4 * Copyright (c) 2013, 2016 Renato Westphal <renato@openbsd.org>
5 * Copyright (c) 2009 Michele Marchetto <michele@openbsd.org>
6 * Copyright (c) 2005 Claudio Jeker <claudio@openbsd.org>
7 * Copyright (c) 2004, 2005, 2008 Esben Norby <norby@openbsd.org>
9 * Permission to use, copy, modify, and distribute this software for any
10 * purpose with or without fee is hereby granted, provided that the above
11 * copyright notice and this permission notice appear in all copies.
13 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
14 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
15 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
16 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
17 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
18 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
19 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
29 DEFINE_HOOK(ldp_nbr_state_change
, (struct nbr
* nbr
, int old_state
),
32 static __inline
int nbr_id_compare(const struct nbr
*, const struct nbr
*);
33 static __inline
int nbr_addr_compare(const struct nbr
*,
35 static __inline
int nbr_pid_compare(const struct nbr
*,
37 static void nbr_update_peerid(struct nbr
*);
38 static int nbr_ktimer(struct thread
*);
39 static void nbr_start_ktimer(struct nbr
*);
40 static int nbr_ktimeout(struct thread
*);
41 static void nbr_start_ktimeout(struct nbr
*);
42 static int nbr_itimeout(struct thread
*);
43 static void nbr_start_itimeout(struct nbr
*);
44 static int nbr_idtimer(struct thread
*);
45 static int nbr_act_session_operational(struct nbr
*);
46 static void nbr_send_labelmappings(struct nbr
*);
47 static __inline
int nbr_params_compare(const struct nbr_params
*,
48 const struct nbr_params
*);
50 RB_GENERATE(nbr_id_head
, nbr
, id_tree
, nbr_id_compare
)
51 RB_GENERATE(nbr_addr_head
, nbr
, addr_tree
, nbr_addr_compare
)
52 RB_GENERATE(nbr_pid_head
, nbr
, pid_tree
, nbr_pid_compare
)
53 RB_GENERATE(nbrp_head
, nbr_params
, entry
, nbr_params_compare
)
58 enum nbr_action action
;
61 /* current state event that happened action to take resulting state */
63 {NBR_STA_PRESENT
, NBR_EVT_MATCH_ADJ
, NBR_ACT_NOTHING
, NBR_STA_INITIAL
},
64 {NBR_STA_INITIAL
, NBR_EVT_INIT_RCVD
, NBR_ACT_PASSIVE_INIT
, NBR_STA_OPENREC
},
65 {NBR_STA_OPENREC
, NBR_EVT_KEEPALIVE_RCVD
, NBR_ACT_SESSION_EST
, NBR_STA_OPER
},
67 {NBR_STA_PRESENT
, NBR_EVT_CONNECT_UP
, NBR_ACT_CONNECT_SETUP
, NBR_STA_INITIAL
},
68 {NBR_STA_INITIAL
, NBR_EVT_INIT_SENT
, NBR_ACT_NOTHING
, NBR_STA_OPENSENT
},
69 {NBR_STA_OPENSENT
, NBR_EVT_INIT_RCVD
, NBR_ACT_KEEPALIVE_SEND
, NBR_STA_OPENREC
},
70 /* Session Maintenance */
71 {NBR_STA_OPER
, NBR_EVT_PDU_RCVD
, NBR_ACT_RST_KTIMEOUT
, 0},
72 {NBR_STA_SESSION
, NBR_EVT_PDU_RCVD
, NBR_ACT_NOTHING
, 0},
73 {NBR_STA_OPER
, NBR_EVT_PDU_SENT
, NBR_ACT_RST_KTIMER
, 0},
74 {NBR_STA_SESSION
, NBR_EVT_PDU_SENT
, NBR_ACT_NOTHING
, 0},
76 {NBR_STA_PRESENT
, NBR_EVT_CLOSE_SESSION
, NBR_ACT_NOTHING
, 0},
77 {NBR_STA_SESSION
, NBR_EVT_CLOSE_SESSION
, NBR_ACT_CLOSE_SESSION
, NBR_STA_PRESENT
},
78 {-1, NBR_EVT_NOTHING
, NBR_ACT_NOTHING
, 0},
81 const char * const nbr_event_names
[] = {
93 const char * const nbr_action_names
[] = {
95 "RESET KEEPALIVE TIMEOUT",
96 "START NEIGHBOR SESSION",
97 "RESET KEEPALIVE TIMER",
98 "SETUP NEIGHBOR CONNECTION",
99 "SEND INIT AND KEEPALIVE",
104 struct nbr_id_head nbrs_by_id
= RB_INITIALIZER(&nbrs_by_id
);
105 struct nbr_addr_head nbrs_by_addr
= RB_INITIALIZER(&nbrs_by_addr
);
106 struct nbr_pid_head nbrs_by_pid
= RB_INITIALIZER(&nbrs_by_pid
);
109 nbr_id_compare(const struct nbr
*a
, const struct nbr
*b
)
111 return (ntohl(a
->id
.s_addr
) - ntohl(b
->id
.s_addr
));
115 nbr_addr_compare(const struct nbr
*a
, const struct nbr
*b
)
122 return (ldp_addrcmp(a
->af
, &a
->raddr
, &b
->raddr
));
126 nbr_pid_compare(const struct nbr
*a
, const struct nbr
*b
)
128 return (a
->peerid
- b
->peerid
);
132 nbr_fsm(struct nbr
*nbr
, enum nbr_event event
)
139 old_state
= nbr
->state
;
140 for (i
= 0; nbr_fsm_tbl
[i
].state
!= -1; i
++)
141 if ((nbr_fsm_tbl
[i
].state
& old_state
) &&
142 (nbr_fsm_tbl
[i
].event
== event
)) {
143 new_state
= nbr_fsm_tbl
[i
].new_state
;
147 if (nbr_fsm_tbl
[i
].state
== -1) {
148 /* event outside of the defined fsm, ignore it. */
149 log_warnx("%s: lsr-id %pI4, event %s not expected in state %s", __func__
, &nbr
->id
,
150 nbr_event_names
[event
], nbr_state_name(old_state
));
155 nbr
->state
= new_state
;
157 if (old_state
!= nbr
->state
) {
158 log_debug("%s: event %s resulted in action %s and changing state for lsr-id %pI4 from %s to %s",
159 __func__
, nbr_event_names
[event
],
160 nbr_action_names
[nbr_fsm_tbl
[i
].action
],
161 &nbr
->id
, nbr_state_name(old_state
),
162 nbr_state_name(nbr
->state
));
164 hook_call(ldp_nbr_state_change
, nbr
, old_state
);
166 if (nbr
->state
== NBR_STA_OPER
) {
167 gettimeofday(&now
, NULL
);
168 nbr
->uptime
= now
.tv_sec
;
172 if (nbr
->state
== NBR_STA_OPER
|| nbr
->state
== NBR_STA_PRESENT
)
173 nbr_stop_itimeout(nbr
);
175 nbr_start_itimeout(nbr
);
177 switch (nbr_fsm_tbl
[i
].action
) {
178 case NBR_ACT_RST_KTIMEOUT
:
179 nbr_start_ktimeout(nbr
);
181 case NBR_ACT_RST_KTIMER
:
182 nbr_start_ktimer(nbr
);
184 case NBR_ACT_SESSION_EST
:
185 nbr_act_session_operational(nbr
);
186 nbr_start_ktimer(nbr
);
187 nbr_start_ktimeout(nbr
);
189 send_address_all(nbr
, AF_INET
);
191 send_address_all(nbr
, AF_INET6
);
192 nbr_send_labelmappings(nbr
);
194 case NBR_ACT_CONNECT_SETUP
:
195 nbr
->tcp
= tcp_new(nbr
->fd
, nbr
);
197 /* trigger next state */
199 nbr_fsm(nbr
, NBR_EVT_INIT_SENT
);
201 case NBR_ACT_PASSIVE_INIT
:
205 case NBR_ACT_KEEPALIVE_SEND
:
206 nbr_start_ktimeout(nbr
);
209 case NBR_ACT_CLOSE_SESSION
:
210 ldpe_imsg_compose_lde(IMSG_NEIGHBOR_DOWN
, nbr
->peerid
, 0,
214 case NBR_ACT_NOTHING
:
223 nbr_new(struct in_addr id
, int af
, int ds_tlv
, union ldpd_addr
*addr
,
227 struct nbr_params
*nbrp
;
229 struct pending_conn
*pconn
;
231 log_debug("%s: lsr-id %pI4 transport-address %s", __func__
,
232 &id
, log_addr(af
, addr
));
234 if ((nbr
= calloc(1, sizeof(*nbr
))) == NULL
)
237 RB_INIT(nbr_adj_head
, &nbr
->adj_tree
);
238 nbr
->state
= NBR_STA_PRESENT
;
241 nbr
->ds_tlv
= ds_tlv
;
242 if (af
== AF_INET
|| ds_tlv
)
244 if (af
== AF_INET6
|| ds_tlv
)
247 nbr
->laddr
= (ldp_af_conf_get(leconf
, af
))->trans_addr
;
249 nbr
->raddr_scope
= scope_id
;
250 nbr
->conf_seqnum
= 0;
252 RB_FOREACH(adj
, global_adj_head
, &global
.adj_tree
) {
253 if (adj
->lsr_id
.s_addr
== nbr
->id
.s_addr
) {
255 RB_INSERT(nbr_adj_head
, &nbr
->adj_tree
, adj
);
259 if (RB_INSERT(nbr_id_head
, &nbrs_by_id
, nbr
) != NULL
)
260 fatalx("nbr_new: RB_INSERT(nbrs_by_id) failed");
261 if (RB_INSERT(nbr_addr_head
, &nbrs_by_addr
, nbr
) != NULL
)
262 fatalx("nbr_new: RB_INSERT(nbrs_by_addr) failed");
264 TAILQ_INIT(&nbr
->mapping_list
);
265 TAILQ_INIT(&nbr
->withdraw_list
);
266 TAILQ_INIT(&nbr
->request_list
);
267 TAILQ_INIT(&nbr
->release_list
);
268 TAILQ_INIT(&nbr
->abortreq_list
);
270 nbrp
= nbr_params_find(leconf
, nbr
->id
);
272 nbr
->auth
.method
= nbrp
->auth
.method
;
274 if (pfkey_establish(nbr
, nbrp
) == -1)
275 fatalx("pfkey setup failed");
278 (ldp_af_global_get(&global
, nbr
->af
))->ldp_session_socket
,
279 nbr
->af
, &nbr
->raddr
, nbrp
->auth
.md5key
);
283 pconn
= pending_conn_find(nbr
->af
, &nbr
->raddr
);
285 session_accept_nbr(nbr
, pconn
->fd
);
286 pending_conn_del(pconn
);
293 nbr_del(struct nbr
*nbr
)
297 log_debug("%s: lsr-id %pI4", __func__
, &nbr
->id
);
299 nbr_fsm(nbr
, NBR_EVT_CLOSE_SESSION
);
304 (ldp_af_global_get(&global
, nbr
->af
))->ldp_session_socket
,
305 nbr
->af
, &nbr
->raddr
, NULL
);
307 nbr
->auth
.method
= AUTH_NONE
;
309 if (nbr_pending_connect(nbr
))
310 thread_cancel(&nbr
->ev_connect
);
311 nbr_stop_ktimer(nbr
);
312 nbr_stop_ktimeout(nbr
);
313 nbr_stop_itimeout(nbr
);
314 nbr_stop_idtimer(nbr
);
316 mapping_list_clr(&nbr
->mapping_list
);
317 mapping_list_clr(&nbr
->withdraw_list
);
318 mapping_list_clr(&nbr
->request_list
);
319 mapping_list_clr(&nbr
->release_list
);
320 mapping_list_clr(&nbr
->abortreq_list
);
322 while (!RB_EMPTY(nbr_adj_head
, &nbr
->adj_tree
)) {
323 adj
= RB_ROOT(nbr_adj_head
, &nbr
->adj_tree
);
326 RB_REMOVE(nbr_adj_head
, &nbr
->adj_tree
, adj
);
330 RB_REMOVE(nbr_pid_head
, &nbrs_by_pid
, nbr
);
331 RB_REMOVE(nbr_id_head
, &nbrs_by_id
, nbr
);
332 RB_REMOVE(nbr_addr_head
, &nbrs_by_addr
, nbr
);
338 nbr_update_peerid(struct nbr
*nbr
)
340 static uint32_t peercnt
= 1;
343 RB_REMOVE(nbr_pid_head
, &nbrs_by_pid
, nbr
);
345 /* get next unused peerid */
346 while (nbr_find_peerid(++peercnt
))
348 nbr
->peerid
= peercnt
;
350 if (RB_INSERT(nbr_pid_head
, &nbrs_by_pid
, nbr
) != NULL
)
351 fatalx("nbr_update_peerid: RB_INSERT(nbrs_by_pid) failed");
355 nbr_find_ldpid(uint32_t lsr_id
)
358 n
.id
.s_addr
= lsr_id
;
359 return (RB_FIND(nbr_id_head
, &nbrs_by_id
, &n
));
363 nbr_get_first_ldpid()
365 return (RB_MIN(nbr_id_head
, &nbrs_by_id
));
369 nbr_get_next_ldpid(uint32_t lsr_id
)
372 nbr
= nbr_find_ldpid(lsr_id
);
374 return (RB_NEXT(nbr_id_head
, nbr
));
380 nbr_find_addr(int af
, union ldpd_addr
*addr
)
385 return (RB_FIND(nbr_addr_head
, &nbrs_by_addr
, &n
));
389 nbr_find_peerid(uint32_t peerid
)
393 return (RB_FIND(nbr_pid_head
, &nbrs_by_pid
, &n
));
397 nbr_adj_count(struct nbr
*nbr
, int af
)
402 RB_FOREACH(adj
, nbr_adj_head
, &nbr
->adj_tree
)
403 if (adj_get_af(adj
) == af
)
410 nbr_session_active_role(struct nbr
*nbr
)
412 if (ldp_addrcmp(nbr
->af
, &nbr
->laddr
, &nbr
->raddr
) > 0)
420 /* Keepalive timer: timer to send keepalive message to neighbors */
423 nbr_ktimer(struct thread
*thread
)
425 struct nbr
*nbr
= THREAD_ARG(thread
);
427 nbr
->keepalive_timer
= NULL
;
429 nbr_start_ktimer(nbr
);
435 nbr_start_ktimer(struct nbr
*nbr
)
439 /* send three keepalives per period */
440 secs
= nbr
->keepalive
/ KEEPALIVE_PER_PERIOD
;
441 thread_cancel(&nbr
->keepalive_timer
);
442 nbr
->keepalive_timer
= NULL
;
443 thread_add_timer(master
, nbr_ktimer
, nbr
, secs
, &nbr
->keepalive_timer
);
447 nbr_stop_ktimer(struct nbr
*nbr
)
449 thread_cancel(&nbr
->keepalive_timer
);
452 /* Keepalive timeout: if the nbr hasn't sent keepalive */
455 nbr_ktimeout(struct thread
*thread
)
457 struct nbr
*nbr
= THREAD_ARG(thread
);
459 nbr
->keepalive_timeout
= NULL
;
461 log_debug("%s: lsr-id %pI4", __func__
, &nbr
->id
);
463 session_shutdown(nbr
, S_KEEPALIVE_TMR
, 0, 0);
469 nbr_start_ktimeout(struct nbr
*nbr
)
471 thread_cancel(&nbr
->keepalive_timeout
);
472 nbr
->keepalive_timeout
= NULL
;
473 thread_add_timer(master
, nbr_ktimeout
, nbr
, nbr
->keepalive
,
474 &nbr
->keepalive_timeout
);
478 nbr_stop_ktimeout(struct nbr
*nbr
)
480 thread_cancel(&nbr
->keepalive_timeout
);
483 /* Session initialization timeout: if nbr got stuck in the initialization FSM */
486 nbr_itimeout(struct thread
*thread
)
488 struct nbr
*nbr
= THREAD_ARG(thread
);
490 log_debug("%s: lsr-id %pI4", __func__
, &nbr
->id
);
492 nbr_fsm(nbr
, NBR_EVT_CLOSE_SESSION
);
498 nbr_start_itimeout(struct nbr
*nbr
)
502 secs
= INIT_FSM_TIMEOUT
;
503 thread_cancel(&nbr
->init_timeout
);
504 nbr
->init_timeout
= NULL
;
505 thread_add_timer(master
, nbr_itimeout
, nbr
, secs
, &nbr
->init_timeout
);
509 nbr_stop_itimeout(struct nbr
*nbr
)
511 thread_cancel(&nbr
->init_timeout
);
514 /* Init delay timer: timer to retry to iniziatize session */
517 nbr_idtimer(struct thread
*thread
)
519 struct nbr
*nbr
= THREAD_ARG(thread
);
521 nbr
->initdelay_timer
= NULL
;
523 log_debug("%s: lsr-id %pI4", __func__
, &nbr
->id
);
525 nbr_establish_connection(nbr
);
531 nbr_start_idtimer(struct nbr
*nbr
)
535 secs
= INIT_DELAY_TMR
;
536 switch(nbr
->idtimer_cnt
) {
538 /* do not further increase the counter */
539 secs
= MAX_DELAY_TMR
;
552 thread_cancel(&nbr
->initdelay_timer
);
553 nbr
->initdelay_timer
= NULL
;
554 thread_add_timer(master
, nbr_idtimer
, nbr
, secs
,
555 &nbr
->initdelay_timer
);
559 nbr_stop_idtimer(struct nbr
*nbr
)
561 thread_cancel(&nbr
->initdelay_timer
);
565 nbr_pending_idtimer(struct nbr
*nbr
)
567 return (nbr
->initdelay_timer
!= NULL
);
571 nbr_pending_connect(struct nbr
*nbr
)
573 return (nbr
->ev_connect
!= NULL
);
577 nbr_connect_cb(struct thread
*thread
)
579 struct nbr
*nbr
= THREAD_ARG(thread
);
583 nbr
->ev_connect
= NULL
;
586 if (getsockopt(nbr
->fd
, SOL_SOCKET
, SO_ERROR
, &error
, &len
) < 0) {
587 log_warn("%s: getsockopt SOL_SOCKET SO_ERROR", __func__
);
594 log_debug("%s: error while connecting to %s: %s", __func__
,
595 log_addr(nbr
->af
, &nbr
->raddr
), strerror(errno
));
599 nbr_fsm(nbr
, NBR_EVT_CONNECT_UP
);
605 nbr_establish_connection(struct nbr
*nbr
)
607 union sockunion local_su
;
608 union sockunion remote_su
;
610 struct nbr_params
*nbrp
;
615 nbr
->fd
= socket(nbr
->af
, SOCK_STREAM
, 0);
617 log_warn("%s: error while creating socket", __func__
);
620 sock_set_nonblock(nbr
->fd
);
622 nbrp
= nbr_params_find(leconf
, nbr
->id
);
623 if (nbrp
&& nbrp
->auth
.method
== AUTH_MD5SIG
) {
625 if (sysdep
.no_pfkey
|| sysdep
.no_md5sig
) {
626 log_warnx("md5sig configured but not available");
630 if (setsockopt(nbr
->fd
, IPPROTO_TCP
, TCP_MD5SIG
,
631 &opt
, sizeof(opt
)) == -1) {
632 log_warn("setsockopt md5sig");
637 sock_set_md5sig(nbr
->fd
, nbr
->af
, &nbr
->raddr
,
642 if (nbr
->af
== AF_INET
) {
643 if (sock_set_ipv4_tos(nbr
->fd
, IPTOS_PREC_INTERNETCONTROL
) == -1)
644 log_warn("%s: lsr-id %pI4, sock_set_ipv4_tos error",
646 } else if (nbr
->af
== AF_INET6
) {
647 if (sock_set_ipv6_dscp(nbr
->fd
, IPTOS_PREC_INTERNETCONTROL
) == -1)
648 log_warn("%s: lsr-id %pI4, sock_set_ipv6_dscp error",
652 addr2sa(nbr
->af
, &nbr
->laddr
, 0, &local_su
);
653 addr2sa(nbr
->af
, &nbr
->raddr
, LDP_PORT
, &remote_su
);
654 if (nbr
->af
== AF_INET6
&& nbr
->raddr_scope
)
655 addscope(&remote_su
.sin6
, nbr
->raddr_scope
);
657 if (bind(nbr
->fd
, &local_su
.sa
, sockaddr_len(&local_su
.sa
)) == -1) {
658 log_warn("%s: error while binding socket to %s", __func__
,
659 log_sockaddr(&local_su
.sa
));
664 if (nbr_gtsm_check(nbr
->fd
, nbr
, nbrp
)) {
670 * Send an extra hello to guarantee that the remote peer has formed
671 * an adjacency as well.
673 RB_FOREACH(adj
, nbr_adj_head
, &nbr
->adj_tree
)
674 send_hello(adj
->source
.type
, adj
->source
.link
.ia
,
677 if (connect(nbr
->fd
, &remote_su
.sa
, sockaddr_len(&remote_su
.sa
))
679 if (errno
== EINPROGRESS
) {
680 thread_add_write(master
, nbr_connect_cb
, nbr
, nbr
->fd
,
684 log_warn("%s: error while connecting to %s", __func__
,
685 log_sockaddr(&remote_su
.sa
));
690 /* connection completed immediately */
691 nbr_fsm(nbr
, NBR_EVT_CONNECT_UP
);
697 nbr_gtsm_enabled(struct nbr
*nbr
, struct nbr_params
*nbrp
)
700 * RFC 6720 - Section 3:
701 * "This document allows for the implementation to provide an option to
702 * statically (e.g., via configuration) and/or dynamically override the
703 * default behavior and enable/disable GTSM on a per-peer basis".
705 if (nbrp
&& (nbrp
->flags
& F_NBRP_GTSM
))
706 return (nbrp
->gtsm_enabled
);
708 if ((ldp_af_conf_get(leconf
, nbr
->af
))->flags
& F_LDPD_AF_NO_GTSM
)
711 /* By default, GTSM support has to be negotiated for LDPv4 */
712 if (nbr
->af
== AF_INET
&& !(nbr
->flags
& F_NBR_GTSM_NEGOTIATED
))
719 nbr_gtsm_setup(int fd
, int af
, struct nbr_params
*nbrp
)
723 if (nbrp
&& (nbrp
->flags
& F_NBRP_GTSM_HOPS
))
724 ttl
= 256 - nbrp
->gtsm_hops
;
728 if (sock_set_ipv4_minttl(fd
, ttl
) == -1)
731 if (sock_set_ipv4_ucast_ttl(fd
, ttl
) == -1)
735 /* ignore any possible error */
736 sock_set_ipv6_minhopcount(fd
, ttl
);
738 if (sock_set_ipv6_ucast_hops(fd
, ttl
) == -1)
742 fatalx("nbr_gtsm_setup: unknown af");
749 nbr_gtsm_check(int fd
, struct nbr
*nbr
, struct nbr_params
*nbrp
)
751 if (!nbr_gtsm_enabled(nbr
, nbrp
)) {
754 sock_set_ipv4_ucast_ttl(fd
, -1);
758 * Send packets with a Hop Limit of 255 even when GSTM
759 * is disabled to guarantee interoperability.
761 sock_set_ipv6_ucast_hops(fd
, 255);
764 fatalx("nbr_gtsm_check: unknown af");
770 if (nbr_gtsm_setup(fd
, nbr
->af
, nbrp
) == -1) {
771 log_warnx("%s: error enabling GTSM for lsr-id %pI4", __func__
,
780 nbr_act_session_operational(struct nbr
*nbr
)
782 struct lde_nbr lde_nbr
;
784 nbr
->idtimer_cnt
= 0;
786 /* this is necessary to avoid ipc synchronization issues */
787 nbr_update_peerid(nbr
);
789 ldp_sync_fsm_nbr_event(nbr
, LDP_SYNC_EVT_LDP_SYNC_START
);
791 memset(&lde_nbr
, 0, sizeof(lde_nbr
));
792 lde_nbr
.id
= nbr
->id
;
793 lde_nbr
.v4_enabled
= nbr
->v4_enabled
;
794 lde_nbr
.v6_enabled
= nbr
->v6_enabled
;
795 lde_nbr
.flags
= nbr
->flags
;
796 return (ldpe_imsg_compose_lde(IMSG_NEIGHBOR_UP
, nbr
->peerid
, 0,
797 &lde_nbr
, sizeof(lde_nbr
)));
801 nbr_send_labelmappings(struct nbr
*nbr
)
803 ldpe_imsg_compose_lde(IMSG_LABEL_MAPPING_FULL
, nbr
->peerid
, 0,
808 nbr_params_compare(const struct nbr_params
*a
, const struct nbr_params
*b
)
810 return (ntohl(a
->lsr_id
.s_addr
) - ntohl(b
->lsr_id
.s_addr
));
814 nbr_params_new(struct in_addr lsr_id
)
816 struct nbr_params
*nbrp
;
818 if ((nbrp
= calloc(1, sizeof(*nbrp
))) == NULL
)
821 nbrp
->lsr_id
= lsr_id
;
822 nbrp
->auth
.method
= AUTH_NONE
;
828 nbr_params_find(struct ldpd_conf
*xconf
, struct in_addr lsr_id
)
830 struct nbr_params nbrp
;
831 nbrp
.lsr_id
= lsr_id
;
832 return (RB_FIND(nbrp_head
, &xconf
->nbrp_tree
, &nbrp
));
836 nbr_get_keepalive(int af
, struct in_addr lsr_id
)
838 struct nbr_params
*nbrp
;
840 nbrp
= nbr_params_find(leconf
, lsr_id
);
841 if (nbrp
&& (nbrp
->flags
& F_NBRP_KEEPALIVE
))
842 return (nbrp
->keepalive
);
844 return ((ldp_af_conf_get(leconf
, af
))->keepalive
);
848 nbr_to_ctl(struct nbr
*nbr
)
850 static struct ctl_nbr nctl
;
855 nctl
.laddr
= nbr
->laddr
;
856 nctl
.lport
= nbr
->tcp
? nbr
->tcp
->lport
: 0;
857 nctl
.raddr
= nbr
->raddr
;
858 nctl
.rport
= nbr
->tcp
? nbr
->tcp
->rport
: 0;
859 nctl
.auth_method
= nbr
->auth
.method
;
860 nctl
.holdtime
= nbr
->keepalive
;
861 nctl
.nbr_state
= nbr
->state
;
862 nctl
.stats
= nbr
->stats
;
863 nctl
.flags
= nbr
->flags
;
864 nctl
.max_pdu_len
= nbr
->max_pdu_len
;
865 if (nbr
->keepalive_timer
)
866 nctl
.hold_time_remaining
=
867 thread_timer_remain_second(nbr
->keepalive_timer
);
869 nctl
.hold_time_remaining
= 0;
871 gettimeofday(&now
, NULL
);
872 if (nbr
->state
== NBR_STA_OPER
) {
873 nctl
.uptime
= now
.tv_sec
- nbr
->uptime
;
881 nbr_clear_ctl(struct ctl_nbr
*nctl
)
885 RB_FOREACH(nbr
, nbr_addr_head
, &nbrs_by_addr
) {
886 if (ldp_addrisset(nctl
->af
, &nctl
->raddr
) &&
887 ldp_addrcmp(nctl
->af
, &nctl
->raddr
, &nbr
->raddr
))
890 log_debug("%s: neighbor %s manually cleared", __func__
,
891 log_addr(nbr
->af
, &nbr
->raddr
));
892 session_shutdown(nbr
, S_SHUTDOWN
, 0, 0);