xref: /titanic_51/usr/src/uts/common/inet/ip/ip_ndp.c (revision 7ee93e3bbce920c0d0742deb6632b0939e30b783)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 #include <sys/types.h>
30 #include <sys/stream.h>
31 #include <sys/stropts.h>
32 #include <sys/sysmacros.h>
33 #include <sys/errno.h>
34 #include <sys/strlog.h>
35 #include <sys/dlpi.h>
36 #include <sys/sockio.h>
37 #include <sys/tiuser.h>
38 #include <sys/tihdr.h>
39 #include <sys/socket.h>
40 #include <sys/ddi.h>
41 #include <sys/cmn_err.h>
42 #include <sys/debug.h>
43 #include <sys/vtrace.h>
44 #include <sys/kmem.h>
45 #include <sys/zone.h>
46 
47 #include <net/if.h>
48 #include <net/if_types.h>
49 #include <net/if_dl.h>
50 #include <net/route.h>
51 #include <sys/sockio.h>
52 #include <netinet/in.h>
53 #include <netinet/in_systm.h>
54 #include <netinet/ip6.h>
55 #include <netinet/icmp6.h>
56 
57 #include <inet/common.h>
58 #include <inet/mi.h>
59 #include <inet/mib2.h>
60 #include <inet/nd.h>
61 #include <inet/arp.h>
62 #include <inet/ip.h>
63 #include <inet/ip_multi.h>
64 #include <inet/ip_if.h>
65 #include <inet/ip_ire.h>
66 #include <inet/ip_rts.h>
67 #include <inet/ip6.h>
68 #include <inet/ip_ndp.h>
69 #include <inet/ipsec_impl.h>
70 #include <inet/ipsec_info.h>
71 
72 /*
73  * Function names with nce_ prefix are static while function
74  * names with ndp_ prefix are used by rest of the IP.
75  */
76 
77 static	boolean_t nce_cmp_ll_addr(nce_t *nce, char *new_ll_addr,
78     uint32_t ll_addr_len);
79 static	void	nce_fastpath(nce_t *nce);
80 static	void	nce_ire_delete(nce_t *nce);
81 static	void	nce_ire_delete1(ire_t *ire, char *nce_arg);
82 static	void 	nce_set_ll(nce_t *nce, uchar_t *ll_addr);
83 static	nce_t	*nce_lookup_addr(ill_t *ill, const in6_addr_t *addr);
84 static	nce_t	*nce_lookup_mapping(ill_t *ill, const in6_addr_t *addr);
85 static	void	nce_make_mapping(nce_t *nce, uchar_t *addrpos,
86     uchar_t *addr);
87 static	int	nce_set_multicast(ill_t *ill, const in6_addr_t *addr);
88 static	void	nce_queue_mp(nce_t *nce, mblk_t *mp);
89 static	void	nce_report1(nce_t *nce, uchar_t *mp_arg);
90 static	mblk_t	*nce_udreq_alloc(ill_t *ill);
91 static	void	nce_update(nce_t *nce, uint16_t new_state,
92     uchar_t *new_ll_addr);
93 static	uint32_t	nce_solicit(nce_t *nce, mblk_t *mp);
94 static	boolean_t	nce_xmit(ill_t *ill, uint32_t operation,
95     ill_t *hwaddr_ill, boolean_t use_lla_addr, const in6_addr_t *sender,
96     const in6_addr_t *target, int flag);
97 static	void	lla2ascii(uint8_t *lla, int addrlen, uchar_t *buf);
98 extern void	th_trace_rrecord(th_trace_t *);
99 
100 #ifdef NCE_DEBUG
101 void	nce_trace_inactive(nce_t *);
102 #endif
103 
104 /* NDP Cache Entry Hash Table */
105 #define	NCE_TABLE_SIZE	256
106 static	nce_t	*nce_hash_tbl[NCE_TABLE_SIZE];
107 static	nce_t	*nce_mask_entries;	/* mask not all ones */
108 static	int	ndp_g_walker = 0;	/* # of active thread */
109 					/* walking nce hash list */
110 /* ndp_g_walker_cleanup will be true, when deletion have to be defered */
111 static	boolean_t	ndp_g_walker_cleanup = B_FALSE;
112 
113 #ifdef _BIG_ENDIAN
114 #define	IN6_IS_ADDR_MC_SOLICITEDNODE(addr) \
115 	((((addr)->s6_addr32[0] & 0xff020000) == 0xff020000) && \
116 	((addr)->s6_addr32[1] == 0x0) && \
117 	((addr)->s6_addr32[2] == 0x00000001) && \
118 	((addr)->s6_addr32[3] & 0xff000000) == 0xff000000)
119 #else	/* _BIG_ENDIAN */
120 #define	IN6_IS_ADDR_MC_SOLICITEDNODE(addr) \
121 	((((addr)->s6_addr32[0] & 0x000002ff) == 0x000002ff) && \
122 	((addr)->s6_addr32[1] == 0x0) && \
123 	((addr)->s6_addr32[2] == 0x01000000) && \
124 	((addr)->s6_addr32[3] & 0x000000ff) == 0x000000ff)
125 #endif
126 
127 #define	NCE_HASH_PTR(addr) \
128 	(&(nce_hash_tbl[NCE_ADDR_HASH_V6(addr, NCE_TABLE_SIZE)]))
129 
130 /*
131  * NDP Cache Entry creation routine.
132  * Mapped entries will never do NUD .
133  * This routine must always be called with ndp_g_lock held.
134  * Prior to return, nce_refcnt is incremented.
135  */
136 int
137 ndp_add(ill_t *ill, uchar_t *hw_addr, const in6_addr_t *addr,
138     const in6_addr_t *mask, const in6_addr_t *extract_mask,
139     uint32_t hw_extract_start, uint16_t flags, uint16_t state,
140     nce_t **newnce)
141 {
142 static	nce_t		nce_nil;
143 	nce_t		*nce;
144 	mblk_t		*mp;
145 	mblk_t		*template;
146 	nce_t		**ncep;
147 	boolean_t	dropped = B_FALSE;
148 
149 	ASSERT(MUTEX_HELD(&ndp_g_lock));
150 	ASSERT(ill != NULL);
151 	if (IN6_IS_ADDR_UNSPECIFIED(addr)) {
152 		ip0dbg(("ndp_add: no addr\n"));
153 		return (EINVAL);
154 	}
155 	if ((flags & ~NCE_EXTERNAL_FLAGS_MASK)) {
156 		ip0dbg(("ndp_add: flags = %x\n", (int)flags));
157 		return (EINVAL);
158 	}
159 	if (IN6_IS_ADDR_UNSPECIFIED(extract_mask) &&
160 	    (flags & NCE_F_MAPPING)) {
161 		ip0dbg(("ndp_add: extract mask zero for mapping"));
162 		return (EINVAL);
163 	}
164 	/*
165 	 * Allocate the mblk to hold the nce.
166 	 *
167 	 * XXX This can come out of a separate cache - nce_cache.
168 	 * We don't need the mp anymore as there are no more
169 	 * "qwriter"s
170 	 */
171 	mp = allocb(sizeof (nce_t), BPRI_MED);
172 	if (mp == NULL)
173 		return (ENOMEM);
174 
175 	nce = (nce_t *)mp->b_rptr;
176 	mp->b_wptr = (uchar_t *)&nce[1];
177 	*nce = nce_nil;
178 
179 	/*
180 	 * This one holds link layer address
181 	 */
182 	if (ill->ill_net_type == IRE_IF_RESOLVER) {
183 		template = nce_udreq_alloc(ill);
184 	} else {
185 		ASSERT((ill->ill_net_type == IRE_IF_NORESOLVER));
186 		ASSERT((ill->ill_resolver_mp != NULL));
187 		template = copyb(ill->ill_resolver_mp);
188 	}
189 	if (template == NULL) {
190 		freeb(mp);
191 		return (ENOMEM);
192 	}
193 	nce->nce_ill = ill;
194 	nce->nce_flags = flags;
195 	nce->nce_state = state;
196 	nce->nce_pcnt = ND_MAX_UNICAST_SOLICIT;
197 	nce->nce_rcnt = ill->ill_xmit_count;
198 	nce->nce_addr = *addr;
199 	nce->nce_mask = *mask;
200 	nce->nce_extract_mask = *extract_mask;
201 	nce->nce_ll_extract_start = hw_extract_start;
202 	nce->nce_fp_mp = NULL;
203 	nce->nce_res_mp = template;
204 	if (state == ND_REACHABLE)
205 		nce->nce_last = TICK_TO_MSEC(lbolt64);
206 	else
207 		nce->nce_last = 0;
208 	nce->nce_qd_mp = NULL;
209 	nce->nce_mp = mp;
210 	if (hw_addr != NULL)
211 		nce_set_ll(nce, hw_addr);
212 	/* This one is for nce getting created */
213 	nce->nce_refcnt = 1;
214 	mutex_init(&nce->nce_lock, NULL, MUTEX_DEFAULT, NULL);
215 	if (nce->nce_flags & NCE_F_MAPPING) {
216 		ASSERT(IN6_IS_ADDR_MULTICAST(addr));
217 		ASSERT(!IN6_IS_ADDR_UNSPECIFIED(&nce->nce_mask));
218 		ASSERT(!IN6_IS_ADDR_UNSPECIFIED(&nce->nce_extract_mask));
219 		ncep = &nce_mask_entries;
220 	} else {
221 		ncep = ((nce_t **)NCE_HASH_PTR(*addr));
222 	}
223 
224 #ifdef NCE_DEBUG
225 	bzero(nce->nce_trace, sizeof (th_trace_t *) * IP_TR_HASH_MAX);
226 #endif
227 	/*
228 	 * Atomically ensure that the ill is not CONDEMNED, before
229 	 * adding the NCE.
230 	 */
231 	mutex_enter(&ill->ill_lock);
232 	if (ill->ill_state_flags & ILL_CONDEMNED) {
233 		mutex_exit(&ill->ill_lock);
234 		freeb(mp);
235 		return (EINVAL);
236 	}
237 	if ((nce->nce_next = *ncep) != NULL)
238 		nce->nce_next->nce_ptpn = &nce->nce_next;
239 	*ncep = nce;
240 	nce->nce_ptpn = ncep;
241 	*newnce = nce;
242 	/* This one is for nce being used by an active thread */
243 	NCE_REFHOLD(*newnce);
244 
245 	/* Bump up the number of nce's referencing this ill */
246 	ill->ill_nce_cnt++;
247 	mutex_exit(&ill->ill_lock);
248 
249 	/*
250 	 * Before we insert the nce, honor the UNSOL_ADV flag.
251 	 * We cannot hold the ndp_g_lock and call nce_xmit
252 	 * which does a putnext.
253 	 */
254 	if (flags & NCE_F_UNSOL_ADV) {
255 		flags |= NDP_ORIDE;
256 		/*
257 		 * We account for the transmit below by assigning one
258 		 * less than the ndd variable. Subsequent decrements
259 		 * are done in ndp_timer.
260 		 */
261 		mutex_enter(&nce->nce_lock);
262 		mutex_exit(&ndp_g_lock);
263 		nce->nce_unsolicit_count = ip_ndp_unsolicit_count - 1;
264 		mutex_exit(&nce->nce_lock);
265 		dropped = nce_xmit(ill,
266 		    ND_NEIGHBOR_ADVERT,
267 		    ill,	/* ill to be used for extracting ill_nd_lla */
268 		    B_TRUE,	/* use ill_nd_lla */
269 		    addr,	/* Source and target of the advertisement pkt */
270 		    &ipv6_all_hosts_mcast, /* Destination of the packet */
271 		    flags);
272 		mutex_enter(&nce->nce_lock);
273 		if (dropped)
274 			nce->nce_unsolicit_count++;
275 		if (nce->nce_unsolicit_count != 0) {
276 			nce->nce_timeout_id = timeout(ndp_timer, nce,
277 			    MSEC_TO_TICK(ip_ndp_unsolicit_interval));
278 		}
279 		mutex_exit(&nce->nce_lock);
280 		mutex_enter(&ndp_g_lock);
281 	}
282 	/*
283 	 * If the hw_addr is NULL, typically for ND_INCOMPLETE nces, then
284 	 * we call nce_fastpath as soon as the nce is resolved in ndp_process.
285 	 * We call nce_fastpath from nce_update if the link layer address of
286 	 * the peer changes from nce_update
287 	 */
288 	if (hw_addr != NULL || ill->ill_net_type == IRE_IF_NORESOLVER)
289 		nce_fastpath(nce);
290 	return (0);
291 }
292 
293 int
294 ndp_lookup_then_add(ill_t *ill, uchar_t *hw_addr, const in6_addr_t *addr,
295     const in6_addr_t *mask, const in6_addr_t *extract_mask,
296     uint32_t hw_extract_start, uint16_t flags, uint16_t state,
297     nce_t **newnce)
298 {
299 	int	err = 0;
300 	nce_t	*nce;
301 
302 	mutex_enter(&ndp_g_lock);
303 	nce = nce_lookup_addr(ill, addr);
304 	if (nce == NULL) {
305 		err = ndp_add(ill,
306 		    hw_addr,
307 		    addr,
308 		    mask,
309 		    extract_mask,
310 		    hw_extract_start,
311 		    flags,
312 		    state,
313 		    newnce);
314 	} else {
315 		*newnce = nce;
316 		err = EEXIST;
317 	}
318 	mutex_exit(&ndp_g_lock);
319 	return (err);
320 }
321 
322 /*
323  * Remove all the CONDEMNED nces from the appropriate hash table.
324  * We create a private list of NCEs, these may have ires pointing
325  * to them, so the list will be passed through to clean up dependent
326  * ires and only then we can do NCE_REFRELE which can make NCE inactive.
327  */
328 static void
329 nce_remove(nce_t *nce, nce_t **free_nce_list)
330 {
331 	nce_t *nce1;
332 	nce_t **ptpn;
333 
334 	ASSERT(MUTEX_HELD(&ndp_g_lock));
335 	ASSERT(ndp_g_walker == 0);
336 	for (; nce; nce = nce1) {
337 		nce1 = nce->nce_next;
338 		mutex_enter(&nce->nce_lock);
339 		if (nce->nce_flags & NCE_F_CONDEMNED) {
340 			ptpn = nce->nce_ptpn;
341 			nce1 = nce->nce_next;
342 			if (nce1 != NULL)
343 				nce1->nce_ptpn = ptpn;
344 			*ptpn = nce1;
345 			nce->nce_ptpn = NULL;
346 			nce->nce_next = NULL;
347 			nce->nce_next = *free_nce_list;
348 			*free_nce_list = nce;
349 		}
350 		mutex_exit(&nce->nce_lock);
351 	}
352 }
353 
354 /*
355  * 1. Mark the nce CONDEMNED. This ensures that no new nce_lookup()
356  *    will return this NCE. Also no new IREs will be created that
357  *    point to this NCE (See ire_add_v6).  Also no new timeouts will
358  *    be started (See NDP_RESTART_TIMER).
359  * 2. Cancel any currently running timeouts.
360  * 3. If there is an ndp walker, return. The walker will do the cleanup.
361  *    This ensures that walkers see a consistent list of NCEs while walking.
362  * 4. Otherwise remove the NCE from the list of NCEs
363  * 5. Delete all IREs pointing to this NCE.
364  */
365 void
366 ndp_delete(nce_t *nce)
367 {
368 	nce_t	**ptpn;
369 	nce_t	*nce1;
370 
371 	/* Serialize deletes */
372 	mutex_enter(&nce->nce_lock);
373 	if (nce->nce_flags & NCE_F_CONDEMNED) {
374 		/* Some other thread is doing the delete */
375 		mutex_exit(&nce->nce_lock);
376 		return;
377 	}
378 	/*
379 	 * Caller has a refhold. Also 1 ref for being in the list. Thus
380 	 * refcnt has to be >= 2
381 	 */
382 	ASSERT(nce->nce_refcnt >= 2);
383 	nce->nce_flags |= NCE_F_CONDEMNED;
384 	mutex_exit(&nce->nce_lock);
385 
386 	nce_fastpath_list_delete(nce);
387 
388 	/*
389 	 * Cancel any running timer. Timeout can't be restarted
390 	 * since CONDEMNED is set. Can't hold nce_lock across untimeout.
391 	 * Passing invalid timeout id is fine.
392 	 */
393 	if (nce->nce_timeout_id != 0) {
394 		(void) untimeout(nce->nce_timeout_id);
395 		nce->nce_timeout_id = 0;
396 	}
397 
398 	mutex_enter(&ndp_g_lock);
399 	if (nce->nce_ptpn == NULL) {
400 		/*
401 		 * The last ndp walker has already removed this nce from
402 		 * the list after we marked the nce CONDEMNED and before
403 		 * we grabbed the ndp_g_lock.
404 		 */
405 		mutex_exit(&ndp_g_lock);
406 		return;
407 	}
408 	if (ndp_g_walker > 0) {
409 		/*
410 		 * Can't unlink. The walker will clean up
411 		 */
412 		ndp_g_walker_cleanup = B_TRUE;
413 		mutex_exit(&ndp_g_lock);
414 		return;
415 	}
416 
417 	/*
418 	 * Now remove the nce from the list. NDP_RESTART_TIMER won't restart
419 	 * the timer since it is marked CONDEMNED.
420 	 */
421 	ptpn = nce->nce_ptpn;
422 	nce1 = nce->nce_next;
423 	if (nce1 != NULL)
424 		nce1->nce_ptpn = ptpn;
425 	*ptpn = nce1;
426 	nce->nce_ptpn = NULL;
427 	nce->nce_next = NULL;
428 	mutex_exit(&ndp_g_lock);
429 
430 	nce_ire_delete(nce);
431 }
432 
433 void
434 ndp_inactive(nce_t *nce)
435 {
436 	mblk_t		**mpp;
437 	ill_t		*ill;
438 
439 	ASSERT(nce->nce_refcnt == 0);
440 	ASSERT(MUTEX_HELD(&nce->nce_lock));
441 	ASSERT(nce->nce_fastpath == NULL);
442 
443 	/* Free all nce allocated messages */
444 	mpp = &nce->nce_first_mp_to_free;
445 	do {
446 		while (*mpp != NULL) {
447 			mblk_t  *mp;
448 
449 			mp = *mpp;
450 			*mpp = mp->b_next;
451 			mp->b_next = NULL;
452 			mp->b_prev = NULL;
453 			freemsg(mp);
454 		}
455 	} while (mpp++ != &nce->nce_last_mp_to_free);
456 
457 #ifdef NCE_DEBUG
458 	nce_trace_inactive(nce);
459 #endif
460 
461 	ill = nce->nce_ill;
462 	mutex_enter(&ill->ill_lock);
463 	ill->ill_nce_cnt--;
464 	/*
465 	 * If the number of nce's associated with this ill have dropped
466 	 * to zero, check whether we need to restart any operation that
467 	 * is waiting for this to happen.
468 	 */
469 	if (ill->ill_nce_cnt == 0) {
470 		/* ipif_ill_refrele_tail drops the ill_lock */
471 		ipif_ill_refrele_tail(ill);
472 	} else {
473 		mutex_exit(&ill->ill_lock);
474 	}
475 	mutex_destroy(&nce->nce_lock);
476 	freeb(nce->nce_mp);
477 }
478 
479 /*
480  * ndp_walk routine.  Delete the nce if it is associated with the ill
481  * that is going away.  Always called as a writer.
482  */
483 void
484 ndp_delete_per_ill(nce_t *nce, uchar_t *arg)
485 {
486 	if ((nce != NULL) && nce->nce_ill == (ill_t *)arg) {
487 		ndp_delete(nce);
488 	}
489 }
490 
491 /*
492  * Walk a list of to be inactive NCEs and blow away all the ires.
493  */
494 static void
495 nce_ire_delete_list(nce_t *nce)
496 {
497 	nce_t *nce_next;
498 
499 	ASSERT(nce != NULL);
500 	while (nce != NULL) {
501 		nce_next = nce->nce_next;
502 		nce->nce_next = NULL;
503 
504 		/*
505 		 * It is possible for the last ndp walker (this thread)
506 		 * to come here after ndp_delete has marked the nce CONDEMNED
507 		 * and before it has removed the nce from the fastpath list
508 		 * or called untimeout. So we need to do it here. It is safe
509 		 * for both ndp_delete and this thread to do it twice or
510 		 * even simultaneously since each of the threads has a
511 		 * reference on the nce.
512 		 */
513 		nce_fastpath_list_delete(nce);
514 		/*
515 		 * Cancel any running timer. Timeout can't be restarted
516 		 * since CONDEMNED is set. Can't hold nce_lock across untimeout.
517 		 * Passing invalid timeout id is fine.
518 		 */
519 		if (nce->nce_timeout_id != 0) {
520 			(void) untimeout(nce->nce_timeout_id);
521 			nce->nce_timeout_id = 0;
522 		}
523 
524 		ire_walk_ill_v6(MATCH_IRE_ILL | MATCH_IRE_TYPE, IRE_CACHE,
525 		    nce_ire_delete1, (char *)nce, nce->nce_ill);
526 		NCE_REFRELE_NOTR(nce);
527 		nce = nce_next;
528 	}
529 }
530 
531 /*
532  * Delete an ire when the nce goes away.
533  */
534 /* ARGSUSED */
535 static void
536 nce_ire_delete(nce_t *nce)
537 {
538 	ire_walk_ill_v6(MATCH_IRE_ILL | MATCH_IRE_TYPE, IRE_CACHE,
539 	    nce_ire_delete1, (char *)nce, nce->nce_ill);
540 	NCE_REFRELE_NOTR(nce);
541 }
542 
543 /*
544  * ire_walk routine used to delete every IRE that shares this nce
545  */
546 static void
547 nce_ire_delete1(ire_t *ire, char *nce_arg)
548 {
549 	nce_t	*nce = (nce_t *)nce_arg;
550 
551 	ASSERT(ire->ire_type == IRE_CACHE);
552 
553 	if (ire->ire_nce == nce)
554 		ire_delete(ire);
555 }
556 
557 /*
558  * Cache entry lookup.  Try to find an nce matching the parameters passed.
559  * If one is found, the refcnt on the nce will be incremented.
560  */
561 nce_t *
562 ndp_lookup(ill_t *ill, const in6_addr_t *addr, boolean_t caller_holds_lock)
563 {
564 	nce_t	*nce;
565 
566 	if (!caller_holds_lock)
567 		mutex_enter(&ndp_g_lock);
568 	nce = nce_lookup_addr(ill, addr);
569 	if (nce == NULL)
570 		nce = nce_lookup_mapping(ill, addr);
571 	if (!caller_holds_lock)
572 		mutex_exit(&ndp_g_lock);
573 	return (nce);
574 }
575 
576 /*
577  * Cache entry lookup.  Try to find an nce matching the parameters passed.
578  * Look only for exact entries (no mappings).  If an nce is found, increment
579  * the hold count on that nce.
580  */
581 static nce_t *
582 nce_lookup_addr(ill_t *ill, const in6_addr_t *addr)
583 {
584 	nce_t	*nce;
585 
586 	ASSERT(ill != NULL);
587 	ASSERT(MUTEX_HELD(&ndp_g_lock));
588 	if (IN6_IS_ADDR_UNSPECIFIED(addr))
589 		return (NULL);
590 	nce = *((nce_t **)NCE_HASH_PTR(*addr));
591 	for (; nce != NULL; nce = nce->nce_next) {
592 		if (nce->nce_ill == ill) {
593 			if (IN6_ARE_ADDR_EQUAL(&nce->nce_addr, addr) &&
594 			    IN6_ARE_ADDR_EQUAL(&nce->nce_mask,
595 			    &ipv6_all_ones)) {
596 				mutex_enter(&nce->nce_lock);
597 				if (!(nce->nce_flags & NCE_F_CONDEMNED)) {
598 					NCE_REFHOLD_LOCKED(nce);
599 					mutex_exit(&nce->nce_lock);
600 					break;
601 				}
602 				mutex_exit(&nce->nce_lock);
603 			}
604 		}
605 	}
606 	return (nce);
607 }
608 
609 /*
610  * Cache entry lookup.  Try to find an nce matching the parameters passed.
611  * Look only for mappings.
612  */
613 static nce_t *
614 nce_lookup_mapping(ill_t *ill, const in6_addr_t *addr)
615 {
616 	nce_t	*nce;
617 
618 	ASSERT(ill != NULL);
619 	ASSERT(MUTEX_HELD(&ndp_g_lock));
620 	if (!IN6_IS_ADDR_MULTICAST(addr))
621 		return (NULL);
622 	nce = nce_mask_entries;
623 	for (; nce != NULL; nce = nce->nce_next)
624 		if (nce->nce_ill == ill &&
625 		    (V6_MASK_EQ(*addr, nce->nce_mask, nce->nce_addr))) {
626 			mutex_enter(&nce->nce_lock);
627 			if (!(nce->nce_flags & NCE_F_CONDEMNED)) {
628 				NCE_REFHOLD_LOCKED(nce);
629 				mutex_exit(&nce->nce_lock);
630 				break;
631 			}
632 			mutex_exit(&nce->nce_lock);
633 		}
634 	return (nce);
635 }
636 
637 /*
638  * Process passed in parameters either from an incoming packet or via
639  * user ioctl.
640  */
641 void
642 ndp_process(nce_t *nce, uchar_t *hw_addr, uint32_t flag, boolean_t is_adv)
643 {
644 	ill_t	*ill = nce->nce_ill;
645 	uint32_t hw_addr_len = ill->ill_nd_lla_len;
646 	mblk_t	*mp;
647 	boolean_t ll_updated = B_FALSE;
648 	boolean_t ll_changed;
649 
650 	/*
651 	 * No updates of link layer address or the neighbor state is
652 	 * allowed, when the cache is in NONUD state.  This still
653 	 * allows for responding to reachability solicitation.
654 	 */
655 	mutex_enter(&nce->nce_lock);
656 	if (nce->nce_state == ND_INCOMPLETE) {
657 		if (hw_addr == NULL) {
658 			mutex_exit(&nce->nce_lock);
659 			return;
660 		}
661 		nce_set_ll(nce, hw_addr);
662 		/*
663 		 * Update nce state and send the queued packets
664 		 * back to ip this time ire will be added.
665 		 */
666 		if (flag & ND_NA_FLAG_SOLICITED) {
667 			nce_update(nce, ND_REACHABLE, NULL);
668 		} else {
669 			nce_update(nce, ND_STALE, NULL);
670 		}
671 		mutex_exit(&nce->nce_lock);
672 		nce_fastpath(nce);
673 		mutex_enter(&nce->nce_lock);
674 		mp = nce->nce_qd_mp;
675 		nce->nce_qd_mp = NULL;
676 		mutex_exit(&nce->nce_lock);
677 		while (mp != NULL) {
678 			mblk_t *nxt_mp;
679 
680 			nxt_mp = mp->b_next;
681 			mp->b_next = NULL;
682 			if (mp->b_prev != NULL) {
683 				ill_t   *inbound_ill;
684 				queue_t *fwdq = NULL;
685 				uint_t ifindex;
686 
687 				ifindex = (uint_t)(uintptr_t)mp->b_prev;
688 				inbound_ill = ill_lookup_on_ifindex(ifindex,
689 				    B_TRUE, NULL, NULL, NULL, NULL);
690 				if (inbound_ill == NULL) {
691 					mp->b_prev = NULL;
692 					freemsg(mp);
693 					return;
694 				} else {
695 					fwdq = inbound_ill->ill_rq;
696 				}
697 				mp->b_prev = NULL;
698 				/*
699 				 * Send a forwarded packet back into ip_rput_v6
700 				 * just as in ire_send_v6().
701 				 * Extract the queue from b_prev (set in
702 				 * ip_rput_data_v6).
703 				 */
704 				if (fwdq != NULL) {
705 					/*
706 					 * Forwarded packets hop count will
707 					 * get decremented in ip_rput_data_v6
708 					 */
709 					put(fwdq, mp);
710 				} else {
711 					/*
712 					 * Send locally originated packets back
713 					 * into * ip_wput_v6.
714 					 */
715 					put(ill->ill_wq, mp);
716 				}
717 				ill_refrele(inbound_ill);
718 			} else {
719 				put(ill->ill_wq, mp);
720 			}
721 			mp = nxt_mp;
722 		}
723 		return;
724 	}
725 	ll_changed = nce_cmp_ll_addr(nce, (char *)hw_addr, hw_addr_len);
726 	if (!is_adv) {
727 		/* If this is a SOLICITATION request only */
728 		if (ll_changed)
729 			nce_update(nce, ND_STALE, hw_addr);
730 		mutex_exit(&nce->nce_lock);
731 		return;
732 	}
733 	if (!(flag & ND_NA_FLAG_OVERRIDE) && ll_changed) {
734 		/* If in any other state than REACHABLE, ignore */
735 		if (nce->nce_state == ND_REACHABLE) {
736 			nce_update(nce, ND_STALE, NULL);
737 		}
738 		mutex_exit(&nce->nce_lock);
739 		return;
740 	} else {
741 		if (ll_changed) {
742 			nce_update(nce, ND_UNCHANGED, hw_addr);
743 			ll_updated = B_TRUE;
744 		}
745 		if (flag & ND_NA_FLAG_SOLICITED) {
746 			nce_update(nce, ND_REACHABLE, NULL);
747 		} else {
748 			if (ll_updated) {
749 				nce_update(nce, ND_STALE, NULL);
750 			}
751 		}
752 		mutex_exit(&nce->nce_lock);
753 		if (!(flag & ND_NA_FLAG_ROUTER) && (nce->nce_flags &
754 		    NCE_F_ISROUTER)) {
755 			ire_t *ire;
756 
757 			/*
758 			 * Router turned to host.  We need to remove the
759 			 * entry as well as any default route that may be
760 			 * using this as a next hop.  This is required by
761 			 * section 7.2.5 of RFC 2461.
762 			 */
763 			ire = ire_ftable_lookup_v6(&ipv6_all_zeros,
764 			    &ipv6_all_zeros, &nce->nce_addr, IRE_DEFAULT,
765 			    nce->nce_ill->ill_ipif, NULL, ALL_ZONES, 0,
766 			    MATCH_IRE_ILL | MATCH_IRE_TYPE | MATCH_IRE_GW |
767 			    MATCH_IRE_DEFAULT);
768 			if (ire != NULL) {
769 				ip_rts_rtmsg(RTM_DELETE, ire, 0);
770 				ire_delete(ire);
771 				ire_refrele(ire);
772 			}
773 			ndp_delete(nce);
774 		}
775 	}
776 }
777 
778 /*
779  * Pass arg1 to the pfi supplied, along with each nce in existence.
780  * ndp_walk() places a REFHOLD on the nce and drops the lock when
781  * walking the hash list.
782  */
783 void
784 ndp_walk_impl(ill_t *ill, pfi_t pfi, uchar_t *arg1, boolean_t trace)
785 {
786 
787 	nce_t	*nce;
788 	nce_t	*nce1;
789 	nce_t	**ncep;
790 	nce_t	*free_nce_list = NULL;
791 
792 	mutex_enter(&ndp_g_lock);
793 	ndp_g_walker++;	/* Prevent ndp_delete from unlink and free of NCE */
794 	mutex_exit(&ndp_g_lock);
795 	for (ncep = nce_hash_tbl; ncep < A_END(nce_hash_tbl); ncep++) {
796 		for (nce = *ncep; nce; nce = nce1) {
797 			nce1 = nce->nce_next;
798 			if (ill == NULL || nce->nce_ill == ill) {
799 				if (trace) {
800 					NCE_REFHOLD(nce);
801 					(*pfi)(nce, arg1);
802 					NCE_REFRELE(nce);
803 				} else {
804 					NCE_REFHOLD_NOTR(nce);
805 					(*pfi)(nce, arg1);
806 					NCE_REFRELE_NOTR(nce);
807 				}
808 			}
809 		}
810 	}
811 	for (nce = nce_mask_entries; nce; nce = nce1) {
812 		nce1 = nce->nce_next;
813 		if (ill == NULL || nce->nce_ill == ill) {
814 			if (trace) {
815 				NCE_REFHOLD(nce);
816 				(*pfi)(nce, arg1);
817 				NCE_REFRELE(nce);
818 			} else {
819 				NCE_REFHOLD_NOTR(nce);
820 				(*pfi)(nce, arg1);
821 				NCE_REFRELE_NOTR(nce);
822 			}
823 		}
824 	}
825 	mutex_enter(&ndp_g_lock);
826 	ndp_g_walker--;
827 	/*
828 	 * While NCE's are removed from global list they are placed
829 	 * in a private list, to be passed to nce_ire_delete_list().
830 	 * The reason is, there may be ires pointing to this nce
831 	 * which needs to cleaned up.
832 	 */
833 	if (ndp_g_walker_cleanup && ndp_g_walker == 0) {
834 		/* Time to delete condemned entries */
835 		for (ncep = nce_hash_tbl; ncep < A_END(nce_hash_tbl); ncep++) {
836 			nce = *ncep;
837 			if (nce != NULL) {
838 				nce_remove(nce, &free_nce_list);
839 			}
840 		}
841 		nce = nce_mask_entries;
842 		if (nce != NULL) {
843 			nce_remove(nce, &free_nce_list);
844 		}
845 		ndp_g_walker_cleanup = B_FALSE;
846 	}
847 	mutex_exit(&ndp_g_lock);
848 
849 	if (free_nce_list != NULL) {
850 		nce_ire_delete_list(free_nce_list);
851 	}
852 }
853 
854 void
855 ndp_walk(ill_t *ill, pfi_t pfi, uchar_t *arg1)
856 {
857 	ndp_walk_impl(ill, pfi, arg1, B_TRUE);
858 }
859 
860 /*
861  * Prepend the zoneid using an ipsec_out_t for later use by functions like
862  * ip_rput_v6() after neighbor discovery has taken place.  If the message
863  * block already has a M_CTL at the front of it, then simply set the zoneid
864  * appropriately.
865  */
866 static mblk_t *
867 ndp_prepend_zone(mblk_t *mp, zoneid_t zoneid)
868 {
869 	mblk_t		*first_mp;
870 	ipsec_out_t	*io;
871 
872 	if (mp->b_datap->db_type == M_CTL) {
873 		io = (ipsec_out_t *)mp->b_rptr;
874 		ASSERT(io->ipsec_out_type == IPSEC_OUT);
875 		io->ipsec_out_zoneid = zoneid;
876 		return (mp);
877 	}
878 
879 	first_mp = ipsec_alloc_ipsec_out();
880 	if (first_mp == NULL)
881 		return (NULL);
882 	io = (ipsec_out_t *)first_mp->b_rptr;
883 	/* This is not a secure packet */
884 	io->ipsec_out_secure = B_FALSE;
885 	io->ipsec_out_zoneid = zoneid;
886 	first_mp->b_cont = mp;
887 	return (first_mp);
888 }
889 
890 /*
891  * Process resolve requests.  Handles both mapped entries
892  * as well as cases that needs to be send out on the wire.
893  * Lookup a NCE for a given IRE.  Regardless of whether one exists
894  * or one is created, we defer making ire point to nce until the
895  * ire is actually added at which point the nce_refcnt on the nce is
896  * incremented.  This is done primarily to have symmetry between ire_add()
897  * and ire_delete() which decrements the nce_refcnt, when an ire is deleted.
898  */
899 int
900 ndp_resolver(ill_t *ill, const in6_addr_t *dst, mblk_t *mp, zoneid_t zoneid)
901 {
902 	nce_t		*nce;
903 	int		err = 0;
904 	uint32_t	ms;
905 	mblk_t		*mp_nce = NULL;
906 
907 	ASSERT(ill != NULL);
908 	if (IN6_IS_ADDR_MULTICAST(dst)) {
909 		err = nce_set_multicast(ill, dst);
910 		return (err);
911 	}
912 	err = ndp_lookup_then_add(ill,
913 	    NULL,	/* No hardware address */
914 	    dst,
915 	    &ipv6_all_ones,
916 	    &ipv6_all_zeros,
917 	    0,
918 	    (ill->ill_flags & ILLF_NONUD) ? NCE_F_NONUD : 0,
919 	    ND_INCOMPLETE,
920 	    &nce);
921 
922 	switch (err) {
923 	case 0:
924 		/*
925 		 * New cache entry was created. Make sure that the state
926 		 * is not ND_INCOMPLETE. It can be in some other state
927 		 * even before we send out the solicitation as we could
928 		 * get un-solicited advertisements.
929 		 *
930 		 * If this is an XRESOLV interface, simply return 0,
931 		 * since we don't want to solicit just yet.
932 		 */
933 		if (ill->ill_flags & ILLF_XRESOLV) {
934 			NCE_REFRELE(nce);
935 			return (0);
936 		}
937 		rw_enter(&ill_g_lock, RW_READER);
938 		mutex_enter(&nce->nce_lock);
939 		if (nce->nce_state != ND_INCOMPLETE) {
940 			mutex_exit(&nce->nce_lock);
941 			rw_exit(&ill_g_lock);
942 			NCE_REFRELE(nce);
943 			return (0);
944 		}
945 		mp_nce = ndp_prepend_zone(mp, zoneid);
946 		if (mp_nce == NULL) {
947 			/* The caller will free mp */
948 			mutex_exit(&nce->nce_lock);
949 			rw_exit(&ill_g_lock);
950 			ndp_delete(nce);
951 			NCE_REFRELE(nce);
952 			return (ENOMEM);
953 		}
954 		ms = nce_solicit(nce, mp_nce);
955 		rw_exit(&ill_g_lock);
956 		if (ms == 0) {
957 			/* The caller will free mp */
958 			if (mp_nce != mp)
959 				freeb(mp_nce);
960 			mutex_exit(&nce->nce_lock);
961 			ndp_delete(nce);
962 			NCE_REFRELE(nce);
963 			return (EBUSY);
964 		}
965 		mutex_exit(&nce->nce_lock);
966 		NDP_RESTART_TIMER(nce, (clock_t)ms);
967 		NCE_REFRELE(nce);
968 		return (EINPROGRESS);
969 	case EEXIST:
970 		/* Resolution in progress just queue the packet */
971 		mutex_enter(&nce->nce_lock);
972 		if (nce->nce_state == ND_INCOMPLETE) {
973 			mp_nce = ndp_prepend_zone(mp, zoneid);
974 			if (mp_nce == NULL) {
975 				err = ENOMEM;
976 			} else {
977 				nce_queue_mp(nce, mp_nce);
978 				err = EINPROGRESS;
979 			}
980 		} else {
981 			/*
982 			 * Any other state implies we have
983 			 * a nce but IRE needs to be added ...
984 			 * ire_add_v6() will take care of the
985 			 * the case when the nce becomes CONDEMNED
986 			 * before the ire is added to the table.
987 			 */
988 			err = 0;
989 		}
990 		mutex_exit(&nce->nce_lock);
991 		NCE_REFRELE(nce);
992 		break;
993 	default:
994 		ip1dbg(("ndp_resolver: Can't create NCE %d\n", err));
995 		break;
996 	}
997 	return (err);
998 }
999 
1000 /*
1001  * When there is no resolver, the link layer template is passed in
1002  * the IRE.
1003  * Lookup a NCE for a given IRE.  Regardless of whether one exists
1004  * or one is created, we defer making ire point to nce until the
1005  * ire is actually added at which point the nce_refcnt on the nce is
1006  * incremented.  This is done primarily to have symmetry between ire_add()
1007  * and ire_delete() which decrements the nce_refcnt, when an ire is deleted.
1008  */
1009 int
1010 ndp_noresolver(ill_t *ill, const in6_addr_t *dst)
1011 {
1012 	nce_t		*nce;
1013 	int		err = 0;
1014 
1015 	ASSERT(ill != NULL);
1016 	if (IN6_IS_ADDR_MULTICAST(dst)) {
1017 		err = nce_set_multicast(ill, dst);
1018 		return (err);
1019 	}
1020 
1021 	err = ndp_lookup_then_add(ill,
1022 	    NULL,	/* hardware address */
1023 	    dst,
1024 	    &ipv6_all_ones,
1025 	    &ipv6_all_zeros,
1026 	    0,
1027 	    (ill->ill_flags & ILLF_NONUD) ? NCE_F_NONUD : 0,
1028 	    ND_REACHABLE,
1029 	    &nce);
1030 
1031 	switch (err) {
1032 	case 0:
1033 		/*
1034 		 * Cache entry with a proper resolver cookie was
1035 		 * created.
1036 		 */
1037 		NCE_REFRELE(nce);
1038 		break;
1039 	case EEXIST:
1040 		err = 0;
1041 		NCE_REFRELE(nce);
1042 		break;
1043 	default:
1044 		ip1dbg(("ndp_noresolver: Can't create NCE %d\n", err));
1045 		break;
1046 	}
1047 	return (err);
1048 }
1049 
1050 /*
1051  * For each interface an entry is added for the unspecified multicast group.
1052  * Here that mapping is used to form the multicast cache entry for a particular
1053  * multicast destination.
1054  */
1055 static int
1056 nce_set_multicast(ill_t *ill, const in6_addr_t *dst)
1057 {
1058 	nce_t		*mnce;	/* Multicast mapping entry */
1059 	nce_t		*nce;
1060 	uchar_t		*hw_addr = NULL;
1061 	int		err = 0;
1062 
1063 	ASSERT(ill != NULL);
1064 	ASSERT(!(IN6_IS_ADDR_UNSPECIFIED(dst)));
1065 
1066 	mutex_enter(&ndp_g_lock);
1067 	nce = nce_lookup_addr(ill, dst);
1068 	if (nce != NULL) {
1069 		mutex_exit(&ndp_g_lock);
1070 		NCE_REFRELE(nce);
1071 		return (0);
1072 	}
1073 	/* No entry, now lookup for a mapping this should never fail */
1074 	mnce = nce_lookup_mapping(ill, dst);
1075 	if (mnce == NULL) {
1076 		/* Something broken for the interface. */
1077 		mutex_exit(&ndp_g_lock);
1078 		return (ESRCH);
1079 	}
1080 	ASSERT(mnce->nce_flags & NCE_F_MAPPING);
1081 	if (ill->ill_net_type == IRE_IF_RESOLVER) {
1082 		/*
1083 		 * For IRE_IF_RESOLVER a hardware mapping can be
1084 		 * generated, for IRE_IF_NORESOLVER, resolution cookie
1085 		 * in the ill is copied in ndp_add().
1086 		 */
1087 		hw_addr = kmem_alloc(ill->ill_nd_lla_len, KM_NOSLEEP);
1088 		if (hw_addr == NULL) {
1089 			mutex_exit(&ndp_g_lock);
1090 			NCE_REFRELE(mnce);
1091 			return (ENOMEM);
1092 		}
1093 		nce_make_mapping(mnce, hw_addr, (uchar_t *)dst);
1094 	}
1095 	NCE_REFRELE(mnce);
1096 	/*
1097 	 * IRE_IF_NORESOLVER type simply copies the resolution
1098 	 * cookie passed in.  So no hw_addr is needed.
1099 	 */
1100 	err = ndp_add(ill,
1101 	    hw_addr,
1102 	    dst,
1103 	    &ipv6_all_ones,
1104 	    &ipv6_all_zeros,
1105 	    0,
1106 	    NCE_F_NONUD,
1107 	    ND_REACHABLE,
1108 	    &nce);
1109 	mutex_exit(&ndp_g_lock);
1110 	if (hw_addr != NULL)
1111 		kmem_free(hw_addr, ill->ill_nd_lla_len);
1112 	if (err != 0) {
1113 		ip1dbg(("nce_set_multicast: create failed" "%d\n", err));
1114 		return (err);
1115 	}
1116 	NCE_REFRELE(nce);
1117 	return (0);
1118 }
1119 
1120 /*
1121  * Return the link layer address, and any flags of a nce.
1122  */
1123 int
1124 ndp_query(ill_t *ill, struct lif_nd_req *lnr)
1125 {
1126 	nce_t		*nce;
1127 	in6_addr_t	*addr;
1128 	sin6_t		*sin6;
1129 	dl_unitdata_req_t	*dl;
1130 
1131 	ASSERT(ill != NULL);
1132 	sin6 = (sin6_t *)&lnr->lnr_addr;
1133 	addr =  &sin6->sin6_addr;
1134 
1135 	nce = ndp_lookup(ill, addr, B_FALSE);
1136 	if (nce == NULL)
1137 		return (ESRCH);
1138 	/* If in INCOMPLETE state, no link layer address is available yet */
1139 	if (nce->nce_state == ND_INCOMPLETE)
1140 		goto done;
1141 	dl = (dl_unitdata_req_t *)nce->nce_res_mp->b_rptr;
1142 	if (ill->ill_flags & ILLF_XRESOLV)
1143 		lnr->lnr_hdw_len = dl->dl_dest_addr_length;
1144 	else
1145 		lnr->lnr_hdw_len = ill->ill_nd_lla_len;
1146 	ASSERT(NCE_LL_ADDR_OFFSET(ill) + lnr->lnr_hdw_len <=
1147 	    sizeof (lnr->lnr_hdw_addr));
1148 	bcopy(nce->nce_res_mp->b_rptr + NCE_LL_ADDR_OFFSET(ill),
1149 	    (uchar_t *)&lnr->lnr_hdw_addr, lnr->lnr_hdw_len);
1150 	if (nce->nce_flags & NCE_F_ISROUTER)
1151 		lnr->lnr_flags = NDF_ISROUTER_ON;
1152 	if (nce->nce_flags & NCE_F_PROXY)
1153 		lnr->lnr_flags |= NDF_PROXY_ON;
1154 	if (nce->nce_flags & NCE_F_ANYCAST)
1155 		lnr->lnr_flags |= NDF_ANYCAST_ON;
1156 done:
1157 	NCE_REFRELE(nce);
1158 	return (0);
1159 }
1160 
1161 /*
1162  * Send Enable/Disable multicast reqs to driver.
1163  */
1164 int
1165 ndp_mcastreq(ill_t *ill, const in6_addr_t *addr, uint32_t hw_addr_len,
1166     uint32_t hw_addr_offset, mblk_t *mp)
1167 {
1168 	nce_t		*nce;
1169 	uchar_t		*hw_addr;
1170 
1171 	ASSERT(ill != NULL);
1172 	ASSERT(ill->ill_net_type == IRE_IF_RESOLVER);
1173 	hw_addr = mi_offset_paramc(mp, hw_addr_offset, hw_addr_len);
1174 	if (hw_addr == NULL || !IN6_IS_ADDR_MULTICAST(addr)) {
1175 		freemsg(mp);
1176 		return (EINVAL);
1177 	}
1178 	mutex_enter(&ndp_g_lock);
1179 	nce = nce_lookup_mapping(ill, addr);
1180 	if (nce == NULL) {
1181 		mutex_exit(&ndp_g_lock);
1182 		freemsg(mp);
1183 		return (ESRCH);
1184 	}
1185 	mutex_exit(&ndp_g_lock);
1186 	/*
1187 	 * Update dl_addr_length and dl_addr_offset for primitives that
1188 	 * have physical addresses as opposed to full saps
1189 	 */
1190 	switch (((union DL_primitives *)mp->b_rptr)->dl_primitive) {
1191 	case DL_ENABMULTI_REQ:
1192 		/* Track the state if this is the first enabmulti */
1193 		if (ill->ill_dlpi_multicast_state == IDMS_UNKNOWN)
1194 			ill->ill_dlpi_multicast_state = IDMS_INPROGRESS;
1195 		ip1dbg(("ndp_mcastreq: ENABMULTI\n"));
1196 		break;
1197 	case DL_DISABMULTI_REQ:
1198 		ip1dbg(("ndp_mcastreq: DISABMULTI\n"));
1199 		break;
1200 	default:
1201 		NCE_REFRELE(nce);
1202 		ip1dbg(("ndp_mcastreq: default\n"));
1203 		return (EINVAL);
1204 	}
1205 	nce_make_mapping(nce, hw_addr, (uchar_t *)addr);
1206 	NCE_REFRELE(nce);
1207 	putnext(ill->ill_wq, mp);
1208 	return (0);
1209 }
1210 
1211 /*
1212  * Send a neighbor solicitation.
1213  * Returns number of milliseconds after which we should either rexmit or abort.
1214  * Return of zero means we should abort.
1215  * The caller holds the nce_lock to protect nce_qd_mp and nce_rcnt.
1216  *
1217  * NOTE: This routine drops nce_lock (and later reacquires it) when sending
1218  * the packet.
1219  * NOTE: This routine does not consume mp.
1220  */
1221 uint32_t
1222 nce_solicit(nce_t *nce, mblk_t *mp)
1223 {
1224 	ill_t		*ill;
1225 	ill_t		*src_ill;
1226 	ip6_t		*ip6h;
1227 	in6_addr_t	src;
1228 	in6_addr_t	dst;
1229 	ipif_t		*ipif;
1230 	ip6i_t		*ip6i;
1231 	boolean_t	dropped = B_FALSE;
1232 
1233 	ASSERT(RW_READ_HELD(&ill_g_lock));
1234 	ASSERT(MUTEX_HELD(&nce->nce_lock));
1235 	ill = nce->nce_ill;
1236 	ASSERT(ill != NULL);
1237 
1238 	if (nce->nce_rcnt == 0) {
1239 		return (0);
1240 	}
1241 
1242 	if (mp == NULL) {
1243 		ASSERT(nce->nce_qd_mp != NULL);
1244 		mp = nce->nce_qd_mp;
1245 	} else {
1246 		nce_queue_mp(nce, mp);
1247 	}
1248 
1249 	/* Handle ip_newroute_v6 giving us IPSEC packets */
1250 	if (mp->b_datap->db_type == M_CTL)
1251 		mp = mp->b_cont;
1252 
1253 	ip6h = (ip6_t *)mp->b_rptr;
1254 	if (ip6h->ip6_nxt == IPPROTO_RAW) {
1255 		/*
1256 		 * This message should have been pulled up already in
1257 		 * ip_wput_v6. We can't do pullups here because the message
1258 		 * could be from the nce_qd_mp which could have b_next/b_prev
1259 		 * non-NULL.
1260 		 */
1261 		ip6i = (ip6i_t *)ip6h;
1262 		ASSERT((mp->b_wptr - (uchar_t *)ip6i) >=
1263 			    sizeof (ip6i_t) + IPV6_HDR_LEN);
1264 		ip6h = (ip6_t *)(mp->b_rptr + sizeof (ip6i_t));
1265 	}
1266 	src = ip6h->ip6_src;
1267 	/*
1268 	 * If the src of outgoing packet is one of the assigned interface
1269 	 * addresses use it, otherwise we will pick the source address below.
1270 	 */
1271 	src_ill = ill;
1272 	if (!IN6_IS_ADDR_UNSPECIFIED(&src)) {
1273 		if (ill->ill_group != NULL)
1274 			src_ill = ill->ill_group->illgrp_ill;
1275 		for (; src_ill != NULL; src_ill = src_ill->ill_group_next) {
1276 			for (ipif = src_ill->ill_ipif; ipif != NULL;
1277 			    ipif = ipif->ipif_next) {
1278 				if (IN6_ARE_ADDR_EQUAL(&src,
1279 				    &ipif->ipif_v6lcl_addr)) {
1280 					break;
1281 				}
1282 			}
1283 			if (ipif != NULL)
1284 				break;
1285 		}
1286 		if (src_ill == NULL) {
1287 			/* May be a forwarding packet */
1288 			src_ill = ill;
1289 			src = ipv6_all_zeros;
1290 		}
1291 	}
1292 	dst = nce->nce_addr;
1293 	/*
1294 	 * If source address is unspecified, nce_xmit will choose
1295 	 * one for us and initialize the hardware address also
1296 	 * appropriately.
1297 	 */
1298 	if (IN6_IS_ADDR_UNSPECIFIED(&src))
1299 		src_ill  = NULL;
1300 	nce->nce_rcnt--;
1301 	mutex_exit(&nce->nce_lock);
1302 	rw_exit(&ill_g_lock);
1303 	dropped = nce_xmit(ill, ND_NEIGHBOR_SOLICIT, src_ill, B_TRUE, &src,
1304 	    &dst, 0);
1305 	rw_enter(&ill_g_lock, RW_READER);
1306 	mutex_enter(&nce->nce_lock);
1307 	if (dropped)
1308 		nce->nce_rcnt++;
1309 	return (ill->ill_reachable_retrans_time);
1310 }
1311 
1312 void
1313 ndp_input_solicit(ill_t *ill, mblk_t *mp)
1314 {
1315 	nd_neighbor_solicit_t *ns;
1316 	uint32_t	hlen = ill->ill_nd_lla_len;
1317 	uchar_t		*haddr = NULL;
1318 	icmp6_t		*icmp_nd;
1319 	ip6_t		*ip6h;
1320 	nce_t		*our_nce = NULL;
1321 	in6_addr_t	target;
1322 	in6_addr_t	src;
1323 	int		len;
1324 	int		flag = 0;
1325 	nd_opt_hdr_t	*opt = NULL;
1326 	boolean_t	bad_solicit = B_FALSE;
1327 	mib2_ipv6IfIcmpEntry_t	*mib = ill->ill_icmp6_mib;
1328 
1329 	ip6h = (ip6_t *)mp->b_rptr;
1330 	icmp_nd = (icmp6_t *)(mp->b_rptr + IPV6_HDR_LEN);
1331 	len = mp->b_wptr - mp->b_rptr - IPV6_HDR_LEN;
1332 	src = ip6h->ip6_src;
1333 	ns = (nd_neighbor_solicit_t *)icmp_nd;
1334 	target = ns->nd_ns_target;
1335 	if (IN6_IS_ADDR_MULTICAST(&target)) {
1336 		if (ip_debug > 2) {
1337 			/* ip1dbg */
1338 			pr_addr_dbg("ndp_input_solicit: Target is"
1339 			    " multicast! %s\n", AF_INET6, &target);
1340 		}
1341 		bad_solicit = B_TRUE;
1342 		goto done;
1343 	}
1344 	if (len > sizeof (nd_neighbor_solicit_t)) {
1345 		/* Options present */
1346 		opt = (nd_opt_hdr_t *)&ns[1];
1347 		len -= sizeof (nd_neighbor_solicit_t);
1348 		if (!ndp_verify_optlen(opt, len)) {
1349 			ip1dbg(("ndp_input_solicit: Bad opt len\n"));
1350 			bad_solicit = B_TRUE;
1351 			goto done;
1352 		}
1353 	}
1354 	if (IN6_IS_ADDR_UNSPECIFIED(&src)) {
1355 		/* Check to see if this is a valid DAD solicitation */
1356 		if (!IN6_IS_ADDR_MC_SOLICITEDNODE(&ip6h->ip6_dst)) {
1357 			if (ip_debug > 2) {
1358 				/* ip1dbg */
1359 				pr_addr_dbg("ndp_input_solicit: IPv6 "
1360 				    "Destination is not solicited node "
1361 				    "multicast %s\n", AF_INET6,
1362 				    &ip6h->ip6_dst);
1363 			}
1364 			bad_solicit = B_TRUE;
1365 			goto done;
1366 		}
1367 	}
1368 
1369 	our_nce = ndp_lookup(ill, &target, B_FALSE);
1370 	/*
1371 	 * If this is a valid Solicitation, a permanent
1372 	 * entry should exist in the cache
1373 	 */
1374 	if (our_nce == NULL ||
1375 	    !(our_nce->nce_flags & NCE_F_PERMANENT)) {
1376 		ip1dbg(("ndp_input_solicit: Wrong target in NS?!"
1377 		    "ifname=%s ", ill->ill_name));
1378 		if (ip_debug > 2) {
1379 			/* ip1dbg */
1380 			pr_addr_dbg(" dst %s\n", AF_INET6, &target);
1381 		}
1382 		bad_solicit = B_TRUE;
1383 		goto done;
1384 	}
1385 
1386 	/* At this point we should have a verified NS per spec */
1387 	if (opt != NULL) {
1388 		opt = ndp_get_option(opt, len, ND_OPT_SOURCE_LINKADDR);
1389 		if (opt != NULL) {
1390 			/*
1391 			 * No source link layer address option should
1392 			 * be present in a valid DAD request.
1393 			 */
1394 			if (IN6_IS_ADDR_UNSPECIFIED(&src)) {
1395 				ip1dbg(("ndp_input_solicit: source link-layer "
1396 				    "address option present with an "
1397 				    "unspecified source. \n"));
1398 				bad_solicit = B_TRUE;
1399 				goto done;
1400 			}
1401 			haddr = (uchar_t *)&opt[1];
1402 			if (hlen > opt->nd_opt_len * 8 ||
1403 			    hlen == 0) {
1404 				bad_solicit = B_TRUE;
1405 				goto done;
1406 			}
1407 		}
1408 	}
1409 	/*
1410 	 * haddr can be NULL if no options are present,
1411 	 * or no Source link layer address is present in,
1412 	 * recvd NDP options of solicitation message.
1413 	 */
1414 	if (haddr == NULL) {
1415 		nce_t   *nnce;
1416 		mutex_enter(&ndp_g_lock);
1417 		nnce = nce_lookup_addr(ill, &src);
1418 		mutex_exit(&ndp_g_lock);
1419 
1420 		if (nnce == NULL) {
1421 			in6_addr_t dst = ipv6_solicited_node_mcast;
1422 
1423 			/* Form solicited node multicast address */
1424 			dst.s6_addr32[3] |= src.s6_addr32[3];
1425 			(void) nce_xmit(ill,
1426 				ND_NEIGHBOR_SOLICIT,
1427 				ill,
1428 				B_TRUE,
1429 				&target,
1430 				&dst,
1431 				flag);
1432 			bad_solicit = B_TRUE;
1433 			goto done;
1434 		}
1435 	}
1436 	/* Set override flag, it will be reset later if need be. */
1437 	flag |= NDP_ORIDE;
1438 	if (!IN6_IS_ADDR_MULTICAST(&ip6h->ip6_dst)) {
1439 		flag |= NDP_UNICAST;
1440 	}
1441 
1442 	/*
1443 	 * Create/update the entry for the soliciting node.
1444 	 * or respond to outstanding queries, don't if
1445 	 * the source is unspecified address.
1446 	 */
1447 	if (!IN6_IS_ADDR_UNSPECIFIED(&src)) {
1448 		int	err = 0;
1449 		nce_t	*nnce;
1450 
1451 		err = ndp_lookup_then_add(ill,
1452 		    haddr,
1453 		    &src,	/* Soliciting nodes address */
1454 		    &ipv6_all_ones,
1455 		    &ipv6_all_zeros,
1456 		    0,
1457 		    0,
1458 		    ND_STALE,
1459 		    &nnce);
1460 		switch (err) {
1461 		case 0:
1462 			/* done with this entry */
1463 			NCE_REFRELE(nnce);
1464 			break;
1465 		case EEXIST:
1466 			/*
1467 			 * B_FALSE indicates this is not an
1468 			 * an advertisement.
1469 			 */
1470 			ndp_process(nnce, haddr, 0, B_FALSE);
1471 			NCE_REFRELE(nnce);
1472 			break;
1473 		default:
1474 			ip1dbg(("ndp_input_solicit: Can't create NCE %d\n",
1475 			    err));
1476 			goto done;
1477 		}
1478 		flag |= NDP_SOLICITED;
1479 	} else {
1480 		/*
1481 		 * This is a DAD req, multicast the advertisement
1482 		 * to the all-nodes address.
1483 		 */
1484 		src = ipv6_all_hosts_mcast;
1485 	}
1486 	if (our_nce->nce_flags & NCE_F_ISROUTER)
1487 		flag |= NDP_ISROUTER;
1488 	if (our_nce->nce_flags & NCE_F_PROXY)
1489 		flag &= ~NDP_ORIDE;
1490 	/* Response to a solicitation */
1491 	(void) nce_xmit(ill,
1492 	    ND_NEIGHBOR_ADVERT,
1493 	    ill,	/* ill to be used for extracting ill_nd_lla */
1494 	    B_TRUE,	/* use ill_nd_lla */
1495 	    &target,	/* Source and target of the advertisement pkt */
1496 	    &src,	/* IP Destination (source of original pkt) */
1497 	    flag);
1498 done:
1499 	if (bad_solicit)
1500 		BUMP_MIB(mib, ipv6IfIcmpInBadNeighborSolicitations);
1501 	if (our_nce != NULL)
1502 		NCE_REFRELE(our_nce);
1503 }
1504 
1505 void
1506 ndp_input_advert(ill_t *ill, mblk_t *mp)
1507 {
1508 	nd_neighbor_advert_t *na;
1509 	uint32_t	hlen = ill->ill_nd_lla_len;
1510 	uchar_t		*haddr = NULL;
1511 	icmp6_t		*icmp_nd;
1512 	ip6_t		*ip6h;
1513 	nce_t		*dst_nce = NULL;
1514 	in6_addr_t	target;
1515 	nd_opt_hdr_t	*opt = NULL;
1516 	int		len;
1517 	mib2_ipv6IfIcmpEntry_t	*mib = ill->ill_icmp6_mib;
1518 
1519 	ip6h = (ip6_t *)mp->b_rptr;
1520 	icmp_nd = (icmp6_t *)(mp->b_rptr + IPV6_HDR_LEN);
1521 	len = mp->b_wptr - mp->b_rptr - IPV6_HDR_LEN;
1522 	na = (nd_neighbor_advert_t *)icmp_nd;
1523 	if (IN6_IS_ADDR_MULTICAST(&ip6h->ip6_dst) &&
1524 	    (na->nd_na_flags_reserved & ND_NA_FLAG_SOLICITED)) {
1525 		ip1dbg(("ndp_input_advert: Target is multicast but the "
1526 		    "solicited flag is not zero\n"));
1527 		BUMP_MIB(mib, ipv6IfIcmpInBadNeighborAdvertisements);
1528 		return;
1529 	}
1530 	target = na->nd_na_target;
1531 	if (IN6_IS_ADDR_MULTICAST(&target)) {
1532 		ip1dbg(("ndp_input_advert: Target is multicast!\n"));
1533 		BUMP_MIB(mib, ipv6IfIcmpInBadNeighborAdvertisements);
1534 		return;
1535 	}
1536 	if (len > sizeof (nd_neighbor_advert_t)) {
1537 		opt = (nd_opt_hdr_t *)&na[1];
1538 		if (!ndp_verify_optlen(opt,
1539 		    len - sizeof (nd_neighbor_advert_t))) {
1540 			BUMP_MIB(mib, ipv6IfIcmpInBadNeighborAdvertisements);
1541 			return;
1542 		}
1543 		/* At this point we have a verified NA per spec */
1544 		len -= sizeof (nd_neighbor_advert_t);
1545 		opt = ndp_get_option(opt, len, ND_OPT_TARGET_LINKADDR);
1546 		if (opt != NULL) {
1547 			haddr = (uchar_t *)&opt[1];
1548 			if (hlen > opt->nd_opt_len * 8 ||
1549 			    hlen == 0) {
1550 				BUMP_MIB(mib,
1551 				    ipv6IfIcmpInBadNeighborAdvertisements);
1552 				return;
1553 			}
1554 		}
1555 	}
1556 
1557 	/*
1558 	 * If this interface is part of the group look at all the
1559 	 * ills in the group.
1560 	 */
1561 	rw_enter(&ill_g_lock, RW_READER);
1562 	if (ill->ill_group != NULL)
1563 		ill = ill->ill_group->illgrp_ill;
1564 
1565 	for (; ill != NULL; ill = ill->ill_group_next) {
1566 		mutex_enter(&ill->ill_lock);
1567 		if (!ILL_CAN_LOOKUP(ill)) {
1568 			mutex_exit(&ill->ill_lock);
1569 			continue;
1570 		}
1571 		ill_refhold_locked(ill);
1572 		mutex_exit(&ill->ill_lock);
1573 		dst_nce = ndp_lookup(ill, &target, B_FALSE);
1574 		/* We have to drop the lock since ndp_process calls put* */
1575 		rw_exit(&ill_g_lock);
1576 		if (dst_nce != NULL) {
1577 			if (na->nd_na_flags_reserved &
1578 			    ND_NA_FLAG_ROUTER) {
1579 				dst_nce->nce_flags |= NCE_F_ISROUTER;
1580 			}
1581 			/* B_TRUE indicates this an advertisement */
1582 			ndp_process(dst_nce, haddr,
1583 				na->nd_na_flags_reserved, B_TRUE);
1584 			NCE_REFRELE(dst_nce);
1585 		}
1586 		rw_enter(&ill_g_lock, RW_READER);
1587 		ill_refrele(ill);
1588 	}
1589 	rw_exit(&ill_g_lock);
1590 }
1591 
1592 /*
1593  * Process NDP neighbor solicitation/advertisement messages.
1594  * The checksum has already checked o.k before reaching here.
1595  */
1596 void
1597 ndp_input(ill_t *ill, mblk_t *mp)
1598 {
1599 	icmp6_t		*icmp_nd;
1600 	ip6_t		*ip6h;
1601 	int		len;
1602 	mib2_ipv6IfIcmpEntry_t	*mib = ill->ill_icmp6_mib;
1603 
1604 
1605 	if (!pullupmsg(mp, -1)) {
1606 		ip1dbg(("ndp_input: pullupmsg failed\n"));
1607 		BUMP_MIB(ill->ill_ip6_mib, ipv6InDiscards);
1608 		goto done;
1609 	}
1610 	ip6h = (ip6_t *)mp->b_rptr;
1611 	if (ip6h->ip6_hops != IPV6_MAX_HOPS) {
1612 		ip1dbg(("ndp_input: hoplimit != IPV6_MAX_HOPS\n"));
1613 		BUMP_MIB(mib, ipv6IfIcmpBadHoplimit);
1614 		goto done;
1615 	}
1616 	/*
1617 	 * NDP does not accept any extension headers between the
1618 	 * IP header and the ICMP header since e.g. a routing
1619 	 * header could be dangerous.
1620 	 * This assumes that any AH or ESP headers are removed
1621 	 * by ip prior to passing the packet to ndp_input.
1622 	 */
1623 	if (ip6h->ip6_nxt != IPPROTO_ICMPV6) {
1624 		ip1dbg(("ndp_input: Wrong next header 0x%x\n",
1625 		    ip6h->ip6_nxt));
1626 		BUMP_MIB(mib, ipv6IfIcmpInErrors);
1627 		goto done;
1628 	}
1629 	icmp_nd = (icmp6_t *)(mp->b_rptr + IPV6_HDR_LEN);
1630 	ASSERT(icmp_nd->icmp6_type == ND_NEIGHBOR_SOLICIT ||
1631 	    icmp_nd->icmp6_type == ND_NEIGHBOR_ADVERT);
1632 	if (icmp_nd->icmp6_code != 0) {
1633 		ip1dbg(("ndp_input: icmp6 code != 0 \n"));
1634 		BUMP_MIB(mib, ipv6IfIcmpInErrors);
1635 		goto done;
1636 	}
1637 	len = mp->b_wptr - mp->b_rptr - IPV6_HDR_LEN;
1638 	/*
1639 	 * Make sure packet length is large enough for either
1640 	 * a NS or a NA icmp packet.
1641 	 */
1642 	if (len <  sizeof (struct icmp6_hdr) + sizeof (struct in6_addr)) {
1643 		ip1dbg(("ndp_input: packet too short\n"));
1644 		BUMP_MIB(mib, ipv6IfIcmpInErrors);
1645 		goto done;
1646 	}
1647 	if (icmp_nd->icmp6_type == ND_NEIGHBOR_SOLICIT) {
1648 		ndp_input_solicit(ill, mp);
1649 	} else {
1650 		ndp_input_advert(ill, mp);
1651 	}
1652 done:
1653 	freemsg(mp);
1654 }
1655 
1656 /*
1657  * nce_xmit is called to form and transmit a ND solicitation or
1658  * advertisement ICMP packet.
1659  * If source address is unspecified, appropriate source address
1660  * and link layer address will be chosen here. This function
1661  * *always* sends the link layer option.
1662  * It returns B_FALSE only if it does a successful put() to the
1663  * corresponding ill's ill_wq otherwise returns B_TRUE.
1664  */
1665 static boolean_t
1666 nce_xmit(ill_t *ill, uint32_t operation, ill_t *hwaddr_ill,
1667     boolean_t use_nd_lla, const in6_addr_t *sender, const in6_addr_t *target,
1668     int flag)
1669 {
1670 	uint32_t	len;
1671 	icmp6_t 	*icmp6;
1672 	mblk_t		*mp;
1673 	ip6_t		*ip6h;
1674 	nd_opt_hdr_t	*opt;
1675 	uint_t		plen;
1676 	ip6i_t		*ip6i;
1677 	ipif_t		*src_ipif = NULL;
1678 
1679 	/*
1680 	 * If we have a unspecified source(sender) address, select a
1681 	 * proper source address for the solicitation here itself so
1682 	 * that we can initialize the h/w address correctly. This is
1683 	 * needed for interface groups as source address can come from
1684 	 * the whole group and the h/w address initialized from ill will
1685 	 * be wrong if the source address comes from a different ill.
1686 	 *
1687 	 * Note that the NA never comes here with the unspecified source
1688 	 * address. The following asserts that whenever the source
1689 	 * address is specified, the haddr also should be specified.
1690 	 */
1691 	ASSERT(IN6_IS_ADDR_UNSPECIFIED(sender) || (hwaddr_ill != NULL));
1692 
1693 	if (IN6_IS_ADDR_UNSPECIFIED(sender)) {
1694 		ASSERT(operation != ND_NEIGHBOR_ADVERT);
1695 		/*
1696 		 * Pick a source address for this solicitation, but
1697 		 * restrict the selection to addresses assigned to the
1698 		 * output interface (or interface group).  We do this
1699 		 * because the destination will create a neighbor cache
1700 		 * entry for the source address of this packet, so the
1701 		 * source address had better be a valid neighbor.
1702 		 */
1703 		src_ipif = ipif_select_source_v6(ill, target, B_TRUE,
1704 		    IPV6_PREFER_SRC_DEFAULT, GLOBAL_ZONEID);
1705 		if (src_ipif == NULL) {
1706 			char buf[INET6_ADDRSTRLEN];
1707 
1708 			ip0dbg(("nce_xmit: No source ipif for dst %s\n",
1709 			    inet_ntop(AF_INET6, (char *)target, buf,
1710 			    sizeof (buf))));
1711 			return (B_TRUE);
1712 		}
1713 		sender = &src_ipif->ipif_v6src_addr;
1714 		hwaddr_ill = src_ipif->ipif_ill;
1715 	}
1716 
1717 	plen = (sizeof (nd_opt_hdr_t) + ill->ill_nd_lla_len + 7)/8;
1718 	/*
1719 	 * Always make sure that the NS/NA packets don't get load
1720 	 * spread. This is needed so that the probe packets sent
1721 	 * by the in.mpathd daemon can really go out on the desired
1722 	 * interface. Probe packets are made to go out on a desired
1723 	 * interface by including a ip6i with ATTACH_IF flag. As these
1724 	 * packets indirectly end up sending/receiving NS/NA packets
1725 	 * (neighbor doing NUD), we have to make sure that NA
1726 	 * also go out on the same interface.
1727 	 */
1728 	len = IPV6_HDR_LEN + sizeof (ip6i_t) + sizeof (nd_neighbor_advert_t) +
1729 	    plen * 8;
1730 	mp = allocb(len,  BPRI_LO);
1731 	if (mp == NULL) {
1732 		if (src_ipif != NULL)
1733 			ipif_refrele(src_ipif);
1734 		return (B_TRUE);
1735 	}
1736 	bzero((char *)mp->b_rptr, len);
1737 	mp->b_wptr = mp->b_rptr + len;
1738 
1739 	ip6i = (ip6i_t *)mp->b_rptr;
1740 	ip6i->ip6i_vcf = IPV6_DEFAULT_VERS_AND_FLOW;
1741 	ip6i->ip6i_nxt = IPPROTO_RAW;
1742 	ip6i->ip6i_flags = IP6I_ATTACH_IF | IP6I_HOPLIMIT;
1743 	ip6i->ip6i_ifindex = ill->ill_phyint->phyint_ifindex;
1744 
1745 	ip6h = (ip6_t *)(mp->b_rptr + sizeof (ip6i_t));
1746 	ip6h->ip6_vcf = IPV6_DEFAULT_VERS_AND_FLOW;
1747 	ip6h->ip6_plen = htons(len - IPV6_HDR_LEN - sizeof (ip6i_t));
1748 	ip6h->ip6_nxt = IPPROTO_ICMPV6;
1749 	ip6h->ip6_hops = IPV6_MAX_HOPS;
1750 	ip6h->ip6_dst = *target;
1751 	icmp6 = (icmp6_t *)&ip6h[1];
1752 
1753 	opt = (nd_opt_hdr_t *)((uint8_t *)ip6h + IPV6_HDR_LEN +
1754 	    sizeof (nd_neighbor_advert_t));
1755 
1756 	if (operation == ND_NEIGHBOR_SOLICIT) {
1757 		nd_neighbor_solicit_t *ns = (nd_neighbor_solicit_t *)icmp6;
1758 
1759 		opt->nd_opt_type = ND_OPT_SOURCE_LINKADDR;
1760 		ip6h->ip6_src = *sender;
1761 		ns->nd_ns_target = *target;
1762 		if (!(flag & NDP_UNICAST)) {
1763 			/* Form multicast address of the target */
1764 			ip6h->ip6_dst = ipv6_solicited_node_mcast;
1765 			ip6h->ip6_dst.s6_addr32[3] |=
1766 			    ns->nd_ns_target.s6_addr32[3];
1767 		}
1768 	} else {
1769 		nd_neighbor_advert_t *na = (nd_neighbor_advert_t *)icmp6;
1770 
1771 		opt->nd_opt_type = ND_OPT_TARGET_LINKADDR;
1772 		ip6h->ip6_src = *sender;
1773 		na->nd_na_target = *sender;
1774 		if (flag & NDP_ISROUTER)
1775 			na->nd_na_flags_reserved |= ND_NA_FLAG_ROUTER;
1776 		if (flag & NDP_SOLICITED)
1777 			na->nd_na_flags_reserved |= ND_NA_FLAG_SOLICITED;
1778 		if (flag & NDP_ORIDE)
1779 			na->nd_na_flags_reserved |= ND_NA_FLAG_OVERRIDE;
1780 
1781 	}
1782 	/* Fill in link layer address and option len */
1783 	opt->nd_opt_len = (uint8_t)plen;
1784 	mutex_enter(&hwaddr_ill->ill_lock);
1785 	bcopy(use_nd_lla ? hwaddr_ill->ill_nd_lla : hwaddr_ill->ill_phys_addr,
1786 	    &opt[1], hwaddr_ill->ill_nd_lla_len);
1787 	mutex_exit(&hwaddr_ill->ill_lock);
1788 	icmp6->icmp6_type = (uint8_t)operation;
1789 	icmp6->icmp6_code = 0;
1790 	/*
1791 	 * Prepare for checksum by putting icmp length in the icmp
1792 	 * checksum field. The checksum is calculated in ip_wput_v6.
1793 	 */
1794 	icmp6->icmp6_cksum = ip6h->ip6_plen;
1795 
1796 	if (src_ipif != NULL)
1797 		ipif_refrele(src_ipif);
1798 	if (canput(ill->ill_wq)) {
1799 		put(ill->ill_wq, mp);
1800 		return (B_FALSE);
1801 	}
1802 	freemsg(mp);
1803 	return (B_TRUE);
1804 }
1805 
1806 /*
1807  * Make a link layer address (does not include the SAP) from an nce.
1808  * To form the link layer address, use the last four bytes of ipv6
1809  * address passed in and the fixed offset stored in nce.
1810  */
1811 static void
1812 nce_make_mapping(nce_t *nce, uchar_t *addrpos, uchar_t *addr)
1813 {
1814 	uchar_t *mask, *to;
1815 	ill_t	*ill = nce->nce_ill;
1816 	int 	len;
1817 
1818 	if (ill->ill_net_type == IRE_IF_NORESOLVER)
1819 		return;
1820 	ASSERT(nce->nce_res_mp != NULL);
1821 	ASSERT(ill->ill_net_type == IRE_IF_RESOLVER);
1822 	ASSERT(nce->nce_flags & NCE_F_MAPPING);
1823 	ASSERT(!IN6_IS_ADDR_UNSPECIFIED(&nce->nce_extract_mask));
1824 	ASSERT(addr != NULL);
1825 	bcopy(nce->nce_res_mp->b_rptr + NCE_LL_ADDR_OFFSET(ill),
1826 	    addrpos, ill->ill_nd_lla_len);
1827 	len = MIN((int)ill->ill_nd_lla_len - nce->nce_ll_extract_start,
1828 	    IPV6_ADDR_LEN);
1829 	mask = (uchar_t *)&nce->nce_extract_mask;
1830 	mask += (IPV6_ADDR_LEN - len);
1831 	addr += (IPV6_ADDR_LEN - len);
1832 	to = addrpos + nce->nce_ll_extract_start;
1833 	while (len-- > 0)
1834 		*to++ |= *mask++ & *addr++;
1835 }
1836 
1837 /*
1838  * Pass a cache report back out via NDD.
1839  */
1840 /* ARGSUSED */
1841 int
1842 ndp_report(queue_t *q, mblk_t *mp, caddr_t arg, cred_t *ioc_cr)
1843 {
1844 	(void) mi_mpprintf(mp, "ifname      hardware addr    flags"
1845 			"     proto addr/mask");
1846 	ndp_walk(NULL, (pfi_t)nce_report1, (uchar_t *)mp);
1847 	return (0);
1848 }
1849 
1850 /*
1851  * convert a link level address of arbitrary length
1852  * to an ascii string.
1853  * The caller *must* have already verified that the string buffer
1854  * is large enough to hold the entire string, including trailing NULL.
1855  */
1856 static void
1857 lla2ascii(uint8_t *lla, int addrlen, uchar_t *buf)
1858 {
1859 	uchar_t	addrbyte[8];	/* needs to hold ascii for a byte plus a NULL */
1860 	int	i;
1861 	size_t	len;
1862 
1863 	buf[0] = '\0';
1864 	for (i = 0; i < addrlen; i++) {
1865 		addrbyte[0] = '\0';
1866 		(void) sprintf((char *)addrbyte, "%02x:", (lla[i] & 0xff));
1867 		len = strlen((const char *)addrbyte);
1868 		bcopy(addrbyte, buf, len);
1869 		buf = buf + len;
1870 	}
1871 	*--buf = '\0';
1872 }
1873 
1874 /*
1875  * Add a single line to the NDP Cache Entry Report.
1876  */
1877 static void
1878 nce_report1(nce_t *nce, uchar_t *mp_arg)
1879 {
1880 	ill_t		*ill = nce->nce_ill;
1881 	char		local_buf[INET6_ADDRSTRLEN];
1882 	uchar_t		flags_buf[10];
1883 	uint32_t	flags = nce->nce_flags;
1884 	mblk_t		*mp = (mblk_t *)mp_arg;
1885 	uchar_t		*h;
1886 	uchar_t		*m = flags_buf;
1887 	in6_addr_t	v6addr;
1888 
1889 	/*
1890 	 * Lock the nce to protect nce_res_mp from being changed
1891 	 * if an external resolver address resolution completes
1892 	 * while nce_res_mp is being accessed here.
1893 	 *
1894 	 * Deal with all address formats, not just Ethernet-specific
1895 	 * In addition, make sure that the mblk has enough space
1896 	 * before writing to it. If is doesn't, allocate a new one.
1897 	 */
1898 	ASSERT(ill != NULL);
1899 	v6addr = nce->nce_mask;
1900 	if (flags & NCE_F_PERMANENT)
1901 		*m++ = 'P';
1902 	if (flags & NCE_F_ISROUTER)
1903 		*m++ = 'R';
1904 	if (flags & NCE_F_MAPPING)
1905 		*m++ = 'M';
1906 	*m = '\0';
1907 
1908 	if (ill->ill_net_type == IRE_IF_RESOLVER) {
1909 		size_t		addrlen;
1910 		uchar_t		*addr_buf;
1911 		dl_unitdata_req_t	*dl;
1912 
1913 		mutex_enter(&nce->nce_lock);
1914 		h = nce->nce_res_mp->b_rptr + NCE_LL_ADDR_OFFSET(ill);
1915 		dl = (dl_unitdata_req_t *)nce->nce_res_mp->b_rptr;
1916 		if (ill->ill_flags & ILLF_XRESOLV)
1917 			addrlen = (3 * (dl->dl_dest_addr_length));
1918 		else
1919 			addrlen = (3 * (ill->ill_nd_lla_len));
1920 		if (addrlen <= 0) {
1921 			mutex_exit(&nce->nce_lock);
1922 			(void) mi_mpprintf(mp,
1923 			    "%8s %9s %5s %s/%d",
1924 			    ill->ill_name,
1925 			    "None",
1926 			    (uchar_t *)&flags_buf,
1927 			    inet_ntop(AF_INET6, (char *)&nce->nce_addr,
1928 				(char *)local_buf, sizeof (local_buf)),
1929 				ip_mask_to_plen_v6(&v6addr));
1930 		} else {
1931 			/*
1932 			 * Convert the hardware/lla address to ascii
1933 			 */
1934 			addr_buf = kmem_zalloc(addrlen, KM_NOSLEEP);
1935 			if (addr_buf == NULL) {
1936 				mutex_exit(&nce->nce_lock);
1937 				return;
1938 			}
1939 			if (ill->ill_flags & ILLF_XRESOLV)
1940 				lla2ascii((uint8_t *)h, dl->dl_dest_addr_length,
1941 				    addr_buf);
1942 			else
1943 				lla2ascii((uint8_t *)h, ill->ill_nd_lla_len,
1944 				    addr_buf);
1945 			mutex_exit(&nce->nce_lock);
1946 			(void) mi_mpprintf(mp, "%8s %17s %5s %s/%d",
1947 			    ill->ill_name, addr_buf, (uchar_t *)&flags_buf,
1948 			    inet_ntop(AF_INET6, (char *)&nce->nce_addr,
1949 				(char *)local_buf, sizeof (local_buf)),
1950 				ip_mask_to_plen_v6(&v6addr));
1951 			kmem_free(addr_buf, addrlen);
1952 		}
1953 	} else {
1954 		(void) mi_mpprintf(mp,
1955 		    "%8s %9s %5s %s/%d",
1956 		    ill->ill_name,
1957 		    "None",
1958 		    (uchar_t *)&flags_buf,
1959 		    inet_ntop(AF_INET6, (char *)&nce->nce_addr,
1960 			(char *)local_buf, sizeof (local_buf)),
1961 			ip_mask_to_plen_v6(&v6addr));
1962 	}
1963 }
1964 
1965 mblk_t *
1966 nce_udreq_alloc(ill_t *ill)
1967 {
1968 	mblk_t	*template_mp = NULL;
1969 	dl_unitdata_req_t *dlur;
1970 	int	sap_length;
1971 
1972 	sap_length = ill->ill_sap_length;
1973 	template_mp = ip_dlpi_alloc(sizeof (dl_unitdata_req_t) +
1974 	    ill->ill_nd_lla_len + ABS(sap_length), DL_UNITDATA_REQ);
1975 	if (template_mp == NULL)
1976 		return (NULL);
1977 
1978 	dlur = (dl_unitdata_req_t *)template_mp->b_rptr;
1979 	dlur->dl_priority.dl_min = 0;
1980 	dlur->dl_priority.dl_max = 0;
1981 	dlur->dl_dest_addr_length = ABS(sap_length) + ill->ill_nd_lla_len;
1982 	dlur->dl_dest_addr_offset = sizeof (dl_unitdata_req_t);
1983 
1984 	/* Copy in the SAP value. */
1985 	NCE_LL_SAP_COPY(ill, template_mp);
1986 
1987 	return (template_mp);
1988 }
1989 
1990 /*
1991  * NDP retransmit timer.
1992  * This timer goes off when:
1993  * a. It is time to retransmit NS for resolver.
1994  * b. It is time to send reachability probes.
1995  */
1996 void
1997 ndp_timer(void *arg)
1998 {
1999 	nce_t		*nce = arg;
2000 	ill_t		*ill = nce->nce_ill;
2001 	uint32_t	ms;
2002 	char		addrbuf[INET6_ADDRSTRLEN];
2003 	mblk_t		*mp;
2004 	boolean_t	dropped = B_FALSE;
2005 
2006 	/*
2007 	 * The timer has to be cancelled by ndp_delete before doing the final
2008 	 * refrele. So the NCE is guaranteed to exist when the timer runs
2009 	 * until it clears the timeout_id. Before clearing the timeout_id
2010 	 * bump up the refcnt so that we can continue to use the nce
2011 	 */
2012 	ASSERT(nce != NULL);
2013 
2014 	/*
2015 	 * Grab the ill_g_lock now itself to avoid lock order problems.
2016 	 * nce_solicit needs ill_g_lock to be able to traverse ills
2017 	 */
2018 	rw_enter(&ill_g_lock, RW_READER);
2019 	mutex_enter(&nce->nce_lock);
2020 	NCE_REFHOLD_LOCKED(nce);
2021 	nce->nce_timeout_id = 0;
2022 
2023 	/*
2024 	 * Check the reachability state first.
2025 	 */
2026 	switch (nce->nce_state) {
2027 	case ND_DELAY:
2028 		rw_exit(&ill_g_lock);
2029 		nce->nce_state = ND_PROBE;
2030 		mutex_exit(&nce->nce_lock);
2031 		(void) nce_xmit(ill, ND_NEIGHBOR_SOLICIT, NULL, B_FALSE,
2032 		    &ipv6_all_zeros, &nce->nce_addr, NDP_UNICAST);
2033 		if (ip_debug > 3) {
2034 			/* ip2dbg */
2035 			pr_addr_dbg("ndp_timer: state for %s changed "
2036 			    "to PROBE\n", AF_INET6, &nce->nce_addr);
2037 		}
2038 		NDP_RESTART_TIMER(nce, ill->ill_reachable_retrans_time);
2039 		NCE_REFRELE(nce);
2040 		return;
2041 	case ND_PROBE:
2042 		/* must be retransmit timer */
2043 		rw_exit(&ill_g_lock);
2044 		nce->nce_pcnt--;
2045 		ASSERT(nce->nce_pcnt < ND_MAX_UNICAST_SOLICIT &&
2046 		    nce->nce_pcnt >= -1);
2047 		if (nce->nce_pcnt == 0) {
2048 			/* Wait RetransTimer, before deleting the entry */
2049 			ip2dbg(("ndp_timer: pcount=%x dst %s\n",
2050 			    nce->nce_pcnt, inet_ntop(AF_INET6,
2051 			    &nce->nce_addr, addrbuf, sizeof (addrbuf))));
2052 			mutex_exit(&nce->nce_lock);
2053 			NDP_RESTART_TIMER(nce, ill->ill_reachable_retrans_time);
2054 		} else {
2055 			/*
2056 			 * As per RFC2461, the nce gets deleted after
2057 			 * MAX_UNICAST_SOLICIT unsuccessful re-transmissions.
2058 			 * Note that the first unicast solicitation is sent
2059 			 * during the DELAY state.
2060 			 */
2061 			if (nce->nce_pcnt > 0) {
2062 				ip2dbg(("ndp_timer: pcount=%x dst %s\n",
2063 				    nce->nce_pcnt, inet_ntop(AF_INET6,
2064 				    &nce->nce_addr,
2065 				    addrbuf, sizeof (addrbuf))));
2066 				mutex_exit(&nce->nce_lock);
2067 				dropped = nce_xmit(ill, ND_NEIGHBOR_SOLICIT,
2068 				    NULL, B_FALSE, &ipv6_all_zeros,
2069 				    &nce->nce_addr, NDP_UNICAST);
2070 				if (dropped) {
2071 					mutex_enter(&nce->nce_lock);
2072 					nce->nce_pcnt++;
2073 					mutex_exit(&nce->nce_lock);
2074 				}
2075 				NDP_RESTART_TIMER(nce,
2076 				    ill->ill_reachable_retrans_time);
2077 			} else {
2078 				/* No hope, delete the nce */
2079 				nce->nce_state = ND_UNREACHABLE;
2080 				mutex_exit(&nce->nce_lock);
2081 				if (ip_debug > 2) {
2082 					/* ip1dbg */
2083 					pr_addr_dbg("ndp_timer: Delete IRE for"
2084 					    " dst %s\n", AF_INET6,
2085 					    &nce->nce_addr);
2086 				}
2087 				ndp_delete(nce);
2088 			}
2089 		}
2090 		NCE_REFRELE(nce);
2091 		return;
2092 	case ND_INCOMPLETE:
2093 		/*
2094 		 * Must be resolvers retransmit timer.
2095 		 */
2096 		for (mp = nce->nce_qd_mp; mp != NULL; mp = mp->b_next) {
2097 			ip6i_t	*ip6i;
2098 			ip6_t	*ip6h;
2099 			mblk_t *data_mp;
2100 
2101 			/*
2102 			 * Walk the list of packets queued, and see if there
2103 			 * are any multipathing probe packets. Such packets
2104 			 * are always queued at the head. Since this is a
2105 			 * retransmit timer firing, mark such packets as
2106 			 * delayed in ND resolution. This info will be used
2107 			 * in ip_wput_v6(). Multipathing probe packets will
2108 			 * always have an ip6i_t. Once we hit a packet without
2109 			 * it, we can break out of this loop.
2110 			 */
2111 			if (mp->b_datap->db_type == M_CTL)
2112 				data_mp = mp->b_cont;
2113 			else
2114 				data_mp = mp;
2115 
2116 			ip6h = (ip6_t *)data_mp->b_rptr;
2117 			if (ip6h->ip6_nxt != IPPROTO_RAW)
2118 				break;
2119 
2120 			/*
2121 			 * This message should have been pulled up already in
2122 			 * ip_wput_v6. We can't do pullups here because the
2123 			 * b_next/b_prev is non-NULL.
2124 			 */
2125 			ip6i = (ip6i_t *)ip6h;
2126 			ASSERT((data_mp->b_wptr - (uchar_t *)ip6i) >=
2127 			    sizeof (ip6i_t) + IPV6_HDR_LEN);
2128 
2129 			/* Mark this packet as delayed due to ND resolution */
2130 			if (ip6i->ip6i_flags & IP6I_DROP_IFDELAYED)
2131 				ip6i->ip6i_flags |= IP6I_ND_DELAYED;
2132 		}
2133 		if (nce->nce_qd_mp != NULL) {
2134 			ms = nce_solicit(nce, NULL);
2135 			rw_exit(&ill_g_lock);
2136 			if (ms == 0) {
2137 				if (nce->nce_state != ND_REACHABLE) {
2138 					mutex_exit(&nce->nce_lock);
2139 					nce_resolv_failed(nce);
2140 					ndp_delete(nce);
2141 				} else {
2142 					mutex_exit(&nce->nce_lock);
2143 				}
2144 			} else {
2145 				mutex_exit(&nce->nce_lock);
2146 				NDP_RESTART_TIMER(nce, (clock_t)ms);
2147 			}
2148 			NCE_REFRELE(nce);
2149 			return;
2150 		}
2151 		mutex_exit(&nce->nce_lock);
2152 		rw_exit(&ill_g_lock);
2153 		NCE_REFRELE(nce);
2154 		break;
2155 	case ND_REACHABLE :
2156 		rw_exit(&ill_g_lock);
2157 		if (nce->nce_flags & NCE_F_UNSOL_ADV &&
2158 		    nce->nce_unsolicit_count != 0) {
2159 			nce->nce_unsolicit_count--;
2160 			mutex_exit(&nce->nce_lock);
2161 			dropped = nce_xmit(ill,
2162 			    ND_NEIGHBOR_ADVERT,
2163 			    ill,	/* ill to be used for hw addr */
2164 			    B_FALSE,	/* use ill_phys_addr */
2165 			    &nce->nce_addr,
2166 			    &ipv6_all_hosts_mcast,
2167 			    nce->nce_flags | NDP_ORIDE);
2168 			if (dropped) {
2169 				mutex_enter(&nce->nce_lock);
2170 				nce->nce_unsolicit_count++;
2171 				mutex_exit(&nce->nce_lock);
2172 			}
2173 			if (nce->nce_unsolicit_count != 0) {
2174 				NDP_RESTART_TIMER(nce,
2175 				    ip_ndp_unsolicit_interval);
2176 			}
2177 		} else {
2178 			mutex_exit(&nce->nce_lock);
2179 		}
2180 		NCE_REFRELE(nce);
2181 		break;
2182 	default:
2183 		rw_exit(&ill_g_lock);
2184 		mutex_exit(&nce->nce_lock);
2185 		NCE_REFRELE(nce);
2186 		break;
2187 	}
2188 }
2189 
2190 /*
2191  * Set a link layer address from the ll_addr passed in.
2192  * Copy SAP from ill.
2193  */
2194 static void
2195 nce_set_ll(nce_t *nce, uchar_t *ll_addr)
2196 {
2197 	ill_t	*ill = nce->nce_ill;
2198 	uchar_t	*woffset;
2199 
2200 	ASSERT(ll_addr != NULL);
2201 	/* Always called before fast_path_probe */
2202 	ASSERT(nce->nce_fp_mp == NULL);
2203 	if (ill->ill_sap_length != 0) {
2204 		/*
2205 		 * Copy the SAP type specified in the
2206 		 * request into the xmit template.
2207 		 */
2208 		NCE_LL_SAP_COPY(ill, nce->nce_res_mp);
2209 	}
2210 	if (ill->ill_phys_addr_length > 0) {
2211 		/*
2212 		 * The bcopy() below used to be called for the physical address
2213 		 * length rather than the link layer address length. For
2214 		 * ethernet and many other media, the phys_addr and lla are
2215 		 * identical.
2216 		 * However, with xresolv interfaces being introduced, the
2217 		 * phys_addr and lla are no longer the same, and the physical
2218 		 * address may not have any useful meaning, so we use the lla
2219 		 * for IPv6 address resolution and destination addressing.
2220 		 *
2221 		 * For PPP or other interfaces with a zero length
2222 		 * physical address, don't do anything here.
2223 		 * The bcopy() with a zero phys_addr length was previously
2224 		 * a no-op for interfaces with a zero-length physical address.
2225 		 * Using the lla for them would change the way they operate.
2226 		 * Doing nothing in such cases preserves expected behavior.
2227 		 */
2228 		woffset = nce->nce_res_mp->b_rptr + NCE_LL_ADDR_OFFSET(ill);
2229 		bcopy(ll_addr, woffset, ill->ill_nd_lla_len);
2230 	}
2231 }
2232 
2233 static boolean_t
2234 nce_cmp_ll_addr(nce_t *nce, char *ll_addr, uint32_t ll_addr_len)
2235 {
2236 	ill_t	*ill = nce->nce_ill;
2237 	uchar_t	*ll_offset;
2238 
2239 	ASSERT(nce->nce_res_mp != NULL);
2240 	if (ll_addr == NULL)
2241 		return (B_FALSE);
2242 	ll_offset = nce->nce_res_mp->b_rptr + NCE_LL_ADDR_OFFSET(ill);
2243 	if (bcmp(ll_addr, (char *)ll_offset, ll_addr_len) != 0)
2244 		return (B_TRUE);
2245 	return (B_FALSE);
2246 }
2247 
2248 /*
2249  * Updates the link layer address or the reachability state of
2250  * a cache entry.  Reset probe counter if needed.
2251  */
2252 static void
2253 nce_update(nce_t *nce, uint16_t new_state, uchar_t *new_ll_addr)
2254 {
2255 	ill_t	*ill = nce->nce_ill;
2256 	boolean_t need_stop_timer = B_FALSE;
2257 	boolean_t need_fastpath_update = B_FALSE;
2258 
2259 	ASSERT(MUTEX_HELD(&nce->nce_lock));
2260 	/*
2261 	 * If this interface does not do NUD, there is no point
2262 	 * in allowing an update to the cache entry.  Although
2263 	 * we will respond to NS.
2264 	 * The only time we accept an update for a resolver when
2265 	 * NUD is turned off is when it has just been created.
2266 	 * Non-Resolvers will always be created as REACHABLE.
2267 	 */
2268 	if (new_state != ND_UNCHANGED) {
2269 		if ((nce->nce_flags & NCE_F_NONUD) &&
2270 		    (nce->nce_state != ND_INCOMPLETE))
2271 			return;
2272 		ASSERT((int16_t)new_state >= ND_STATE_VALID_MIN);
2273 		ASSERT((int16_t)new_state <= ND_STATE_VALID_MAX);
2274 		need_stop_timer = B_TRUE;
2275 		if (new_state == ND_REACHABLE)
2276 			nce->nce_last = TICK_TO_MSEC(lbolt64);
2277 		else {
2278 			/* We force NUD in this case */
2279 			nce->nce_last = 0;
2280 		}
2281 		nce->nce_state = new_state;
2282 		nce->nce_pcnt = ND_MAX_UNICAST_SOLICIT;
2283 	}
2284 	/*
2285 	 * In case of fast path we need to free the the fastpath
2286 	 * M_DATA and do another probe.  Otherwise we can just
2287 	 * overwrite the DL_UNITDATA_REQ data, noting we'll lose
2288 	 * whatever packets that happens to be transmitting at the time.
2289 	 */
2290 	if (new_ll_addr != NULL) {
2291 		ASSERT(nce->nce_res_mp->b_rptr + NCE_LL_ADDR_OFFSET(ill) +
2292 		    ill->ill_nd_lla_len <= nce->nce_res_mp->b_wptr);
2293 		bcopy(new_ll_addr, nce->nce_res_mp->b_rptr +
2294 		    NCE_LL_ADDR_OFFSET(ill), ill->ill_nd_lla_len);
2295 		if (nce->nce_fp_mp != NULL) {
2296 			freemsg(nce->nce_fp_mp);
2297 			nce->nce_fp_mp = NULL;
2298 		}
2299 		need_fastpath_update = B_TRUE;
2300 	}
2301 	mutex_exit(&nce->nce_lock);
2302 	if (need_stop_timer) {
2303 		(void) untimeout(nce->nce_timeout_id);
2304 		nce->nce_timeout_id = 0;
2305 	}
2306 	if (need_fastpath_update)
2307 		nce_fastpath(nce);
2308 	mutex_enter(&nce->nce_lock);
2309 }
2310 
2311 static void
2312 nce_queue_mp(nce_t *nce, mblk_t *mp)
2313 {
2314 	uint_t	count = 0;
2315 	mblk_t  **mpp;
2316 	boolean_t head_insert = B_FALSE;
2317 	ip6_t	*ip6h;
2318 	ip6i_t	*ip6i;
2319 	mblk_t *data_mp;
2320 
2321 	ASSERT(MUTEX_HELD(&nce->nce_lock));
2322 
2323 	if (mp->b_datap->db_type == M_CTL)
2324 		data_mp = mp->b_cont;
2325 	else
2326 		data_mp = mp;
2327 	ip6h = (ip6_t *)data_mp->b_rptr;
2328 	if (ip6h->ip6_nxt == IPPROTO_RAW) {
2329 		/*
2330 		 * This message should have been pulled up already in
2331 		 * ip_wput_v6. We can't do pullups here because the message
2332 		 * could be from the nce_qd_mp which could have b_next/b_prev
2333 		 * non-NULL.
2334 		 */
2335 		ip6i = (ip6i_t *)ip6h;
2336 		ASSERT((data_mp->b_wptr - (uchar_t *)ip6i) >=
2337 			    sizeof (ip6i_t) + IPV6_HDR_LEN);
2338 		/*
2339 		 * Multipathing probe packets have IP6I_DROP_IFDELAYED set.
2340 		 * This has 2 aspects mentioned below.
2341 		 * 1. Perform head insertion in the nce_qd_mp for these packets.
2342 		 * This ensures that next retransmit of ND solicitation
2343 		 * will use the interface specified by the probe packet,
2344 		 * for both NS and NA. This corresponds to the src address
2345 		 * in the IPv6 packet. If we insert at tail, we will be
2346 		 * depending on the packet at the head for successful
2347 		 * ND resolution. This is not reliable, because the interface
2348 		 * on which the NA arrives could be different from the interface
2349 		 * on which the NS was sent, and if the receiving interface is
2350 		 * failed, it will appear that the sending interface is also
2351 		 * failed, causing in.mpathd to misdiagnose this as link
2352 		 * failure.
2353 		 * 2. Drop the original packet, if the ND resolution did not
2354 		 * succeed in the first attempt. However we will create the
2355 		 * nce and the ire, as soon as the ND resolution succeeds.
2356 		 * We don't gain anything by queueing multiple probe packets
2357 		 * and sending them back-to-back once resolution succeeds.
2358 		 * It is sufficient to send just 1 packet after ND resolution
2359 		 * succeeds. Since mpathd is sending down probe packets at a
2360 		 * constant rate, we don't need to send the queued packet. We
2361 		 * need to queue it only for NDP resolution. The benefit of
2362 		 * dropping the probe packets that were delayed in ND
2363 		 * resolution, is that in.mpathd will not see inflated
2364 		 * RTT. If the ND resolution does not succeed within
2365 		 * in.mpathd's failure detection time, mpathd may detect
2366 		 * a failure, and it does not matter whether the packet
2367 		 * was queued or dropped.
2368 		 */
2369 		if (ip6i->ip6i_flags & IP6I_DROP_IFDELAYED)
2370 			head_insert = B_TRUE;
2371 	}
2372 
2373 	for (mpp = &nce->nce_qd_mp; *mpp != NULL;
2374 	    mpp = &(*mpp)->b_next) {
2375 		if (++count >
2376 		    nce->nce_ill->ill_max_buf) {
2377 			mblk_t *tmp = nce->nce_qd_mp->b_next;
2378 
2379 			nce->nce_qd_mp->b_next = NULL;
2380 			nce->nce_qd_mp->b_prev = NULL;
2381 			freemsg(nce->nce_qd_mp);
2382 			ip1dbg(("nce_queue_mp: pkt dropped\n"));
2383 			nce->nce_qd_mp = tmp;
2384 		}
2385 	}
2386 	/* put this on the list */
2387 	if (head_insert) {
2388 		mp->b_next = nce->nce_qd_mp;
2389 		nce->nce_qd_mp = mp;
2390 	} else {
2391 		*mpp = mp;
2392 	}
2393 }
2394 
2395 /*
2396  * Called when address resolution failed due to a timeout.
2397  * Send an ICMP unreachable in response to all queued packets.
2398  */
2399 void
2400 nce_resolv_failed(nce_t *nce)
2401 {
2402 	mblk_t	*mp, *nxt_mp, *first_mp;
2403 	char	buf[INET6_ADDRSTRLEN];
2404 	ip6_t *ip6h;
2405 	zoneid_t zoneid = GLOBAL_ZONEID;
2406 
2407 	ip1dbg(("nce_resolv_failed: dst %s\n",
2408 	    inet_ntop(AF_INET6, (char *)&nce->nce_addr, buf, sizeof (buf))));
2409 	mutex_enter(&nce->nce_lock);
2410 	mp = nce->nce_qd_mp;
2411 	nce->nce_qd_mp = NULL;
2412 	mutex_exit(&nce->nce_lock);
2413 	while (mp != NULL) {
2414 		nxt_mp = mp->b_next;
2415 		mp->b_next = NULL;
2416 		mp->b_prev = NULL;
2417 
2418 		first_mp = mp;
2419 		if (mp->b_datap->db_type == M_CTL) {
2420 			ipsec_out_t *io = (ipsec_out_t *)mp->b_rptr;
2421 			ASSERT(io->ipsec_out_type == IPSEC_OUT);
2422 			zoneid = io->ipsec_out_zoneid;
2423 			ASSERT(zoneid != ALL_ZONES);
2424 			mp = mp->b_cont;
2425 		}
2426 
2427 		ip6h = (ip6_t *)mp->b_rptr;
2428 		if (ip6h->ip6_nxt == IPPROTO_RAW) {
2429 			ip6i_t *ip6i;
2430 			/*
2431 			 * This message should have been pulled up already
2432 			 * in ip_wput_v6. ip_hdr_complete_v6 assumes that
2433 			 * the header is pulled up.
2434 			 */
2435 			ip6i = (ip6i_t *)ip6h;
2436 			ASSERT((mp->b_wptr - (uchar_t *)ip6i) >=
2437 			    sizeof (ip6i_t) + IPV6_HDR_LEN);
2438 			mp->b_rptr += sizeof (ip6i_t);
2439 		}
2440 		/*
2441 		 * Ignore failure since icmp_unreachable_v6 will silently
2442 		 * drop packets with an unspecified source address.
2443 		 */
2444 		(void) ip_hdr_complete_v6((ip6_t *)mp->b_rptr, zoneid);
2445 		icmp_unreachable_v6(nce->nce_ill->ill_wq, first_mp,
2446 		    ICMP6_DST_UNREACH_ADDR, B_FALSE, B_FALSE);
2447 		mp = nxt_mp;
2448 	}
2449 }
2450 
2451 /*
2452  * Called by SIOCSNDP* ioctl to add/change an nce entry
2453  * and the corresponding attributes.
2454  * Disallow states other than ND_REACHABLE or ND_STALE.
2455  */
2456 int
2457 ndp_sioc_update(ill_t *ill, lif_nd_req_t *lnr)
2458 {
2459 	sin6_t		*sin6;
2460 	in6_addr_t	*addr;
2461 	nce_t		*nce;
2462 	int		err;
2463 	uint16_t	new_flags = 0;
2464 	uint16_t	old_flags = 0;
2465 	int		inflags = lnr->lnr_flags;
2466 
2467 	if ((lnr->lnr_state_create != ND_REACHABLE) &&
2468 	    (lnr->lnr_state_create != ND_STALE))
2469 		return (EINVAL);
2470 
2471 	sin6 = (sin6_t *)&lnr->lnr_addr;
2472 	addr = &sin6->sin6_addr;
2473 
2474 	mutex_enter(&ndp_g_lock);
2475 	/* We know it can not be mapping so just look in the hash table */
2476 	nce = nce_lookup_addr(ill, addr);
2477 	if (nce != NULL)
2478 		new_flags = nce->nce_flags;
2479 
2480 	switch (inflags & (NDF_ISROUTER_ON|NDF_ISROUTER_OFF)) {
2481 	case NDF_ISROUTER_ON:
2482 		new_flags |= NCE_F_ISROUTER;
2483 		break;
2484 	case NDF_ISROUTER_OFF:
2485 		new_flags &= ~NCE_F_ISROUTER;
2486 		break;
2487 	case (NDF_ISROUTER_OFF|NDF_ISROUTER_ON):
2488 		mutex_exit(&ndp_g_lock);
2489 		if (nce != NULL)
2490 			NCE_REFRELE(nce);
2491 		return (EINVAL);
2492 	}
2493 
2494 	switch (inflags & (NDF_ANYCAST_ON|NDF_ANYCAST_OFF)) {
2495 	case NDF_ANYCAST_ON:
2496 		new_flags |= NCE_F_ANYCAST;
2497 		break;
2498 	case NDF_ANYCAST_OFF:
2499 		new_flags &= ~NCE_F_ANYCAST;
2500 		break;
2501 	case (NDF_ANYCAST_OFF|NDF_ANYCAST_ON):
2502 		mutex_exit(&ndp_g_lock);
2503 		if (nce != NULL)
2504 			NCE_REFRELE(nce);
2505 		return (EINVAL);
2506 	}
2507 
2508 	switch (inflags & (NDF_PROXY_ON|NDF_PROXY_OFF)) {
2509 	case NDF_PROXY_ON:
2510 		new_flags |= NCE_F_PROXY;
2511 		break;
2512 	case NDF_PROXY_OFF:
2513 		new_flags &= ~NCE_F_PROXY;
2514 		break;
2515 	case (NDF_PROXY_OFF|NDF_PROXY_ON):
2516 		mutex_exit(&ndp_g_lock);
2517 		if (nce != NULL)
2518 			NCE_REFRELE(nce);
2519 		return (EINVAL);
2520 	}
2521 
2522 	if (nce == NULL) {
2523 		err = ndp_add(ill,
2524 		    (uchar_t *)lnr->lnr_hdw_addr,
2525 		    addr,
2526 		    &ipv6_all_ones,
2527 		    &ipv6_all_zeros,
2528 		    0,
2529 		    new_flags,
2530 		    lnr->lnr_state_create,
2531 		    &nce);
2532 		if (err != 0) {
2533 			mutex_exit(&ndp_g_lock);
2534 			ip1dbg(("ndp_sioc_update: Can't create NCE %d\n", err));
2535 			return (err);
2536 		}
2537 	}
2538 	old_flags = nce->nce_flags;
2539 	if (old_flags & NCE_F_ISROUTER && !(new_flags & NCE_F_ISROUTER)) {
2540 		/*
2541 		 * Router turned to host, delete all ires.
2542 		 * XXX Just delete the entry, but we need to add too.
2543 		 */
2544 		nce->nce_flags &= ~NCE_F_ISROUTER;
2545 		mutex_exit(&ndp_g_lock);
2546 		ndp_delete(nce);
2547 		NCE_REFRELE(nce);
2548 		return (0);
2549 	}
2550 	mutex_exit(&ndp_g_lock);
2551 
2552 	mutex_enter(&nce->nce_lock);
2553 	nce->nce_flags = new_flags;
2554 	mutex_exit(&nce->nce_lock);
2555 	/*
2556 	 * Note that we ignore the state at this point, which
2557 	 * should be either STALE or REACHABLE.  Instead we let
2558 	 * the link layer address passed in to determine the state
2559 	 * much like incoming packets.
2560 	 */
2561 	ndp_process(nce, (uchar_t *)lnr->lnr_hdw_addr, 0, B_FALSE);
2562 	NCE_REFRELE(nce);
2563 	return (0);
2564 }
2565 
2566 /*
2567  * If the device driver supports it, we make nce_fp_mp to have
2568  * an M_DATA prepend.  Otherwise nce_fp_mp will be null.
2569  * The caller insures there is hold on nce for this function.
2570  * Note that since ill_fastpath_probe() copies the mblk there is
2571  * no need for the hold beyond this function.
2572  */
2573 static void
2574 nce_fastpath(nce_t *nce)
2575 {
2576 	ill_t	*ill = nce->nce_ill;
2577 	int res;
2578 
2579 	ASSERT(ill != NULL);
2580 	if (nce->nce_fp_mp != NULL) {
2581 		/* Already contains fastpath info */
2582 		return;
2583 	}
2584 	if (nce->nce_res_mp != NULL) {
2585 		nce_fastpath_list_add(nce);
2586 		res = ill_fastpath_probe(ill, nce->nce_res_mp);
2587 		/*
2588 		 * EAGAIN is an indication of a transient error
2589 		 * i.e. allocation failure etc. leave the nce in the list it
2590 		 * will be updated when another probe happens for another ire
2591 		 * if not it will be taken out of the list when the ire is
2592 		 * deleted.
2593 		 */
2594 
2595 		if (res != 0 && res != EAGAIN)
2596 			nce_fastpath_list_delete(nce);
2597 	}
2598 }
2599 
2600 /*
2601  * Drain the list of nce's waiting for fastpath response.
2602  */
2603 void
2604 nce_fastpath_list_dispatch(ill_t *ill, boolean_t (*func)(nce_t *, void  *),
2605     void *arg)
2606 {
2607 
2608 	nce_t *next_nce;
2609 	nce_t *current_nce;
2610 	nce_t *first_nce;
2611 	nce_t *prev_nce = NULL;
2612 
2613 	ASSERT(ill != NULL);
2614 
2615 	mutex_enter(&ill->ill_lock);
2616 	first_nce = current_nce = (nce_t *)ill->ill_fastpath_list;
2617 	while (current_nce != (nce_t *)&ill->ill_fastpath_list) {
2618 		next_nce = current_nce->nce_fastpath;
2619 		/*
2620 		 * Take it off the list if we're flushing, or if the callback
2621 		 * routine tells us to do so.  Otherwise, leave the nce in the
2622 		 * fastpath list to handle any pending response from the lower
2623 		 * layer.  We can't drain the list when the callback routine
2624 		 * comparison failed, because the response is asynchronous in
2625 		 * nature, and may not arrive in the same order as the list
2626 		 * insertion.
2627 		 */
2628 		if (func == NULL || func(current_nce, arg)) {
2629 			current_nce->nce_fastpath = NULL;
2630 			if (current_nce == first_nce)
2631 				ill->ill_fastpath_list = first_nce = next_nce;
2632 			else
2633 				prev_nce->nce_fastpath = next_nce;
2634 		} else {
2635 			/* previous element that is still in the list */
2636 			prev_nce = current_nce;
2637 		}
2638 		current_nce = next_nce;
2639 	}
2640 	mutex_exit(&ill->ill_lock);
2641 }
2642 
2643 /*
2644  * Add nce to the nce fastpath list.
2645  */
2646 void
2647 nce_fastpath_list_add(nce_t *nce)
2648 {
2649 	ill_t *ill;
2650 
2651 	ill = nce->nce_ill;
2652 	ASSERT(ill != NULL);
2653 
2654 	mutex_enter(&ill->ill_lock);
2655 	mutex_enter(&nce->nce_lock);
2656 
2657 	/*
2658 	 * if nce has not been deleted and
2659 	 * is not already in the list add it.
2660 	 */
2661 	if (!(nce->nce_flags & NCE_F_CONDEMNED) &&
2662 	    (nce->nce_fastpath == NULL)) {
2663 		nce->nce_fastpath = (nce_t *)ill->ill_fastpath_list;
2664 		ill->ill_fastpath_list = nce;
2665 	}
2666 
2667 	mutex_exit(&nce->nce_lock);
2668 	mutex_exit(&ill->ill_lock);
2669 }
2670 
2671 /*
2672  * remove nce from the nce fastpath list.
2673  */
2674 void
2675 nce_fastpath_list_delete(nce_t *nce)
2676 {
2677 	nce_t *nce_ptr;
2678 
2679 	ill_t *ill;
2680 
2681 	ill = nce->nce_ill;
2682 	ASSERT(ill != NULL);
2683 
2684 	mutex_enter(&ill->ill_lock);
2685 	if (nce->nce_fastpath == NULL)
2686 		goto done;
2687 
2688 	ASSERT(ill->ill_fastpath_list != &ill->ill_fastpath_list);
2689 
2690 	if (ill->ill_fastpath_list == nce) {
2691 		ill->ill_fastpath_list = nce->nce_fastpath;
2692 	} else {
2693 		nce_ptr = ill->ill_fastpath_list;
2694 		while (nce_ptr != (nce_t *)&ill->ill_fastpath_list) {
2695 			if (nce_ptr->nce_fastpath == nce) {
2696 				nce_ptr->nce_fastpath = nce->nce_fastpath;
2697 				break;
2698 			}
2699 			nce_ptr = nce_ptr->nce_fastpath;
2700 		}
2701 	}
2702 
2703 	nce->nce_fastpath = NULL;
2704 done:
2705 	mutex_exit(&ill->ill_lock);
2706 }
2707 
2708 /*
2709  * Update all NCE's that are not in fastpath mode and
2710  * have an nce_fp_mp that matches mp. mp->b_cont contains
2711  * the fastpath header.
2712  *
2713  * Returns TRUE if entry should be dequeued, or FALSE otherwise.
2714  */
2715 boolean_t
2716 ndp_fastpath_update(nce_t *nce, void *arg)
2717 {
2718 	mblk_t 	*mp, *fp_mp;
2719 	uchar_t	*mp_rptr, *ud_mp_rptr;
2720 	mblk_t	*ud_mp = nce->nce_res_mp;
2721 	ptrdiff_t	cmplen;
2722 
2723 	if (nce->nce_flags & NCE_F_MAPPING)
2724 		return (B_TRUE);
2725 	if ((nce->nce_fp_mp != NULL) || (ud_mp == NULL))
2726 		return (B_TRUE);
2727 
2728 	ip2dbg(("ndp_fastpath_update: trying\n"));
2729 	mp = (mblk_t *)arg;
2730 	mp_rptr = mp->b_rptr;
2731 	cmplen = mp->b_wptr - mp_rptr;
2732 	ASSERT(cmplen >= 0);
2733 	ud_mp_rptr = ud_mp->b_rptr;
2734 	/*
2735 	 * The nce is locked here to prevent any other threads
2736 	 * from accessing and changing nce_res_mp when the IPv6 address
2737 	 * becomes resolved to an lla while we're in the middle
2738 	 * of looking at and comparing the hardware address (lla).
2739 	 * It is also locked to prevent multiple threads in nce_fastpath_update
2740 	 * from examining nce_res_mp atthe same time.
2741 	 */
2742 	mutex_enter(&nce->nce_lock);
2743 	if (ud_mp->b_wptr - ud_mp_rptr != cmplen ||
2744 	    bcmp((char *)mp_rptr, (char *)ud_mp_rptr, cmplen) != 0) {
2745 		mutex_exit(&nce->nce_lock);
2746 		/*
2747 		 * Don't take the ire off the fastpath list yet,
2748 		 * since the response may come later.
2749 		 */
2750 		return (B_FALSE);
2751 	}
2752 	/* Matched - install mp as the fastpath mp */
2753 	ip1dbg(("ndp_fastpath_update: match\n"));
2754 	fp_mp = dupb(mp->b_cont);
2755 	if (fp_mp != NULL) {
2756 		nce->nce_fp_mp = fp_mp;
2757 	}
2758 	mutex_exit(&nce->nce_lock);
2759 	return (B_TRUE);
2760 }
2761 
2762 /*
2763  * This function handles the DL_NOTE_FASTPATH_FLUSH notification from
2764  * driver.  Note that it assumes IP is exclusive...
2765  */
2766 /* ARGSUSED */
2767 void
2768 ndp_fastpath_flush(nce_t *nce, char *arg)
2769 {
2770 	if (nce->nce_flags & NCE_F_MAPPING)
2771 		return;
2772 	/* No fastpath info? */
2773 	if (nce->nce_fp_mp == NULL || nce->nce_res_mp == NULL)
2774 		return;
2775 
2776 	/* Just delete the NCE... */
2777 	ndp_delete(nce);
2778 }
2779 
2780 /*
2781  * Return a pointer to a given option in the packet.
2782  * Assumes that option part of the packet have already been validated.
2783  */
2784 nd_opt_hdr_t *
2785 ndp_get_option(nd_opt_hdr_t *opt, int optlen, int opt_type)
2786 {
2787 	while (optlen > 0) {
2788 		if (opt->nd_opt_type == opt_type)
2789 			return (opt);
2790 		optlen -= 8 * opt->nd_opt_len;
2791 		opt = (struct nd_opt_hdr *)((char *)opt + 8 * opt->nd_opt_len);
2792 	}
2793 	return (NULL);
2794 }
2795 
2796 /*
2797  * Verify all option lengths present are > 0, also check to see
2798  * if the option lengths and packet length are consistent.
2799  */
2800 boolean_t
2801 ndp_verify_optlen(nd_opt_hdr_t *opt, int optlen)
2802 {
2803 	ASSERT(opt != NULL);
2804 	while (optlen > 0) {
2805 		if (opt->nd_opt_len == 0)
2806 			return (B_FALSE);
2807 		optlen -= 8 * opt->nd_opt_len;
2808 		if (optlen < 0)
2809 			return (B_FALSE);
2810 		opt = (struct nd_opt_hdr *)((char *)opt + 8 * opt->nd_opt_len);
2811 	}
2812 	return (B_TRUE);
2813 }
2814 
2815 /*
2816  * ndp_walk function.
2817  * Free a fraction of the NCE cache entries.
2818  * A fraction of zero means to not free any in that category.
2819  */
2820 void
2821 ndp_cache_reclaim(nce_t *nce, char *arg)
2822 {
2823 	nce_cache_reclaim_t *ncr = (nce_cache_reclaim_t *)arg;
2824 	uint_t	rand;
2825 
2826 	if (nce->nce_flags & NCE_F_PERMANENT)
2827 		return;
2828 
2829 	rand = (uint_t)lbolt +
2830 	    NCE_ADDR_HASH_V6(nce->nce_addr, NCE_TABLE_SIZE);
2831 	if (ncr->ncr_host != 0 &&
2832 	    (rand/ncr->ncr_host)*ncr->ncr_host == rand) {
2833 		ndp_delete(nce);
2834 		return;
2835 	}
2836 }
2837 
2838 /*
2839  * ndp_walk function.
2840  * Count the number of NCEs that can be deleted.
2841  * These would be hosts but not routers.
2842  */
2843 void
2844 ndp_cache_count(nce_t *nce, char *arg)
2845 {
2846 	ncc_cache_count_t *ncc = (ncc_cache_count_t *)arg;
2847 
2848 	if (nce->nce_flags & NCE_F_PERMANENT)
2849 		return;
2850 
2851 	ncc->ncc_total++;
2852 	if (!(nce->nce_flags & NCE_F_ISROUTER))
2853 		ncc->ncc_host++;
2854 }
2855 
2856 #ifdef NCE_DEBUG
2857 th_trace_t *
2858 th_trace_nce_lookup(nce_t *nce)
2859 {
2860 	int bucket_id;
2861 	th_trace_t *th_trace;
2862 
2863 	ASSERT(MUTEX_HELD(&nce->nce_lock));
2864 
2865 	bucket_id = IP_TR_HASH(curthread);
2866 	ASSERT(bucket_id < IP_TR_HASH_MAX);
2867 
2868 	for (th_trace = nce->nce_trace[bucket_id]; th_trace != NULL;
2869 	    th_trace = th_trace->th_next) {
2870 		if (th_trace->th_id == curthread)
2871 			return (th_trace);
2872 	}
2873 	return (NULL);
2874 }
2875 
2876 void
2877 nce_trace_ref(nce_t *nce)
2878 {
2879 	int bucket_id;
2880 	th_trace_t *th_trace;
2881 
2882 	/*
2883 	 * Attempt to locate the trace buffer for the curthread.
2884 	 * If it does not exist, then allocate a new trace buffer
2885 	 * and link it in list of trace bufs for this ipif, at the head
2886 	 */
2887 	ASSERT(MUTEX_HELD(&nce->nce_lock));
2888 
2889 	if (nce->nce_trace_disable == B_TRUE)
2890 		return;
2891 
2892 	th_trace = th_trace_nce_lookup(nce);
2893 	if (th_trace == NULL) {
2894 		bucket_id = IP_TR_HASH(curthread);
2895 		th_trace = (th_trace_t *)kmem_zalloc(sizeof (th_trace_t),
2896 		    KM_NOSLEEP);
2897 		if (th_trace == NULL) {
2898 			nce->nce_trace_disable = B_TRUE;
2899 			nce_trace_inactive(nce);
2900 			return;
2901 		}
2902 		th_trace->th_id = curthread;
2903 		th_trace->th_next = nce->nce_trace[bucket_id];
2904 		th_trace->th_prev = &nce->nce_trace[bucket_id];
2905 		if (th_trace->th_next != NULL)
2906 			th_trace->th_next->th_prev = &th_trace->th_next;
2907 		nce->nce_trace[bucket_id] = th_trace;
2908 	}
2909 	ASSERT(th_trace->th_refcnt < TR_BUF_MAX - 1);
2910 	th_trace->th_refcnt++;
2911 	th_trace_rrecord(th_trace);
2912 }
2913 
2914 void
2915 nce_untrace_ref(nce_t *nce)
2916 {
2917 	th_trace_t *th_trace;
2918 
2919 	ASSERT(MUTEX_HELD(&nce->nce_lock));
2920 
2921 	if (nce->nce_trace_disable == B_TRUE)
2922 		return;
2923 
2924 	th_trace = th_trace_nce_lookup(nce);
2925 	ASSERT(th_trace != NULL && th_trace->th_refcnt > 0);
2926 
2927 	th_trace_rrecord(th_trace);
2928 	th_trace->th_refcnt--;
2929 }
2930 
2931 void
2932 nce_trace_inactive(nce_t *nce)
2933 {
2934 	th_trace_t *th_trace;
2935 	int i;
2936 
2937 	ASSERT(MUTEX_HELD(&nce->nce_lock));
2938 
2939 	for (i = 0; i < IP_TR_HASH_MAX; i++) {
2940 		while (nce->nce_trace[i] != NULL) {
2941 			th_trace = nce->nce_trace[i];
2942 
2943 			/* unlink th_trace and free it */
2944 			nce->nce_trace[i] = th_trace->th_next;
2945 			if (th_trace->th_next != NULL)
2946 				th_trace->th_next->th_prev =
2947 				    &nce->nce_trace[i];
2948 
2949 			th_trace->th_next = NULL;
2950 			th_trace->th_prev = NULL;
2951 			kmem_free(th_trace, sizeof (th_trace_t));
2952 		}
2953 	}
2954 
2955 }
2956 
2957 /* ARGSUSED */
2958 int
2959 nce_thread_exit(nce_t *nce, caddr_t arg)
2960 {
2961 	th_trace_t	*th_trace;
2962 
2963 	mutex_enter(&nce->nce_lock);
2964 	th_trace = th_trace_nce_lookup(nce);
2965 
2966 	if (th_trace == NULL) {
2967 		mutex_exit(&nce->nce_lock);
2968 		return (0);
2969 	}
2970 
2971 	ASSERT(th_trace->th_refcnt == 0);
2972 
2973 	/* unlink th_trace and free it */
2974 	*th_trace->th_prev = th_trace->th_next;
2975 	if (th_trace->th_next != NULL)
2976 		th_trace->th_next->th_prev = th_trace->th_prev;
2977 	th_trace->th_next = NULL;
2978 	th_trace->th_prev = NULL;
2979 	kmem_free(th_trace, sizeof (th_trace_t));
2980 	mutex_exit(&nce->nce_lock);
2981 	return (0);
2982 }
2983 #endif
2984