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1 /* AS path management routines.
2 * Copyright (C) 1996, 97, 98, 99 Kunihiro Ishiguro
3 * Copyright (C) 2005 Sun Microsystems, Inc.
4 *
5 * This file is part of GNU Zebra.
6 *
7 * GNU Zebra is free software; you can redistribute it and/or modify it
8 * under the terms of the GNU General Public License as published by the
9 * Free Software Foundation; either version 2, or (at your option) any
10 * later version.
11 *
12 * GNU Zebra is distributed in the hope that it will be useful, but
13 * WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15 * General Public License for more details.
16 *
17 * You should have received a copy of the GNU General Public License along
18 * with this program; see the file COPYING; if not, write to the Free Software
19 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
20 */
21
22 #include <zebra.h>
23
24 #include "hash.h"
25 #include "memory.h"
26 #include "vector.h"
27 #include "log.h"
28 #include "stream.h"
29 #include "command.h"
30 #include "jhash.h"
31 #include "queue.h"
32 #include "filter.h"
33
34 #include "bgpd/bgpd.h"
35 #include "bgpd/bgp_aspath.h"
36 #include "bgpd/bgp_debug.h"
37 #include "bgpd/bgp_attr.h"
38 #include "bgpd/bgp_errors.h"
39
40 /* Attr. Flags and Attr. Type Code. */
41 #define AS_HEADER_SIZE 2
42
43 /* Now FOUR octets are used for AS value. */
44 #define AS_VALUE_SIZE sizeof(as_t)
45 /* This is the old one */
46 #define AS16_VALUE_SIZE sizeof(as16_t)
47
48 /* Maximum protocol segment length value */
49 #define AS_SEGMENT_MAX 255
50
51 /* The following length and size macros relate specifically to Quagga's
52 * internal representation of AS-Segments, not per se to the on-wire
53 * sizes and lengths. At present (200508) they sort of match, however
54 * the ONLY functions which should now about the on-wire syntax are
55 * aspath_put, assegment_put and assegment_parse.
56 *
57 * aspath_put returns bytes written, the only definitive record of
58 * size of wire-format attribute..
59 */
60
61 /* Calculated size in bytes of ASN segment data to hold N ASN's */
62 #define ASSEGMENT_DATA_SIZE(N, S) \
63 ((N) * ((S) ? AS_VALUE_SIZE : AS16_VALUE_SIZE))
64
65 /* Calculated size of segment struct to hold N ASN's */
66 #define ASSEGMENT_SIZE(N,S) (AS_HEADER_SIZE + ASSEGMENT_DATA_SIZE (N,S))
67
68 /* AS segment octet length. */
69 #define ASSEGMENT_LEN(X,S) ASSEGMENT_SIZE((X)->length,S)
70
71 /* AS_SEQUENCE segments can be packed together */
72 /* Can the types of X and Y be considered for packing? */
73 #define ASSEGMENT_TYPES_PACKABLE(X, Y) \
74 (((X)->type == (Y)->type) && ((X)->type == AS_SEQUENCE))
75 /* Types and length of X,Y suitable for packing? */
76 #define ASSEGMENTS_PACKABLE(X, Y) \
77 (ASSEGMENT_TYPES_PACKABLE((X), (Y)) \
78 && (((X)->length + (Y)->length) <= AS_SEGMENT_MAX))
79
80 /* As segment header - the on-wire representation
81 * NOT the internal representation!
82 */
83 struct assegment_header {
84 uint8_t type;
85 uint8_t length;
86 };
87
88 /* Hash for aspath. This is the top level structure of AS path. */
89 static struct hash *ashash;
90
91 /* Stream for SNMP. See aspath_snmp_pathseg */
92 static struct stream *snmp_stream;
93
94 /* Callers are required to initialize the memory */
95 static as_t *assegment_data_new(int num)
96 {
97 return (XMALLOC(MTYPE_AS_SEG_DATA, ASSEGMENT_DATA_SIZE(num, 1)));
98 }
99
100 static void assegment_data_free(as_t *asdata)
101 {
102 XFREE(MTYPE_AS_SEG_DATA, asdata);
103 }
104
105 const char *const aspath_segment_type_str[] = {
106 "as-invalid", "as-set", "as-sequence", "as-confed-sequence",
107 "as-confed-set"
108 };
109
110 /* Get a new segment. Note that 0 is an allowed length,
111 * and will result in a segment with no allocated data segment.
112 * the caller should immediately assign data to the segment, as the segment
113 * otherwise is not generally valid
114 */
115 static struct assegment *assegment_new(uint8_t type, unsigned short length)
116 {
117 struct assegment *new;
118
119 new = XCALLOC(MTYPE_AS_SEG, sizeof(struct assegment));
120
121 if (length)
122 new->as = assegment_data_new(length);
123
124 new->length = length;
125 new->type = type;
126
127 return new;
128 }
129
130 static void assegment_free(struct assegment *seg)
131 {
132 if (!seg)
133 return;
134
135 assegment_data_free(seg->as);
136 memset(seg, 0xfe, sizeof(struct assegment));
137 XFREE(MTYPE_AS_SEG, seg);
138
139 return;
140 }
141
142 /* free entire chain of segments */
143 static void assegment_free_all(struct assegment *seg)
144 {
145 struct assegment *prev;
146
147 while (seg) {
148 prev = seg;
149 seg = seg->next;
150 assegment_free(prev);
151 }
152 }
153
154 /* Duplicate just the given assegment and its data */
155 static struct assegment *assegment_dup(struct assegment *seg)
156 {
157 struct assegment *new;
158
159 new = assegment_new(seg->type, seg->length);
160 memcpy(new->as, seg->as, ASSEGMENT_DATA_SIZE(new->length, 1));
161
162 return new;
163 }
164
165 /* Duplicate entire chain of assegments, return the head */
166 static struct assegment *assegment_dup_all(struct assegment *seg)
167 {
168 struct assegment *new = NULL;
169 struct assegment *head = NULL;
170
171 while (seg) {
172 if (head) {
173 new->next = assegment_dup(seg);
174 new = new->next;
175 } else
176 head = new = assegment_dup(seg);
177
178 seg = seg->next;
179 }
180 return head;
181 }
182
183 /* prepend the as number to given segment, given num of times */
184 static struct assegment *assegment_prepend_asns(struct assegment *seg,
185 as_t asnum, int num)
186 {
187 as_t *newas;
188 int i;
189
190 if (!num)
191 return seg;
192
193 if (num >= AS_SEGMENT_MAX)
194 return seg; /* we don't do huge prepends */
195
196 newas = assegment_data_new(seg->length + num);
197 if (newas == NULL)
198 return seg;
199
200 for (i = 0; i < num; i++)
201 newas[i] = asnum;
202
203 memcpy(newas + num, seg->as, ASSEGMENT_DATA_SIZE(seg->length, 1));
204 assegment_data_free(seg->as);
205 seg->as = newas;
206 seg->length += num;
207
208 return seg;
209 }
210
211 /* append given array of as numbers to the segment */
212 static struct assegment *assegment_append_asns(struct assegment *seg,
213 as_t *asnos, int num)
214 {
215 as_t *newas;
216
217 if (!seg)
218 return seg;
219
220 newas = XREALLOC(MTYPE_AS_SEG_DATA, seg->as,
221 ASSEGMENT_DATA_SIZE(seg->length + num, 1));
222
223 seg->as = newas;
224 memcpy(seg->as + seg->length, asnos,
225 ASSEGMENT_DATA_SIZE(num, 1));
226 seg->length += num;
227 return seg;
228 }
229
230 static int int_cmp(const void *p1, const void *p2)
231 {
232 const as_t *as1 = p1;
233 const as_t *as2 = p2;
234
235 return (*as1 == *as2) ? 0 : ((*as1 > *as2) ? 1 : -1);
236 }
237
238 /* normalise the segment.
239 * In particular, merge runs of AS_SEQUENCEs into one segment
240 * Internally, we do not care about the wire segment length limit, and
241 * we want each distinct AS_PATHs to have the exact same internal
242 * representation - eg, so that our hashing actually works..
243 */
244 static struct assegment *assegment_normalise(struct assegment *head)
245 {
246 struct assegment *seg = head, *pin;
247 struct assegment *tmp;
248
249 if (!head)
250 return head;
251
252 while (seg) {
253 pin = seg;
254
255 /* Sort values SET segments, for determinism in paths to aid
256 * creation of hash values / path comparisons
257 * and because it helps other lesser implementations ;)
258 */
259 if (seg->type == AS_SET || seg->type == AS_CONFED_SET) {
260 int tail = 0;
261 int i;
262
263 qsort(seg->as, seg->length, sizeof(as_t), int_cmp);
264
265 /* weed out dupes */
266 for (i = 1; i < seg->length; i++) {
267 if (seg->as[tail] == seg->as[i])
268 continue;
269
270 tail++;
271 if (tail < i)
272 seg->as[tail] = seg->as[i];
273 }
274 /* seg->length can be 0.. */
275 if (seg->length)
276 seg->length = tail + 1;
277 }
278
279 /* read ahead from the current, pinned segment while the
280 * segments
281 * are packable/mergeable. Append all following packable
282 * segments
283 * to the segment we have pinned and remove these appended
284 * segments.
285 */
286 while (pin->next && ASSEGMENT_TYPES_PACKABLE(pin, pin->next)) {
287 tmp = pin->next;
288 seg = pin->next;
289
290 /* append the next sequence to the pinned sequence */
291 pin = assegment_append_asns(pin, seg->as, seg->length);
292
293 /* bypass the next sequence */
294 pin->next = seg->next;
295
296 /* get rid of the now referenceless segment */
297 assegment_free(tmp);
298 }
299
300 seg = pin->next;
301 }
302 return head;
303 }
304
305 static struct aspath *aspath_new(void)
306 {
307 return XCALLOC(MTYPE_AS_PATH, sizeof(struct aspath));
308 }
309
310 /* Free AS path structure. */
311 void aspath_free(struct aspath *aspath)
312 {
313 if (!aspath)
314 return;
315 if (aspath->segments)
316 assegment_free_all(aspath->segments);
317 XFREE(MTYPE_AS_STR, aspath->str);
318
319 if (aspath->json) {
320 json_object_free(aspath->json);
321 aspath->json = NULL;
322 }
323
324 XFREE(MTYPE_AS_PATH, aspath);
325 }
326
327 /* Unintern aspath from AS path bucket. */
328 void aspath_unintern(struct aspath **aspath)
329 {
330 struct aspath *ret;
331 struct aspath *asp;
332
333 if (!*aspath)
334 return;
335
336 asp = *aspath;
337
338 if (asp->refcnt)
339 asp->refcnt--;
340
341 if (asp->refcnt == 0) {
342 /* This aspath must exist in aspath hash table. */
343 ret = hash_release(ashash, asp);
344 assert(ret != NULL);
345 aspath_free(asp);
346 *aspath = NULL;
347 }
348 }
349
350 /* Return the start or end delimiters for a particular Segment type */
351 #define AS_SEG_START 0
352 #define AS_SEG_END 1
353 static char aspath_delimiter_char(uint8_t type, uint8_t which)
354 {
355 int i;
356 struct {
357 int type;
358 char start;
359 char end;
360 } aspath_delim_char[] = {{AS_SET, '{', '}'},
361 {AS_CONFED_SET, '[', ']'},
362 {AS_CONFED_SEQUENCE, '(', ')'},
363 {0}};
364
365 for (i = 0; aspath_delim_char[i].type != 0; i++) {
366 if (aspath_delim_char[i].type == type) {
367 if (which == AS_SEG_START)
368 return aspath_delim_char[i].start;
369 else if (which == AS_SEG_END)
370 return aspath_delim_char[i].end;
371 }
372 }
373 return ' ';
374 }
375
376 /* countup asns from this segment and index onward */
377 static int assegment_count_asns(struct assegment *seg, int from)
378 {
379 int count = 0;
380 while (seg) {
381 if (!from)
382 count += seg->length;
383 else {
384 count += (seg->length - from);
385 from = 0;
386 }
387 seg = seg->next;
388 }
389 return count;
390 }
391
392 unsigned int aspath_count_confeds(struct aspath *aspath)
393 {
394 int count = 0;
395 struct assegment *seg = aspath->segments;
396
397 while (seg) {
398 if (seg->type == AS_CONFED_SEQUENCE)
399 count += seg->length;
400 else if (seg->type == AS_CONFED_SET)
401 count++;
402
403 seg = seg->next;
404 }
405 return count;
406 }
407
408 unsigned int aspath_count_hops(const struct aspath *aspath)
409 {
410 int count = 0;
411 struct assegment *seg = aspath->segments;
412
413 while (seg) {
414 if (seg->type == AS_SEQUENCE)
415 count += seg->length;
416 else if (seg->type == AS_SET)
417 count++;
418
419 seg = seg->next;
420 }
421 return count;
422 }
423
424 /* Check if aspath has AS_SET or AS_CONFED_SET */
425 bool aspath_check_as_sets(struct aspath *aspath)
426 {
427 struct assegment *seg = aspath->segments;
428
429 while (seg) {
430 if (seg->type == AS_SET || seg->type == AS_CONFED_SET)
431 return true;
432 seg = seg->next;
433 }
434 return false;
435 }
436
437 /* Check if aspath has BGP_AS_ZERO */
438 bool aspath_check_as_zero(struct aspath *aspath)
439 {
440 struct assegment *seg = aspath->segments;
441 unsigned int i;
442
443 while (seg) {
444 for (i = 0; i < seg->length; i++)
445 if (seg->as[i] == BGP_AS_ZERO)
446 return true;
447 seg = seg->next;
448 }
449
450 return false;
451 }
452
453 /* Estimate size aspath /might/ take if encoded into an
454 * ASPATH attribute.
455 *
456 * This is a quick estimate, not definitive! aspath_put()
457 * may return a different number!!
458 */
459 unsigned int aspath_size(struct aspath *aspath)
460 {
461 int size = 0;
462 struct assegment *seg = aspath->segments;
463
464 while (seg) {
465 size += ASSEGMENT_SIZE(seg->length, 1);
466 seg = seg->next;
467 }
468 return size;
469 }
470
471 /* Return highest public ASN in path */
472 as_t aspath_highest(struct aspath *aspath)
473 {
474 struct assegment *seg = aspath->segments;
475 as_t highest = 0;
476 unsigned int i;
477
478 while (seg) {
479 for (i = 0; i < seg->length; i++)
480 if (seg->as[i] > highest
481 && !BGP_AS_IS_PRIVATE(seg->as[i]))
482 highest = seg->as[i];
483 seg = seg->next;
484 }
485 return highest;
486 }
487
488 /* Return the left-most ASN in path */
489 as_t aspath_leftmost(struct aspath *aspath)
490 {
491 struct assegment *seg = aspath->segments;
492 as_t leftmost = 0;
493
494 if (seg && seg->length && seg->type == AS_SEQUENCE)
495 leftmost = seg->as[0];
496
497 return leftmost;
498 }
499
500 /* Return 1 if there are any 4-byte ASes in the path */
501 bool aspath_has_as4(struct aspath *aspath)
502 {
503 struct assegment *seg = aspath->segments;
504 unsigned int i;
505
506 while (seg) {
507 for (i = 0; i < seg->length; i++)
508 if (seg->as[i] > BGP_AS_MAX)
509 return true;
510 seg = seg->next;
511 }
512 return false;
513 }
514
515 /* Convert aspath structure to string expression. */
516 static void aspath_make_str_count(struct aspath *as, bool make_json)
517 {
518 struct assegment *seg;
519 int str_size;
520 int len = 0;
521 char *str_buf;
522 json_object *jaspath_segments = NULL;
523 json_object *jseg = NULL;
524 json_object *jseg_list = NULL;
525
526 if (make_json) {
527 as->json = json_object_new_object();
528 jaspath_segments = json_object_new_array();
529 }
530
531 /* Empty aspath. */
532 if (!as->segments) {
533 if (make_json) {
534 json_object_string_add(as->json, "string", "Local");
535 json_object_object_add(as->json, "segments",
536 jaspath_segments);
537 json_object_int_add(as->json, "length", 0);
538 }
539 as->str = XMALLOC(MTYPE_AS_STR, 1);
540 as->str[0] = '\0';
541 as->str_len = 0;
542 return;
543 }
544
545 seg = as->segments;
546
547 /* ASN takes 5 to 10 chars plus separator, see below.
548 * If there is one differing segment type, we need an additional
549 * 2 chars for segment delimiters, and the final '\0'.
550 * Hopefully this is large enough to avoid hitting the realloc
551 * code below for most common sequences.
552 *
553 * This was changed to 10 after the well-known BGP assertion, which
554 * had hit some parts of the Internet in May of 2009.
555 */
556 #define ASN_STR_LEN (10 + 1)
557 str_size = MAX(assegment_count_asns(seg, 0) * ASN_STR_LEN + 2 + 1,
558 ASPATH_STR_DEFAULT_LEN);
559 str_buf = XMALLOC(MTYPE_AS_STR, str_size);
560
561 while (seg) {
562 int i;
563 char separator;
564
565 /* Check AS type validity. Set separator for segment */
566 switch (seg->type) {
567 case AS_SET:
568 case AS_CONFED_SET:
569 separator = ',';
570 break;
571 case AS_SEQUENCE:
572 case AS_CONFED_SEQUENCE:
573 separator = ' ';
574 break;
575 default:
576 XFREE(MTYPE_AS_STR, str_buf);
577 as->str = NULL;
578 as->str_len = 0;
579 json_object_free(as->json);
580 as->json = NULL;
581
582 return;
583 }
584
585 /* We might need to increase str_buf, particularly if path has
586 * differing segments types, our initial guesstimate above will
587 * have been wrong. Need 10 chars for ASN, a separator each and
588 * potentially two segment delimiters, plus a space between each
589 * segment and trailing zero.
590 *
591 * This definitely didn't work with the value of 5 bytes and
592 * 32-bit ASNs.
593 */
594 #define SEGMENT_STR_LEN(X) (((X)->length * ASN_STR_LEN) + 2 + 1 + 1)
595 if ((len + SEGMENT_STR_LEN(seg)) > str_size) {
596 str_size = len + SEGMENT_STR_LEN(seg);
597 str_buf = XREALLOC(MTYPE_AS_STR, str_buf, str_size);
598 }
599 #undef ASN_STR_LEN
600 #undef SEGMENT_STR_LEN
601
602 if (seg->type != AS_SEQUENCE)
603 len += snprintf(
604 str_buf + len, str_size - len, "%c",
605 aspath_delimiter_char(seg->type, AS_SEG_START));
606
607 if (make_json)
608 jseg_list = json_object_new_array();
609
610 /* write out the ASNs, with their separators, bar the last one*/
611 for (i = 0; i < seg->length; i++) {
612 if (make_json)
613 json_object_array_add(
614 jseg_list,
615 json_object_new_int64(seg->as[i]));
616
617 len += snprintf(str_buf + len, str_size - len, "%u",
618 seg->as[i]);
619
620 if (i < (seg->length - 1))
621 len += snprintf(str_buf + len, str_size - len,
622 "%c", separator);
623 }
624
625 if (make_json) {
626 jseg = json_object_new_object();
627 json_object_string_add(
628 jseg, "type",
629 aspath_segment_type_str[seg->type]);
630 json_object_object_add(jseg, "list", jseg_list);
631 json_object_array_add(jaspath_segments, jseg);
632 }
633
634 if (seg->type != AS_SEQUENCE)
635 len += snprintf(
636 str_buf + len, str_size - len, "%c",
637 aspath_delimiter_char(seg->type, AS_SEG_END));
638 if (seg->next)
639 len += snprintf(str_buf + len, str_size - len, " ");
640
641 seg = seg->next;
642 }
643
644 assert(len < str_size);
645
646 str_buf[len] = '\0';
647 as->str = str_buf;
648 as->str_len = len;
649
650 if (make_json) {
651 json_object_string_add(as->json, "string", str_buf);
652 json_object_object_add(as->json, "segments", jaspath_segments);
653 json_object_int_add(as->json, "length", aspath_count_hops(as));
654 }
655
656 return;
657 }
658
659 void aspath_str_update(struct aspath *as, bool make_json)
660 {
661 XFREE(MTYPE_AS_STR, as->str);
662
663 if (as->json) {
664 json_object_free(as->json);
665 as->json = NULL;
666 }
667
668 aspath_make_str_count(as, make_json);
669 }
670
671 /* Intern allocated AS path. */
672 struct aspath *aspath_intern(struct aspath *aspath)
673 {
674 struct aspath *find;
675
676 /* Assert this AS path structure is not interned and has the string
677 representation built. */
678 assert(aspath->refcnt == 0);
679 assert(aspath->str);
680
681 /* Check AS path hash. */
682 find = hash_get(ashash, aspath, hash_alloc_intern);
683 if (find != aspath)
684 aspath_free(aspath);
685
686 find->refcnt++;
687
688 return find;
689 }
690
691 /* Duplicate aspath structure. Created same aspath structure but
692 reference count and AS path string is cleared. */
693 struct aspath *aspath_dup(struct aspath *aspath)
694 {
695 unsigned short buflen = aspath->str_len + 1;
696 struct aspath *new;
697
698 new = XCALLOC(MTYPE_AS_PATH, sizeof(struct aspath));
699 new->json = NULL;
700
701 if (aspath->segments)
702 new->segments = assegment_dup_all(aspath->segments);
703
704 if (!aspath->str)
705 return new;
706
707 new->str = XMALLOC(MTYPE_AS_STR, buflen);
708 new->str_len = aspath->str_len;
709
710 /* copy the string data */
711 if (aspath->str_len > 0)
712 memcpy(new->str, aspath->str, buflen);
713 else
714 new->str[0] = '\0';
715
716 return new;
717 }
718
719 static void *aspath_hash_alloc(void *arg)
720 {
721 const struct aspath *aspath = arg;
722 struct aspath *new;
723
724 /* Malformed AS path value. */
725 assert(aspath->str);
726
727 /* New aspath structure is needed. */
728 new = XMALLOC(MTYPE_AS_PATH, sizeof(struct aspath));
729
730 /* Reuse segments and string representation */
731 new->refcnt = 0;
732 new->segments = aspath->segments;
733 new->str = aspath->str;
734 new->str_len = aspath->str_len;
735 new->json = aspath->json;
736
737 return new;
738 }
739
740 /* parse as-segment byte stream in struct assegment */
741 static int assegments_parse(struct stream *s, size_t length,
742 struct assegment **result, int use32bit)
743 {
744 struct assegment_header segh;
745 struct assegment *seg, *prev = NULL, *head = NULL;
746 size_t bytes = 0;
747
748 /* empty aspath (ie iBGP or somesuch) */
749 if (length == 0)
750 return 0;
751
752 if (BGP_DEBUG(as4, AS4_SEGMENT))
753 zlog_debug(
754 "[AS4SEG] Parse aspath segment: got total byte length %lu",
755 (unsigned long)length);
756 /* basic checks */
757 if ((STREAM_READABLE(s) < length)
758 || (STREAM_READABLE(s) < AS_HEADER_SIZE)
759 || (length % AS16_VALUE_SIZE))
760 return -1;
761
762 while (bytes < length) {
763 int i;
764 size_t seg_size;
765
766 if ((length - bytes) <= AS_HEADER_SIZE) {
767 if (head)
768 assegment_free_all(head);
769 return -1;
770 }
771
772 /* softly softly, get the header first on its own */
773 segh.type = stream_getc(s);
774 segh.length = stream_getc(s);
775
776 seg_size = ASSEGMENT_SIZE(segh.length, use32bit);
777
778 if (BGP_DEBUG(as4, AS4_SEGMENT))
779 zlog_debug(
780 "[AS4SEG] Parse aspath segment: got type %d, length %d",
781 segh.type, segh.length);
782
783 /* check it.. */
784 if (((bytes + seg_size) > length)
785 /* 1771bis 4.3b: seg length contains one or more */
786 || (segh.length == 0)
787 /* Paranoia in case someone changes type of segment length.
788 * Shift both values by 0x10 to make the comparison operate
789 * on more, than 8 bits (otherwise it's a warning, bug
790 * #564).
791 */
792 || ((sizeof(segh.length) > 1)
793 && (0x10 + segh.length > 0x10 + AS_SEGMENT_MAX))) {
794 if (head)
795 assegment_free_all(head);
796 return -1;
797 }
798
799 switch (segh.type) {
800 case AS_SEQUENCE:
801 case AS_SET:
802 case AS_CONFED_SEQUENCE:
803 case AS_CONFED_SET:
804 break;
805 default:
806 if (head)
807 assegment_free_all(head);
808 return -1;
809 }
810
811 /* now its safe to trust lengths */
812 seg = assegment_new(segh.type, segh.length);
813
814 if (head)
815 prev->next = seg;
816 else /* it's the first segment */
817 head = seg;
818
819 for (i = 0; i < segh.length; i++)
820 seg->as[i] =
821 (use32bit) ? stream_getl(s) : stream_getw(s);
822
823 bytes += seg_size;
824
825 if (BGP_DEBUG(as4, AS4_SEGMENT))
826 zlog_debug(
827 "[AS4SEG] Parse aspath segment: Bytes now: %lu",
828 (unsigned long)bytes);
829
830 prev = seg;
831 }
832
833 *result = assegment_normalise(head);
834 return 0;
835 }
836
837 /* AS path parse function. pnt is a pointer to byte stream and length
838 is length of byte stream. If there is same AS path in the the AS
839 path hash then return it else make new AS path structure.
840
841 On error NULL is returned.
842 */
843 struct aspath *aspath_parse(struct stream *s, size_t length, int use32bit)
844 {
845 struct aspath as;
846 struct aspath *find;
847
848 /* If length is odd it's malformed AS path. */
849 /* Nit-picking: if (use32bit == 0) it is malformed if odd,
850 * otherwise its malformed when length is larger than 2 and (length-2)
851 * is not dividable by 4.
852 * But... this time we're lazy
853 */
854 if (length % AS16_VALUE_SIZE)
855 return NULL;
856
857 memset(&as, 0, sizeof(as));
858 if (assegments_parse(s, length, &as.segments, use32bit) < 0)
859 return NULL;
860
861 /* If already same aspath exist then return it. */
862 find = hash_get(ashash, &as, aspath_hash_alloc);
863
864 /* if the aspath was already hashed free temporary memory. */
865 if (find->refcnt) {
866 assegment_free_all(as.segments);
867 /* aspath_key_make() always updates the string */
868 XFREE(MTYPE_AS_STR, as.str);
869 if (as.json) {
870 json_object_free(as.json);
871 as.json = NULL;
872 }
873 }
874
875 find->refcnt++;
876
877 return find;
878 }
879
880 static void assegment_data_put(struct stream *s, as_t *as, int num,
881 int use32bit)
882 {
883 int i;
884 assert(num <= AS_SEGMENT_MAX);
885
886 for (i = 0; i < num; i++)
887 if (use32bit)
888 stream_putl(s, as[i]);
889 else {
890 if (as[i] <= BGP_AS_MAX)
891 stream_putw(s, as[i]);
892 else
893 stream_putw(s, BGP_AS_TRANS);
894 }
895 }
896
897 static size_t assegment_header_put(struct stream *s, uint8_t type, int length)
898 {
899 size_t lenp;
900 assert(length <= AS_SEGMENT_MAX);
901 stream_putc(s, type);
902 lenp = stream_get_endp(s);
903 stream_putc(s, length);
904 return lenp;
905 }
906
907 /* write aspath data to stream */
908 size_t aspath_put(struct stream *s, struct aspath *as, int use32bit)
909 {
910 struct assegment *seg = as->segments;
911 size_t bytes = 0;
912
913 if (!seg || seg->length == 0)
914 return 0;
915
916 /*
917 * Hey, what do we do when we have > STREAM_WRITABLE(s) here?
918 * At the moment, we would write out a partial aspath, and our
919 * peer
920 * will complain and drop the session :-/
921 *
922 * The general assumption here is that many things tested will
923 * never happen. And, in real live, up to now, they have not.
924 */
925 while (seg && (ASSEGMENT_LEN(seg, use32bit) <= STREAM_WRITEABLE(s))) {
926 struct assegment *next = seg->next;
927 int written = 0;
928 int asns_packed = 0;
929 size_t lenp;
930
931 /* Overlength segments have to be split up */
932 while ((seg->length - written) > AS_SEGMENT_MAX) {
933 assegment_header_put(s, seg->type, AS_SEGMENT_MAX);
934 assegment_data_put(s, (seg->as + written),
935 AS_SEGMENT_MAX, use32bit);
936 written += AS_SEGMENT_MAX;
937 bytes += ASSEGMENT_SIZE(AS_SEGMENT_MAX, use32bit);
938 }
939
940 /* write the final segment, probably is also the first
941 */
942 lenp = assegment_header_put(s, seg->type,
943 seg->length - written);
944 assegment_data_put(s, (seg->as + written),
945 seg->length - written, use32bit);
946
947 /* Sequence-type segments can be 'packed' together
948 * Case of a segment which was overlength and split up
949 * will be missed here, but that doesn't matter.
950 */
951 while (next && ASSEGMENTS_PACKABLE(seg, next)) {
952 /* NB: We should never normally get here given
953 * we
954 * normalise aspath data when parse them.
955 * However, better
956 * safe than sorry. We potentially could call
957 * assegment_normalise here instead, but it's
958 * cheaper and
959 * easier to do it on the fly here rather than
960 * go through
961 * the segment list twice every time we write
962 * out
963 * aspath's.
964 */
965
966 /* Next segment's data can fit in this one */
967 assegment_data_put(s, next->as, next->length, use32bit);
968
969 /* update the length of the segment header */
970 stream_putc_at(s, lenp,
971 seg->length - written + next->length);
972 asns_packed += next->length;
973
974 next = next->next;
975 }
976
977 bytes += ASSEGMENT_SIZE(seg->length - written + asns_packed,
978 use32bit);
979 seg = next;
980 }
981 return bytes;
982 }
983
984 /* This is for SNMP BGP4PATHATTRASPATHSEGMENT
985 * We have no way to manage the storage, so we use a static stream
986 * wrapper around aspath_put.
987 */
988 uint8_t *aspath_snmp_pathseg(struct aspath *as, size_t *varlen)
989 {
990 #define SNMP_PATHSEG_MAX 1024
991
992 if (!snmp_stream)
993 snmp_stream = stream_new(SNMP_PATHSEG_MAX);
994 else
995 stream_reset(snmp_stream);
996
997 if (!as) {
998 *varlen = 0;
999 return NULL;
1000 }
1001 aspath_put(snmp_stream, as, 0); /* use 16 bit for now here */
1002
1003 *varlen = stream_get_endp(snmp_stream);
1004 return stream_pnt(snmp_stream);
1005 }
1006
1007 static struct assegment *aspath_aggregate_as_set_add(struct aspath *aspath,
1008 struct assegment *asset,
1009 as_t as)
1010 {
1011 int i;
1012
1013 /* If this is first AS set member, create new as-set segment. */
1014 if (asset == NULL) {
1015 asset = assegment_new(AS_SET, 1);
1016 if (!aspath->segments)
1017 aspath->segments = asset;
1018 else {
1019 struct assegment *seg = aspath->segments;
1020 while (seg->next)
1021 seg = seg->next;
1022 seg->next = asset;
1023 }
1024 asset->type = AS_SET;
1025 asset->length = 1;
1026 asset->as[0] = as;
1027 } else {
1028 /* Check this AS value already exists or not. */
1029 for (i = 0; i < asset->length; i++)
1030 if (asset->as[i] == as)
1031 return asset;
1032
1033 asset->length++;
1034 asset->as = XREALLOC(MTYPE_AS_SEG_DATA, asset->as,
1035 asset->length * AS_VALUE_SIZE);
1036 asset->as[asset->length - 1] = as;
1037 }
1038
1039
1040 return asset;
1041 }
1042
1043 /* Modify as1 using as2 for aggregation. */
1044 struct aspath *aspath_aggregate(struct aspath *as1, struct aspath *as2)
1045 {
1046 int i;
1047 int minlen = 0;
1048 int match = 0;
1049 int from;
1050 struct assegment *seg1 = as1->segments;
1051 struct assegment *seg2 = as2->segments;
1052 struct aspath *aspath = NULL;
1053 struct assegment *asset = NULL;
1054 struct assegment *prevseg = NULL;
1055
1056 /* First of all check common leading sequence. */
1057 while (seg1 && seg2) {
1058 /* Check segment type. */
1059 if (seg1->type != seg2->type)
1060 break;
1061
1062 /* Minimum segment length. */
1063 minlen = MIN(seg1->length, seg2->length);
1064
1065 for (match = 0; match < minlen; match++)
1066 if (seg1->as[match] != seg2->as[match])
1067 break;
1068
1069 if (match) {
1070 struct assegment *seg = assegment_new(seg1->type, 0);
1071
1072 seg = assegment_append_asns(seg, seg1->as, match);
1073
1074 if (!aspath) {
1075 aspath = aspath_new();
1076 aspath->segments = seg;
1077 } else
1078 prevseg->next = seg;
1079
1080 prevseg = seg;
1081 }
1082
1083 if (match != minlen || match != seg1->length
1084 || seg1->length != seg2->length)
1085 break;
1086 /* We are moving on to the next segment to reset match */
1087 else
1088 match = 0;
1089
1090 seg1 = seg1->next;
1091 seg2 = seg2->next;
1092 }
1093
1094 if (!aspath)
1095 aspath = aspath_new();
1096
1097 /* Make as-set using rest of all information. */
1098 from = match;
1099 while (seg1) {
1100 for (i = from; i < seg1->length; i++)
1101 asset = aspath_aggregate_as_set_add(aspath, asset,
1102 seg1->as[i]);
1103
1104 from = 0;
1105 seg1 = seg1->next;
1106 }
1107
1108 from = match;
1109 while (seg2) {
1110 for (i = from; i < seg2->length; i++)
1111 asset = aspath_aggregate_as_set_add(aspath, asset,
1112 seg2->as[i]);
1113
1114 from = 0;
1115 seg2 = seg2->next;
1116 }
1117
1118 assegment_normalise(aspath->segments);
1119 aspath_str_update(aspath, false);
1120 return aspath;
1121 }
1122
1123 /* When a BGP router receives an UPDATE with an MP_REACH_NLRI
1124 attribute, check the leftmost AS number in the AS_PATH attribute is
1125 or not the peer's AS number. */
1126 bool aspath_firstas_check(struct aspath *aspath, as_t asno)
1127 {
1128 if ((aspath == NULL) || (aspath->segments == NULL))
1129 return false;
1130
1131 if (aspath->segments && (aspath->segments->type == AS_SEQUENCE)
1132 && (aspath->segments->as[0] == asno))
1133 return true;
1134
1135 return false;
1136 }
1137
1138 unsigned int aspath_get_first_as(struct aspath *aspath)
1139 {
1140 if (aspath == NULL || aspath->segments == NULL)
1141 return 0;
1142
1143 return aspath->segments->as[0];
1144 }
1145
1146 unsigned int aspath_get_last_as(struct aspath *aspath)
1147 {
1148 int i;
1149 unsigned int last_as = 0;
1150 const struct assegment *seg;
1151
1152 if (aspath == NULL || aspath->segments == NULL)
1153 return last_as;
1154
1155 seg = aspath->segments;
1156
1157 while (seg) {
1158 if (seg->type == AS_SEQUENCE || seg->type == AS_CONFED_SEQUENCE)
1159 for (i = 0; i < seg->length; i++)
1160 last_as = seg->as[i];
1161 seg = seg->next;
1162 }
1163
1164 return last_as;
1165 }
1166
1167 /* AS path loop check. If aspath contains asno then return >= 1. */
1168 int aspath_loop_check(struct aspath *aspath, as_t asno)
1169 {
1170 struct assegment *seg;
1171 int count = 0;
1172
1173 if ((aspath == NULL) || (aspath->segments == NULL))
1174 return 0;
1175
1176 seg = aspath->segments;
1177
1178 while (seg) {
1179 int i;
1180
1181 for (i = 0; i < seg->length; i++)
1182 if (seg->as[i] == asno)
1183 count++;
1184
1185 seg = seg->next;
1186 }
1187 return count;
1188 }
1189
1190 /* AS path loop check. If aspath contains asno
1191 * that is a confed id then return >= 1.
1192 */
1193 int aspath_loop_check_confed(struct aspath *aspath, as_t asno)
1194 {
1195 struct assegment *seg;
1196 int count = 0;
1197
1198 if (aspath == NULL || aspath->segments == NULL)
1199 return 0;
1200
1201 seg = aspath->segments;
1202
1203 while (seg) {
1204 unsigned int i;
1205
1206 for (i = 0; i < seg->length; i++)
1207 if (seg->type != AS_CONFED_SEQUENCE &&
1208 seg->type != AS_CONFED_SET && seg->as[i] == asno)
1209 count++;
1210
1211 seg = seg->next;
1212 }
1213 return count;
1214 }
1215
1216
1217 /* When all of AS path is private AS return 1. */
1218 bool aspath_private_as_check(struct aspath *aspath)
1219 {
1220 struct assegment *seg;
1221
1222 if (!(aspath && aspath->segments))
1223 return false;
1224
1225 seg = aspath->segments;
1226
1227 while (seg) {
1228 int i;
1229
1230 for (i = 0; i < seg->length; i++) {
1231 if (!BGP_AS_IS_PRIVATE(seg->as[i]))
1232 return false;
1233 }
1234 seg = seg->next;
1235 }
1236 return true;
1237 }
1238
1239 /* Replace all instances of the target ASN with our own ASN */
1240 struct aspath *aspath_replace_specific_asn(struct aspath *aspath,
1241 as_t target_asn, as_t our_asn)
1242 {
1243 struct aspath *new;
1244 struct assegment *seg;
1245
1246 new = aspath_dup(aspath);
1247 seg = new->segments;
1248
1249 while (seg) {
1250 int i;
1251
1252 for (i = 0; i < seg->length; i++) {
1253 if (seg->as[i] == target_asn)
1254 seg->as[i] = our_asn;
1255 }
1256 seg = seg->next;
1257 }
1258
1259 aspath_str_update(new, false);
1260 return new;
1261 }
1262
1263 /* Replace all ASNs with our own ASN */
1264 struct aspath *aspath_replace_all_asn(struct aspath *aspath, as_t our_asn)
1265 {
1266 struct aspath *new;
1267 struct assegment *seg;
1268
1269 new = aspath_dup(aspath);
1270 seg = new->segments;
1271
1272 while (seg) {
1273 int i;
1274
1275 for (i = 0; i < seg->length; i++)
1276 seg->as[i] = our_asn;
1277
1278 seg = seg->next;
1279 }
1280
1281 aspath_str_update(new, false);
1282 return new;
1283 }
1284
1285 /* Replace all private ASNs with our own ASN */
1286 struct aspath *aspath_replace_private_asns(struct aspath *aspath, as_t asn,
1287 as_t peer_asn)
1288 {
1289 struct aspath *new;
1290 struct assegment *seg;
1291
1292 new = aspath_dup(aspath);
1293 seg = new->segments;
1294
1295 while (seg) {
1296 int i;
1297
1298 for (i = 0; i < seg->length; i++) {
1299 /* Don't replace if public ASN or peer's ASN */
1300 if (BGP_AS_IS_PRIVATE(seg->as[i])
1301 && (seg->as[i] != peer_asn))
1302 seg->as[i] = asn;
1303 }
1304 seg = seg->next;
1305 }
1306
1307 aspath_str_update(new, false);
1308 return new;
1309 }
1310
1311 /* Remove all private ASNs */
1312 struct aspath *aspath_remove_private_asns(struct aspath *aspath, as_t peer_asn)
1313 {
1314 struct aspath *new;
1315 struct assegment *seg;
1316 struct assegment *new_seg;
1317 struct assegment *last_new_seg;
1318 int i;
1319 int j;
1320 int public = 0;
1321 int peer = 0;
1322
1323 new = XCALLOC(MTYPE_AS_PATH, sizeof(struct aspath));
1324
1325 new->json = NULL;
1326 new_seg = NULL;
1327 last_new_seg = NULL;
1328 seg = aspath->segments;
1329 while (seg) {
1330 public = 0;
1331 peer = 0;
1332 for (i = 0; i < seg->length; i++) {
1333 // ASN is public
1334 if (!BGP_AS_IS_PRIVATE(seg->as[i]))
1335 public++;
1336 /* ASN matches peer's.
1337 * Don't double-count if peer_asn is public.
1338 */
1339 else if (seg->as[i] == peer_asn)
1340 peer++;
1341 }
1342
1343 // The entire segment is public so copy it
1344 if (public == seg->length)
1345 new_seg = assegment_dup(seg);
1346
1347 // The segment is a mix of public and private ASNs. Copy as many
1348 // spots as
1349 // there are public ASNs then come back and fill in only the
1350 // public ASNs.
1351 else {
1352 /* length needs to account for all retained ASNs
1353 * (public or peer_asn), not just public
1354 */
1355 new_seg = assegment_new(seg->type, (public + peer));
1356 j = 0;
1357 for (i = 0; i < seg->length; i++) {
1358 // keep ASN if public or matches peer's ASN
1359 if (!BGP_AS_IS_PRIVATE(seg->as[i])
1360 || (seg->as[i] == peer_asn)) {
1361 new_seg->as[j] = seg->as[i];
1362 j++;
1363 }
1364 }
1365 }
1366
1367 // This is the first segment so set the aspath segments pointer
1368 // to this one
1369 if (!last_new_seg)
1370 new->segments = new_seg;
1371 else
1372 last_new_seg->next = new_seg;
1373
1374 last_new_seg = new_seg;
1375 seg = seg->next;
1376 }
1377
1378 aspath_str_update(new, false);
1379 return new;
1380 }
1381
1382 /* AS path confed check. If aspath contains confed set or sequence then return
1383 * 1. */
1384 bool aspath_confed_check(struct aspath *aspath)
1385 {
1386 struct assegment *seg;
1387
1388 if (!(aspath && aspath->segments))
1389 return false;
1390
1391 seg = aspath->segments;
1392
1393 while (seg) {
1394 if (seg->type == AS_CONFED_SET
1395 || seg->type == AS_CONFED_SEQUENCE)
1396 return true;
1397 seg = seg->next;
1398 }
1399 return false;
1400 }
1401
1402 /* Leftmost AS path segment confed check. If leftmost AS segment is of type
1403 AS_CONFED_SEQUENCE or AS_CONFED_SET then return 1. */
1404 bool aspath_left_confed_check(struct aspath *aspath)
1405 {
1406
1407 if (!(aspath && aspath->segments))
1408 return false;
1409
1410 if ((aspath->segments->type == AS_CONFED_SEQUENCE)
1411 || (aspath->segments->type == AS_CONFED_SET))
1412 return true;
1413
1414 return false;
1415 }
1416
1417 /* Merge as1 to as2. as2 should be uninterned aspath. */
1418 static struct aspath *aspath_merge(struct aspath *as1, struct aspath *as2)
1419 {
1420 struct assegment *last, *new;
1421
1422 if (!as1 || !as2)
1423 return NULL;
1424
1425 last = new = assegment_dup_all(as1->segments);
1426
1427 /* find the last valid segment */
1428 while (last && last->next)
1429 last = last->next;
1430
1431 if (last)
1432 last->next = as2->segments;
1433 as2->segments = new;
1434 aspath_str_update(as2, false);
1435 return as2;
1436 }
1437
1438 /* Prepend as1 to as2. as2 should be uninterned aspath. */
1439 struct aspath *aspath_prepend(struct aspath *as1, struct aspath *as2)
1440 {
1441 struct assegment *as1segtail;
1442 struct assegment *as2segtail;
1443 struct assegment *as2seghead;
1444
1445 if (!as1 || !as2)
1446 return NULL;
1447
1448 /* If as2 is empty, only need to dupe as1's chain onto as2 */
1449 if (as2->segments == NULL) {
1450 as2->segments = assegment_dup_all(as1->segments);
1451 aspath_str_update(as2, false);
1452 return as2;
1453 }
1454
1455 /* If as1 is empty AS, no prepending to do. */
1456 if (as1->segments == NULL)
1457 return as2;
1458
1459 /* find the tail as1's segment chain. */
1460 as1segtail = as1->segments;
1461 while (as1segtail && as1segtail->next)
1462 as1segtail = as1segtail->next;
1463
1464 /* Delete any AS_CONFED_SEQUENCE segment from as2. */
1465 if (as1segtail->type == AS_SEQUENCE
1466 && as2->segments->type == AS_CONFED_SEQUENCE)
1467 as2 = aspath_delete_confed_seq(as2);
1468
1469 if (!as2->segments) {
1470 as2->segments = assegment_dup_all(as1->segments);
1471 aspath_str_update(as2, false);
1472 return as2;
1473 }
1474
1475 /* Compare last segment type of as1 and first segment type of as2. */
1476 if (as1segtail->type != as2->segments->type)
1477 return aspath_merge(as1, as2);
1478
1479 if (as1segtail->type == AS_SEQUENCE) {
1480 /* We have two chains of segments, as1->segments and seg2,
1481 * and we have to attach them together, merging the attaching
1482 * segments together into one.
1483 *
1484 * 1. dupe as1->segments onto head of as2
1485 * 2. merge seg2's asns onto last segment of this new chain
1486 * 3. attach chain after seg2
1487 */
1488
1489 /* save as2 head */
1490 as2seghead = as2->segments;
1491
1492 /* dupe as1 onto as2's head */
1493 as2segtail = as2->segments = assegment_dup_all(as1->segments);
1494
1495 /* refind the tail of as2 */
1496 while (as2segtail && as2segtail->next)
1497 as2segtail = as2segtail->next;
1498
1499 /* merge the old head, seg2, into tail, seg1 */
1500 assegment_append_asns(as2segtail, as2seghead->as,
1501 as2seghead->length);
1502
1503 /*
1504 * bypass the merged seg2, and attach any chain after it
1505 * to chain descending from as2's head
1506 */
1507 if (as2segtail)
1508 as2segtail->next = as2seghead->next;
1509
1510 /* as2->segments is now referenceless and useless */
1511 assegment_free(as2seghead);
1512
1513 /* we've now prepended as1's segment chain to as2, merging
1514 * the inbetween AS_SEQUENCE of seg2 in the process
1515 */
1516 aspath_str_update(as2, false);
1517 return as2;
1518 } else {
1519 /* AS_SET merge code is needed at here. */
1520 return aspath_merge(as1, as2);
1521 }
1522 /* XXX: Ermmm, what if as1 has multiple segments?? */
1523
1524 /* Not reached */
1525 }
1526
1527 /* Iterate over AS_PATH segments and wipe all occurrences of the
1528 * listed AS numbers. Hence some segments may lose some or even
1529 * all data on the way, the operation is implemented as a smarter
1530 * version of aspath_dup(), which allocates memory to hold the new
1531 * data, not the original. The new AS path is returned.
1532 */
1533 struct aspath *aspath_filter_exclude(struct aspath *source,
1534 struct aspath *exclude_list)
1535 {
1536 struct assegment *srcseg, *exclseg, *lastseg;
1537 struct aspath *newpath;
1538
1539 newpath = aspath_new();
1540 lastseg = NULL;
1541
1542 for (srcseg = source->segments; srcseg; srcseg = srcseg->next) {
1543 unsigned i, y, newlen = 0, done = 0, skip_as;
1544 struct assegment *newseg;
1545
1546 /* Find out, how much ASns are we going to pick from this
1547 * segment.
1548 * We can't perform filtering right inline, because the size of
1549 * the new segment isn't known at the moment yet.
1550 */
1551 for (i = 0; i < srcseg->length; i++) {
1552 skip_as = 0;
1553 for (exclseg = exclude_list->segments;
1554 exclseg && !skip_as; exclseg = exclseg->next)
1555 for (y = 0; y < exclseg->length; y++)
1556 if (srcseg->as[i] == exclseg->as[y]) {
1557 skip_as = 1;
1558 // There's no sense in testing
1559 // the rest of exclusion list,
1560 // bail out.
1561 break;
1562 }
1563 if (!skip_as)
1564 newlen++;
1565 }
1566 /* newlen is now the number of ASns to copy */
1567 if (!newlen)
1568 continue;
1569
1570 /* Actual copying. Allocate memory and iterate once more,
1571 * performing filtering. */
1572 newseg = assegment_new(srcseg->type, newlen);
1573 for (i = 0; i < srcseg->length; i++) {
1574 skip_as = 0;
1575 for (exclseg = exclude_list->segments;
1576 exclseg && !skip_as; exclseg = exclseg->next)
1577 for (y = 0; y < exclseg->length; y++)
1578 if (srcseg->as[i] == exclseg->as[y]) {
1579 skip_as = 1;
1580 break;
1581 }
1582 if (skip_as)
1583 continue;
1584 newseg->as[done++] = srcseg->as[i];
1585 }
1586 /* At his point newlen must be equal to done, and both must be
1587 * positive. Append
1588 * the filtered segment to the gross result. */
1589 if (!lastseg)
1590 newpath->segments = newseg;
1591 else
1592 lastseg->next = newseg;
1593 lastseg = newseg;
1594 }
1595 aspath_str_update(newpath, false);
1596 /* We are happy returning even an empty AS_PATH, because the
1597 * administrator
1598 * might expect this very behaviour. There's a mean to avoid this, if
1599 * necessary,
1600 * by having a match rule against certain AS_PATH regexps in the
1601 * route-map index.
1602 */
1603 aspath_free(source);
1604 return newpath;
1605 }
1606
1607 /* Add specified AS to the leftmost of aspath. */
1608 static struct aspath *aspath_add_asns(struct aspath *aspath, as_t asno,
1609 uint8_t type, unsigned num)
1610 {
1611 struct assegment *assegment = aspath->segments;
1612 unsigned i;
1613
1614 if (assegment && assegment->type == type) {
1615 /* extend existing segment */
1616 aspath->segments =
1617 assegment_prepend_asns(aspath->segments, asno, num);
1618 } else {
1619 /* prepend with new segment */
1620 struct assegment *newsegment = assegment_new(type, num);
1621 for (i = 0; i < num; i++)
1622 newsegment->as[i] = asno;
1623
1624 /* insert potentially replacing empty segment */
1625 if (assegment && assegment->length == 0) {
1626 newsegment->next = assegment->next;
1627 assegment_free(assegment);
1628 } else
1629 newsegment->next = assegment;
1630 aspath->segments = newsegment;
1631 }
1632
1633 aspath_str_update(aspath, false);
1634 return aspath;
1635 }
1636
1637 /* Add specified AS to the leftmost of aspath num times. */
1638 struct aspath *aspath_add_seq_n(struct aspath *aspath, as_t asno, unsigned num)
1639 {
1640 return aspath_add_asns(aspath, asno, AS_SEQUENCE, num);
1641 }
1642
1643 /* Add specified AS to the leftmost of aspath. */
1644 struct aspath *aspath_add_seq(struct aspath *aspath, as_t asno)
1645 {
1646 return aspath_add_asns(aspath, asno, AS_SEQUENCE, 1);
1647 }
1648
1649 /* Compare leftmost AS value for MED check. If as1's leftmost AS and
1650 as2's leftmost AS is same return 1. */
1651 bool aspath_cmp_left(const struct aspath *aspath1, const struct aspath *aspath2)
1652 {
1653 const struct assegment *seg1;
1654 const struct assegment *seg2;
1655
1656 if (!(aspath1 && aspath2))
1657 return false;
1658
1659 seg1 = aspath1->segments;
1660 seg2 = aspath2->segments;
1661
1662 /* If both paths are originated in this AS then we do want to compare
1663 * MED */
1664 if (!seg1 && !seg2)
1665 return true;
1666
1667 /* find first non-confed segments for each */
1668 while (seg1 && ((seg1->type == AS_CONFED_SEQUENCE)
1669 || (seg1->type == AS_CONFED_SET)))
1670 seg1 = seg1->next;
1671
1672 while (seg2 && ((seg2->type == AS_CONFED_SEQUENCE)
1673 || (seg2->type == AS_CONFED_SET)))
1674 seg2 = seg2->next;
1675
1676 /* Check as1's */
1677 if (!(seg1 && seg2 && (seg1->type == AS_SEQUENCE)
1678 && (seg2->type == AS_SEQUENCE)))
1679 return false;
1680
1681 if (seg1->as[0] == seg2->as[0])
1682 return true;
1683
1684 return false;
1685 }
1686
1687 /* Truncate an aspath after a number of hops, and put the hops remaining
1688 * at the front of another aspath. Needed for AS4 compat.
1689 *
1690 * Returned aspath is a /new/ aspath, which should either by free'd or
1691 * interned by the caller, as desired.
1692 */
1693 struct aspath *aspath_reconcile_as4(struct aspath *aspath,
1694 struct aspath *as4path)
1695 {
1696 struct assegment *seg, *newseg, *prevseg = NULL;
1697 struct aspath *newpath = NULL, *mergedpath;
1698 int hops, cpasns = 0;
1699
1700 if (!aspath || !as4path)
1701 return NULL;
1702
1703 seg = aspath->segments;
1704
1705 /* CONFEDs should get reconciled too.. */
1706 hops = (aspath_count_hops(aspath) + aspath_count_confeds(aspath))
1707 - aspath_count_hops(as4path);
1708
1709 if (hops < 0) {
1710 if (BGP_DEBUG(as4, AS4))
1711 flog_warn(
1712 EC_BGP_ASPATH_FEWER_HOPS,
1713 "[AS4] Fewer hops in AS_PATH than NEW_AS_PATH");
1714 /* Something's gone wrong. The RFC says we should now ignore
1715 * AS4_PATH,
1716 * which is daft behaviour - it contains vital loop-detection
1717 * information which must have been removed from AS_PATH.
1718 */
1719 hops = aspath_count_hops(aspath);
1720 }
1721
1722 if (!hops) {
1723 newpath = aspath_dup(as4path);
1724 aspath_str_update(newpath, false);
1725 return newpath;
1726 }
1727
1728 if (BGP_DEBUG(as4, AS4))
1729 zlog_debug(
1730 "[AS4] got AS_PATH %s and AS4_PATH %s synthesizing now",
1731 aspath->str, as4path->str);
1732
1733 while (seg && hops > 0) {
1734 switch (seg->type) {
1735 case AS_SET:
1736 case AS_CONFED_SET:
1737 hops--;
1738 cpasns = seg->length;
1739 break;
1740 case AS_CONFED_SEQUENCE:
1741 /* Should never split a confed-sequence, if hop-count
1742 * suggests we must then something's gone wrong
1743 * somewhere.
1744 *
1745 * Most important goal is to preserve AS_PATHs prime
1746 * function
1747 * as loop-detector, so we fudge the numbers so that the
1748 * entire
1749 * confed-sequence is merged in.
1750 */
1751 if (hops < seg->length) {
1752 if (BGP_DEBUG(as4, AS4))
1753 zlog_debug(
1754 "[AS4] AS4PATHmangle: AS_CONFED_SEQUENCE falls across 2/4 ASN boundary somewhere, broken..");
1755 hops = seg->length;
1756 }
1757 /* fallthru */
1758 case AS_SEQUENCE:
1759 cpasns = MIN(seg->length, hops);
1760 hops -= seg->length;
1761 }
1762
1763 assert(cpasns <= seg->length);
1764
1765 newseg = assegment_new(seg->type, 0);
1766 newseg = assegment_append_asns(newseg, seg->as, cpasns);
1767
1768 if (!newpath) {
1769 newpath = aspath_new();
1770 newpath->segments = newseg;
1771 } else
1772 prevseg->next = newseg;
1773
1774 prevseg = newseg;
1775 seg = seg->next;
1776 }
1777
1778 /* We may be able to join some segments here, and we must
1779 * do this because... we want normalised aspaths in out hash
1780 * and we do not want to stumble in aspath_put.
1781 */
1782 mergedpath = aspath_merge(newpath, aspath_dup(as4path));
1783 aspath_free(newpath);
1784 mergedpath->segments = assegment_normalise(mergedpath->segments);
1785 aspath_str_update(mergedpath, false);
1786
1787 if (BGP_DEBUG(as4, AS4))
1788 zlog_debug("[AS4] result of synthesizing is %s",
1789 mergedpath->str);
1790
1791 return mergedpath;
1792 }
1793
1794 /* Compare leftmost AS value for MED check. If as1's leftmost AS and
1795 as2's leftmost AS is same return 1. (confederation as-path
1796 only). */
1797 bool aspath_cmp_left_confed(const struct aspath *aspath1,
1798 const struct aspath *aspath2)
1799 {
1800 if (!(aspath1 && aspath2))
1801 return false;
1802
1803 if (!(aspath1->segments && aspath2->segments))
1804 return false;
1805
1806 if ((aspath1->segments->type != AS_CONFED_SEQUENCE)
1807 || (aspath2->segments->type != AS_CONFED_SEQUENCE))
1808 return false;
1809
1810 if (aspath1->segments->as[0] == aspath2->segments->as[0])
1811 return true;
1812
1813 return false;
1814 }
1815
1816 /* Delete all AS_CONFED_SEQUENCE/SET segments from aspath.
1817 * RFC 5065 section 4.1.c.1
1818 *
1819 * 1) if any path segments of the AS_PATH are of the type
1820 * AS_CONFED_SEQUENCE or AS_CONFED_SET, those segments MUST be
1821 * removed from the AS_PATH attribute, leaving the sanitized
1822 * AS_PATH attribute to be operated on by steps 2, 3 or 4.
1823 */
1824 struct aspath *aspath_delete_confed_seq(struct aspath *aspath)
1825 {
1826 struct assegment *seg, *prev, *next;
1827 char removed_confed_segment;
1828
1829 if (!(aspath && aspath->segments))
1830 return aspath;
1831
1832 seg = aspath->segments;
1833 removed_confed_segment = 0;
1834 next = NULL;
1835 prev = NULL;
1836
1837 while (seg) {
1838 next = seg->next;
1839
1840 if (seg->type == AS_CONFED_SEQUENCE
1841 || seg->type == AS_CONFED_SET) {
1842 /* This is the first segment in the aspath */
1843 if (aspath->segments == seg)
1844 aspath->segments = seg->next;
1845 else
1846 prev->next = seg->next;
1847
1848 assegment_free(seg);
1849 removed_confed_segment = 1;
1850 } else
1851 prev = seg;
1852
1853 seg = next;
1854 }
1855
1856 if (removed_confed_segment)
1857 aspath_str_update(aspath, false);
1858
1859 return aspath;
1860 }
1861
1862 /* Add new AS number to the leftmost part of the aspath as
1863 AS_CONFED_SEQUENCE. */
1864 struct aspath *aspath_add_confed_seq(struct aspath *aspath, as_t asno)
1865 {
1866 return aspath_add_asns(aspath, asno, AS_CONFED_SEQUENCE, 1);
1867 }
1868
1869 /* Add new as value to as path structure. */
1870 static void aspath_as_add(struct aspath *as, as_t asno)
1871 {
1872 struct assegment *seg = as->segments;
1873
1874 if (!seg)
1875 return;
1876
1877 /* Last segment search procedure. */
1878 while (seg->next)
1879 seg = seg->next;
1880
1881 assegment_append_asns(seg, &asno, 1);
1882 }
1883
1884 /* Add new as segment to the as path. */
1885 static void aspath_segment_add(struct aspath *as, int type)
1886 {
1887 struct assegment *seg = as->segments;
1888 struct assegment *new = assegment_new(type, 0);
1889
1890 if (seg) {
1891 while (seg->next)
1892 seg = seg->next;
1893 seg->next = new;
1894 } else
1895 as->segments = new;
1896 }
1897
1898 struct aspath *aspath_empty(void)
1899 {
1900 return aspath_parse(NULL, 0, 1); /* 32Bit ;-) */
1901 }
1902
1903 struct aspath *aspath_empty_get(void)
1904 {
1905 struct aspath *aspath;
1906
1907 aspath = aspath_new();
1908 aspath_make_str_count(aspath, false);
1909 return aspath;
1910 }
1911
1912 unsigned long aspath_count(void)
1913 {
1914 return ashash->count;
1915 }
1916
1917 /*
1918 Theoretically, one as path can have:
1919
1920 One BGP packet size should be less than 4096.
1921 One BGP attribute size should be less than 4096 - BGP header size.
1922 One BGP aspath size should be less than 4096 - BGP header size -
1923 BGP mandantry attribute size.
1924 */
1925
1926 /* AS path string lexical token enum. */
1927 enum as_token {
1928 as_token_asval,
1929 as_token_set_start,
1930 as_token_set_end,
1931 as_token_confed_seq_start,
1932 as_token_confed_seq_end,
1933 as_token_confed_set_start,
1934 as_token_confed_set_end,
1935 as_token_unknown
1936 };
1937
1938 /* Return next token and point for string parse. */
1939 static const char *aspath_gettoken(const char *buf, enum as_token *token,
1940 unsigned long *asno)
1941 {
1942 const char *p = buf;
1943
1944 /* Skip separators (space for sequences, ',' for sets). */
1945 while (isspace((unsigned char)*p) || *p == ',')
1946 p++;
1947
1948 /* Check the end of the string and type specify characters
1949 (e.g. {}()). */
1950 switch (*p) {
1951 case '\0':
1952 return NULL;
1953 case '{':
1954 *token = as_token_set_start;
1955 p++;
1956 return p;
1957 case '}':
1958 *token = as_token_set_end;
1959 p++;
1960 return p;
1961 case '(':
1962 *token = as_token_confed_seq_start;
1963 p++;
1964 return p;
1965 case ')':
1966 *token = as_token_confed_seq_end;
1967 p++;
1968 return p;
1969 case '[':
1970 *token = as_token_confed_set_start;
1971 p++;
1972 return p;
1973 case ']':
1974 *token = as_token_confed_set_end;
1975 p++;
1976 return p;
1977 }
1978
1979 /* Check actual AS value. */
1980 if (isdigit((unsigned char)*p)) {
1981 as_t asval;
1982
1983 *token = as_token_asval;
1984 asval = (*p - '0');
1985 p++;
1986
1987 while (isdigit((unsigned char)*p)) {
1988 asval *= 10;
1989 asval += (*p - '0');
1990 p++;
1991 }
1992 *asno = asval;
1993 return p;
1994 }
1995
1996 /* There is no match then return unknown token. */
1997 *token = as_token_unknown;
1998 p++;
1999 return p;
2000 }
2001
2002 struct aspath *aspath_str2aspath(const char *str)
2003 {
2004 enum as_token token = as_token_unknown;
2005 unsigned short as_type;
2006 unsigned long asno = 0;
2007 struct aspath *aspath;
2008 int needtype;
2009
2010 aspath = aspath_new();
2011
2012 /* We start default type as AS_SEQUENCE. */
2013 as_type = AS_SEQUENCE;
2014 needtype = 1;
2015
2016 while ((str = aspath_gettoken(str, &token, &asno)) != NULL) {
2017 switch (token) {
2018 case as_token_asval:
2019 if (needtype) {
2020 aspath_segment_add(aspath, as_type);
2021 needtype = 0;
2022 }
2023 aspath_as_add(aspath, asno);
2024 break;
2025 case as_token_set_start:
2026 as_type = AS_SET;
2027 aspath_segment_add(aspath, as_type);
2028 needtype = 0;
2029 break;
2030 case as_token_set_end:
2031 as_type = AS_SEQUENCE;
2032 needtype = 1;
2033 break;
2034 case as_token_confed_seq_start:
2035 as_type = AS_CONFED_SEQUENCE;
2036 aspath_segment_add(aspath, as_type);
2037 needtype = 0;
2038 break;
2039 case as_token_confed_seq_end:
2040 as_type = AS_SEQUENCE;
2041 needtype = 1;
2042 break;
2043 case as_token_confed_set_start:
2044 as_type = AS_CONFED_SET;
2045 aspath_segment_add(aspath, as_type);
2046 needtype = 0;
2047 break;
2048 case as_token_confed_set_end:
2049 as_type = AS_SEQUENCE;
2050 needtype = 1;
2051 break;
2052 case as_token_unknown:
2053 default:
2054 aspath_free(aspath);
2055 return NULL;
2056 }
2057 }
2058
2059 aspath_make_str_count(aspath, false);
2060
2061 return aspath;
2062 }
2063
2064 /* Make hash value by raw aspath data. */
2065 unsigned int aspath_key_make(const void *p)
2066 {
2067 const struct aspath *aspath = p;
2068 unsigned int key = 0;
2069
2070 if (!aspath->str)
2071 aspath_str_update((struct aspath *)aspath, false);
2072
2073 key = jhash(aspath->str, aspath->str_len, 2334325);
2074
2075 return key;
2076 }
2077
2078 /* If two aspath have same value then return 1 else return 0 */
2079 bool aspath_cmp(const void *arg1, const void *arg2)
2080 {
2081 const struct assegment *seg1 = ((const struct aspath *)arg1)->segments;
2082 const struct assegment *seg2 = ((const struct aspath *)arg2)->segments;
2083
2084 while (seg1 || seg2) {
2085 int i;
2086 if ((!seg1 && seg2) || (seg1 && !seg2))
2087 return false;
2088 if (seg1->type != seg2->type)
2089 return false;
2090 if (seg1->length != seg2->length)
2091 return false;
2092 for (i = 0; i < seg1->length; i++)
2093 if (seg1->as[i] != seg2->as[i])
2094 return false;
2095 seg1 = seg1->next;
2096 seg2 = seg2->next;
2097 }
2098 return true;
2099 }
2100
2101 /* AS path hash initialize. */
2102 void aspath_init(void)
2103 {
2104 ashash = hash_create_size(32768, aspath_key_make, aspath_cmp,
2105 "BGP AS Path");
2106 }
2107
2108 void aspath_finish(void)
2109 {
2110 hash_clean(ashash, (void (*)(void *))aspath_free);
2111 hash_free(ashash);
2112 ashash = NULL;
2113
2114 if (snmp_stream)
2115 stream_free(snmp_stream);
2116 }
2117
2118 /* return and as path value */
2119 const char *aspath_print(struct aspath *as)
2120 {
2121 return (as ? as->str : NULL);
2122 }
2123
2124 /* Printing functions */
2125 /* Feed the AS_PATH to the vty; the space suffix follows it only in case
2126 * AS_PATH wasn't empty.
2127 */
2128 void aspath_print_vty(struct vty *vty, struct aspath *as)
2129 {
2130 vty_out(vty, "%s%s", as->str, as->str_len ? " " : "");
2131 }
2132
2133 static void aspath_show_all_iterator(struct hash_bucket *bucket,
2134 struct vty *vty)
2135 {
2136 struct aspath *as;
2137
2138 as = (struct aspath *)bucket->data;
2139
2140 vty_out(vty, "[%p:%u] (%ld) ", (void *)bucket, bucket->key, as->refcnt);
2141 vty_out(vty, "%s\n", as->str);
2142 }
2143
2144 /* Print all aspath and hash information. This function is used from
2145 `show [ip] bgp paths' command. */
2146 void aspath_print_all_vty(struct vty *vty)
2147 {
2148 hash_iterate(ashash, (void (*)(struct hash_bucket *,
2149 void *))aspath_show_all_iterator,
2150 vty);
2151 }
2152
2153 static struct aspath *bgp_aggr_aspath_lookup(struct bgp_aggregate *aggregate,
2154 struct aspath *aspath)
2155 {
2156 return hash_lookup(aggregate->aspath_hash, aspath);
2157 }
2158
2159 static void *bgp_aggr_aspath_hash_alloc(void *p)
2160 {
2161 struct aspath *ref = (struct aspath *)p;
2162 struct aspath *aspath = NULL;
2163
2164 aspath = aspath_dup(ref);
2165 return aspath;
2166 }
2167
2168 static void bgp_aggr_aspath_prepare(struct hash_bucket *hb, void *arg)
2169 {
2170 struct aspath *hb_aspath = hb->data;
2171 struct aspath **aggr_aspath = arg;
2172
2173 if (*aggr_aspath)
2174 *aggr_aspath = aspath_aggregate(*aggr_aspath, hb_aspath);
2175 else
2176 *aggr_aspath = aspath_dup(hb_aspath);
2177 }
2178
2179 void bgp_aggr_aspath_remove(void *arg)
2180 {
2181 struct aspath *aspath = arg;
2182
2183 aspath_free(aspath);
2184 }
2185
2186 void bgp_compute_aggregate_aspath(struct bgp_aggregate *aggregate,
2187 struct aspath *aspath)
2188 {
2189 bgp_compute_aggregate_aspath_hash(aggregate, aspath);
2190
2191 bgp_compute_aggregate_aspath_val(aggregate);
2192
2193 }
2194
2195 void bgp_compute_aggregate_aspath_hash(struct bgp_aggregate *aggregate,
2196 struct aspath *aspath)
2197 {
2198 struct aspath *aggr_aspath = NULL;
2199
2200 if ((aggregate == NULL) || (aspath == NULL))
2201 return;
2202
2203 /* Create hash if not already created.
2204 */
2205 if (aggregate->aspath_hash == NULL)
2206 aggregate->aspath_hash = hash_create(
2207 aspath_key_make, aspath_cmp,
2208 "BGP Aggregator as-path hash");
2209
2210 aggr_aspath = bgp_aggr_aspath_lookup(aggregate, aspath);
2211 if (aggr_aspath == NULL) {
2212 /* Insert as-path into hash.
2213 */
2214 aggr_aspath = hash_get(aggregate->aspath_hash, aspath,
2215 bgp_aggr_aspath_hash_alloc);
2216 }
2217
2218 /* Increment reference counter.
2219 */
2220 aggr_aspath->refcnt++;
2221 }
2222
2223 void bgp_compute_aggregate_aspath_val(struct bgp_aggregate *aggregate)
2224 {
2225 if (aggregate == NULL)
2226 return;
2227 /* Re-compute aggregate's as-path.
2228 */
2229 if (aggregate->aspath) {
2230 aspath_free(aggregate->aspath);
2231 aggregate->aspath = NULL;
2232 }
2233 if (aggregate->aspath_hash
2234 && aggregate->aspath_hash->count) {
2235 hash_iterate(aggregate->aspath_hash,
2236 bgp_aggr_aspath_prepare,
2237 &aggregate->aspath);
2238 }
2239 }
2240
2241 void bgp_remove_aspath_from_aggregate(struct bgp_aggregate *aggregate,
2242 struct aspath *aspath)
2243 {
2244 struct aspath *aggr_aspath = NULL;
2245 struct aspath *ret_aspath = NULL;
2246
2247 if ((!aggregate)
2248 || (!aggregate->aspath_hash)
2249 || (!aspath))
2250 return;
2251
2252 /* Look-up the aspath in the hash.
2253 */
2254 aggr_aspath = bgp_aggr_aspath_lookup(aggregate, aspath);
2255 if (aggr_aspath) {
2256 aggr_aspath->refcnt--;
2257
2258 if (aggr_aspath->refcnt == 0) {
2259 ret_aspath = hash_release(aggregate->aspath_hash,
2260 aggr_aspath);
2261 aspath_free(ret_aspath);
2262 ret_aspath = NULL;
2263
2264 /* Remove aggregate's old as-path.
2265 */
2266 aspath_free(aggregate->aspath);
2267 aggregate->aspath = NULL;
2268
2269 bgp_compute_aggregate_aspath_val(aggregate);
2270 }
2271 }
2272 }
2273
2274 void bgp_remove_aspath_from_aggregate_hash(struct bgp_aggregate *aggregate,
2275 struct aspath *aspath)
2276 {
2277 struct aspath *aggr_aspath = NULL;
2278 struct aspath *ret_aspath = NULL;
2279
2280 if ((!aggregate)
2281 || (!aggregate->aspath_hash)
2282 || (!aspath))
2283 return;
2284
2285 /* Look-up the aspath in the hash.
2286 */
2287 aggr_aspath = bgp_aggr_aspath_lookup(aggregate, aspath);
2288 if (aggr_aspath) {
2289 aggr_aspath->refcnt--;
2290
2291 if (aggr_aspath->refcnt == 0) {
2292 ret_aspath = hash_release(aggregate->aspath_hash,
2293 aggr_aspath);
2294 aspath_free(ret_aspath);
2295 ret_aspath = NULL;
2296 }
2297 }
2298 }
2299
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