]>
git.ipfire.org Git - thirdparty/bird.git/blob - proto/bgp/bgp.h
2 * BIRD -- The Border Gateway Protocol
4 * (c) 2000 Martin Mares <mj@ucw.cz>
5 * (c) 2008--2016 Ondrej Zajicek <santiago@crfreenet.org>
6 * (c) 2008--2016 CZ.NIC z.s.p.o.
8 * Can be freely distributed and used under the terms of the GNU GPL.
16 #include "nest/bird.h"
17 #include "nest/route.h"
19 //#include "lib/lists.h"
21 #include "lib/socket.h"
27 /* Address families */
29 #define BGP_AFI_IPV4 1
30 #define BGP_AFI_IPV6 2
32 #define BGP_SAFI_UNICAST 1
33 #define BGP_SAFI_MULTICAST 2
34 #define BGP_SAFI_MPLS 4
35 #define BGP_SAFI_MPLS_VPN 128
36 #define BGP_SAFI_VPN_MULTICAST 129
37 #define BGP_SAFI_FLOW 133
39 /* Internal AF codes */
41 #define BGP_AF(A, B) (((u32)(A) << 16) | (u32)(B))
42 #define BGP_AFI(A) ((u32)(A) >> 16)
43 #define BGP_SAFI(A) ((u32)(A) & 0xFFFF)
45 #define BGP_AF_IPV4 BGP_AF( BGP_AFI_IPV4, BGP_SAFI_UNICAST )
46 #define BGP_AF_IPV6 BGP_AF( BGP_AFI_IPV6, BGP_SAFI_UNICAST )
47 #define BGP_AF_IPV4_MC BGP_AF( BGP_AFI_IPV4, BGP_SAFI_MULTICAST )
48 #define BGP_AF_IPV6_MC BGP_AF( BGP_AFI_IPV6, BGP_SAFI_MULTICAST )
49 #define BGP_AF_IPV4_MPLS BGP_AF( BGP_AFI_IPV4, BGP_SAFI_MPLS )
50 #define BGP_AF_IPV6_MPLS BGP_AF( BGP_AFI_IPV6, BGP_SAFI_MPLS )
51 #define BGP_AF_VPN4_MPLS BGP_AF( BGP_AFI_IPV4, BGP_SAFI_MPLS_VPN )
52 #define BGP_AF_VPN6_MPLS BGP_AF( BGP_AFI_IPV6, BGP_SAFI_MPLS_VPN )
53 #define BGP_AF_VPN4_MC BGP_AF( BGP_AFI_IPV4, BGP_SAFI_VPN_MULTICAST )
54 #define BGP_AF_VPN6_MC BGP_AF( BGP_AFI_IPV6, BGP_SAFI_VPN_MULTICAST )
55 #define BGP_AF_FLOW4 BGP_AF( BGP_AFI_IPV4, BGP_SAFI_FLOW )
56 #define BGP_AF_FLOW6 BGP_AF( BGP_AFI_IPV6, BGP_SAFI_FLOW )
59 struct bgp_write_state
;
60 struct bgp_parse_state
;
61 struct bgp_export_state
;
70 uint (*encode_nlri
)(struct bgp_write_state
*s
, struct bgp_bucket
*buck
, byte
*buf
, uint size
);
71 void (*decode_nlri
)(struct bgp_parse_state
*s
, byte
*pos
, uint len
, rta
*a
);
72 void (*update_next_hop
)(struct bgp_export_state
*s
, eattr
*nh
, ea_list
**to
);
73 uint (*encode_next_hop
)(struct bgp_write_state
*s
, eattr
*nh
, byte
*buf
, uint size
);
74 void (*decode_next_hop
)(struct bgp_parse_state
*s
, byte
*pos
, uint len
, rta
*a
);
79 struct proto_config c
;
80 u32 local_as
, remote_as
;
81 ip_addr local_ip
; /* Source address to use */
83 struct iface
*iface
; /* Interface for link-local addresses */
84 u16 local_port
; /* Local listening port */
85 u16 remote_port
; /* Neighbor destination port */
86 int multihop
; /* Number of hops if multihop */
87 int strict_bind
; /* Bind listening socket to local address */
88 int ttl_security
; /* Enable TTL security [RFC 5082] */
89 int compare_path_lengths
; /* Use path lengths when selecting best route */
90 int med_metric
; /* Compare MULTI_EXIT_DISC even between routes from differen ASes */
91 int igp_metric
; /* Use IGP metrics when selecting best route */
92 int prefer_older
; /* Prefer older routes according to RFC 5004 */
93 int deterministic_med
; /* Use more complicated algo to have strict RFC 4271 MED comparison */
94 u32 default_local_pref
; /* Default value for LOCAL_PREF attribute */
95 u32 default_med
; /* Default value for MULTI_EXIT_DISC attribute */
96 int capabilities
; /* Enable capability handshake [RFC 5492] */
97 int enable_refresh
; /* Enable local support for route refresh [RFC 2918] */
98 int enable_as4
; /* Enable local support for 4B AS numbers [RFC 6793] */
99 int enable_extended_messages
; /* Enable local support for extended messages [draft] */
100 u32 rr_cluster_id
; /* Route reflector cluster ID, if different from local ID */
101 int rr_client
; /* Whether neighbor is RR client of me */
102 int rs_client
; /* Whether neighbor is RS client of me */
103 u32 confederation
; /* Confederation ID, or zero if confeds not active */
104 int confederation_member
; /* Whether neighbor AS is member of our confederation */
105 int passive
; /* Do not initiate outgoing connection */
106 int interpret_communities
; /* Hardwired handling of well-known communities */
107 int allow_local_as
; /* Allow that number of local ASNs in incoming AS_PATHs */
108 int allow_local_pref
; /* Allow LOCAL_PREF in EBGP sessions */
109 int gr_mode
; /* Graceful restart mode (BGP_GR_*) */
110 int llgr_mode
; /* Long-lived graceful restart mode (BGP_LLGR_*) */
111 int setkey
; /* Set MD5 password to system SA/SP database */
112 /* Times below are in seconds */
113 unsigned gr_time
; /* Graceful restart timeout */
114 unsigned llgr_time
; /* Long-lived graceful restart stale time */
115 unsigned connect_delay_time
; /* Minimum delay between connect attempts */
116 unsigned connect_retry_time
; /* Timeout for connect attempts */
117 unsigned hold_time
, initial_hold_time
;
118 unsigned keepalive_time
;
119 unsigned error_amnesia_time
; /* Errors are forgotten after */
120 unsigned error_delay_time_min
; /* Time to wait after an error is detected */
121 unsigned error_delay_time_max
;
122 unsigned disable_after_error
; /* Disable the protocol when error is detected */
123 u32 disable_after_cease
; /* Disable it when cease is received, bitfield */
125 char *password
; /* Password used for MD5 authentication */
126 int check_link
; /* Use iface link state for liveness detection */
127 int bfd
; /* Use BFD for liveness detection */
130 struct bgp_channel_config
{
131 struct channel_config c
;
134 const struct bgp_af_desc
*desc
;
136 ip_addr next_hop_addr
; /* Local address for NEXT_HOP attribute */
137 u8 next_hop_self
; /* Always set next hop to local IP address */
138 u8 next_hop_keep
; /* Do not touch next hop attribute */
139 u8 missing_lladdr
; /* What we will do when we don' know link-local addr, see MLL_* */
140 u8 gw_mode
; /* How we compute route gateway from next_hop attr, see GW_* */
141 u8 secondary
; /* Accept also non-best routes (i.e. RA_ACCEPTED) */
142 u8 gr_able
; /* Allow full graceful restart for the channel */
143 u8 llgr_able
; /* Allow full long-lived GR for the channel */
144 uint llgr_time
; /* Long-lived graceful restart stale time */
145 u8 ext_next_hop
; /* Allow both IPv4 and IPv6 next hops */
146 u8 add_path
; /* Use ADD-PATH extension [RFC 7911] */
148 uint rest
[0]; /* Remaining items are reconfigured separately */
149 struct rtable_config
*igp_table_ip4
; /* Table for recursive IPv4 next hop lookups */
150 struct rtable_config
*igp_table_ip6
; /* Table for recursive IPv6 next hop lookups */
158 #define GW_RECURSIVE 2
160 #define BGP_ADD_PATH_RX 1
161 #define BGP_ADD_PATH_TX 2
162 #define BGP_ADD_PATH_FULL 3
164 #define BGP_GR_ABLE 1
165 #define BGP_GR_AWARE 2
167 /* For GR capability common flags */
168 #define BGP_GRF_RESTART 0x80
170 /* For GR capability per-AF flags */
171 #define BGP_GRF_FORWARDING 0x80
173 #define BGP_LLGR_ABLE 1
174 #define BGP_LLGR_AWARE 2
176 #define BGP_LLGRF_FORWARDING 0x80
178 #define BGP_GRS_NONE 0 /* No GR */
179 #define BGP_GRS_ACTIVE 1 /* Graceful restart per RFC 4724 */
180 #define BGP_GRS_LLGR 2 /* Long-lived GR phase (stale timer active) */
182 #define BGP_BFD_GRACEFUL 2 /* BFD down triggers graceful restart */
187 u8 ready
; /* Multiprotocol capability, RFC 4760 */
188 u8 gr_able
; /* Graceful restart support, RFC 4724 */
189 u8 gr_af_flags
; /* Graceful restart per-AF flags */
190 u8 llgr_able
; /* Long-lived GR, RFC draft */
191 u32 llgr_time
; /* Long-lived GR stale time */
192 u8 llgr_flags
; /* Long-lived GR per-AF flags */
193 u8 ext_next_hop
; /* Extended IPv6 next hop, RFC 5549 */
194 u8 add_path
; /* Multiple paths support, RFC 7911 */
198 u32 as4_number
; /* Announced ASN */
200 u8 as4_support
; /* Four-octet AS capability, RFC 6793 */
201 u8 ext_messages
; /* Extended message length, RFC draft */
202 u8 route_refresh
; /* Route refresh capability, RFC 2918 */
203 u8 enhanced_refresh
; /* Enhanced route refresh, RFC 7313 */
205 u8 gr_aware
; /* Graceful restart capability, RFC 4724 */
206 u8 gr_flags
; /* Graceful restart flags */
207 u16 gr_time
; /* Graceful restart time in seconds */
209 u8 llgr_aware
; /* Long-lived GR capability, RFC draft */
211 u16 af_count
; /* Number of af_data items */
213 struct bgp_af_caps af_data
[0]; /* Per-AF capability data */
216 #define WALK_AF_CAPS(caps,ac) \
217 for (ac = caps->af_data; ac < &caps->af_data[caps->af_count]; ac++)
221 node n
; /* Node in global bgp_sockets */
222 sock
*sk
; /* Real listening socket */
223 u32 uc
; /* Use count */
227 struct bgp_proto
*bgp
;
229 u8 state
; /* State of connection state machine */
230 u8 as4_session
; /* Session uses 4B AS numbers in AS_PATH (both sides support it) */
231 u8 ext_messages
; /* Session uses extended message length */
233 struct bgp_caps
*local_caps
;
234 struct bgp_caps
*remote_caps
;
235 timer
*connect_timer
;
237 timer
*keepalive_timer
;
239 u32 packets_to_send
; /* Bitmap of packet types to be sent */
240 u32 channels_to_send
; /* Bitmap of channels with packets to be sent */
241 u8 last_channel
; /* Channel used last time for TX */
242 u8 last_channel_count
; /* Number of times the last channel was used in succession */
243 int notify_code
, notify_subcode
, notify_size
;
246 uint hold_time
, keepalive_time
; /* Times calculated from my and neighbor's requirements */
251 struct bgp_config
*cf
; /* Shortcut to BGP configuration */
252 u32 local_as
, remote_as
;
253 u32 public_as
; /* Externally visible ASN (local_as or confederation id) */
254 u32 local_id
; /* BGP identifier of this router */
255 u32 remote_id
; /* BGP identifier of the neighbor */
256 u32 rr_cluster_id
; /* Route reflector cluster ID */
257 int start_state
; /* Substates that partitions BS_START */
258 u8 is_internal
; /* Internal BGP session (local_as == remote_as) */
259 u8 is_interior
; /* Internal or intra-confederation BGP session */
260 u8 as4_session
; /* Session uses 4B AS numbers in AS_PATH (both sides support it) */
261 u8 rr_client
; /* Whether neighbor is RR client of me */
262 u8 rs_client
; /* Whether neighbor is RS client of me */
263 u8 route_refresh
; /* Route refresh allowed to send [RFC 2918] */
264 u8 enhanced_refresh
; /* Enhanced refresh is negotiated [RFC 7313] */
265 u8 gr_ready
; /* Neighbor could do graceful restart */
266 u8 llgr_ready
; /* Neighbor could do Long-lived GR, implies gr_ready */
267 u8 gr_active_num
; /* Neighbor is doing GR, number of active channels */
268 u8 channel_count
; /* Number of active channels */
269 u8 summary_add_path_rx
; /* Summary state of ADD_PATH RX w.r.t active channels */
270 u32
*afi_map
; /* Map channel index -> AFI */
271 struct bgp_channel
**channel_map
; /* Map channel index -> channel */
272 struct bgp_conn
*conn
; /* Connection we have established */
273 struct bgp_conn outgoing_conn
; /* Outgoing connection we're working with */
274 struct bgp_conn incoming_conn
; /* Incoming connection we have neither accepted nor rejected yet */
275 struct object_lock
*lock
; /* Lock for neighbor connection */
276 struct neighbor
*neigh
; /* Neighbor entry corresponding to remote ip, NULL if multihop */
277 struct bgp_socket
*sock
; /* Shared listening socket */
278 struct bfd_request
*bfd_req
; /* BFD request, if BFD is used */
279 ip_addr source_addr
; /* Local address used as an advertised next hop */
280 ip_addr link_addr
; /* Link-local version of source_addr */
281 event
*event
; /* Event for respawning and shutting process */
282 timer
*startup_timer
; /* Timer used to delay protocol startup due to previous errors (startup_delay) */
283 timer
*gr_timer
; /* Timer waiting for reestablishment after graceful restart */
284 uint startup_delay
; /* Delay (in seconds) of protocol startup due to previous errors */
285 btime last_proto_error
; /* Time of last error that leads to protocol stop */
286 u8 last_error_class
; /* Error class of last error */
287 u32 last_error_code
; /* Error code of last error. BGP protocol errors
288 are encoded as (bgp_err_code << 16 | bgp_err_subcode) */
294 /* Rest are BGP specific data */
295 struct bgp_channel_config
*cf
;
296 pool
*pool
; /* XXXX */
300 const struct bgp_af_desc
*desc
;
302 HASH(struct bgp_bucket
) bucket_hash
; /* Hash table of route buckets */
303 struct bgp_bucket
*withdraw_bucket
; /* Withdrawn routes */
304 list bucket_queue
; /* Queue of buckets to send (struct bgp_bucket) */
306 HASH(struct bgp_prefix
) prefix_hash
; /* Prefixes to be sent */
307 slab
*prefix_slab
; /* Slab holding prefix nodes */
309 rtable
*igp_table_ip4
; /* Table for recursive IPv4 next hop lookups */
310 rtable
*igp_table_ip6
; /* Table for recursive IPv6 next hop lookups */
311 ip_addr next_hop_addr
; /* Local address for NEXT_HOP attribute */
312 ip_addr link_addr
; /* Link-local version of next_hop_addr */
314 u32 packets_to_send
; /* Bitmap of packet types to be sent */
316 u8 ext_next_hop
; /* Session allows both IPv4 and IPv6 next hops */
318 u8 gr_ready
; /* Neighbor could do GR on this AF */
319 u8 gr_active
; /* Neighbor is doing GR (BGP_GRS_*) */
321 timer
*stale_timer
; /* Long-lived stale timer for LLGR */
322 u32 stale_time
; /* Stored LLGR stale time from last session */
324 u8 add_path_rx
; /* Session expects receive of ADD-PATH extended NLRI */
325 u8 add_path_tx
; /* Session expects transmit of ADD-PATH extended NLRI */
327 u8 feed_state
; /* Feed state (TX) for EoR, RR packets, see BFS_* */
328 u8 load_state
; /* Load state (RX) for EoR, RR packets, see BFS_* */
332 node buck_node
; /* Node in per-bucket list */
333 struct bgp_prefix
*next
; /* Node in prefix hash table */
340 node send_node
; /* Node in send queue */
341 struct bgp_bucket
*next
; /* Node in bucket hash table */
342 list prefixes
; /* Prefixes in this bucket (struct bgp_prefix) */
343 u32 hash
; /* Hash over extended attributes */
344 ea_list eattrs
[0]; /* Per-bucket extended attributes */
347 struct bgp_export_state
{
348 struct bgp_proto
*proto
;
349 struct bgp_channel
*channel
;
350 struct linpool
*pool
;
352 struct bgp_proto
*src
;
360 struct bgp_write_state
{
361 struct bgp_proto
*proto
;
362 struct bgp_channel
*channel
;
363 struct linpool
*pool
;
374 struct bgp_parse_state
{
375 struct bgp_proto
*proto
;
376 struct bgp_channel
*channel
;
377 struct linpool
*pool
;
383 u32 attrs_seen
[256/32];
391 uint ip_next_hop_len
;
394 uint mp_next_hop_len
;
398 byte
*ip_unreach_nlri
;
399 byte
*ip_next_hop_data
;
401 byte
*mp_unreach_nlri
;
402 byte
*mp_next_hop_data
;
408 struct hostentry
*hostentry
;
411 /* Cached state for bgp_rte_update() */
413 struct rte_src
*last_src
;
418 #define BGP_VERSION 4
419 #define BGP_HEADER_LENGTH 19
420 #define BGP_MAX_MESSAGE_LENGTH 4096
421 #define BGP_MAX_EXT_MSG_LENGTH 65535
422 #define BGP_RX_BUFFER_SIZE 4096
423 #define BGP_TX_BUFFER_SIZE 4096
424 #define BGP_RX_BUFFER_EXT_SIZE 65535
425 #define BGP_TX_BUFFER_EXT_SIZE 65535
427 static inline int bgp_channel_is_ipv4(struct bgp_channel
*c
)
428 { return BGP_AFI(c
->afi
) == BGP_AFI_IPV4
; }
430 static inline int bgp_channel_is_ipv6(struct bgp_channel
*c
)
431 { return BGP_AFI(c
->afi
) == BGP_AFI_IPV6
; }
433 static inline int bgp_cc_is_ipv4(struct bgp_channel_config
*c
)
434 { return BGP_AFI(c
->afi
) == BGP_AFI_IPV4
; }
436 static inline int bgp_cc_is_ipv6(struct bgp_channel_config
*c
)
437 { return BGP_AFI(c
->afi
) == BGP_AFI_IPV6
; }
439 static inline uint
bgp_max_packet_length(struct bgp_conn
*conn
)
440 { return conn
->ext_messages
? BGP_MAX_EXT_MSG_LENGTH
: BGP_MAX_MESSAGE_LENGTH
; }
443 bgp_parse_error(struct bgp_parse_state
*s
, uint subcode
)
445 s
->err_subcode
= subcode
;
446 longjmp(s
->err_jmpbuf
, 1);
449 extern struct linpool
*bgp_linpool
;
450 extern struct linpool
*bgp_linpool2
;
453 void bgp_start_timer(timer
*t
, uint value
);
454 void bgp_check_config(struct bgp_config
*c
);
455 void bgp_error(struct bgp_conn
*c
, unsigned code
, unsigned subcode
, byte
*data
, int len
);
456 void bgp_close_conn(struct bgp_conn
*c
);
457 void bgp_update_startup_delay(struct bgp_proto
*p
);
458 void bgp_conn_enter_openconfirm_state(struct bgp_conn
*conn
);
459 void bgp_conn_enter_established_state(struct bgp_conn
*conn
);
460 void bgp_conn_enter_close_state(struct bgp_conn
*conn
);
461 void bgp_conn_enter_idle_state(struct bgp_conn
*conn
);
462 void bgp_handle_graceful_restart(struct bgp_proto
*p
);
463 void bgp_graceful_restart_done(struct bgp_channel
*c
);
464 void bgp_refresh_begin(struct bgp_channel
*c
);
465 void bgp_refresh_end(struct bgp_channel
*c
);
466 void bgp_store_error(struct bgp_proto
*p
, struct bgp_conn
*c
, u8
class, u32 code
);
467 void bgp_stop(struct bgp_proto
*p
, uint subcode
, byte
*data
, uint len
);
469 struct rte_source
*bgp_find_source(struct bgp_proto
*p
, u32 path_id
);
470 struct rte_source
*bgp_get_source(struct bgp_proto
*p
, u32 path_id
);
475 #define BGP_FORCE_DEBUG 1
477 #define BGP_FORCE_DEBUG 0
479 #define BGP_TRACE(flags, msg, args...) do { if ((p->p.debug & flags) || BGP_FORCE_DEBUG) \
480 log(L_TRACE "%s: " msg, p->p.name , ## args ); } while(0)
482 #define BGP_TRACE_RL(rl, flags, msg, args...) do { if ((p->p.debug & flags) || BGP_FORCE_DEBUG) \
483 log_rl(rl, L_TRACE "%s: " msg, p->p.name , ## args ); } while(0)
488 static inline eattr
*
489 bgp_find_attr(ea_list
*attrs
, uint code
)
491 return ea_find(attrs
, EA_CODE(PROTOCOL_BGP
, code
));
495 bgp_set_attr(ea_list
**attrs
, struct linpool
*pool
, uint code
, uint flags
, uintptr_t val
);
498 bgp_set_attr_u32(ea_list
**to
, struct linpool
*pool
, uint code
, uint flags
, u32 val
)
499 { bgp_set_attr(to
, pool
, code
, flags
, (uintptr_t) val
); }
502 bgp_set_attr_ptr(ea_list
**to
, struct linpool
*pool
, uint code
, uint flags
, struct adata
*val
)
503 { bgp_set_attr(to
, pool
, code
, flags
, (uintptr_t) val
); }
506 bgp_set_attr_data(ea_list
**to
, struct linpool
*pool
, uint code
, uint flags
, void *data
, uint len
)
508 struct adata
*a
= lp_alloc_adata(pool
, len
);
509 memcpy(a
->data
, data
, len
);
510 bgp_set_attr(to
, pool
, code
, flags
, (uintptr_t) a
);
514 bgp_unset_attr(ea_list
**to
, struct linpool
*pool
, uint code
)
515 { eattr
*e
= bgp_set_attr(to
, pool
, code
, 0, 0); e
->type
= EAF_TYPE_UNDEF
; }
518 int bgp_encode_attrs(struct bgp_write_state
*s
, ea_list
*attrs
, byte
*buf
, byte
*end
);
519 ea_list
* bgp_decode_attrs(struct bgp_parse_state
*s
, byte
*data
, uint len
);
521 void bgp_init_bucket_table(struct bgp_channel
*c
);
522 void bgp_free_bucket_table(struct bgp_channel
*c
);
523 void bgp_free_bucket(struct bgp_channel
*c
, struct bgp_bucket
*b
);
524 void bgp_defer_bucket(struct bgp_channel
*c
, struct bgp_bucket
*b
);
525 void bgp_withdraw_bucket(struct bgp_channel
*c
, struct bgp_bucket
*b
);
527 void bgp_init_prefix_table(struct bgp_channel
*c
);
528 void bgp_free_prefix_table(struct bgp_channel
*c
);
529 void bgp_free_prefix(struct bgp_channel
*c
, struct bgp_prefix
*bp
);
531 int bgp_rte_better(struct rte
*, struct rte
*);
532 int bgp_rte_mergable(rte
*pri
, rte
*sec
);
533 int bgp_rte_recalculate(rtable
*table
, net
*net
, rte
*new, rte
*old
, rte
*old_best
);
534 struct rte
*bgp_rte_modify_stale(struct rte
*r
, struct linpool
*pool
);
535 void bgp_rt_notify(struct proto
*P
, struct channel
*C
, net
*n
, rte
*new, rte
*old
);
536 int bgp_preexport(struct proto
*, struct rte
**, struct linpool
*);
537 int bgp_get_attr(struct eattr
*e
, byte
*buf
, int buflen
);
538 void bgp_get_route_info(struct rte
*, byte
*buf
);
543 void bgp_dump_state_change(struct bgp_conn
*conn
, uint old
, uint
new);
544 const struct bgp_af_desc
*bgp_get_af_desc(u32 afi
);
545 const struct bgp_af_caps
*bgp_find_af_caps(struct bgp_caps
*caps
, u32 afi
);
546 void bgp_schedule_packet(struct bgp_conn
*conn
, struct bgp_channel
*c
, int type
);
547 void bgp_kick_tx(void *vconn
);
548 void bgp_tx(struct birdsock
*sk
);
549 int bgp_rx(struct birdsock
*sk
, uint size
);
550 const char * bgp_error_dsc(unsigned code
, unsigned subcode
);
551 void bgp_log_error(struct bgp_proto
*p
, u8
class, char *msg
, unsigned code
, unsigned subcode
, byte
*data
, unsigned len
);
553 void bgp_update_next_hop(struct bgp_export_state
*s
, eattr
*a
, ea_list
**to
);
558 #define PKT_OPEN 0x01
559 #define PKT_UPDATE 0x02
560 #define PKT_NOTIFICATION 0x03
561 #define PKT_KEEPALIVE 0x04
562 #define PKT_ROUTE_REFRESH 0x05 /* [RFC2918] */
563 #define PKT_BEGIN_REFRESH 0x1e /* Dummy type for BoRR packet [RFC7313] */
564 #define PKT_SCHEDULE_CLOSE 0x1f /* Used internally to schedule socket close */
568 #define BAF_OPTIONAL 0x80
569 #define BAF_TRANSITIVE 0x40
570 #define BAF_PARTIAL 0x20
571 #define BAF_EXT_LEN 0x10
573 #define BA_ORIGIN 0x01 /* RFC 4271 */ /* WM */
574 #define BA_AS_PATH 0x02 /* WM */
575 #define BA_NEXT_HOP 0x03 /* WM */
576 #define BA_MULTI_EXIT_DISC 0x04 /* ON */
577 #define BA_LOCAL_PREF 0x05 /* WD */
578 #define BA_ATOMIC_AGGR 0x06 /* WD */
579 #define BA_AGGREGATOR 0x07 /* OT */
580 #define BA_COMMUNITY 0x08 /* RFC 1997 */ /* OT */
581 #define BA_ORIGINATOR_ID 0x09 /* RFC 4456 */ /* ON */
582 #define BA_CLUSTER_LIST 0x0a /* RFC 4456 */ /* ON */
583 #define BA_MP_REACH_NLRI 0x0e /* RFC 4760 */
584 #define BA_MP_UNREACH_NLRI 0x0f /* RFC 4760 */
585 #define BA_EXT_COMMUNITY 0x10 /* RFC 4360 */
586 #define BA_AS4_PATH 0x11 /* RFC 6793 */
587 #define BA_AS4_AGGREGATOR 0x12 /* RFC 6793 */
588 #define BA_LARGE_COMMUNITY 0x20 /* RFC 8092 */
590 /* Bird's private internal BGP attributes */
591 #define BA_MPLS_LABEL_STACK 0xfe /* MPLS label stack transfer attribute */
593 /* BGP connection states */
596 #define BS_CONNECT 1 /* Attempting to connect */
597 #define BS_ACTIVE 2 /* Waiting for connection retry & listening */
598 #define BS_OPENSENT 3
599 #define BS_OPENCONFIRM 4
600 #define BS_ESTABLISHED 5
601 #define BS_CLOSE 6 /* Used during transition to BS_IDLE */
607 * Used in PS_START for fine-grained specification of starting state.
609 * When BGP protocol is started by core, it goes to BSS_PREPARE. When BGP
610 * protocol done what is neccessary to start itself (like acquiring the lock),
611 * it goes to BSS_CONNECT.
614 #define BSS_PREPARE 0 /* Used before ordinary BGP started, i. e. waiting for lock */
615 #define BSS_DELAY 1 /* Startup delay due to previous errors */
616 #define BSS_CONNECT 2 /* Ordinary BGP connecting */
619 /* BGP feed states (TX)
621 * RFC 4724 specifies that an initial feed should end with End-of-RIB mark.
623 * RFC 7313 specifies that a route refresh should be demarcated by BoRR and EoRR packets.
625 * These states (stored in c->feed_state) are used to keep track of these
626 * requirements. When such feed is started, BFS_LOADING / BFS_REFRESHING is
627 * set. When it ended, BFS_LOADED / BFS_REFRESHED is set to schedule End-of-RIB
628 * or EoRR packet. When the packet is sent, the state returned to BFS_NONE.
630 * Note that when a non-demarcated feed (e.g. plain RFC 4271 initial load
631 * without End-of-RIB or plain RFC 2918 route refresh without BoRR/EoRR
632 * demarcation) is active, BFS_NONE is set.
634 * BFS_NONE, BFS_LOADING and BFS_REFRESHING are also used as load states (RX)
635 * with correspondent semantics (-, expecting End-of-RIB, expecting EoRR).
638 #define BFS_NONE 0 /* No feed or original non-demarcated feed */
639 #define BFS_LOADING 1 /* Initial feed active, End-of-RIB planned */
640 #define BFS_LOADED 2 /* Loading done, End-of-RIB marker scheduled */
641 #define BFS_REFRESHING 3 /* Route refresh (introduced by BoRR) active */
642 #define BFS_REFRESHED 4 /* Refresh done, EoRR packet scheduled */
648 #define BE_MISC 1 /* Miscellaneous error */
649 #define BE_SOCKET 2 /* Socket error */
650 #define BE_BGP_RX 3 /* BGP protocol error notification received */
651 #define BE_BGP_TX 4 /* BGP protocol error notification sent */
652 #define BE_AUTO_DOWN 5 /* Automatic shutdown */
653 #define BE_MAN_DOWN 6 /* Manual shutdown */
655 /* Misc error codes */
657 #define BEM_NEIGHBOR_LOST 1
658 #define BEM_INVALID_NEXT_HOP 2
659 #define BEM_INVALID_MD5 3 /* MD5 authentication kernel request failed (possibly not supported) */
660 #define BEM_NO_SOCKET 4
661 #define BEM_LINK_DOWN 5
662 #define BEM_BFD_DOWN 6
663 #define BEM_GRACEFUL_RESTART 7
665 /* Automatic shutdown error codes */
667 #define BEA_ROUTE_LIMIT_EXCEEDED 1
669 /* Well-known communities */
671 #define BGP_COMM_NO_EXPORT 0xffffff01 /* Don't export outside local AS / confed. */
672 #define BGP_COMM_NO_ADVERTISE 0xffffff02 /* Don't export at all */
673 #define BGP_COMM_NO_EXPORT_SUBCONFED 0xffffff03 /* NO_EXPORT even in local confederation */
675 #define BGP_COMM_LLGR_STALE 0xffff0006 /* Route is stale according to LLGR */
676 #define BGP_COMM_NO_LLGR 0xffff0007 /* Do not treat the route according to LLGR */
682 #define ORIGIN_INCOMPLETE 2