1 /* BGP-4 Finite State Machine
2 * From RFC1771 [A Border Gateway Protocol 4 (BGP-4)]
3 * Copyright (C) 1996, 97, 98 Kunihiro Ishiguro
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
26 #include "sockunion.h"
33 #include "workqueue.h"
39 #include "bgpd/bgpd.h"
40 #include "bgpd/bgp_attr.h"
41 #include "bgpd/bgp_debug.h"
42 #include "bgpd/bgp_fsm.h"
43 #include "bgpd/bgp_packet.h"
44 #include "bgpd/bgp_network.h"
45 #include "bgpd/bgp_route.h"
46 #include "bgpd/bgp_dump.h"
47 #include "bgpd/bgp_open.h"
48 #include "bgpd/bgp_advertise.h"
49 #include "bgpd/bgp_updgrp.h"
50 #include "bgpd/bgp_nht.h"
51 #include "bgpd/bgp_bfd.h"
52 #include "bgpd/bgp_memory.h"
53 #include "bgpd/bgp_keepalives.h"
54 #include "bgpd/bgp_io.h"
56 DEFINE_HOOK(peer_backward_transition
, (struct peer
* peer
), (peer
))
57 DEFINE_HOOK(peer_established
, (struct peer
* peer
), (peer
))
59 /* Definition of display strings corresponding to FSM events. This should be
60 * kept consistent with the events defined in bgpd.h
62 static const char *bgp_event_str
[] = {
66 "TCP_connection_open",
67 "TCP_connection_closed",
68 "TCP_connection_open_failed",
70 "ConnectRetry_timer_expired",
72 "KeepAlive_timer_expired",
73 "Receive_OPEN_message",
74 "Receive_KEEPALIVE_message",
75 "Receive_UPDATE_message",
76 "Receive_NOTIFICATION_message",
80 /* BGP FSM (finite state machine) has three types of functions. Type
81 one is thread functions. Type two is event functions. Type three
82 is FSM functions. Timer functions are set by bgp_timer_set
85 /* BGP event function. */
86 int bgp_event(struct thread
*);
88 /* BGP thread functions. */
89 static int bgp_start_timer(struct thread
*);
90 static int bgp_connect_timer(struct thread
*);
91 static int bgp_holdtime_timer(struct thread
*);
93 /* BGP FSM functions. */
94 static int bgp_start(struct peer
*);
96 static void peer_xfer_stats(struct peer
*peer_dst
, struct peer
*peer_src
)
98 /* Copy stats over. These are only the pre-established state stats */
99 peer_dst
->open_in
+= peer_src
->open_in
;
100 peer_dst
->open_out
+= peer_src
->open_out
;
101 peer_dst
->keepalive_in
+= peer_src
->keepalive_in
;
102 peer_dst
->keepalive_out
+= peer_src
->keepalive_out
;
103 peer_dst
->notify_in
+= peer_src
->notify_in
;
104 peer_dst
->notify_out
+= peer_src
->notify_out
;
105 peer_dst
->dynamic_cap_in
+= peer_src
->dynamic_cap_in
;
106 peer_dst
->dynamic_cap_out
+= peer_src
->dynamic_cap_out
;
109 static struct peer
*peer_xfer_conn(struct peer
*from_peer
)
116 unsigned char last_evt
, last_maj_evt
;
118 assert(from_peer
!= NULL
);
120 peer
= from_peer
->doppelganger
;
122 if (!peer
|| !CHECK_FLAG(peer
->flags
, PEER_FLAG_CONFIG_NODE
))
125 if (bgp_debug_neighbor_events(peer
))
126 zlog_debug("%s: peer transfer %p fd %d -> %p fd %d)",
127 from_peer
->host
, from_peer
, from_peer
->fd
, peer
,
130 bgp_writes_off(peer
);
132 bgp_writes_off(from_peer
);
133 bgp_reads_off(from_peer
);
135 BGP_TIMER_OFF(peer
->t_routeadv
);
136 BGP_TIMER_OFF(peer
->t_connect
);
137 BGP_TIMER_OFF(peer
->t_connect_check_r
);
138 BGP_TIMER_OFF(peer
->t_connect_check_w
);
139 BGP_TIMER_OFF(from_peer
->t_routeadv
);
140 BGP_TIMER_OFF(from_peer
->t_connect
);
141 BGP_TIMER_OFF(from_peer
->t_connect_check_r
);
142 BGP_TIMER_OFF(from_peer
->t_connect_check_w
);
143 BGP_TIMER_OFF(from_peer
->t_process_packet
);
146 * At this point in time, it is possible that there are packets pending
147 * on various buffers. Those need to be transferred or dropped,
148 * otherwise we'll get spurious failures during session establishment.
150 pthread_mutex_lock(&peer
->io_mtx
);
151 pthread_mutex_lock(&from_peer
->io_mtx
);
154 peer
->fd
= from_peer
->fd
;
157 stream_fifo_clean(peer
->ibuf
);
158 stream_fifo_clean(peer
->obuf
);
161 * this should never happen, since bgp_process_packet() is the
162 * only task that sets and unsets the current packet and it
163 * runs in our pthread.
167 "[%s] Dropping pending packet on connection transfer:",
169 u_int16_t type
= stream_getc_from(peer
->curr
,
170 BGP_MARKER_SIZE
+ 2);
171 bgp_dump_packet(peer
, type
, peer
->curr
);
172 stream_free(peer
->curr
);
176 // copy each packet from old peer's output queue to new peer
177 while (from_peer
->obuf
->head
)
178 stream_fifo_push(peer
->obuf
,
179 stream_fifo_pop(from_peer
->obuf
));
181 // copy each packet from old peer's input queue to new peer
182 while (from_peer
->ibuf
->head
)
183 stream_fifo_push(peer
->ibuf
,
184 stream_fifo_pop(from_peer
->ibuf
));
186 ringbuf_wipe(peer
->ibuf_work
);
187 ringbuf_copy(peer
->ibuf_work
, from_peer
->ibuf_work
,
188 ringbuf_remain(from_peer
->ibuf_work
));
190 pthread_mutex_unlock(&from_peer
->io_mtx
);
191 pthread_mutex_unlock(&peer
->io_mtx
);
193 peer
->as
= from_peer
->as
;
194 peer
->v_holdtime
= from_peer
->v_holdtime
;
195 peer
->v_keepalive
= from_peer
->v_keepalive
;
196 peer
->routeadv
= from_peer
->routeadv
;
197 peer
->v_routeadv
= from_peer
->v_routeadv
;
198 peer
->v_gr_restart
= from_peer
->v_gr_restart
;
199 peer
->cap
= from_peer
->cap
;
200 status
= peer
->status
;
201 pstatus
= peer
->ostatus
;
202 last_evt
= peer
->last_event
;
203 last_maj_evt
= peer
->last_major_event
;
204 peer
->status
= from_peer
->status
;
205 peer
->ostatus
= from_peer
->ostatus
;
206 peer
->last_event
= from_peer
->last_event
;
207 peer
->last_major_event
= from_peer
->last_major_event
;
208 from_peer
->status
= status
;
209 from_peer
->ostatus
= pstatus
;
210 from_peer
->last_event
= last_evt
;
211 from_peer
->last_major_event
= last_maj_evt
;
212 peer
->remote_id
= from_peer
->remote_id
;
214 if (from_peer
->hostname
!= NULL
) {
215 if (peer
->hostname
) {
216 XFREE(MTYPE_BGP_PEER_HOST
, peer
->hostname
);
217 peer
->hostname
= NULL
;
220 peer
->hostname
= from_peer
->hostname
;
221 from_peer
->hostname
= NULL
;
224 if (from_peer
->domainname
!= NULL
) {
225 if (peer
->domainname
) {
226 XFREE(MTYPE_BGP_PEER_HOST
, peer
->domainname
);
227 peer
->domainname
= NULL
;
230 peer
->domainname
= from_peer
->domainname
;
231 from_peer
->domainname
= NULL
;
234 FOREACH_AFI_SAFI (afi
, safi
) {
235 peer
->af_flags
[afi
][safi
] = from_peer
->af_flags
[afi
][safi
];
236 peer
->af_sflags
[afi
][safi
] = from_peer
->af_sflags
[afi
][safi
];
237 peer
->af_cap
[afi
][safi
] = from_peer
->af_cap
[afi
][safi
];
238 peer
->afc_nego
[afi
][safi
] = from_peer
->afc_nego
[afi
][safi
];
239 peer
->afc_adv
[afi
][safi
] = from_peer
->afc_adv
[afi
][safi
];
240 peer
->afc_recv
[afi
][safi
] = from_peer
->afc_recv
[afi
][safi
];
241 peer
->orf_plist
[afi
][safi
] = from_peer
->orf_plist
[afi
][safi
];
244 if (bgp_getsockname(peer
) < 0) {
246 "%%bgp_getsockname() failed for %s peer %s fd %d (from_peer fd %d)",
247 (CHECK_FLAG(peer
->sflags
, PEER_STATUS_ACCEPT_PEER
)
250 peer
->host
, peer
->fd
, from_peer
->fd
);
255 if (from_peer
->status
> Active
) {
256 if (bgp_getsockname(from_peer
) < 0) {
258 "%%bgp_getsockname() failed for %s from_peer %s fd %d (peer fd %d)",
259 (CHECK_FLAG(from_peer
->sflags
,
260 PEER_STATUS_ACCEPT_PEER
)
263 from_peer
->host
, from_peer
->fd
, peer
->fd
);
270 // Note: peer_xfer_stats() must be called with I/O turned OFF
272 peer_xfer_stats(peer
, from_peer
);
276 thread_add_timer_msec(bm
->master
, bgp_process_packet
, peer
, 0,
277 &peer
->t_process_packet
);
282 /* Hook function called after bgp event is occered. And vty's
283 neighbor command invoke this function after making neighbor
285 void bgp_timer_set(struct peer
*peer
)
287 switch (peer
->status
) {
289 /* First entry point of peer's finite state machine. In Idle
290 status start timer is on unless peer is shutdown or peer is
291 inactive. All other timer must be turned off */
292 if (BGP_PEER_START_SUPPRESSED(peer
) || !peer_active(peer
)) {
293 BGP_TIMER_OFF(peer
->t_start
);
295 BGP_TIMER_ON(peer
->t_start
, bgp_start_timer
,
298 BGP_TIMER_OFF(peer
->t_connect
);
299 BGP_TIMER_OFF(peer
->t_holdtime
);
300 bgp_keepalives_off(peer
);
301 BGP_TIMER_OFF(peer
->t_routeadv
);
305 /* After start timer is expired, the peer moves to Connect
306 status. Make sure start timer is off and connect timer is
308 BGP_TIMER_OFF(peer
->t_start
);
309 BGP_TIMER_ON(peer
->t_connect
, bgp_connect_timer
,
311 BGP_TIMER_OFF(peer
->t_holdtime
);
312 bgp_keepalives_off(peer
);
313 BGP_TIMER_OFF(peer
->t_routeadv
);
317 /* Active is waiting connection from remote peer. And if
318 connect timer is expired, change status to Connect. */
319 BGP_TIMER_OFF(peer
->t_start
);
320 /* If peer is passive mode, do not set connect timer. */
321 if (CHECK_FLAG(peer
->flags
, PEER_FLAG_PASSIVE
)
322 || CHECK_FLAG(peer
->sflags
, PEER_STATUS_NSF_WAIT
)) {
323 BGP_TIMER_OFF(peer
->t_connect
);
325 BGP_TIMER_ON(peer
->t_connect
, bgp_connect_timer
,
328 BGP_TIMER_OFF(peer
->t_holdtime
);
329 bgp_keepalives_off(peer
);
330 BGP_TIMER_OFF(peer
->t_routeadv
);
334 /* OpenSent status. */
335 BGP_TIMER_OFF(peer
->t_start
);
336 BGP_TIMER_OFF(peer
->t_connect
);
337 if (peer
->v_holdtime
!= 0) {
338 BGP_TIMER_ON(peer
->t_holdtime
, bgp_holdtime_timer
,
341 BGP_TIMER_OFF(peer
->t_holdtime
);
343 bgp_keepalives_off(peer
);
344 BGP_TIMER_OFF(peer
->t_routeadv
);
348 /* OpenConfirm status. */
349 BGP_TIMER_OFF(peer
->t_start
);
350 BGP_TIMER_OFF(peer
->t_connect
);
352 /* If the negotiated Hold Time value is zero, then the Hold Time
353 timer and KeepAlive timers are not started. */
354 if (peer
->v_holdtime
== 0) {
355 BGP_TIMER_OFF(peer
->t_holdtime
);
356 bgp_keepalives_off(peer
);
358 BGP_TIMER_ON(peer
->t_holdtime
, bgp_holdtime_timer
,
360 bgp_keepalives_on(peer
);
362 BGP_TIMER_OFF(peer
->t_routeadv
);
366 /* In Established status start and connect timer is turned
368 BGP_TIMER_OFF(peer
->t_start
);
369 BGP_TIMER_OFF(peer
->t_connect
);
371 /* Same as OpenConfirm, if holdtime is zero then both holdtime
372 and keepalive must be turned off. */
373 if (peer
->v_holdtime
== 0) {
374 BGP_TIMER_OFF(peer
->t_holdtime
);
375 bgp_keepalives_off(peer
);
377 BGP_TIMER_ON(peer
->t_holdtime
, bgp_holdtime_timer
,
379 bgp_keepalives_on(peer
);
383 BGP_TIMER_OFF(peer
->t_gr_restart
);
384 BGP_TIMER_OFF(peer
->t_gr_stale
);
385 BGP_TIMER_OFF(peer
->t_pmax_restart
);
388 BGP_TIMER_OFF(peer
->t_start
);
389 BGP_TIMER_OFF(peer
->t_connect
);
390 BGP_TIMER_OFF(peer
->t_holdtime
);
391 bgp_keepalives_off(peer
);
392 BGP_TIMER_OFF(peer
->t_routeadv
);
397 /* BGP start timer. This function set BGP_Start event to thread value
398 and process event. */
399 static int bgp_start_timer(struct thread
*thread
)
403 peer
= THREAD_ARG(thread
);
404 peer
->t_start
= NULL
;
406 if (bgp_debug_neighbor_events(peer
))
407 zlog_debug("%s [FSM] Timer (start timer expire).", peer
->host
);
409 THREAD_VAL(thread
) = BGP_Start
;
410 bgp_event(thread
); /* bgp_event unlocks peer */
415 /* BGP connect retry timer. */
416 static int bgp_connect_timer(struct thread
*thread
)
421 peer
= THREAD_ARG(thread
);
423 assert(!peer
->t_write
);
424 assert(!peer
->t_read
);
426 peer
->t_connect
= NULL
;
428 if (bgp_debug_neighbor_events(peer
))
429 zlog_debug("%s [FSM] Timer (connect timer expire)", peer
->host
);
431 if (CHECK_FLAG(peer
->sflags
, PEER_STATUS_ACCEPT_PEER
)) {
435 THREAD_VAL(thread
) = ConnectRetry_timer_expired
;
436 bgp_event(thread
); /* bgp_event unlocks peer */
443 /* BGP holdtime timer. */
444 static int bgp_holdtime_timer(struct thread
*thread
)
448 peer
= THREAD_ARG(thread
);
449 peer
->t_holdtime
= NULL
;
451 if (bgp_debug_neighbor_events(peer
))
452 zlog_debug("%s [FSM] Timer (holdtime timer expire)",
455 THREAD_VAL(thread
) = Hold_Timer_expired
;
456 bgp_event(thread
); /* bgp_event unlocks peer */
461 int bgp_routeadv_timer(struct thread
*thread
)
465 peer
= THREAD_ARG(thread
);
466 peer
->t_routeadv
= NULL
;
468 if (bgp_debug_neighbor_events(peer
))
469 zlog_debug("%s [FSM] Timer (routeadv timer expire)",
472 peer
->synctime
= bgp_clock();
474 thread_add_timer_msec(bm
->master
, bgp_generate_updgrp_packets
, peer
, 0,
475 &peer
->t_generate_updgrp_packets
);
477 /* MRAI timer will be started again when FIFO is built, no need to
483 /* BGP Peer Down Cause */
484 const char *peer_down_str
[] = {"",
488 "Cluster ID changed",
489 "Confederation identifier changed",
490 "Confederation peer changed",
491 "RR client config change",
492 "RS client config change",
493 "Update source change",
494 "Address family activated",
497 "BGP Notification received",
498 "BGP Notification send",
499 "Peer closed the session",
501 "Peer-group add member",
502 "Peer-group delete member",
503 "Capability changed",
504 "Passive config change",
505 "Multihop config change",
506 "NSF peer closed the session",
507 "Intf peering v6only config change",
510 "Neighbor address lost"};
512 static int bgp_graceful_restart_timer_expire(struct thread
*thread
)
518 peer
= THREAD_ARG(thread
);
519 peer
->t_gr_restart
= NULL
;
521 /* NSF delete stale route */
522 for (afi
= AFI_IP
; afi
< AFI_MAX
; afi
++)
523 for (safi
= SAFI_UNICAST
; safi
<= SAFI_MPLS_VPN
; safi
++)
524 if (peer
->nsf
[afi
][safi
])
525 bgp_clear_stale_route(peer
, afi
, safi
);
527 UNSET_FLAG(peer
->sflags
, PEER_STATUS_NSF_WAIT
);
528 BGP_TIMER_OFF(peer
->t_gr_stale
);
530 if (bgp_debug_neighbor_events(peer
)) {
531 zlog_debug("%s graceful restart timer expired", peer
->host
);
532 zlog_debug("%s graceful restart stalepath timer stopped",
541 static int bgp_graceful_stale_timer_expire(struct thread
*thread
)
547 peer
= THREAD_ARG(thread
);
548 peer
->t_gr_stale
= NULL
;
550 if (bgp_debug_neighbor_events(peer
))
551 zlog_debug("%s graceful restart stalepath timer expired",
554 /* NSF delete stale route */
555 for (afi
= AFI_IP
; afi
< AFI_MAX
; afi
++)
556 for (safi
= SAFI_UNICAST
; safi
<= SAFI_MPLS_VPN
; safi
++)
557 if (peer
->nsf
[afi
][safi
])
558 bgp_clear_stale_route(peer
, afi
, safi
);
563 static int bgp_update_delay_applicable(struct bgp
*bgp
)
565 /* update_delay_over flag should be reset (set to 0) for any new
566 applicability of the update-delay during BGP process lifetime.
567 And it should be set after an occurence of the update-delay is
569 if (!bgp
->update_delay_over
)
575 int bgp_update_delay_active(struct bgp
*bgp
)
577 if (bgp
->t_update_delay
)
583 int bgp_update_delay_configured(struct bgp
*bgp
)
585 if (bgp
->v_update_delay
)
591 /* Do the post-processing needed when bgp comes out of the read-only mode
592 on ending the update delay. */
593 void bgp_update_delay_end(struct bgp
*bgp
)
595 THREAD_TIMER_OFF(bgp
->t_update_delay
);
596 THREAD_TIMER_OFF(bgp
->t_establish_wait
);
598 /* Reset update-delay related state */
599 bgp
->update_delay_over
= 1;
600 bgp
->established
= 0;
601 bgp
->restarted_peers
= 0;
602 bgp
->implicit_eors
= 0;
603 bgp
->explicit_eors
= 0;
605 quagga_timestamp(3, bgp
->update_delay_end_time
,
606 sizeof(bgp
->update_delay_end_time
));
609 * Add an end-of-initial-update marker to the main process queues so
611 * the route advertisement timer for the peers can be started. Also set
612 * the zebra and peer update hold flags. These flags are used to achieve
613 * three stages in the update-delay post processing:
614 * 1. Finish best-path selection for all the prefixes held on the
616 * (routes in BGP are updated, and peers sync queues are populated
618 * 2. As the eoiu mark is reached in the bgp process routine, ship all
620 * routes to zebra. With that zebra should see updates from BGP
623 * 3. Unblock the peer update writes. With that peer update packing
625 * the prefixes should be at its maximum.
627 bgp_add_eoiu_mark(bgp
);
628 bgp
->main_zebra_update_hold
= 1;
629 bgp
->main_peers_update_hold
= 1;
631 /* Resume the queue processing. This should trigger the event that would
633 care of processing any work that was queued during the read-only
635 work_queue_unplug(bm
->process_main_queue
);
641 void bgp_start_routeadv(struct bgp
*bgp
)
643 struct listnode
*node
, *nnode
;
646 zlog_info("bgp_start_routeadv(), update hold status %d",
647 bgp
->main_peers_update_hold
);
649 if (bgp
->main_peers_update_hold
)
652 quagga_timestamp(3, bgp
->update_delay_peers_resume_time
,
653 sizeof(bgp
->update_delay_peers_resume_time
));
655 for (ALL_LIST_ELEMENTS(bgp
->peer
, node
, nnode
, peer
)) {
656 if (peer
->status
!= Established
)
658 BGP_TIMER_OFF(peer
->t_routeadv
);
659 BGP_TIMER_ON(peer
->t_routeadv
, bgp_routeadv_timer
, 0);
666 void bgp_adjust_routeadv(struct peer
*peer
)
668 time_t nowtime
= bgp_clock();
670 unsigned long remain
;
672 /* Bypass checks for special case of MRAI being 0 */
673 if (peer
->v_routeadv
== 0) {
674 /* Stop existing timer, just in case it is running for a
676 * duration and schedule write thread immediately.
678 if (peer
->t_routeadv
)
679 BGP_TIMER_OFF(peer
->t_routeadv
);
681 peer
->synctime
= bgp_clock();
682 thread_add_timer_msec(bm
->master
, bgp_generate_updgrp_packets
,
684 &peer
->t_generate_updgrp_packets
);
691 * If the last update was written more than MRAI back, expire the timer
692 * instantly so that we can send the update out sooner.
694 * <------- MRAI --------->
695 * |-----------------|-----------------------|
696 * <------------- m ------------>
705 diff
= difftime(nowtime
, peer
->last_update
);
706 if (diff
> (double)peer
->v_routeadv
) {
707 BGP_TIMER_OFF(peer
->t_routeadv
);
708 BGP_TIMER_ON(peer
->t_routeadv
, bgp_routeadv_timer
, 0);
714 * - Find when to expire the MRAI timer.
715 * If MRAI timer is not active, assume we can start it now.
717 * <------- MRAI --------->
718 * |------------|-----------------------|
719 * <-------- m ----------><----- r ----->
728 if (peer
->t_routeadv
)
729 remain
= thread_timer_remain_second(peer
->t_routeadv
);
731 remain
= peer
->v_routeadv
;
732 diff
= peer
->v_routeadv
- diff
;
733 if (diff
<= (double)remain
) {
734 BGP_TIMER_OFF(peer
->t_routeadv
);
735 BGP_TIMER_ON(peer
->t_routeadv
, bgp_routeadv_timer
, diff
);
739 static int bgp_maxmed_onstartup_applicable(struct bgp
*bgp
)
741 if (!bgp
->maxmed_onstartup_over
)
747 int bgp_maxmed_onstartup_configured(struct bgp
*bgp
)
749 if (bgp
->v_maxmed_onstartup
!= BGP_MAXMED_ONSTARTUP_UNCONFIGURED
)
755 int bgp_maxmed_onstartup_active(struct bgp
*bgp
)
757 if (bgp
->t_maxmed_onstartup
)
763 void bgp_maxmed_update(struct bgp
*bgp
)
765 u_char maxmed_active
;
766 u_int32_t maxmed_value
;
768 if (bgp
->v_maxmed_admin
) {
770 maxmed_value
= bgp
->maxmed_admin_value
;
771 } else if (bgp
->t_maxmed_onstartup
) {
773 maxmed_value
= bgp
->maxmed_onstartup_value
;
776 maxmed_value
= BGP_MAXMED_VALUE_DEFAULT
;
779 if (bgp
->maxmed_active
!= maxmed_active
780 || bgp
->maxmed_value
!= maxmed_value
) {
781 bgp
->maxmed_active
= maxmed_active
;
782 bgp
->maxmed_value
= maxmed_value
;
784 update_group_announce(bgp
);
788 /* The maxmed onstartup timer expiry callback. */
789 static int bgp_maxmed_onstartup_timer(struct thread
*thread
)
793 zlog_info("Max med on startup ended - timer expired.");
795 bgp
= THREAD_ARG(thread
);
796 THREAD_TIMER_OFF(bgp
->t_maxmed_onstartup
);
797 bgp
->maxmed_onstartup_over
= 1;
799 bgp_maxmed_update(bgp
);
804 static void bgp_maxmed_onstartup_begin(struct bgp
*bgp
)
806 /* Applicable only once in the process lifetime on the startup */
807 if (bgp
->maxmed_onstartup_over
)
810 zlog_info("Begin maxmed onstartup mode - timer %d seconds",
811 bgp
->v_maxmed_onstartup
);
813 thread_add_timer(bm
->master
, bgp_maxmed_onstartup_timer
, bgp
,
814 bgp
->v_maxmed_onstartup
, &bgp
->t_maxmed_onstartup
);
816 if (!bgp
->v_maxmed_admin
) {
817 bgp
->maxmed_active
= 1;
818 bgp
->maxmed_value
= bgp
->maxmed_onstartup_value
;
821 /* Route announce to all peers should happen after this in
825 static void bgp_maxmed_onstartup_process_status_change(struct peer
*peer
)
827 if (peer
->status
== Established
&& !peer
->bgp
->established
) {
828 bgp_maxmed_onstartup_begin(peer
->bgp
);
832 /* The update delay timer expiry callback. */
833 static int bgp_update_delay_timer(struct thread
*thread
)
837 zlog_info("Update delay ended - timer expired.");
839 bgp
= THREAD_ARG(thread
);
840 THREAD_TIMER_OFF(bgp
->t_update_delay
);
841 bgp_update_delay_end(bgp
);
846 /* The establish wait timer expiry callback. */
847 static int bgp_establish_wait_timer(struct thread
*thread
)
851 zlog_info("Establish wait - timer expired.");
853 bgp
= THREAD_ARG(thread
);
854 THREAD_TIMER_OFF(bgp
->t_establish_wait
);
855 bgp_check_update_delay(bgp
);
860 /* Steps to begin the update delay:
861 - initialize queues if needed
862 - stop the queue processing
864 static void bgp_update_delay_begin(struct bgp
*bgp
)
866 struct listnode
*node
, *nnode
;
869 /* Stop the processing of queued work. Enqueue shall continue */
870 work_queue_plug(bm
->process_main_queue
);
872 for (ALL_LIST_ELEMENTS(bgp
->peer
, node
, nnode
, peer
))
873 peer
->update_delay_over
= 0;
875 /* Start the update-delay timer */
876 thread_add_timer(bm
->master
, bgp_update_delay_timer
, bgp
,
877 bgp
->v_update_delay
, &bgp
->t_update_delay
);
879 if (bgp
->v_establish_wait
!= bgp
->v_update_delay
)
880 thread_add_timer(bm
->master
, bgp_establish_wait_timer
, bgp
,
881 bgp
->v_establish_wait
, &bgp
->t_establish_wait
);
883 quagga_timestamp(3, bgp
->update_delay_begin_time
,
884 sizeof(bgp
->update_delay_begin_time
));
887 static void bgp_update_delay_process_status_change(struct peer
*peer
)
889 if (peer
->status
== Established
) {
890 if (!peer
->bgp
->established
++) {
891 bgp_update_delay_begin(peer
->bgp
);
893 "Begin read-only mode - update-delay timer %d seconds",
894 peer
->bgp
->v_update_delay
);
896 if (CHECK_FLAG(peer
->cap
, PEER_CAP_RESTART_BIT_RCV
))
897 bgp_update_restarted_peers(peer
);
899 if (peer
->ostatus
== Established
900 && bgp_update_delay_active(peer
->bgp
)) {
901 /* Adjust the update-delay state to account for this flap.
902 NOTE: Intentionally skipping adjusting implicit_eors or
904 counters. Extra sanity check in bgp_check_update_delay()
906 be enough to take care of any additive discrepancy in bgp eor
908 peer
->bgp
->established
--;
909 peer
->update_delay_over
= 0;
913 /* Called after event occured, this function change status and reset
914 read/write and timer thread. */
915 void bgp_fsm_change_status(struct peer
*peer
, int status
)
918 bgp_dump_state(peer
, peer
->status
, status
);
920 /* Transition into Clearing or Deleted must /always/ clear all routes..
921 * (and must do so before actually changing into Deleted..
923 if (status
>= Clearing
) {
924 bgp_clear_route_all(peer
);
926 /* If no route was queued for the clear-node processing,
928 * completion event here. This is needed because if there are no
930 * to trigger the background clear-node thread, the event won't
932 * generated and the peer would be stuck in Clearing. Note that
934 * event is for the peer and helps the peer transition out of
936 * state; it should not be generated per (AFI,SAFI). The event
938 * directly posted here without calling clear_node_complete() as
940 * shouldn't do an extra unlock. This event will get processed
942 * the state change that happens below, so peer will be in
946 if (!work_queue_is_scheduled(peer
->clear_node_queue
))
947 BGP_EVENT_ADD(peer
, Clearing_Completed
);
950 /* Preserve old status and change into new status. */
951 peer
->ostatus
= peer
->status
;
952 peer
->status
= status
;
954 /* Save event that caused status change. */
955 peer
->last_major_event
= peer
->cur_event
;
957 if (status
== Established
)
958 UNSET_FLAG(peer
->sflags
, PEER_STATUS_ACCEPT_PEER
);
960 /* If max-med processing is applicable, do the necessary. */
961 if (status
== Established
) {
962 if (bgp_maxmed_onstartup_configured(peer
->bgp
)
963 && bgp_maxmed_onstartup_applicable(peer
->bgp
))
964 bgp_maxmed_onstartup_process_status_change(peer
);
966 peer
->bgp
->maxmed_onstartup_over
= 1;
969 /* If update-delay processing is applicable, do the necessary. */
970 if (bgp_update_delay_configured(peer
->bgp
)
971 && bgp_update_delay_applicable(peer
->bgp
))
972 bgp_update_delay_process_status_change(peer
);
974 if (bgp_debug_neighbor_events(peer
))
975 zlog_debug("%s went from %s to %s", peer
->host
,
976 lookup_msg(bgp_status_msg
, peer
->ostatus
, NULL
),
977 lookup_msg(bgp_status_msg
, peer
->status
, NULL
));
980 /* Flush the event queue and ensure the peer is shut down */
981 static int bgp_clearing_completed(struct peer
*peer
)
983 int rc
= bgp_stop(peer
);
986 BGP_EVENT_FLUSH(peer
);
991 /* Administrative BGP peer stop event. */
992 /* May be called multiple times for the same peer */
993 int bgp_stop(struct peer
*peer
)
997 char orf_name
[BUFSIZ
];
1000 if (peer_dynamic_neighbor(peer
)
1001 && !(CHECK_FLAG(peer
->flags
, PEER_FLAG_DELETE
))) {
1002 if (bgp_debug_neighbor_events(peer
))
1003 zlog_debug("%s (dynamic neighbor) deleted", peer
->host
);
1008 /* Can't do this in Clearing; events are used for state transitions */
1009 if (peer
->status
!= Clearing
) {
1010 /* Delete all existing events of the peer */
1011 BGP_EVENT_FLUSH(peer
);
1014 /* Increment Dropped count. */
1015 if (peer
->status
== Established
) {
1018 /* bgp log-neighbor-changes of neighbor Down */
1019 if (bgp_flag_check(peer
->bgp
, BGP_FLAG_LOG_NEIGHBOR_CHANGES
)) {
1020 struct vrf
*vrf
= vrf_lookup_by_id(peer
->bgp
->vrf_id
);
1022 "%%ADJCHANGE: neighbor %s(%s) in vrf %s Down %s",
1024 (peer
->hostname
) ? peer
->hostname
: "Unknown",
1025 vrf
? ((vrf
->vrf_id
!= VRF_DEFAULT
) ? vrf
->name
1028 peer_down_str
[(int)peer
->last_reset
]);
1031 /* graceful restart */
1032 if (peer
->t_gr_stale
) {
1033 BGP_TIMER_OFF(peer
->t_gr_stale
);
1034 if (bgp_debug_neighbor_events(peer
))
1036 "%s graceful restart stalepath timer stopped",
1039 if (CHECK_FLAG(peer
->sflags
, PEER_STATUS_NSF_WAIT
)) {
1040 if (bgp_debug_neighbor_events(peer
)) {
1042 "%s graceful restart timer started for %d sec",
1043 peer
->host
, peer
->v_gr_restart
);
1045 "%s graceful restart stalepath timer started for %d sec",
1046 peer
->host
, peer
->bgp
->stalepath_time
);
1048 BGP_TIMER_ON(peer
->t_gr_restart
,
1049 bgp_graceful_restart_timer_expire
,
1050 peer
->v_gr_restart
);
1051 BGP_TIMER_ON(peer
->t_gr_stale
,
1052 bgp_graceful_stale_timer_expire
,
1053 peer
->bgp
->stalepath_time
);
1055 UNSET_FLAG(peer
->sflags
, PEER_STATUS_NSF_MODE
);
1057 for (afi
= AFI_IP
; afi
< AFI_MAX
; afi
++)
1058 for (safi
= SAFI_UNICAST
;
1059 safi
<= SAFI_MPLS_VPN
; safi
++)
1060 peer
->nsf
[afi
][safi
] = 0;
1063 /* set last reset time */
1064 peer
->resettime
= peer
->uptime
= bgp_clock();
1066 if (BGP_DEBUG(update_groups
, UPDATE_GROUPS
))
1067 zlog_debug("%s remove from all update group",
1069 update_group_remove_peer_afs(peer
);
1071 hook_call(peer_backward_transition
, peer
);
1073 /* Reset peer synctime */
1076 bgp_bfd_deregister_peer(peer
);
1079 /* stop keepalives */
1080 bgp_keepalives_off(peer
);
1082 /* Stop read and write threads. */
1083 bgp_writes_off(peer
);
1084 bgp_reads_off(peer
);
1086 THREAD_OFF(peer
->t_connect_check_r
);
1087 THREAD_OFF(peer
->t_connect_check_w
);
1089 /* Stop all timers. */
1090 BGP_TIMER_OFF(peer
->t_start
);
1091 BGP_TIMER_OFF(peer
->t_connect
);
1092 BGP_TIMER_OFF(peer
->t_holdtime
);
1093 BGP_TIMER_OFF(peer
->t_routeadv
);
1095 /* Clear input and output buffer. */
1096 pthread_mutex_lock(&peer
->io_mtx
);
1099 stream_fifo_clean(peer
->ibuf
);
1101 stream_fifo_clean(peer
->obuf
);
1103 if (peer
->ibuf_work
)
1104 ringbuf_wipe(peer
->ibuf_work
);
1105 if (peer
->obuf_work
)
1106 stream_reset(peer
->obuf_work
);
1109 stream_free(peer
->curr
);
1113 pthread_mutex_unlock(&peer
->io_mtx
);
1115 /* Close of file descriptor. */
1116 if (peer
->fd
>= 0) {
1121 FOREACH_AFI_SAFI (afi
, safi
) {
1122 /* Reset all negotiated variables */
1123 peer
->afc_nego
[afi
][safi
] = 0;
1124 peer
->afc_adv
[afi
][safi
] = 0;
1125 peer
->afc_recv
[afi
][safi
] = 0;
1127 /* peer address family capability flags*/
1128 peer
->af_cap
[afi
][safi
] = 0;
1130 /* peer address family status flags*/
1131 peer
->af_sflags
[afi
][safi
] = 0;
1133 /* Received ORF prefix-filter */
1134 peer
->orf_plist
[afi
][safi
] = NULL
;
1136 if ((peer
->status
== OpenConfirm
)
1137 || (peer
->status
== Established
)) {
1138 /* ORF received prefix-filter pnt */
1139 sprintf(orf_name
, "%s.%d.%d", peer
->host
, afi
, safi
);
1140 prefix_bgp_orf_remove_all(afi
, orf_name
);
1144 /* Reset keepalive and holdtime */
1145 if (PEER_OR_GROUP_TIMER_SET(peer
)) {
1146 peer
->v_keepalive
= peer
->keepalive
;
1147 peer
->v_holdtime
= peer
->holdtime
;
1149 peer
->v_keepalive
= peer
->bgp
->default_keepalive
;
1150 peer
->v_holdtime
= peer
->bgp
->default_holdtime
;
1153 peer
->update_time
= 0;
1155 /* Until we are sure that there is no problem about prefix count
1156 this should be commented out.*/
1158 /* Reset prefix count */
1159 peer
->pcount
[AFI_IP
][SAFI_UNICAST
] = 0;
1160 peer
->pcount
[AFI_IP
][SAFI_MULTICAST
] = 0;
1161 peer
->pcount
[AFI_IP
][SAFI_LABELED_UNICAST
] = 0;
1162 peer
->pcount
[AFI_IP
][SAFI_MPLS_VPN
] = 0;
1163 peer
->pcount
[AFI_IP6
][SAFI_UNICAST
] = 0;
1164 peer
->pcount
[AFI_IP6
][SAFI_MULTICAST
] = 0;
1165 peer
->pcount
[AFI_IP6
][SAFI_LABELED_UNICAST
] = 0;
1168 if (!CHECK_FLAG(peer
->flags
, PEER_FLAG_CONFIG_NODE
)
1169 && !(CHECK_FLAG(peer
->flags
, PEER_FLAG_DELETE
))) {
1173 bgp_peer_conf_if_to_su_update(peer
);
1179 /* BGP peer is stoped by the error. */
1180 static int bgp_stop_with_error(struct peer
*peer
)
1182 /* Double start timer. */
1185 /* Overflow check. */
1186 if (peer
->v_start
>= (60 * 2))
1187 peer
->v_start
= (60 * 2);
1189 if (peer_dynamic_neighbor(peer
)) {
1190 if (bgp_debug_neighbor_events(peer
))
1191 zlog_debug("%s (dynamic neighbor) deleted", peer
->host
);
1196 return (bgp_stop(peer
));
1200 /* something went wrong, send notify and tear down */
1201 static int bgp_stop_with_notify(struct peer
*peer
, u_char code
, u_char sub_code
)
1203 /* Send notify to remote peer */
1204 bgp_notify_send(peer
, code
, sub_code
);
1206 if (peer_dynamic_neighbor(peer
)) {
1207 if (bgp_debug_neighbor_events(peer
))
1208 zlog_debug("%s (dynamic neighbor) deleted", peer
->host
);
1213 /* Clear start timer value to default. */
1214 peer
->v_start
= BGP_INIT_START_TIMER
;
1216 return (bgp_stop(peer
));
1220 * Determines whether a TCP session has successfully established for a peer and
1221 * events as appropriate.
1223 * This function is called when setting up a new session. After connect() is
1224 * called on the peer's socket (in bgp_start()), the fd is passed to poll()
1225 * to wait for connection success or failure. When poll() returns, this
1226 * function is called to evaluate the result.
1228 * Due to differences in behavior of poll() on Linux and BSD - specifically,
1229 * the value of .revents in the case of a closed connection - this function is
1230 * scheduled both for a read and a write event. The write event is triggered
1231 * when the connection is established. A read event is triggered when the
1232 * connection is closed. Thus we need to cancel whichever one did not occur.
1234 static int bgp_connect_check(struct thread
*thread
)
1241 peer
= THREAD_ARG(thread
);
1242 assert(!CHECK_FLAG(peer
->thread_flags
, PEER_THREAD_READS_ON
));
1243 assert(!CHECK_FLAG(peer
->thread_flags
, PEER_THREAD_WRITES_ON
));
1244 assert(!peer
->t_read
);
1245 assert(!peer
->t_write
);
1247 THREAD_OFF(peer
->t_connect_check_r
);
1248 THREAD_OFF(peer
->t_connect_check_w
);
1250 /* Check file descriptor. */
1251 slen
= sizeof(status
);
1252 ret
= getsockopt(peer
->fd
, SOL_SOCKET
, SO_ERROR
, (void *)&status
,
1255 /* If getsockopt is fail, this is fatal error. */
1257 zlog_info("can't get sockopt for nonblocking connect");
1258 BGP_EVENT_ADD(peer
, TCP_fatal_error
);
1262 /* When status is 0 then TCP connection is established. */
1264 BGP_EVENT_ADD(peer
, TCP_connection_open
);
1267 if (bgp_debug_neighbor_events(peer
))
1268 zlog_debug("%s [Event] Connect failed (%s)", peer
->host
,
1269 safe_strerror(errno
));
1270 BGP_EVENT_ADD(peer
, TCP_connection_open_failed
);
1275 /* TCP connection open. Next we send open message to remote peer. And
1276 add read thread for reading open message. */
1277 static int bgp_connect_success(struct peer
*peer
)
1280 zlog_err("bgp_connect_success peer's fd is negative value %d",
1286 if (bgp_getsockname(peer
) < 0) {
1287 zlog_err("%s: bgp_getsockname(): failed for peer %s, fd %d",
1288 __FUNCTION__
, peer
->host
, peer
->fd
);
1289 bgp_notify_send(peer
, BGP_NOTIFY_FSM_ERR
,
1290 0); /* internal error */
1291 bgp_writes_on(peer
);
1297 if (bgp_debug_neighbor_events(peer
)) {
1298 char buf1
[SU_ADDRSTRLEN
];
1300 if (!CHECK_FLAG(peer
->sflags
, PEER_STATUS_ACCEPT_PEER
))
1301 zlog_debug("%s open active, local address %s",
1303 sockunion2str(peer
->su_local
, buf1
,
1306 zlog_debug("%s passive open", peer
->host
);
1309 bgp_open_send(peer
);
1314 /* TCP connect fail */
1315 static int bgp_connect_fail(struct peer
*peer
)
1317 if (peer_dynamic_neighbor(peer
)) {
1318 if (bgp_debug_neighbor_events(peer
))
1319 zlog_debug("%s (dynamic neighbor) deleted", peer
->host
);
1324 return (bgp_stop(peer
));
1327 /* This function is the first starting point of all BGP connection. It
1328 try to connect to remote peer with non-blocking IO. */
1329 int bgp_start(struct peer
*peer
)
1334 bgp_peer_conf_if_to_su_update(peer
);
1336 if (peer
->su
.sa
.sa_family
== AF_UNSPEC
) {
1337 if (bgp_debug_neighbor_events(peer
))
1339 "%s [FSM] Unable to get neighbor's IP address, waiting...",
1344 if (BGP_PEER_START_SUPPRESSED(peer
)) {
1345 if (bgp_debug_neighbor_events(peer
))
1347 "%s [FSM] Trying to start suppressed peer"
1348 " - this is never supposed to happen!",
1353 /* Scrub some information that might be left over from a previous,
1356 /* Connection information. */
1357 if (peer
->su_local
) {
1358 sockunion_free(peer
->su_local
);
1359 peer
->su_local
= NULL
;
1362 if (peer
->su_remote
) {
1363 sockunion_free(peer
->su_remote
);
1364 peer
->su_remote
= NULL
;
1367 /* Clear remote router-id. */
1368 peer
->remote_id
.s_addr
= 0;
1370 /* Clear peer capability flag. */
1373 /* If the peer is passive mode, force to move to Active mode. */
1374 if (CHECK_FLAG(peer
->flags
, PEER_FLAG_PASSIVE
)) {
1375 BGP_EVENT_ADD(peer
, TCP_connection_open_failed
);
1380 peer
->bgp
->vrf_id
== VRF_UNKNOWN
) {
1381 if (bgp_debug_neighbor_events(peer
))
1383 "%s [FSM] In a VRF that is not initialised yet",
1388 /* Register to be notified on peer up */
1389 if (peer
->sort
== BGP_PEER_EBGP
&& peer
->ttl
== 1
1390 && !CHECK_FLAG(peer
->flags
, PEER_FLAG_DISABLE_CONNECTED_CHECK
)
1391 && !bgp_flag_check(peer
->bgp
, BGP_FLAG_DISABLE_NH_CONNECTED_CHK
))
1396 if (!bgp_find_or_add_nexthop(peer
->bgp
,
1397 family2afi(peer
->su
.sa
.sa_family
), NULL
,
1399 #if defined(HAVE_CUMULUS)
1400 if (bgp_debug_neighbor_events(peer
))
1401 zlog_debug("%s [FSM] Waiting for NHT", peer
->host
);
1403 BGP_EVENT_ADD(peer
, TCP_connection_open_failed
);
1408 assert(!peer
->t_write
);
1409 assert(!peer
->t_read
);
1410 assert(!CHECK_FLAG(peer
->thread_flags
, PEER_THREAD_WRITES_ON
));
1411 assert(!CHECK_FLAG(peer
->thread_flags
, PEER_THREAD_READS_ON
));
1412 status
= bgp_connect(peer
);
1416 if (bgp_debug_neighbor_events(peer
))
1417 zlog_debug("%s [FSM] Connect error", peer
->host
);
1418 BGP_EVENT_ADD(peer
, TCP_connection_open_failed
);
1420 case connect_success
:
1421 if (bgp_debug_neighbor_events(peer
))
1423 "%s [FSM] Connect immediately success, fd %d",
1424 peer
->host
, peer
->fd
);
1425 BGP_EVENT_ADD(peer
, TCP_connection_open
);
1427 case connect_in_progress
:
1428 /* To check nonblocking connect, we wait until socket is
1429 readable or writable. */
1430 if (bgp_debug_neighbor_events(peer
))
1432 "%s [FSM] Non blocking connect waiting result, fd %d",
1433 peer
->host
, peer
->fd
);
1435 zlog_err("bgp_start peer's fd is negative value %d",
1440 * - when the socket becomes ready, poll() will signify POLLOUT
1441 * - if it fails to connect, poll() will signify POLLHUP
1442 * - POLLHUP is handled as a 'read' event by thread.c
1444 * therefore, we schedule both a read and a write event with
1445 * bgp_connect_check() as the handler for each and cancel the
1446 * unused event in that function.
1448 thread_add_read(bm
->master
, bgp_connect_check
, peer
, peer
->fd
,
1449 &peer
->t_connect_check_r
);
1450 thread_add_write(bm
->master
, bgp_connect_check
, peer
, peer
->fd
,
1451 &peer
->t_connect_check_w
);
1457 /* Connect retry timer is expired when the peer status is Connect. */
1458 static int bgp_reconnect(struct peer
*peer
)
1460 if (bgp_stop(peer
) < 0)
1467 static int bgp_fsm_open(struct peer
*peer
)
1469 /* Send keepalive and make keepalive timer */
1470 bgp_keepalive_send(peer
);
1472 /* Reset holdtimer value. */
1473 BGP_TIMER_OFF(peer
->t_holdtime
);
1478 /* FSM error, unexpected event. This is error of BGP connection. So cut the
1479 peer and change to Idle status. */
1480 static int bgp_fsm_event_error(struct peer
*peer
)
1482 zlog_err("%s [FSM] unexpected packet received in state %s", peer
->host
,
1483 lookup_msg(bgp_status_msg
, peer
->status
, NULL
));
1485 return bgp_stop_with_notify(peer
, BGP_NOTIFY_FSM_ERR
, 0);
1488 /* Hold timer expire. This is error of BGP connection. So cut the
1489 peer and change to Idle status. */
1490 static int bgp_fsm_holdtime_expire(struct peer
*peer
)
1492 if (bgp_debug_neighbor_events(peer
))
1493 zlog_debug("%s [FSM] Hold timer expire", peer
->host
);
1495 return bgp_stop_with_notify(peer
, BGP_NOTIFY_HOLD_ERR
, 0);
1499 * Transition to Established state.
1501 * Convert peer from stub to full fledged peer, set some timers, and generate
1504 static int bgp_establish(struct peer
*peer
)
1508 int nsf_af_count
= 0;
1512 other
= peer
->doppelganger
;
1513 peer
= peer_xfer_conn(peer
);
1515 zlog_err("%%Neighbor failed in xfer_conn");
1521 1; /* bgp_establish specific code when xfer_conn
1524 /* Reset capability open status flag. */
1525 if (!CHECK_FLAG(peer
->sflags
, PEER_STATUS_CAPABILITY_OPEN
))
1526 SET_FLAG(peer
->sflags
, PEER_STATUS_CAPABILITY_OPEN
);
1528 /* Clear start timer value to default. */
1529 peer
->v_start
= BGP_INIT_START_TIMER
;
1531 /* Increment established count. */
1532 peer
->established
++;
1533 bgp_fsm_change_status(peer
, Established
);
1535 /* bgp log-neighbor-changes of neighbor Up */
1536 if (bgp_flag_check(peer
->bgp
, BGP_FLAG_LOG_NEIGHBOR_CHANGES
)) {
1537 struct vrf
*vrf
= vrf_lookup_by_id(peer
->bgp
->vrf_id
);
1538 zlog_info("%%ADJCHANGE: neighbor %s(%s) in vrf %s Up",
1540 (peer
->hostname
) ? peer
->hostname
: "Unknown",
1541 vrf
? ((vrf
->vrf_id
!= VRF_DEFAULT
) ? vrf
->name
1545 /* assign update-group/subgroup */
1546 update_group_adjust_peer_afs(peer
);
1548 /* graceful restart */
1549 UNSET_FLAG(peer
->sflags
, PEER_STATUS_NSF_WAIT
);
1550 for (afi
= AFI_IP
; afi
< AFI_MAX
; afi
++)
1551 for (safi
= SAFI_UNICAST
; safi
<= SAFI_MPLS_VPN
; safi
++) {
1552 if (peer
->afc_nego
[afi
][safi
]
1553 && CHECK_FLAG(peer
->cap
, PEER_CAP_RESTART_ADV
)
1554 && CHECK_FLAG(peer
->af_cap
[afi
][safi
],
1555 PEER_CAP_RESTART_AF_RCV
)) {
1556 if (peer
->nsf
[afi
][safi
]
1558 peer
->af_cap
[afi
][safi
],
1559 PEER_CAP_RESTART_AF_PRESERVE_RCV
))
1560 bgp_clear_stale_route(peer
, afi
, safi
);
1562 peer
->nsf
[afi
][safi
] = 1;
1565 if (peer
->nsf
[afi
][safi
])
1566 bgp_clear_stale_route(peer
, afi
, safi
);
1567 peer
->nsf
[afi
][safi
] = 0;
1572 SET_FLAG(peer
->sflags
, PEER_STATUS_NSF_MODE
);
1574 UNSET_FLAG(peer
->sflags
, PEER_STATUS_NSF_MODE
);
1575 if (peer
->t_gr_stale
) {
1576 BGP_TIMER_OFF(peer
->t_gr_stale
);
1577 if (bgp_debug_neighbor_events(peer
))
1579 "%s graceful restart stalepath timer stopped",
1584 if (peer
->t_gr_restart
) {
1585 BGP_TIMER_OFF(peer
->t_gr_restart
);
1586 if (bgp_debug_neighbor_events(peer
))
1587 zlog_debug("%s graceful restart timer stopped",
1591 hook_call(peer_established
, peer
);
1593 /* Reset uptime, turn on keepalives, send current table. */
1594 if (!peer
->v_holdtime
)
1595 bgp_keepalives_on(peer
);
1597 peer
->uptime
= bgp_clock();
1599 /* Send route-refresh when ORF is enabled */
1600 FOREACH_AFI_SAFI (afi
, safi
) {
1601 if (CHECK_FLAG(peer
->af_cap
[afi
][safi
],
1602 PEER_CAP_ORF_PREFIX_SM_ADV
)) {
1603 if (CHECK_FLAG(peer
->af_cap
[afi
][safi
],
1604 PEER_CAP_ORF_PREFIX_RM_RCV
))
1605 bgp_route_refresh_send(peer
, afi
, safi
,
1607 REFRESH_IMMEDIATE
, 0);
1608 else if (CHECK_FLAG(peer
->af_cap
[afi
][safi
],
1609 PEER_CAP_ORF_PREFIX_RM_OLD_RCV
))
1610 bgp_route_refresh_send(peer
, afi
, safi
,
1611 ORF_TYPE_PREFIX_OLD
,
1612 REFRESH_IMMEDIATE
, 0);
1616 /* First update is deferred until ORF or ROUTE-REFRESH is received */
1617 FOREACH_AFI_SAFI (afi
, safi
) {
1618 if (CHECK_FLAG(peer
->af_cap
[afi
][safi
],
1619 PEER_CAP_ORF_PREFIX_RM_ADV
))
1620 if (CHECK_FLAG(peer
->af_cap
[afi
][safi
],
1621 PEER_CAP_ORF_PREFIX_SM_RCV
)
1622 || CHECK_FLAG(peer
->af_cap
[afi
][safi
],
1623 PEER_CAP_ORF_PREFIX_SM_OLD_RCV
))
1624 SET_FLAG(peer
->af_sflags
[afi
][safi
],
1625 PEER_STATUS_ORF_WAIT_REFRESH
);
1628 bgp_announce_peer(peer
);
1630 /* Start the route advertisement timer to send updates to the peer - if
1632 * is not in read-only mode. If it is, the timer will be started at the
1634 * of read-only mode.
1636 if (!bgp_update_delay_active(peer
->bgp
)) {
1637 BGP_TIMER_OFF(peer
->t_routeadv
);
1638 BGP_TIMER_ON(peer
->t_routeadv
, bgp_routeadv_timer
, 0);
1641 if (peer
->doppelganger
&& (peer
->doppelganger
->status
!= Deleted
)) {
1642 if (bgp_debug_neighbor_events(peer
))
1644 "[Event] Deleting stub connection for peer %s",
1647 if (peer
->doppelganger
->status
> Active
)
1648 bgp_notify_send(peer
->doppelganger
, BGP_NOTIFY_CEASE
,
1649 BGP_NOTIFY_CEASE_COLLISION_RESOLUTION
);
1651 peer_delete(peer
->doppelganger
);
1654 bgp_bfd_register_peer(peer
);
1658 /* Keepalive packet is received. */
1659 static int bgp_fsm_keepalive(struct peer
*peer
)
1661 BGP_TIMER_OFF(peer
->t_holdtime
);
1665 /* Update packet is received. */
1666 static int bgp_fsm_update(struct peer
*peer
)
1668 BGP_TIMER_OFF(peer
->t_holdtime
);
1672 /* This is empty event. */
1673 static int bgp_ignore(struct peer
*peer
)
1676 "%s [FSM] Ignoring event %s in state %s, prior events %s, %s, fd %d",
1677 peer
->host
, bgp_event_str
[peer
->cur_event
],
1678 lookup_msg(bgp_status_msg
, peer
->status
, NULL
),
1679 bgp_event_str
[peer
->last_event
],
1680 bgp_event_str
[peer
->last_major_event
], peer
->fd
);
1684 /* This is to handle unexpected events.. */
1685 static int bgp_fsm_exeption(struct peer
*peer
)
1688 "%s [FSM] Unexpected event %s in state %s, prior events %s, %s, fd %d",
1689 peer
->host
, bgp_event_str
[peer
->cur_event
],
1690 lookup_msg(bgp_status_msg
, peer
->status
, NULL
),
1691 bgp_event_str
[peer
->last_event
],
1692 bgp_event_str
[peer
->last_major_event
], peer
->fd
);
1693 return (bgp_stop(peer
));
1696 void bgp_fsm_nht_update(struct peer
*peer
, int valid
)
1701 switch (peer
->status
) {
1704 BGP_EVENT_ADD(peer
, BGP_Start
);
1708 BGP_TIMER_OFF(peer
->t_connect
);
1709 BGP_EVENT_ADD(peer
, TCP_fatal_error
);
1714 BGP_TIMER_OFF(peer
->t_connect
);
1715 BGP_EVENT_ADD(peer
, ConnectRetry_timer_expired
);
1721 if (!valid
&& (peer
->gtsm_hops
== 1))
1722 BGP_EVENT_ADD(peer
, TCP_fatal_error
);
1731 /* Finite State Machine structure */
1732 static const struct {
1733 int (*func
)(struct peer
*);
1735 } FSM
[BGP_STATUS_MAX
- 1][BGP_EVENTS_MAX
- 1] = {
1737 /* Idle state: In Idle state, all events other than BGP_Start is
1738 ignored. With BGP_Start event, finite state machine calls
1740 {bgp_start
, Connect
}, /* BGP_Start */
1741 {bgp_stop
, Idle
}, /* BGP_Stop */
1742 {bgp_stop
, Idle
}, /* TCP_connection_open */
1743 {bgp_stop
, Idle
}, /* TCP_connection_closed */
1744 {bgp_ignore
, Idle
}, /* TCP_connection_open_failed */
1745 {bgp_stop
, Idle
}, /* TCP_fatal_error */
1746 {bgp_ignore
, Idle
}, /* ConnectRetry_timer_expired */
1747 {bgp_ignore
, Idle
}, /* Hold_Timer_expired */
1748 {bgp_ignore
, Idle
}, /* KeepAlive_timer_expired */
1749 {bgp_ignore
, Idle
}, /* Receive_OPEN_message */
1750 {bgp_ignore
, Idle
}, /* Receive_KEEPALIVE_message */
1751 {bgp_ignore
, Idle
}, /* Receive_UPDATE_message */
1752 {bgp_ignore
, Idle
}, /* Receive_NOTIFICATION_message */
1753 {bgp_ignore
, Idle
}, /* Clearing_Completed */
1757 {bgp_ignore
, Connect
}, /* BGP_Start */
1758 {bgp_stop
, Idle
}, /* BGP_Stop */
1759 {bgp_connect_success
, OpenSent
}, /* TCP_connection_open */
1760 {bgp_stop
, Idle
}, /* TCP_connection_closed */
1761 {bgp_connect_fail
, Active
}, /* TCP_connection_open_failed */
1762 {bgp_connect_fail
, Idle
}, /* TCP_fatal_error */
1763 {bgp_reconnect
, Connect
}, /* ConnectRetry_timer_expired */
1764 {bgp_fsm_exeption
, Idle
}, /* Hold_Timer_expired */
1765 {bgp_fsm_exeption
, Idle
}, /* KeepAlive_timer_expired */
1766 {bgp_fsm_exeption
, Idle
}, /* Receive_OPEN_message */
1767 {bgp_fsm_exeption
, Idle
}, /* Receive_KEEPALIVE_message */
1768 {bgp_fsm_exeption
, Idle
}, /* Receive_UPDATE_message */
1769 {bgp_stop
, Idle
}, /* Receive_NOTIFICATION_message */
1770 {bgp_fsm_exeption
, Idle
}, /* Clearing_Completed */
1774 {bgp_ignore
, Active
}, /* BGP_Start */
1775 {bgp_stop
, Idle
}, /* BGP_Stop */
1776 {bgp_connect_success
, OpenSent
}, /* TCP_connection_open */
1777 {bgp_stop
, Idle
}, /* TCP_connection_closed */
1778 {bgp_ignore
, Active
}, /* TCP_connection_open_failed */
1779 {bgp_fsm_exeption
, Idle
}, /* TCP_fatal_error */
1780 {bgp_start
, Connect
}, /* ConnectRetry_timer_expired */
1781 {bgp_fsm_exeption
, Idle
}, /* Hold_Timer_expired */
1782 {bgp_fsm_exeption
, Idle
}, /* KeepAlive_timer_expired */
1783 {bgp_fsm_exeption
, Idle
}, /* Receive_OPEN_message */
1784 {bgp_fsm_exeption
, Idle
}, /* Receive_KEEPALIVE_message */
1785 {bgp_fsm_exeption
, Idle
}, /* Receive_UPDATE_message */
1786 {bgp_fsm_exeption
, Idle
}, /* Receive_NOTIFICATION_message */
1787 {bgp_fsm_exeption
, Idle
}, /* Clearing_Completed */
1791 {bgp_ignore
, OpenSent
}, /* BGP_Start */
1792 {bgp_stop
, Idle
}, /* BGP_Stop */
1793 {bgp_stop
, Active
}, /* TCP_connection_open */
1794 {bgp_stop
, Active
}, /* TCP_connection_closed */
1795 {bgp_stop
, Active
}, /* TCP_connection_open_failed */
1796 {bgp_stop
, Active
}, /* TCP_fatal_error */
1797 {bgp_fsm_exeption
, Idle
}, /* ConnectRetry_timer_expired */
1798 {bgp_fsm_holdtime_expire
, Idle
}, /* Hold_Timer_expired */
1799 {bgp_fsm_exeption
, Idle
}, /* KeepAlive_timer_expired */
1800 {bgp_fsm_open
, OpenConfirm
}, /* Receive_OPEN_message */
1801 {bgp_fsm_event_error
, Idle
}, /* Receive_KEEPALIVE_message */
1802 {bgp_fsm_event_error
, Idle
}, /* Receive_UPDATE_message */
1803 {bgp_stop_with_error
, Idle
}, /* Receive_NOTIFICATION_message */
1804 {bgp_fsm_exeption
, Idle
}, /* Clearing_Completed */
1808 {bgp_ignore
, OpenConfirm
}, /* BGP_Start */
1809 {bgp_stop
, Idle
}, /* BGP_Stop */
1810 {bgp_stop
, Idle
}, /* TCP_connection_open */
1811 {bgp_stop
, Idle
}, /* TCP_connection_closed */
1812 {bgp_stop
, Idle
}, /* TCP_connection_open_failed */
1813 {bgp_stop
, Idle
}, /* TCP_fatal_error */
1814 {bgp_fsm_exeption
, Idle
}, /* ConnectRetry_timer_expired */
1815 {bgp_fsm_holdtime_expire
, Idle
}, /* Hold_Timer_expired */
1816 {bgp_ignore
, OpenConfirm
}, /* KeepAlive_timer_expired */
1817 {bgp_fsm_exeption
, Idle
}, /* Receive_OPEN_message */
1818 {bgp_establish
, Established
}, /* Receive_KEEPALIVE_message */
1819 {bgp_fsm_exeption
, Idle
}, /* Receive_UPDATE_message */
1820 {bgp_stop_with_error
, Idle
}, /* Receive_NOTIFICATION_message */
1821 {bgp_fsm_exeption
, Idle
}, /* Clearing_Completed */
1825 {bgp_ignore
, Established
}, /* BGP_Start */
1826 {bgp_stop
, Clearing
}, /* BGP_Stop */
1827 {bgp_stop
, Clearing
}, /* TCP_connection_open */
1828 {bgp_stop
, Clearing
}, /* TCP_connection_closed */
1829 {bgp_stop
, Clearing
}, /* TCP_connection_open_failed */
1830 {bgp_stop
, Clearing
}, /* TCP_fatal_error */
1831 {bgp_stop
, Clearing
}, /* ConnectRetry_timer_expired */
1832 {bgp_fsm_holdtime_expire
, Clearing
}, /* Hold_Timer_expired */
1833 {bgp_ignore
, Established
}, /* KeepAlive_timer_expired */
1834 {bgp_stop
, Clearing
}, /* Receive_OPEN_message */
1836 Established
}, /* Receive_KEEPALIVE_message */
1837 {bgp_fsm_update
, Established
}, /* Receive_UPDATE_message */
1838 {bgp_stop_with_error
,
1839 Clearing
}, /* Receive_NOTIFICATION_message */
1840 {bgp_fsm_exeption
, Idle
}, /* Clearing_Completed */
1844 {bgp_ignore
, Clearing
}, /* BGP_Start */
1845 {bgp_stop
, Clearing
}, /* BGP_Stop */
1846 {bgp_stop
, Clearing
}, /* TCP_connection_open */
1847 {bgp_stop
, Clearing
}, /* TCP_connection_closed */
1848 {bgp_stop
, Clearing
}, /* TCP_connection_open_failed */
1849 {bgp_stop
, Clearing
}, /* TCP_fatal_error */
1850 {bgp_stop
, Clearing
}, /* ConnectRetry_timer_expired */
1851 {bgp_stop
, Clearing
}, /* Hold_Timer_expired */
1852 {bgp_stop
, Clearing
}, /* KeepAlive_timer_expired */
1853 {bgp_stop
, Clearing
}, /* Receive_OPEN_message */
1854 {bgp_stop
, Clearing
}, /* Receive_KEEPALIVE_message */
1855 {bgp_stop
, Clearing
}, /* Receive_UPDATE_message */
1856 {bgp_stop
, Clearing
}, /* Receive_NOTIFICATION_message */
1857 {bgp_clearing_completed
, Idle
}, /* Clearing_Completed */
1861 {bgp_ignore
, Deleted
}, /* BGP_Start */
1862 {bgp_ignore
, Deleted
}, /* BGP_Stop */
1863 {bgp_ignore
, Deleted
}, /* TCP_connection_open */
1864 {bgp_ignore
, Deleted
}, /* TCP_connection_closed */
1865 {bgp_ignore
, Deleted
}, /* TCP_connection_open_failed */
1866 {bgp_ignore
, Deleted
}, /* TCP_fatal_error */
1867 {bgp_ignore
, Deleted
}, /* ConnectRetry_timer_expired */
1868 {bgp_ignore
, Deleted
}, /* Hold_Timer_expired */
1869 {bgp_ignore
, Deleted
}, /* KeepAlive_timer_expired */
1870 {bgp_ignore
, Deleted
}, /* Receive_OPEN_message */
1871 {bgp_ignore
, Deleted
}, /* Receive_KEEPALIVE_message */
1872 {bgp_ignore
, Deleted
}, /* Receive_UPDATE_message */
1873 {bgp_ignore
, Deleted
}, /* Receive_NOTIFICATION_message */
1874 {bgp_ignore
, Deleted
}, /* Clearing_Completed */
1878 /* Execute event process. */
1879 int bgp_event(struct thread
*thread
)
1885 peer
= THREAD_ARG(thread
);
1886 event
= THREAD_VAL(thread
);
1888 ret
= bgp_event_update(peer
, event
);
1893 int bgp_event_update(struct peer
*peer
, int event
)
1898 int passive_conn
= 0;
1901 /* default return code */
1902 ret
= FSM_PEER_NOOP
;
1904 other
= peer
->doppelganger
;
1906 (CHECK_FLAG(peer
->sflags
, PEER_STATUS_ACCEPT_PEER
)) ? 1 : 0;
1907 dyn_nbr
= peer_dynamic_neighbor(peer
);
1909 /* Logging this event. */
1910 next
= FSM
[peer
->status
- 1][event
- 1].next_state
;
1912 if (bgp_debug_neighbor_events(peer
) && peer
->status
!= next
)
1913 zlog_debug("%s [FSM] %s (%s->%s), fd %d", peer
->host
,
1914 bgp_event_str
[event
],
1915 lookup_msg(bgp_status_msg
, peer
->status
, NULL
),
1916 lookup_msg(bgp_status_msg
, next
, NULL
), peer
->fd
);
1918 peer
->last_event
= peer
->cur_event
;
1919 peer
->cur_event
= event
;
1921 /* Call function. */
1922 if (FSM
[peer
->status
- 1][event
- 1].func
)
1923 ret
= (*(FSM
[peer
->status
- 1][event
- 1].func
))(peer
);
1926 if (ret
== 1 && next
== Established
) {
1927 /* The case when doppelganger swap accurred in
1929 Update the peer pointer accordingly */
1930 ret
= FSM_PEER_TRANSFERRED
;
1934 /* If status is changed. */
1935 if (next
!= peer
->status
) {
1936 bgp_fsm_change_status(peer
, next
);
1939 * If we're going to ESTABLISHED then we executed a
1940 * peer transfer. In this case we can either return
1941 * FSM_PEER_TRANSITIONED or FSM_PEER_TRANSFERRED.
1942 * Opting for TRANSFERRED since transfer implies
1943 * session establishment.
1945 if (ret
!= FSM_PEER_TRANSFERRED
)
1946 ret
= FSM_PEER_TRANSITIONED
;
1949 /* Make sure timer is set. */
1950 bgp_timer_set(peer
);
1954 * If we got a return value of -1, that means there was an
1955 * error, restart the FSM. Since bgp_stop() was called on the
1956 * peer. only a few fields are safe to access here. In any case
1957 * we need to indicate that the peer was stopped in the return
1960 if (!dyn_nbr
&& !passive_conn
&& peer
->bgp
) {
1962 "%s [FSM] Failure handling event %s in state %s, "
1963 "prior events %s, %s, fd %d",
1964 peer
->host
, bgp_event_str
[peer
->cur_event
],
1965 lookup_msg(bgp_status_msg
, peer
->status
, NULL
),
1966 bgp_event_str
[peer
->last_event
],
1967 bgp_event_str
[peer
->last_major_event
],
1970 bgp_fsm_change_status(peer
, Idle
);
1971 bgp_timer_set(peer
);
1973 ret
= FSM_PEER_STOPPED
;