Annotation of embedaddon/ipsec-tools/src/racoon/nattraversal.c, revision 1.1.1.1
1.1 misho 1: /* $NetBSD: nattraversal.c,v 1.14 2011/03/14 17:18:13 tteras Exp $ */
2:
3: /*
4: * Copyright (C) 2004 SuSE Linux AG, Nuernberg, Germany.
5: * Contributed by: Michal Ludvig <mludvig@suse.cz>, SUSE Labs
6: * All rights reserved.
7: *
8: * Redistribution and use in source and binary forms, with or without
9: * modification, are permitted provided that the following conditions
10: * are met:
11: * 1. Redistributions of source code must retain the above copyright
12: * notice, this list of conditions and the following disclaimer.
13: * 2. Redistributions in binary form must reproduce the above copyright
14: * notice, this list of conditions and the following disclaimer in the
15: * documentation and/or other materials provided with the distribution.
16: * 3. Neither the name of the project nor the names of its contributors
17: * may be used to endorse or promote products derived from this software
18: * without specific prior written permission.
19: *
20: * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND
21: * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
22: * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
23: * ARE DISCLAIMED. IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE
24: * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
25: * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
26: * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
27: * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
28: * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
29: * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
30: * SUCH DAMAGE.
31: */
32:
33: #include "config.h"
34:
35: #include <sys/types.h>
36: #include <sys/param.h>
37:
38: #ifdef __linux__
39: #include <linux/udp.h>
40: #endif
41: #if defined(__NetBSD__) || defined (__FreeBSD__)
42: #include <netinet/udp.h>
43: #endif
44:
45: #include <stdlib.h>
46: #include <stdio.h>
47: #include <string.h>
48: #include <errno.h>
49: #include <ctype.h>
50:
51: #include "var.h"
52: #include "misc.h"
53: #include "vmbuf.h"
54: #include "plog.h"
55: #include "debug.h"
56:
57: #include "localconf.h"
58: #include "remoteconf.h"
59: #include "sockmisc.h"
60: #include "isakmp_var.h"
61: #include "isakmp.h"
62: #include "oakley.h"
63: #include "ipsec_doi.h"
64: #include "vendorid.h"
65: #include "handler.h"
66: #include "crypto_openssl.h"
67: #include "schedule.h"
68: #include "nattraversal.h"
69: #include "grabmyaddr.h"
70:
71: struct natt_ka_addrs {
72: struct sockaddr *src;
73: struct sockaddr *dst;
74: unsigned in_use;
75:
76: TAILQ_ENTRY(natt_ka_addrs) chain;
77: };
78:
79: static TAILQ_HEAD(_natt_ka_addrs, natt_ka_addrs) ka_tree;
80: static struct sched sc_natt = SCHED_INITIALIZER();
81:
82: /*
83: * check if the given vid is NAT-T.
84: */
85: int
86: natt_vendorid (int vid)
87: {
88: return (
89: #ifdef ENABLE_NATT_00
90: vid == VENDORID_NATT_00 ||
91: #endif
92: #ifdef ENABLE_NATT_01
93: vid == VENDORID_NATT_01 ||
94: #endif
95: #ifdef ENABLE_NATT_02
96: vid == VENDORID_NATT_02 ||
97: vid == VENDORID_NATT_02_N ||
98: #endif
99: #ifdef ENABLE_NATT_03
100: vid == VENDORID_NATT_03 ||
101: #endif
102: #ifdef ENABLE_NATT_04
103: vid == VENDORID_NATT_04 ||
104: #endif
105: #ifdef ENABLE_NATT_05
106: vid == VENDORID_NATT_05 ||
107: #endif
108: #ifdef ENABLE_NATT_06
109: vid == VENDORID_NATT_06 ||
110: #endif
111: #ifdef ENABLE_NATT_07
112: vid == VENDORID_NATT_07 ||
113: #endif
114: #ifdef ENABLE_NATT_08
115: vid == VENDORID_NATT_08 ||
116: #endif
117: /* Always enable NATT RFC if ENABLE_NATT
118: */
119: vid == VENDORID_NATT_RFC);
120: }
121:
122: vchar_t *
123: natt_hash_addr (struct ph1handle *iph1, struct sockaddr *addr)
124: {
125: vchar_t *natd;
126: vchar_t *buf;
127: char *ptr;
128: void *addr_ptr, *addr_port;
129: size_t buf_size, addr_size;
130: int natt_force = 0;
131:
132: if (iph1->rmconf != NULL && iph1->rmconf->nat_traversal == NATT_FORCE)
133: natt_force = 1;
134:
135: plog (LLV_INFO, LOCATION, addr, "Hashing %s with algo #%d %s\n",
136: saddr2str(addr), iph1->approval->hashtype,
137: natt_force?"(NAT-T forced)":"");
138:
139: if (addr->sa_family == AF_INET) {
140: addr_size = sizeof (struct in_addr); /* IPv4 address */
141: addr_ptr = &((struct sockaddr_in *)addr)->sin_addr;
142: addr_port = &((struct sockaddr_in *)addr)->sin_port;
143: }
144: else if (addr->sa_family == AF_INET6) {
145: addr_size = sizeof (struct in6_addr); /* IPv6 address */
146: addr_ptr = &((struct sockaddr_in6 *)addr)->sin6_addr;
147: addr_port = &((struct sockaddr_in6 *)addr)->sin6_port;
148: }
149: else {
150: plog (LLV_ERROR, LOCATION, addr, "Unsupported address family #0x%x\n", addr->sa_family);
151: return NULL;
152: }
153:
154: buf_size = 2 * sizeof (cookie_t); /* CKY-I + CKY+R */
155: buf_size += addr_size + 2; /* Address + Port */
156:
157: if ((buf = vmalloc (buf_size)) == NULL)
158: return NULL;
159:
160: ptr = buf->v;
161:
162: /* Copy-in CKY-I */
163: memcpy (ptr, iph1->index.i_ck, sizeof (cookie_t));
164: ptr += sizeof (cookie_t);
165:
166: /* Copy-in CKY-I */
167: memcpy (ptr, iph1->index.r_ck, sizeof (cookie_t));
168: ptr += sizeof (cookie_t);
169:
170: /* Copy-in Address (or zeroes if NATT_FORCE) */
171: if (natt_force)
172: memset (ptr, 0, addr_size);
173: else
174: memcpy (ptr, addr_ptr, addr_size);
175: ptr += addr_size;
176:
177: /* Copy-in Port number */
178: memcpy (ptr, addr_port, 2);
179:
180: natd = oakley_hash (buf, iph1);
181: vfree(buf);
182:
183: return natd;
184: }
185:
186: int
187: natt_compare_addr_hash (struct ph1handle *iph1, vchar_t *natd_received,
188: int natd_seq)
189: {
190: vchar_t *natd_computed;
191: u_int32_t flag;
192: int verified = 0;
193:
194: if (iph1->rmconf != NULL &&
195: iph1->rmconf->nat_traversal == NATT_FORCE)
196: return verified;
197:
198: if (natd_seq == 0) {
199: natd_computed = natt_hash_addr (iph1, iph1->local);
200: flag = NAT_DETECTED_ME;
201: }
202: else {
203: natd_computed = natt_hash_addr (iph1, iph1->remote);
204: flag = NAT_DETECTED_PEER;
205: }
206:
207: if (natd_computed == NULL) {
208: plog(LLV_ERROR, LOCATION, NULL, "natd_computed allocation failed\n");
209: return verified; /* XXX should abort */
210: }
211:
212: if (natd_received->l == natd_computed->l &&
213: memcmp (natd_received->v, natd_computed->v, natd_received->l) == 0) {
214: iph1->natt_flags &= ~flag;
215: verified = 1;
216: }
217:
218: vfree (natd_computed);
219:
220: return verified;
221: }
222:
223: int
224: natt_udp_encap (int encmode)
225: {
226: return (encmode == IPSECDOI_ATTR_ENC_MODE_UDPTUNNEL_RFC ||
227: encmode == IPSECDOI_ATTR_ENC_MODE_UDPTRNS_RFC ||
228: encmode == IPSECDOI_ATTR_ENC_MODE_UDPTUNNEL_DRAFT ||
229: encmode == IPSECDOI_ATTR_ENC_MODE_UDPTRNS_DRAFT);
230: }
231:
232: int
233: natt_fill_options (struct ph1natt_options *opts, int version)
234: {
235: if (! opts)
236: return -1;
237:
238: opts->version = version;
239:
240: switch (version) {
241: case VENDORID_NATT_00:
242: case VENDORID_NATT_01:
243: opts->float_port = 0; /* No port floating for those drafts */
244: opts->payload_nat_d = ISAKMP_NPTYPE_NATD_DRAFT;
245: opts->payload_nat_oa = ISAKMP_NPTYPE_NATOA_DRAFT;
246: opts->mode_udp_tunnel = IPSECDOI_ATTR_ENC_MODE_UDPTUNNEL_DRAFT;
247: opts->mode_udp_transport = IPSECDOI_ATTR_ENC_MODE_UDPTRNS_DRAFT;
248: opts->encaps_type = UDP_ENCAP_ESPINUDP_NON_IKE;
249: break;
250:
251: case VENDORID_NATT_02:
252: case VENDORID_NATT_02_N:
253: case VENDORID_NATT_03:
254: opts->float_port = lcconf->port_isakmp_natt;
255: opts->payload_nat_d = ISAKMP_NPTYPE_NATD_DRAFT;
256: opts->payload_nat_oa = ISAKMP_NPTYPE_NATOA_DRAFT;
257: opts->mode_udp_tunnel = IPSECDOI_ATTR_ENC_MODE_UDPTUNNEL_DRAFT;
258: opts->mode_udp_transport = IPSECDOI_ATTR_ENC_MODE_UDPTRNS_DRAFT;
259: opts->encaps_type = UDP_ENCAP_ESPINUDP;
260: break;
261: case VENDORID_NATT_04:
262: case VENDORID_NATT_05:
263: case VENDORID_NATT_06:
264: case VENDORID_NATT_07:
265: case VENDORID_NATT_08:
266: opts->float_port = lcconf->port_isakmp_natt;
267: opts->payload_nat_d = ISAKMP_NPTYPE_NATD_BADDRAFT;
268: opts->payload_nat_oa = ISAKMP_NPTYPE_NATOA_BADDRAFT;
269: opts->mode_udp_tunnel = IPSECDOI_ATTR_ENC_MODE_UDPTUNNEL_RFC;
270: opts->mode_udp_transport = IPSECDOI_ATTR_ENC_MODE_UDPTRNS_RFC;
271: opts->encaps_type = UDP_ENCAP_ESPINUDP;
272: break;
273: case VENDORID_NATT_RFC:
274: opts->float_port = lcconf->port_isakmp_natt;
275: opts->payload_nat_d = ISAKMP_NPTYPE_NATD_RFC;
276: opts->payload_nat_oa = ISAKMP_NPTYPE_NATOA_RFC;
277: opts->mode_udp_tunnel = IPSECDOI_ATTR_ENC_MODE_UDPTUNNEL_RFC;
278: opts->mode_udp_transport = IPSECDOI_ATTR_ENC_MODE_UDPTRNS_RFC;
279: opts->encaps_type = UDP_ENCAP_ESPINUDP;
280: break;
281: default:
282: plog(LLV_ERROR, LOCATION, NULL,
283: "unsupported NAT-T version: %s\n",
284: vid_string_by_id(version));
285: return -1;
286: }
287:
288: opts->mode_udp_diff = opts->mode_udp_tunnel - IPSECDOI_ATTR_ENC_MODE_TUNNEL;
289:
290: return 0;
291: }
292:
293: void
294: natt_float_ports (struct ph1handle *iph1)
295: {
296: if (! (iph1->natt_flags & NAT_DETECTED) )
297: return;
298: if (! iph1->natt_options->float_port){
299: /* Drafts 00 / 01, just schedule keepalive */
300: natt_keepalive_add_ph1 (iph1);
301: return;
302: }
303:
304: set_port (iph1->local, iph1->natt_options->float_port);
305: set_port (iph1->remote, iph1->natt_options->float_port);
306: iph1->natt_flags |= NAT_PORTS_CHANGED | NAT_ADD_NON_ESP_MARKER;
307:
308: natt_keepalive_add_ph1 (iph1);
309: }
310:
311: static int
312: natt_is_enabled (struct remoteconf *rmconf, void *args)
313: {
314: if (rmconf->nat_traversal)
315: return 1;
316: return 0;
317: }
318:
319: void
320: natt_handle_vendorid (struct ph1handle *iph1, int vid_numeric)
321: {
322: if (iph1->rmconf == NULL) {
323: /* Check if any candidate remote conf allows nat-t */
324: struct rmconfselector rmconf;
325: rmconf_selector_from_ph1(&rmconf, iph1);
326: if (enumrmconf(&rmconf, natt_is_enabled, NULL) == 0)
327: return;
328: } else {
329: if (!iph1->rmconf->nat_traversal)
330: return;
331: }
332:
333: if (! iph1->natt_options)
334: iph1->natt_options = racoon_calloc (1, sizeof (*iph1->natt_options));
335:
336: if (! iph1->natt_options) {
337: plog (LLV_ERROR, LOCATION, NULL,
338: "Allocating memory for natt_options failed!\n");
339: return;
340: }
341:
342: if (iph1->natt_options->version < vid_numeric)
343: if (natt_fill_options (iph1->natt_options, vid_numeric) == 0)
344: iph1->natt_flags |= NAT_ANNOUNCED;
345: }
346:
347: static void
348: natt_keepalive_delete (struct natt_ka_addrs *ka)
349: {
350: TAILQ_REMOVE (&ka_tree, ka, chain);
351: racoon_free (ka->src);
352: racoon_free (ka->dst);
353: racoon_free (ka);
354: }
355:
356: /* NAT keepalive functions */
357: static void
358: natt_keepalive_send (struct sched *param)
359: {
360: struct natt_ka_addrs *ka, *next = NULL;
361: char keepalive_packet[] = { 0xff };
362: size_t len;
363: int s;
364:
365: for (ka = TAILQ_FIRST(&ka_tree); ka; ka = next) {
366: next = TAILQ_NEXT(ka, chain);
367:
368: s = myaddr_getfd(ka->src);
369: if (s == -1) {
370: natt_keepalive_delete(ka);
371: continue;
372: }
373: plog (LLV_DEBUG, LOCATION, NULL, "KA: %s\n",
374: saddr2str_fromto("%s->%s", ka->src, ka->dst));
375: len = sendfromto(s, keepalive_packet, sizeof (keepalive_packet),
376: ka->src, ka->dst, 1);
377: if (len == -1)
378: plog(LLV_ERROR, LOCATION, NULL, "KA: sendfromto failed: %s\n",
379: strerror (errno));
380: }
381:
382: sched_schedule (&sc_natt, lcconf->natt_ka_interval, natt_keepalive_send);
383: }
384:
385: void
386: natt_keepalive_init (void)
387: {
388: TAILQ_INIT(&ka_tree);
389:
390: /* To disable sending KAs set natt_ka_interval=0 */
391: if (lcconf->natt_ka_interval > 0)
392: sched_schedule (&sc_natt, lcconf->natt_ka_interval, natt_keepalive_send);
393: }
394:
395: int
396: natt_keepalive_add (struct sockaddr *src, struct sockaddr *dst)
397: {
398: struct natt_ka_addrs *ka = NULL, *new_addr;
399:
400: TAILQ_FOREACH (ka, &ka_tree, chain) {
401: if (cmpsaddr(ka->src, src) == CMPSADDR_MATCH &&
402: cmpsaddr(ka->dst, dst) == CMPSADDR_MATCH) {
403: ka->in_use++;
404: plog (LLV_INFO, LOCATION, NULL, "KA found: %s (in_use=%u)\n",
405: saddr2str_fromto("%s->%s", src, dst), ka->in_use);
406: return 0;
407: }
408: }
409:
410: plog (LLV_INFO, LOCATION, NULL, "KA list add: %s\n", saddr2str_fromto("%s->%s", src, dst));
411:
412: new_addr = (struct natt_ka_addrs *)racoon_malloc(sizeof(*new_addr));
413: if (! new_addr) {
414: plog (LLV_ERROR, LOCATION, NULL, "Can't allocate new KA list item\n");
415: return -1;
416: }
417:
418: if ((new_addr->src = dupsaddr(src)) == NULL) {
419: racoon_free(new_addr);
420: plog (LLV_ERROR, LOCATION, NULL, "Can't allocate new KA list item\n");
421: return -1;
422: }
423: if ((new_addr->dst = dupsaddr(dst)) == NULL) {
424: racoon_free(new_addr);
425: plog (LLV_ERROR, LOCATION, NULL, "Can't allocate new KA list item\n");
426: return -1;
427: }
428: new_addr->in_use = 1;
429: TAILQ_INSERT_TAIL(&ka_tree, new_addr, chain);
430:
431: return 0;
432: }
433:
434: int
435: natt_keepalive_add_ph1 (struct ph1handle *iph1)
436: {
437: int ret = 0;
438:
439: /* Should only the NATed host send keepalives?
440: If yes, add '(iph1->natt_flags & NAT_DETECTED_ME)'
441: to the following condition. */
442: if (iph1->natt_flags & NAT_DETECTED &&
443: ! (iph1->natt_flags & NAT_KA_QUEUED)) {
444: ret = natt_keepalive_add (iph1->local, iph1->remote);
445: if (ret == 0)
446: iph1->natt_flags |= NAT_KA_QUEUED;
447: }
448:
449: return ret;
450: }
451:
452: void
453: natt_keepalive_remove (struct sockaddr *src, struct sockaddr *dst)
454: {
455: struct natt_ka_addrs *ka, *next = NULL;
456:
457: plog (LLV_INFO, LOCATION, NULL, "KA remove: %s\n", saddr2str_fromto("%s->%s", src, dst));
458:
459: for (ka = TAILQ_FIRST(&ka_tree); ka; ka = next) {
460: next = TAILQ_NEXT(ka, chain);
461:
462: plog (LLV_DEBUG, LOCATION, NULL, "KA tree dump: %s (in_use=%u)\n",
463: saddr2str_fromto("%s->%s", src, dst), ka->in_use);
464:
465: if (cmpsaddr(ka->src, src) == CMPSADDR_MATCH &&
466: cmpsaddr(ka->dst, dst) == CMPSADDR_MATCH &&
467: -- ka->in_use <= 0) {
468:
469: plog (LLV_DEBUG, LOCATION, NULL, "KA removing this one...\n");
470:
471: natt_keepalive_delete (ka);
472: /* Should we break here? Every pair of addresses should
473: be inserted only once, but who knows :-) Lets traverse
474: the whole list... */
475: }
476: }
477: }
478:
479: static int
480: natt_enabled_in_rmconf_stub (struct remoteconf *rmconf, void *data)
481: {
482: return rmconf->nat_traversal ? 1 : 0;
483: }
484:
485: int
486: natt_enabled_in_rmconf ()
487: {
488: return enumrmconf(NULL, natt_enabled_in_rmconf_stub, NULL) != 0;
489: }
490:
491:
492: struct payload_list *
493: isakmp_plist_append_natt_vids (struct payload_list *plist, vchar_t *vid_natt[MAX_NATT_VID_COUNT]){
494: int i, vid_natt_i = 0;
495:
496: if(vid_natt == NULL)
497: return NULL;
498:
499: for (i = 0; i < MAX_NATT_VID_COUNT; i++)
500: vid_natt[i]=NULL;
501:
502: /* Puts the olders VIDs last, as some implementations may choose the first
503: * NATT VID given
504: */
505:
506: /* Always set RFC VID
507: */
508: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_RFC)) != NULL)
509: vid_natt_i++;
510: #ifdef ENABLE_NATT_08
511: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_08)) != NULL)
512: vid_natt_i++;
513: #endif
514: #ifdef ENABLE_NATT_07
515: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_07)) != NULL)
516: vid_natt_i++;
517: #endif
518: #ifdef ENABLE_NATT_06
519: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_06)) != NULL)
520: vid_natt_i++;
521: #endif
522: #ifdef ENABLE_NATT_05
523: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_05)) != NULL)
524: vid_natt_i++;
525: #endif
526: #ifdef ENABLE_NATT_04
527: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_04)) != NULL)
528: vid_natt_i++;
529: #endif
530: #ifdef ENABLE_NATT_03
531: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_03)) != NULL)
532: vid_natt_i++;
533: #endif
534: #ifdef ENABLE_NATT_02
535: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_02)) != NULL)
536: vid_natt_i++;
537: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_02_N)) != NULL)
538: vid_natt_i++;
539: #endif
540: #ifdef ENABLE_NATT_01
541: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_01)) != NULL)
542: vid_natt_i++;
543: #endif
544: #ifdef ENABLE_NATT_00
545: if ((vid_natt[vid_natt_i] = set_vendorid(VENDORID_NATT_00)) != NULL)
546: vid_natt_i++;
547: #endif
548: /* set VID payload for NAT-T */
549: for (i = 0; i < vid_natt_i; i++)
550: plist = isakmp_plist_append(plist, vid_natt[i], ISAKMP_NPTYPE_VID);
551:
552: return plist;
553: }
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