1 /* AS path management routines.
2 * Copyright (C) 1996, 97, 98, 99 Kunihiro Ishiguro
3 * Copyright (C) 2005 Sun Microsystems, Inc.
5 * This file is part of GNU Zebra.
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
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.
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
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"
40 /* Attr. Flags and Attr. Type Code. */
41 #define AS_HEADER_SIZE 2
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)
48 /* Maximum protocol segment length value */
49 #define AS_SEGMENT_MAX 255
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.
57 * aspath_put returns bytes written, the only definitive record of
58 * size of wire-format attribute..
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))
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))
68 /* AS segment octet length. */
69 #define ASSEGMENT_LEN(X,S) ASSEGMENT_SIZE((X)->length,S)
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))
80 /* As segment header - the on-wire representation
81 * NOT the internal representation!
83 struct assegment_header
{
88 /* Hash for aspath. This is the top level structure of AS path. */
89 static struct hash
*ashash
;
91 /* Stream for SNMP. See aspath_snmp_pathseg */
92 static struct stream
*snmp_stream
;
94 /* Callers are required to initialize the memory */
95 static as_t
*assegment_data_new(int num
)
97 return (XMALLOC(MTYPE_AS_SEG_DATA
, ASSEGMENT_DATA_SIZE(num
, 1)));
100 static void assegment_data_free(as_t
*asdata
)
102 XFREE(MTYPE_AS_SEG_DATA
, asdata
);
105 const char *const aspath_segment_type_str
[] = {
106 "as-invalid", "as-set", "as-sequence", "as-confed-sequence",
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
115 static struct assegment
*assegment_new(uint8_t type
, unsigned short length
)
117 struct assegment
*new;
119 new = XCALLOC(MTYPE_AS_SEG
, sizeof(struct assegment
));
122 new->as
= assegment_data_new(length
);
124 new->length
= length
;
130 static void assegment_free(struct assegment
*seg
)
135 assegment_data_free(seg
->as
);
136 memset(seg
, 0xfe, sizeof(struct assegment
));
137 XFREE(MTYPE_AS_SEG
, seg
);
142 /* free entire chain of segments */
143 static void assegment_free_all(struct assegment
*seg
)
145 struct assegment
*prev
;
150 assegment_free(prev
);
154 /* Duplicate just the given assegment and its data */
155 static struct assegment
*assegment_dup(struct assegment
*seg
)
157 struct assegment
*new;
159 new = assegment_new(seg
->type
, seg
->length
);
160 memcpy(new->as
, seg
->as
, ASSEGMENT_DATA_SIZE(new->length
, 1));
165 /* Duplicate entire chain of assegments, return the head */
166 static struct assegment
*assegment_dup_all(struct assegment
*seg
)
168 struct assegment
*new = NULL
;
169 struct assegment
*head
= NULL
;
173 new->next
= assegment_dup(seg
);
176 head
= new = assegment_dup(seg
);
183 /* prepend the as number to given segment, given num of times */
184 static struct assegment
*assegment_prepend_asns(struct assegment
*seg
,
193 if (num
>= AS_SEGMENT_MAX
)
194 return seg
; /* we don't do huge prepends */
196 if ((newas
= assegment_data_new(seg
->length
+ num
)) == NULL
)
199 for (i
= 0; i
< num
; i
++)
202 memcpy(newas
+ num
, seg
->as
, ASSEGMENT_DATA_SIZE(seg
->length
, 1));
203 assegment_data_free(seg
->as
);
210 /* append given array of as numbers to the segment */
211 static struct assegment
*assegment_append_asns(struct assegment
*seg
,
212 as_t
*asnos
, int num
)
219 newas
= XREALLOC(MTYPE_AS_SEG_DATA
, seg
->as
,
220 ASSEGMENT_DATA_SIZE(seg
->length
+ num
, 1));
223 memcpy(seg
->as
+ seg
->length
, asnos
,
224 ASSEGMENT_DATA_SIZE(num
, 1));
229 static int int_cmp(const void *p1
, const void *p2
)
231 const as_t
*as1
= p1
;
232 const as_t
*as2
= p2
;
234 return (*as1
== *as2
) ? 0 : ((*as1
> *as2
) ? 1 : -1);
237 /* normalise the segment.
238 * In particular, merge runs of AS_SEQUENCEs into one segment
239 * Internally, we do not care about the wire segment length limit, and
240 * we want each distinct AS_PATHs to have the exact same internal
241 * representation - eg, so that our hashing actually works..
243 static struct assegment
*assegment_normalise(struct assegment
*head
)
245 struct assegment
*seg
= head
, *pin
;
246 struct assegment
*tmp
;
254 /* Sort values SET segments, for determinism in paths to aid
255 * creation of hash values / path comparisons
256 * and because it helps other lesser implementations ;)
258 if (seg
->type
== AS_SET
|| seg
->type
== AS_CONFED_SET
) {
262 qsort(seg
->as
, seg
->length
, sizeof(as_t
), int_cmp
);
265 for (i
= 1; i
< seg
->length
; i
++) {
266 if (seg
->as
[tail
] == seg
->as
[i
])
271 seg
->as
[tail
] = seg
->as
[i
];
273 /* seg->length can be 0.. */
275 seg
->length
= tail
+ 1;
278 /* read ahead from the current, pinned segment while the
280 * are packable/mergeable. Append all following packable
282 * to the segment we have pinned and remove these appended
285 while (pin
->next
&& ASSEGMENT_TYPES_PACKABLE(pin
, pin
->next
)) {
289 /* append the next sequence to the pinned sequence */
290 pin
= assegment_append_asns(pin
, seg
->as
, seg
->length
);
292 /* bypass the next sequence */
293 pin
->next
= seg
->next
;
295 /* get rid of the now referenceless segment */
304 static struct aspath
*aspath_new(void)
306 return XCALLOC(MTYPE_AS_PATH
, sizeof(struct aspath
));
309 /* Free AS path structure. */
310 void aspath_free(struct aspath
*aspath
)
314 if (aspath
->segments
)
315 assegment_free_all(aspath
->segments
);
316 XFREE(MTYPE_AS_STR
, aspath
->str
);
319 json_object_free(aspath
->json
);
323 XFREE(MTYPE_AS_PATH
, aspath
);
326 /* Unintern aspath from AS path bucket. */
327 void aspath_unintern(struct aspath
**aspath
)
330 struct aspath
*asp
= *aspath
;
335 if (asp
->refcnt
== 0) {
336 /* This aspath must exist in aspath hash table. */
337 ret
= hash_release(ashash
, asp
);
344 /* Return the start or end delimiters for a particular Segment type */
345 #define AS_SEG_START 0
347 static char aspath_delimiter_char(uint8_t type
, uint8_t which
)
354 } aspath_delim_char
[] = {{AS_SET
, '{', '}'},
355 {AS_CONFED_SET
, '[', ']'},
356 {AS_CONFED_SEQUENCE
, '(', ')'},
359 for (i
= 0; aspath_delim_char
[i
].type
!= 0; i
++) {
360 if (aspath_delim_char
[i
].type
== type
) {
361 if (which
== AS_SEG_START
)
362 return aspath_delim_char
[i
].start
;
363 else if (which
== AS_SEG_END
)
364 return aspath_delim_char
[i
].end
;
370 /* countup asns from this segment and index onward */
371 static int assegment_count_asns(struct assegment
*seg
, int from
)
376 count
+= seg
->length
;
378 count
+= (seg
->length
- from
);
386 unsigned int aspath_count_confeds(struct aspath
*aspath
)
389 struct assegment
*seg
= aspath
->segments
;
392 if (seg
->type
== AS_CONFED_SEQUENCE
)
393 count
+= seg
->length
;
394 else if (seg
->type
== AS_CONFED_SET
)
402 unsigned int aspath_count_hops(const struct aspath
*aspath
)
405 struct assegment
*seg
= aspath
->segments
;
408 if (seg
->type
== AS_SEQUENCE
)
409 count
+= seg
->length
;
410 else if (seg
->type
== AS_SET
)
418 /* Check if aspath has AS_SET or AS_CONFED_SET */
419 bool aspath_check_as_sets(struct aspath
*aspath
)
421 struct assegment
*seg
= aspath
->segments
;
424 if (seg
->type
== AS_SET
|| seg
->type
== AS_CONFED_SET
)
431 /* Check if aspath has BGP_AS_ZERO */
432 bool aspath_check_as_zero(struct aspath
*aspath
)
434 struct assegment
*seg
= aspath
->segments
;
438 for (i
= 0; i
< seg
->length
; i
++)
439 if (seg
->as
[i
] == BGP_AS_ZERO
)
447 /* Estimate size aspath /might/ take if encoded into an
450 * This is a quick estimate, not definitive! aspath_put()
451 * may return a different number!!
453 unsigned int aspath_size(struct aspath
*aspath
)
456 struct assegment
*seg
= aspath
->segments
;
459 size
+= ASSEGMENT_SIZE(seg
->length
, 1);
465 /* Return highest public ASN in path */
466 as_t
aspath_highest(struct aspath
*aspath
)
468 struct assegment
*seg
= aspath
->segments
;
473 for (i
= 0; i
< seg
->length
; i
++)
474 if (seg
->as
[i
] > highest
475 && !BGP_AS_IS_PRIVATE(seg
->as
[i
]))
476 highest
= seg
->as
[i
];
482 /* Return the left-most ASN in path */
483 as_t
aspath_leftmost(struct aspath
*aspath
)
485 struct assegment
*seg
= aspath
->segments
;
488 if (seg
&& seg
->length
&& seg
->type
== AS_SEQUENCE
)
489 leftmost
= seg
->as
[0];
494 /* Return 1 if there are any 4-byte ASes in the path */
495 bool aspath_has_as4(struct aspath
*aspath
)
497 struct assegment
*seg
= aspath
->segments
;
501 for (i
= 0; i
< seg
->length
; i
++)
502 if (seg
->as
[i
] > BGP_AS_MAX
)
509 /* Convert aspath structure to string expression. */
510 static void aspath_make_str_count(struct aspath
*as
, bool make_json
)
512 struct assegment
*seg
;
516 json_object
*jaspath_segments
= NULL
;
517 json_object
*jseg
= NULL
;
518 json_object
*jseg_list
= NULL
;
521 as
->json
= json_object_new_object();
522 jaspath_segments
= json_object_new_array();
528 json_object_string_add(as
->json
, "string", "Local");
529 json_object_object_add(as
->json
, "segments",
531 json_object_int_add(as
->json
, "length", 0);
533 as
->str
= XMALLOC(MTYPE_AS_STR
, 1);
541 /* ASN takes 5 to 10 chars plus seperator, see below.
542 * If there is one differing segment type, we need an additional
543 * 2 chars for segment delimiters, and the final '\0'.
544 * Hopefully this is large enough to avoid hitting the realloc
545 * code below for most common sequences.
547 * This was changed to 10 after the well-known BGP assertion, which
548 * had hit some parts of the Internet in May of 2009.
550 #define ASN_STR_LEN (10 + 1)
551 str_size
= MAX(assegment_count_asns(seg
, 0) * ASN_STR_LEN
+ 2 + 1,
552 ASPATH_STR_DEFAULT_LEN
);
553 str_buf
= XMALLOC(MTYPE_AS_STR
, str_size
);
559 /* Check AS type validity. Set seperator for segment */
566 case AS_CONFED_SEQUENCE
:
570 XFREE(MTYPE_AS_STR
, str_buf
);
573 json_object_free(as
->json
);
579 /* We might need to increase str_buf, particularly if path has
580 * differing segments types, our initial guesstimate above will
581 * have been wrong. Need 10 chars for ASN, a seperator each and
582 * potentially two segment delimiters, plus a space between each
583 * segment and trailing zero.
585 * This definitely didn't work with the value of 5 bytes and
588 #define SEGMENT_STR_LEN(X) (((X)->length * ASN_STR_LEN) + 2 + 1 + 1)
589 if ((len
+ SEGMENT_STR_LEN(seg
)) > str_size
) {
590 str_size
= len
+ SEGMENT_STR_LEN(seg
);
591 str_buf
= XREALLOC(MTYPE_AS_STR
, str_buf
, str_size
);
594 #undef SEGMENT_STR_LEN
596 if (seg
->type
!= AS_SEQUENCE
)
598 str_buf
+ len
, str_size
- len
, "%c",
599 aspath_delimiter_char(seg
->type
, AS_SEG_START
));
602 jseg_list
= json_object_new_array();
604 /* write out the ASNs, with their seperators, bar the last one*/
605 for (i
= 0; i
< seg
->length
; i
++) {
607 json_object_array_add(
609 json_object_new_int64(seg
->as
[i
]));
611 len
+= snprintf(str_buf
+ len
, str_size
- len
, "%u",
614 if (i
< (seg
->length
- 1))
615 len
+= snprintf(str_buf
+ len
, str_size
- len
,
620 jseg
= json_object_new_object();
621 json_object_string_add(
623 aspath_segment_type_str
[seg
->type
]);
624 json_object_object_add(jseg
, "list", jseg_list
);
625 json_object_array_add(jaspath_segments
, jseg
);
628 if (seg
->type
!= AS_SEQUENCE
)
630 str_buf
+ len
, str_size
- len
, "%c",
631 aspath_delimiter_char(seg
->type
, AS_SEG_END
));
633 len
+= snprintf(str_buf
+ len
, str_size
- len
, " ");
638 assert(len
< str_size
);
645 json_object_string_add(as
->json
, "string", str_buf
);
646 json_object_object_add(as
->json
, "segments", jaspath_segments
);
647 json_object_int_add(as
->json
, "length", aspath_count_hops(as
));
653 void aspath_str_update(struct aspath
*as
, bool make_json
)
655 XFREE(MTYPE_AS_STR
, as
->str
);
658 json_object_free(as
->json
);
662 aspath_make_str_count(as
, make_json
);
665 /* Intern allocated AS path. */
666 struct aspath
*aspath_intern(struct aspath
*aspath
)
670 /* Assert this AS path structure is not interned and has the string
671 representation built. */
672 assert(aspath
->refcnt
== 0);
675 /* Check AS path hash. */
676 find
= hash_get(ashash
, aspath
, hash_alloc_intern
);
685 /* Duplicate aspath structure. Created same aspath structure but
686 reference count and AS path string is cleared. */
687 struct aspath
*aspath_dup(struct aspath
*aspath
)
689 unsigned short buflen
= aspath
->str_len
+ 1;
692 new = XCALLOC(MTYPE_AS_PATH
, sizeof(struct aspath
));
695 if (aspath
->segments
)
696 new->segments
= assegment_dup_all(aspath
->segments
);
701 new->str
= XMALLOC(MTYPE_AS_STR
, buflen
);
702 new->str_len
= aspath
->str_len
;
704 /* copy the string data */
705 if (aspath
->str_len
> 0)
706 memcpy(new->str
, aspath
->str
, buflen
);
713 static void *aspath_hash_alloc(void *arg
)
715 const struct aspath
*aspath
= arg
;
718 /* Malformed AS path value. */
721 /* New aspath structure is needed. */
722 new = XMALLOC(MTYPE_AS_PATH
, sizeof(struct aspath
));
724 /* Reuse segments and string representation */
726 new->segments
= aspath
->segments
;
727 new->str
= aspath
->str
;
728 new->str_len
= aspath
->str_len
;
729 new->json
= aspath
->json
;
734 /* parse as-segment byte stream in struct assegment */
735 static int assegments_parse(struct stream
*s
, size_t length
,
736 struct assegment
**result
, int use32bit
)
738 struct assegment_header segh
;
739 struct assegment
*seg
, *prev
= NULL
, *head
= NULL
;
742 /* empty aspath (ie iBGP or somesuch) */
746 if (BGP_DEBUG(as4
, AS4_SEGMENT
))
748 "[AS4SEG] Parse aspath segment: got total byte length %lu",
749 (unsigned long)length
);
751 if ((STREAM_READABLE(s
) < length
)
752 || (STREAM_READABLE(s
) < AS_HEADER_SIZE
)
753 || (length
% AS16_VALUE_SIZE
))
756 while (bytes
< length
) {
760 if ((length
- bytes
) <= AS_HEADER_SIZE
) {
762 assegment_free_all(head
);
766 /* softly softly, get the header first on its own */
767 segh
.type
= stream_getc(s
);
768 segh
.length
= stream_getc(s
);
770 seg_size
= ASSEGMENT_SIZE(segh
.length
, use32bit
);
772 if (BGP_DEBUG(as4
, AS4_SEGMENT
))
774 "[AS4SEG] Parse aspath segment: got type %d, length %d",
775 segh
.type
, segh
.length
);
778 if (((bytes
+ seg_size
) > length
)
779 /* 1771bis 4.3b: seg length contains one or more */
780 || (segh
.length
== 0)
781 /* Paranoia in case someone changes type of segment length.
782 * Shift both values by 0x10 to make the comparison operate
783 * on more, than 8 bits (otherwise it's a warning, bug
786 || ((sizeof(segh
.length
) > 1)
787 && (0x10 + segh
.length
> 0x10 + AS_SEGMENT_MAX
))) {
789 assegment_free_all(head
);
796 case AS_CONFED_SEQUENCE
:
801 assegment_free_all(head
);
805 /* now its safe to trust lengths */
806 seg
= assegment_new(segh
.type
, segh
.length
);
810 else /* it's the first segment */
813 for (i
= 0; i
< segh
.length
; i
++)
815 (use32bit
) ? stream_getl(s
) : stream_getw(s
);
819 if (BGP_DEBUG(as4
, AS4_SEGMENT
))
821 "[AS4SEG] Parse aspath segment: Bytes now: %lu",
822 (unsigned long)bytes
);
827 *result
= assegment_normalise(head
);
831 /* AS path parse function. pnt is a pointer to byte stream and length
832 is length of byte stream. If there is same AS path in the the AS
833 path hash then return it else make new AS path structure.
835 On error NULL is returned.
837 struct aspath
*aspath_parse(struct stream
*s
, size_t length
, int use32bit
)
842 /* If length is odd it's malformed AS path. */
843 /* Nit-picking: if (use32bit == 0) it is malformed if odd,
844 * otherwise its malformed when length is larger than 2 and (length-2)
845 * is not dividable by 4.
846 * But... this time we're lazy
848 if (length
% AS16_VALUE_SIZE
)
851 memset(&as
, 0, sizeof(struct aspath
));
852 if (assegments_parse(s
, length
, &as
.segments
, use32bit
) < 0)
855 /* If already same aspath exist then return it. */
856 find
= hash_get(ashash
, &as
, aspath_hash_alloc
);
858 /* bug! should not happen, let the daemon crash below */
861 /* if the aspath was already hashed free temporary memory. */
863 assegment_free_all(as
.segments
);
864 /* aspath_key_make() always updates the string */
865 XFREE(MTYPE_AS_STR
, as
.str
);
867 json_object_free(as
.json
);
877 static void assegment_data_put(struct stream
*s
, as_t
*as
, int num
,
881 assert(num
<= AS_SEGMENT_MAX
);
883 for (i
= 0; i
< num
; i
++)
885 stream_putl(s
, as
[i
]);
887 if (as
[i
] <= BGP_AS_MAX
)
888 stream_putw(s
, as
[i
]);
890 stream_putw(s
, BGP_AS_TRANS
);
894 static size_t assegment_header_put(struct stream
*s
, uint8_t type
, int length
)
897 assert(length
<= AS_SEGMENT_MAX
);
898 stream_putc(s
, type
);
899 lenp
= stream_get_endp(s
);
900 stream_putc(s
, length
);
904 /* write aspath data to stream */
905 size_t aspath_put(struct stream
*s
, struct aspath
*as
, int use32bit
)
907 struct assegment
*seg
= as
->segments
;
910 if (!seg
|| seg
->length
== 0)
915 * Hey, what do we do when we have > STREAM_WRITABLE(s) here?
916 * At the moment, we would write out a partial aspath, and our
918 * will complain and drop the session :-/
920 * The general assumption here is that many things tested will
921 * never happen. And, in real live, up to now, they have not.
923 while (seg
&& (ASSEGMENT_LEN(seg
, use32bit
)
924 <= STREAM_WRITEABLE(s
))) {
925 struct assegment
*next
= seg
->next
;
930 /* Overlength segments have to be split up */
931 while ((seg
->length
- written
) > AS_SEGMENT_MAX
) {
932 assegment_header_put(s
, seg
->type
,
934 assegment_data_put(s
, (seg
->as
+ written
), AS_SEGMENT_MAX
,
936 written
+= AS_SEGMENT_MAX
;
937 bytes
+= ASSEGMENT_SIZE(AS_SEGMENT_MAX
,
941 /* write the final segment, probably is also the first
943 lenp
= assegment_header_put(s
, seg
->type
,
944 seg
->length
- written
);
945 assegment_data_put(s
, (seg
->as
+ written
),
946 seg
->length
- written
, use32bit
);
948 /* Sequence-type segments can be 'packed' together
949 * Case of a segment which was overlength and split up
950 * will be missed here, but that doesn't matter.
952 while (next
&& ASSEGMENTS_PACKABLE(seg
, next
)) {
953 /* NB: We should never normally get here given
955 * normalise aspath data when parse them.
957 * safe than sorry. We potentially could call
958 * assegment_normalise here instead, but it's
960 * easier to do it on the fly here rather than
962 * the segment list twice every time we write
967 /* Next segment's data can fit in this one */
968 assegment_data_put(s
, next
->as
, next
->length
,
971 /* update the length of the segment header */
972 stream_putc_at(s
, lenp
,
973 seg
->length
- written
975 asns_packed
+= next
->length
;
980 bytes
+= ASSEGMENT_SIZE(
981 seg
->length
- written
+ asns_packed
, use32bit
);
988 /* This is for SNMP BGP4PATHATTRASPATHSEGMENT
989 * We have no way to manage the storage, so we use a static stream
990 * wrapper around aspath_put.
992 uint8_t *aspath_snmp_pathseg(struct aspath
*as
, size_t *varlen
)
994 #define SNMP_PATHSEG_MAX 1024
997 snmp_stream
= stream_new(SNMP_PATHSEG_MAX
);
999 stream_reset(snmp_stream
);
1005 aspath_put(snmp_stream
, as
, 0); /* use 16 bit for now here */
1007 *varlen
= stream_get_endp(snmp_stream
);
1008 return stream_pnt(snmp_stream
);
1011 #define min(A,B) ((A) < (B) ? (A) : (B))
1013 static struct assegment
*aspath_aggregate_as_set_add(struct aspath
*aspath
,
1014 struct assegment
*asset
,
1019 /* If this is first AS set member, create new as-set segment. */
1020 if (asset
== NULL
) {
1021 asset
= assegment_new(AS_SET
, 1);
1022 if (!aspath
->segments
)
1023 aspath
->segments
= asset
;
1025 struct assegment
*seg
= aspath
->segments
;
1030 asset
->type
= AS_SET
;
1034 /* Check this AS value already exists or not. */
1035 for (i
= 0; i
< asset
->length
; i
++)
1036 if (asset
->as
[i
] == as
)
1040 asset
->as
= XREALLOC(MTYPE_AS_SEG_DATA
, asset
->as
,
1041 asset
->length
* AS_VALUE_SIZE
);
1042 asset
->as
[asset
->length
- 1] = as
;
1049 /* Modify as1 using as2 for aggregation. */
1050 struct aspath
*aspath_aggregate(struct aspath
*as1
, struct aspath
*as2
)
1056 struct assegment
*seg1
= as1
->segments
;
1057 struct assegment
*seg2
= as2
->segments
;
1058 struct aspath
*aspath
= NULL
;
1059 struct assegment
*asset
= NULL
;
1060 struct assegment
*prevseg
= NULL
;
1062 /* First of all check common leading sequence. */
1063 while (seg1
&& seg2
) {
1064 /* Check segment type. */
1065 if (seg1
->type
!= seg2
->type
)
1068 /* Minimum segment length. */
1069 minlen
= min(seg1
->length
, seg2
->length
);
1071 for (match
= 0; match
< minlen
; match
++)
1072 if (seg1
->as
[match
] != seg2
->as
[match
])
1076 struct assegment
*seg
= assegment_new(seg1
->type
, 0);
1078 seg
= assegment_append_asns(seg
, seg1
->as
, match
);
1081 aspath
= aspath_new();
1082 aspath
->segments
= seg
;
1084 prevseg
->next
= seg
;
1089 if (match
!= minlen
|| match
!= seg1
->length
1090 || seg1
->length
!= seg2
->length
)
1092 /* We are moving on to the next segment to reset match */
1101 aspath
= aspath_new();
1103 /* Make as-set using rest of all information. */
1106 for (i
= from
; i
< seg1
->length
; i
++)
1107 asset
= aspath_aggregate_as_set_add(aspath
, asset
,
1116 for (i
= from
; i
< seg2
->length
; i
++)
1117 asset
= aspath_aggregate_as_set_add(aspath
, asset
,
1124 assegment_normalise(aspath
->segments
);
1125 aspath_str_update(aspath
, false);
1129 /* When a BGP router receives an UPDATE with an MP_REACH_NLRI
1130 attribute, check the leftmost AS number in the AS_PATH attribute is
1131 or not the peer's AS number. */
1132 bool aspath_firstas_check(struct aspath
*aspath
, as_t asno
)
1134 if ((aspath
== NULL
) || (aspath
->segments
== NULL
))
1137 if (aspath
->segments
&& (aspath
->segments
->type
== AS_SEQUENCE
)
1138 && (aspath
->segments
->as
[0] == asno
))
1144 unsigned int aspath_get_first_as(struct aspath
*aspath
)
1146 if (aspath
== NULL
|| aspath
->segments
== NULL
)
1149 return aspath
->segments
->as
[0];
1152 unsigned int aspath_get_last_as(struct aspath
*aspath
)
1155 unsigned int last_as
= 0;
1156 const struct assegment
*seg
;
1158 if (aspath
== NULL
|| aspath
->segments
== NULL
)
1161 seg
= aspath
->segments
;
1164 if (seg
->type
== AS_SEQUENCE
|| seg
->type
== AS_CONFED_SEQUENCE
)
1165 for (i
= 0; i
< seg
->length
; i
++)
1166 last_as
= seg
->as
[i
];
1173 /* AS path loop check. If aspath contains asno then return >= 1. */
1174 int aspath_loop_check(struct aspath
*aspath
, as_t asno
)
1176 struct assegment
*seg
;
1179 if ((aspath
== NULL
) || (aspath
->segments
== NULL
))
1182 seg
= aspath
->segments
;
1187 for (i
= 0; i
< seg
->length
; i
++)
1188 if (seg
->as
[i
] == asno
)
1196 /* When all of AS path is private AS return 1. */
1197 bool aspath_private_as_check(struct aspath
*aspath
)
1199 struct assegment
*seg
;
1201 if (!(aspath
&& aspath
->segments
))
1204 seg
= aspath
->segments
;
1209 for (i
= 0; i
< seg
->length
; i
++) {
1210 if (!BGP_AS_IS_PRIVATE(seg
->as
[i
]))
1218 /* Return True if the entire ASPATH consist of the specified ASN */
1219 bool aspath_single_asn_check(struct aspath
*aspath
, as_t asn
)
1221 struct assegment
*seg
;
1223 if (!(aspath
&& aspath
->segments
))
1226 seg
= aspath
->segments
;
1231 for (i
= 0; i
< seg
->length
; i
++) {
1232 if (seg
->as
[i
] != asn
)
1240 /* Replace all instances of the target ASN with our own ASN */
1241 struct aspath
*aspath_replace_specific_asn(struct aspath
*aspath
,
1242 as_t target_asn
, as_t our_asn
)
1245 struct assegment
*seg
;
1247 new = aspath_dup(aspath
);
1248 seg
= new->segments
;
1253 for (i
= 0; i
< seg
->length
; i
++) {
1254 if (seg
->as
[i
] == target_asn
)
1255 seg
->as
[i
] = our_asn
;
1260 aspath_str_update(new, false);
1264 /* Replace all private ASNs with our own ASN */
1265 struct aspath
*aspath_replace_private_asns(struct aspath
*aspath
, as_t asn
,
1269 struct assegment
*seg
;
1271 new = aspath_dup(aspath
);
1272 seg
= new->segments
;
1277 for (i
= 0; i
< seg
->length
; i
++) {
1278 /* Don't replace if public ASN or peer's ASN */
1279 if (BGP_AS_IS_PRIVATE(seg
->as
[i
])
1280 && (seg
->as
[i
] != peer_asn
))
1286 aspath_str_update(new, false);
1290 /* Remove all private ASNs */
1291 struct aspath
*aspath_remove_private_asns(struct aspath
*aspath
, as_t peer_asn
)
1294 struct assegment
*seg
;
1295 struct assegment
*new_seg
;
1296 struct assegment
*last_new_seg
;
1301 new = XCALLOC(MTYPE_AS_PATH
, sizeof(struct aspath
));
1305 last_new_seg
= NULL
;
1306 seg
= aspath
->segments
;
1310 for (i
= 0; i
< seg
->length
; i
++) {
1312 if (!BGP_AS_IS_PRIVATE(seg
->as
[i
])) {
1318 // The entire segment is public so copy it
1319 if (public == seg
->length
)
1320 new_seg
= assegment_dup(seg
);
1322 // The segment is a mix of public and private ASNs. Copy as many
1324 // there are public ASNs then come back and fill in only the
1327 new_seg
= assegment_new(seg
->type
, public);
1329 for (i
= 0; i
< seg
->length
; i
++) {
1330 // keep ASN if public or matches peer's ASN
1331 if (!BGP_AS_IS_PRIVATE(seg
->as
[i
])
1332 || (seg
->as
[i
] == peer_asn
)) {
1333 new_seg
->as
[j
] = seg
->as
[i
];
1339 // This is the first segment so set the aspath segments pointer
1342 new->segments
= new_seg
;
1344 last_new_seg
->next
= new_seg
;
1346 last_new_seg
= new_seg
;
1350 aspath_str_update(new, false);
1354 /* AS path confed check. If aspath contains confed set or sequence then return
1356 bool aspath_confed_check(struct aspath
*aspath
)
1358 struct assegment
*seg
;
1360 if (!(aspath
&& aspath
->segments
))
1363 seg
= aspath
->segments
;
1366 if (seg
->type
== AS_CONFED_SET
1367 || seg
->type
== AS_CONFED_SEQUENCE
)
1374 /* Leftmost AS path segment confed check. If leftmost AS segment is of type
1375 AS_CONFED_SEQUENCE or AS_CONFED_SET then return 1. */
1376 bool aspath_left_confed_check(struct aspath
*aspath
)
1379 if (!(aspath
&& aspath
->segments
))
1382 if ((aspath
->segments
->type
== AS_CONFED_SEQUENCE
)
1383 || (aspath
->segments
->type
== AS_CONFED_SET
))
1389 /* Merge as1 to as2. as2 should be uninterned aspath. */
1390 static struct aspath
*aspath_merge(struct aspath
*as1
, struct aspath
*as2
)
1392 struct assegment
*last
, *new;
1397 last
= new = assegment_dup_all(as1
->segments
);
1399 /* find the last valid segment */
1400 while (last
&& last
->next
)
1404 last
->next
= as2
->segments
;
1405 as2
->segments
= new;
1406 aspath_str_update(as2
, false);
1410 /* Prepend as1 to as2. as2 should be uninterned aspath. */
1411 struct aspath
*aspath_prepend(struct aspath
*as1
, struct aspath
*as2
)
1413 struct assegment
*as1segtail
;
1414 struct assegment
*as2segtail
;
1415 struct assegment
*as2seghead
;
1420 /* If as2 is empty, only need to dupe as1's chain onto as2 */
1421 if (as2
->segments
== NULL
) {
1422 as2
->segments
= assegment_dup_all(as1
->segments
);
1423 aspath_str_update(as2
, false);
1427 /* If as1 is empty AS, no prepending to do. */
1428 if (as1
->segments
== NULL
)
1431 /* find the tail as1's segment chain. */
1432 as1segtail
= as1
->segments
;
1433 while (as1segtail
&& as1segtail
->next
)
1434 as1segtail
= as1segtail
->next
;
1436 /* Delete any AS_CONFED_SEQUENCE segment from as2. */
1437 if (as1segtail
->type
== AS_SEQUENCE
1438 && as2
->segments
->type
== AS_CONFED_SEQUENCE
)
1439 as2
= aspath_delete_confed_seq(as2
);
1441 if (!as2
->segments
) {
1442 as2
->segments
= assegment_dup_all(as1
->segments
);
1443 aspath_str_update(as2
, false);
1447 /* Compare last segment type of as1 and first segment type of as2. */
1448 if (as1segtail
->type
!= as2
->segments
->type
)
1449 return aspath_merge(as1
, as2
);
1451 if (as1segtail
->type
== AS_SEQUENCE
) {
1452 /* We have two chains of segments, as1->segments and seg2,
1453 * and we have to attach them together, merging the attaching
1454 * segments together into one.
1456 * 1. dupe as1->segments onto head of as2
1457 * 2. merge seg2's asns onto last segment of this new chain
1458 * 3. attach chain after seg2
1462 as2seghead
= as2
->segments
;
1464 /* dupe as1 onto as2's head */
1465 as2segtail
= as2
->segments
= assegment_dup_all(as1
->segments
);
1467 /* refind the tail of as2 */
1468 while (as2segtail
&& as2segtail
->next
)
1469 as2segtail
= as2segtail
->next
;
1471 /* merge the old head, seg2, into tail, seg1 */
1472 assegment_append_asns(as2segtail
, as2seghead
->as
,
1473 as2seghead
->length
);
1476 * bypass the merged seg2, and attach any chain after it
1477 * to chain descending from as2's head
1480 as2segtail
->next
= as2seghead
->next
;
1482 /* as2->segments is now referenceless and useless */
1483 assegment_free(as2seghead
);
1485 /* we've now prepended as1's segment chain to as2, merging
1486 * the inbetween AS_SEQUENCE of seg2 in the process
1488 aspath_str_update(as2
, false);
1491 /* AS_SET merge code is needed at here. */
1492 return aspath_merge(as1
, as2
);
1494 /* XXX: Ermmm, what if as1 has multiple segments?? */
1499 /* Iterate over AS_PATH segments and wipe all occurrences of the
1500 * listed AS numbers. Hence some segments may lose some or even
1501 * all data on the way, the operation is implemented as a smarter
1502 * version of aspath_dup(), which allocates memory to hold the new
1503 * data, not the original. The new AS path is returned.
1505 struct aspath
*aspath_filter_exclude(struct aspath
*source
,
1506 struct aspath
*exclude_list
)
1508 struct assegment
*srcseg
, *exclseg
, *lastseg
;
1509 struct aspath
*newpath
;
1511 newpath
= aspath_new();
1514 for (srcseg
= source
->segments
; srcseg
; srcseg
= srcseg
->next
) {
1515 unsigned i
, y
, newlen
= 0, done
= 0, skip_as
;
1516 struct assegment
*newseg
;
1518 /* Find out, how much ASns are we going to pick from this
1520 * We can't perform filtering right inline, because the size of
1521 * the new segment isn't known at the moment yet.
1523 for (i
= 0; i
< srcseg
->length
; i
++) {
1525 for (exclseg
= exclude_list
->segments
;
1526 exclseg
&& !skip_as
; exclseg
= exclseg
->next
)
1527 for (y
= 0; y
< exclseg
->length
; y
++)
1528 if (srcseg
->as
[i
] == exclseg
->as
[y
]) {
1530 // There's no sense in testing
1531 // the rest of exclusion list,
1538 /* newlen is now the number of ASns to copy */
1542 /* Actual copying. Allocate memory and iterate once more,
1543 * performing filtering. */
1544 newseg
= assegment_new(srcseg
->type
, newlen
);
1545 for (i
= 0; i
< srcseg
->length
; i
++) {
1547 for (exclseg
= exclude_list
->segments
;
1548 exclseg
&& !skip_as
; exclseg
= exclseg
->next
)
1549 for (y
= 0; y
< exclseg
->length
; y
++)
1550 if (srcseg
->as
[i
] == exclseg
->as
[y
]) {
1556 newseg
->as
[done
++] = srcseg
->as
[i
];
1558 /* At his point newlen must be equal to done, and both must be
1560 * the filtered segment to the gross result. */
1562 newpath
->segments
= newseg
;
1564 lastseg
->next
= newseg
;
1567 aspath_str_update(newpath
, false);
1568 /* We are happy returning even an empty AS_PATH, because the
1570 * might expect this very behaviour. There's a mean to avoid this, if
1572 * by having a match rule against certain AS_PATH regexps in the
1575 aspath_free(source
);
1579 /* Add specified AS to the leftmost of aspath. */
1580 static struct aspath
*aspath_add_asns(struct aspath
*aspath
, as_t asno
,
1581 uint8_t type
, unsigned num
)
1583 struct assegment
*assegment
= aspath
->segments
;
1586 if (assegment
&& assegment
->type
== type
) {
1587 /* extend existing segment */
1589 assegment_prepend_asns(aspath
->segments
, asno
, num
);
1591 /* prepend with new segment */
1592 struct assegment
*newsegment
= assegment_new(type
, num
);
1593 for (i
= 0; i
< num
; i
++)
1594 newsegment
->as
[i
] = asno
;
1596 /* insert potentially replacing empty segment */
1597 if (assegment
&& assegment
->length
== 0) {
1598 newsegment
->next
= assegment
->next
;
1599 assegment_free(assegment
);
1601 newsegment
->next
= assegment
;
1602 aspath
->segments
= newsegment
;
1605 aspath_str_update(aspath
, false);
1609 /* Add specified AS to the leftmost of aspath num times. */
1610 struct aspath
*aspath_add_seq_n(struct aspath
*aspath
, as_t asno
, unsigned num
)
1612 return aspath_add_asns(aspath
, asno
, AS_SEQUENCE
, num
);
1615 /* Add specified AS to the leftmost of aspath. */
1616 struct aspath
*aspath_add_seq(struct aspath
*aspath
, as_t asno
)
1618 return aspath_add_asns(aspath
, asno
, AS_SEQUENCE
, 1);
1621 /* Compare leftmost AS value for MED check. If as1's leftmost AS and
1622 as2's leftmost AS is same return 1. */
1623 bool aspath_cmp_left(const struct aspath
*aspath1
, const struct aspath
*aspath2
)
1625 const struct assegment
*seg1
;
1626 const struct assegment
*seg2
;
1628 if (!(aspath1
&& aspath2
))
1631 seg1
= aspath1
->segments
;
1632 seg2
= aspath2
->segments
;
1634 /* If both paths are originated in this AS then we do want to compare
1639 /* find first non-confed segments for each */
1640 while (seg1
&& ((seg1
->type
== AS_CONFED_SEQUENCE
)
1641 || (seg1
->type
== AS_CONFED_SET
)))
1644 while (seg2
&& ((seg2
->type
== AS_CONFED_SEQUENCE
)
1645 || (seg2
->type
== AS_CONFED_SET
)))
1649 if (!(seg1
&& seg2
&& (seg1
->type
== AS_SEQUENCE
)
1650 && (seg2
->type
== AS_SEQUENCE
)))
1653 if (seg1
->as
[0] == seg2
->as
[0])
1659 /* Truncate an aspath after a number of hops, and put the hops remaining
1660 * at the front of another aspath. Needed for AS4 compat.
1662 * Returned aspath is a /new/ aspath, which should either by free'd or
1663 * interned by the caller, as desired.
1665 struct aspath
*aspath_reconcile_as4(struct aspath
*aspath
,
1666 struct aspath
*as4path
)
1668 struct assegment
*seg
, *newseg
, *prevseg
= NULL
;
1669 struct aspath
*newpath
= NULL
, *mergedpath
;
1670 int hops
, cpasns
= 0;
1672 if (!aspath
|| !as4path
)
1675 seg
= aspath
->segments
;
1677 /* CONFEDs should get reconciled too.. */
1678 hops
= (aspath_count_hops(aspath
) + aspath_count_confeds(aspath
))
1679 - aspath_count_hops(as4path
);
1682 if (BGP_DEBUG(as4
, AS4
))
1684 EC_BGP_ASPATH_FEWER_HOPS
,
1685 "[AS4] Fewer hops in AS_PATH than NEW_AS_PATH");
1686 /* Something's gone wrong. The RFC says we should now ignore
1688 * which is daft behaviour - it contains vital loop-detection
1689 * information which must have been removed from AS_PATH.
1691 hops
= aspath_count_hops(aspath
);
1695 newpath
= aspath_dup(as4path
);
1696 aspath_str_update(newpath
, false);
1700 if (BGP_DEBUG(as4
, AS4
))
1702 "[AS4] got AS_PATH %s and AS4_PATH %s synthesizing now",
1703 aspath
->str
, as4path
->str
);
1705 while (seg
&& hops
> 0) {
1706 switch (seg
->type
) {
1710 cpasns
= seg
->length
;
1712 case AS_CONFED_SEQUENCE
:
1713 /* Should never split a confed-sequence, if hop-count
1714 * suggests we must then something's gone wrong
1717 * Most important goal is to preserve AS_PATHs prime
1719 * as loop-detector, so we fudge the numbers so that the
1721 * confed-sequence is merged in.
1723 if (hops
< seg
->length
) {
1724 if (BGP_DEBUG(as4
, AS4
))
1726 "[AS4] AS4PATHmangle: AS_CONFED_SEQUENCE falls"
1727 " across 2/4 ASN boundary somewhere, broken..");
1732 cpasns
= MIN(seg
->length
, hops
);
1733 hops
-= seg
->length
;
1736 assert(cpasns
<= seg
->length
);
1738 newseg
= assegment_new(seg
->type
, 0);
1739 newseg
= assegment_append_asns(newseg
, seg
->as
, cpasns
);
1742 newpath
= aspath_new();
1743 newpath
->segments
= newseg
;
1745 prevseg
->next
= newseg
;
1751 /* We may be able to join some segments here, and we must
1752 * do this because... we want normalised aspaths in out hash
1753 * and we do not want to stumble in aspath_put.
1755 mergedpath
= aspath_merge(newpath
, aspath_dup(as4path
));
1756 aspath_free(newpath
);
1757 mergedpath
->segments
= assegment_normalise(mergedpath
->segments
);
1758 aspath_str_update(mergedpath
, false);
1760 if (BGP_DEBUG(as4
, AS4
))
1761 zlog_debug("[AS4] result of synthesizing is %s",
1767 /* Compare leftmost AS value for MED check. If as1's leftmost AS and
1768 as2's leftmost AS is same return 1. (confederation as-path
1770 bool aspath_cmp_left_confed(const struct aspath
*aspath1
,
1771 const struct aspath
*aspath2
)
1773 if (!(aspath1
&& aspath2
))
1776 if (!(aspath1
->segments
&& aspath2
->segments
))
1779 if ((aspath1
->segments
->type
!= AS_CONFED_SEQUENCE
)
1780 || (aspath2
->segments
->type
!= AS_CONFED_SEQUENCE
))
1783 if (aspath1
->segments
->as
[0] == aspath2
->segments
->as
[0])
1789 /* Delete all AS_CONFED_SEQUENCE/SET segments from aspath.
1790 * RFC 5065 section 4.1.c.1
1792 * 1) if any path segments of the AS_PATH are of the type
1793 * AS_CONFED_SEQUENCE or AS_CONFED_SET, those segments MUST be
1794 * removed from the AS_PATH attribute, leaving the sanitized
1795 * AS_PATH attribute to be operated on by steps 2, 3 or 4.
1797 struct aspath
*aspath_delete_confed_seq(struct aspath
*aspath
)
1799 struct assegment
*seg
, *prev
, *next
;
1800 char removed_confed_segment
;
1802 if (!(aspath
&& aspath
->segments
))
1805 seg
= aspath
->segments
;
1806 removed_confed_segment
= 0;
1813 if (seg
->type
== AS_CONFED_SEQUENCE
1814 || seg
->type
== AS_CONFED_SET
) {
1815 /* This is the first segment in the aspath */
1816 if (aspath
->segments
== seg
)
1817 aspath
->segments
= seg
->next
;
1819 prev
->next
= seg
->next
;
1821 assegment_free(seg
);
1822 removed_confed_segment
= 1;
1829 if (removed_confed_segment
)
1830 aspath_str_update(aspath
, false);
1835 /* Add new AS number to the leftmost part of the aspath as
1836 AS_CONFED_SEQUENCE. */
1837 struct aspath
*aspath_add_confed_seq(struct aspath
*aspath
, as_t asno
)
1839 return aspath_add_asns(aspath
, asno
, AS_CONFED_SEQUENCE
, 1);
1842 /* Add new as value to as path structure. */
1843 static void aspath_as_add(struct aspath
*as
, as_t asno
)
1845 struct assegment
*seg
= as
->segments
;
1850 /* Last segment search procedure. */
1854 assegment_append_asns(seg
, &asno
, 1);
1857 /* Add new as segment to the as path. */
1858 static void aspath_segment_add(struct aspath
*as
, int type
)
1860 struct assegment
*seg
= as
->segments
;
1861 struct assegment
*new = assegment_new(type
, 0);
1871 struct aspath
*aspath_empty(void)
1873 return aspath_parse(NULL
, 0, 1); /* 32Bit ;-) */
1876 struct aspath
*aspath_empty_get(void)
1878 struct aspath
*aspath
;
1880 aspath
= aspath_new();
1881 aspath_make_str_count(aspath
, false);
1885 unsigned long aspath_count(void)
1887 return ashash
->count
;
1891 Theoretically, one as path can have:
1893 One BGP packet size should be less than 4096.
1894 One BGP attribute size should be less than 4096 - BGP header size.
1895 One BGP aspath size should be less than 4096 - BGP header size -
1896 BGP mandantry attribute size.
1899 /* AS path string lexical token enum. */
1904 as_token_confed_seq_start
,
1905 as_token_confed_seq_end
,
1906 as_token_confed_set_start
,
1907 as_token_confed_set_end
,
1911 /* Return next token and point for string parse. */
1912 static const char *aspath_gettoken(const char *buf
, enum as_token
*token
,
1913 unsigned long *asno
)
1915 const char *p
= buf
;
1917 /* Skip seperators (space for sequences, ',' for sets). */
1918 while (isspace((unsigned char)*p
) || *p
== ',')
1921 /* Check the end of the string and type specify characters
1927 *token
= as_token_set_start
;
1931 *token
= as_token_set_end
;
1935 *token
= as_token_confed_seq_start
;
1939 *token
= as_token_confed_seq_end
;
1943 *token
= as_token_confed_set_start
;
1947 *token
= as_token_confed_set_end
;
1952 /* Check actual AS value. */
1953 if (isdigit((unsigned char)*p
)) {
1956 *token
= as_token_asval
;
1960 while (isdigit((unsigned char)*p
)) {
1962 asval
+= (*p
- '0');
1969 /* There is no match then return unknown token. */
1970 *token
= as_token_unknown
;
1975 struct aspath
*aspath_str2aspath(const char *str
)
1977 enum as_token token
= as_token_unknown
;
1978 unsigned short as_type
;
1979 unsigned long asno
= 0;
1980 struct aspath
*aspath
;
1983 aspath
= aspath_new();
1985 /* We start default type as AS_SEQUENCE. */
1986 as_type
= AS_SEQUENCE
;
1989 while ((str
= aspath_gettoken(str
, &token
, &asno
)) != NULL
) {
1991 case as_token_asval
:
1993 aspath_segment_add(aspath
, as_type
);
1996 aspath_as_add(aspath
, asno
);
1998 case as_token_set_start
:
2000 aspath_segment_add(aspath
, as_type
);
2003 case as_token_set_end
:
2004 as_type
= AS_SEQUENCE
;
2007 case as_token_confed_seq_start
:
2008 as_type
= AS_CONFED_SEQUENCE
;
2009 aspath_segment_add(aspath
, as_type
);
2012 case as_token_confed_seq_end
:
2013 as_type
= AS_SEQUENCE
;
2016 case as_token_confed_set_start
:
2017 as_type
= AS_CONFED_SET
;
2018 aspath_segment_add(aspath
, as_type
);
2021 case as_token_confed_set_end
:
2022 as_type
= AS_SEQUENCE
;
2025 case as_token_unknown
:
2027 aspath_free(aspath
);
2032 aspath_make_str_count(aspath
, false);
2037 /* Make hash value by raw aspath data. */
2038 unsigned int aspath_key_make(const void *p
)
2040 const struct aspath
*aspath
= p
;
2041 unsigned int key
= 0;
2044 aspath_str_update((struct aspath
*)aspath
, false);
2046 key
= jhash(aspath
->str
, aspath
->str_len
, 2334325);
2051 /* If two aspath have same value then return 1 else return 0 */
2052 bool aspath_cmp(const void *arg1
, const void *arg2
)
2054 const struct assegment
*seg1
= ((const struct aspath
*)arg1
)->segments
;
2055 const struct assegment
*seg2
= ((const struct aspath
*)arg2
)->segments
;
2057 while (seg1
|| seg2
) {
2059 if ((!seg1
&& seg2
) || (seg1
&& !seg2
))
2061 if (seg1
->type
!= seg2
->type
)
2063 if (seg1
->length
!= seg2
->length
)
2065 for (i
= 0; i
< seg1
->length
; i
++)
2066 if (seg1
->as
[i
] != seg2
->as
[i
])
2074 /* AS path hash initialize. */
2075 void aspath_init(void)
2077 ashash
= hash_create_size(32768, aspath_key_make
, aspath_cmp
,
2081 void aspath_finish(void)
2083 hash_clean(ashash
, (void (*)(void *))aspath_free
);
2088 stream_free(snmp_stream
);
2091 /* return and as path value */
2092 const char *aspath_print(struct aspath
*as
)
2094 return (as
? as
->str
: NULL
);
2097 /* Printing functions */
2098 /* Feed the AS_PATH to the vty; the suffix string follows it only in case
2099 * AS_PATH wasn't empty.
2101 void aspath_print_vty(struct vty
*vty
, const char *format
, struct aspath
*as
,
2105 vty_out(vty
, format
, as
->str
);
2106 if (as
->str_len
&& strlen(suffix
))
2107 vty_out(vty
, "%s", suffix
);
2110 static void aspath_show_all_iterator(struct hash_bucket
*bucket
,
2115 as
= (struct aspath
*)bucket
->data
;
2117 vty_out(vty
, "[%p:%u] (%ld) ", (void *)bucket
, bucket
->key
, as
->refcnt
);
2118 vty_out(vty
, "%s\n", as
->str
);
2121 /* Print all aspath and hash information. This function is used from
2122 `show [ip] bgp paths' command. */
2123 void aspath_print_all_vty(struct vty
*vty
)
2125 hash_iterate(ashash
, (void (*)(struct hash_bucket
*,
2126 void *))aspath_show_all_iterator
,
2130 static struct aspath
*bgp_aggr_aspath_lookup(struct bgp_aggregate
*aggregate
,
2131 struct aspath
*aspath
)
2133 return hash_lookup(aggregate
->aspath_hash
, aspath
);
2136 static void *bgp_aggr_aspath_hash_alloc(void *p
)
2138 struct aspath
*ref
= (struct aspath
*)p
;
2139 struct aspath
*aspath
= NULL
;
2141 aspath
= aspath_dup(ref
);
2145 static void bgp_aggr_aspath_prepare(struct hash_bucket
*hb
, void *arg
)
2147 struct aspath
*hb_aspath
= hb
->data
;
2148 struct aspath
**aggr_aspath
= arg
;
2151 *aggr_aspath
= aspath_aggregate(*aggr_aspath
, hb_aspath
);
2153 *aggr_aspath
= aspath_dup(hb_aspath
);
2156 void bgp_aggr_aspath_remove(void *arg
)
2158 struct aspath
*aspath
= arg
;
2160 aspath_free(aspath
);
2163 void bgp_compute_aggregate_aspath(struct bgp_aggregate
*aggregate
,
2164 struct aspath
*aspath
)
2166 bgp_compute_aggregate_aspath_hash(aggregate
, aspath
);
2168 bgp_compute_aggregate_aspath_val(aggregate
);
2172 void bgp_compute_aggregate_aspath_hash(struct bgp_aggregate
*aggregate
,
2173 struct aspath
*aspath
)
2175 struct aspath
*aggr_aspath
= NULL
;
2177 if ((aggregate
== NULL
) || (aspath
== NULL
))
2180 /* Create hash if not already created.
2182 if (aggregate
->aspath_hash
== NULL
)
2183 aggregate
->aspath_hash
= hash_create(
2184 aspath_key_make
, aspath_cmp
,
2185 "BGP Aggregator as-path hash");
2187 aggr_aspath
= bgp_aggr_aspath_lookup(aggregate
, aspath
);
2188 if (aggr_aspath
== NULL
) {
2189 /* Insert as-path into hash.
2191 aggr_aspath
= hash_get(aggregate
->aspath_hash
, aspath
,
2192 bgp_aggr_aspath_hash_alloc
);
2195 /* Increment reference counter.
2197 aggr_aspath
->refcnt
++;
2200 void bgp_compute_aggregate_aspath_val(struct bgp_aggregate
*aggregate
)
2202 if (aggregate
== NULL
)
2204 /* Re-compute aggregate's as-path.
2206 if (aggregate
->aspath
) {
2207 aspath_free(aggregate
->aspath
);
2208 aggregate
->aspath
= NULL
;
2210 if (aggregate
->aspath_hash
2211 && aggregate
->aspath_hash
->count
) {
2212 hash_iterate(aggregate
->aspath_hash
,
2213 bgp_aggr_aspath_prepare
,
2214 &aggregate
->aspath
);
2218 void bgp_remove_aspath_from_aggregate(struct bgp_aggregate
*aggregate
,
2219 struct aspath
*aspath
)
2221 struct aspath
*aggr_aspath
= NULL
;
2222 struct aspath
*ret_aspath
= NULL
;
2225 || (!aggregate
->aspath_hash
)
2229 /* Look-up the aspath in the hash.
2231 aggr_aspath
= bgp_aggr_aspath_lookup(aggregate
, aspath
);
2233 aggr_aspath
->refcnt
--;
2235 if (aggr_aspath
->refcnt
== 0) {
2236 ret_aspath
= hash_release(aggregate
->aspath_hash
,
2238 aspath_free(ret_aspath
);
2241 /* Remove aggregate's old as-path.
2243 aspath_free(aggregate
->aspath
);
2244 aggregate
->aspath
= NULL
;
2246 bgp_compute_aggregate_aspath_val(aggregate
);
2251 void bgp_remove_aspath_from_aggregate_hash(struct bgp_aggregate
*aggregate
,
2252 struct aspath
*aspath
)
2254 struct aspath
*aggr_aspath
= NULL
;
2255 struct aspath
*ret_aspath
= NULL
;
2258 || (!aggregate
->aspath_hash
)
2262 /* Look-up the aspath in the hash.
2264 aggr_aspath
= bgp_aggr_aspath_lookup(aggregate
, aspath
);
2266 aggr_aspath
->refcnt
--;
2268 if (aggr_aspath
->refcnt
== 0) {
2269 ret_aspath
= hash_release(aggregate
->aspath_hash
,
2271 aspath_free(ret_aspath
);