Added an option to specify the type of a policy to kernel_ipsec.add_policy.
[strongswan.git] / src / libcharon / sa / child_sa.c
1 /*
2 * Copyright (C) 2006-2010 Tobias Brunner
3 * Copyright (C) 2005-2008 Martin Willi
4 * Copyright (C) 2006 Daniel Roethlisberger
5 * Copyright (C) 2005 Jan Hutter
6 * Hochschule fuer Technik Rapperswil
7 *
8 * This program is free software; you can redistribute it and/or modify it
9 * under the terms of the GNU General Public License as published by the
10 * Free Software Foundation; either version 2 of the License, or (at your
11 * option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
12 *
13 * This program is distributed in the hope that it will be useful, but
14 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
15 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 * for more details.
17 */
18
19 #define _GNU_SOURCE
20 #include "child_sa.h"
21
22 #include <stdio.h>
23 #include <string.h>
24 #include <time.h>
25
26 #include <hydra.h>
27 #include <daemon.h>
28
29 ENUM(child_sa_state_names, CHILD_CREATED, CHILD_DESTROYING,
30 "CREATED",
31 "ROUTED",
32 "INSTALLING",
33 "INSTALLED",
34 "UPDATING",
35 "REKEYING",
36 "DELETING",
37 "DESTROYING",
38 );
39
40 typedef struct private_child_sa_t private_child_sa_t;
41
42 /**
43 * Private data of a child_sa_t object.
44 */
45 struct private_child_sa_t {
46 /**
47 * Public interface of child_sa_t.
48 */
49 child_sa_t public;
50
51 /**
52 * address of us
53 */
54 host_t *my_addr;
55
56 /**
57 * address of remote
58 */
59 host_t *other_addr;
60
61 /**
62 * our actually used SPI, 0 if unused
63 */
64 u_int32_t my_spi;
65
66 /**
67 * others used SPI, 0 if unused
68 */
69 u_int32_t other_spi;
70
71 /**
72 * our Compression Parameter Index (CPI) used, 0 if unused
73 */
74 u_int16_t my_cpi;
75
76 /**
77 * others Compression Parameter Index (CPI) used, 0 if unused
78 */
79 u_int16_t other_cpi;
80
81 /**
82 * List for local traffic selectors
83 */
84 linked_list_t *my_ts;
85
86 /**
87 * List for remote traffic selectors
88 */
89 linked_list_t *other_ts;
90
91 /**
92 * Protocol used to protect this SA, ESP|AH
93 */
94 protocol_id_t protocol;
95
96 /**
97 * reqid used for this child_sa
98 */
99 u_int32_t reqid;
100
101 /**
102 * inbound mark used for this child_sa
103 */
104 mark_t mark_in;
105
106 /**
107 * outbound mark used for this child_sa
108 */
109 mark_t mark_out;
110
111 /**
112 * absolute time when rekeying is scheduled
113 */
114 time_t rekey_time;
115
116 /**
117 * absolute time when the SA expires
118 */
119 time_t expire_time;
120
121 /**
122 * state of the CHILD_SA
123 */
124 child_sa_state_t state;
125
126 /**
127 * Specifies if UDP encapsulation is enabled (NAT traversal)
128 */
129 bool encap;
130
131 /**
132 * Specifies the IPComp transform used (IPCOMP_NONE if disabled)
133 */
134 ipcomp_transform_t ipcomp;
135
136 /**
137 * mode this SA uses, tunnel/transport
138 */
139 ipsec_mode_t mode;
140
141 /**
142 * Action to enforce if peer closes the CHILD_SA
143 */
144 action_t close_action;
145
146 /**
147 * Action to enforce if peer is considered dead
148 */
149 action_t dpd_action;
150
151 /**
152 * selected proposal
153 */
154 proposal_t *proposal;
155
156 /**
157 * config used to create this child
158 */
159 child_cfg_t *config;
160
161 /**
162 * time of last use in seconds (inbound)
163 */
164 u_int32_t my_usetime;
165
166 /**
167 * time of last use in seconds (outbound)
168 */
169 u_int32_t other_usetime;
170
171 /**
172 * last number of inbound bytes
173 */
174 u_int64_t my_usebytes;
175
176 /**
177 * last number of outbound bytes
178 */
179 u_int64_t other_usebytes;
180 };
181
182 /**
183 * convert an IKEv2 specific protocol identifier to the IP protocol identifier.
184 */
185 static inline u_int8_t proto_ike2ip(protocol_id_t protocol)
186 {
187 switch (protocol)
188 {
189 case PROTO_ESP:
190 return IPPROTO_ESP;
191 case PROTO_AH:
192 return IPPROTO_AH;
193 default:
194 return protocol;
195 }
196 }
197
198 METHOD(child_sa_t, get_name, char*,
199 private_child_sa_t *this)
200 {
201 return this->config->get_name(this->config);
202 }
203
204 METHOD(child_sa_t, get_reqid, u_int32_t,
205 private_child_sa_t *this)
206 {
207 return this->reqid;
208 }
209
210 METHOD(child_sa_t, get_config, child_cfg_t*,
211 private_child_sa_t *this)
212 {
213 return this->config;
214 }
215
216 METHOD(child_sa_t, set_state, void,
217 private_child_sa_t *this, child_sa_state_t state)
218 {
219 charon->bus->child_state_change(charon->bus, &this->public, state);
220 this->state = state;
221 }
222
223 METHOD(child_sa_t, get_state, child_sa_state_t,
224 private_child_sa_t *this)
225 {
226 return this->state;
227 }
228
229 METHOD(child_sa_t, get_spi, u_int32_t,
230 private_child_sa_t *this, bool inbound)
231 {
232 return inbound ? this->my_spi : this->other_spi;
233 }
234
235 METHOD(child_sa_t, get_cpi, u_int16_t,
236 private_child_sa_t *this, bool inbound)
237 {
238 return inbound ? this->my_cpi : this->other_cpi;
239 }
240
241 METHOD(child_sa_t, get_protocol, protocol_id_t,
242 private_child_sa_t *this)
243 {
244 return this->protocol;
245 }
246
247 METHOD(child_sa_t, set_protocol, void,
248 private_child_sa_t *this, protocol_id_t protocol)
249 {
250 this->protocol = protocol;
251 }
252
253 METHOD(child_sa_t, get_mode, ipsec_mode_t,
254 private_child_sa_t *this)
255 {
256 return this->mode;
257 }
258
259 METHOD(child_sa_t, set_mode, void,
260 private_child_sa_t *this, ipsec_mode_t mode)
261 {
262 this->mode = mode;
263 }
264
265 METHOD(child_sa_t, has_encap, bool,
266 private_child_sa_t *this)
267 {
268 return this->encap;
269 }
270
271 METHOD(child_sa_t, get_ipcomp, ipcomp_transform_t,
272 private_child_sa_t *this)
273 {
274 return this->ipcomp;
275 }
276
277 METHOD(child_sa_t, set_ipcomp, void,
278 private_child_sa_t *this, ipcomp_transform_t ipcomp)
279 {
280 this->ipcomp = ipcomp;
281 }
282
283 METHOD(child_sa_t, set_close_action, void,
284 private_child_sa_t *this, action_t action)
285 {
286 this->close_action = action;
287 }
288
289 METHOD(child_sa_t, get_close_action, action_t,
290 private_child_sa_t *this)
291 {
292 return this->close_action;
293 }
294
295 METHOD(child_sa_t, set_dpd_action, void,
296 private_child_sa_t *this, action_t action)
297 {
298 this->dpd_action = action;
299 }
300
301 METHOD(child_sa_t, get_dpd_action, action_t,
302 private_child_sa_t *this)
303 {
304 return this->dpd_action;
305 }
306
307 METHOD(child_sa_t, get_proposal, proposal_t*,
308 private_child_sa_t *this)
309 {
310 return this->proposal;
311 }
312
313 METHOD(child_sa_t, set_proposal, void,
314 private_child_sa_t *this, proposal_t *proposal)
315 {
316 this->proposal = proposal->clone(proposal);
317 }
318
319 METHOD(child_sa_t, get_traffic_selectors, linked_list_t*,
320 private_child_sa_t *this, bool local)
321 {
322 return local ? this->my_ts : this->other_ts;
323 }
324
325 typedef struct policy_enumerator_t policy_enumerator_t;
326
327 /**
328 * Private policy enumerator
329 */
330 struct policy_enumerator_t {
331 /** implements enumerator_t */
332 enumerator_t public;
333 /** enumerator over own TS */
334 enumerator_t *mine;
335 /** enumerator over others TS */
336 enumerator_t *other;
337 /** list of others TS, to recreate enumerator */
338 linked_list_t *list;
339 /** currently enumerating TS for "me" side */
340 traffic_selector_t *ts;
341 };
342
343 METHOD(enumerator_t, policy_enumerate, bool,
344 policy_enumerator_t *this, traffic_selector_t **my_out,
345 traffic_selector_t **other_out)
346 {
347 traffic_selector_t *other_ts;
348
349 while (this->ts || this->mine->enumerate(this->mine, &this->ts))
350 {
351 if (!this->other->enumerate(this->other, &other_ts))
352 { /* end of others list, restart with new of mine */
353 this->other->destroy(this->other);
354 this->other = this->list->create_enumerator(this->list);
355 this->ts = NULL;
356 continue;
357 }
358 if (this->ts->get_type(this->ts) != other_ts->get_type(other_ts))
359 { /* family mismatch */
360 continue;
361 }
362 if (this->ts->get_protocol(this->ts) &&
363 other_ts->get_protocol(other_ts) &&
364 this->ts->get_protocol(this->ts) != other_ts->get_protocol(other_ts))
365 { /* protocol mismatch */
366 continue;
367 }
368 *my_out = this->ts;
369 *other_out = other_ts;
370 return TRUE;
371 }
372 return FALSE;
373 }
374
375 METHOD(enumerator_t, policy_destroy, void,
376 policy_enumerator_t *this)
377 {
378 this->mine->destroy(this->mine);
379 this->other->destroy(this->other);
380 free(this);
381 }
382
383 METHOD(child_sa_t, create_policy_enumerator, enumerator_t*,
384 private_child_sa_t *this)
385 {
386 policy_enumerator_t *e;
387
388 INIT(e,
389 .public = {
390 .enumerate = (void*)_policy_enumerate,
391 .destroy = _policy_destroy,
392 },
393 .mine = this->my_ts->create_enumerator(this->my_ts),
394 .other = this->other_ts->create_enumerator(this->other_ts),
395 .list = this->other_ts,
396 .ts = NULL,
397 );
398
399 return &e->public;
400 }
401
402 /**
403 * update the cached usebytes
404 * returns SUCCESS if the usebytes have changed, FAILED if not or no SPIs
405 * are available, and NOT_SUPPORTED if the kernel interface does not support
406 * querying the usebytes.
407 */
408 static status_t update_usebytes(private_child_sa_t *this, bool inbound)
409 {
410 status_t status = FAILED;
411 u_int64_t bytes;
412
413 if (inbound)
414 {
415 if (this->my_spi)
416 {
417 status = hydra->kernel_interface->query_sa(hydra->kernel_interface,
418 this->other_addr, this->my_addr, this->my_spi,
419 proto_ike2ip(this->protocol), this->mark_in,
420 &bytes);
421 if (status == SUCCESS)
422 {
423 if (bytes > this->my_usebytes)
424 {
425 this->my_usebytes = bytes;
426 return SUCCESS;
427 }
428 return FAILED;
429 }
430 }
431 }
432 else
433 {
434 if (this->other_spi)
435 {
436 status = hydra->kernel_interface->query_sa(hydra->kernel_interface,
437 this->my_addr, this->other_addr, this->other_spi,
438 proto_ike2ip(this->protocol), this->mark_out,
439 &bytes);
440 if (status == SUCCESS)
441 {
442 if (bytes > this->other_usebytes)
443 {
444 this->other_usebytes = bytes;
445 return SUCCESS;
446 }
447 return FAILED;
448 }
449 }
450 }
451 return status;
452 }
453
454 /**
455 * updates the cached usetime
456 */
457 static void update_usetime(private_child_sa_t *this, bool inbound)
458 {
459 enumerator_t *enumerator;
460 traffic_selector_t *my_ts, *other_ts;
461 u_int32_t last_use = 0;
462
463 enumerator = create_policy_enumerator(this);
464 while (enumerator->enumerate(enumerator, &my_ts, &other_ts))
465 {
466 u_int32_t in, out, fwd;
467
468 if (inbound)
469 {
470 if (hydra->kernel_interface->query_policy(hydra->kernel_interface,
471 other_ts, my_ts, POLICY_IN, this->mark_in, &in) == SUCCESS)
472 {
473 last_use = max(last_use, in);
474 }
475 if (this->mode != MODE_TRANSPORT)
476 {
477 if (hydra->kernel_interface->query_policy(hydra->kernel_interface,
478 other_ts, my_ts, POLICY_FWD, this->mark_in, &fwd) == SUCCESS)
479 {
480 last_use = max(last_use, fwd);
481 }
482 }
483 }
484 else
485 {
486 if (hydra->kernel_interface->query_policy(hydra->kernel_interface,
487 my_ts, other_ts, POLICY_OUT, this->mark_out, &out) == SUCCESS)
488 {
489 last_use = max(last_use, out);
490 }
491 }
492 }
493 enumerator->destroy(enumerator);
494
495 if (last_use == 0)
496 {
497 return;
498 }
499 if (inbound)
500 {
501 this->my_usetime = last_use;
502 }
503 else
504 {
505 this->other_usetime = last_use;
506 }
507 }
508
509 METHOD(child_sa_t, get_usestats, void,
510 private_child_sa_t *this, bool inbound, time_t *time, u_int64_t *bytes)
511 {
512 if (update_usebytes(this, inbound) != FAILED)
513 {
514 /* there was traffic since last update or the kernel interface
515 * does not support querying the number of usebytes.
516 */
517 update_usetime(this, inbound);
518 }
519 if (time)
520 {
521 *time = inbound ? this->my_usetime : this->other_usetime;
522 }
523 if (bytes)
524 {
525 *bytes = inbound ? this->my_usebytes : this->other_usebytes;
526 }
527 }
528
529 METHOD(child_sa_t, get_lifetime, time_t,
530 private_child_sa_t *this, bool hard)
531 {
532 return hard ? this->expire_time : this->rekey_time;
533 }
534
535 METHOD(child_sa_t, alloc_spi, u_int32_t,
536 private_child_sa_t *this, protocol_id_t protocol)
537 {
538 if (hydra->kernel_interface->get_spi(hydra->kernel_interface,
539 this->other_addr, this->my_addr,
540 proto_ike2ip(protocol), this->reqid,
541 &this->my_spi) == SUCCESS)
542 {
543 return this->my_spi;
544 }
545 return 0;
546 }
547
548 METHOD(child_sa_t, alloc_cpi, u_int16_t,
549 private_child_sa_t *this)
550 {
551 if (hydra->kernel_interface->get_cpi(hydra->kernel_interface,
552 this->other_addr, this->my_addr,
553 this->reqid, &this->my_cpi) == SUCCESS)
554 {
555 return this->my_cpi;
556 }
557 return 0;
558 }
559
560 METHOD(child_sa_t, install, status_t,
561 private_child_sa_t *this, chunk_t encr, chunk_t integ, u_int32_t spi,
562 u_int16_t cpi, bool inbound, linked_list_t *my_ts,
563 linked_list_t *other_ts)
564 {
565 u_int16_t enc_alg = ENCR_UNDEFINED, int_alg = AUTH_UNDEFINED, size;
566 traffic_selector_t *src_ts = NULL, *dst_ts = NULL;
567 time_t now;
568 lifetime_cfg_t *lifetime;
569 host_t *src, *dst;
570 status_t status;
571 bool update = FALSE;
572
573 /* now we have to decide which spi to use. Use self allocated, if "in",
574 * or the one in the proposal, if not "in" (others). Additionally,
575 * source and dest host switch depending on the role */
576 if (inbound)
577 {
578 dst = this->my_addr;
579 src = this->other_addr;
580 if (this->my_spi == spi)
581 { /* alloc_spi has been called, do an SA update */
582 update = TRUE;
583 }
584 this->my_spi = spi;
585 this->my_cpi = cpi;
586 }
587 else
588 {
589 src = this->my_addr;
590 dst = this->other_addr;
591 this->other_spi = spi;
592 this->other_cpi = cpi;
593 }
594
595 DBG2(DBG_CHD, "adding %s %N SA", inbound ? "inbound" : "outbound",
596 protocol_id_names, this->protocol);
597
598 /* send SA down to the kernel */
599 DBG2(DBG_CHD, " SPI 0x%.8x, src %H dst %H", ntohl(spi), src, dst);
600
601 this->proposal->get_algorithm(this->proposal, ENCRYPTION_ALGORITHM,
602 &enc_alg, &size);
603 this->proposal->get_algorithm(this->proposal, INTEGRITY_ALGORITHM,
604 &int_alg, &size);
605
606 lifetime = this->config->get_lifetime(this->config);
607
608 now = time_monotonic(NULL);
609 if (lifetime->time.rekey)
610 {
611 this->rekey_time = now + lifetime->time.rekey;
612 }
613 if (lifetime->time.life)
614 {
615 this->expire_time = now + lifetime->time.life;
616 }
617
618 if (!lifetime->time.jitter && !inbound)
619 { /* avoid triggering multiple rekey events */
620 lifetime->time.rekey = 0;
621 }
622
623 if (this->mode == MODE_BEET)
624 {
625 /* BEET requires the bound address from the traffic selectors.
626 * TODO: We add just the first traffic selector for now, as the
627 * kernel accepts a single TS per SA only */
628 if (inbound)
629 {
630 my_ts->get_first(my_ts, (void**)&dst_ts);
631 other_ts->get_first(other_ts, (void**)&src_ts);
632 }
633 else
634 {
635 my_ts->get_first(my_ts, (void**)&src_ts);
636 other_ts->get_first(other_ts, (void**)&dst_ts);
637 }
638 }
639
640 status = hydra->kernel_interface->add_sa(hydra->kernel_interface,
641 src, dst, spi, proto_ike2ip(this->protocol), this->reqid,
642 inbound ? this->mark_in : this->mark_out,
643 lifetime, enc_alg, encr, int_alg, integ, this->mode,
644 this->ipcomp, cpi, this->encap, update, src_ts, dst_ts);
645
646 free(lifetime);
647
648 return status;
649 }
650
651 METHOD(child_sa_t, add_policies, status_t,
652 private_child_sa_t *this, linked_list_t *my_ts_list,
653 linked_list_t *other_ts_list)
654 {
655 enumerator_t *enumerator;
656 traffic_selector_t *my_ts, *other_ts;
657 status_t status = SUCCESS;
658 bool routed = (this->state == CHILD_CREATED);
659
660 /* apply traffic selectors */
661 enumerator = my_ts_list->create_enumerator(my_ts_list);
662 while (enumerator->enumerate(enumerator, &my_ts))
663 {
664 this->my_ts->insert_last(this->my_ts, my_ts->clone(my_ts));
665 }
666 enumerator->destroy(enumerator);
667 enumerator = other_ts_list->create_enumerator(other_ts_list);
668 while (enumerator->enumerate(enumerator, &other_ts))
669 {
670 this->other_ts->insert_last(this->other_ts, other_ts->clone(other_ts));
671 }
672 enumerator->destroy(enumerator);
673
674 if (this->config->install_policy(this->config))
675 {
676 u_int32_t my_esp = 0, my_ah = 0, other_esp = 0, other_ah = 0;
677 if (this->protocol == PROTO_ESP)
678 {
679 my_esp = this->my_spi;
680 other_esp = this->other_spi;
681 }
682 else
683 {
684 my_ah = this->my_spi;
685 other_ah = this->other_spi;
686 }
687 /* enumerate pairs of traffic selectors */
688 enumerator = create_policy_enumerator(this);
689 while (enumerator->enumerate(enumerator, &my_ts, &other_ts))
690 {
691 /* install 3 policies: out, in and forward */
692 status |= hydra->kernel_interface->add_policy(
693 hydra->kernel_interface,
694 this->my_addr, this->other_addr, my_ts, other_ts,
695 POLICY_OUT, POLICY_IPSEC, other_esp, other_ah,
696 this->reqid, this->mark_out, this->mode,
697 this->ipcomp, this->other_cpi, routed);
698
699 status |= hydra->kernel_interface->add_policy(
700 hydra->kernel_interface,
701 this->other_addr, this->my_addr, other_ts, my_ts,
702 POLICY_IN, POLICY_IPSEC, my_esp, my_ah,
703 this->reqid, this->mark_in, this->mode,
704 this->ipcomp, this->my_cpi, routed);
705 if (this->mode != MODE_TRANSPORT)
706 {
707 status |= hydra->kernel_interface->add_policy(
708 hydra->kernel_interface,
709 this->other_addr, this->my_addr, other_ts, my_ts,
710 POLICY_FWD, POLICY_IPSEC, my_esp, my_ah,
711 this->reqid, this->mark_in, this->mode,
712 this->ipcomp, this->my_cpi, routed);
713 }
714
715 if (status != SUCCESS)
716 {
717 break;
718 }
719 }
720 enumerator->destroy(enumerator);
721 }
722
723 if (status == SUCCESS && this->state == CHILD_CREATED)
724 { /* switch to routed state if no SAD entry set up */
725 set_state(this, CHILD_ROUTED);
726 }
727 return status;
728 }
729
730 METHOD(child_sa_t, update, status_t,
731 private_child_sa_t *this, host_t *me, host_t *other, host_t *vip,
732 bool encap)
733 {
734 child_sa_state_t old;
735 bool transport_proxy_mode;
736
737 /* anything changed at all? */
738 if (me->equals(me, this->my_addr) &&
739 other->equals(other, this->other_addr) && this->encap == encap)
740 {
741 return SUCCESS;
742 }
743
744 old = this->state;
745 set_state(this, CHILD_UPDATING);
746 transport_proxy_mode = this->config->use_proxy_mode(this->config) &&
747 this->mode == MODE_TRANSPORT;
748
749 if (!transport_proxy_mode)
750 {
751 /* update our (initator) SA */
752 if (this->my_spi)
753 {
754 if (hydra->kernel_interface->update_sa(hydra->kernel_interface,
755 this->my_spi, proto_ike2ip(this->protocol),
756 this->ipcomp != IPCOMP_NONE ? this->my_cpi : 0,
757 this->other_addr, this->my_addr, other, me,
758 this->encap, encap, this->mark_in) == NOT_SUPPORTED)
759 {
760 return NOT_SUPPORTED;
761 }
762 }
763
764 /* update his (responder) SA */
765 if (this->other_spi)
766 {
767 if (hydra->kernel_interface->update_sa(hydra->kernel_interface,
768 this->other_spi, proto_ike2ip(this->protocol),
769 this->ipcomp != IPCOMP_NONE ? this->other_cpi : 0,
770 this->my_addr, this->other_addr, me, other,
771 this->encap, encap, this->mark_out) == NOT_SUPPORTED)
772 {
773 return NOT_SUPPORTED;
774 }
775 }
776 }
777
778 if (this->config->install_policy(this->config))
779 {
780 u_int32_t my_esp = 0, my_ah = 0, other_esp = 0, other_ah = 0;
781 if (this->protocol == PROTO_ESP)
782 {
783 my_esp = this->my_spi;
784 other_esp = this->other_spi;
785 }
786 else
787 {
788 my_ah = this->my_spi;
789 other_ah = this->other_spi;
790 }
791 /* update policies */
792 if (!me->ip_equals(me, this->my_addr) ||
793 !other->ip_equals(other, this->other_addr))
794 {
795 enumerator_t *enumerator;
796 traffic_selector_t *my_ts, *other_ts;
797
798 /* always use high priorities, as hosts getting updated are INSTALLED */
799 enumerator = create_policy_enumerator(this);
800 while (enumerator->enumerate(enumerator, &my_ts, &other_ts))
801 {
802 /* remove old policies first */
803 hydra->kernel_interface->del_policy(hydra->kernel_interface,
804 my_ts, other_ts, POLICY_OUT, this->mark_out, FALSE);
805 hydra->kernel_interface->del_policy(hydra->kernel_interface,
806 other_ts, my_ts, POLICY_IN, this->mark_in, FALSE);
807 if (this->mode != MODE_TRANSPORT)
808 {
809 hydra->kernel_interface->del_policy(hydra->kernel_interface,
810 other_ts, my_ts, POLICY_FWD, this->mark_in, FALSE);
811 }
812
813 /* check whether we have to update a "dynamic" traffic selector */
814 if (!me->ip_equals(me, this->my_addr) &&
815 my_ts->is_host(my_ts, this->my_addr))
816 {
817 my_ts->set_address(my_ts, me);
818 }
819 if (!other->ip_equals(other, this->other_addr) &&
820 other_ts->is_host(other_ts, this->other_addr))
821 {
822 other_ts->set_address(other_ts, other);
823 }
824
825 /* we reinstall the virtual IP to handle interface roaming
826 * correctly */
827 if (vip)
828 {
829 hydra->kernel_interface->del_ip(hydra->kernel_interface, vip);
830 hydra->kernel_interface->add_ip(hydra->kernel_interface, vip, me);
831 }
832
833 /* reinstall updated policies */
834 hydra->kernel_interface->add_policy(hydra->kernel_interface,
835 me, other, my_ts, other_ts, POLICY_OUT, POLICY_IPSEC,
836 other_esp, other_ah, this->reqid, this->mark_out,
837 this->mode, this->ipcomp, this->other_cpi, FALSE);
838 hydra->kernel_interface->add_policy(hydra->kernel_interface,
839 other, me, other_ts, my_ts, POLICY_IN, POLICY_IPSEC,
840 my_esp, my_ah, this->reqid, this->mark_in,
841 this->mode, this->ipcomp, this->my_cpi, FALSE);
842 if (this->mode != MODE_TRANSPORT)
843 {
844 hydra->kernel_interface->add_policy(hydra->kernel_interface,
845 other, me, other_ts, my_ts, POLICY_FWD, POLICY_IPSEC,
846 my_esp, my_ah, this->reqid, this->mark_in,
847 this->mode, this->ipcomp, this->my_cpi, FALSE);
848 }
849 }
850 enumerator->destroy(enumerator);
851 }
852 }
853
854 if (!transport_proxy_mode)
855 {
856 /* apply hosts */
857 if (!me->equals(me, this->my_addr))
858 {
859 this->my_addr->destroy(this->my_addr);
860 this->my_addr = me->clone(me);
861 }
862 if (!other->equals(other, this->other_addr))
863 {
864 this->other_addr->destroy(this->other_addr);
865 this->other_addr = other->clone(other);
866 }
867 }
868
869 this->encap = encap;
870 set_state(this, old);
871
872 return SUCCESS;
873 }
874
875 METHOD(child_sa_t, destroy, void,
876 private_child_sa_t *this)
877 {
878 enumerator_t *enumerator;
879 traffic_selector_t *my_ts, *other_ts;
880 bool unrouted = (this->state == CHILD_ROUTED);
881
882 set_state(this, CHILD_DESTROYING);
883
884 /* delete SAs in the kernel, if they are set up */
885 if (this->my_spi)
886 {
887 /* if CHILD was not established, use PROTO_ESP used during alloc_spi().
888 * TODO: For AH support, we have to store protocol specific SPI.s */
889 if (this->protocol == PROTO_NONE)
890 {
891 this->protocol = PROTO_ESP;
892 }
893 hydra->kernel_interface->del_sa(hydra->kernel_interface,
894 this->other_addr, this->my_addr, this->my_spi,
895 proto_ike2ip(this->protocol), this->my_cpi,
896 this->mark_in);
897 }
898 if (this->other_spi)
899 {
900 hydra->kernel_interface->del_sa(hydra->kernel_interface,
901 this->my_addr, this->other_addr, this->other_spi,
902 proto_ike2ip(this->protocol), this->other_cpi,
903 this->mark_out);
904 }
905
906 if (this->config->install_policy(this->config))
907 {
908 /* delete all policies in the kernel */
909 enumerator = create_policy_enumerator(this);
910 while (enumerator->enumerate(enumerator, &my_ts, &other_ts))
911 {
912 hydra->kernel_interface->del_policy(hydra->kernel_interface,
913 my_ts, other_ts, POLICY_OUT, this->mark_out, unrouted);
914 hydra->kernel_interface->del_policy(hydra->kernel_interface,
915 other_ts, my_ts, POLICY_IN, this->mark_in, unrouted);
916 if (this->mode != MODE_TRANSPORT)
917 {
918 hydra->kernel_interface->del_policy(hydra->kernel_interface,
919 other_ts, my_ts, POLICY_FWD, this->mark_in, unrouted);
920 }
921 }
922 enumerator->destroy(enumerator);
923 }
924
925 this->my_ts->destroy_offset(this->my_ts, offsetof(traffic_selector_t, destroy));
926 this->other_ts->destroy_offset(this->other_ts, offsetof(traffic_selector_t, destroy));
927 this->my_addr->destroy(this->my_addr);
928 this->other_addr->destroy(this->other_addr);
929 DESTROY_IF(this->proposal);
930 this->config->destroy(this->config);
931 free(this);
932 }
933
934 /**
935 * Described in header.
936 */
937 child_sa_t * child_sa_create(host_t *me, host_t* other,
938 child_cfg_t *config, u_int32_t rekey, bool encap)
939 {
940 static u_int32_t reqid = 0;
941 private_child_sa_t *this;
942
943 INIT(this,
944 .public = {
945 .get_name = _get_name,
946 .get_reqid = _get_reqid,
947 .get_config = _get_config,
948 .get_state = _get_state,
949 .set_state = _set_state,
950 .get_spi = _get_spi,
951 .get_cpi = _get_cpi,
952 .get_protocol = _get_protocol,
953 .set_protocol = _set_protocol,
954 .get_mode = _get_mode,
955 .set_mode = _set_mode,
956 .get_proposal = _get_proposal,
957 .set_proposal = _set_proposal,
958 .get_lifetime = _get_lifetime,
959 .get_usestats = _get_usestats,
960 .has_encap = _has_encap,
961 .get_ipcomp = _get_ipcomp,
962 .set_ipcomp = _set_ipcomp,
963 .get_close_action = _get_close_action,
964 .set_close_action = _set_close_action,
965 .get_dpd_action = _get_dpd_action,
966 .set_dpd_action = _set_dpd_action,
967 .alloc_spi = _alloc_spi,
968 .alloc_cpi = _alloc_cpi,
969 .install = _install,
970 .update = _update,
971 .add_policies = _add_policies,
972 .get_traffic_selectors = _get_traffic_selectors,
973 .create_policy_enumerator = _create_policy_enumerator,
974 .destroy = _destroy,
975 },
976 .my_addr = me->clone(me),
977 .other_addr = other->clone(other),
978 .encap = encap,
979 .ipcomp = IPCOMP_NONE,
980 .state = CHILD_CREATED,
981 .my_ts = linked_list_create(),
982 .other_ts = linked_list_create(),
983 .protocol = PROTO_NONE,
984 .mode = MODE_TUNNEL,
985 .close_action = config->get_close_action(config),
986 .dpd_action = config->get_dpd_action(config),
987 .reqid = config->get_reqid(config),
988 .mark_in = config->get_mark(config, TRUE),
989 .mark_out = config->get_mark(config, FALSE),
990 );
991
992 this->config = config;
993 config->get_ref(config);
994
995 if (!this->reqid)
996 {
997 /* reuse old reqid if we are rekeying an existing CHILD_SA */
998 this->reqid = rekey ? rekey : ++reqid;
999 }
1000
1001 /* MIPv6 proxy transport mode sets SA endpoints to TS hosts */
1002 if (config->get_mode(config) == MODE_TRANSPORT &&
1003 config->use_proxy_mode(config))
1004 {
1005 ts_type_t type;
1006 int family;
1007 chunk_t addr;
1008 host_t *host;
1009 enumerator_t *enumerator;
1010 linked_list_t *my_ts_list, *other_ts_list;
1011 traffic_selector_t *my_ts, *other_ts;
1012
1013 this->mode = MODE_TRANSPORT;
1014
1015 my_ts_list = config->get_traffic_selectors(config, TRUE, NULL, me);
1016 enumerator = my_ts_list->create_enumerator(my_ts_list);
1017 if (enumerator->enumerate(enumerator, &my_ts))
1018 {
1019 if (my_ts->is_host(my_ts, NULL) &&
1020 !my_ts->is_host(my_ts, this->my_addr))
1021 {
1022 type = my_ts->get_type(my_ts);
1023 family = (type == TS_IPV4_ADDR_RANGE) ? AF_INET : AF_INET6;
1024 addr = my_ts->get_from_address(my_ts);
1025 host = host_create_from_chunk(family, addr, 0);
1026 free(addr.ptr);
1027 DBG1(DBG_CHD, "my address: %H is a transport mode proxy for %H",
1028 this->my_addr, host);
1029 this->my_addr->destroy(this->my_addr);
1030 this->my_addr = host;
1031 }
1032 }
1033 enumerator->destroy(enumerator);
1034 my_ts_list->destroy_offset(my_ts_list, offsetof(traffic_selector_t, destroy));
1035
1036 other_ts_list = config->get_traffic_selectors(config, FALSE, NULL, other);
1037 enumerator = other_ts_list->create_enumerator(other_ts_list);
1038 if (enumerator->enumerate(enumerator, &other_ts))
1039 {
1040 if (other_ts->is_host(other_ts, NULL) &&
1041 !other_ts->is_host(other_ts, this->other_addr))
1042 {
1043 type = other_ts->get_type(other_ts);
1044 family = (type == TS_IPV4_ADDR_RANGE) ? AF_INET : AF_INET6;
1045 addr = other_ts->get_from_address(other_ts);
1046 host = host_create_from_chunk(family, addr, 0);
1047 free(addr.ptr);
1048 DBG1(DBG_CHD, "other address: %H is a transport mode proxy for %H",
1049 this->other_addr, host);
1050 this->other_addr->destroy(this->other_addr);
1051 this->other_addr = host;
1052 }
1053 }
1054 enumerator->destroy(enumerator);
1055 other_ts_list->destroy_offset(other_ts_list, offsetof(traffic_selector_t, destroy));
1056 }
1057
1058 return &this->public;
1059 }