2 * bgp_updgrp.c: BGP update group structures
4 * @copyright Copyright (C) 2014 Cumulus Networks, Inc.
6 * @author Avneesh Sachdev <avneesh@sproute.net>
7 * @author Rajesh Varadarajan <rajesh@sproute.net>
8 * @author Pradosh Mohapatra <pradosh@sproute.net>
10 * This file is part of GNU Zebra.
12 * GNU Zebra is free software; you can redistribute it and/or modify it
13 * under the terms of the GNU General Public License as published by the
14 * Free Software Foundation; either version 2, or (at your option) any
17 * GNU Zebra is distributed in the hope that it will be useful, but
18 * WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
20 * General Public License for more details.
22 * You should have received a copy of the GNU General Public License along
23 * with this program; see the file COPYING; if not, write to the Free Software
24 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
34 #include "sockunion.h"
42 #include "workqueue.h"
47 #include "bgpd/bgpd.h"
48 #include "bgpd/bgp_table.h"
49 #include "bgpd/bgp_debug.h"
50 #include "bgpd/bgp_errors.h"
51 #include "bgpd/bgp_fsm.h"
52 #include "bgpd/bgp_addpath.h"
53 #include "bgpd/bgp_advertise.h"
54 #include "bgpd/bgp_packet.h"
55 #include "bgpd/bgp_updgrp.h"
56 #include "bgpd/bgp_route.h"
57 #include "bgpd/bgp_filter.h"
58 #include "bgpd/bgp_io.h"
65 * assign a unique ID to update group and subgroup. Mostly for display/
66 * debugging purposes. It's a 64-bit space - used leisurely without a
67 * worry about its wrapping and about filling gaps. While at it, timestamp
70 static void update_group_checkin(struct update_group
*updgrp
)
72 updgrp
->id
= ++bm
->updgrp_idspace
;
73 updgrp
->uptime
= monotime(NULL
);
76 static void update_subgroup_checkin(struct update_subgroup
*subgrp
,
77 struct update_group
*updgrp
)
79 subgrp
->id
= ++bm
->subgrp_idspace
;
80 subgrp
->uptime
= monotime(NULL
);
83 static void sync_init(struct update_subgroup
*subgrp
,
84 struct update_group
*updgrp
)
86 struct peer
*peer
= UPDGRP_PEER(updgrp
);
89 XCALLOC(MTYPE_BGP_SYNCHRONISE
, sizeof(struct bgp_synchronize
));
90 bgp_adv_fifo_init(&subgrp
->sync
->update
);
91 bgp_adv_fifo_init(&subgrp
->sync
->withdraw
);
92 bgp_adv_fifo_init(&subgrp
->sync
->withdraw_low
);
94 hash_create(bgp_advertise_attr_hash_key
,
95 bgp_advertise_attr_hash_cmp
, "BGP SubGroup Hash");
97 /* We use a larger buffer for subgrp->work in the event that:
98 * - We RX a BGP_UPDATE where the attributes alone are just
99 * under 4096 or 65535 (if Extended Message capability negotiated).
100 * - The user configures an outbound route-map that does many as-path
101 * prepends or adds many communities. At most they can have
103 * args in a route-map so there is a finite limit on how large they
105 * make the attributes.
107 * Having a buffer with BGP_MAX_PACKET_SIZE_OVERFLOW allows us to avoid
109 * checking for every single attribute as we construct an UPDATE.
111 subgrp
->work
= stream_new(peer
->max_packet_size
112 + BGP_MAX_PACKET_SIZE_OVERFLOW
);
113 subgrp
->scratch
= stream_new(peer
->max_packet_size
);
116 static void sync_delete(struct update_subgroup
*subgrp
)
118 XFREE(MTYPE_BGP_SYNCHRONISE
, subgrp
->sync
);
120 hash_clean(subgrp
->hash
,
121 (void (*)(void *))bgp_advertise_attr_free
);
122 hash_free(subgrp
->hash
);
126 stream_free(subgrp
->work
);
129 stream_free(subgrp
->scratch
);
130 subgrp
->scratch
= NULL
;
136 * copy only those fields that are relevant to update group match
138 static void conf_copy(struct peer
*dst
, struct peer
*src
, afi_t afi
,
141 struct bgp_filter
*srcfilter
;
142 struct bgp_filter
*dstfilter
;
144 srcfilter
= &src
->filter
[afi
][safi
];
145 dstfilter
= &dst
->filter
[afi
][safi
];
148 dst
->sort
= src
->sort
;
150 dst
->v_routeadv
= src
->v_routeadv
;
151 dst
->flags
= src
->flags
;
152 dst
->af_flags
[afi
][safi
] = src
->af_flags
[afi
][safi
];
153 dst
->pmax_out
[afi
][safi
] = src
->pmax_out
[afi
][safi
];
154 dst
->max_packet_size
= src
->max_packet_size
;
155 XFREE(MTYPE_BGP_PEER_HOST
, dst
->host
);
157 dst
->host
= XSTRDUP(MTYPE_BGP_PEER_HOST
, src
->host
);
159 dst
->af_cap
[afi
][safi
] = src
->af_cap
[afi
][safi
];
160 dst
->afc_nego
[afi
][safi
] = src
->afc_nego
[afi
][safi
];
161 dst
->orf_plist
[afi
][safi
] = src
->orf_plist
[afi
][safi
];
162 dst
->addpath_type
[afi
][safi
] = src
->addpath_type
[afi
][safi
];
163 dst
->local_as
= src
->local_as
;
164 dst
->change_local_as
= src
->change_local_as
;
165 dst
->shared_network
= src
->shared_network
;
166 dst
->local_role
= src
->local_role
;
168 if (src
->soo
[afi
][safi
]) {
169 ecommunity_free(&dst
->soo
[afi
][safi
]);
170 dst
->soo
[afi
][safi
] = ecommunity_dup(src
->soo
[afi
][safi
]);
173 memcpy(&(dst
->nexthop
), &(src
->nexthop
), sizeof(struct bgp_nexthop
));
175 dst
->group
= src
->group
;
177 if (src
->default_rmap
[afi
][safi
].name
) {
178 dst
->default_rmap
[afi
][safi
].name
=
179 XSTRDUP(MTYPE_ROUTE_MAP_NAME
,
180 src
->default_rmap
[afi
][safi
].name
);
181 dst
->default_rmap
[afi
][safi
].map
=
182 src
->default_rmap
[afi
][safi
].map
;
185 if (DISTRIBUTE_OUT_NAME(srcfilter
)) {
186 DISTRIBUTE_OUT_NAME(dstfilter
) = XSTRDUP(
187 MTYPE_BGP_FILTER_NAME
, DISTRIBUTE_OUT_NAME(srcfilter
));
188 DISTRIBUTE_OUT(dstfilter
) = DISTRIBUTE_OUT(srcfilter
);
191 if (PREFIX_LIST_OUT_NAME(srcfilter
)) {
192 PREFIX_LIST_OUT_NAME(dstfilter
) = XSTRDUP(
193 MTYPE_BGP_FILTER_NAME
, PREFIX_LIST_OUT_NAME(srcfilter
));
194 PREFIX_LIST_OUT(dstfilter
) = PREFIX_LIST_OUT(srcfilter
);
197 if (FILTER_LIST_OUT_NAME(srcfilter
)) {
198 FILTER_LIST_OUT_NAME(dstfilter
) = XSTRDUP(
199 MTYPE_BGP_FILTER_NAME
, FILTER_LIST_OUT_NAME(srcfilter
));
200 FILTER_LIST_OUT(dstfilter
) = FILTER_LIST_OUT(srcfilter
);
203 if (ROUTE_MAP_OUT_NAME(srcfilter
)) {
204 ROUTE_MAP_OUT_NAME(dstfilter
) = XSTRDUP(
205 MTYPE_BGP_FILTER_NAME
, ROUTE_MAP_OUT_NAME(srcfilter
));
206 ROUTE_MAP_OUT(dstfilter
) = ROUTE_MAP_OUT(srcfilter
);
209 if (UNSUPPRESS_MAP_NAME(srcfilter
)) {
210 UNSUPPRESS_MAP_NAME(dstfilter
) = XSTRDUP(
211 MTYPE_BGP_FILTER_NAME
, UNSUPPRESS_MAP_NAME(srcfilter
));
212 UNSUPPRESS_MAP(dstfilter
) = UNSUPPRESS_MAP(srcfilter
);
215 if (ADVERTISE_MAP_NAME(srcfilter
)) {
216 ADVERTISE_MAP_NAME(dstfilter
) = XSTRDUP(
217 MTYPE_BGP_FILTER_NAME
, ADVERTISE_MAP_NAME(srcfilter
));
218 ADVERTISE_MAP(dstfilter
) = ADVERTISE_MAP(srcfilter
);
219 ADVERTISE_CONDITION(dstfilter
) = ADVERTISE_CONDITION(srcfilter
);
222 if (CONDITION_MAP_NAME(srcfilter
)) {
223 CONDITION_MAP_NAME(dstfilter
) = XSTRDUP(
224 MTYPE_BGP_FILTER_NAME
, CONDITION_MAP_NAME(srcfilter
));
225 CONDITION_MAP(dstfilter
) = CONDITION_MAP(srcfilter
);
228 dstfilter
->advmap
.update_type
= srcfilter
->advmap
.update_type
;
232 * since we did a bunch of XSTRDUP's in conf_copy, time to free them up
234 static void conf_release(struct peer
*src
, afi_t afi
, safi_t safi
)
236 struct bgp_filter
*srcfilter
;
238 srcfilter
= &src
->filter
[afi
][safi
];
240 XFREE(MTYPE_ROUTE_MAP_NAME
, src
->default_rmap
[afi
][safi
].name
);
242 XFREE(MTYPE_BGP_FILTER_NAME
, srcfilter
->dlist
[FILTER_OUT
].name
);
244 XFREE(MTYPE_BGP_FILTER_NAME
, srcfilter
->plist
[FILTER_OUT
].name
);
246 XFREE(MTYPE_BGP_FILTER_NAME
, srcfilter
->aslist
[FILTER_OUT
].name
);
248 XFREE(MTYPE_BGP_FILTER_NAME
, srcfilter
->map
[RMAP_OUT
].name
);
250 XFREE(MTYPE_BGP_FILTER_NAME
, srcfilter
->usmap
.name
);
252 XFREE(MTYPE_BGP_FILTER_NAME
, srcfilter
->advmap
.aname
);
254 XFREE(MTYPE_BGP_FILTER_NAME
, srcfilter
->advmap
.cname
);
256 XFREE(MTYPE_BGP_PEER_HOST
, src
->host
);
258 ecommunity_free(&src
->soo
[afi
][safi
]);
261 static void peer2_updgrp_copy(struct update_group
*updgrp
, struct peer_af
*paf
)
274 updgrp
->afi
= paf
->afi
;
275 updgrp
->safi
= paf
->safi
;
276 updgrp
->afid
= paf
->afid
;
277 updgrp
->bgp
= src
->bgp
;
279 conf_copy(dst
, src
, paf
->afi
, paf
->safi
);
283 * auxiliary functions to maintain the hash table.
284 * - updgrp_hash_alloc - to create a new entry, passed to hash_get
285 * - updgrp_hash_key_make - makes the key for update group search
286 * - updgrp_hash_cmp - compare two update groups.
288 static void *updgrp_hash_alloc(void *p
)
290 struct update_group
*updgrp
;
291 const struct update_group
*in
;
293 in
= (const struct update_group
*)p
;
294 updgrp
= XCALLOC(MTYPE_BGP_UPDGRP
, sizeof(struct update_group
));
295 memcpy(updgrp
, in
, sizeof(struct update_group
));
296 updgrp
->conf
= XCALLOC(MTYPE_BGP_PEER
, sizeof(struct peer
));
297 conf_copy(updgrp
->conf
, in
->conf
, in
->afi
, in
->safi
);
302 * The hash value for a peer is computed from the following variables:
304 * 1. IBGP (1) or EBGP (2)
305 * 2. FLAGS based on configuration:
306 * LOCAL_AS_NO_PREPEND
307 * LOCAL_AS_REPLACE_AS
308 * 3. AF_FLAGS based on configuration:
309 * Refer to definition in bgp_updgrp.h
310 * 4. (AF-independent) Capability flags:
312 * 5. (AF-dependent) Capability flags:
313 * ORF_PREFIX_SM_RCV (peer can send prefix ORF)
316 * 8. Outbound route-map name (neighbor route-map <> out)
317 * 9. Outbound distribute-list name (neighbor distribute-list <> out)
318 * 10. Outbound prefix-list name (neighbor prefix-list <> out)
319 * 11. Outbound as-list name (neighbor filter-list <> out)
320 * 12. Unsuppress map name (neighbor unsuppress-map <>)
321 * 13. default rmap name (neighbor default-originate route-map <>)
322 * 14. encoding both global and link-local nexthop?
323 * 15. If peer is configured to be a lonesoul, peer ip address
324 * 16. Local-as should match, if configured.
325 * 17. maximum-prefix-out
326 * 18. Local-role should also match, if configured.
329 static unsigned int updgrp_hash_key_make(const void *p
)
331 const struct update_group
*updgrp
;
332 const struct peer
*peer
;
333 const struct bgp_filter
*filter
;
340 #define SEED2 2147483647
346 flags
= peer
->af_flags
[afi
][safi
];
347 filter
= &peer
->filter
[afi
][safi
];
351 key
= jhash_1word(peer
->sort
, key
); /* EBGP or IBGP */
352 key
= jhash_1word((peer
->flags
& PEER_UPDGRP_FLAGS
), key
);
353 key
= jhash_1word((flags
& PEER_UPDGRP_AF_FLAGS
), key
);
354 key
= jhash_1word((uint32_t)peer
->addpath_type
[afi
][safi
], key
);
355 key
= jhash_1word((peer
->cap
& PEER_UPDGRP_CAP_FLAGS
), key
);
356 key
= jhash_1word((peer
->af_cap
[afi
][safi
] & PEER_UPDGRP_AF_CAP_FLAGS
),
358 key
= jhash_1word(peer
->v_routeadv
, key
);
359 key
= jhash_1word(peer
->change_local_as
, key
);
360 key
= jhash_1word(peer
->max_packet_size
, key
);
361 key
= jhash_1word(peer
->pmax_out
[afi
][safi
], key
);
364 key
= jhash_1word(jhash(peer
->group
->name
,
365 strlen(peer
->group
->name
), SEED1
),
368 if (filter
->map
[RMAP_OUT
].name
)
369 key
= jhash_1word(jhash(filter
->map
[RMAP_OUT
].name
,
370 strlen(filter
->map
[RMAP_OUT
].name
),
374 if (filter
->dlist
[FILTER_OUT
].name
)
375 key
= jhash_1word(jhash(filter
->dlist
[FILTER_OUT
].name
,
376 strlen(filter
->dlist
[FILTER_OUT
].name
),
380 if (filter
->plist
[FILTER_OUT
].name
)
381 key
= jhash_1word(jhash(filter
->plist
[FILTER_OUT
].name
,
382 strlen(filter
->plist
[FILTER_OUT
].name
),
386 if (filter
->aslist
[FILTER_OUT
].name
)
387 key
= jhash_1word(jhash(filter
->aslist
[FILTER_OUT
].name
,
388 strlen(filter
->aslist
[FILTER_OUT
].name
),
392 if (filter
->usmap
.name
)
393 key
= jhash_1word(jhash(filter
->usmap
.name
,
394 strlen(filter
->usmap
.name
), SEED1
),
397 if (filter
->advmap
.aname
)
398 key
= jhash_1word(jhash(filter
->advmap
.aname
,
399 strlen(filter
->advmap
.aname
), SEED1
),
402 if (filter
->advmap
.update_type
)
403 key
= jhash_1word(filter
->advmap
.update_type
, key
);
405 if (peer
->default_rmap
[afi
][safi
].name
)
407 jhash(peer
->default_rmap
[afi
][safi
].name
,
408 strlen(peer
->default_rmap
[afi
][safi
].name
),
412 /* If peer is on a shared network and is exchanging IPv6 prefixes,
413 * it needs to include link-local address. That's different from
414 * non-shared-network peers (nexthop encoded with 32 bytes vs 16
415 * bytes). We create different update groups to take care of that.
418 (peer
->shared_network
&& peer_afi_active_nego(peer
, AFI_IP6
)),
421 * There are certain peers that must get their own update-group:
423 * - peers that negotiated ORF
424 * - maximum-prefix-out is set
426 if (CHECK_FLAG(peer
->flags
, PEER_FLAG_LONESOUL
)
427 || CHECK_FLAG(peer
->af_cap
[afi
][safi
], PEER_CAP_ORF_PREFIX_SM_RCV
)
428 || CHECK_FLAG(peer
->af_cap
[afi
][safi
],
429 PEER_CAP_ORF_PREFIX_SM_OLD_RCV
)
430 || CHECK_FLAG(peer
->af_flags
[afi
][safi
], PEER_FLAG_MAX_PREFIX_OUT
))
431 key
= jhash_1word(jhash(peer
->host
, strlen(peer
->host
), SEED2
),
434 * Multiple sessions with the same neighbor should get their own
435 * update-group if they have different roles.
437 key
= jhash_1word(peer
->local_role
, key
);
439 /* Neighbors configured with the AIGP attribute are put in a separate
440 * update group from other neighbors.
442 key
= jhash_1word((peer
->flags
& PEER_FLAG_AIGP
), key
);
444 if (peer
->soo
[afi
][safi
]) {
445 char *soo_str
= ecommunity_str(peer
->soo
[afi
][safi
]);
447 key
= jhash_1word(jhash(soo_str
, strlen(soo_str
), SEED1
), key
);
450 if (bgp_debug_neighbor_events(peer
)) {
452 "%pBP Update Group Hash: sort: %d UpdGrpFlags: %ju UpdGrpAFFlags: %ju",
454 (intmax_t)CHECK_FLAG(peer
->flags
, PEER_UPDGRP_FLAGS
),
455 (intmax_t)CHECK_FLAG(flags
, PEER_UPDGRP_AF_FLAGS
));
457 "%pBP Update Group Hash: addpath: %u UpdGrpCapFlag: %u UpdGrpCapAFFlag: %u route_adv: %u change local as: %u",
458 peer
, (uint32_t)peer
->addpath_type
[afi
][safi
],
459 CHECK_FLAG(peer
->cap
, PEER_UPDGRP_CAP_FLAGS
),
460 CHECK_FLAG(peer
->af_cap
[afi
][safi
],
461 PEER_UPDGRP_AF_CAP_FLAGS
),
462 peer
->v_routeadv
, peer
->change_local_as
);
464 "%pBP Update Group Hash: max packet size: %u pmax_out: %u Peer Group: %s rmap out: %s",
465 peer
, peer
->max_packet_size
, peer
->pmax_out
[afi
][safi
],
466 peer
->group
? peer
->group
->name
: "(NONE)",
467 ROUTE_MAP_OUT_NAME(filter
) ? ROUTE_MAP_OUT_NAME(filter
)
470 "%pBP Update Group Hash: dlist out: %s plist out: %s aslist out: %s usmap out: %s advmap: %s",
472 DISTRIBUTE_OUT_NAME(filter
)
473 ? DISTRIBUTE_OUT_NAME(filter
)
475 PREFIX_LIST_OUT_NAME(filter
)
476 ? PREFIX_LIST_OUT_NAME(filter
)
478 FILTER_LIST_OUT_NAME(filter
)
479 ? FILTER_LIST_OUT_NAME(filter
)
481 UNSUPPRESS_MAP_NAME(filter
)
482 ? UNSUPPRESS_MAP_NAME(filter
)
484 ADVERTISE_MAP_NAME(filter
) ? ADVERTISE_MAP_NAME(filter
)
487 "%pBP Update Group Hash: default rmap: %s shared network and afi active network: %d",
489 peer
->default_rmap
[afi
][safi
].name
490 ? peer
->default_rmap
[afi
][safi
].name
492 peer
->shared_network
&&
493 peer_afi_active_nego(peer
, AFI_IP6
));
495 "%pBP Update Group Hash: Lonesoul: %d ORF prefix: %u ORF old: %u max prefix out: %ju",
496 peer
, !!CHECK_FLAG(peer
->flags
, PEER_FLAG_LONESOUL
),
497 CHECK_FLAG(peer
->af_cap
[afi
][safi
],
498 PEER_CAP_ORF_PREFIX_SM_RCV
),
499 CHECK_FLAG(peer
->af_cap
[afi
][safi
],
500 PEER_CAP_ORF_PREFIX_SM_OLD_RCV
),
501 (intmax_t)CHECK_FLAG(peer
->af_flags
[afi
][safi
],
502 PEER_FLAG_MAX_PREFIX_OUT
));
503 zlog_debug("%pBP Update Group Hash key: %u", peer
, key
);
508 static bool updgrp_hash_cmp(const void *p1
, const void *p2
)
510 const struct update_group
*grp1
;
511 const struct update_group
*grp2
;
512 const struct peer
*pe1
;
513 const struct peer
*pe2
;
516 const struct bgp_filter
*fl1
;
517 const struct bgp_filter
*fl2
;
530 flags1
= pe1
->af_flags
[afi
][safi
];
531 flags2
= pe2
->af_flags
[afi
][safi
];
532 fl1
= &pe1
->filter
[afi
][safi
];
533 fl2
= &pe2
->filter
[afi
][safi
];
535 /* put EBGP and IBGP peers in different update groups */
536 if (pe1
->sort
!= pe2
->sort
)
539 /* check peer flags */
540 if ((pe1
->flags
& PEER_UPDGRP_FLAGS
)
541 != (pe2
->flags
& PEER_UPDGRP_FLAGS
))
544 /* If there is 'local-as' configured, it should match. */
545 if (pe1
->change_local_as
!= pe2
->change_local_as
)
548 if (pe1
->pmax_out
[afi
][safi
] != pe2
->pmax_out
[afi
][safi
])
551 /* flags like route reflector client */
552 if ((flags1
& PEER_UPDGRP_AF_FLAGS
) != (flags2
& PEER_UPDGRP_AF_FLAGS
))
555 if (pe1
->addpath_type
[afi
][safi
] != pe2
->addpath_type
[afi
][safi
])
558 if ((pe1
->cap
& PEER_UPDGRP_CAP_FLAGS
)
559 != (pe2
->cap
& PEER_UPDGRP_CAP_FLAGS
))
562 if ((pe1
->af_cap
[afi
][safi
] & PEER_UPDGRP_AF_CAP_FLAGS
)
563 != (pe2
->af_cap
[afi
][safi
] & PEER_UPDGRP_AF_CAP_FLAGS
))
566 if (pe1
->v_routeadv
!= pe2
->v_routeadv
)
569 if (pe1
->group
!= pe2
->group
)
572 /* Roles can affect filtering */
573 if (pe1
->local_role
!= pe2
->local_role
)
576 /* route-map names should be the same */
577 if ((fl1
->map
[RMAP_OUT
].name
&& !fl2
->map
[RMAP_OUT
].name
)
578 || (!fl1
->map
[RMAP_OUT
].name
&& fl2
->map
[RMAP_OUT
].name
)
579 || (fl1
->map
[RMAP_OUT
].name
&& fl2
->map
[RMAP_OUT
].name
580 && strcmp(fl1
->map
[RMAP_OUT
].name
, fl2
->map
[RMAP_OUT
].name
)))
583 if ((fl1
->dlist
[FILTER_OUT
].name
&& !fl2
->dlist
[FILTER_OUT
].name
)
584 || (!fl1
->dlist
[FILTER_OUT
].name
&& fl2
->dlist
[FILTER_OUT
].name
)
585 || (fl1
->dlist
[FILTER_OUT
].name
&& fl2
->dlist
[FILTER_OUT
].name
586 && strcmp(fl1
->dlist
[FILTER_OUT
].name
,
587 fl2
->dlist
[FILTER_OUT
].name
)))
590 if ((fl1
->plist
[FILTER_OUT
].name
&& !fl2
->plist
[FILTER_OUT
].name
)
591 || (!fl1
->plist
[FILTER_OUT
].name
&& fl2
->plist
[FILTER_OUT
].name
)
592 || (fl1
->plist
[FILTER_OUT
].name
&& fl2
->plist
[FILTER_OUT
].name
593 && strcmp(fl1
->plist
[FILTER_OUT
].name
,
594 fl2
->plist
[FILTER_OUT
].name
)))
597 if ((fl1
->aslist
[FILTER_OUT
].name
&& !fl2
->aslist
[FILTER_OUT
].name
)
598 || (!fl1
->aslist
[FILTER_OUT
].name
&& fl2
->aslist
[FILTER_OUT
].name
)
599 || (fl1
->aslist
[FILTER_OUT
].name
&& fl2
->aslist
[FILTER_OUT
].name
600 && strcmp(fl1
->aslist
[FILTER_OUT
].name
,
601 fl2
->aslist
[FILTER_OUT
].name
)))
604 if ((fl1
->usmap
.name
&& !fl2
->usmap
.name
)
605 || (!fl1
->usmap
.name
&& fl2
->usmap
.name
)
606 || (fl1
->usmap
.name
&& fl2
->usmap
.name
607 && strcmp(fl1
->usmap
.name
, fl2
->usmap
.name
)))
610 if ((fl1
->advmap
.aname
&& !fl2
->advmap
.aname
)
611 || (!fl1
->advmap
.aname
&& fl2
->advmap
.aname
)
612 || (fl1
->advmap
.aname
&& fl2
->advmap
.aname
613 && strcmp(fl1
->advmap
.aname
, fl2
->advmap
.aname
)))
616 if (fl1
->advmap
.update_type
!= fl2
->advmap
.update_type
)
619 if ((pe1
->default_rmap
[afi
][safi
].name
620 && !pe2
->default_rmap
[afi
][safi
].name
)
621 || (!pe1
->default_rmap
[afi
][safi
].name
622 && pe2
->default_rmap
[afi
][safi
].name
)
623 || (pe1
->default_rmap
[afi
][safi
].name
624 && pe2
->default_rmap
[afi
][safi
].name
625 && strcmp(pe1
->default_rmap
[afi
][safi
].name
,
626 pe2
->default_rmap
[afi
][safi
].name
)))
629 if ((afi
== AFI_IP6
) && (pe1
->shared_network
!= pe2
->shared_network
))
632 if ((CHECK_FLAG(pe1
->flags
, PEER_FLAG_LONESOUL
)
633 || CHECK_FLAG(pe1
->af_cap
[afi
][safi
], PEER_CAP_ORF_PREFIX_SM_RCV
)
634 || CHECK_FLAG(pe1
->af_cap
[afi
][safi
],
635 PEER_CAP_ORF_PREFIX_SM_OLD_RCV
))
636 && !sockunion_same(&pe1
->su
, &pe2
->su
))
642 static void peer_lonesoul_or_not(struct peer
*peer
, int set
)
644 /* no change in status? */
645 if (set
== (CHECK_FLAG(peer
->flags
, PEER_FLAG_LONESOUL
) > 0))
649 SET_FLAG(peer
->flags
, PEER_FLAG_LONESOUL
);
651 UNSET_FLAG(peer
->flags
, PEER_FLAG_LONESOUL
);
653 update_group_adjust_peer_afs(peer
);
657 * subgroup_total_packets_enqueued
659 * Returns the total number of packets enqueued to a subgroup.
662 subgroup_total_packets_enqueued(struct update_subgroup
*subgrp
)
666 pkt
= bpacket_queue_last(SUBGRP_PKTQ(subgrp
));
671 static int update_group_show_walkcb(struct update_group
*updgrp
, void *arg
)
673 struct updwalk_context
*ctx
= arg
;
675 struct update_subgroup
*subgrp
;
677 struct bgp_filter
*filter
;
678 struct peer
*peer
= UPDGRP_PEER(updgrp
);
680 json_object
*json_updgrp
= NULL
;
681 json_object
*json_subgrps
= NULL
;
682 json_object
*json_subgrp
= NULL
;
683 json_object
*json_time
= NULL
;
684 json_object
*json_subgrp_time
= NULL
;
685 json_object
*json_subgrp_event
= NULL
;
686 json_object
*json_peers
= NULL
;
687 json_object
*json_pkt_info
= NULL
;
688 time_t epoch_tbuf
, tbuf
;
693 if (ctx
->subgrp_id
) {
694 UPDGRP_FOREACH_SUBGRP (updgrp
, subgrp
) {
695 if (ctx
->subgrp_id
&& (ctx
->subgrp_id
!= subgrp
->id
))
707 /* Since this routine is invoked from a walk, we cannot signal
709 /* error here, can only return. */
716 json_updgrp
= json_object_new_object();
717 /* Display json o/p */
718 tbuf
= monotime(NULL
);
719 tbuf
-= updgrp
->uptime
;
720 epoch_tbuf
= time(NULL
) - tbuf
;
721 json_time
= json_object_new_object();
722 json_object_int_add(json_time
, "epoch", epoch_tbuf
);
723 json_object_string_add(json_time
, "epochString",
725 json_object_object_add(json_updgrp
, "groupCreateTime",
727 json_object_string_add(json_updgrp
, "afi",
728 afi2str(updgrp
->afi
));
729 json_object_string_add(json_updgrp
, "safi",
730 safi2str(updgrp
->safi
));
732 vty_out(vty
, "Update-group %" PRIu64
":\n", updgrp
->id
);
733 vty_out(vty
, " Created: %s", timestamp_string(updgrp
->uptime
));
736 filter
= &updgrp
->conf
->filter
[updgrp
->afi
][updgrp
->safi
];
737 if (filter
->map
[RMAP_OUT
].name
) {
739 json_object_string_add(json_updgrp
, "outRouteMap",
740 filter
->map
[RMAP_OUT
].name
);
742 vty_out(vty
, " Outgoing route map: %s\n",
743 filter
->map
[RMAP_OUT
].name
);
747 json_object_int_add(json_updgrp
, "minRouteAdvInt",
748 updgrp
->conf
->v_routeadv
);
750 vty_out(vty
, " MRAI value (seconds): %d\n",
751 updgrp
->conf
->v_routeadv
);
753 if (updgrp
->conf
->change_local_as
) {
755 json_object_int_add(json_updgrp
, "localAs",
756 updgrp
->conf
->change_local_as
);
757 json_object_boolean_add(
758 json_updgrp
, "noPrepend",
759 CHECK_FLAG(updgrp
->conf
->flags
,
760 PEER_FLAG_LOCAL_AS_NO_PREPEND
));
761 json_object_boolean_add(
762 json_updgrp
, "replaceLocalAs",
763 CHECK_FLAG(updgrp
->conf
->flags
,
764 PEER_FLAG_LOCAL_AS_REPLACE_AS
));
766 vty_out(vty
, " Local AS %u%s%s\n",
767 updgrp
->conf
->change_local_as
,
768 CHECK_FLAG(updgrp
->conf
->flags
,
769 PEER_FLAG_LOCAL_AS_NO_PREPEND
)
772 CHECK_FLAG(updgrp
->conf
->flags
,
773 PEER_FLAG_LOCAL_AS_REPLACE_AS
)
779 json_subgrps
= json_object_new_array();
780 UPDGRP_FOREACH_SUBGRP (updgrp
, subgrp
) {
781 if (ctx
->subgrp_id
&& (ctx
->subgrp_id
!= subgrp
->id
))
784 json_subgrp
= json_object_new_object();
785 json_object_int_add(json_subgrp
, "subGroupId",
787 tbuf
= monotime(NULL
);
788 tbuf
-= subgrp
->uptime
;
789 epoch_tbuf
= time(NULL
) - tbuf
;
790 json_subgrp_time
= json_object_new_object();
791 json_object_int_add(json_subgrp_time
, "epoch",
793 json_object_string_add(json_subgrp_time
, "epochString",
795 json_object_object_add(json_subgrp
, "groupCreateTime",
799 vty_out(vty
, " Update-subgroup %" PRIu64
":\n",
801 vty_out(vty
, " Created: %s",
802 timestamp_string(subgrp
->uptime
));
805 if (subgrp
->split_from
.update_group_id
806 || subgrp
->split_from
.subgroup_id
) {
809 json_subgrp
, "splitGroupId",
810 subgrp
->split_from
.update_group_id
);
812 json_subgrp
, "splitSubGroupId",
813 subgrp
->split_from
.subgroup_id
);
816 " Split from group id: %" PRIu64
818 subgrp
->split_from
.update_group_id
);
820 " Split from subgroup id: %" PRIu64
822 subgrp
->split_from
.subgroup_id
);
827 json_subgrp_event
= json_object_new_object();
828 json_object_int_add(json_subgrp_event
, "joinEvents",
829 subgrp
->join_events
);
830 json_object_int_add(json_subgrp_event
, "pruneEvents",
831 subgrp
->prune_events
);
832 json_object_int_add(json_subgrp_event
, "mergeEvents",
833 subgrp
->merge_events
);
834 json_object_int_add(json_subgrp_event
, "splitEvents",
835 subgrp
->split_events
);
836 json_object_int_add(json_subgrp_event
, "switchEvents",
837 subgrp
->updgrp_switch_events
);
838 json_object_int_add(json_subgrp_event
,
840 subgrp
->peer_refreshes_combined
);
841 json_object_int_add(json_subgrp_event
,
843 subgrp
->merge_checks_triggered
);
844 json_object_object_add(json_subgrp
, "statistics",
846 json_object_int_add(json_subgrp
, "coalesceTime",
847 (UPDGRP_INST(subgrp
->update_group
))
849 json_object_int_add(json_subgrp
, "version",
851 json_pkt_info
= json_object_new_object();
853 json_pkt_info
, "qeueueLen",
854 bpacket_queue_length(SUBGRP_PKTQ(subgrp
)));
856 json_pkt_info
, "queuedTotal",
857 subgroup_total_packets_enqueued(subgrp
));
859 json_pkt_info
, "queueHwmLen",
860 bpacket_queue_hwm_length(SUBGRP_PKTQ(subgrp
)));
862 json_pkt_info
, "totalEnqueued",
863 subgroup_total_packets_enqueued(subgrp
));
864 json_object_object_add(json_subgrp
, "packetQueueInfo",
866 json_object_int_add(json_subgrp
, "adjListCount",
868 json_object_boolean_add(
869 json_subgrp
, "needsRefresh",
870 CHECK_FLAG(subgrp
->flags
,
871 SUBGRP_FLAG_NEEDS_REFRESH
));
873 vty_out(vty
, " Join events: %u\n",
874 subgrp
->join_events
);
875 vty_out(vty
, " Prune events: %u\n",
876 subgrp
->prune_events
);
877 vty_out(vty
, " Merge events: %u\n",
878 subgrp
->merge_events
);
879 vty_out(vty
, " Split events: %u\n",
880 subgrp
->split_events
);
881 vty_out(vty
, " Update group switch events: %u\n",
882 subgrp
->updgrp_switch_events
);
883 vty_out(vty
, " Peer refreshes combined: %u\n",
884 subgrp
->peer_refreshes_combined
);
885 vty_out(vty
, " Merge checks triggered: %u\n",
886 subgrp
->merge_checks_triggered
);
887 vty_out(vty
, " Coalesce Time: %u%s\n",
888 (UPDGRP_INST(subgrp
->update_group
))
890 subgrp
->t_coalesce
? "(Running)" : "");
891 vty_out(vty
, " Version: %" PRIu64
"\n",
893 vty_out(vty
, " Packet queue length: %d\n",
894 bpacket_queue_length(SUBGRP_PKTQ(subgrp
)));
895 vty_out(vty
, " Total packets enqueued: %u\n",
896 subgroup_total_packets_enqueued(subgrp
));
897 vty_out(vty
, " Packet queue high watermark: %d\n",
898 bpacket_queue_hwm_length(SUBGRP_PKTQ(subgrp
)));
899 vty_out(vty
, " Adj-out list count: %u\n",
901 vty_out(vty
, " Advertise list: %s\n",
902 advertise_list_is_empty(subgrp
) ? "empty"
904 vty_out(vty
, " Flags: %s\n",
905 CHECK_FLAG(subgrp
->flags
,
906 SUBGRP_FLAG_NEEDS_REFRESH
)
910 vty_out(vty
, " Max packet size: %d\n",
911 peer
->max_packet_size
);
913 if (subgrp
->peer_count
> 0) {
915 json_peers
= json_object_new_array();
916 SUBGRP_FOREACH_PEER (subgrp
, paf
) {
918 json_object_new_string(
920 json_object_array_add(json_peers
, peer
);
922 json_object_object_add(json_subgrp
, "peers",
925 vty_out(vty
, " Peers:\n");
926 SUBGRP_FOREACH_PEER (subgrp
, paf
)
927 vty_out(vty
, " - %s\n",
933 json_object_array_add(json_subgrps
, json_subgrp
);
937 json_object_object_add(json_updgrp
, "subGroup", json_subgrps
);
938 json_object_object_addf(ctx
->json_updategrps
, json_updgrp
,
939 "%" PRIu64
, updgrp
->id
);
942 return UPDWALK_CONTINUE
;
946 * Helper function to show the packet queue for each subgroup of update group.
947 * Will be constrained to a particular subgroup id if id !=0
949 static int updgrp_show_packet_queue_walkcb(struct update_group
*updgrp
,
952 struct updwalk_context
*ctx
= arg
;
953 struct update_subgroup
*subgrp
;
957 UPDGRP_FOREACH_SUBGRP (updgrp
, subgrp
) {
958 if (ctx
->subgrp_id
&& (ctx
->subgrp_id
!= subgrp
->id
))
960 vty_out(vty
, "update group %" PRIu64
", subgroup %" PRIu64
"\n",
961 updgrp
->id
, subgrp
->id
);
962 bpacket_queue_show_vty(SUBGRP_PKTQ(subgrp
), vty
);
964 return UPDWALK_CONTINUE
;
968 * Show the packet queue for each subgroup of update group. Will be
969 * constrained to a particular subgroup id if id !=0
971 void update_group_show_packet_queue(struct bgp
*bgp
, afi_t afi
, safi_t safi
,
972 struct vty
*vty
, uint64_t id
)
974 struct updwalk_context ctx
;
976 memset(&ctx
, 0, sizeof(ctx
));
980 update_group_af_walk(bgp
, afi
, safi
, updgrp_show_packet_queue_walkcb
,
984 static struct update_group
*update_group_find(struct peer_af
*paf
)
986 struct update_group
*updgrp
;
987 struct update_group tmp
;
988 struct peer tmp_conf
;
990 if (!peer_established(PAF_PEER(paf
)))
993 memset(&tmp
, 0, sizeof(tmp
));
994 memset(&tmp_conf
, 0, sizeof(tmp_conf
));
995 tmp
.conf
= &tmp_conf
;
996 peer2_updgrp_copy(&tmp
, paf
);
998 updgrp
= hash_lookup(paf
->peer
->bgp
->update_groups
[paf
->afid
], &tmp
);
999 conf_release(&tmp_conf
, paf
->afi
, paf
->safi
);
1003 static struct update_group
*update_group_create(struct peer_af
*paf
)
1005 struct update_group
*updgrp
;
1006 struct update_group tmp
;
1007 struct peer tmp_conf
;
1009 memset(&tmp
, 0, sizeof(tmp
));
1010 memset(&tmp_conf
, 0, sizeof(tmp_conf
));
1011 tmp
.conf
= &tmp_conf
;
1012 peer2_updgrp_copy(&tmp
, paf
);
1014 updgrp
= hash_get(paf
->peer
->bgp
->update_groups
[paf
->afid
], &tmp
,
1016 update_group_checkin(updgrp
);
1018 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1019 zlog_debug("create update group %" PRIu64
, updgrp
->id
);
1021 UPDGRP_GLOBAL_STAT(updgrp
, updgrps_created
) += 1;
1023 conf_release(&tmp_conf
, paf
->afi
, paf
->safi
);
1027 static void update_group_delete(struct update_group
*updgrp
)
1029 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1030 zlog_debug("delete update group %" PRIu64
, updgrp
->id
);
1032 UPDGRP_GLOBAL_STAT(updgrp
, updgrps_deleted
) += 1;
1034 hash_release(updgrp
->bgp
->update_groups
[updgrp
->afid
], updgrp
);
1035 conf_release(updgrp
->conf
, updgrp
->afi
, updgrp
->safi
);
1037 XFREE(MTYPE_BGP_PEER_HOST
, updgrp
->conf
->host
);
1039 XFREE(MTYPE_BGP_PEER_IFNAME
, updgrp
->conf
->ifname
);
1041 XFREE(MTYPE_BGP_PEER
, updgrp
->conf
);
1042 XFREE(MTYPE_BGP_UPDGRP
, updgrp
);
1045 static void update_group_add_subgroup(struct update_group
*updgrp
,
1046 struct update_subgroup
*subgrp
)
1048 if (!updgrp
|| !subgrp
)
1051 LIST_INSERT_HEAD(&(updgrp
->subgrps
), subgrp
, updgrp_train
);
1052 subgrp
->update_group
= updgrp
;
1055 static void update_group_remove_subgroup(struct update_group
*updgrp
,
1056 struct update_subgroup
*subgrp
)
1058 if (!updgrp
|| !subgrp
)
1061 LIST_REMOVE(subgrp
, updgrp_train
);
1062 subgrp
->update_group
= NULL
;
1063 if (LIST_EMPTY(&(updgrp
->subgrps
)))
1064 update_group_delete(updgrp
);
1067 static struct update_subgroup
*
1068 update_subgroup_create(struct update_group
*updgrp
)
1070 struct update_subgroup
*subgrp
;
1072 subgrp
= XCALLOC(MTYPE_BGP_UPD_SUBGRP
, sizeof(struct update_subgroup
));
1073 update_subgroup_checkin(subgrp
, updgrp
);
1074 subgrp
->v_coalesce
= (UPDGRP_INST(updgrp
))->coalesce_time
;
1075 sync_init(subgrp
, updgrp
);
1076 bpacket_queue_init(SUBGRP_PKTQ(subgrp
));
1077 bpacket_queue_add(SUBGRP_PKTQ(subgrp
), NULL
, NULL
);
1078 TAILQ_INIT(&(subgrp
->adjq
));
1079 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1080 zlog_debug("create subgroup u%" PRIu64
":s%" PRIu64
, updgrp
->id
,
1083 update_group_add_subgroup(updgrp
, subgrp
);
1085 UPDGRP_INCR_STAT(updgrp
, subgrps_created
);
1090 static void update_subgroup_delete(struct update_subgroup
*subgrp
)
1095 if (subgrp
->update_group
)
1096 UPDGRP_INCR_STAT(subgrp
->update_group
, subgrps_deleted
);
1098 THREAD_OFF(subgrp
->t_merge_check
);
1099 THREAD_OFF(subgrp
->t_coalesce
);
1101 bpacket_queue_cleanup(SUBGRP_PKTQ(subgrp
));
1102 subgroup_clear_table(subgrp
);
1104 sync_delete(subgrp
);
1106 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
) && subgrp
->update_group
)
1107 zlog_debug("delete subgroup u%" PRIu64
":s%" PRIu64
,
1108 subgrp
->update_group
->id
, subgrp
->id
);
1110 update_group_remove_subgroup(subgrp
->update_group
, subgrp
);
1112 XFREE(MTYPE_BGP_UPD_SUBGRP
, subgrp
);
1115 void update_subgroup_inherit_info(struct update_subgroup
*to
,
1116 struct update_subgroup
*from
)
1121 to
->sflags
= from
->sflags
;
1125 * update_subgroup_check_delete
1127 * Delete a subgroup if it is ready to be deleted.
1129 * Returns true if the subgroup was deleted.
1131 static bool update_subgroup_check_delete(struct update_subgroup
*subgrp
)
1136 if (!LIST_EMPTY(&(subgrp
->peers
)))
1139 update_subgroup_delete(subgrp
);
1145 * update_subgroup_add_peer
1147 * @param send_enqueued_packets If true all currently enqueued packets will
1148 * also be sent to the peer.
1150 static void update_subgroup_add_peer(struct update_subgroup
*subgrp
,
1151 struct peer_af
*paf
,
1152 int send_enqueued_pkts
)
1154 struct bpacket
*pkt
;
1156 if (!subgrp
|| !paf
)
1159 LIST_INSERT_HEAD(&(subgrp
->peers
), paf
, subgrp_train
);
1160 paf
->subgroup
= subgrp
;
1161 subgrp
->peer_count
++;
1163 if (bgp_debug_peer_updout_enabled(paf
->peer
->host
)) {
1164 UPDGRP_PEER_DBG_EN(subgrp
->update_group
);
1167 SUBGRP_INCR_STAT(subgrp
, join_events
);
1169 if (send_enqueued_pkts
) {
1170 pkt
= bpacket_queue_first(SUBGRP_PKTQ(subgrp
));
1174 * Hang the peer off of the last, placeholder, packet in the
1175 * queue. This means it won't see any of the packets that are
1176 * currently the queue.
1178 pkt
= bpacket_queue_last(SUBGRP_PKTQ(subgrp
));
1179 assert(pkt
->buffer
== NULL
);
1182 bpacket_add_peer(pkt
, paf
);
1184 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1185 zlog_debug("peer %s added to subgroup s%" PRIu64
,
1186 paf
->peer
->host
, subgrp
->id
);
1190 * update_subgroup_remove_peer_internal
1192 * Internal function that removes a peer from a subgroup, but does not
1193 * delete the subgroup. A call to this function must almost always be
1194 * followed by a call to update_subgroup_check_delete().
1196 * @see update_subgroup_remove_peer
1198 static void update_subgroup_remove_peer_internal(struct update_subgroup
*subgrp
,
1199 struct peer_af
*paf
)
1201 assert(subgrp
&& paf
&& subgrp
->update_group
);
1203 if (bgp_debug_peer_updout_enabled(paf
->peer
->host
)) {
1204 UPDGRP_PEER_DBG_DIS(subgrp
->update_group
);
1207 bpacket_queue_remove_peer(paf
);
1208 LIST_REMOVE(paf
, subgrp_train
);
1209 paf
->subgroup
= NULL
;
1210 subgrp
->peer_count
--;
1212 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1213 zlog_debug("peer %s deleted from subgroup s%"
1214 PRIu64
" peer cnt %d",
1215 paf
->peer
->host
, subgrp
->id
, subgrp
->peer_count
);
1216 SUBGRP_INCR_STAT(subgrp
, prune_events
);
1220 * update_subgroup_remove_peer
1222 void update_subgroup_remove_peer(struct update_subgroup
*subgrp
,
1223 struct peer_af
*paf
)
1225 if (!subgrp
|| !paf
)
1228 update_subgroup_remove_peer_internal(subgrp
, paf
);
1230 if (update_subgroup_check_delete(subgrp
))
1234 * The deletion of the peer may have caused some packets to be
1235 * deleted from the subgroup packet queue. Check if the subgroup can
1238 update_subgroup_check_merge(subgrp
, "removed peer from subgroup");
1241 static struct update_subgroup
*update_subgroup_find(struct update_group
*updgrp
,
1242 struct peer_af
*paf
)
1244 struct update_subgroup
*subgrp
= NULL
;
1247 if (paf
->subgroup
) {
1253 if (!peer_established(PAF_PEER(paf
)))
1256 UPDGRP_FOREACH_SUBGRP (updgrp
, subgrp
) {
1257 if (subgrp
->version
!= version
1258 || CHECK_FLAG(subgrp
->sflags
,
1259 SUBGRP_STATUS_DEFAULT_ORIGINATE
))
1263 * The version number is not meaningful on a subgroup that needs
1266 if (update_subgroup_needs_refresh(subgrp
))
1276 * update_subgroup_ready_for_merge
1278 * Returns true if this subgroup is in a state that allows it to be
1279 * merged into another subgroup.
1281 static bool update_subgroup_ready_for_merge(struct update_subgroup
*subgrp
)
1285 * Not ready if there are any encoded packets waiting to be written
1288 if (!bpacket_queue_is_empty(SUBGRP_PKTQ(subgrp
)))
1292 * Not ready if there enqueued updates waiting to be encoded.
1294 if (!advertise_list_is_empty(subgrp
))
1298 * Don't attempt to merge a subgroup that needs a refresh. For one,
1299 * we can't determine if the adj_out of such a group matches that of
1302 if (update_subgroup_needs_refresh(subgrp
))
1309 * update_subgrp_can_merge_into
1311 * Returns true if the first subgroup can merge into the second
1314 static int update_subgroup_can_merge_into(struct update_subgroup
*subgrp
,
1315 struct update_subgroup
*target
)
1318 if (subgrp
== target
)
1322 * Both must have processed the BRIB to the same point in order to
1325 if (subgrp
->version
!= target
->version
)
1328 if (CHECK_FLAG(subgrp
->sflags
, SUBGRP_STATUS_DEFAULT_ORIGINATE
)
1329 != CHECK_FLAG(target
->sflags
, SUBGRP_STATUS_DEFAULT_ORIGINATE
))
1332 if (subgrp
->adj_count
!= target
->adj_count
)
1335 return update_subgroup_ready_for_merge(target
);
1339 * update_subgroup_merge
1341 * Merge the first subgroup into the second one.
1343 static void update_subgroup_merge(struct update_subgroup
*subgrp
,
1344 struct update_subgroup
*target
,
1347 struct peer_af
*paf
;
1351 assert(subgrp
->adj_count
== target
->adj_count
);
1353 peer_count
= subgrp
->peer_count
;
1356 paf
= LIST_FIRST(&subgrp
->peers
);
1360 update_subgroup_remove_peer_internal(subgrp
, paf
);
1363 * Add the peer to the target subgroup, while making sure that
1364 * any currently enqueued packets won't be sent to it. Enqueued
1365 * packets could, for example, result in an unnecessary withdraw
1366 * followed by an advertise.
1368 update_subgroup_add_peer(target
, paf
, 0);
1371 SUBGRP_INCR_STAT(target
, merge_events
);
1373 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1374 zlog_debug("u%" PRIu64
":s%" PRIu64
" (%d peers) merged into u%" PRIu64
":s%" PRIu64
", trigger: %s",
1375 subgrp
->update_group
->id
, subgrp
->id
, peer_count
,
1376 target
->update_group
->id
, target
->id
,
1377 reason
? reason
: "unknown");
1379 result
= update_subgroup_check_delete(subgrp
);
1384 * update_subgroup_check_merge
1386 * Merge this subgroup into another subgroup if possible.
1388 * Returns true if the subgroup has been merged. The subgroup pointer
1389 * should not be accessed in this case.
1391 bool update_subgroup_check_merge(struct update_subgroup
*subgrp
,
1394 struct update_subgroup
*target
;
1396 if (!update_subgroup_ready_for_merge(subgrp
))
1400 * Look for a subgroup to merge into.
1402 UPDGRP_FOREACH_SUBGRP (subgrp
->update_group
, target
) {
1403 if (update_subgroup_can_merge_into(subgrp
, target
))
1410 update_subgroup_merge(subgrp
, target
, reason
);
1415 * update_subgroup_merge_check_thread_cb
1417 static void update_subgroup_merge_check_thread_cb(struct thread
*thread
)
1419 struct update_subgroup
*subgrp
;
1421 subgrp
= THREAD_ARG(thread
);
1423 subgrp
->t_merge_check
= NULL
;
1425 update_subgroup_check_merge(subgrp
, "triggered merge check");
1429 * update_subgroup_trigger_merge_check
1431 * Triggers a call to update_subgroup_check_merge() on a clean context.
1433 * @param force If true, the merge check will be triggered even if the
1434 * subgroup doesn't currently look ready for a merge.
1436 * Returns true if a merge check will be performed shortly.
1438 bool update_subgroup_trigger_merge_check(struct update_subgroup
*subgrp
,
1441 if (subgrp
->t_merge_check
)
1444 if (!force
&& !update_subgroup_ready_for_merge(subgrp
))
1447 subgrp
->t_merge_check
= NULL
;
1448 thread_add_timer_msec(bm
->master
, update_subgroup_merge_check_thread_cb
,
1449 subgrp
, 0, &subgrp
->t_merge_check
);
1451 SUBGRP_INCR_STAT(subgrp
, merge_checks_triggered
);
1457 * update_subgroup_copy_adj_out
1459 * Helper function that clones the adj out (state about advertised
1460 * routes) from one subgroup to another. It assumes that the adj out
1461 * of the target subgroup is empty.
1463 static void update_subgroup_copy_adj_out(struct update_subgroup
*source
,
1464 struct update_subgroup
*dest
)
1466 struct bgp_adj_out
*aout
, *aout_copy
;
1468 SUBGRP_FOREACH_ADJ (source
, aout
) {
1472 aout_copy
= bgp_adj_out_alloc(dest
, aout
->dest
,
1473 aout
->addpath_tx_id
);
1475 aout
->attr
? bgp_attr_intern(aout
->attr
) : NULL
;
1478 dest
->scount
= source
->scount
;
1482 * update_subgroup_copy_packets
1484 * Copy packets after and including the given packet to the subgroup
1487 * Returns the number of packets copied.
1489 static int update_subgroup_copy_packets(struct update_subgroup
*dest
,
1490 struct bpacket
*pkt
)
1495 while (pkt
&& pkt
->buffer
) {
1496 bpacket_queue_add(SUBGRP_PKTQ(dest
), stream_dup(pkt
->buffer
),
1499 pkt
= bpacket_next(pkt
);
1505 static bool updgrp_prefix_list_update(struct update_group
*updgrp
,
1509 struct bgp_filter
*filter
;
1511 peer
= UPDGRP_PEER(updgrp
);
1512 filter
= &peer
->filter
[UPDGRP_AFI(updgrp
)][UPDGRP_SAFI(updgrp
)];
1514 if (PREFIX_LIST_OUT_NAME(filter
)
1515 && (strcmp(name
, PREFIX_LIST_OUT_NAME(filter
)) == 0)) {
1516 PREFIX_LIST_OUT(filter
) = prefix_list_lookup(
1517 UPDGRP_AFI(updgrp
), PREFIX_LIST_OUT_NAME(filter
));
1523 static bool updgrp_filter_list_update(struct update_group
*updgrp
,
1527 struct bgp_filter
*filter
;
1529 peer
= UPDGRP_PEER(updgrp
);
1530 filter
= &peer
->filter
[UPDGRP_AFI(updgrp
)][UPDGRP_SAFI(updgrp
)];
1532 if (FILTER_LIST_OUT_NAME(filter
)
1533 && (strcmp(name
, FILTER_LIST_OUT_NAME(filter
)) == 0)) {
1534 FILTER_LIST_OUT(filter
) =
1535 as_list_lookup(FILTER_LIST_OUT_NAME(filter
));
1541 static bool updgrp_distribute_list_update(struct update_group
*updgrp
,
1545 struct bgp_filter
*filter
;
1547 peer
= UPDGRP_PEER(updgrp
);
1548 filter
= &peer
->filter
[UPDGRP_AFI(updgrp
)][UPDGRP_SAFI(updgrp
)];
1550 if (DISTRIBUTE_OUT_NAME(filter
)
1551 && (strcmp(name
, DISTRIBUTE_OUT_NAME(filter
)) == 0)) {
1552 DISTRIBUTE_OUT(filter
) = access_list_lookup(
1553 UPDGRP_AFI(updgrp
), DISTRIBUTE_OUT_NAME(filter
));
1559 static int updgrp_route_map_update(struct update_group
*updgrp
,
1560 const char *name
, int *def_rmap_changed
)
1563 struct bgp_filter
*filter
;
1568 peer
= UPDGRP_PEER(updgrp
);
1569 afi
= UPDGRP_AFI(updgrp
);
1570 safi
= UPDGRP_SAFI(updgrp
);
1571 filter
= &peer
->filter
[afi
][safi
];
1573 if (ROUTE_MAP_OUT_NAME(filter
)
1574 && (strcmp(name
, ROUTE_MAP_OUT_NAME(filter
)) == 0)) {
1575 ROUTE_MAP_OUT(filter
) = route_map_lookup_by_name(name
);
1580 if (UNSUPPRESS_MAP_NAME(filter
)
1581 && (strcmp(name
, UNSUPPRESS_MAP_NAME(filter
)) == 0)) {
1582 UNSUPPRESS_MAP(filter
) = route_map_lookup_by_name(name
);
1586 /* process default-originate route-map */
1587 if (peer
->default_rmap
[afi
][safi
].name
1588 && (strcmp(name
, peer
->default_rmap
[afi
][safi
].name
) == 0)) {
1589 peer
->default_rmap
[afi
][safi
].map
=
1590 route_map_lookup_by_name(name
);
1591 if (def_rmap_changed
)
1592 *def_rmap_changed
= 1;
1598 * hash iteration callback function to process a policy change for an
1599 * update group. Check if the changed policy matches the updgrp's
1600 * outbound route-map or unsuppress-map or default-originate map or
1601 * filter-list or prefix-list or distribute-list.
1602 * Trigger update generation accordingly.
1604 static int updgrp_policy_update_walkcb(struct update_group
*updgrp
, void *arg
)
1606 struct updwalk_context
*ctx
= arg
;
1607 struct update_subgroup
*subgrp
;
1609 int def_changed
= 0;
1611 if (!updgrp
|| !ctx
|| !ctx
->policy_name
)
1612 return UPDWALK_CONTINUE
;
1614 switch (ctx
->policy_type
) {
1615 case BGP_POLICY_ROUTE_MAP
:
1616 changed
= updgrp_route_map_update(updgrp
, ctx
->policy_name
,
1619 case BGP_POLICY_FILTER_LIST
:
1620 changed
= updgrp_filter_list_update(updgrp
, ctx
->policy_name
);
1622 case BGP_POLICY_PREFIX_LIST
:
1623 changed
= updgrp_prefix_list_update(updgrp
, ctx
->policy_name
);
1625 case BGP_POLICY_DISTRIBUTE_LIST
:
1627 updgrp_distribute_list_update(updgrp
, ctx
->policy_name
);
1633 /* If not doing route update, return after updating "config" */
1634 if (!ctx
->policy_route_update
)
1635 return UPDWALK_CONTINUE
;
1637 /* If nothing has changed, return after updating "config" */
1638 if (!changed
&& !def_changed
)
1639 return UPDWALK_CONTINUE
;
1642 * If something has changed, at the beginning of a route-map
1644 * event, mark each subgroup's needs-refresh bit. For one, it signals to
1645 * whoever that the subgroup needs a refresh. Second, it prevents
1647 * merge of this subgroup with another before a complete (outbound)
1650 if (ctx
->policy_event_start_flag
) {
1651 UPDGRP_FOREACH_SUBGRP (updgrp
, subgrp
) {
1652 update_subgroup_set_needs_refresh(subgrp
, 1);
1654 return UPDWALK_CONTINUE
;
1657 UPDGRP_FOREACH_SUBGRP (updgrp
, subgrp
) {
1658 /* Avoid supressing duplicate routes later
1659 * when processing in subgroup_announce_table().
1661 SET_FLAG(subgrp
->sflags
, SUBGRP_STATUS_FORCE_UPDATES
);
1664 if (bgp_debug_update(NULL
, NULL
, updgrp
, 0))
1666 "u%" PRIu64
":s%" PRIu64
" announcing routes upon policy %s (type %d) change",
1667 updgrp
->id
, subgrp
->id
,
1668 ctx
->policy_name
, ctx
->policy_type
);
1669 subgroup_announce_route(subgrp
);
1672 if (bgp_debug_update(NULL
, NULL
, updgrp
, 0))
1674 "u%" PRIu64
":s%" PRIu64
" announcing default upon default routemap %s change",
1675 updgrp
->id
, subgrp
->id
,
1677 if (route_map_lookup_by_name(ctx
->policy_name
)) {
1679 * When there is change in routemap, this flow
1680 * is triggered. the routemap is still present
1681 * in lib, hence its a update flow. The flag
1682 * needs to be unset.
1684 UNSET_FLAG(subgrp
->sflags
,
1685 SUBGRP_STATUS_DEFAULT_ORIGINATE
);
1686 subgroup_default_originate(subgrp
, 0);
1689 * This is a explicit withdraw, since the
1690 * routemap is not present in routemap lib. need
1691 * to pass 1 for withdraw arg.
1693 subgroup_default_originate(subgrp
, 1);
1696 update_subgroup_set_needs_refresh(subgrp
, 0);
1698 return UPDWALK_CONTINUE
;
1701 static int update_group_walkcb(struct hash_bucket
*bucket
, void *arg
)
1703 struct update_group
*updgrp
= bucket
->data
;
1704 struct updwalk_context
*wctx
= arg
;
1705 int ret
= (*wctx
->cb
)(updgrp
, wctx
->context
);
1709 static int update_group_periodic_merge_walkcb(struct update_group
*updgrp
,
1712 struct update_subgroup
*subgrp
;
1713 struct update_subgroup
*tmp_subgrp
;
1714 const char *reason
= arg
;
1716 UPDGRP_FOREACH_SUBGRP_SAFE (updgrp
, subgrp
, tmp_subgrp
)
1717 update_subgroup_check_merge(subgrp
, reason
);
1718 return UPDWALK_CONTINUE
;
1721 /********************
1723 ********************/
1726 * trigger function when a policy (route-map/filter-list/prefix-list/
1727 * distribute-list etc.) content changes. Go through all the
1728 * update groups and process the change.
1730 * bgp: the bgp instance
1731 * ptype: the type of policy that got modified, see bgpd.h
1732 * pname: name of the policy
1733 * route_update: flag to control if an automatic update generation should
1735 * start_event: flag that indicates if it's the beginning of the change.
1736 * Esp. when the user is changing the content interactively
1737 * over multiple statements. Useful to set dirty flag on
1740 void update_group_policy_update(struct bgp
*bgp
, enum bgp_policy_type ptype
,
1741 const char *pname
, bool route_update
,
1744 struct updwalk_context ctx
;
1746 memset(&ctx
, 0, sizeof(ctx
));
1747 ctx
.policy_type
= ptype
;
1748 ctx
.policy_name
= pname
;
1749 ctx
.policy_route_update
= route_update
;
1750 ctx
.policy_event_start_flag
= start_event
;
1753 update_group_walk(bgp
, updgrp_policy_update_walkcb
, &ctx
);
1757 * update_subgroup_split_peer
1759 * Ensure that the given peer is in a subgroup of its own in the
1760 * specified update group.
1762 void update_subgroup_split_peer(struct peer_af
*paf
,
1763 struct update_group
*updgrp
)
1765 struct update_subgroup
*old_subgrp
, *subgrp
;
1769 old_subgrp
= paf
->subgroup
;
1772 updgrp
= old_subgrp
->update_group
;
1775 * If the peer is alone in its subgroup, reuse the existing
1778 if (old_subgrp
->peer_count
== 1) {
1779 if (updgrp
== old_subgrp
->update_group
)
1782 subgrp
= old_subgrp
;
1783 old_id
= old_subgrp
->update_group
->id
;
1785 if (bgp_debug_peer_updout_enabled(paf
->peer
->host
)) {
1786 UPDGRP_PEER_DBG_DIS(old_subgrp
->update_group
);
1789 update_group_remove_subgroup(old_subgrp
->update_group
,
1791 update_group_add_subgroup(updgrp
, subgrp
);
1793 if (bgp_debug_peer_updout_enabled(paf
->peer
->host
)) {
1794 UPDGRP_PEER_DBG_EN(updgrp
);
1796 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1797 zlog_debug("u%" PRIu64
":s%" PRIu64
" peer %s moved to u%" PRIu64
":s%" PRIu64
,
1798 old_id
, subgrp
->id
, paf
->peer
->host
,
1799 updgrp
->id
, subgrp
->id
);
1802 * The state of the subgroup (adj_out, advs, packet queue etc)
1803 * is consistent internally, but may not be identical to other
1804 * subgroups in the new update group even if the version number
1805 * matches up. Make sure a full refresh is done before the
1806 * subgroup is merged with another.
1808 update_subgroup_set_needs_refresh(subgrp
, 1);
1810 SUBGRP_INCR_STAT(subgrp
, updgrp_switch_events
);
1815 * Create a new subgroup under the specified update group, and copy
1816 * over relevant state to it.
1818 subgrp
= update_subgroup_create(updgrp
);
1819 update_subgroup_inherit_info(subgrp
, old_subgrp
);
1821 subgrp
->split_from
.update_group_id
= old_subgrp
->update_group
->id
;
1822 subgrp
->split_from
.subgroup_id
= old_subgrp
->id
;
1825 * Copy out relevant state from the old subgroup.
1827 update_subgroup_copy_adj_out(paf
->subgroup
, subgrp
);
1828 update_subgroup_copy_packets(subgrp
, paf
->next_pkt_to_send
);
1830 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1831 zlog_debug("u%" PRIu64
":s%" PRIu64
" peer %s split and moved into u%" PRIu64
":s%" PRIu64
,
1832 paf
->subgroup
->update_group
->id
, paf
->subgroup
->id
,
1833 paf
->peer
->host
, updgrp
->id
, subgrp
->id
);
1835 SUBGRP_INCR_STAT(paf
->subgroup
, split_events
);
1838 * Since queued advs were left behind, this new subgroup needs a
1841 update_subgroup_set_needs_refresh(subgrp
, 1);
1844 * Remove peer from old subgroup, and add it to the new one.
1846 update_subgroup_remove_peer(paf
->subgroup
, paf
);
1848 update_subgroup_add_peer(subgrp
, paf
, 1);
1851 void update_bgp_group_init(struct bgp
*bgp
)
1856 bgp
->update_groups
[afid
] =
1857 hash_create(updgrp_hash_key_make
, updgrp_hash_cmp
,
1858 "BGP Update Group Hash");
1861 void update_bgp_group_free(struct bgp
*bgp
)
1866 if (bgp
->update_groups
[afid
]) {
1867 hash_free(bgp
->update_groups
[afid
]);
1868 bgp
->update_groups
[afid
] = NULL
;
1873 void update_group_show(struct bgp
*bgp
, afi_t afi
, safi_t safi
, struct vty
*vty
,
1874 uint64_t subgrp_id
, bool uj
)
1876 struct updwalk_context ctx
;
1877 json_object
*json_vrf_obj
= NULL
;
1879 memset(&ctx
, 0, sizeof(ctx
));
1881 ctx
.subgrp_id
= subgrp_id
;
1885 ctx
.json_updategrps
= json_object_new_object();
1886 json_vrf_obj
= json_object_new_object();
1889 update_group_af_walk(bgp
, afi
, safi
, update_group_show_walkcb
, &ctx
);
1894 if (bgp
->inst_type
== BGP_INSTANCE_TYPE_DEFAULT
)
1895 vname
= VRF_DEFAULT_NAME
;
1898 json_object_object_add(json_vrf_obj
, vname
,
1899 ctx
.json_updategrps
);
1900 vty_json(vty
, json_vrf_obj
);
1905 * update_group_show_stats
1907 * Show global statistics about update groups.
1909 void update_group_show_stats(struct bgp
*bgp
, struct vty
*vty
)
1911 vty_out(vty
, "Update groups created: %u\n",
1912 bgp
->update_group_stats
.updgrps_created
);
1913 vty_out(vty
, "Update groups deleted: %u\n",
1914 bgp
->update_group_stats
.updgrps_deleted
);
1915 vty_out(vty
, "Update subgroups created: %u\n",
1916 bgp
->update_group_stats
.subgrps_created
);
1917 vty_out(vty
, "Update subgroups deleted: %u\n",
1918 bgp
->update_group_stats
.subgrps_deleted
);
1919 vty_out(vty
, "Join events: %u\n", bgp
->update_group_stats
.join_events
);
1920 vty_out(vty
, "Prune events: %u\n",
1921 bgp
->update_group_stats
.prune_events
);
1922 vty_out(vty
, "Merge events: %u\n",
1923 bgp
->update_group_stats
.merge_events
);
1924 vty_out(vty
, "Split events: %u\n",
1925 bgp
->update_group_stats
.split_events
);
1926 vty_out(vty
, "Update group switch events: %u\n",
1927 bgp
->update_group_stats
.updgrp_switch_events
);
1928 vty_out(vty
, "Peer route refreshes combined: %u\n",
1929 bgp
->update_group_stats
.peer_refreshes_combined
);
1930 vty_out(vty
, "Merge checks triggered: %u\n",
1931 bgp
->update_group_stats
.merge_checks_triggered
);
1935 * update_group_adjust_peer
1937 void update_group_adjust_peer(struct peer_af
*paf
)
1939 struct update_group
*updgrp
;
1940 struct update_subgroup
*subgrp
, *old_subgrp
;
1946 peer
= PAF_PEER(paf
);
1947 if (!peer_established(peer
)) {
1951 if (!CHECK_FLAG(peer
->flags
, PEER_FLAG_CONFIG_NODE
)) {
1955 if (!peer
->afc_nego
[paf
->afi
][paf
->safi
]) {
1959 updgrp
= update_group_find(paf
);
1961 updgrp
= update_group_create(paf
);
1963 flog_err(EC_BGP_UPDGRP_CREATE
,
1964 "couldn't create update group for peer %s",
1970 old_subgrp
= paf
->subgroup
;
1975 * If the update group of the peer is unchanged, the peer can
1977 * in its existing subgroup and we're done.
1979 if (old_subgrp
->update_group
== updgrp
)
1983 * The peer is switching between update groups. Put it in its
1984 * own subgroup under the new update group.
1986 update_subgroup_split_peer(paf
, updgrp
);
1990 subgrp
= update_subgroup_find(updgrp
, paf
);
1992 subgrp
= update_subgroup_create(updgrp
);
1997 update_subgroup_add_peer(subgrp
, paf
, 1);
1998 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1999 zlog_debug("u%" PRIu64
":s%" PRIu64
" add peer %s", updgrp
->id
,
2000 subgrp
->id
, paf
->peer
->host
);
2005 int update_group_adjust_soloness(struct peer
*peer
, int set
)
2007 struct peer_group
*group
;
2008 struct listnode
*node
, *nnode
;
2010 if (!CHECK_FLAG(peer
->sflags
, PEER_STATUS_GROUP
)) {
2011 peer_lonesoul_or_not(peer
, set
);
2012 if (peer_established(peer
))
2013 bgp_announce_route_all(peer
);
2015 group
= peer
->group
;
2016 for (ALL_LIST_ELEMENTS(group
->peer
, node
, nnode
, peer
)) {
2017 peer_lonesoul_or_not(peer
, set
);
2018 if (peer_established(peer
))
2019 bgp_announce_route_all(peer
);
2026 * update_subgroup_rib
2028 struct bgp_table
*update_subgroup_rib(struct update_subgroup
*subgrp
)
2032 bgp
= SUBGRP_INST(subgrp
);
2036 return bgp
->rib
[SUBGRP_AFI(subgrp
)][SUBGRP_SAFI(subgrp
)];
2039 void update_group_af_walk(struct bgp
*bgp
, afi_t afi
, safi_t safi
,
2040 updgrp_walkcb cb
, void *ctx
)
2042 struct updwalk_context wctx
;
2047 afid
= afindex(afi
, safi
);
2048 if (afid
>= BGP_AF_MAX
)
2051 memset(&wctx
, 0, sizeof(wctx
));
2055 if (bgp
->update_groups
[afid
])
2056 hash_walk(bgp
->update_groups
[afid
], update_group_walkcb
, &wctx
);
2059 void update_group_walk(struct bgp
*bgp
, updgrp_walkcb cb
, void *ctx
)
2064 FOREACH_AFI_SAFI (afi
, safi
) {
2065 update_group_af_walk(bgp
, afi
, safi
, cb
, ctx
);
2069 void update_group_periodic_merge(struct bgp
*bgp
)
2071 char reason
[] = "periodic merge check";
2073 update_group_walk(bgp
, update_group_periodic_merge_walkcb
,
2078 update_group_default_originate_route_map_walkcb(struct update_group
*updgrp
,
2081 struct update_subgroup
*subgrp
;
2086 UPDGRP_FOREACH_SUBGRP (updgrp
, subgrp
) {
2087 peer
= SUBGRP_PEER(subgrp
);
2088 afi
= SUBGRP_AFI(subgrp
);
2089 safi
= SUBGRP_SAFI(subgrp
);
2091 if (peer
->default_rmap
[afi
][safi
].name
) {
2093 * When there is change in routemap this flow will
2094 * be triggered. We need to unset the Flag to ensure
2095 * the update flow gets triggered.
2097 UNSET_FLAG(subgrp
->sflags
,
2098 SUBGRP_STATUS_DEFAULT_ORIGINATE
);
2099 subgroup_default_originate(subgrp
, 0);
2103 return UPDWALK_CONTINUE
;
2106 void update_group_refresh_default_originate_route_map(struct thread
*thread
)
2109 char reason
[] = "refresh default-originate route-map";
2111 bgp
= THREAD_ARG(thread
);
2112 update_group_walk(bgp
, update_group_default_originate_route_map_walkcb
,
2114 THREAD_OFF(bgp
->t_rmap_def_originate_eval
);
2119 * peer_af_announce_route
2121 * Refreshes routes out to a peer_af immediately.
2123 * If the combine parameter is true, then this function will try to
2124 * gather other peers in the subgroup for which a route announcement
2125 * is pending and efficently announce routes to all of them.
2127 * For now, the 'combine' option has an effect only if all peers in
2128 * the subgroup have a route announcement pending.
2130 void peer_af_announce_route(struct peer_af
*paf
, int combine
)
2132 struct update_subgroup
*subgrp
;
2133 struct peer_af
*cur_paf
;
2136 subgrp
= paf
->subgroup
;
2141 * If there are other peers in the old subgroup that also need
2142 * routes to be announced, pull them into the peer's new
2144 * Combine route announcement with other peers if possible.
2146 * For now, we combine only if all peers in the subgroup have an
2147 * announcement pending.
2151 SUBGRP_FOREACH_PEER (subgrp
, cur_paf
) {
2155 if (cur_paf
->t_announce_route
)
2163 * Announce to the peer alone if we were not asked to combine peers,
2164 * or if some peers don't have a route annoucement pending.
2166 if (!combine
|| !all_pending
) {
2167 update_subgroup_split_peer(paf
, NULL
);
2168 subgrp
= paf
->subgroup
;
2170 assert(subgrp
&& subgrp
->update_group
);
2171 if (bgp_debug_update(paf
->peer
, NULL
, subgrp
->update_group
, 0))
2172 zlog_debug("u%" PRIu64
":s%" PRIu64
" %s announcing routes",
2173 subgrp
->update_group
->id
, subgrp
->id
,
2176 subgroup_announce_route(paf
->subgroup
);
2181 * We will announce routes the entire subgroup.
2183 * First stop refresh timers on all the other peers.
2185 SUBGRP_FOREACH_PEER (subgrp
, cur_paf
) {
2189 bgp_stop_announce_route_timer(cur_paf
);
2192 if (bgp_debug_update(paf
->peer
, NULL
, subgrp
->update_group
, 0))
2193 zlog_debug("u%" PRIu64
":s%" PRIu64
" announcing routes to %s, combined into %d peers",
2194 subgrp
->update_group
->id
, subgrp
->id
,
2195 paf
->peer
->host
, subgrp
->peer_count
);
2197 subgroup_announce_route(subgrp
);
2199 SUBGRP_INCR_STAT_BY(subgrp
, peer_refreshes_combined
,
2200 subgrp
->peer_count
- 1);
2203 void subgroup_trigger_write(struct update_subgroup
*subgrp
)
2205 struct peer_af
*paf
;
2208 * For each peer in the subgroup, schedule a job to pull packets from
2209 * the subgroup output queue into their own output queue. This action
2210 * will trigger a write job on the I/O thread.
2212 SUBGRP_FOREACH_PEER (subgrp
, paf
)
2213 if (peer_established(paf
->peer
))
2214 thread_add_timer_msec(
2215 bm
->master
, bgp_generate_updgrp_packets
,
2217 &paf
->peer
->t_generate_updgrp_packets
);
2220 int update_group_clear_update_dbg(struct update_group
*updgrp
, void *arg
)
2222 UPDGRP_PEER_DBG_OFF(updgrp
);
2223 return UPDWALK_CONTINUE
;
2226 /* Return true if we should addpath encode NLRI to this peer */
2227 bool bgp_addpath_encode_tx(struct peer
*peer
, afi_t afi
, safi_t safi
)
2229 return (CHECK_FLAG(peer
->af_cap
[afi
][safi
], PEER_CAP_ADDPATH_AF_TX_ADV
)
2230 && CHECK_FLAG(peer
->af_cap
[afi
][safi
],
2231 PEER_CAP_ADDPATH_AF_RX_RCV
));
2234 bool bgp_addpath_capable(struct bgp_path_info
*bpi
, struct peer
*peer
,
2235 afi_t afi
, safi_t safi
)
2237 return (bgp_addpath_tx_path(peer
->addpath_type
[afi
][safi
], bpi
) ||
2238 (safi
== SAFI_LABELED_UNICAST
&&
2239 bgp_addpath_tx_path(peer
->addpath_type
[afi
][SAFI_UNICAST
],
2243 bool bgp_check_selected(struct bgp_path_info
*bpi
, struct peer
*peer
,
2244 bool addpath_capable
, afi_t afi
, safi_t safi
)
2246 return (CHECK_FLAG(bpi
->flags
, BGP_PATH_SELECTED
) ||
2247 (addpath_capable
&& bgp_addpath_capable(bpi
, peer
, afi
, safi
)));