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1 /* $KAME: frag6.c,v 1.23 2000/02/28 16:18:11 itojun Exp $ */
2
3 /*
4 * Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project.
5 * All rights reserved.
6 *
7 * Redistribution and use in source and binary forms, with or without
8 * modification, are permitted provided that the following conditions
9 * are met:
10 * 1. Redistributions of source code must retain the above copyright
11 * notice, this list of conditions and the following disclaimer.
12 * 2. Redistributions in binary form must reproduce the above copyright
13 * notice, this list of conditions and the following disclaimer in the
14 * documentation and/or other materials provided with the distribution.
15 * 3. Neither the name of the project nor the names of its contributors
16 * may be used to endorse or promote products derived from this software
17 * without specific prior written permission.
18 *
19 * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND
20 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
21 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
22 * ARE DISCLAIMED. IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE
23 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
24 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
25 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
26 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
27 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
28 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
29 * SUCH DAMAGE.
30 */
31
32 #include <sys/param.h>
33 #include <sys/systm.h>
34 #include <sys/malloc.h>
35 #include <sys/mbuf.h>
36 #include <sys/domain.h>
37 #include <sys/protosw.h>
38 #include <sys/socket.h>
39 #include <sys/errno.h>
40 #include <sys/time.h>
41 #include <sys/kernel.h>
42 #include <sys/syslog.h>
43 #include <kern/queue.h>
44
45 #include <net/if.h>
46 #include <net/route.h>
47
48 #include <netinet/in.h>
49 #include <netinet/in_var.h>
50 #include <netinet/ip6.h>
51 #include <netinet6/ip6_var.h>
52 #if !(defined(__FreeBSD__) && __FreeBSD__ >= 3) && !defined(__OpenBSD__) && !(defined(__bsdi__) && _BSDI_VERSION >= 199802) && !defined(__APPLE__)
53 #include <netinet6/in6_pcb.h>
54 #endif
55 #include <netinet/icmp6.h>
56
57 #include <net/net_osdep.h>
58
59 /*
60 * Define it to get a correct behavior on per-interface statistics.
61 * You will need to perform an extra routing table lookup, per fragment,
62 * to do it. This may, or may not be, a performance hit.
63 */
64 #define IN6_IFSTAT_STRICT
65
66 static void frag6_enq __P((struct ip6asfrag *, struct ip6asfrag *));
67 static void frag6_deq __P((struct ip6asfrag *));
68 static void frag6_insque __P((struct ip6q *, struct ip6q *));
69 static void frag6_remque __P((struct ip6q *));
70 static void frag6_freef __P((struct ip6q *));
71
72 int frag6_doing_reass;
73 u_int frag6_nfragpackets;
74 struct ip6q ip6q; /* ip6 reassemble queue */
75
76 /* FreeBSD tweak */
77 #if !defined(M_FTABLE) && (defined(__FreeBSD__) && __FreeBSD__ >= 3)
78 MALLOC_DEFINE(M_FTABLE, "fragment", "fragment reassembly header");
79 #endif
80
81 #ifndef offsetof /* XXX */
82 #define offsetof(type, member) ((size_t)(&((type *)0)->member))
83 #endif
84
85 /*
86 * Initialise reassembly queue and fragment identifier.
87 */
88 void
89 frag6_init()
90 {
91 struct timeval tv;
92
93 /*
94 * in many cases, random() here does NOT return random number
95 * as initialization during bootstrap time occur in fixed order.
96 */
97 microtime(&tv);
98 ip6q.ip6q_next = ip6q.ip6q_prev = &ip6q;
99 ip6_id = random() ^ tv.tv_usec;
100 }
101
102 /*
103 * In RFC2460, fragment and reassembly rule do not agree with each other,
104 * in terms of next header field handling in fragment header.
105 * While the sender will use the same value for all of the fragmented packets,
106 * receiver is suggested not to check the consistency.
107 *
108 * fragment rule (p20):
109 * (2) A Fragment header containing:
110 * The Next Header value that identifies the first header of
111 * the Fragmentable Part of the original packet.
112 * -> next header field is same for all fragments
113 *
114 * reassembly rule (p21):
115 * The Next Header field of the last header of the Unfragmentable
116 * Part is obtained from the Next Header field of the first
117 * fragment's Fragment header.
118 * -> should grab it from the first fragment only
119 *
120 * The following note also contradicts with fragment rule - noone is going to
121 * send different fragment with different next header field.
122 *
123 * additional note (p22):
124 * The Next Header values in the Fragment headers of different
125 * fragments of the same original packet may differ. Only the value
126 * from the Offset zero fragment packet is used for reassembly.
127 * -> should grab it from the first fragment only
128 *
129 * There is no explicit reason given in the RFC. Historical reason maybe?
130 */
131 /*
132 * Fragment input
133 */
134 int
135 frag6_input(mp, offp, proto)
136 struct mbuf **mp;
137 int *offp, proto;
138 {
139 struct mbuf *m = *mp, *t;
140 struct ip6_hdr *ip6;
141 struct ip6_frag *ip6f;
142 struct ip6q *q6;
143 struct ip6asfrag *af6, *ip6af, *af6dwn;
144 int offset = *offp, nxt, i, next;
145 int first_frag = 0;
146 int fragoff, frgpartlen; /* must be larger than u_int16_t */
147 struct ifnet *dstifp;
148 #ifdef IN6_IFSTAT_STRICT
149 static struct route_in6 ro;
150 struct sockaddr_in6 *dst;
151 #endif
152
153 ip6 = mtod(m, struct ip6_hdr *);
154 #ifndef PULLDOWN_TEST
155 IP6_EXTHDR_CHECK(m, offset, sizeof(struct ip6_frag), IPPROTO_DONE);
156 ip6f = (struct ip6_frag *)((caddr_t)ip6 + offset);
157 #else
158 IP6_EXTHDR_GET(ip6f, struct ip6_frag *, m, offset, sizeof(*ip6f));
159 if (ip6f == NULL)
160 return IPPROTO_DONE;
161 #endif
162
163 dstifp = NULL;
164 #ifdef IN6_IFSTAT_STRICT
165 /* find the destination interface of the packet. */
166 dst = (struct sockaddr_in6 *)&ro.ro_dst;
167 if (ro.ro_rt
168 && ((ro.ro_rt->rt_flags & RTF_UP) == 0
169 || !IN6_ARE_ADDR_EQUAL(&dst->sin6_addr, &ip6->ip6_dst))) {
170 RTFREE(ro.ro_rt);
171 ro.ro_rt = (struct rtentry *)0;
172 }
173 if (ro.ro_rt == NULL) {
174 bzero(dst, sizeof(*dst));
175 dst->sin6_family = AF_INET6;
176 dst->sin6_len = sizeof(struct sockaddr_in6);
177 dst->sin6_addr = ip6->ip6_dst;
178 }
179 #ifndef __bsdi__
180 rtalloc((struct route *)&ro);
181 #else
182 rtcalloc((struct route *)&ro);
183 #endif
184 if (ro.ro_rt != NULL && ro.ro_rt->rt_ifa != NULL)
185 dstifp = ((struct in6_ifaddr *)ro.ro_rt->rt_ifa)->ia_ifp;
186 #else
187 /* we are violating the spec, this is not the destination interface */
188 if ((m->m_flags & M_PKTHDR) != 0)
189 dstifp = m->m_pkthdr.rcvif;
190 #endif
191
192 /* jumbo payload can't contain a fragment header */
193 if (ip6->ip6_plen == 0) {
194 icmp6_error(m, ICMP6_PARAM_PROB, ICMP6_PARAMPROB_HEADER, offset);
195 in6_ifstat_inc(dstifp, ifs6_reass_fail);
196 return IPPROTO_DONE;
197 }
198
199 /*
200 * check whether fragment packet's fragment length is
201 * multiple of 8 octets.
202 * sizeof(struct ip6_frag) == 8
203 * sizeof(struct ip6_hdr) = 40
204 */
205 if ((ip6f->ip6f_offlg & IP6F_MORE_FRAG) &&
206 (((ntohs(ip6->ip6_plen) - offset) & 0x7) != 0)) {
207 icmp6_error(m, ICMP6_PARAM_PROB,
208 ICMP6_PARAMPROB_HEADER,
209 offsetof(struct ip6_hdr, ip6_plen));
210 in6_ifstat_inc(dstifp, ifs6_reass_fail);
211 return IPPROTO_DONE;
212 }
213
214 ip6stat.ip6s_fragments++;
215 in6_ifstat_inc(dstifp, ifs6_reass_reqd);
216
217 /* offset now points to data portion */
218 offset += sizeof(struct ip6_frag);
219
220 for (q6 = ip6q.ip6q_next; q6 != &ip6q; q6 = q6->ip6q_next)
221 if (ip6f->ip6f_ident == q6->ip6q_ident &&
222 IN6_ARE_ADDR_EQUAL(&ip6->ip6_src, &q6->ip6q_src) &&
223 IN6_ARE_ADDR_EQUAL(&ip6->ip6_dst, &q6->ip6q_dst))
224 break;
225
226 if (q6 == &ip6q) {
227 /*
228 * the first fragment to arrive, create a reassembly queue.
229 */
230 first_frag = 1;
231 frag6_nfragpackets++;
232
233 /*
234 * Enforce upper bound on number of fragmented packets
235 * for which we attempt reassembly;
236 * If maxfrag is 0, never accept fragments.
237 * If maxfrag is -1, accept all fragments without limitation.
238 */
239 if (frag6_nfragpackets >= (u_int)ip6_maxfragpackets) {
240 ip6stat.ip6s_fragoverflow++;
241 in6_ifstat_inc(dstifp, ifs6_reass_fail);
242 frag6_freef(ip6q.ip6q_prev);
243 }
244 q6 = (struct ip6q *)_MALLOC(sizeof(struct ip6q), M_FTABLE,
245 M_DONTWAIT);
246 if (q6 == NULL)
247 goto dropfrag;
248 bzero(q6, sizeof(*q6));
249
250 frag6_insque(q6, &ip6q);
251
252 /* ip6q_nxt will be filled afterwards, from 1st fragment */
253 q6->ip6q_down = q6->ip6q_up = (struct ip6asfrag *)q6;
254 #if notyet
255 q6->ip6q_nxtp = (u_char *)nxtp;
256 #endif
257 q6->ip6q_ident = ip6f->ip6f_ident;
258 q6->ip6q_arrive = 0; /* Is it used anywhere? */
259 q6->ip6q_ttl = IPV6_FRAGTTL;
260 q6->ip6q_src = ip6->ip6_src;
261 q6->ip6q_dst = ip6->ip6_dst;
262 q6->ip6q_unfrglen = -1; /* The 1st fragment has not arrived. */
263 }
264
265 /*
266 * If it's the 1st fragment, record the length of the
267 * unfragmentable part and the next header of the fragment header.
268 */
269 fragoff = ntohs(ip6f->ip6f_offlg & IP6F_OFF_MASK);
270 if (fragoff == 0) {
271 q6->ip6q_unfrglen = offset - sizeof(struct ip6_hdr)
272 - sizeof(struct ip6_frag);
273 q6->ip6q_nxt = ip6f->ip6f_nxt;
274 }
275
276 /*
277 * Check that the reassembled packet would not exceed 65535 bytes
278 * in size.
279 * If it would exceed, discard the fragment and return an ICMP error.
280 */
281 frgpartlen = sizeof(struct ip6_hdr) + ntohs(ip6->ip6_plen) - offset;
282 if (q6->ip6q_unfrglen >= 0) {
283 /* The 1st fragment has already arrived. */
284 if (q6->ip6q_unfrglen + fragoff + frgpartlen > IPV6_MAXPACKET) {
285 icmp6_error(m, ICMP6_PARAM_PROB, ICMP6_PARAMPROB_HEADER,
286 offset - sizeof(struct ip6_frag) +
287 offsetof(struct ip6_frag, ip6f_offlg));
288 return(IPPROTO_DONE);
289 }
290 }
291 else if (fragoff + frgpartlen > IPV6_MAXPACKET) {
292 icmp6_error(m, ICMP6_PARAM_PROB, ICMP6_PARAMPROB_HEADER,
293 offset - sizeof(struct ip6_frag) +
294 offsetof(struct ip6_frag, ip6f_offlg));
295 return(IPPROTO_DONE);
296 }
297 /*
298 * If it's the first fragment, do the above check for each
299 * fragment already stored in the reassembly queue.
300 */
301 if (fragoff == 0) {
302 for (af6 = q6->ip6q_down; af6 != (struct ip6asfrag *)q6;
303 af6 = af6dwn) {
304 af6dwn = af6->ip6af_down;
305
306 if (q6->ip6q_unfrglen + af6->ip6af_off + af6->ip6af_frglen >
307 IPV6_MAXPACKET) {
308 struct mbuf *merr = IP6_REASS_MBUF(af6);
309 struct ip6_hdr *ip6err;
310 int erroff = af6->ip6af_offset;
311
312 /* dequeue the fragment. */
313 frag6_deq(af6);
314 _FREE(af6, M_FTABLE);
315
316 /* adjust pointer. */
317 ip6err = mtod(merr, struct ip6_hdr *);
318
319 /*
320 * Restore source and destination addresses
321 * in the erroneous IPv6 header.
322 */
323 ip6err->ip6_src = q6->ip6q_src;
324 ip6err->ip6_dst = q6->ip6q_dst;
325
326 icmp6_error(merr, ICMP6_PARAM_PROB,
327 ICMP6_PARAMPROB_HEADER,
328 erroff - sizeof(struct ip6_frag) +
329 offsetof(struct ip6_frag, ip6f_offlg));
330 }
331 }
332 }
333
334 ip6af = (struct ip6asfrag *)_MALLOC(sizeof(struct ip6asfrag), M_FTABLE,
335 M_DONTWAIT);
336 if (ip6af == NULL)
337 goto dropfrag;
338 bzero(ip6af, sizeof(*ip6af));
339 ip6af->ip6af_head = ip6->ip6_flow;
340 ip6af->ip6af_len = ip6->ip6_plen;
341 ip6af->ip6af_nxt = ip6->ip6_nxt;
342 ip6af->ip6af_hlim = ip6->ip6_hlim;
343 ip6af->ip6af_mff = ip6f->ip6f_offlg & IP6F_MORE_FRAG;
344 ip6af->ip6af_off = fragoff;
345 ip6af->ip6af_frglen = frgpartlen;
346 ip6af->ip6af_offset = offset;
347 IP6_REASS_MBUF(ip6af) = m;
348
349 if (first_frag) {
350 af6 = (struct ip6asfrag *)q6;
351 goto insert;
352 }
353
354 /*
355 * Find a segment which begins after this one does.
356 */
357 for (af6 = q6->ip6q_down; af6 != (struct ip6asfrag *)q6;
358 af6 = af6->ip6af_down)
359 if (af6->ip6af_off > ip6af->ip6af_off)
360 break;
361
362 #if 0
363 /*
364 * If there is a preceding segment, it may provide some of
365 * our data already. If so, drop the data from the incoming
366 * segment. If it provides all of our data, drop us.
367 */
368 if (af6->ip6af_up != (struct ip6asfrag *)q6) {
369 i = af6->ip6af_up->ip6af_off + af6->ip6af_up->ip6af_frglen
370 - ip6af->ip6af_off;
371 if (i > 0) {
372 if (i >= ip6af->ip6af_frglen)
373 goto dropfrag;
374 m_adj(IP6_REASS_MBUF(ip6af), i);
375 ip6af->ip6af_off += i;
376 ip6af->ip6af_frglen -= i;
377 }
378 }
379
380 /*
381 * While we overlap succeeding segments trim them or,
382 * if they are completely covered, dequeue them.
383 */
384 while (af6 != (struct ip6asfrag *)q6 &&
385 ip6af->ip6af_off + ip6af->ip6af_frglen > af6->ip6af_off) {
386 i = (ip6af->ip6af_off + ip6af->ip6af_frglen) - af6->ip6af_off;
387 if (i < af6->ip6af_frglen) {
388 af6->ip6af_frglen -= i;
389 af6->ip6af_off += i;
390 m_adj(IP6_REASS_MBUF(af6), i);
391 break;
392 }
393 af6 = af6->ip6af_down;
394 m_freem(IP6_REASS_MBUF(af6->ip6af_up));
395 frag6_deq(af6->ip6af_up);
396 }
397 #else
398 /*
399 * If the incoming framgent overlaps some existing fragments in
400 * the reassembly queue, drop it, since it is dangerous to override
401 * existing fragments from a security point of view.
402 */
403 if (af6->ip6af_up != (struct ip6asfrag *)q6) {
404 i = af6->ip6af_up->ip6af_off + af6->ip6af_up->ip6af_frglen
405 - ip6af->ip6af_off;
406 if (i > 0) {
407 log(LOG_ERR, "%d bytes of a fragment from %s "
408 "overlaps the previous fragment\n",
409 i, ip6_sprintf(&q6->ip6q_src));
410 goto dropfrag;
411 }
412 }
413 if (af6 != (struct ip6asfrag *)q6) {
414 i = (ip6af->ip6af_off + ip6af->ip6af_frglen) - af6->ip6af_off;
415 if (i > 0) {
416 log(LOG_ERR, "%d bytes of a fragment from %s "
417 "overlaps the succeeding fragment",
418 i, ip6_sprintf(&q6->ip6q_src));
419 goto dropfrag;
420 }
421 }
422 #endif
423
424 insert:
425
426 /*
427 * Stick new segment in its place;
428 * check for complete reassembly.
429 * Move to front of packet queue, as we are
430 * the most recently active fragmented packet.
431 */
432 frag6_enq(ip6af, af6->ip6af_up);
433 #if 0 /* xxx */
434 if (q6 != ip6q.ip6q_next) {
435 frag6_remque(q6);
436 frag6_insque(q6, &ip6q);
437 }
438 #endif
439 next = 0;
440 for (af6 = q6->ip6q_down; af6 != (struct ip6asfrag *)q6;
441 af6 = af6->ip6af_down) {
442 if (af6->ip6af_off != next) {
443 frag6_doing_reass = 0;
444 return IPPROTO_DONE;
445 }
446 next += af6->ip6af_frglen;
447 }
448 if (af6->ip6af_up->ip6af_mff) {
449 frag6_doing_reass = 0;
450 return IPPROTO_DONE;
451 }
452
453 /*
454 * Reassembly is complete; concatenate fragments.
455 */
456 ip6af = q6->ip6q_down;
457 t = m = IP6_REASS_MBUF(ip6af);
458 af6 = ip6af->ip6af_down;
459 frag6_deq(ip6af);
460 while (af6 != (struct ip6asfrag *)q6) {
461 af6dwn = af6->ip6af_down;
462 frag6_deq(af6);
463 while (t->m_next)
464 t = t->m_next;
465 t->m_next = IP6_REASS_MBUF(af6);
466 m_adj(t->m_next, af6->ip6af_offset);
467 _FREE(af6, M_FTABLE);
468 af6 = af6dwn;
469 }
470
471 /* adjust offset to point where the original next header starts */
472 offset = ip6af->ip6af_offset - sizeof(struct ip6_frag);
473 _FREE(ip6af, M_FTABLE);
474 ip6 = mtod(m, struct ip6_hdr *);
475 ip6->ip6_plen = htons((u_short)next + offset - sizeof(struct ip6_hdr));
476 ip6->ip6_src = q6->ip6q_src;
477 ip6->ip6_dst = q6->ip6q_dst;
478 nxt = q6->ip6q_nxt;
479 #if notyet
480 *q6->ip6q_nxtp = (u_char)(nxt & 0xff);
481 #endif
482
483 /*
484 * Delete frag6 header with as a few cost as possible.
485 */
486 if (offset < m->m_len) {
487 ovbcopy((caddr_t)ip6, (caddr_t)ip6 + sizeof(struct ip6_frag),
488 offset);
489 m->m_data += sizeof(struct ip6_frag);
490 m->m_len -= sizeof(struct ip6_frag);
491 } else {
492 /* this comes with no copy if the boundary is on cluster */
493 if ((t = m_split(m, offset, M_DONTWAIT)) == NULL) {
494 frag6_remque(q6);
495 _FREE(q6, M_FTABLE);
496 frag6_nfragpackets--;
497 goto dropfrag;
498 }
499 m_adj(t, sizeof(struct ip6_frag));
500 m_cat(m, t);
501 }
502
503 /*
504 * Store NXT to the original.
505 */
506 {
507 char *prvnxtp = ip6_get_prevhdr(m, offset); /* XXX */
508 *prvnxtp = nxt;
509 }
510
511 frag6_remque(q6);
512 _FREE(q6, M_FTABLE);
513 frag6_nfragpackets--;
514
515 if (m->m_flags & M_PKTHDR) { /* Isn't it always true? */
516 int plen = 0;
517 for (t = m; t; t = t->m_next)
518 plen += t->m_len;
519 m->m_pkthdr.len = plen;
520 }
521
522 ip6stat.ip6s_reassembled++;
523 in6_ifstat_inc(dstifp, ifs6_reass_ok);
524
525 /*
526 * Tell launch routine the next header
527 */
528
529 *mp = m;
530 *offp = offset;
531
532 frag6_doing_reass = 0;
533 return nxt;
534
535 dropfrag:
536 in6_ifstat_inc(dstifp, ifs6_reass_fail);
537 ip6stat.ip6s_fragdropped++;
538 m_freem(m);
539 return IPPROTO_DONE;
540 }
541
542 /*
543 * Free a fragment reassembly header and all
544 * associated datagrams.
545 */
546 void
547 frag6_freef(q6)
548 struct ip6q *q6;
549 {
550 struct ip6asfrag *af6, *down6;
551
552 for (af6 = q6->ip6q_down; af6 != (struct ip6asfrag *)q6;
553 af6 = down6) {
554 struct mbuf *m = IP6_REASS_MBUF(af6);
555
556 down6 = af6->ip6af_down;
557 frag6_deq(af6);
558
559 /*
560 * Return ICMP time exceeded error for the 1st fragment.
561 * Just free other fragments.
562 */
563 if (af6->ip6af_off == 0) {
564 struct ip6_hdr *ip6;
565
566 /* adjust pointer */
567 ip6 = mtod(m, struct ip6_hdr *);
568
569 /* restoure source and destination addresses */
570 ip6->ip6_src = q6->ip6q_src;
571 ip6->ip6_dst = q6->ip6q_dst;
572
573 icmp6_error(m, ICMP6_TIME_EXCEEDED,
574 ICMP6_TIME_EXCEED_REASSEMBLY, 0);
575 } else
576 m_freem(m);
577 _FREE(af6, M_FTABLE);
578
579 }
580 frag6_remque(q6);
581 _FREE(q6, M_FTABLE);
582 frag6_nfragpackets--;
583 }
584
585 /*
586 * Put an ip fragment on a reassembly chain.
587 * Like insque, but pointers in middle of structure.
588 */
589 void
590 frag6_enq(af6, up6)
591 struct ip6asfrag *af6, *up6;
592 {
593 af6->ip6af_up = up6;
594 af6->ip6af_down = up6->ip6af_down;
595 up6->ip6af_down->ip6af_up = af6;
596 up6->ip6af_down = af6;
597 }
598
599 /*
600 * To frag6_enq as remque is to insque.
601 */
602 void
603 frag6_deq(af6)
604 struct ip6asfrag *af6;
605 {
606 af6->ip6af_up->ip6af_down = af6->ip6af_down;
607 af6->ip6af_down->ip6af_up = af6->ip6af_up;
608 }
609
610 void
611 frag6_insque(new, old)
612 struct ip6q *new, *old;
613 {
614 new->ip6q_prev = old;
615 new->ip6q_next = old->ip6q_next;
616 old->ip6q_next->ip6q_prev= new;
617 old->ip6q_next = new;
618 }
619
620 void
621 frag6_remque(p6)
622 struct ip6q *p6;
623 {
624 p6->ip6q_prev->ip6q_next = p6->ip6q_next;
625 p6->ip6q_next->ip6q_prev = p6->ip6q_prev;
626 }
627
628 /*
629 * IP timer processing;
630 * if a timer expires on a reassembly
631 * queue, discard it.
632 */
633 void
634 frag6_slowtimo()
635 {
636 struct ip6q *q6;
637 int s;
638 #ifdef __NetBSD__
639 s = splsoftnet();
640 #else
641 s = splnet();
642 #endif
643 #if 0
644 extern struct route_in6 ip6_forward_rt;
645 #endif
646
647 frag6_doing_reass = 1;
648 q6 = ip6q.ip6q_next;
649 if (q6)
650 while (q6 != &ip6q) {
651 --q6->ip6q_ttl;
652 q6 = q6->ip6q_next;
653 if (q6->ip6q_prev->ip6q_ttl == 0) {
654 ip6stat.ip6s_fragtimeout++;
655 /* XXX in6_ifstat_inc(ifp, ifs6_reass_fail) */
656 frag6_freef(q6->ip6q_prev);
657 }
658 }
659 /*
660 * If we are over the maximum number of fragments
661 * (due to the limit being lowered), drain off
662 * enough to get down to the new limit.
663 */
664 while (frag6_nfragpackets > (u_int)ip6_maxfragpackets) {
665 ip6stat.ip6s_fragoverflow++;
666 /* XXX in6_ifstat_inc(ifp, ifs6_reass_fail) */
667 frag6_freef(ip6q.ip6q_prev);
668 }
669 frag6_doing_reass = 0;
670
671 #if 0
672 /*
673 * Routing changes might produce a better route than we last used;
674 * make sure we notice eventually, even if forwarding only for one
675 * destination and the cache is never replaced.
676 */
677 if (ip6_forward_rt.ro_rt) {
678 RTFREE(ip6_forward_rt.ro_rt);
679 ip6_forward_rt.ro_rt = 0;
680 }
681 if (ipsrcchk_rt.ro_rt) {
682 RTFREE(ipsrcchk_rt.ro_rt);
683 ipsrcchk_rt.ro_rt = 0;
684 }
685 #endif
686
687 splx(s);
688 }
689
690 /*
691 * Drain off all datagram fragments.
692 */
693 void
694 frag6_drain()
695 {
696 if (frag6_doing_reass)
697 return;
698 while (ip6q.ip6q_next != &ip6q) {
699 ip6stat.ip6s_fragdropped++;
700 /* XXX in6_ifstat_inc(ifp, ifs6_reass_fail) */
701 frag6_freef(ip6q.ip6q_next);
702 }
703 }