xref: /freebsd/contrib/ntp/ntpd/ntp_peer.c (revision 95ee2897e98f5d444f26ed2334cc7c439f9c16c6)
1 /*
2  * ntp_peer.c - management of data maintained for peer associations
3  */
4 #ifdef HAVE_CONFIG_H
5 #include <config.h>
6 #endif
7 
8 #include <stdio.h>
9 #include <sys/types.h>
10 
11 #include "ntpd.h"
12 #include "ntp_lists.h"
13 #include "ntp_stdlib.h"
14 #include "ntp_control.h"
15 #include <ntp_random.h>
16 
17 /*
18  *		    Table of valid association combinations
19  *		    ---------------------------------------
20  *
21  *                             packet->mode
22  * peer->mode      | UNSPEC  ACTIVE PASSIVE  CLIENT  SERVER  BCAST
23  * ----------      | ---------------------------------------------
24  * NO_PEER         |   e       1       0       1       1       1
25  * ACTIVE          |   e       1       1       0       0       0
26  * PASSIVE         |   e       1       e       0       0       0
27  * CLIENT          |   e       0       0       0       1       0
28  * SERVER          |   e       0       0       0       0       0
29  * BCAST           |   e       0       0       0       0       0
30  * BCLIENT         |   e       0       0       0       e       1
31  *
32  * One point to note here: a packet in BCAST mode can potentially match
33  * a peer in CLIENT mode, but we that is a special case and we check for
34  * that early in the decision process.  This avoids having to keep track
35  * of what kind of associations are possible etc...  We actually
36  * circumvent that problem by requiring that the first b(m)roadcast
37  * received after the change back to BCLIENT mode sets the clock.
38  */
39 #define AM_MODES	7	/* number of rows and columns */
40 #define NO_PEER		0	/* action when no peer is found */
41 
42 int AM[AM_MODES][AM_MODES] = {
43 /*			packet->mode					    */
44 /* peer { UNSPEC,   ACTIVE,     PASSIVE,    CLIENT,     SERVER,     BCAST } */
45 /* mode */
46 /*NONE*/{ AM_ERR, AM_NEWPASS, AM_NOMATCH, AM_FXMIT,   AM_MANYCAST, AM_NEWBCL},
47 
48 /*A*/	{ AM_ERR, AM_PROCPKT, AM_PROCPKT, AM_NOMATCH, AM_NOMATCH,  AM_NOMATCH},
49 
50 /*P*/	{ AM_ERR, AM_PROCPKT, AM_ERR,     AM_NOMATCH, AM_NOMATCH,  AM_NOMATCH},
51 
52 /*C*/	{ AM_ERR, AM_NOMATCH, AM_NOMATCH, AM_NOMATCH, AM_PROCPKT,  AM_NOMATCH},
53 
54 /*S*/	{ AM_ERR, AM_NOMATCH, AM_NOMATCH, AM_NOMATCH, AM_NOMATCH,  AM_NOMATCH},
55 
56 /*BCST*/{ AM_ERR, AM_NOMATCH, AM_NOMATCH, AM_NOMATCH, AM_NOMATCH,  AM_NOMATCH},
57 
58 /*BCL*/ { AM_ERR, AM_NOMATCH, AM_NOMATCH, AM_NOMATCH, AM_NOMATCH,  AM_PROCPKT},
59 };
60 
61 #define MATCH_ASSOC(x, y)	AM[(x)][(y)]
62 
63 /*
64  * These routines manage the allocation of memory to peer structures
65  * and the maintenance of three data structures involving all peers:
66  *
67  * - peer_list is a single list with all peers, suitable for scanning
68  *   operations over all peers.
69  * - peer_adr_hash is an array of lists indexed by hashed peer address.
70  * - peer_aid_hash is an array of lists indexed by hashed associd.
71  *
72  * They also maintain a free list of peer structures, peer_free.
73  *
74  * The three main entry points are findpeer(), which looks for matching
75  * peer structures in the peer list, newpeer(), which allocates a new
76  * peer structure and adds it to the list, and unpeer(), which
77  * demobilizes the association and deallocates the structure.
78  */
79 /*
80  * Peer hash tables
81  */
82 struct peer *peer_hash[NTP_HASH_SIZE];	/* peer hash table */
83 int	peer_hash_count[NTP_HASH_SIZE];	/* peers in each bucket */
84 struct peer *assoc_hash[NTP_HASH_SIZE];	/* association ID hash table */
85 int	assoc_hash_count[NTP_HASH_SIZE];/* peers in each bucket */
86 struct peer *peer_list;			/* peer structures list */
87 static struct peer *peer_free;		/* peer structures free list */
88 int	peer_free_count;		/* count of free structures */
89 
90 /*
91  * Association ID.  We initialize this value randomly, then assign a new
92  * value every time an association is mobilized.
93  */
94 static associd_t current_association_ID; /* association ID */
95 static associd_t initial_association_ID; /* association ID */
96 
97 /*
98  * Memory allocation watermarks.
99  */
100 #define	INIT_PEER_ALLOC		8	/* static preallocation */
101 #define	INC_PEER_ALLOC		4	/* add N more when empty */
102 
103 /*
104  * Miscellaneous statistic counters which may be queried.
105  */
106 u_long	peer_timereset;			/* time stat counters zeroed */
107 u_long	findpeer_calls;			/* calls to findpeer */
108 u_long	assocpeer_calls;		/* calls to findpeerbyassoc */
109 u_long	peer_allocations;		/* allocations from free list */
110 u_long	peer_demobilizations;		/* structs freed to free list */
111 int	total_peer_structs;		/* peer structs */
112 int	peer_associations;		/* mobilized associations */
113 int	peer_preempt;			/* preemptable associations */
114 static struct peer init_peer_alloc[INIT_PEER_ALLOC]; /* init alloc */
115 
116 static struct peer *	findexistingpeer_name(const char *, u_short,
117 					      struct peer *, int);
118 static struct peer *	findexistingpeer_addr(sockaddr_u *,
119 					      struct peer *, int,
120 					      u_char, int *);
121 static void		free_peer(struct peer *, int);
122 static void		getmorepeermem(void);
123 static int		score(struct peer *);
124 
125 
126 /*
127  * init_peer - initialize peer data structures and counters
128  *
129  * N.B. We use the random number routine in here. It had better be
130  * initialized prior to getting here.
131  */
132 void
133 init_peer(void)
134 {
135 	int i;
136 
137 	/*
138 	 * Initialize peer free list from static allocation.
139 	 */
140 	for (i = COUNTOF(init_peer_alloc) - 1; i >= 0; i--)
141 		LINK_SLIST(peer_free, &init_peer_alloc[i], p_link);
142 	total_peer_structs = COUNTOF(init_peer_alloc);
143 	peer_free_count = COUNTOF(init_peer_alloc);
144 
145 	/*
146 	 * Initialize our first association ID
147 	 */
148 	do
149 		current_association_ID = ntp_random() & ASSOCID_MAX;
150 	while (!current_association_ID);
151 	initial_association_ID = current_association_ID;
152 }
153 
154 
155 /*
156  * getmorepeermem - add more peer structures to the free list
157  */
158 static void
159 getmorepeermem(void)
160 {
161 	int i;
162 	struct peer *peers;
163 
164 	peers = eallocarray(INC_PEER_ALLOC, sizeof(*peers));
165 
166 	for (i = INC_PEER_ALLOC - 1; i >= 0; i--)
167 		LINK_SLIST(peer_free, &peers[i], p_link);
168 
169 	total_peer_structs += INC_PEER_ALLOC;
170 	peer_free_count += INC_PEER_ALLOC;
171 }
172 
173 
174 static struct peer *
175 findexistingpeer_name(
176 	const char *	hostname,
177 	u_short		hname_fam,
178 	struct peer *	start_peer,
179 	int		mode
180 	)
181 {
182 	struct peer *p;
183 
184 	if (NULL == start_peer)
185 		p = peer_list;
186 	else
187 		p = start_peer->p_link;
188 	for (; p != NULL; p = p->p_link)
189 		if (p->hostname != NULL
190 		    && (-1 == mode || p->hmode == mode)
191 		    && (AF_UNSPEC == hname_fam
192 			|| AF_UNSPEC == AF(&p->srcadr)
193 			|| hname_fam == AF(&p->srcadr))
194 		    && !strcasecmp(p->hostname, hostname))
195 			break;
196 	return p;
197 }
198 
199 
200 static
201 struct peer *
202 findexistingpeer_addr(
203 	sockaddr_u *	addr,
204 	struct peer *	start_peer,
205 	int		mode,
206 	u_char		cast_flags,
207 	int *		ip_count
208 	)
209 {
210 	struct peer *peer;
211 
212 	DPRINTF(2, ("findexistingpeer_addr(%s, %s, %d, 0x%x, %p)\n",
213 		sptoa(addr),
214 		(start_peer)
215 		    ? sptoa(&start_peer->srcadr)
216 		    : "NULL",
217 		mode, (u_int)cast_flags, ip_count));
218 
219 	/*
220 	 * start_peer is included so we can locate instances of the
221 	 * same peer through different interfaces in the hash table.
222 	 * Without MDF_BCLNT, a match requires the same mode and remote
223 	 * address.  MDF_BCLNT associations start out as MODE_CLIENT
224 	 * if broadcastdelay is not specified, and switch to
225 	 * MODE_BCLIENT after estimating the one-way delay.  Duplicate
226 	 * associations are expanded in definition to match any other
227 	 * MDF_BCLNT with the same srcadr (remote, unicast address).
228 	 */
229 	if (NULL == start_peer)
230 		peer = peer_hash[NTP_HASH_ADDR(addr)];
231 	else
232 		peer = start_peer->adr_link;
233 
234 	while (peer != NULL) {
235 		DPRINTF(3, ("%s %s %d %d 0x%x 0x%x ", sptoa(addr),
236 			sptoa(&peer->srcadr), mode, peer->hmode,
237 			(u_int)cast_flags, (u_int)peer->cast_flags));
238 		if (ip_count) {
239 			if (SOCK_EQ(addr, &peer->srcadr)) {
240 				(*ip_count)++;
241 			}
242 		}
243  		if ((-1 == mode || peer->hmode == mode ||
244 		     ((MDF_BCLNT & peer->cast_flags) &&
245 		      (MDF_BCLNT & cast_flags))) &&
246 		    ADDR_PORT_EQ(addr, &peer->srcadr)) {
247 			DPRINTF(3, ("found.\n"));
248 			break;
249 		}
250 		DPRINTF(3, ("\n"));
251 		peer = peer->adr_link;
252 	}
253 
254 	return peer;
255 }
256 
257 
258 /*
259  * findexistingpeer - search by address and return a pointer to a peer.
260  */
261 struct peer *
262 findexistingpeer(
263 	sockaddr_u *	addr,
264 	const char *	hostname,
265 	struct peer *	start_peer,
266 	int		mode,
267 	u_char		cast_flags,
268 	int *		ip_count
269 	)
270 {
271 	if (hostname != NULL)
272 		return findexistingpeer_name(hostname, AF(addr),
273 					     start_peer, mode);
274 	else
275 		return findexistingpeer_addr(addr, start_peer, mode,
276 					     cast_flags, ip_count);
277 }
278 
279 
280 /*
281  * findpeer - find and return a peer match for a received datagram in
282  *	      the peer_hash table.
283  *
284  * [Bug 3072] To faciliate a faster reorganisation after routing changes
285  * the original code re-assigned the peer address to be the destination
286  * of the received packet and initiated another round on a mismatch.
287  * Unfortunately this leaves us wide open for a DoS attack where the
288  * attacker directs a packet with forged destination address to us --
289  * this results in a wrong interface assignment, actually creating a DoS
290  * situation.
291  *
292  * This condition would persist until the next update of the interface
293  * list, but a continued attack would put us out of business again soon
294  * enough. Authentication alone does not help here, since it does not
295  * protect the UDP layer and leaves us open for a replay attack.
296  *
297  * So we do not update the adresses and wait until the next interface
298  * list update does the right thing for us.
299  */
300 struct peer *
301 findpeer(
302 	struct recvbuf *rbufp,
303 	int		pkt_mode,
304 	int *		action
305 	)
306 {
307 	struct peer *	p;
308 	sockaddr_u *	srcadr;
309 	u_int		hash;
310 	struct pkt *	pkt;
311 	l_fp		pkt_org;
312 
313 	findpeer_calls++;
314 	srcadr = &rbufp->recv_srcadr;
315 	hash = NTP_HASH_ADDR(srcadr);
316 	for (p = peer_hash[hash]; p != NULL; p = p->adr_link) {
317 
318 		/* [Bug 3072] ensure interface of peer matches */
319 		/* [Bug 3356] ... if NOT a broadcast peer!     */
320 		if (p->hmode != MODE_BCLIENT && p->dstadr != rbufp->dstadr)
321 			continue;
322 
323 		/* ensure peer source address matches */
324 		if ( ! ADDR_PORT_EQ(srcadr, &p->srcadr))
325 			continue;
326 
327 		/* If the association matching rules determine that this
328 		 * is not a valid combination, then look for the next
329 		 * valid peer association.
330 		 */
331 		*action = MATCH_ASSOC(p->hmode, pkt_mode);
332 
333 		/* A response to our manycastclient solicitation might
334 		 * be misassociated with an ephemeral peer already spun
335 		 * for the server.  If the packet's org timestamp
336 		 * doesn't match the peer's, check if it matches the
337 		 * ACST prototype peer's.  If so it is a redundant
338 		 * solicitation response, return AM_ERR to discard it.
339 		 * [Bug 1762]
340 		 */
341 		if (MODE_SERVER == pkt_mode && AM_PROCPKT == *action) {
342 			pkt = &rbufp->recv_pkt;
343 			NTOHL_FP(&pkt->org, &pkt_org);
344 			if (!L_ISEQU(&p->aorg, &pkt_org) &&
345 			    findmanycastpeer(rbufp))
346 				*action = AM_ERR;
347 		}
348 
349 		/* if an error was returned, exit back right here. */
350 		if (*action == AM_ERR)
351 			return NULL;
352 
353 		/* if a match is found, we stop our search. */
354 		if (*action != AM_NOMATCH)
355 			break;
356 	}
357 
358 	/* If no matching association is found... */
359 	if (NULL == p)
360 		*action = MATCH_ASSOC(NO_PEER, pkt_mode);
361 
362 	return p;
363 }
364 
365 /*
366  * findpeerbyassoc - find and return a peer using his association ID
367  */
368 struct peer *
369 findpeerbyassoc(
370 	associd_t assoc
371 	)
372 {
373 	struct peer *p;
374 	u_int hash;
375 
376 	assocpeer_calls++;
377 	hash = assoc & NTP_HASH_MASK;
378 	for (p = assoc_hash[hash]; p != NULL; p = p->aid_link)
379 		if (assoc == p->associd)
380 			break;
381 	return p;
382 }
383 
384 
385 /*
386  * clear_all - flush all time values for all associations
387  */
388 void
389 clear_all(void)
390 {
391 	struct peer *p;
392 
393 	/*
394 	 * This routine is called when the clock is stepped, and so all
395 	 * previously saved time values are untrusted.
396 	 */
397 	for (p = peer_list; p != NULL; p = p->p_link)
398 		if (!(MDF_TXONLY_MASK & p->cast_flags))
399 			peer_clear(p, "STEP");
400 
401 	DPRINTF(1, ("clear_all: at %lu\n", current_time));
402 }
403 
404 
405 /*
406  * score_all() - determine if an association can be demobilized
407  */
408 int
409 score_all(
410 	struct peer *peer	/* peer structure pointer */
411 	)
412 {
413 	struct peer *speer;
414 	int	temp, tamp;
415 	int	x;
416 
417 	/*
418 	 * This routine finds the minimum score for all preemptible
419 	 * associations and returns > 0 if the association can be
420 	 * demobilized.
421 	 */
422 	tamp = score(peer);
423 	temp = 100;
424 	for (speer = peer_list; speer != NULL; speer = speer->p_link)
425 		if (speer->flags & FLAG_PREEMPT) {
426 			x = score(speer);
427 			if (x < temp)
428 				temp = x;
429 		}
430 	DPRINTF(1, ("score_all: at %lu score %d min %d\n",
431 		    current_time, tamp, temp));
432 
433 	if (tamp != temp)
434 		temp = 0;
435 
436 	return temp;
437 }
438 
439 
440 /*
441  * score() - calculate preemption score
442  */
443 static int
444 score(
445 	struct peer *peer	/* peer structure pointer */
446 	)
447 {
448 	int	temp;
449 
450 	/*
451 	 * This routine calculates the premption score from the peer
452 	 * error bits and status. Increasing values are more cherished.
453 	 */
454 	temp = 0;
455 	if (!(peer->flash & TEST10))
456 		temp++;			/* 1 good synch and stratum */
457 	if (!(peer->flash & TEST13))
458 		temp++;			/* 2 reachable */
459 	if (!(peer->flash & TEST12))
460 		temp++;			/* 3 no loop */
461 	if (!(peer->flash & TEST11))
462 		temp++;			/* 4 good distance */
463 	if (peer->status >= CTL_PST_SEL_SELCAND)
464 		temp++;			/* 5 in the hunt */
465 	if (peer->status != CTL_PST_SEL_EXCESS)
466 		temp++;			/* 6 not spare tire */
467 	return (temp);			/* selection status */
468 }
469 
470 
471 /*
472  * free_peer - internal routine to free memory referred to by a struct
473  *	       peer and return it to the peer free list.  If unlink is
474  *	       nonzero, unlink from the various lists.
475  */
476 static void
477 free_peer(
478 	struct peer *	p,
479 	int		unlink_peer
480 	)
481 {
482 	struct peer *	unlinked;
483 	int		hash;
484 
485 	if (unlink_peer) {
486 		hash = NTP_HASH_ADDR(&p->srcadr);
487 		peer_hash_count[hash]--;
488 
489 		UNLINK_SLIST(unlinked, peer_hash[hash], p, adr_link,
490 			     struct peer);
491 		if (NULL == unlinked) {
492 			peer_hash_count[hash]++;
493 			msyslog(LOG_ERR, "peer %s not in address table!",
494 				stoa(&p->srcadr));
495 		}
496 
497 		/*
498 		 * Remove him from the association hash as well.
499 		 */
500 		hash = p->associd & NTP_HASH_MASK;
501 		assoc_hash_count[hash]--;
502 
503 		UNLINK_SLIST(unlinked, assoc_hash[hash], p, aid_link,
504 			     struct peer);
505 		if (NULL == unlinked) {
506 			assoc_hash_count[hash]++;
507 			msyslog(LOG_ERR,
508 				"peer %s not in association ID table!",
509 				stoa(&p->srcadr));
510 		}
511 
512 		/* Remove him from the overall list. */
513 		UNLINK_SLIST(unlinked, peer_list, p, p_link,
514 			     struct peer);
515 		if (NULL == unlinked)
516 			msyslog(LOG_ERR, "%s not in peer list!",
517 				stoa(&p->srcadr));
518 	}
519 
520 	if (p->hostname != NULL)
521 		free(p->hostname);
522 
523 	if (p->ident != NULL)
524 		free(p->ident);
525 
526 	if (p->addrs != NULL)
527 		free(p->addrs);		/* from copy_addrinfo_list() */
528 
529 	/* Add his corporeal form to peer free list */
530 	ZERO(*p);
531 	LINK_SLIST(peer_free, p, p_link);
532 	peer_free_count++;
533 }
534 
535 
536 /*
537  * unpeer - remove peer structure from hash table and free structure
538  */
539 void
540 unpeer(
541 	struct peer *peer
542 	)
543 {
544 	mprintf_event(PEVNT_DEMOBIL, peer, "assoc %u", peer->associd);
545 	restrict_source(&peer->srcadr, 1, 0);
546 	set_peerdstadr(peer, NULL);
547 	peer_demobilizations++;
548 	peer_associations--;
549 	if (FLAG_PREEMPT & peer->flags)
550 		peer_preempt--;
551 #ifdef REFCLOCK
552 	/*
553 	 * If this peer is actually a clock, shut it down first
554 	 */
555 	if (FLAG_REFCLOCK & peer->flags)
556 		refclock_unpeer(peer);
557 #endif
558 
559 	free_peer(peer, TRUE);
560 }
561 
562 
563 /*
564  * peer_config - configure a new association
565  */
566 struct peer *
567 peer_config(
568 	sockaddr_u *	srcadr,
569 	const char *	hostname,
570 	endpt *		dstadr,
571 	int		ippeerlimit,
572 	u_char		hmode,
573 	u_char		version,
574 	u_char		minpoll,
575 	u_char		maxpoll,
576 	u_int		flags,
577 	u_int32		ttl,
578 	keyid_t		key,
579 	const char *	ident		/* autokey group */
580 	)
581 {
582 	u_char cast_flags;
583 
584 	/*
585 	 * We do a dirty little jig to figure the cast flags. This is
586 	 * probably not the best place to do this, at least until the
587 	 * configure code is rebuilt. Note only one flag can be set.
588 	 */
589 	switch (hmode) {
590 	case MODE_BROADCAST:
591 		if (IS_MCAST(srcadr))
592 			cast_flags = MDF_MCAST;
593 		else
594 			cast_flags = MDF_BCAST;
595 		break;
596 
597 	case MODE_CLIENT:
598 		if (hostname != NULL && SOCK_UNSPEC(srcadr))
599 			cast_flags = MDF_POOL;
600 		else if (IS_MCAST(srcadr))
601 			cast_flags = MDF_ACAST;
602 		else
603 			cast_flags = MDF_UCAST;
604 		break;
605 
606 	default:
607 		cast_flags = MDF_UCAST;
608 	}
609 
610 	/*
611 	 * Mobilize the association and initialize its variables. If
612 	 * emulating ntpdate, force iburst.  For pool and manycastclient
613 	 * strip FLAG_PREEMPT as the prototype associations are not
614 	 * themselves preemptible, though the resulting associations
615 	 * are.
616 	 */
617 	flags |= FLAG_CONFIG;
618 	if (mode_ntpdate)
619 		flags |= FLAG_IBURST;
620 	if ((MDF_ACAST | MDF_POOL) & cast_flags)
621 		flags &= ~FLAG_PREEMPT;
622 	return newpeer(srcadr, hostname, dstadr, ippeerlimit, hmode, version,
623 	    minpoll, maxpoll, flags, cast_flags, ttl, key, ident);
624 }
625 
626 /*
627  * setup peer dstadr field keeping it in sync with the interface
628  * structures
629  */
630 void
631 set_peerdstadr(
632 	struct peer *	p,
633 	endpt *		dstadr
634 	)
635 {
636 	struct peer *	unlinked;
637 
638 	DEBUG_INSIST(p != NULL);
639 
640 	if (p == NULL)
641 		return;
642 
643 	/* check for impossible or identical assignment */
644 	if (p->dstadr == dstadr)
645 		return;
646 
647 	/*
648 	 * Don't accept updates to a separate multicast receive-only
649 	 * endpt while a BCLNT peer is running its unicast protocol.
650 	 */
651 	if (dstadr != NULL && (FLAG_BC_VOL & p->flags) &&
652 	    (INT_MCASTIF & dstadr->flags) && MODE_CLIENT == p->hmode) {
653 		return;
654 	}
655 
656 	/* unlink from list if we have an address prior to assignment */
657 	if (p->dstadr != NULL) {
658 		p->dstadr->peercnt--;
659 		UNLINK_SLIST(unlinked, p->dstadr->peers, p, ilink,
660 			     struct peer);
661 		msyslog(LOG_INFO, "%s local addr %s -> %s",
662 			stoa(&p->srcadr), latoa(p->dstadr),
663 			latoa(dstadr));
664 	}
665 
666 	p->dstadr = dstadr;
667 
668 	/* link to list if we have an address after assignment */
669 	if (p->dstadr != NULL) {
670 		LINK_SLIST(dstadr->peers, p, ilink);
671 		dstadr->peercnt++;
672 	}
673 }
674 
675 /*
676  * attempt to re-rebind interface if necessary
677  */
678 static void
679 peer_refresh_interface(
680 	struct peer *p
681 	)
682 {
683 	endpt *	niface;
684 	endpt *	piface;
685 
686 	niface = select_peerinterface(p, &p->srcadr, NULL);
687 
688 	DPRINTF(4, (
689 	    "peer_refresh_interface: %s->%s mode %d vers %d poll %d %d flags 0x%x 0x%x ttl %u key %08x: new interface: ",
690 	    p->dstadr == NULL ? "<null>" :
691 	    stoa(&p->dstadr->sin), stoa(&p->srcadr), p->hmode,
692 	    p->version, p->minpoll, p->maxpoll, p->flags, p->cast_flags,
693 	    p->ttl, p->keyid));
694 	if (niface != NULL) {
695 		DPRINTF(4, (
696 		    "fd=%d, bfd=%d, name=%.16s, flags=0x%x, ifindex=%u, sin=%s",
697 		    niface->fd,  niface->bfd, niface->name,
698 		    niface->flags, niface->ifindex,
699 		    stoa(&niface->sin)));
700 		if (niface->flags & INT_BROADCAST)
701 			DPRINTF(4, (", bcast=%s",
702 				stoa(&niface->bcast)));
703 		DPRINTF(4, (", mask=%s\n", stoa(&niface->mask)));
704 	} else {
705 		DPRINTF(4, ("<NONE>\n"));
706 	}
707 
708 	piface = p->dstadr;
709 	set_peerdstadr(p, niface);
710 	if (p->dstadr != NULL) {
711 		/*
712 		 * clear crypto if we change the local address
713 		 */
714 		if (p->dstadr != piface && !(MDF_ACAST & p->cast_flags)
715 		    && MODE_BROADCAST != p->pmode)
716 			peer_clear(p, "XFAC");
717 
718 		/*
719 	 	 * Broadcast needs the socket enabled for broadcast
720 	 	 */
721 		if (MDF_BCAST & p->cast_flags)
722 			enable_broadcast(p->dstadr, &p->srcadr);
723 
724 		/*
725 	 	 * Multicast needs the socket interface enabled for
726 		 * multicast
727 	 	 */
728 		if (MDF_MCAST & p->cast_flags)
729 			enable_multicast_if(p->dstadr, &p->srcadr);
730 	}
731 }
732 
733 
734 /*
735  * refresh_all_peerinterfaces - see that all interface bindings are up
736  * to date
737  */
738 void
739 refresh_all_peerinterfaces(void)
740 {
741 	struct peer *p;
742 
743 	/*
744 	 * this is called when the interface list has changed
745 	 * give all peers a chance to find a better interface
746 	 * but only if either they don't have an address already
747 	 * or if the one they have hasn't worked for a while.
748 	 */
749 	for (p = peer_list; p != NULL; p = p->p_link) {
750 		if (!(p->dstadr && (p->reach & 0x3)))	// Bug 2849 XOR 2043
751 			peer_refresh_interface(p);
752 	}
753 }
754 
755 
756 /*
757  * newpeer - initialize a new peer association
758  */
759 struct peer *
760 newpeer(
761 	sockaddr_u *	srcadr,
762 	const char *	hostname,
763 	endpt *		dstadr,
764 	int		ippeerlimit,
765 	u_char		hmode,
766 	u_char		version,
767 	u_char		minpoll,
768 	u_char		maxpoll,
769 	u_int		flags,
770 	u_char		cast_flags,
771 	u_int32		ttl,
772 	keyid_t		key,
773 	const char *	ident
774 	)
775 {
776 	struct peer *	peer;
777 	u_int		hash;
778 	int		ip_count = 0;
779 
780 
781 	DEBUG_REQUIRE(srcadr);
782 
783 #ifdef AUTOKEY
784 	/*
785 	 * If Autokey is requested but not configured, complain loudly.
786 	 */
787 	if (!crypto_flags) {
788 		if (key > NTP_MAXKEY) {
789 			return (NULL);
790 
791 		} else if (flags & FLAG_SKEY) {
792 			msyslog(LOG_ERR, "Autokey not configured");
793 			return (NULL);
794 		}
795 	}
796 #endif	/* AUTOKEY */
797 
798 	/*
799 	 * For now only pool associations have a hostname.
800 	 */
801 	INSIST(NULL == hostname || (MDF_POOL & cast_flags));
802 
803 	/*
804 	 * First search from the beginning for an association with given
805 	 * remote address and mode. If an interface is given, search
806 	 * from there to find the association which matches that
807 	 * destination. If the given interface is "any", track down the
808 	 * actual interface, because that's what gets put into the peer
809 	 * structure.
810 	 */
811 	if (dstadr != NULL) {
812 		peer = findexistingpeer(srcadr, hostname, NULL, hmode,
813 					cast_flags, &ip_count);
814 		while (peer != NULL) {
815 			if (   peer->dstadr == dstadr
816 			    || (   (MDF_BCLNT & cast_flags)
817 				&& (MDF_BCLNT & peer->cast_flags)))
818 				break;
819 
820 			if (dstadr == ANY_INTERFACE_CHOOSE(srcadr) &&
821 			    peer->dstadr == findinterface(srcadr))
822 				break;
823 
824 			peer = findexistingpeer(srcadr, hostname, peer,
825 						hmode, cast_flags, &ip_count);
826 		}
827 	} else {
828 		/* no endpt address given */
829 		peer = findexistingpeer(srcadr, hostname, NULL, hmode,
830 					cast_flags, &ip_count);
831 	}
832 
833 	/*
834 	 * If a peer is found, this would be a duplicate and we don't
835 	 * allow that. This avoids duplicate ephemeral (broadcast/
836 	 * multicast) and preemptible (manycast and pool) client
837 	 * associations.
838 	 */
839 	if (peer != NULL) {
840 		DPRINTF(2, ("newpeer(%s) found existing association\n",
841 			(hostname)
842 			    ? hostname
843 			    : stoa(srcadr)));
844 		return NULL;
845 	}
846 
847 #if 0
848 DPRINTF(1, ("newpeer(%s) found no existing and %d other associations\n",
849 		(hostname)
850 		    ? hostname
851 		    : stoa(srcadr),
852 		ip_count));
853 #endif
854 
855 	/* Check ippeerlimit wrt ip_count */
856 	if (ippeerlimit > -1) {
857 		if (ip_count + 1 > ippeerlimit) {
858 			DPRINTF(2, ("newpeer(%s) denied - ippeerlimit %d\n",
859 				(hostname)
860 				    ? hostname
861 				    : stoa(srcadr),
862 				ippeerlimit));
863 			return NULL;
864 		}
865 	} else {
866 		DPRINTF(1, ("newpeer(%s) - ippeerlimit %d ignored\n",
867 			(hostname)
868 			    ? hostname
869 			    : stoa(srcadr),
870 			ippeerlimit));
871 	}
872 
873 	/*
874 	 * Allocate a new peer structure. Some dirt here, since some of
875 	 * the initialization requires knowlege of our system state.
876 	 */
877 	if (peer_free_count == 0)
878 		getmorepeermem();
879 	UNLINK_HEAD_SLIST(peer, peer_free, p_link);
880 	INSIST(peer != NULL);
881 	peer_free_count--;
882 	peer_associations++;
883 	if (FLAG_PREEMPT & flags)
884 		peer_preempt++;
885 
886 	/*
887 	 * Assign an association ID and increment the system variable.
888 	 */
889 	peer->associd = current_association_ID;
890 	if (++current_association_ID == 0)
891 		++current_association_ID;
892 
893 	peer->srcadr = *srcadr;
894 	if (hostname != NULL)
895 		peer->hostname = estrdup(hostname);
896 	peer->hmode = hmode;
897 	peer->version = version;
898 	peer->flags = flags;
899 	peer->cast_flags = cast_flags;
900 	set_peerdstadr(peer,
901 		       select_peerinterface(peer, srcadr, dstadr));
902 
903 	/*
904 	 * It is an error to set minpoll less than NTP_MINPOLL or to
905 	 * set maxpoll greater than NTP_MAXPOLL. However, minpoll is
906 	 * clamped not greater than NTP_MAXPOLL and maxpoll is clamped
907 	 * not less than NTP_MINPOLL without complaint. Finally,
908 	 * minpoll is clamped not greater than maxpoll.
909 	 */
910 	if (minpoll == 0)
911 		peer->minpoll = NTP_MINDPOLL;
912 	else
913 		peer->minpoll = min(minpoll, NTP_MAXPOLL);
914 	if (maxpoll == 0)
915 		peer->maxpoll = NTP_MAXDPOLL;
916 	else
917 		peer->maxpoll = max(maxpoll, NTP_MINPOLL);
918 	if (peer->minpoll > peer->maxpoll)
919 		peer->minpoll = peer->maxpoll;
920 
921 	if (peer->dstadr != NULL)
922 		DPRINTF(3, ("newpeer(%s): using fd %d and our addr %s\n",
923 			stoa(srcadr), peer->dstadr->fd,
924 			stoa(&peer->dstadr->sin)));
925 	else
926 		DPRINTF(3, ("newpeer(%s): local interface currently not bound\n",
927 			stoa(srcadr)));
928 
929 	/*
930 	 * Broadcast needs the socket enabled for broadcast
931 	 */
932 	if ((MDF_BCAST & cast_flags) && peer->dstadr != NULL)
933 		enable_broadcast(peer->dstadr, srcadr);
934 
935 	/*
936 	 * Multicast needs the socket interface enabled for multicast
937 	 */
938 	if ((MDF_MCAST & cast_flags) && peer->dstadr != NULL)
939 		enable_multicast_if(peer->dstadr, srcadr);
940 
941 #ifdef AUTOKEY
942 	if (key > NTP_MAXKEY)
943 		peer->flags |= FLAG_SKEY;
944 #endif	/* AUTOKEY */
945 	peer->ttl = ttl;
946 	peer->keyid = key;
947 	if (ident != NULL)
948 		peer->ident = estrdup(ident);
949 	peer->precision = sys_precision;
950 	peer->hpoll = peer->minpoll;
951 	if (cast_flags & MDF_ACAST)
952 		peer_clear(peer, "ACST");
953 	else if (cast_flags & MDF_POOL)
954 		peer_clear(peer, "POOL");
955 	else if (cast_flags & MDF_MCAST)
956 		peer_clear(peer, "MCST");
957 	else if (cast_flags & MDF_BCAST)
958 		peer_clear(peer, "BCST");
959 	else
960 		peer_clear(peer, "INIT");
961 	if (mode_ntpdate)
962 		peer_ntpdate++;
963 
964 	/*
965 	 * Note time on statistics timers.
966 	 */
967 	peer->timereset = current_time;
968 	peer->timereachable = current_time;
969 	peer->timereceived = current_time;
970 
971 	if (ISREFCLOCKADR(&peer->srcadr)) {
972 #ifdef REFCLOCK
973 		/*
974 		 * We let the reference clock support do clock
975 		 * dependent initialization.  This includes setting
976 		 * the peer timer, since the clock may have requirements
977 		 * for this.
978 		 */
979 		if (maxpoll == 0)
980 			peer->maxpoll = peer->minpoll;
981 		if (!refclock_newpeer(peer)) {
982 			/*
983 			 * Dump it, something screwed up
984 			 */
985 			set_peerdstadr(peer, NULL);
986 			free_peer(peer, 0);
987 			return NULL;
988 		}
989 #else /* REFCLOCK */
990 		msyslog(LOG_ERR, "refclock %s isn't supported. ntpd was compiled without refclock support.",
991 			stoa(&peer->srcadr));
992 		set_peerdstadr(peer, NULL);
993 		free_peer(peer, 0);
994 		return NULL;
995 #endif /* REFCLOCK */
996 	}
997 
998 	/*
999 	 * Put the new peer in the hash tables.
1000 	 */
1001 	hash = NTP_HASH_ADDR(&peer->srcadr);
1002 	LINK_SLIST(peer_hash[hash], peer, adr_link);
1003 	peer_hash_count[hash]++;
1004 	hash = peer->associd & NTP_HASH_MASK;
1005 	LINK_SLIST(assoc_hash[hash], peer, aid_link);
1006 	assoc_hash_count[hash]++;
1007 	LINK_SLIST(peer_list, peer, p_link);
1008 
1009 	restrict_source(&peer->srcadr, 0, 0);
1010 	mprintf_event(PEVNT_MOBIL, peer, "assoc %d", peer->associd);
1011 	DPRINTF(1, ("newpeer: %s->%s mode %u vers %u poll %u %u flags 0x%x 0x%x ttl %u key %08x\n",
1012 	    latoa(peer->dstadr), stoa(&peer->srcadr), peer->hmode,
1013 	    peer->version, peer->minpoll, peer->maxpoll, peer->flags,
1014 	    peer->cast_flags, peer->ttl, peer->keyid));
1015 	return peer;
1016 }
1017 
1018 
1019 /*
1020  * peer_clr_stats - clear peer module statistics counters
1021  */
1022 void
1023 peer_clr_stats(void)
1024 {
1025 	findpeer_calls = 0;
1026 	assocpeer_calls = 0;
1027 	peer_allocations = 0;
1028 	peer_demobilizations = 0;
1029 	peer_timereset = current_time;
1030 }
1031 
1032 
1033 /*
1034  * peer_reset - reset statistics counters
1035  */
1036 void
1037 peer_reset(
1038 	struct peer *peer
1039 	)
1040 {
1041 	if (peer == NULL)
1042 		return;
1043 
1044 	peer->timereset = current_time;
1045 	peer->sent = 0;
1046 	peer->received = 0;
1047 	peer->processed = 0;
1048 	peer->badauth = 0;
1049 	peer->bogusorg = 0;
1050 	peer->oldpkt = 0;
1051 	peer->seldisptoolarge = 0;
1052 	peer->selbroken = 0;
1053 }
1054 
1055 
1056 /*
1057  * peer_all_reset - reset all peer statistics counters
1058  */
1059 void
1060 peer_all_reset(void)
1061 {
1062 	struct peer *peer;
1063 
1064 	for (peer = peer_list; peer != NULL; peer = peer->p_link)
1065 		peer_reset(peer);
1066 }
1067 
1068 
1069 /*
1070  * findmanycastpeer - find and return a manycastclient or pool
1071  *		      association matching a received response.
1072  */
1073 struct peer *
1074 findmanycastpeer(
1075 	struct recvbuf *rbufp	/* receive buffer pointer */
1076 	)
1077 {
1078 	struct peer *peer;
1079 	struct pkt *pkt;
1080 	l_fp p_org;
1081 
1082  	/*
1083  	 * This routine is called upon arrival of a server-mode response
1084 	 * to a manycastclient multicast solicitation, or to a pool
1085 	 * server unicast solicitation.  Search the peer list for a
1086 	 * manycastclient association where the last transmit timestamp
1087 	 * matches the response packet's originate timestamp.  There can
1088 	 * be multiple manycastclient associations, or multiple pool
1089 	 * solicitation assocations, so this assumes the transmit
1090 	 * timestamps are unique for such.
1091 	 */
1092 	pkt = &rbufp->recv_pkt;
1093 	for (peer = peer_list; peer != NULL; peer = peer->p_link)
1094 		if (MDF_SOLICIT_MASK & peer->cast_flags) {
1095 			NTOHL_FP(&pkt->org, &p_org);
1096 			if (L_ISEQU(&p_org, &peer->aorg))
1097 				break;
1098 		}
1099 
1100 	return peer;
1101 }
1102 
1103 /* peer_cleanup - clean peer list prior to shutdown */
1104 void peer_cleanup(void)
1105 {
1106         struct peer *peer;
1107         associd_t assoc;
1108 
1109         for (assoc = initial_association_ID; assoc != current_association_ID; assoc++) {
1110             if (assoc != 0U) {
1111                 peer = findpeerbyassoc(assoc);
1112                 if (peer != NULL)
1113                     unpeer(peer);
1114             }
1115         }
1116         peer = findpeerbyassoc(current_association_ID);
1117         if (peer != NULL)
1118             unpeer(peer);
1119 }
1120