin * When rpc.lockd is shutting down,
1243bbaa8b60SDan Kruchinin * this function is called with newstate set to zero
1244bbaa8b60SDan Kruchinin * which allows us to cancel any pending async locks
1245bbaa8b60SDan Kruchinin * and clear the locking state.
1246bbaa8b60SDan Kruchinin *
1247bbaa8b60SDan Kruchinin * When "state" is 0, we don't update host's state,
1248bbaa8b60SDan Kruchinin * but cleanup all remote locks on the host.
1249bbaa8b60SDan Kruchinin * It's useful to call this function for resources
1250bbaa8b60SDan Kruchinin * cleanup.
1251bbaa8b60SDan Kruchinin */
1252bbaa8b60SDan Kruchinin void
nlm_host_notify_server(struct nlm_host * hostp,int32_t state)1253bbaa8b60SDan Kruchinin nlm_host_notify_server(struct nlm_host *hostp, int32_t state)
1254bbaa8b60SDan Kruchinin {
1255bbaa8b60SDan Kruchinin struct nlm_vhold *nvp;
1256bbaa8b60SDan Kruchinin struct nlm_slreq *slr;
1257bbaa8b60SDan Kruchinin struct nlm_slreq_list slreqs2free;
1258bbaa8b60SDan Kruchinin
1259bbaa8b60SDan Kruchinin TAILQ_INIT(&slreqs2free);
1260bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
1261bbaa8b60SDan Kruchinin if (state != 0)
1262bbaa8b60SDan Kruchinin hostp->nh_state = state;
1263bbaa8b60SDan Kruchinin
1264bbaa8b60SDan Kruchinin TAILQ_FOREACH(nvp, &hostp->nh_vholds_list, nv_link) {
1265bbaa8b60SDan Kruchinin
1266bbaa8b60SDan Kruchinin /* cleanup sleeping requests at first */
1267bbaa8b60SDan Kruchinin while ((slr = TAILQ_FIRST(&nvp->nv_slreqs)) != NULL) {
1268bbaa8b60SDan Kruchinin TAILQ_REMOVE(&nvp->nv_slreqs, slr, nsr_link);
1269bbaa8b60SDan Kruchinin
1270bbaa8b60SDan Kruchinin /*
1271bbaa8b60SDan Kruchinin * Instead of freeing cancelled sleeping request
1272bbaa8b60SDan Kruchinin * here, we add it to the linked list created
1273bbaa8b60SDan Kruchinin * on the stack in order to do all frees outside
1274bbaa8b60SDan Kruchinin * the critical section.
1275bbaa8b60SDan Kruchinin */
1276bbaa8b60SDan Kruchinin TAILQ_INSERT_TAIL(&slreqs2free, slr, nsr_link);
1277bbaa8b60SDan Kruchinin }
1278bbaa8b60SDan Kruchinin
1279bbaa8b60SDan Kruchinin nvp->nv_refcnt++;
1280bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
1281bbaa8b60SDan Kruchinin
1282bbaa8b60SDan Kruchinin nlm_vhold_clean(nvp, hostp->nh_sysid);
1283bbaa8b60SDan Kruchinin
1284bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
1285bbaa8b60SDan Kruchinin nvp->nv_refcnt--;
1286bbaa8b60SDan Kruchinin }
1287bbaa8b60SDan Kruchinin
1288bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
1289bbaa8b60SDan Kruchinin while ((slr = TAILQ_FIRST(&slreqs2free)) != NULL) {
1290bbaa8b60SDan Kruchinin TAILQ_REMOVE(&slreqs2free, slr, nsr_link);
1291bbaa8b60SDan Kruchinin kmem_free(slr, sizeof (*slr));
1292bbaa8b60SDan Kruchinin }
1293bbaa8b60SDan Kruchinin }
1294bbaa8b60SDan Kruchinin
1295bbaa8b60SDan Kruchinin /*
1296bbaa8b60SDan Kruchinin * Cleanup CLIENT-side state after a server restarts,
1297bbaa8b60SDan Kruchinin * or becomes unresponsive, or whatever.
1298bbaa8b60SDan Kruchinin *
1299bbaa8b60SDan Kruchinin * This is called by the local NFS statd when we receive a
1300bbaa8b60SDan Kruchinin * host state change notification. (also nlm_svc_stopping)
1301bbaa8b60SDan Kruchinin *
1302bbaa8b60SDan Kruchinin * Deal with a server restart. If we are stopping the
1303bbaa8b60SDan Kruchinin * NLM service, we'll have newstate == 0, and will just
1304bbaa8b60SDan Kruchinin * cancel all our client-side lock requests. Otherwise,
1305bbaa8b60SDan Kruchinin * start the "recovery" process to reclaim any locks
1306bbaa8b60SDan Kruchinin * we hold on this server.
1307bbaa8b60SDan Kruchinin */
1308bbaa8b60SDan Kruchinin void
nlm_host_notify_client(struct nlm_host * hostp,int32_t state)1309bbaa8b60SDan Kruchinin nlm_host_notify_client(struct nlm_host *hostp, int32_t state)
1310bbaa8b60SDan Kruchinin {
1311bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
1312bbaa8b60SDan Kruchinin hostp->nh_state = state;
1313bbaa8b60SDan Kruchinin if (hostp->nh_flags & NLM_NH_RECLAIM) {
1314bbaa8b60SDan Kruchinin /*
1315bbaa8b60SDan Kruchinin * Either host's state is up to date or
1316bbaa8b60SDan Kruchinin * host is already in recovery.
1317bbaa8b60SDan Kruchinin */
1318bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
1319bbaa8b60SDan Kruchinin return;
1320bbaa8b60SDan Kruchinin }
1321bbaa8b60SDan Kruchinin
1322bbaa8b60SDan Kruchinin hostp->nh_flags |= NLM_NH_RECLAIM;
1323bbaa8b60SDan Kruchinin
1324bbaa8b60SDan Kruchinin /*
1325bbaa8b60SDan Kruchinin * Host will be released by the recovery thread,
1326bbaa8b60SDan Kruchinin * thus we need to increment refcount.
1327bbaa8b60SDan Kruchinin */
1328bbaa8b60SDan Kruchinin hostp->nh_refs++;
1329bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
1330bbaa8b60SDan Kruchinin
1331bbaa8b60SDan Kruchinin (void) zthread_create(NULL, 0, nlm_reclaimer,
1332bbaa8b60SDan Kruchinin hostp, 0, minclsyspri);
1333bbaa8b60SDan Kruchinin }
1334bbaa8b60SDan Kruchinin
1335bbaa8b60SDan Kruchinin /*
1336bbaa8b60SDan Kruchinin * The function is called when NLM client detects that
1337bbaa8b60SDan Kruchinin * server has entered in grace period and client needs
1338bbaa8b60SDan Kruchinin * to wait until reclamation process (if any) does
1339bbaa8b60SDan Kruchinin * its job.
1340bbaa8b60SDan Kruchinin */
1341bbaa8b60SDan Kruchinin int
nlm_host_wait_grace(struct nlm_host * hostp)1342bbaa8b60SDan Kruchinin nlm_host_wait_grace(struct nlm_host *hostp)
1343bbaa8b60SDan Kruchinin {
1344bbaa8b60SDan Kruchinin struct nlm_globals *g;
1345bbaa8b60SDan Kruchinin int error = 0;
1346bbaa8b60SDan Kruchinin
1347bbaa8b60SDan Kruchinin g = zone_getspecific(nlm_zone_key, curzone);
1348bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
1349bbaa8b60SDan Kruchinin
1350bbaa8b60SDan Kruchinin do {
1351bbaa8b60SDan Kruchinin int rc;
1352bbaa8b60SDan Kruchinin
1353bbaa8b60SDan Kruchinin rc = cv_timedwait_sig(&hostp->nh_recl_cv,
1354bbaa8b60SDan Kruchinin &hostp->nh_lock, ddi_get_lbolt() +
1355bbaa8b60SDan Kruchinin SEC_TO_TICK(g->retrans_tmo));
1356bbaa8b60SDan Kruchinin
1357bbaa8b60SDan Kruchinin if (rc == 0) {
1358bbaa8b60SDan Kruchinin error = EINTR;
1359bbaa8b60SDan Kruchinin break;
1360bbaa8b60SDan Kruchinin }
1361bbaa8b60SDan Kruchinin } while (hostp->nh_flags & NLM_NH_RECLAIM);
1362bbaa8b60SDan Kruchinin
1363bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
1364bbaa8b60SDan Kruchinin return (error);
1365bbaa8b60SDan Kruchinin }
1366bbaa8b60SDan Kruchinin
1367bbaa8b60SDan Kruchinin /*
1368bbaa8b60SDan Kruchinin * Create a new NLM host.
1369bbaa8b60SDan Kruchinin *
1370bbaa8b60SDan Kruchinin * NOTE: The in-kernel RPC (kRPC) subsystem uses TLI/XTI,
1371bbaa8b60SDan Kruchinin * which needs both a knetconfig and an address when creating
1372bbaa8b60SDan Kruchinin * endpoints. Thus host object stores both knetconfig and
1373bbaa8b60SDan Kruchinin * netid.
1374bbaa8b60SDan Kruchinin */
1375bbaa8b60SDan Kruchinin static struct nlm_host *
nlm_host_create(char * name,const char * netid,struct knetconfig * knc,struct netbuf * naddr)1376bbaa8b60SDan Kruchinin nlm_host_create(char *name, const char *netid,
1377bbaa8b60SDan Kruchinin struct knetconfig *knc, struct netbuf *naddr)
1378bbaa8b60SDan Kruchinin {
1379bbaa8b60SDan Kruchinin struct nlm_host *host;
1380bbaa8b60SDan Kruchinin
1381bbaa8b60SDan Kruchinin host = kmem_cache_alloc(nlm_hosts_cache, KM_SLEEP);
1382bbaa8b60SDan Kruchinin
1383bbaa8b60SDan Kruchinin mutex_init(&host->nh_lock, NULL, MUTEX_DEFAULT, NULL);
1384bbaa8b60SDan Kruchinin cv_init(&host->nh_rpcb_cv, NULL, CV_DEFAULT, NULL);
1385bbaa8b60SDan Kruchinin cv_init(&host->nh_recl_cv, NULL, CV_DEFAULT, NULL);
1386bbaa8b60SDan Kruchinin
1387bbaa8b60SDan Kruchinin host->nh_sysid = LM_NOSYSID;
1388bbaa8b60SDan Kruchinin host->nh_refs = 1;
1389bbaa8b60SDan Kruchinin host->nh_name = strdup(name);
1390bbaa8b60SDan Kruchinin host->nh_netid = strdup(netid);
1391bbaa8b60SDan Kruchinin host->nh_knc = *knc;
1392bbaa8b60SDan Kruchinin nlm_copy_netbuf(&host->nh_addr, naddr);
1393bbaa8b60SDan Kruchinin
1394bbaa8b60SDan Kruchinin host->nh_state = 0;
1395bbaa8b60SDan Kruchinin host->nh_rpcb_state = NRPCB_NEED_UPDATE;
1396bbaa8b60SDan Kruchinin host->nh_flags = 0;
1397bbaa8b60SDan Kruchinin
1398bbaa8b60SDan Kruchinin host->nh_vholds_by_vp = mod_hash_create_ptrhash("nlm vholds hash",
1399bbaa8b60SDan Kruchinin 32, mod_hash_null_valdtor, sizeof (vnode_t));
1400bbaa8b60SDan Kruchinin
1401bbaa8b60SDan Kruchinin TAILQ_INIT(&host->nh_vholds_list);
1402bbaa8b60SDan Kruchinin TAILQ_INIT(&host->nh_rpchc);
1403bbaa8b60SDan Kruchinin
1404bbaa8b60SDan Kruchinin return (host);
1405bbaa8b60SDan Kruchinin }
1406bbaa8b60SDan Kruchinin
1407bbaa8b60SDan Kruchinin /*
1408bbaa8b60SDan Kruchinin * Cancel all client side sleeping locks owned by given host.
1409bbaa8b60SDan Kruchinin */
1410bbaa8b60SDan Kruchinin void
nlm_host_cancel_slocks(struct nlm_globals * g,struct nlm_host * hostp)1411bbaa8b60SDan Kruchinin nlm_host_cancel_slocks(struct nlm_globals *g, struct nlm_host *hostp)
1412bbaa8b60SDan Kruchinin {
1413bbaa8b60SDan Kruchinin struct nlm_slock *nslp;
1414bbaa8b60SDan Kruchinin
1415bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1416bbaa8b60SDan Kruchinin TAILQ_FOREACH(nslp, &g->nlm_slocks, nsl_link) {
1417bbaa8b60SDan Kruchinin if (nslp->nsl_host == hostp) {
1418bbaa8b60SDan Kruchinin nslp->nsl_state = NLM_SL_CANCELLED;
1419bbaa8b60SDan Kruchinin cv_broadcast(&nslp->nsl_cond);
1420bbaa8b60SDan Kruchinin }
1421bbaa8b60SDan Kruchinin }
1422bbaa8b60SDan Kruchinin
1423bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1424bbaa8b60SDan Kruchinin }
1425bbaa8b60SDan Kruchinin
1426bbaa8b60SDan Kruchinin /*
1427bbaa8b60SDan Kruchinin * Garbage collect stale vhold objects.
1428bbaa8b60SDan Kruchinin *
1429bbaa8b60SDan Kruchinin * In other words check whether vnodes that are
1430bbaa8b60SDan Kruchinin * held by vhold objects still have any locks
1431bbaa8b60SDan Kruchinin * or shares or still in use. If they aren't,
1432bbaa8b60SDan Kruchinin * just destroy them.
1433bbaa8b60SDan Kruchinin */
1434bbaa8b60SDan Kruchinin static void
nlm_host_gc_vholds(struct nlm_host * hostp)1435bbaa8b60SDan Kruchinin nlm_host_gc_vholds(struct nlm_host *hostp)
1436bbaa8b60SDan Kruchinin {
1437bbaa8b60SDan Kruchinin struct nlm_vhold *nvp;
1438bbaa8b60SDan Kruchinin
1439bbaa8b60SDan Kruchinin ASSERT(MUTEX_HELD(&hostp->nh_lock));
1440bbaa8b60SDan Kruchinin
1441bbaa8b60SDan Kruchinin nvp = TAILQ_FIRST(&hostp->nh_vholds_list);
1442bbaa8b60SDan Kruchinin while (nvp != NULL) {
1443bbaa8b60SDan Kruchinin struct nlm_vhold *nvp_tmp;
1444bbaa8b60SDan Kruchinin
1445bbaa8b60SDan Kruchinin if (nlm_vhold_busy(hostp, nvp)) {
1446bbaa8b60SDan Kruchinin nvp = TAILQ_NEXT(nvp, nv_link);
1447bbaa8b60SDan Kruchinin continue;
1448bbaa8b60SDan Kruchinin }
1449bbaa8b60SDan Kruchinin
1450bbaa8b60SDan Kruchinin nvp_tmp = TAILQ_NEXT(nvp, nv_link);
1451bbaa8b60SDan Kruchinin nlm_vhold_destroy(hostp, nvp);
1452bbaa8b60SDan Kruchinin nvp = nvp_tmp;
1453bbaa8b60SDan Kruchinin }
1454bbaa8b60SDan Kruchinin }
1455bbaa8b60SDan Kruchinin
1456bbaa8b60SDan Kruchinin /*
1457bbaa8b60SDan Kruchinin * Check whether the given host has any
1458bbaa8b60SDan Kruchinin * server side locks or share reservations.
1459bbaa8b60SDan Kruchinin */
1460bbaa8b60SDan Kruchinin static bool_t
nlm_host_has_srv_locks(struct nlm_host * hostp)1461bbaa8b60SDan Kruchinin nlm_host_has_srv_locks(struct nlm_host *hostp)
1462bbaa8b60SDan Kruchinin {
1463bbaa8b60SDan Kruchinin /*
1464bbaa8b60SDan Kruchinin * It's cheap and simple: if server has
1465bbaa8b60SDan Kruchinin * any locks/shares there must be vhold
1466bbaa8b60SDan Kruchinin * object storing the affected vnode.
1467bbaa8b60SDan Kruchinin *
1468bbaa8b60SDan Kruchinin * NOTE: We don't need to check sleeping
1469bbaa8b60SDan Kruchinin * locks on the server side, because if
1470bbaa8b60SDan Kruchinin * server side sleeping lock is alive,
1471bbaa8b60SDan Kruchinin * there must be a vhold object corresponding
1472bbaa8b60SDan Kruchinin * to target vnode.
1473bbaa8b60SDan Kruchinin */
1474bbaa8b60SDan Kruchinin ASSERT(MUTEX_HELD(&hostp->nh_lock));
1475bbaa8b60SDan Kruchinin if (!TAILQ_EMPTY(&hostp->nh_vholds_list))
1476bbaa8b60SDan Kruchinin return (TRUE);
1477bbaa8b60SDan Kruchinin
1478bbaa8b60SDan Kruchinin return (FALSE);
1479bbaa8b60SDan Kruchinin }
1480bbaa8b60SDan Kruchinin
1481bbaa8b60SDan Kruchinin /*
1482bbaa8b60SDan Kruchinin * Check whether the given host has any client side
1483bbaa8b60SDan Kruchinin * locks or share reservations.
1484bbaa8b60SDan Kruchinin */
1485bbaa8b60SDan Kruchinin static bool_t
nlm_host_has_cli_locks(struct nlm_host * hostp)1486bbaa8b60SDan Kruchinin nlm_host_has_cli_locks(struct nlm_host *hostp)
1487bbaa8b60SDan Kruchinin {
1488bbaa8b60SDan Kruchinin ASSERT(MUTEX_HELD(&hostp->nh_lock));
1489bbaa8b60SDan Kruchinin
1490bbaa8b60SDan Kruchinin /*
1491bbaa8b60SDan Kruchinin * XXX: It's not the way I'd like to do the check,
1492bbaa8b60SDan Kruchinin * because flk_sysid_has_locks() can be very
1493bbaa8b60SDan Kruchinin * expensive by design. Unfortunatelly it iterates
1494bbaa8b60SDan Kruchinin * through all locks on the system, doesn't matter
1495bbaa8b60SDan Kruchinin * were they made on remote system via NLM or
1496bbaa8b60SDan Kruchinin * on local system via reclock. To understand the
1497bbaa8b60SDan Kruchinin * problem, consider that there're dozens of thousands
1498bbaa8b60SDan Kruchinin * of locks that are made on some ZFS dataset. And there's
1499bbaa8b60SDan Kruchinin * another dataset shared by NFS where NLM client had locks
1500bbaa8b60SDan Kruchinin * some time ago, but doesn't have them now.
1501bbaa8b60SDan Kruchinin * In this case flk_sysid_has_locks() will iterate
1502bbaa8b60SDan Kruchinin * thrught dozens of thousands locks until it returns us
1503bbaa8b60SDan Kruchinin * FALSE.
1504bbaa8b60SDan Kruchinin * Oh, I hope that in shiny future somebody will make
1505bbaa8b60SDan Kruchinin * local lock manager (os/flock.c) better, so that
1506bbaa8b60SDan Kruchinin * it'd be more friedly to remote locks and
1507bbaa8b60SDan Kruchinin * flk_sysid_has_locks() wouldn't be so expensive.
1508bbaa8b60SDan Kruchinin */
1509bbaa8b60SDan Kruchinin if (flk_sysid_has_locks(hostp->nh_sysid |
1510bbaa8b60SDan Kruchinin LM_SYSID_CLIENT, FLK_QUERY_ACTIVE))
1511bbaa8b60SDan Kruchinin return (TRUE);
1512bbaa8b60SDan Kruchinin
1513bbaa8b60SDan Kruchinin /*
1514bbaa8b60SDan Kruchinin * Check whether host has any share reservations
1515bbaa8b60SDan Kruchinin * registered on the client side.
1516bbaa8b60SDan Kruchinin */
1517bbaa8b60SDan Kruchinin if (hostp->nh_shrlist != NULL)
1518bbaa8b60SDan Kruchinin return (TRUE);
1519bbaa8b60SDan Kruchinin
1520bbaa8b60SDan Kruchinin return (FALSE);
1521bbaa8b60SDan Kruchinin }
1522bbaa8b60SDan Kruchinin
1523bbaa8b60SDan Kruchinin /*
1524bbaa8b60SDan Kruchinin * Determine whether the given host owns any
1525bbaa8b60SDan Kruchinin * locks or share reservations.
1526bbaa8b60SDan Kruchinin */
1527bbaa8b60SDan Kruchinin static bool_t
nlm_host_has_locks(struct nlm_host * hostp)1528bbaa8b60SDan Kruchinin nlm_host_has_locks(struct nlm_host *hostp)
1529bbaa8b60SDan Kruchinin {
1530bbaa8b60SDan Kruchinin if (nlm_host_has_srv_locks(hostp))
1531bbaa8b60SDan Kruchinin return (TRUE);
1532bbaa8b60SDan Kruchinin
1533bbaa8b60SDan Kruchinin return (nlm_host_has_cli_locks(hostp));
1534bbaa8b60SDan Kruchinin }
1535bbaa8b60SDan Kruchinin
1536bbaa8b60SDan Kruchinin /*
1537bbaa8b60SDan Kruchinin * This function compares only addresses of two netbufs
1538bbaa8b60SDan Kruchinin * that belong to NC_TCP[6] or NC_UDP[6] protofamily.
1539bbaa8b60SDan Kruchinin * Port part of netbuf is ignored.
1540bbaa8b60SDan Kruchinin *
1541bbaa8b60SDan Kruchinin * Return values:
1542bbaa8b60SDan Kruchinin * -1: nb1's address is "smaller" than nb2's
1543bbaa8b60SDan Kruchinin * 0: addresses are equal
1544bbaa8b60SDan Kruchinin * 1: nb1's address is "greater" than nb2's
1545bbaa8b60SDan Kruchinin */
1546bbaa8b60SDan Kruchinin static int
nlm_netbuf_addrs_cmp(struct netbuf * nb1,struct netbuf * nb2)1547bbaa8b60SDan Kruchinin nlm_netbuf_addrs_cmp(struct netbuf *nb1, struct netbuf *nb2)
1548bbaa8b60SDan Kruchinin {
1549bbaa8b60SDan Kruchinin union nlm_addr {
1550bbaa8b60SDan Kruchinin struct sockaddr sa;
1551bbaa8b60SDan Kruchinin struct sockaddr_in sin;
1552bbaa8b60SDan Kruchinin struct sockaddr_in6 sin6;
1553bbaa8b60SDan Kruchinin } *na1, *na2;
1554bbaa8b60SDan Kruchinin int res;
1555bbaa8b60SDan Kruchinin
1556bbaa8b60SDan Kruchinin /* LINTED E_BAD_PTR_CAST_ALIGN */
1557bbaa8b60SDan Kruchinin na1 = (union nlm_addr *)nb1->buf;
1558bbaa8b60SDan Kruchinin /* LINTED E_BAD_PTR_CAST_ALIGN */
1559bbaa8b60SDan Kruchinin na2 = (union nlm_addr *)nb2->buf;
1560bbaa8b60SDan Kruchinin
1561bbaa8b60SDan Kruchinin if (na1->sa.sa_family < na2->sa.sa_family)
1562bbaa8b60SDan Kruchinin return (-1);
1563bbaa8b60SDan Kruchinin if (na1->sa.sa_family > na2->sa.sa_family)
1564bbaa8b60SDan Kruchinin return (1);
1565bbaa8b60SDan Kruchinin
1566bbaa8b60SDan Kruchinin switch (na1->sa.sa_family) {
1567bbaa8b60SDan Kruchinin case AF_INET:
1568bbaa8b60SDan Kruchinin res = memcmp(&na1->sin.sin_addr, &na2->sin.sin_addr,
1569bbaa8b60SDan Kruchinin sizeof (na1->sin.sin_addr));
1570bbaa8b60SDan Kruchinin break;
1571bbaa8b60SDan Kruchinin case AF_INET6:
1572bbaa8b60SDan Kruchinin res = memcmp(&na1->sin6.sin6_addr, &na2->sin6.sin6_addr,
1573bbaa8b60SDan Kruchinin sizeof (na1->sin6.sin6_addr));
1574bbaa8b60SDan Kruchinin break;
1575bbaa8b60SDan Kruchinin default:
1576bbaa8b60SDan Kruchinin VERIFY(0);
1577bbaa8b60SDan Kruchinin return (0);
1578bbaa8b60SDan Kruchinin }
1579bbaa8b60SDan Kruchinin
1580bbaa8b60SDan Kruchinin return (SIGN(res));
1581bbaa8b60SDan Kruchinin }
1582bbaa8b60SDan Kruchinin
1583bbaa8b60SDan Kruchinin /*
1584bbaa8b60SDan Kruchinin * Compare two nlm hosts.
1585bbaa8b60SDan Kruchinin * Return values:
1586bbaa8b60SDan Kruchinin * -1: host1 is "smaller" than host2
1587bbaa8b60SDan Kruchinin * 0: host1 is equal to host2
1588bbaa8b60SDan Kruchinin * 1: host1 is "greater" than host2
1589bbaa8b60SDan Kruchinin */
1590bbaa8b60SDan Kruchinin int
nlm_host_cmp(const void * p1,const void * p2)1591bbaa8b60SDan Kruchinin nlm_host_cmp(const void *p1, const void *p2)
1592bbaa8b60SDan Kruchinin {
1593bbaa8b60SDan Kruchinin struct nlm_host *h1 = (struct nlm_host *)p1;
1594bbaa8b60SDan Kruchinin struct nlm_host *h2 = (struct nlm_host *)p2;
1595bbaa8b60SDan Kruchinin int res;
1596bbaa8b60SDan Kruchinin
1597bbaa8b60SDan Kruchinin res = strcmp(h1->nh_netid, h2->nh_netid);
1598bbaa8b60SDan Kruchinin if (res != 0)
1599bbaa8b60SDan Kruchinin return (SIGN(res));
1600bbaa8b60SDan Kruchinin
1601bbaa8b60SDan Kruchinin res = nlm_netbuf_addrs_cmp(&h1->nh_addr, &h2->nh_addr);
1602bbaa8b60SDan Kruchinin return (res);
1603bbaa8b60SDan Kruchinin }
1604bbaa8b60SDan Kruchinin
1605bbaa8b60SDan Kruchinin /*
1606bbaa8b60SDan Kruchinin * Find the host specified by... (see below)
1607bbaa8b60SDan Kruchinin * If found, increment the ref count.
1608bbaa8b60SDan Kruchinin */
1609bbaa8b60SDan Kruchinin static struct nlm_host *
nlm_host_find_locked(struct nlm_globals * g,const char * netid,struct netbuf * naddr,avl_index_t * wherep)1610bbaa8b60SDan Kruchinin nlm_host_find_locked(struct nlm_globals *g, const char *netid,
1611bbaa8b60SDan Kruchinin struct netbuf *naddr, avl_index_t *wherep)
1612bbaa8b60SDan Kruchinin {
1613bbaa8b60SDan Kruchinin struct nlm_host *hostp, key;
1614bbaa8b60SDan Kruchinin avl_index_t pos;
1615bbaa8b60SDan Kruchinin
1616bbaa8b60SDan Kruchinin ASSERT(MUTEX_HELD(&g->lock));
1617bbaa8b60SDan Kruchinin
1618bbaa8b60SDan Kruchinin key.nh_netid = (char *)netid;
1619bbaa8b60SDan Kruchinin key.nh_addr.buf = naddr->buf;
1620bbaa8b60SDan Kruchinin key.nh_addr.len = naddr->len;
1621bbaa8b60SDan Kruchinin key.nh_addr.maxlen = naddr->maxlen;
1622bbaa8b60SDan Kruchinin
1623bbaa8b60SDan Kruchinin hostp = avl_find(&g->nlm_hosts_tree, &key, &pos);
1624bbaa8b60SDan Kruchinin
1625bbaa8b60SDan Kruchinin if (hostp != NULL) {
1626bbaa8b60SDan Kruchinin /*
1627bbaa8b60SDan Kruchinin * Host is inuse now. Remove it from idle
1628bbaa8b60SDan Kruchinin * hosts list if needed.
1629bbaa8b60SDan Kruchinin */
1630bbaa8b60SDan Kruchinin if (hostp->nh_flags & NLM_NH_INIDLE) {
1631bbaa8b60SDan Kruchinin TAILQ_REMOVE(&g->nlm_idle_hosts, hostp, nh_link);
1632bbaa8b60SDan Kruchinin hostp->nh_flags &= ~NLM_NH_INIDLE;
1633bbaa8b60SDan Kruchinin }
1634bbaa8b60SDan Kruchinin
1635bbaa8b60SDan Kruchinin hostp->nh_refs++;
1636bbaa8b60SDan Kruchinin }
1637bbaa8b60SDan Kruchinin if (wherep != NULL)
1638bbaa8b60SDan Kruchinin *wherep = pos;
1639bbaa8b60SDan Kruchinin
1640bbaa8b60SDan Kruchinin return (hostp);
1641bbaa8b60SDan Kruchinin }
1642bbaa8b60SDan Kruchinin
1643bbaa8b60SDan Kruchinin /*
1644bbaa8b60SDan Kruchinin * Find NLM host for the given name and address.
1645bbaa8b60SDan Kruchinin */
1646bbaa8b60SDan Kruchinin struct nlm_host *
nlm_host_find(struct nlm_globals * g,const char * netid,struct netbuf * addr)1647bbaa8b60SDan Kruchinin nlm_host_find(struct nlm_globals *g, const char *netid,
1648bbaa8b60SDan Kruchinin struct netbuf *addr)
1649bbaa8b60SDan Kruchinin {
1650bbaa8b60SDan Kruchinin struct nlm_host *hostp = NULL;
1651bbaa8b60SDan Kruchinin
1652bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1653bbaa8b60SDan Kruchinin if (g->run_status != NLM_ST_UP)
1654bbaa8b60SDan Kruchinin goto out;
1655bbaa8b60SDan Kruchinin
1656bbaa8b60SDan Kruchinin hostp = nlm_host_find_locked(g, netid, addr, NULL);
1657bbaa8b60SDan Kruchinin
1658bbaa8b60SDan Kruchinin out:
1659bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1660bbaa8b60SDan Kruchinin return (hostp);
1661bbaa8b60SDan Kruchinin }
1662bbaa8b60SDan Kruchinin
1663bbaa8b60SDan Kruchinin
1664bbaa8b60SDan Kruchinin /*
1665bbaa8b60SDan Kruchinin * Find or create an NLM host for the given name and address.
1666bbaa8b60SDan Kruchinin *
16676ab697caSMarcel Telka * The remote host is determined by all of: name, netid, address.
1668bbaa8b60SDan Kruchinin * Note that the netid is whatever nlm_svc_add_ep() gave to
1669bbaa8b60SDan Kruchinin * svc_tli_kcreate() for the service binding. If any of these
1670bbaa8b60SDan Kruchinin * are different, allocate a new host (new sysid).
1671bbaa8b60SDan Kruchinin */
1672bbaa8b60SDan Kruchinin struct nlm_host *
nlm_host_findcreate(struct nlm_globals * g,char * name,const char * netid,struct netbuf * addr)1673bbaa8b60SDan Kruchinin nlm_host_findcreate(struct nlm_globals *g, char *name,
1674bbaa8b60SDan Kruchinin const char *netid, struct netbuf *addr)
1675bbaa8b60SDan Kruchinin {
1676bbaa8b60SDan Kruchinin int err;
1677bbaa8b60SDan Kruchinin struct nlm_host *host, *newhost = NULL;
1678bbaa8b60SDan Kruchinin struct knetconfig knc;
1679bbaa8b60SDan Kruchinin avl_index_t where;
1680bbaa8b60SDan Kruchinin
1681bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1682bbaa8b60SDan Kruchinin if (g->run_status != NLM_ST_UP) {
1683bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1684bbaa8b60SDan Kruchinin return (NULL);
1685bbaa8b60SDan Kruchinin }
1686bbaa8b60SDan Kruchinin
1687bbaa8b60SDan Kruchinin host = nlm_host_find_locked(g, netid, addr, NULL);
1688bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1689bbaa8b60SDan Kruchinin if (host != NULL)
1690bbaa8b60SDan Kruchinin return (host);
1691bbaa8b60SDan Kruchinin
1692bbaa8b60SDan Kruchinin err = nlm_knc_from_netid(netid, &knc);
1693bbaa8b60SDan Kruchinin if (err != 0)
1694bbaa8b60SDan Kruchinin return (NULL);
1695bbaa8b60SDan Kruchinin /*
1696bbaa8b60SDan Kruchinin * Do allocations (etc.) outside of mutex,
1697bbaa8b60SDan Kruchinin * and then check again before inserting.
1698bbaa8b60SDan Kruchinin */
1699bbaa8b60SDan Kruchinin newhost = nlm_host_create(name, netid, &knc, addr);
1700bbaa8b60SDan Kruchinin newhost->nh_sysid = nlm_sysid_alloc();
1701bbaa8b60SDan Kruchinin if (newhost->nh_sysid == LM_NOSYSID)
1702bbaa8b60SDan Kruchinin goto out;
1703bbaa8b60SDan Kruchinin
1704bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1705bbaa8b60SDan Kruchinin host = nlm_host_find_locked(g, netid, addr, &where);
1706bbaa8b60SDan Kruchinin if (host == NULL) {
1707bbaa8b60SDan Kruchinin host = newhost;
1708bbaa8b60SDan Kruchinin newhost = NULL;
1709bbaa8b60SDan Kruchinin
1710bbaa8b60SDan Kruchinin /*
1711bbaa8b60SDan Kruchinin * Insert host to the hosts AVL tree that is
1712bbaa8b60SDan Kruchinin * used to lookup by <netid, address> pair.
1713bbaa8b60SDan Kruchinin */
1714bbaa8b60SDan Kruchinin avl_insert(&g->nlm_hosts_tree, host, where);
1715bbaa8b60SDan Kruchinin
1716bbaa8b60SDan Kruchinin /*
17176ab697caSMarcel Telka * Insert host to the hosts hash table that is
1718bbaa8b60SDan Kruchinin * used to lookup host by sysid.
1719bbaa8b60SDan Kruchinin */
1720bbaa8b60SDan Kruchinin VERIFY(mod_hash_insert(g->nlm_hosts_hash,
1721bbaa8b60SDan Kruchinin (mod_hash_key_t)(uintptr_t)host->nh_sysid,
1722bbaa8b60SDan Kruchinin (mod_hash_val_t)host) == 0);
1723bbaa8b60SDan Kruchinin }
1724bbaa8b60SDan Kruchinin
1725bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1726bbaa8b60SDan Kruchinin
1727bbaa8b60SDan Kruchinin out:
17286ab697caSMarcel Telka if (newhost != NULL) {
17296ab697caSMarcel Telka /*
17306ab697caSMarcel Telka * We do not need the preallocated nlm_host
17316ab697caSMarcel Telka * so decrement the reference counter
17326ab697caSMarcel Telka * and destroy it.
17336ab697caSMarcel Telka */
17346ab697caSMarcel Telka newhost->nh_refs--;
1735bbaa8b60SDan Kruchinin nlm_host_destroy(newhost);
17366ab697caSMarcel Telka }
1737bbaa8b60SDan Kruchinin
1738bbaa8b60SDan Kruchinin return (host);
1739bbaa8b60SDan Kruchinin }
1740bbaa8b60SDan Kruchinin
1741bbaa8b60SDan Kruchinin /*
1742bbaa8b60SDan Kruchinin * Find the NLM host that matches the value of 'sysid'.
1743bbaa8b60SDan Kruchinin * If found, return it with a new ref,
1744bbaa8b60SDan Kruchinin * else return NULL.
1745bbaa8b60SDan Kruchinin */
1746bbaa8b60SDan Kruchinin struct nlm_host *
nlm_host_find_by_sysid(struct nlm_globals * g,sysid_t sysid)1747bbaa8b60SDan Kruchinin nlm_host_find_by_sysid(struct nlm_globals *g, sysid_t sysid)
1748bbaa8b60SDan Kruchinin {
1749bbaa8b60SDan Kruchinin struct nlm_host *hostp = NULL;
1750bbaa8b60SDan Kruchinin
1751bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1752bbaa8b60SDan Kruchinin if (g->run_status != NLM_ST_UP)
1753bbaa8b60SDan Kruchinin goto out;
1754bbaa8b60SDan Kruchinin
1755bbaa8b60SDan Kruchinin (void) mod_hash_find(g->nlm_hosts_hash,
1756bbaa8b60SDan Kruchinin (mod_hash_key_t)(uintptr_t)sysid,
1757bbaa8b60SDan Kruchinin (mod_hash_val_t)&hostp);
1758bbaa8b60SDan Kruchinin
1759bbaa8b60SDan Kruchinin if (hostp == NULL)
1760bbaa8b60SDan Kruchinin goto out;
1761bbaa8b60SDan Kruchinin
1762bbaa8b60SDan Kruchinin /*
1763bbaa8b60SDan Kruchinin * Host is inuse now. Remove it
1764bbaa8b60SDan Kruchinin * from idle hosts list if needed.
1765bbaa8b60SDan Kruchinin */
1766bbaa8b60SDan Kruchinin if (hostp->nh_flags & NLM_NH_INIDLE) {
1767bbaa8b60SDan Kruchinin TAILQ_REMOVE(&g->nlm_idle_hosts, hostp, nh_link);
1768bbaa8b60SDan Kruchinin hostp->nh_flags &= ~NLM_NH_INIDLE;
1769bbaa8b60SDan Kruchinin }
1770bbaa8b60SDan Kruchinin
1771bbaa8b60SDan Kruchinin hostp->nh_refs++;
1772bbaa8b60SDan Kruchinin
1773bbaa8b60SDan Kruchinin out:
1774bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1775bbaa8b60SDan Kruchinin return (hostp);
1776bbaa8b60SDan Kruchinin }
1777bbaa8b60SDan Kruchinin
1778bbaa8b60SDan Kruchinin /*
1779bbaa8b60SDan Kruchinin * Release the given host.
1780bbaa8b60SDan Kruchinin * I.e. drop a reference that was taken earlier by one of
1781bbaa8b60SDan Kruchinin * the following functions: nlm_host_findcreate(), nlm_host_find(),
1782bbaa8b60SDan Kruchinin * nlm_host_find_by_sysid().
1783bbaa8b60SDan Kruchinin *
1784bbaa8b60SDan Kruchinin * When the very last reference is dropped, host is moved to
1785bbaa8b60SDan Kruchinin * so-called "idle state". All hosts that are in idle state
1786bbaa8b60SDan Kruchinin * have an idle timeout. If timeout is expired, GC thread
1787bbaa8b60SDan Kruchinin * checks whether hosts have any locks and if they heven't
1788bbaa8b60SDan Kruchinin * any, it removes them.
1789bbaa8b60SDan Kruchinin * NOTE: only unused hosts can be in idle state.
1790bbaa8b60SDan Kruchinin */
1791*b2b464a4SMarcel Telka static void
nlm_host_release_locked(struct nlm_globals * g,struct nlm_host * hostp)1792*b2b464a4SMarcel Telka nlm_host_release_locked(struct nlm_globals *g, struct nlm_host *hostp)
1793bbaa8b60SDan Kruchinin {
1794bbaa8b60SDan Kruchinin if (hostp == NULL)
1795bbaa8b60SDan Kruchinin return;
1796bbaa8b60SDan Kruchinin
1797*b2b464a4SMarcel Telka ASSERT(MUTEX_HELD(&g->lock));
1798bbaa8b60SDan Kruchinin ASSERT(hostp->nh_refs > 0);
1799bbaa8b60SDan Kruchinin
1800bbaa8b60SDan Kruchinin hostp->nh_refs--;
1801*b2b464a4SMarcel Telka if (hostp->nh_refs != 0)
1802bbaa8b60SDan Kruchinin return;
1803bbaa8b60SDan Kruchinin
1804bbaa8b60SDan Kruchinin /*
1805bbaa8b60SDan Kruchinin * The very last reference to the host was dropped,
1806bbaa8b60SDan Kruchinin * thus host is unused now. Set its idle timeout
1807bbaa8b60SDan Kruchinin * and move it to the idle hosts LRU list.
1808bbaa8b60SDan Kruchinin */
1809bbaa8b60SDan Kruchinin hostp->nh_idle_timeout = ddi_get_lbolt() +
1810bbaa8b60SDan Kruchinin SEC_TO_TICK(g->cn_idle_tmo);
1811bbaa8b60SDan Kruchinin
1812bbaa8b60SDan Kruchinin ASSERT((hostp->nh_flags & NLM_NH_INIDLE) == 0);
1813bbaa8b60SDan Kruchinin TAILQ_INSERT_TAIL(&g->nlm_idle_hosts, hostp, nh_link);
1814bbaa8b60SDan Kruchinin hostp->nh_flags |= NLM_NH_INIDLE;
1815*b2b464a4SMarcel Telka }
1816*b2b464a4SMarcel Telka
1817*b2b464a4SMarcel Telka void
nlm_host_release(struct nlm_globals * g,struct nlm_host * hostp)1818*b2b464a4SMarcel Telka nlm_host_release(struct nlm_globals *g, struct nlm_host *hostp)
1819*b2b464a4SMarcel Telka {
1820*b2b464a4SMarcel Telka if (hostp == NULL)
1821*b2b464a4SMarcel Telka return;
1822*b2b464a4SMarcel Telka
1823*b2b464a4SMarcel Telka mutex_enter(&g->lock);
1824*b2b464a4SMarcel Telka nlm_host_release_locked(g, hostp);
1825bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1826bbaa8b60SDan Kruchinin }
1827bbaa8b60SDan Kruchinin
1828bbaa8b60SDan Kruchinin /*
1829bbaa8b60SDan Kruchinin * Unregister this NLM host (NFS client) with the local statd
1830bbaa8b60SDan Kruchinin * due to idleness (no locks held for a while).
1831bbaa8b60SDan Kruchinin */
1832bbaa8b60SDan Kruchinin void
nlm_host_unmonitor(struct nlm_globals * g,struct nlm_host * host)1833bbaa8b60SDan Kruchinin nlm_host_unmonitor(struct nlm_globals *g, struct nlm_host *host)
1834bbaa8b60SDan Kruchinin {
1835bbaa8b60SDan Kruchinin enum clnt_stat stat;
1836bbaa8b60SDan Kruchinin
1837bbaa8b60SDan Kruchinin VERIFY(host->nh_refs == 0);
1838bbaa8b60SDan Kruchinin if (!(host->nh_flags & NLM_NH_MONITORED))
1839bbaa8b60SDan Kruchinin return;
1840bbaa8b60SDan Kruchinin
1841bbaa8b60SDan Kruchinin host->nh_flags &= ~NLM_NH_MONITORED;
1842bbaa8b60SDan Kruchinin stat = nlm_nsm_unmon(&g->nlm_nsm, host->nh_name);
1843bbaa8b60SDan Kruchinin if (stat != RPC_SUCCESS) {
1844bbaa8b60SDan Kruchinin NLM_WARN("NLM: Failed to contact statd, stat=%d\n", stat);
1845bbaa8b60SDan Kruchinin return;
1846bbaa8b60SDan Kruchinin }
1847bbaa8b60SDan Kruchinin }
1848bbaa8b60SDan Kruchinin
1849bbaa8b60SDan Kruchinin /*
1850bbaa8b60SDan Kruchinin * Ask the local NFS statd to begin monitoring this host.
1851bbaa8b60SDan Kruchinin * It will call us back when that host restarts, using the
1852bbaa8b60SDan Kruchinin * prog,vers,proc specified below, i.e. NLM_SM_NOTIFY1,
1853bbaa8b60SDan Kruchinin * which is handled in nlm_do_notify1().
1854bbaa8b60SDan Kruchinin */
1855bbaa8b60SDan Kruchinin void
nlm_host_monitor(struct nlm_globals * g,struct nlm_host * host,int state)1856bbaa8b60SDan Kruchinin nlm_host_monitor(struct nlm_globals *g, struct nlm_host *host, int state)
1857bbaa8b60SDan Kruchinin {
1858bbaa8b60SDan Kruchinin int family;
1859bbaa8b60SDan Kruchinin netobj obj;
1860bbaa8b60SDan Kruchinin enum clnt_stat stat;
1861bbaa8b60SDan Kruchinin
1862bbaa8b60SDan Kruchinin if (state != 0 && host->nh_state == 0) {
1863bbaa8b60SDan Kruchinin /*
1864bbaa8b60SDan Kruchinin * This is the first time we have seen an NSM state
1865bbaa8b60SDan Kruchinin * Value for this host. We record it here to help
1866bbaa8b60SDan Kruchinin * detect host reboots.
1867bbaa8b60SDan Kruchinin */
1868bbaa8b60SDan Kruchinin host->nh_state = state;
1869bbaa8b60SDan Kruchinin }
1870bbaa8b60SDan Kruchinin
1871bbaa8b60SDan Kruchinin mutex_enter(&host->nh_lock);
1872bbaa8b60SDan Kruchinin if (host->nh_flags & NLM_NH_MONITORED) {
1873bbaa8b60SDan Kruchinin mutex_exit(&host->nh_lock);
1874bbaa8b60SDan Kruchinin return;
1875bbaa8b60SDan Kruchinin }
1876bbaa8b60SDan Kruchinin
1877bbaa8b60SDan Kruchinin host->nh_flags |= NLM_NH_MONITORED;
1878bbaa8b60SDan Kruchinin mutex_exit(&host->nh_lock);
1879bbaa8b60SDan Kruchinin
1880bbaa8b60SDan Kruchinin /*
1881bbaa8b60SDan Kruchinin * Before we begin monitoring the host register the network address
1882bbaa8b60SDan Kruchinin * associated with this hostname.
1883bbaa8b60SDan Kruchinin */
1884bbaa8b60SDan Kruchinin nlm_netbuf_to_netobj(&host->nh_addr, &family, &obj);
1885bbaa8b60SDan Kruchinin stat = nlm_nsmaddr_reg(&g->nlm_nsm, host->nh_name, family, &obj);
1886bbaa8b60SDan Kruchinin if (stat != RPC_SUCCESS) {
1887bbaa8b60SDan Kruchinin NLM_WARN("Failed to register address, stat=%d\n", stat);
1888bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1889bbaa8b60SDan Kruchinin host->nh_flags &= ~NLM_NH_MONITORED;
1890bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1891bbaa8b60SDan Kruchinin
1892bbaa8b60SDan Kruchinin return;
1893bbaa8b60SDan Kruchinin }
1894bbaa8b60SDan Kruchinin
1895bbaa8b60SDan Kruchinin /*
1896bbaa8b60SDan Kruchinin * Tell statd how to call us with status updates for
1897bbaa8b60SDan Kruchinin * this host. Updates arrive via nlm_do_notify1().
1898bbaa8b60SDan Kruchinin *
1899bbaa8b60SDan Kruchinin * We put our assigned system ID value in the priv field to
1900bbaa8b60SDan Kruchinin * make it simpler to find the host if we are notified of a
1901bbaa8b60SDan Kruchinin * host restart.
1902bbaa8b60SDan Kruchinin */
1903bbaa8b60SDan Kruchinin stat = nlm_nsm_mon(&g->nlm_nsm, host->nh_name, host->nh_sysid);
1904bbaa8b60SDan Kruchinin if (stat != RPC_SUCCESS) {
1905bbaa8b60SDan Kruchinin NLM_WARN("Failed to contact local NSM, stat=%d\n", stat);
1906bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1907bbaa8b60SDan Kruchinin host->nh_flags &= ~NLM_NH_MONITORED;
1908bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1909bbaa8b60SDan Kruchinin
1910bbaa8b60SDan Kruchinin return;
1911bbaa8b60SDan Kruchinin }
1912bbaa8b60SDan Kruchinin }
1913bbaa8b60SDan Kruchinin
1914bbaa8b60SDan Kruchinin int
nlm_host_get_state(struct nlm_host * hostp)1915bbaa8b60SDan Kruchinin nlm_host_get_state(struct nlm_host *hostp)
1916bbaa8b60SDan Kruchinin {
1917bbaa8b60SDan Kruchinin
1918bbaa8b60SDan Kruchinin return (hostp->nh_state);
1919bbaa8b60SDan Kruchinin }
1920bbaa8b60SDan Kruchinin
1921bbaa8b60SDan Kruchinin /*
1922bbaa8b60SDan Kruchinin * NLM client/server sleeping locks
1923bbaa8b60SDan Kruchinin */
1924bbaa8b60SDan Kruchinin
1925bbaa8b60SDan Kruchinin /*
1926bbaa8b60SDan Kruchinin * Register client side sleeping lock.
1927bbaa8b60SDan Kruchinin *
1928bbaa8b60SDan Kruchinin * Our client code calls this to keep information
1929bbaa8b60SDan Kruchinin * about sleeping lock somewhere. When it receives
1930bbaa8b60SDan Kruchinin * grant callback from server or when it just
1931bbaa8b60SDan Kruchinin * needs to remove all sleeping locks from vnode,
1932bbaa8b60SDan Kruchinin * it uses this information for remove/apply lock
1933bbaa8b60SDan Kruchinin * properly.
1934bbaa8b60SDan Kruchinin */
1935bbaa8b60SDan Kruchinin struct nlm_slock *
nlm_slock_register(struct nlm_globals * g,struct nlm_host * host,struct nlm4_lock * lock,struct vnode * vp)1936bbaa8b60SDan Kruchinin nlm_slock_register(
1937bbaa8b60SDan Kruchinin struct nlm_globals *g,
1938bbaa8b60SDan Kruchinin struct nlm_host *host,
1939bbaa8b60SDan Kruchinin struct nlm4_lock *lock,
1940bbaa8b60SDan Kruchinin struct vnode *vp)
1941bbaa8b60SDan Kruchinin {
1942bbaa8b60SDan Kruchinin struct nlm_slock *nslp;
1943bbaa8b60SDan Kruchinin
1944bbaa8b60SDan Kruchinin nslp = kmem_zalloc(sizeof (*nslp), KM_SLEEP);
1945bbaa8b60SDan Kruchinin cv_init(&nslp->nsl_cond, NULL, CV_DEFAULT, NULL);
1946bbaa8b60SDan Kruchinin nslp->nsl_lock = *lock;
1947bbaa8b60SDan Kruchinin nlm_copy_netobj(&nslp->nsl_fh, &nslp->nsl_lock.fh);
1948bbaa8b60SDan Kruchinin nslp->nsl_state = NLM_SL_BLOCKED;
1949bbaa8b60SDan Kruchinin nslp->nsl_host = host;
1950bbaa8b60SDan Kruchinin nslp->nsl_vp = vp;
1951bbaa8b60SDan Kruchinin
1952bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1953bbaa8b60SDan Kruchinin TAILQ_INSERT_TAIL(&g->nlm_slocks, nslp, nsl_link);
1954bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1955bbaa8b60SDan Kruchinin
1956bbaa8b60SDan Kruchinin return (nslp);
1957bbaa8b60SDan Kruchinin }
1958bbaa8b60SDan Kruchinin
1959bbaa8b60SDan Kruchinin /*
1960bbaa8b60SDan Kruchinin * Remove this lock from the wait list and destroy it.
1961bbaa8b60SDan Kruchinin */
1962bbaa8b60SDan Kruchinin void
nlm_slock_unregister(struct nlm_globals * g,struct nlm_slock * nslp)1963bbaa8b60SDan Kruchinin nlm_slock_unregister(struct nlm_globals *g, struct nlm_slock *nslp)
1964bbaa8b60SDan Kruchinin {
1965bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
1966bbaa8b60SDan Kruchinin TAILQ_REMOVE(&g->nlm_slocks, nslp, nsl_link);
1967bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
1968bbaa8b60SDan Kruchinin
1969bbaa8b60SDan Kruchinin kmem_free(nslp->nsl_fh.n_bytes, nslp->nsl_fh.n_len);
1970bbaa8b60SDan Kruchinin cv_destroy(&nslp->nsl_cond);
1971bbaa8b60SDan Kruchinin kmem_free(nslp, sizeof (*nslp));
1972bbaa8b60SDan Kruchinin }
1973bbaa8b60SDan Kruchinin
1974bbaa8b60SDan Kruchinin /*
1975bbaa8b60SDan Kruchinin * Wait for a granted callback or cancellation event
1976bbaa8b60SDan Kruchinin * for a sleeping lock.
1977bbaa8b60SDan Kruchinin *
1978bbaa8b60SDan Kruchinin * If a signal interrupted the wait or if the lock
1979bbaa8b60SDan Kruchinin * was cancelled, return EINTR - the caller must arrange to send
1980bbaa8b60SDan Kruchinin * a cancellation to the server.
1981bbaa8b60SDan Kruchinin *
1982bbaa8b60SDan Kruchinin * If timeout occurred, return ETIMEDOUT - the caller must
1983bbaa8b60SDan Kruchinin * resend the lock request to the server.
1984bbaa8b60SDan Kruchinin *
1985bbaa8b60SDan Kruchinin * On success return 0.
1986bbaa8b60SDan Kruchinin */
1987bbaa8b60SDan Kruchinin int
nlm_slock_wait(struct nlm_globals * g,struct nlm_slock * nslp,uint_t timeo_secs)1988bbaa8b60SDan Kruchinin nlm_slock_wait(struct nlm_globals *g,
1989bbaa8b60SDan Kruchinin struct nlm_slock *nslp, uint_t timeo_secs)
1990bbaa8b60SDan Kruchinin {
1991bbaa8b60SDan Kruchinin clock_t timeo_ticks;
1992bbaa8b60SDan Kruchinin int cv_res, error;
1993bbaa8b60SDan Kruchinin
1994bbaa8b60SDan Kruchinin /*
1995bbaa8b60SDan Kruchinin * If the granted message arrived before we got here,
199695fa5714SMarcel Telka * nslp->nsl_state will be NLM_SL_GRANTED - in that case don't sleep.
1997bbaa8b60SDan Kruchinin */
1998bbaa8b60SDan Kruchinin cv_res = 1;
1999bbaa8b60SDan Kruchinin timeo_ticks = ddi_get_lbolt() + SEC_TO_TICK(timeo_secs);
2000bbaa8b60SDan Kruchinin
2001bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
200295fa5714SMarcel Telka while (nslp->nsl_state == NLM_SL_BLOCKED && cv_res > 0) {
2003bbaa8b60SDan Kruchinin cv_res = cv_timedwait_sig(&nslp->nsl_cond,
2004bbaa8b60SDan Kruchinin &g->lock, timeo_ticks);
2005bbaa8b60SDan Kruchinin }
2006bbaa8b60SDan Kruchinin
2007bbaa8b60SDan Kruchinin /*
2008bbaa8b60SDan Kruchinin * No matter why we wake up, if the lock was
2009bbaa8b60SDan Kruchinin * cancelled, let the function caller to know
2010bbaa8b60SDan Kruchinin * about it by returning EINTR.
2011bbaa8b60SDan Kruchinin */
2012bbaa8b60SDan Kruchinin if (nslp->nsl_state == NLM_SL_CANCELLED) {
2013bbaa8b60SDan Kruchinin error = EINTR;
2014bbaa8b60SDan Kruchinin goto out;
2015bbaa8b60SDan Kruchinin }
2016bbaa8b60SDan Kruchinin
2017bbaa8b60SDan Kruchinin if (cv_res <= 0) {
201895fa5714SMarcel Telka /* We were woken up either by timeout or by interrupt */
2019bbaa8b60SDan Kruchinin error = (cv_res < 0) ? ETIMEDOUT : EINTR;
2020bbaa8b60SDan Kruchinin
2021bbaa8b60SDan Kruchinin /*
2022bbaa8b60SDan Kruchinin * The granted message may arrive after the
2023bbaa8b60SDan Kruchinin * interrupt/timeout but before we manage to lock the
2024bbaa8b60SDan Kruchinin * mutex. Detect this by examining nslp.
2025bbaa8b60SDan Kruchinin */
2026bbaa8b60SDan Kruchinin if (nslp->nsl_state == NLM_SL_GRANTED)
2027bbaa8b60SDan Kruchinin error = 0;
202895fa5714SMarcel Telka } else { /* Awaken via cv_signal()/cv_broadcast() or didn't block */
2029bbaa8b60SDan Kruchinin error = 0;
2030bbaa8b60SDan Kruchinin VERIFY(nslp->nsl_state == NLM_SL_GRANTED);
2031bbaa8b60SDan Kruchinin }
2032bbaa8b60SDan Kruchinin
2033bbaa8b60SDan Kruchinin out:
2034bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
2035bbaa8b60SDan Kruchinin return (error);
2036bbaa8b60SDan Kruchinin }
2037bbaa8b60SDan Kruchinin
2038bbaa8b60SDan Kruchinin /*
2039bbaa8b60SDan Kruchinin * Mark client side sleeping lock as granted
2040bbaa8b60SDan Kruchinin * and wake up a process blocked on the lock.
2041bbaa8b60SDan Kruchinin * Called from server side NLM_GRANT handler.
2042bbaa8b60SDan Kruchinin *
2043bbaa8b60SDan Kruchinin * If sleeping lock is found return 0, otherwise
2044bbaa8b60SDan Kruchinin * return ENOENT.
2045bbaa8b60SDan Kruchinin */
2046bbaa8b60SDan Kruchinin int
nlm_slock_grant(struct nlm_globals * g,struct nlm_host * hostp,struct nlm4_lock * alock)2047bbaa8b60SDan Kruchinin nlm_slock_grant(struct nlm_globals *g,
2048bbaa8b60SDan Kruchinin struct nlm_host *hostp, struct nlm4_lock *alock)
2049bbaa8b60SDan Kruchinin {
2050bbaa8b60SDan Kruchinin struct nlm_slock *nslp;
2051bbaa8b60SDan Kruchinin int error = ENOENT;
2052bbaa8b60SDan Kruchinin
2053bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
2054bbaa8b60SDan Kruchinin TAILQ_FOREACH(nslp, &g->nlm_slocks, nsl_link) {
2055bbaa8b60SDan Kruchinin if ((nslp->nsl_state != NLM_SL_BLOCKED) ||
2056bbaa8b60SDan Kruchinin (nslp->nsl_host != hostp))
2057bbaa8b60SDan Kruchinin continue;
2058bbaa8b60SDan Kruchinin
2059bbaa8b60SDan Kruchinin if (alock->svid == nslp->nsl_lock.svid &&
2060bbaa8b60SDan Kruchinin alock->l_offset == nslp->nsl_lock.l_offset &&
2061bbaa8b60SDan Kruchinin alock->l_len == nslp->nsl_lock.l_len &&
2062bbaa8b60SDan Kruchinin alock->fh.n_len == nslp->nsl_lock.fh.n_len &&
2063bbaa8b60SDan Kruchinin bcmp(alock->fh.n_bytes, nslp->nsl_lock.fh.n_bytes,
2064bbaa8b60SDan Kruchinin nslp->nsl_lock.fh.n_len) == 0) {
2065bbaa8b60SDan Kruchinin nslp->nsl_state = NLM_SL_GRANTED;
2066bbaa8b60SDan Kruchinin cv_broadcast(&nslp->nsl_cond);
2067bbaa8b60SDan Kruchinin error = 0;
2068bbaa8b60SDan Kruchinin break;
2069bbaa8b60SDan Kruchinin }
2070bbaa8b60SDan Kruchinin }
2071bbaa8b60SDan Kruchinin
2072bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
2073bbaa8b60SDan Kruchinin return (error);
2074bbaa8b60SDan Kruchinin }
2075bbaa8b60SDan Kruchinin
2076bbaa8b60SDan Kruchinin /*
2077bbaa8b60SDan Kruchinin * Register sleeping lock request corresponding to
2078bbaa8b60SDan Kruchinin * flp on the given vhold object.
2079bbaa8b60SDan Kruchinin * On success function returns 0, otherwise (if
2080bbaa8b60SDan Kruchinin * lock request with the same flp is already
2081bbaa8b60SDan Kruchinin * registered) function returns EEXIST.
2082bbaa8b60SDan Kruchinin */
2083bbaa8b60SDan Kruchinin int
nlm_slreq_register(struct nlm_host * hostp,struct nlm_vhold * nvp,struct flock64 * flp)2084bbaa8b60SDan Kruchinin nlm_slreq_register(struct nlm_host *hostp, struct nlm_vhold *nvp,
2085bbaa8b60SDan Kruchinin struct flock64 *flp)
2086bbaa8b60SDan Kruchinin {
2087bbaa8b60SDan Kruchinin struct nlm_slreq *slr, *new_slr = NULL;
2088bbaa8b60SDan Kruchinin int ret = EEXIST;
2089bbaa8b60SDan Kruchinin
2090bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2091bbaa8b60SDan Kruchinin slr = nlm_slreq_find_locked(hostp, nvp, flp);
2092bbaa8b60SDan Kruchinin if (slr != NULL)
2093bbaa8b60SDan Kruchinin goto out;
2094bbaa8b60SDan Kruchinin
2095bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2096bbaa8b60SDan Kruchinin new_slr = kmem_zalloc(sizeof (*slr), KM_SLEEP);
2097bbaa8b60SDan Kruchinin bcopy(flp, &new_slr->nsr_fl, sizeof (*flp));
2098bbaa8b60SDan Kruchinin
2099bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2100bbaa8b60SDan Kruchinin slr = nlm_slreq_find_locked(hostp, nvp, flp);
2101bbaa8b60SDan Kruchinin if (slr == NULL) {
2102bbaa8b60SDan Kruchinin slr = new_slr;
2103bbaa8b60SDan Kruchinin new_slr = NULL;
2104bbaa8b60SDan Kruchinin ret = 0;
2105bbaa8b60SDan Kruchinin
2106bbaa8b60SDan Kruchinin TAILQ_INSERT_TAIL(&nvp->nv_slreqs, slr, nsr_link);
2107bbaa8b60SDan Kruchinin }
2108bbaa8b60SDan Kruchinin
2109bbaa8b60SDan Kruchinin out:
2110bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2111bbaa8b60SDan Kruchinin if (new_slr != NULL)
2112bbaa8b60SDan Kruchinin kmem_free(new_slr, sizeof (*new_slr));
2113bbaa8b60SDan Kruchinin
2114bbaa8b60SDan Kruchinin return (ret);
2115bbaa8b60SDan Kruchinin }
2116bbaa8b60SDan Kruchinin
2117bbaa8b60SDan Kruchinin /*
2118bbaa8b60SDan Kruchinin * Unregister sleeping lock request corresponding
2119bbaa8b60SDan Kruchinin * to flp from the given vhold object.
2120bbaa8b60SDan Kruchinin * On success function returns 0, otherwise (if
2121bbaa8b60SDan Kruchinin * lock request corresponding to flp isn't found
2122bbaa8b60SDan Kruchinin * on the given vhold) function returns ENOENT.
2123bbaa8b60SDan Kruchinin */
2124bbaa8b60SDan Kruchinin int
nlm_slreq_unregister(struct nlm_host * hostp,struct nlm_vhold * nvp,struct flock64 * flp)2125bbaa8b60SDan Kruchinin nlm_slreq_unregister(struct nlm_host *hostp, struct nlm_vhold *nvp,
2126bbaa8b60SDan Kruchinin struct flock64 *flp)
2127bbaa8b60SDan Kruchinin {
2128bbaa8b60SDan Kruchinin struct nlm_slreq *slr;
2129bbaa8b60SDan Kruchinin
2130bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2131bbaa8b60SDan Kruchinin slr = nlm_slreq_find_locked(hostp, nvp, flp);
2132bbaa8b60SDan Kruchinin if (slr == NULL) {
2133bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2134bbaa8b60SDan Kruchinin return (ENOENT);
2135bbaa8b60SDan Kruchinin }
2136bbaa8b60SDan Kruchinin
2137bbaa8b60SDan Kruchinin TAILQ_REMOVE(&nvp->nv_slreqs, slr, nsr_link);
2138bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2139bbaa8b60SDan Kruchinin
2140bbaa8b60SDan Kruchinin kmem_free(slr, sizeof (*slr));
2141bbaa8b60SDan Kruchinin return (0);
2142bbaa8b60SDan Kruchinin }
2143bbaa8b60SDan Kruchinin
2144bbaa8b60SDan Kruchinin /*
2145bbaa8b60SDan Kruchinin * Find sleeping lock request on the given vhold object by flp.
2146bbaa8b60SDan Kruchinin */
2147bbaa8b60SDan Kruchinin struct nlm_slreq *
nlm_slreq_find_locked(struct nlm_host * hostp,struct nlm_vhold * nvp,struct flock64 * flp)2148bbaa8b60SDan Kruchinin nlm_slreq_find_locked(struct nlm_host *hostp, struct nlm_vhold *nvp,
2149bbaa8b60SDan Kruchinin struct flock64 *flp)
2150bbaa8b60SDan Kruchinin {
2151bbaa8b60SDan Kruchinin struct nlm_slreq *slr = NULL;
2152bbaa8b60SDan Kruchinin
2153bbaa8b60SDan Kruchinin ASSERT(MUTEX_HELD(&hostp->nh_lock));
2154bbaa8b60SDan Kruchinin TAILQ_FOREACH(slr, &nvp->nv_slreqs, nsr_link) {
2155bbaa8b60SDan Kruchinin if (slr->nsr_fl.l_start == flp->l_start &&
2156bbaa8b60SDan Kruchinin slr->nsr_fl.l_len == flp->l_len &&
2157bbaa8b60SDan Kruchinin slr->nsr_fl.l_pid == flp->l_pid &&
2158bbaa8b60SDan Kruchinin slr->nsr_fl.l_type == flp->l_type)
2159bbaa8b60SDan Kruchinin break;
2160bbaa8b60SDan Kruchinin }
2161bbaa8b60SDan Kruchinin
2162bbaa8b60SDan Kruchinin return (slr);
2163bbaa8b60SDan Kruchinin }
2164bbaa8b60SDan Kruchinin
2165bbaa8b60SDan Kruchinin /*
2166bbaa8b60SDan Kruchinin * NLM tracks active share reservations made on the client side.
2167bbaa8b60SDan Kruchinin * It needs to have a track of share reservations for two purposes
2168bbaa8b60SDan Kruchinin * 1) to determine if nlm_host is busy (if it has active locks and/or
2169bbaa8b60SDan Kruchinin * share reservations, it is)
2170bbaa8b60SDan Kruchinin * 2) to recover active share reservations when NLM server reports
2171bbaa8b60SDan Kruchinin * that it has rebooted.
2172bbaa8b60SDan Kruchinin *
2173bbaa8b60SDan Kruchinin * Unfortunately Illumos local share reservations manager (see os/share.c)
2174bbaa8b60SDan Kruchinin * doesn't have an ability to lookup all reservations on the system
2175bbaa8b60SDan Kruchinin * by sysid (like local lock manager) or get all reservations by sysid.
2176bbaa8b60SDan Kruchinin * It tracks reservations per vnode and is able to get/looup them
2177bbaa8b60SDan Kruchinin * on particular vnode. It's not what NLM needs. Thus it has that ugly
2178bbaa8b60SDan Kruchinin * share reservations tracking scheme.
2179bbaa8b60SDan Kruchinin */
2180bbaa8b60SDan Kruchinin
2181bbaa8b60SDan Kruchinin void
nlm_shres_track(struct nlm_host * hostp,vnode_t * vp,struct shrlock * shrp)2182bbaa8b60SDan Kruchinin nlm_shres_track(struct nlm_host *hostp, vnode_t *vp, struct shrlock *shrp)
2183bbaa8b60SDan Kruchinin {
2184bbaa8b60SDan Kruchinin struct nlm_shres *nsp, *nsp_new;
2185bbaa8b60SDan Kruchinin
2186bbaa8b60SDan Kruchinin /*
2187bbaa8b60SDan Kruchinin * NFS code must fill the s_owner, so that
2188bbaa8b60SDan Kruchinin * s_own_len is never 0.
2189bbaa8b60SDan Kruchinin */
2190bbaa8b60SDan Kruchinin ASSERT(shrp->s_own_len > 0);
2191bbaa8b60SDan Kruchinin nsp_new = nlm_shres_create_item(shrp, vp);
2192bbaa8b60SDan Kruchinin
2193bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2194bbaa8b60SDan Kruchinin for (nsp = hostp->nh_shrlist; nsp != NULL; nsp = nsp->ns_next)
2195bbaa8b60SDan Kruchinin if (nsp->ns_vp == vp && nlm_shres_equal(shrp, nsp->ns_shr))
2196bbaa8b60SDan Kruchinin break;
2197bbaa8b60SDan Kruchinin
2198bbaa8b60SDan Kruchinin if (nsp != NULL) {
2199bbaa8b60SDan Kruchinin /*
2200bbaa8b60SDan Kruchinin * Found a duplicate. Do nothing.
2201bbaa8b60SDan Kruchinin */
2202bbaa8b60SDan Kruchinin
2203bbaa8b60SDan Kruchinin goto out;
2204bbaa8b60SDan Kruchinin }
2205bbaa8b60SDan Kruchinin
2206bbaa8b60SDan Kruchinin nsp = nsp_new;
2207bbaa8b60SDan Kruchinin nsp_new = NULL;
2208bbaa8b60SDan Kruchinin nsp->ns_next = hostp->nh_shrlist;
2209bbaa8b60SDan Kruchinin hostp->nh_shrlist = nsp;
2210bbaa8b60SDan Kruchinin
2211bbaa8b60SDan Kruchinin out:
2212bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2213bbaa8b60SDan Kruchinin if (nsp_new != NULL)
2214bbaa8b60SDan Kruchinin nlm_shres_destroy_item(nsp_new);
2215bbaa8b60SDan Kruchinin }
2216bbaa8b60SDan Kruchinin
2217bbaa8b60SDan Kruchinin void
nlm_shres_untrack(struct nlm_host * hostp,vnode_t * vp,struct shrlock * shrp)2218bbaa8b60SDan Kruchinin nlm_shres_untrack(struct nlm_host *hostp, vnode_t *vp, struct shrlock *shrp)
2219bbaa8b60SDan Kruchinin {
2220bbaa8b60SDan Kruchinin struct nlm_shres *nsp, *nsp_prev = NULL;
2221bbaa8b60SDan Kruchinin
2222bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2223bbaa8b60SDan Kruchinin nsp = hostp->nh_shrlist;
2224bbaa8b60SDan Kruchinin while (nsp != NULL) {
2225bbaa8b60SDan Kruchinin if (nsp->ns_vp == vp && nlm_shres_equal(shrp, nsp->ns_shr)) {
2226bbaa8b60SDan Kruchinin struct nlm_shres *nsp_del;
2227bbaa8b60SDan Kruchinin
2228bbaa8b60SDan Kruchinin nsp_del = nsp;
2229bbaa8b60SDan Kruchinin nsp = nsp->ns_next;
2230bbaa8b60SDan Kruchinin if (nsp_prev != NULL)
2231bbaa8b60SDan Kruchinin nsp_prev->ns_next = nsp;
2232bbaa8b60SDan Kruchinin else
2233bbaa8b60SDan Kruchinin hostp->nh_shrlist = nsp;
2234bbaa8b60SDan Kruchinin
2235bbaa8b60SDan Kruchinin nlm_shres_destroy_item(nsp_del);
2236bbaa8b60SDan Kruchinin continue;
2237bbaa8b60SDan Kruchinin }
2238bbaa8b60SDan Kruchinin
2239bbaa8b60SDan Kruchinin nsp_prev = nsp;
2240bbaa8b60SDan Kruchinin nsp = nsp->ns_next;
2241bbaa8b60SDan Kruchinin }
2242bbaa8b60SDan Kruchinin
2243bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2244bbaa8b60SDan Kruchinin }
2245bbaa8b60SDan Kruchinin
2246bbaa8b60SDan Kruchinin /*
2247bbaa8b60SDan Kruchinin * Get a _copy_ of the list of all active share reservations
2248bbaa8b60SDan Kruchinin * made by the given host.
2249bbaa8b60SDan Kruchinin * NOTE: the list function returns _must_ be released using
2250bbaa8b60SDan Kruchinin * nlm_free_shrlist().
2251bbaa8b60SDan Kruchinin */
2252bbaa8b60SDan Kruchinin struct nlm_shres *
nlm_get_active_shres(struct nlm_host * hostp)2253bbaa8b60SDan Kruchinin nlm_get_active_shres(struct nlm_host *hostp)
2254bbaa8b60SDan Kruchinin {
2255bbaa8b60SDan Kruchinin struct nlm_shres *nsp, *nslist = NULL;
2256bbaa8b60SDan Kruchinin
2257bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2258bbaa8b60SDan Kruchinin for (nsp = hostp->nh_shrlist; nsp != NULL; nsp = nsp->ns_next) {
2259bbaa8b60SDan Kruchinin struct nlm_shres *nsp_new;
2260bbaa8b60SDan Kruchinin
2261bbaa8b60SDan Kruchinin nsp_new = nlm_shres_create_item(nsp->ns_shr, nsp->ns_vp);
2262bbaa8b60SDan Kruchinin nsp_new->ns_next = nslist;
2263bbaa8b60SDan Kruchinin nslist = nsp_new;
2264bbaa8b60SDan Kruchinin }
2265bbaa8b60SDan Kruchinin
2266bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2267bbaa8b60SDan Kruchinin return (nslist);
2268bbaa8b60SDan Kruchinin }
2269bbaa8b60SDan Kruchinin
2270bbaa8b60SDan Kruchinin /*
2271bbaa8b60SDan Kruchinin * Free memory allocated for the active share reservations
2272bbaa8b60SDan Kruchinin * list created by nlm_get_active_shres() function.
2273bbaa8b60SDan Kruchinin */
2274bbaa8b60SDan Kruchinin void
nlm_free_shrlist(struct nlm_shres * nslist)2275bbaa8b60SDan Kruchinin nlm_free_shrlist(struct nlm_shres *nslist)
2276bbaa8b60SDan Kruchinin {
2277bbaa8b60SDan Kruchinin struct nlm_shres *nsp;
2278bbaa8b60SDan Kruchinin
2279bbaa8b60SDan Kruchinin while (nslist != NULL) {
2280bbaa8b60SDan Kruchinin nsp = nslist;
2281bbaa8b60SDan Kruchinin nslist = nslist->ns_next;
2282bbaa8b60SDan Kruchinin
2283bbaa8b60SDan Kruchinin nlm_shres_destroy_item(nsp);
2284bbaa8b60SDan Kruchinin }
2285bbaa8b60SDan Kruchinin }
2286bbaa8b60SDan Kruchinin
2287bbaa8b60SDan Kruchinin static bool_t
nlm_shres_equal(struct shrlock * shrp1,struct shrlock * shrp2)2288bbaa8b60SDan Kruchinin nlm_shres_equal(struct shrlock *shrp1, struct shrlock *shrp2)
2289bbaa8b60SDan Kruchinin {
2290bbaa8b60SDan Kruchinin if (shrp1->s_sysid == shrp2->s_sysid &&
2291bbaa8b60SDan Kruchinin shrp1->s_pid == shrp2->s_pid &&
2292bbaa8b60SDan Kruchinin shrp1->s_own_len == shrp2->s_own_len &&
2293bbaa8b60SDan Kruchinin bcmp(shrp1->s_owner, shrp2->s_owner,
2294bbaa8b60SDan Kruchinin shrp1->s_own_len) == 0)
2295bbaa8b60SDan Kruchinin return (TRUE);
2296bbaa8b60SDan Kruchinin
2297bbaa8b60SDan Kruchinin return (FALSE);
2298bbaa8b60SDan Kruchinin }
2299bbaa8b60SDan Kruchinin
2300bbaa8b60SDan Kruchinin static struct nlm_shres *
nlm_shres_create_item(struct shrlock * shrp,vnode_t * vp)2301bbaa8b60SDan Kruchinin nlm_shres_create_item(struct shrlock *shrp, vnode_t *vp)
2302bbaa8b60SDan Kruchinin {
2303bbaa8b60SDan Kruchinin struct nlm_shres *nsp;
2304bbaa8b60SDan Kruchinin
2305bbaa8b60SDan Kruchinin nsp = kmem_alloc(sizeof (*nsp), KM_SLEEP);
2306bbaa8b60SDan Kruchinin nsp->ns_shr = kmem_alloc(sizeof (*shrp), KM_SLEEP);
2307bbaa8b60SDan Kruchinin bcopy(shrp, nsp->ns_shr, sizeof (*shrp));
2308bbaa8b60SDan Kruchinin nsp->ns_shr->s_owner = kmem_alloc(shrp->s_own_len, KM_SLEEP);
2309bbaa8b60SDan Kruchinin bcopy(shrp->s_owner, nsp->ns_shr->s_owner, shrp->s_own_len);
2310bbaa8b60SDan Kruchinin nsp->ns_vp = vp;
2311bbaa8b60SDan Kruchinin
2312bbaa8b60SDan Kruchinin return (nsp);
2313bbaa8b60SDan Kruchinin }
2314bbaa8b60SDan Kruchinin
2315bbaa8b60SDan Kruchinin static void
nlm_shres_destroy_item(struct nlm_shres * nsp)2316bbaa8b60SDan Kruchinin nlm_shres_destroy_item(struct nlm_shres *nsp)
2317bbaa8b60SDan Kruchinin {
2318bbaa8b60SDan Kruchinin kmem_free(nsp->ns_shr->s_owner,
2319bbaa8b60SDan Kruchinin nsp->ns_shr->s_own_len);
2320bbaa8b60SDan Kruchinin kmem_free(nsp->ns_shr, sizeof (struct shrlock));
2321bbaa8b60SDan Kruchinin kmem_free(nsp, sizeof (*nsp));
2322bbaa8b60SDan Kruchinin }
2323bbaa8b60SDan Kruchinin
2324bbaa8b60SDan Kruchinin /*
2325bbaa8b60SDan Kruchinin * Called by klmmod.c when lockd adds a network endpoint
2326bbaa8b60SDan Kruchinin * on which we should begin RPC services.
2327bbaa8b60SDan Kruchinin */
2328bbaa8b60SDan Kruchinin int
nlm_svc_add_ep(struct file * fp,const char * netid,struct knetconfig * knc)2329bbaa8b60SDan Kruchinin nlm_svc_add_ep(struct file *fp, const char *netid, struct knetconfig *knc)
2330bbaa8b60SDan Kruchinin {
2331bbaa8b60SDan Kruchinin SVCMASTERXPRT *xprt = NULL;
2332bbaa8b60SDan Kruchinin int error;
2333bbaa8b60SDan Kruchinin
2334bbaa8b60SDan Kruchinin error = svc_tli_kcreate(fp, 0, (char *)netid, NULL, &xprt,
2335bbaa8b60SDan Kruchinin &nlm_sct, NULL, NLM_SVCPOOL_ID, FALSE);
2336bbaa8b60SDan Kruchinin if (error != 0)
2337bbaa8b60SDan Kruchinin return (error);
2338bbaa8b60SDan Kruchinin
2339bbaa8b60SDan Kruchinin (void) nlm_knc_to_netid(knc);
2340bbaa8b60SDan Kruchinin return (0);
2341bbaa8b60SDan Kruchinin }
2342bbaa8b60SDan Kruchinin
2343bbaa8b60SDan Kruchinin /*
2344bbaa8b60SDan Kruchinin * Start NLM service.
2345bbaa8b60SDan Kruchinin */
2346bbaa8b60SDan Kruchinin int
nlm_svc_starting(struct nlm_globals * g,struct file * fp,const char * netid,struct knetconfig * knc)2347bbaa8b60SDan Kruchinin nlm_svc_starting(struct nlm_globals *g, struct file *fp,
2348bbaa8b60SDan Kruchinin const char *netid, struct knetconfig *knc)
2349bbaa8b60SDan Kruchinin {
2350bbaa8b60SDan Kruchinin int error;
2351bbaa8b60SDan Kruchinin enum clnt_stat stat;
2352bbaa8b60SDan Kruchinin
2353bbaa8b60SDan Kruchinin VERIFY(g->run_status == NLM_ST_STARTING);
2354bbaa8b60SDan Kruchinin VERIFY(g->nlm_gc_thread == NULL);
2355bbaa8b60SDan Kruchinin
2356bbaa8b60SDan Kruchinin error = nlm_nsm_init_local(&g->nlm_nsm);
2357bbaa8b60SDan Kruchinin if (error != 0) {
2358bbaa8b60SDan Kruchinin NLM_ERR("Failed to initialize NSM handler "
2359bbaa8b60SDan Kruchinin "(error=%d)\n", error);
2360bbaa8b60SDan Kruchinin g->run_status = NLM_ST_DOWN;
2361bbaa8b60SDan Kruchinin return (error);
2362bbaa8b60SDan Kruchinin }
2363bbaa8b60SDan Kruchinin
2364bbaa8b60SDan Kruchinin error = EIO;
2365bbaa8b60SDan Kruchinin
2366bbaa8b60SDan Kruchinin /*
2367bbaa8b60SDan Kruchinin * Create an NLM garbage collector thread that will
2368bbaa8b60SDan Kruchinin * clean up stale vholds and hosts objects.
2369bbaa8b60SDan Kruchinin */
2370bbaa8b60SDan Kruchinin g->nlm_gc_thread = zthread_create(NULL, 0, nlm_gc,
2371bbaa8b60SDan Kruchinin g, 0, minclsyspri);
2372bbaa8b60SDan Kruchinin
2373bbaa8b60SDan Kruchinin /*
2374bbaa8b60SDan Kruchinin * Send SIMU_CRASH to local statd to report that
2375bbaa8b60SDan Kruchinin * NLM started, so that statd can report other hosts
2376bbaa8b60SDan Kruchinin * about NLM state change.
2377bbaa8b60SDan Kruchinin */
2378bbaa8b60SDan Kruchinin
2379bbaa8b60SDan Kruchinin stat = nlm_nsm_simu_crash(&g->nlm_nsm);
2380bbaa8b60SDan Kruchinin if (stat != RPC_SUCCESS) {
2381bbaa8b60SDan Kruchinin NLM_ERR("Failed to connect to local statd "
2382bbaa8b60SDan Kruchinin "(rpcerr=%d)\n", stat);
2383bbaa8b60SDan Kruchinin goto shutdown_lm;
2384bbaa8b60SDan Kruchinin }
2385bbaa8b60SDan Kruchinin
2386bbaa8b60SDan Kruchinin stat = nlm_nsm_stat(&g->nlm_nsm, &g->nsm_state);
2387bbaa8b60SDan Kruchinin if (stat != RPC_SUCCESS) {
2388bbaa8b60SDan Kruchinin NLM_ERR("Failed to get the status of local statd "
2389bbaa8b60SDan Kruchinin "(rpcerr=%d)\n", stat);
2390bbaa8b60SDan Kruchinin goto shutdown_lm;
2391bbaa8b60SDan Kruchinin }
2392bbaa8b60SDan Kruchinin
2393bbaa8b60SDan Kruchinin g->grace_threshold = ddi_get_lbolt() +
2394bbaa8b60SDan Kruchinin SEC_TO_TICK(g->grace_period);
2395bbaa8b60SDan Kruchinin
2396bbaa8b60SDan Kruchinin /* Register endpoint used for communications with local NLM */
2397bbaa8b60SDan Kruchinin error = nlm_svc_add_ep(fp, netid, knc);
2398bbaa8b60SDan Kruchinin if (error != 0)
2399bbaa8b60SDan Kruchinin goto shutdown_lm;
2400bbaa8b60SDan Kruchinin
2401bbaa8b60SDan Kruchinin (void) svc_pool_control(NLM_SVCPOOL_ID,
2402bbaa8b60SDan Kruchinin SVCPSET_SHUTDOWN_PROC, (void *)nlm_pool_shutdown);
2403bbaa8b60SDan Kruchinin g->run_status = NLM_ST_UP;
2404bbaa8b60SDan Kruchinin return (0);
2405bbaa8b60SDan Kruchinin
2406bbaa8b60SDan Kruchinin shutdown_lm:
2407bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
2408bbaa8b60SDan Kruchinin g->run_status = NLM_ST_STOPPING;
2409bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
2410bbaa8b60SDan Kruchinin
2411bbaa8b60SDan Kruchinin nlm_svc_stopping(g);
2412bbaa8b60SDan Kruchinin return (error);
2413bbaa8b60SDan Kruchinin }
2414bbaa8b60SDan Kruchinin
2415bbaa8b60SDan Kruchinin /*
2416bbaa8b60SDan Kruchinin * Called when the server pool is destroyed, so that
2417bbaa8b60SDan Kruchinin * all transports are closed and no any server threads
2418bbaa8b60SDan Kruchinin * exist.
2419bbaa8b60SDan Kruchinin *
2420bbaa8b60SDan Kruchinin * Just call lm_shutdown() to shut NLM down properly.
2421bbaa8b60SDan Kruchinin */
2422bbaa8b60SDan Kruchinin static void
nlm_pool_shutdown(void)2423bbaa8b60SDan Kruchinin nlm_pool_shutdown(void)
2424bbaa8b60SDan Kruchinin {
2425bbaa8b60SDan Kruchinin (void) lm_shutdown();
2426bbaa8b60SDan Kruchinin }
2427bbaa8b60SDan Kruchinin
2428bbaa8b60SDan Kruchinin /*
2429bbaa8b60SDan Kruchinin * Stop NLM service, cleanup all resources
2430bbaa8b60SDan Kruchinin * NLM owns at the moment.
2431bbaa8b60SDan Kruchinin *
2432bbaa8b60SDan Kruchinin * NOTE: NFS code can call NLM while it's
2433bbaa8b60SDan Kruchinin * stopping or even if it's shut down. Any attempt
2434bbaa8b60SDan Kruchinin * to lock file either on client or on the server
2435bbaa8b60SDan Kruchinin * will fail if NLM isn't in NLM_ST_UP state.
2436bbaa8b60SDan Kruchinin */
2437bbaa8b60SDan Kruchinin void
nlm_svc_stopping(struct nlm_globals * g)2438bbaa8b60SDan Kruchinin nlm_svc_stopping(struct nlm_globals *g)
2439bbaa8b60SDan Kruchinin {
2440bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
2441bbaa8b60SDan Kruchinin ASSERT(g->run_status == NLM_ST_STOPPING);
2442bbaa8b60SDan Kruchinin
2443bbaa8b60SDan Kruchinin /*
2444bbaa8b60SDan Kruchinin * Ask NLM GC thread to exit and wait until it dies.
2445bbaa8b60SDan Kruchinin */
2446bbaa8b60SDan Kruchinin cv_signal(&g->nlm_gc_sched_cv);
2447bbaa8b60SDan Kruchinin while (g->nlm_gc_thread != NULL)
2448bbaa8b60SDan Kruchinin cv_wait(&g->nlm_gc_finish_cv, &g->lock);
2449bbaa8b60SDan Kruchinin
2450bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
2451bbaa8b60SDan Kruchinin
2452bbaa8b60SDan Kruchinin /*
2453bbaa8b60SDan Kruchinin * Cleanup locks owned by NLM hosts.
2454bbaa8b60SDan Kruchinin * NOTE: New hosts won't be created while
2455bbaa8b60SDan Kruchinin * NLM is stopping.
2456bbaa8b60SDan Kruchinin */
2457bbaa8b60SDan Kruchinin while (!avl_is_empty(&g->nlm_hosts_tree)) {
2458bbaa8b60SDan Kruchinin struct nlm_host *hostp;
2459bbaa8b60SDan Kruchinin int busy_hosts = 0;
2460bbaa8b60SDan Kruchinin
2461bbaa8b60SDan Kruchinin /*
2462bbaa8b60SDan Kruchinin * Iterate through all NLM hosts in the system
2463bbaa8b60SDan Kruchinin * and drop the locks they own by force.
2464bbaa8b60SDan Kruchinin */
2465bbaa8b60SDan Kruchinin hostp = avl_first(&g->nlm_hosts_tree);
2466bbaa8b60SDan Kruchinin while (hostp != NULL) {
2467bbaa8b60SDan Kruchinin /* Cleanup all client and server side locks */
2468bbaa8b60SDan Kruchinin nlm_client_cancel_all(g, hostp);
2469bbaa8b60SDan Kruchinin nlm_host_notify_server(hostp, 0);
2470bbaa8b60SDan Kruchinin
2471bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2472bbaa8b60SDan Kruchinin nlm_host_gc_vholds(hostp);
2473bbaa8b60SDan Kruchinin if (hostp->nh_refs > 0 || nlm_host_has_locks(hostp)) {
2474bbaa8b60SDan Kruchinin /*
2475bbaa8b60SDan Kruchinin * Oh, it seems the host is still busy, let
2476bbaa8b60SDan Kruchinin * it some time to release and go to the
2477bbaa8b60SDan Kruchinin * next one.
2478bbaa8b60SDan Kruchinin */
2479bbaa8b60SDan Kruchinin
2480bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2481bbaa8b60SDan Kruchinin hostp = AVL_NEXT(&g->nlm_hosts_tree, hostp);
2482bbaa8b60SDan Kruchinin busy_hosts++;
2483bbaa8b60SDan Kruchinin continue;
2484bbaa8b60SDan Kruchinin }
2485bbaa8b60SDan Kruchinin
2486bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2487bbaa8b60SDan Kruchinin hostp = AVL_NEXT(&g->nlm_hosts_tree, hostp);
2488bbaa8b60SDan Kruchinin }
2489bbaa8b60SDan Kruchinin
2490bbaa8b60SDan Kruchinin /*
2491bbaa8b60SDan Kruchinin * All hosts go to nlm_idle_hosts list after
2492bbaa8b60SDan Kruchinin * all locks they own are cleaned up and last refereces
2493bbaa8b60SDan Kruchinin * were dropped. Just destroy all hosts in nlm_idle_hosts
2494bbaa8b60SDan Kruchinin * list, they can not be removed from there while we're
2495bbaa8b60SDan Kruchinin * in stopping state.
2496bbaa8b60SDan Kruchinin */
2497bbaa8b60SDan Kruchinin while ((hostp = TAILQ_FIRST(&g->nlm_idle_hosts)) != NULL) {
2498bbaa8b60SDan Kruchinin nlm_host_unregister(g, hostp);
2499bbaa8b60SDan Kruchinin nlm_host_destroy(hostp);
2500bbaa8b60SDan Kruchinin }
2501bbaa8b60SDan Kruchinin
2502bbaa8b60SDan Kruchinin if (busy_hosts > 0) {
2503bbaa8b60SDan Kruchinin /*
2504bbaa8b60SDan Kruchinin * There're some hosts that weren't cleaned
2505bbaa8b60SDan Kruchinin * up. Probably they're in resource cleanup
2506bbaa8b60SDan Kruchinin * process. Give them some time to do drop
2507bbaa8b60SDan Kruchinin * references.
2508bbaa8b60SDan Kruchinin */
2509bbaa8b60SDan Kruchinin delay(MSEC_TO_TICK(500));
2510bbaa8b60SDan Kruchinin }
2511bbaa8b60SDan Kruchinin }
2512bbaa8b60SDan Kruchinin
2513bbaa8b60SDan Kruchinin ASSERT(TAILQ_EMPTY(&g->nlm_slocks));
2514bbaa8b60SDan Kruchinin
2515bbaa8b60SDan Kruchinin nlm_nsm_fini(&g->nlm_nsm);
2516bbaa8b60SDan Kruchinin g->lockd_pid = 0;
2517bbaa8b60SDan Kruchinin g->run_status = NLM_ST_DOWN;
2518bbaa8b60SDan Kruchinin }
2519bbaa8b60SDan Kruchinin
2520bbaa8b60SDan Kruchinin /*
2521bbaa8b60SDan Kruchinin * Returns TRUE if the given vnode has
2522bbaa8b60SDan Kruchinin * any active or sleeping locks.
2523bbaa8b60SDan Kruchinin */
2524bbaa8b60SDan Kruchinin int
nlm_vp_active(const vnode_t * vp)2525bbaa8b60SDan Kruchinin nlm_vp_active(const vnode_t *vp)
2526bbaa8b60SDan Kruchinin {
2527bbaa8b60SDan Kruchinin struct nlm_globals *g;
2528bbaa8b60SDan Kruchinin struct nlm_host *hostp;
2529bbaa8b60SDan Kruchinin struct nlm_vhold *nvp;
2530bbaa8b60SDan Kruchinin int active = 0;
2531bbaa8b60SDan Kruchinin
2532bbaa8b60SDan Kruchinin g = zone_getspecific(nlm_zone_key, curzone);
2533bbaa8b60SDan Kruchinin
2534bbaa8b60SDan Kruchinin /*
2535bbaa8b60SDan Kruchinin * Server side NLM has locks on the given vnode
2536bbaa8b60SDan Kruchinin * if there exist a vhold object that holds
2537bbaa8b60SDan Kruchinin * the given vnode "vp" in one of NLM hosts.
2538bbaa8b60SDan Kruchinin */
2539bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
2540bbaa8b60SDan Kruchinin hostp = avl_first(&g->nlm_hosts_tree);
2541bbaa8b60SDan Kruchinin while (hostp != NULL) {
2542bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2543bbaa8b60SDan Kruchinin nvp = nlm_vhold_find_locked(hostp, vp);
2544bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2545bbaa8b60SDan Kruchinin if (nvp != NULL) {
2546bbaa8b60SDan Kruchinin active = 1;
2547bbaa8b60SDan Kruchinin break;
2548bbaa8b60SDan Kruchinin }
2549bbaa8b60SDan Kruchinin
2550bbaa8b60SDan Kruchinin hostp = AVL_NEXT(&g->nlm_hosts_tree, hostp);
2551bbaa8b60SDan Kruchinin }
2552bbaa8b60SDan Kruchinin
2553bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
2554bbaa8b60SDan Kruchinin return (active);
2555bbaa8b60SDan Kruchinin }
2556bbaa8b60SDan Kruchinin
2557bbaa8b60SDan Kruchinin /*
2558bbaa8b60SDan Kruchinin * Called right before NFS export is going to
2559bbaa8b60SDan Kruchinin * dissapear. The function finds all vnodes
2560bbaa8b60SDan Kruchinin * belonging to the given export and cleans
2561bbaa8b60SDan Kruchinin * all remote locks and share reservations
2562bbaa8b60SDan Kruchinin * on them.
2563bbaa8b60SDan Kruchinin */
2564bbaa8b60SDan Kruchinin void
nlm_unexport(struct exportinfo * exi)2565bbaa8b60SDan Kruchinin nlm_unexport(struct exportinfo *exi)
2566bbaa8b60SDan Kruchinin {
2567bbaa8b60SDan Kruchinin struct nlm_globals *g;
2568bbaa8b60SDan Kruchinin struct nlm_host *hostp;
2569bbaa8b60SDan Kruchinin
2570bbaa8b60SDan Kruchinin g = zone_getspecific(nlm_zone_key, curzone);
2571bbaa8b60SDan Kruchinin
2572bbaa8b60SDan Kruchinin mutex_enter(&g->lock);
2573bbaa8b60SDan Kruchinin hostp = avl_first(&g->nlm_hosts_tree);
2574bbaa8b60SDan Kruchinin while (hostp != NULL) {
2575bbaa8b60SDan Kruchinin struct nlm_vhold *nvp;
2576bbaa8b60SDan Kruchinin
2577*b2b464a4SMarcel Telka if (hostp->nh_flags & NLM_NH_INIDLE) {
2578*b2b464a4SMarcel Telka TAILQ_REMOVE(&g->nlm_idle_hosts, hostp, nh_link);
2579*b2b464a4SMarcel Telka hostp->nh_flags &= ~NLM_NH_INIDLE;
2580*b2b464a4SMarcel Telka }
2581*b2b464a4SMarcel Telka hostp->nh_refs++;
2582*b2b464a4SMarcel Telka
2583*b2b464a4SMarcel Telka mutex_exit(&g->lock);
2584*b2b464a4SMarcel Telka
2585bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2586bbaa8b60SDan Kruchinin TAILQ_FOREACH(nvp, &hostp->nh_vholds_list, nv_link) {
2587bbaa8b60SDan Kruchinin vnode_t *vp;
2588bbaa8b60SDan Kruchinin
2589bbaa8b60SDan Kruchinin nvp->nv_refcnt++;
2590bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2591bbaa8b60SDan Kruchinin
2592bbaa8b60SDan Kruchinin vp = nvp->nv_vp;
2593bbaa8b60SDan Kruchinin
2594bbaa8b60SDan Kruchinin if (!EQFSID(&exi->exi_fsid, &vp->v_vfsp->vfs_fsid))
2595bbaa8b60SDan Kruchinin goto next_iter;
2596bbaa8b60SDan Kruchinin
2597bbaa8b60SDan Kruchinin /*
2598bbaa8b60SDan Kruchinin * Ok, it we found out that vnode vp is under
2599bbaa8b60SDan Kruchinin * control by the exportinfo exi, now we need
2600bbaa8b60SDan Kruchinin * to drop all locks from this vnode, let's
2601bbaa8b60SDan Kruchinin * do it.
2602bbaa8b60SDan Kruchinin */
2603bbaa8b60SDan Kruchinin nlm_vhold_clean(nvp, hostp->nh_sysid);
2604bbaa8b60SDan Kruchinin
2605bbaa8b60SDan Kruchinin next_iter:
2606bbaa8b60SDan Kruchinin mutex_enter(&hostp->nh_lock);
2607bbaa8b60SDan Kruchinin nvp->nv_refcnt--;
2608bbaa8b60SDan Kruchinin }
2609bbaa8b60SDan Kruchinin mutex_exit(&hostp->nh_lock);
2610*b2b464a4SMarcel Telka
2611*b2b464a4SMarcel Telka mutex_enter(&g->lock);
2612*b2b464a4SMarcel Telka nlm_host_release_locked(g, hostp);
2613*b2b464a4SMarcel Telka
2614bbaa8b60SDan Kruchinin hostp = AVL_NEXT(&g->nlm_hosts_tree, hostp);
2615bbaa8b60SDan Kruchinin }
2616bbaa8b60SDan Kruchinin
2617bbaa8b60SDan Kruchinin mutex_exit(&g->lock);
2618bbaa8b60SDan Kruchinin }
2619bbaa8b60SDan Kruchinin
2620bbaa8b60SDan Kruchinin /*
2621bbaa8b60SDan Kruchinin * Allocate new unique sysid.
2622bbaa8b60SDan Kruchinin * In case of failure (no available sysids)
2623bbaa8b60SDan Kruchinin * return LM_NOSYSID.
2624bbaa8b60SDan Kruchinin */
2625bbaa8b60SDan Kruchinin sysid_t
nlm_sysid_alloc(void)2626bbaa8b60SDan Kruchinin nlm_sysid_alloc(void)
2627bbaa8b60SDan Kruchinin {
2628bbaa8b60SDan Kruchinin sysid_t ret_sysid = LM_NOSYSID;
2629bbaa8b60SDan Kruchinin
2630bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_WRITER);
2631bbaa8b60SDan Kruchinin if (nlm_sysid_nidx > LM_SYSID_MAX)
2632bbaa8b60SDan Kruchinin nlm_sysid_nidx = LM_SYSID;
2633bbaa8b60SDan Kruchinin
2634bbaa8b60SDan Kruchinin if (!BT_TEST(nlm_sysid_bmap, nlm_sysid_nidx)) {
2635bbaa8b60SDan Kruchinin BT_SET(nlm_sysid_bmap, nlm_sysid_nidx);
2636bbaa8b60SDan Kruchinin ret_sysid = nlm_sysid_nidx++;
2637bbaa8b60SDan Kruchinin } else {
2638bbaa8b60SDan Kruchinin index_t id;
2639bbaa8b60SDan Kruchinin
2640bbaa8b60SDan Kruchinin id = bt_availbit(nlm_sysid_bmap, NLM_BMAP_NITEMS);
2641bbaa8b60SDan Kruchinin if (id > 0) {
2642bbaa8b60SDan Kruchinin nlm_sysid_nidx = id + 1;
2643bbaa8b60SDan Kruchinin ret_sysid = id;
2644bbaa8b60SDan Kruchinin BT_SET(nlm_sysid_bmap, id);
2645bbaa8b60SDan Kruchinin }
2646bbaa8b60SDan Kruchinin }
2647bbaa8b60SDan Kruchinin
2648bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
2649bbaa8b60SDan Kruchinin return (ret_sysid);
2650bbaa8b60SDan Kruchinin }
2651bbaa8b60SDan Kruchinin
2652bbaa8b60SDan Kruchinin void
nlm_sysid_free(sysid_t sysid)2653bbaa8b60SDan Kruchinin nlm_sysid_free(sysid_t sysid)
2654bbaa8b60SDan Kruchinin {
2655bbaa8b60SDan Kruchinin ASSERT(sysid >= LM_SYSID && sysid <= LM_SYSID_MAX);
2656bbaa8b60SDan Kruchinin
2657bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_WRITER);
2658bbaa8b60SDan Kruchinin ASSERT(BT_TEST(nlm_sysid_bmap, sysid));
2659bbaa8b60SDan Kruchinin BT_CLEAR(nlm_sysid_bmap, sysid);
2660bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
2661bbaa8b60SDan Kruchinin }
2662bbaa8b60SDan Kruchinin
2663bbaa8b60SDan Kruchinin /*
2664bbaa8b60SDan Kruchinin * Return true if the request came from a local caller.
2665bbaa8b60SDan Kruchinin * By necessity, this "knows" the netid names invented
2666bbaa8b60SDan Kruchinin * in lm_svc() and nlm_netid_from_knetconfig().
2667bbaa8b60SDan Kruchinin */
2668bbaa8b60SDan Kruchinin bool_t
nlm_caller_is_local(SVCXPRT * transp)2669bbaa8b60SDan Kruchinin nlm_caller_is_local(SVCXPRT *transp)
2670bbaa8b60SDan Kruchinin {
2671bbaa8b60SDan Kruchinin char *netid;
2672bbaa8b60SDan Kruchinin struct netbuf *rtaddr;
2673bbaa8b60SDan Kruchinin
2674bbaa8b60SDan Kruchinin netid = svc_getnetid(transp);
2675bbaa8b60SDan Kruchinin rtaddr = svc_getrpccaller(transp);
2676bbaa8b60SDan Kruchinin
2677bbaa8b60SDan Kruchinin if (netid == NULL)
2678bbaa8b60SDan Kruchinin return (FALSE);
2679bbaa8b60SDan Kruchinin
2680bbaa8b60SDan Kruchinin if (strcmp(netid, "ticlts") == 0 ||
2681bbaa8b60SDan Kruchinin strcmp(netid, "ticotsord") == 0)
2682bbaa8b60SDan Kruchinin return (TRUE);
2683bbaa8b60SDan Kruchinin
2684bbaa8b60SDan Kruchinin if (strcmp(netid, "tcp") == 0 || strcmp(netid, "udp") == 0) {
2685bbaa8b60SDan Kruchinin struct sockaddr_in *sin = (void *)rtaddr->buf;
2686bbaa8b60SDan Kruchinin if (sin->sin_addr.s_addr == htonl(INADDR_LOOPBACK))
2687bbaa8b60SDan Kruchinin return (TRUE);
2688bbaa8b60SDan Kruchinin }
2689bbaa8b60SDan Kruchinin if (strcmp(netid, "tcp6") == 0 || strcmp(netid, "udp6") == 0) {
2690bbaa8b60SDan Kruchinin struct sockaddr_in6 *sin6 = (void *)rtaddr->buf;
2691bbaa8b60SDan Kruchinin if (IN6_IS_ADDR_LOOPBACK(&sin6->sin6_addr))
2692bbaa8b60SDan Kruchinin return (TRUE);
2693bbaa8b60SDan Kruchinin }
2694bbaa8b60SDan Kruchinin
2695bbaa8b60SDan Kruchinin return (FALSE); /* unknown transport */
2696bbaa8b60SDan Kruchinin }
2697bbaa8b60SDan Kruchinin
2698bbaa8b60SDan Kruchinin /*
2699bbaa8b60SDan Kruchinin * Get netid string correspondig to the given knetconfig.
2700bbaa8b60SDan Kruchinin * If not done already, save knc->knc_rdev in our table.
2701bbaa8b60SDan Kruchinin */
2702bbaa8b60SDan Kruchinin const char *
nlm_knc_to_netid(struct knetconfig * knc)2703bbaa8b60SDan Kruchinin nlm_knc_to_netid(struct knetconfig *knc)
2704bbaa8b60SDan Kruchinin {
2705bbaa8b60SDan Kruchinin int i;
2706bbaa8b60SDan Kruchinin dev_t rdev;
2707bbaa8b60SDan Kruchinin struct nlm_knc *nc;
2708bbaa8b60SDan Kruchinin const char *netid = NULL;
2709bbaa8b60SDan Kruchinin
2710bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_READER);
2711bbaa8b60SDan Kruchinin for (i = 0; i < NLM_KNCS; i++) {
2712bbaa8b60SDan Kruchinin nc = &nlm_netconfigs[i];
2713bbaa8b60SDan Kruchinin
2714bbaa8b60SDan Kruchinin if (nc->n_knc.knc_semantics == knc->knc_semantics &&
2715bbaa8b60SDan Kruchinin strcmp(nc->n_knc.knc_protofmly,
2716bbaa8b60SDan Kruchinin knc->knc_protofmly) == 0) {
2717bbaa8b60SDan Kruchinin netid = nc->n_netid;
2718bbaa8b60SDan Kruchinin rdev = nc->n_knc.knc_rdev;
2719bbaa8b60SDan Kruchinin break;
2720bbaa8b60SDan Kruchinin }
2721bbaa8b60SDan Kruchinin }
2722bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
2723bbaa8b60SDan Kruchinin
2724bbaa8b60SDan Kruchinin if (netid != NULL && rdev == NODEV) {
2725bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_WRITER);
2726bbaa8b60SDan Kruchinin if (nc->n_knc.knc_rdev == NODEV)
2727bbaa8b60SDan Kruchinin nc->n_knc.knc_rdev = knc->knc_rdev;
2728bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
2729bbaa8b60SDan Kruchinin }
2730bbaa8b60SDan Kruchinin
2731bbaa8b60SDan Kruchinin return (netid);
2732bbaa8b60SDan Kruchinin }
2733bbaa8b60SDan Kruchinin
2734bbaa8b60SDan Kruchinin /*
2735bbaa8b60SDan Kruchinin * Get a knetconfig corresponding to the given netid.
2736bbaa8b60SDan Kruchinin * If there's no knetconfig for this netid, ENOENT
2737bbaa8b60SDan Kruchinin * is returned.
2738bbaa8b60SDan Kruchinin */
2739bbaa8b60SDan Kruchinin int
nlm_knc_from_netid(const char * netid,struct knetconfig * knc)2740bbaa8b60SDan Kruchinin nlm_knc_from_netid(const char *netid, struct knetconfig *knc)
2741bbaa8b60SDan Kruchinin {
2742bbaa8b60SDan Kruchinin int i, ret;
2743bbaa8b60SDan Kruchinin
2744bbaa8b60SDan Kruchinin ret = ENOENT;
2745bbaa8b60SDan Kruchinin for (i = 0; i < NLM_KNCS; i++) {
2746bbaa8b60SDan Kruchinin struct nlm_knc *nknc;
2747bbaa8b60SDan Kruchinin
2748bbaa8b60SDan Kruchinin nknc = &nlm_netconfigs[i];
2749bbaa8b60SDan Kruchinin if (strcmp(netid, nknc->n_netid) == 0 &&
2750bbaa8b60SDan Kruchinin nknc->n_knc.knc_rdev != NODEV) {
2751bbaa8b60SDan Kruchinin *knc = nknc->n_knc;
2752bbaa8b60SDan Kruchinin ret = 0;
2753bbaa8b60SDan Kruchinin break;
2754bbaa8b60SDan Kruchinin }
2755bbaa8b60SDan Kruchinin }
2756bbaa8b60SDan Kruchinin
2757bbaa8b60SDan Kruchinin return (ret);
2758bbaa8b60SDan Kruchinin }
2759bbaa8b60SDan Kruchinin
2760bbaa8b60SDan Kruchinin void
nlm_cprsuspend(void)2761bbaa8b60SDan Kruchinin nlm_cprsuspend(void)
2762bbaa8b60SDan Kruchinin {
2763bbaa8b60SDan Kruchinin struct nlm_globals *g;
2764bbaa8b60SDan Kruchinin
2765bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_READER);
2766bbaa8b60SDan Kruchinin TAILQ_FOREACH(g, &nlm_zones_list, nlm_link)
2767bbaa8b60SDan Kruchinin nlm_suspend_zone(g);
2768bbaa8b60SDan Kruchinin
2769bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
2770bbaa8b60SDan Kruchinin }
2771bbaa8b60SDan Kruchinin
2772bbaa8b60SDan Kruchinin void
nlm_cprresume(void)2773bbaa8b60SDan Kruchinin nlm_cprresume(void)
2774bbaa8b60SDan Kruchinin {
2775bbaa8b60SDan Kruchinin struct nlm_globals *g;
2776bbaa8b60SDan Kruchinin
2777bbaa8b60SDan Kruchinin rw_enter(&lm_lck, RW_READER);
2778bbaa8b60SDan Kruchinin TAILQ_FOREACH(g, &nlm_zones_list, nlm_link)
2779bbaa8b60SDan Kruchinin nlm_resume_zone(g);
2780bbaa8b60SDan Kruchinin
2781bbaa8b60SDan Kruchinin rw_exit(&lm_lck);
2782bbaa8b60SDan Kruchinin }
2783bbaa8b60SDan Kruchinin
2784bbaa8b60SDan Kruchinin static void
nlm_nsm_clnt_init(CLIENT * clnt,struct nlm_nsm * nsm)2785bbaa8b60SDan Kruchinin nlm_nsm_clnt_init(CLIENT *clnt, struct nlm_nsm *nsm)
2786bbaa8b60SDan Kruchinin {
2787bbaa8b60SDan Kruchinin (void) clnt_tli_kinit(clnt, &nsm->ns_knc, &nsm->ns_addr, 0,
2788bbaa8b60SDan Kruchinin NLM_RPC_RETRIES, kcred);
2789bbaa8b60SDan Kruchinin }
2790bbaa8b60SDan Kruchinin
2791bbaa8b60SDan Kruchinin static void
nlm_netbuf_to_netobj(struct netbuf * addr,int * family,netobj * obj)2792bbaa8b60SDan Kruchinin nlm_netbuf_to_netobj(struct netbuf *addr, int *family, netobj *obj)
2793bbaa8b60SDan Kruchinin {
2794bbaa8b60SDan Kruchinin /* LINTED pointer alignment */
2795bbaa8b60SDan Kruchinin struct sockaddr *sa = (struct sockaddr *)addr->buf;
2796bbaa8b60SDan Kruchinin
2797bbaa8b60SDan Kruchinin *family = sa->sa_family;
2798bbaa8b60SDan Kruchinin
2799bbaa8b60SDan Kruchinin switch (sa->sa_family) {
2800bbaa8b60SDan Kruchinin case AF_INET: {
2801bbaa8b60SDan Kruchinin /* LINTED pointer alignment */
2802bbaa8b60SDan Kruchinin struct sockaddr_in *sin = (struct sockaddr_in *)sa;
2803bbaa8b60SDan Kruchinin
2804bbaa8b60SDan Kruchinin obj->n_len = sizeof (sin->sin_addr);
2805bbaa8b60SDan Kruchinin obj->n_bytes = (char *)&sin->sin_addr;
2806bbaa8b60SDan Kruchinin break;
2807bbaa8b60SDan Kruchinin }
2808bbaa8b60SDan Kruchinin
2809bbaa8b60SDan Kruchinin case AF_INET6: {
2810bbaa8b60SDan Kruchinin /* LINTED pointer alignment */
2811bbaa8b60SDan Kruchinin struct sockaddr_in6 *sin6 = (struct sockaddr_in6 *)sa;
2812bbaa8b60SDan Kruchinin
2813bbaa8b60SDan Kruchinin obj->n_len = sizeof (sin6->sin6_addr);
2814bbaa8b60SDan Kruchinin obj->n_bytes = (char *)&sin6->sin6_addr;
2815bbaa8b60SDan Kruchinin break;
2816bbaa8b60SDan Kruchinin }
2817bbaa8b60SDan Kruchinin
2818bbaa8b60SDan Kruchinin default:
2819bbaa8b60SDan Kruchinin VERIFY(0);
2820bbaa8b60SDan Kruchinin break;
2821bbaa8b60SDan Kruchinin }
2822bbaa8b60SDan Kruchinin }
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