2 * Zebra EVPN multihoming code
4 * Copyright (C) 2019 Cumulus Networks, Inc.
7 * This file is part of FRR.
9 * FRR is free software; you can redistribute it and/or modify it
10 * under the terms of the GNU General Public License as published by the
11 * Free Software Foundation; either version 2, or (at your option) any
14 * FRR is distributed in the hope that it will be useful, but
15 * WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17 * General Public License for more details.
35 #include "zebra/zebra_router.h"
36 #include "zebra/debug.h"
37 #include "zebra/interface.h"
38 #include "zebra/rib.h"
40 #include "zebra/rt_netlink.h"
41 #include "zebra/if_netlink.h"
42 #include "zebra/zebra_errors.h"
43 #include "zebra/zebra_l2.h"
44 #include "zebra/zebra_ns.h"
45 #include "zebra/zebra_vrf.h"
46 #include "zebra/zebra_vxlan.h"
47 #include "zebra/zebra_evpn.h"
48 #include "zebra/zebra_evpn_mac.h"
49 #include "zebra/zebra_vxlan_private.h"
50 #include "zebra/zebra_router.h"
51 #include "zebra/zebra_evpn_mh.h"
52 #include "zebra/zebra_nhg.h"
54 DEFINE_MTYPE_STATIC(ZEBRA
, ZACC_BD
, "Access Broadcast Domain");
55 DEFINE_MTYPE_STATIC(ZEBRA
, ZES
, "Ethernet Segment");
56 DEFINE_MTYPE_STATIC(ZEBRA
, ZES_EVI
, "ES info per-EVI");
57 DEFINE_MTYPE_STATIC(ZEBRA
, ZMH_INFO
, "MH global info");
58 DEFINE_MTYPE_STATIC(ZEBRA
, ZES_VTEP
, "VTEP attached to the ES");
59 DEFINE_MTYPE_STATIC(ZEBRA
, L2_NH
, "L2 nexthop");
61 static void zebra_evpn_es_get_one_base_evpn(void);
62 static int zebra_evpn_es_evi_send_to_client(struct zebra_evpn_es
*es
,
63 struct zebra_evpn
*zevpn
, bool add
);
64 static void zebra_evpn_local_es_del(struct zebra_evpn_es
**esp
);
65 static int zebra_evpn_local_es_update(struct zebra_if
*zif
, esi_t
*esi
);
66 static bool zebra_evpn_es_br_port_dplane_update(struct zebra_evpn_es
*es
,
68 static void zebra_evpn_mh_uplink_cfg_update(struct zebra_if
*zif
, bool set
);
69 static void zebra_evpn_mh_update_protodown_es(struct zebra_evpn_es
*es
,
71 static void zebra_evpn_mh_clear_protodown_es(struct zebra_evpn_es
*es
);
72 static void zebra_evpn_mh_startup_delay_timer_start(const char *rc
);
74 esi_t zero_esi_buf
, *zero_esi
= &zero_esi_buf
;
76 /*****************************************************************************/
77 /* Ethernet Segment to EVI association -
78 * 1. The ES-EVI entry is maintained as a RB tree per L2-VNI
79 * (struct zebra_evpn.es_evi_rb_tree).
80 * 2. Each local ES-EVI entry is sent to BGP which advertises it as an
81 * EAD-EVI (Type-1 EVPN) route
82 * 3. Local ES-EVI setup is re-evaluated on the following triggers -
83 * a. When an ESI is set or cleared on an access port.
84 * b. When an access port associated with an ESI is deleted.
85 * c. When VLAN member ship changes on an access port.
86 * d. When a VXLAN_IF is set or cleared on an access broadcast domain.
87 * e. When a L2-VNI is added or deleted for a VxLAN_IF.
88 * 4. Currently zebra doesn't remote ES-EVIs. Those are managed and maintained
89 * entirely in BGP which consolidates them into a remote ES. The remote ES
90 * is then sent to zebra which allocates a NHG for it.
93 /* compare ES-IDs for the ES-EVI RB tree maintained per-EVPN */
94 static int zebra_es_evi_rb_cmp(const struct zebra_evpn_es_evi
*es_evi1
,
95 const struct zebra_evpn_es_evi
*es_evi2
)
97 return memcmp(&es_evi1
->es
->esi
, &es_evi2
->es
->esi
, ESI_BYTES
);
99 RB_GENERATE(zebra_es_evi_rb_head
, zebra_evpn_es_evi
,
100 rb_node
, zebra_es_evi_rb_cmp
);
102 /* allocate a new ES-EVI and insert it into the per-L2-VNI and per-ES
105 static struct zebra_evpn_es_evi
*zebra_evpn_es_evi_new(struct zebra_evpn_es
*es
,
106 struct zebra_evpn
*zevpn
)
108 struct zebra_evpn_es_evi
*es_evi
;
110 es_evi
= XCALLOC(MTYPE_ZES_EVI
, sizeof(struct zebra_evpn_es_evi
));
113 es_evi
->zevpn
= zevpn
;
115 /* insert into the EVPN-ESI rb tree */
116 RB_INSERT(zebra_es_evi_rb_head
, &zevpn
->es_evi_rb_tree
, es_evi
);
118 /* add to the ES's VNI list */
119 listnode_init(&es_evi
->es_listnode
, es_evi
);
120 listnode_add(es
->es_evi_list
, &es_evi
->es_listnode
);
122 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
123 zlog_debug("es %s evi %d new",
124 es_evi
->es
->esi_str
, es_evi
->zevpn
->vni
);
129 /* Evaluate if the es_evi is ready to be sent BGP -
130 * 1. If it is ready an add is sent to BGP
131 * 2. If it is not ready a del is sent (if the ES had been previously added
134 static void zebra_evpn_es_evi_re_eval_send_to_client(
135 struct zebra_evpn_es_evi
*es_evi
)
140 old_ready
= !!(es_evi
->flags
& ZEBRA_EVPNES_EVI_READY_FOR_BGP
);
142 /* ES and L2-VNI have to be individually ready for BGP */
143 if ((es_evi
->flags
& ZEBRA_EVPNES_EVI_LOCAL
) &&
144 (es_evi
->es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
) &&
145 zebra_evpn_send_to_client_ok(es_evi
->zevpn
))
146 es_evi
->flags
|= ZEBRA_EVPNES_EVI_READY_FOR_BGP
;
148 es_evi
->flags
&= ~ZEBRA_EVPNES_EVI_READY_FOR_BGP
;
150 new_ready
= !!(es_evi
->flags
& ZEBRA_EVPNES_EVI_READY_FOR_BGP
);
152 if (old_ready
== new_ready
)
156 zebra_evpn_es_evi_send_to_client(es_evi
->es
, es_evi
->zevpn
,
159 zebra_evpn_es_evi_send_to_client(es_evi
->es
, es_evi
->zevpn
,
163 /* remove the ES-EVI from the per-L2-VNI and per-ES tables and free
166 static void zebra_evpn_es_evi_free(struct zebra_evpn_es_evi
*es_evi
)
168 struct zebra_evpn_es
*es
= es_evi
->es
;
169 struct zebra_evpn
*zevpn
= es_evi
->zevpn
;
171 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
172 zlog_debug("es %s evi %d free",
173 es_evi
->es
->esi_str
, es_evi
->zevpn
->vni
);
175 /* remove from the ES's VNI list */
176 list_delete_node(es
->es_evi_list
, &es_evi
->es_listnode
);
178 /* remove from the VNI-ESI rb tree */
179 RB_REMOVE(zebra_es_evi_rb_head
, &zevpn
->es_evi_rb_tree
, es_evi
);
181 /* remove from the VNI-ESI rb tree */
182 XFREE(MTYPE_ZES_EVI
, es_evi
);
185 /* find the ES-EVI in the per-L2-VNI RB tree */
186 struct zebra_evpn_es_evi
*zebra_evpn_es_evi_find(struct zebra_evpn_es
*es
,
187 struct zebra_evpn
*zevpn
)
189 struct zebra_evpn_es_evi es_evi
;
193 return RB_FIND(zebra_es_evi_rb_head
, &zevpn
->es_evi_rb_tree
, &es_evi
);
196 /* Tell BGP about an ES-EVI deletion and then delete it */
197 static void zebra_evpn_local_es_evi_do_del(struct zebra_evpn_es_evi
*es_evi
)
199 if (!(es_evi
->flags
& ZEBRA_EVPNES_EVI_LOCAL
))
202 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
203 zlog_debug("local es %s evi %d del",
204 es_evi
->es
->esi_str
, es_evi
->zevpn
->vni
);
206 if (es_evi
->flags
& ZEBRA_EVPNES_EVI_READY_FOR_BGP
) {
207 /* send a del only if add was sent for it earlier */
208 zebra_evpn_es_evi_send_to_client(es_evi
->es
,
209 es_evi
->zevpn
, false /* add */);
212 /* delete it from the EVPN's local list */
213 list_delete_node(es_evi
->zevpn
->local_es_evi_list
,
214 &es_evi
->l2vni_listnode
);
216 es_evi
->flags
&= ~ZEBRA_EVPNES_EVI_LOCAL
;
217 zebra_evpn_es_evi_free(es_evi
);
219 static void zebra_evpn_local_es_evi_del(struct zebra_evpn_es
*es
,
220 struct zebra_evpn
*zevpn
)
222 struct zebra_evpn_es_evi
*es_evi
;
224 es_evi
= zebra_evpn_es_evi_find(es
, zevpn
);
226 zebra_evpn_local_es_evi_do_del(es_evi
);
229 /* If there are any existing MAC entries for this es/zevpn we need
230 * to install it in the dataplane.
232 * Note: primary purpose of this is to handle es del/re-add windows where
233 * sync MAC entries may be added by bgpd before the es-evi membership is
234 * created in the dataplane and in zebra
236 static void zebra_evpn_es_evi_mac_install(struct zebra_evpn_es_evi
*es_evi
)
238 struct zebra_mac
*mac
;
239 struct listnode
*node
;
240 struct zebra_evpn_es
*es
= es_evi
->es
;
242 if (listcount(es
->mac_list
) && IS_ZEBRA_DEBUG_EVPN_MH_ES
)
243 zlog_debug("dp-mac install on es %s evi %d add", es
->esi_str
,
246 for (ALL_LIST_ELEMENTS_RO(es
->mac_list
, node
, mac
)) {
247 if (mac
->zevpn
!= es_evi
->zevpn
)
250 if (!CHECK_FLAG(mac
->flags
, ZEBRA_MAC_LOCAL
))
253 zebra_evpn_sync_mac_dp_install(mac
, false, false, __func__
);
257 /* Create an ES-EVI if it doesn't already exist and tell BGP */
258 static void zebra_evpn_local_es_evi_add(struct zebra_evpn_es
*es
,
259 struct zebra_evpn
*zevpn
)
261 struct zebra_evpn_es_evi
*es_evi
;
263 es_evi
= zebra_evpn_es_evi_find(es
, zevpn
);
265 es_evi
= zebra_evpn_es_evi_new(es
, zevpn
);
269 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
270 zlog_debug("local es %s evi %d add",
271 es_evi
->es
->esi_str
, es_evi
->zevpn
->vni
);
272 es_evi
->flags
|= ZEBRA_EVPNES_EVI_LOCAL
;
273 /* add to the EVPN's local list */
274 listnode_init(&es_evi
->l2vni_listnode
, es_evi
);
275 listnode_add(zevpn
->local_es_evi_list
, &es_evi
->l2vni_listnode
);
277 zebra_evpn_es_evi_re_eval_send_to_client(es_evi
);
279 zebra_evpn_es_evi_mac_install(es_evi
);
283 static void zebra_evpn_es_evi_show_entry(struct vty
*vty
,
284 struct zebra_evpn_es_evi
*es_evi
,
285 json_object
*json_array
)
291 json_object
*json_types
;
293 /* Separate JSON object for each es-evi entry */
294 json
= json_object_new_object();
296 json_object_string_add(json
, "esi", es_evi
->es
->esi_str
);
297 json_object_int_add(json
, "vni", es_evi
->zevpn
->vni
);
298 if (es_evi
->flags
& ZEBRA_EVPNES_EVI_LOCAL
) {
299 json_types
= json_object_new_array();
300 if (es_evi
->flags
& ZEBRA_EVPNES_EVI_LOCAL
)
301 json_array_string_add(json_types
, "local");
302 json_object_object_add(json
, "type", json_types
);
305 /* Add es-evi entry to json array */
306 json_object_array_add(json_array
, json
);
309 if (es_evi
->flags
& ZEBRA_EVPNES_EVI_LOCAL
)
310 strlcat(type_str
, "L", sizeof(type_str
));
312 vty_out(vty
, "%-8d %-30s %-4s\n",
313 es_evi
->zevpn
->vni
, es_evi
->es
->esi_str
,
319 zebra_evpn_es_evi_show_entry_detail(struct vty
*vty
,
320 struct zebra_evpn_es_evi
*es_evi
,
321 json_object
*json_array
)
327 json_object
*json_flags
;
329 /* Separate JSON object for each es-evi entry */
330 json
= json_object_new_object();
332 json_object_string_add(json
, "esi", es_evi
->es
->esi_str
);
333 json_object_int_add(json
, "vni", es_evi
->zevpn
->vni
);
335 & (ZEBRA_EVPNES_EVI_LOCAL
336 | ZEBRA_EVPNES_EVI_READY_FOR_BGP
)) {
337 json_flags
= json_object_new_array();
338 if (es_evi
->flags
& ZEBRA_EVPNES_EVI_LOCAL
)
339 json_array_string_add(json_flags
, "local");
340 if (es_evi
->flags
& ZEBRA_EVPNES_EVI_READY_FOR_BGP
)
341 json_array_string_add(json_flags
,
343 json_object_object_add(json
, "flags", json_flags
);
346 /* Add es-evi entry to json array */
347 json_object_array_add(json_array
, json
);
350 if (es_evi
->flags
& ZEBRA_EVPNES_EVI_LOCAL
)
351 strlcat(type_str
, "L", sizeof(type_str
));
353 vty_out(vty
, "VNI %d ESI: %s\n",
354 es_evi
->zevpn
->vni
, es_evi
->es
->esi_str
);
355 vty_out(vty
, " Type: %s\n", type_str
);
356 vty_out(vty
, " Ready for BGP: %s\n",
358 ZEBRA_EVPNES_EVI_READY_FOR_BGP
) ?
364 static void zebra_evpn_es_evi_show_one_evpn(struct zebra_evpn
*zevpn
,
366 json_object
*json_array
, int detail
)
368 struct zebra_evpn_es_evi
*es_evi
;
370 RB_FOREACH(es_evi
, zebra_es_evi_rb_head
, &zevpn
->es_evi_rb_tree
) {
372 zebra_evpn_es_evi_show_entry_detail(vty
, es_evi
,
375 zebra_evpn_es_evi_show_entry(vty
, es_evi
, json_array
);
379 struct evpn_mh_show_ctx
{
385 static void zebra_evpn_es_evi_show_one_evpn_hash_cb(struct hash_bucket
*bucket
,
388 struct zebra_evpn
*zevpn
= (struct zebra_evpn
*)bucket
->data
;
389 struct evpn_mh_show_ctx
*wctx
= (struct evpn_mh_show_ctx
*)ctxt
;
391 zebra_evpn_es_evi_show_one_evpn(zevpn
, wctx
->vty
,
392 wctx
->json
, wctx
->detail
);
395 void zebra_evpn_es_evi_show(struct vty
*vty
, bool uj
, int detail
)
397 json_object
*json_array
= NULL
;
398 struct zebra_vrf
*zvrf
;
399 struct evpn_mh_show_ctx wctx
;
401 zvrf
= zebra_vrf_get_evpn();
403 json_array
= json_object_new_array();
405 memset(&wctx
, 0, sizeof(wctx
));
407 wctx
.json
= json_array
;
408 wctx
.detail
= detail
;
410 if (!detail
&& !json_array
) {
411 vty_out(vty
, "Type: L local, R remote\n");
412 vty_out(vty
, "%-8s %-30s %-4s\n", "VNI", "ESI", "Type");
414 /* Display all L2-VNIs */
415 hash_iterate(zvrf
->evpn_table
, zebra_evpn_es_evi_show_one_evpn_hash_cb
,
419 vty_json(vty
, json_array
);
422 void zebra_evpn_es_evi_show_vni(struct vty
*vty
, bool uj
, vni_t vni
, int detail
)
424 json_object
*json_array
= NULL
;
425 struct zebra_evpn
*zevpn
;
427 zevpn
= zebra_evpn_lookup(vni
);
429 json_array
= json_object_new_array();
432 if (!detail
&& !json_array
) {
433 vty_out(vty
, "Type: L local, R remote\n");
434 vty_out(vty
, "%-8s %-30s %-4s\n", "VNI", "ESI", "Type");
436 zebra_evpn_es_evi_show_one_evpn(zevpn
, vty
, json_array
, detail
);
439 vty_out(vty
, "VNI %d doesn't exist\n", vni
);
443 vty_json(vty
, json_array
);
446 /* Initialize the ES tables maintained per-L2_VNI */
447 void zebra_evpn_es_evi_init(struct zebra_evpn
*zevpn
)
449 /* Initialize the ES-EVI RB tree */
450 RB_INIT(zebra_es_evi_rb_head
, &zevpn
->es_evi_rb_tree
);
452 /* Initialize the local and remote ES lists maintained for quick
455 zevpn
->local_es_evi_list
= list_new();
456 listset_app_node_mem(zevpn
->local_es_evi_list
);
459 /* Cleanup the ES info maintained per- EVPN */
460 void zebra_evpn_es_evi_cleanup(struct zebra_evpn
*zevpn
)
462 struct zebra_evpn_es_evi
*es_evi
;
463 struct zebra_evpn_es_evi
*es_evi_next
;
465 RB_FOREACH_SAFE(es_evi
, zebra_es_evi_rb_head
,
466 &zevpn
->es_evi_rb_tree
, es_evi_next
) {
467 zebra_evpn_local_es_evi_do_del(es_evi
);
470 list_delete(&zevpn
->local_es_evi_list
);
471 zebra_evpn_es_clear_base_evpn(zevpn
);
474 /* called when the oper state or bridge membership changes for the
477 void zebra_evpn_update_all_es(struct zebra_evpn
*zevpn
)
479 struct zebra_evpn_es_evi
*es_evi
;
480 struct listnode
*node
;
481 struct interface
*vlan_if
;
482 struct interface
*vxlan_if
;
483 struct zebra_if
*vxlan_zif
;
485 /* the EVPN is now elgible as a base for EVPN-MH */
486 if (zebra_evpn_send_to_client_ok(zevpn
))
487 zebra_evpn_es_set_base_evpn(zevpn
);
489 zebra_evpn_es_clear_base_evpn(zevpn
);
491 for (ALL_LIST_ELEMENTS_RO(zevpn
->local_es_evi_list
, node
, es_evi
))
492 zebra_evpn_es_evi_re_eval_send_to_client(es_evi
);
494 /* reinstall SVI MAC */
495 vxlan_if
= zevpn
->vxlan_if
;
497 vxlan_zif
= vxlan_if
->info
;
498 if (if_is_operative(vxlan_if
)
499 && vxlan_zif
->brslave_info
.br_if
) {
500 vlan_if
= zvni_map_to_svi(
501 vxlan_zif
->l2info
.vxl
.access_vlan
,
502 vxlan_zif
->brslave_info
.br_if
);
504 zebra_evpn_acc_bd_svi_mac_add(vlan_if
);
509 /*****************************************************************************/
510 /* Access broadcast domains (BD)
511 * 1. These broadcast domains can be VLAN aware (in which case
512 * the key is VID) or VLAN unaware (in which case the key is
513 * 2. A VID-BD is created when a VLAN is associated with an access port or
514 * when the VLAN is associated with VXLAN_IF
515 * 3. A BD is translated into ES-EVI entries when a VNI is associated
516 * with the broadcast domain
518 /* Hash key for VLAN based broadcast domains */
519 static unsigned int zebra_evpn_acc_vl_hash_keymake(const void *p
)
521 const struct zebra_evpn_access_bd
*acc_bd
= p
;
523 return jhash_1word(acc_bd
->vid
, 0);
526 /* Compare two VLAN based broadcast domains */
527 static bool zebra_evpn_acc_vl_cmp(const void *p1
, const void *p2
)
529 const struct zebra_evpn_access_bd
*acc_bd1
= p1
;
530 const struct zebra_evpn_access_bd
*acc_bd2
= p2
;
532 if (acc_bd1
== NULL
&& acc_bd2
== NULL
)
535 if (acc_bd1
== NULL
|| acc_bd2
== NULL
)
538 return (acc_bd1
->vid
== acc_bd2
->vid
);
541 /* Lookup VLAN based broadcast domain */
542 static struct zebra_evpn_access_bd
*zebra_evpn_acc_vl_find(vlanid_t vid
)
544 struct zebra_evpn_access_bd
*acc_bd
;
545 struct zebra_evpn_access_bd tmp
;
548 acc_bd
= hash_lookup(zmh_info
->evpn_vlan_table
, &tmp
);
553 /* A new broadcast domain can be created when a VLAN member or VLAN<=>VxLAN_IF
556 static struct zebra_evpn_access_bd
*
557 zebra_evpn_acc_vl_new(vlanid_t vid
, struct interface
*br_if
)
559 struct zebra_evpn_access_bd
*acc_bd
;
560 struct interface
*vlan_if
;
562 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
563 zlog_debug("access vlan %d add", vid
);
565 acc_bd
= XCALLOC(MTYPE_ZACC_BD
, sizeof(struct zebra_evpn_access_bd
));
569 /* Initialize the mbr list */
570 acc_bd
->mbr_zifs
= list_new();
573 (void)hash_get(zmh_info
->evpn_vlan_table
, acc_bd
, hash_alloc_intern
);
575 /* check if an svi exists for the vlan */
577 vlan_if
= zvni_map_to_svi(vid
, br_if
);
579 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
580 zlog_debug("vlan %d SVI %s set", vid
,
582 acc_bd
->vlan_zif
= vlan_if
->info
;
588 /* Free VLAN based broadcast domain -
589 * This just frees appropriate memory, caller should have taken other
592 static void zebra_evpn_acc_vl_free(struct zebra_evpn_access_bd
*acc_bd
)
594 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
595 zlog_debug("access vlan %d del", acc_bd
->vid
);
597 if (acc_bd
->vlan_zif
&& acc_bd
->zevpn
&& acc_bd
->zevpn
->mac_table
)
598 zebra_evpn_mac_svi_del(acc_bd
->vlan_zif
->ifp
, acc_bd
->zevpn
);
600 /* cleanup resources maintained against the ES */
601 list_delete(&acc_bd
->mbr_zifs
);
603 /* remove EVI from various tables */
604 hash_release(zmh_info
->evpn_vlan_table
, acc_bd
);
606 XFREE(MTYPE_ZACC_BD
, acc_bd
);
609 static void zebra_evpn_acc_vl_cleanup_all(struct hash_bucket
*bucket
, void *arg
)
611 struct zebra_evpn_access_bd
*acc_bd
= bucket
->data
;
613 zebra_evpn_acc_vl_free(acc_bd
);
616 /* called when a bd mbr is removed or VxLAN_IF is diassociated from the access
619 static void zebra_evpn_acc_bd_free_on_deref(struct zebra_evpn_access_bd
*acc_bd
)
621 if (!list_isempty(acc_bd
->mbr_zifs
) || acc_bd
->vxlan_zif
)
624 /* if there are no references free the EVI */
625 zebra_evpn_acc_vl_free(acc_bd
);
628 /* called when a SVI is goes up/down */
629 void zebra_evpn_acc_bd_svi_set(struct zebra_if
*vlan_zif
,
630 struct zebra_if
*br_zif
, bool is_up
)
632 struct zebra_evpn_access_bd
*acc_bd
;
633 struct zebra_l2info_bridge
*br
;
635 struct zebra_if
*tmp_br_zif
= br_zif
;
638 if (!vlan_zif
->link
|| !vlan_zif
->link
->info
)
641 tmp_br_zif
= vlan_zif
->link
->info
;
644 br
= &tmp_br_zif
->l2info
.br
;
645 /* ignore vlan unaware bridges */
649 vid
= vlan_zif
->l2info
.vl
.vid
;
650 acc_bd
= zebra_evpn_acc_vl_find(vid
);
655 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
656 zlog_debug("vlan %d SVI %s set", vid
,
657 vlan_zif
->ifp
->name
);
659 acc_bd
->vlan_zif
= vlan_zif
;
661 zebra_evpn_mac_svi_add(acc_bd
->vlan_zif
->ifp
,
663 } else if (acc_bd
->vlan_zif
) {
664 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
665 zlog_debug("vlan %d SVI clear", vid
);
666 acc_bd
->vlan_zif
= NULL
;
667 if (acc_bd
->zevpn
&& acc_bd
->zevpn
->mac_table
)
668 zebra_evpn_mac_svi_del(vlan_zif
->ifp
, acc_bd
->zevpn
);
672 /* On some events macs are force-flushed. This api can be used to reinstate
673 * the svi-mac after such cleanup-events.
675 void zebra_evpn_acc_bd_svi_mac_add(struct interface
*vlan_if
)
677 zebra_evpn_acc_bd_svi_set(vlan_if
->info
, NULL
,
678 if_is_operative(vlan_if
));
681 /* called when a EVPN-L2VNI is set or cleared against a BD */
682 static void zebra_evpn_acc_bd_evpn_set(struct zebra_evpn_access_bd
*acc_bd
,
683 struct zebra_evpn
*zevpn
,
684 struct zebra_evpn
*old_zevpn
)
686 struct zebra_if
*zif
;
687 struct listnode
*node
;
689 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
690 zlog_debug("access vlan %d l2-vni %u set",
691 acc_bd
->vid
, zevpn
? zevpn
->vni
: 0);
693 for (ALL_LIST_ELEMENTS_RO(acc_bd
->mbr_zifs
, node
, zif
)) {
694 if (!zif
->es_info
.es
)
698 zebra_evpn_local_es_evi_add(zif
->es_info
.es
, zevpn
);
700 zebra_evpn_local_es_evi_del(zif
->es_info
.es
, old_zevpn
);
703 if (acc_bd
->vlan_zif
) {
705 zebra_evpn_mac_svi_add(acc_bd
->vlan_zif
->ifp
,
707 else if (old_zevpn
&& old_zevpn
->mac_table
)
708 zebra_evpn_mac_svi_del(acc_bd
->vlan_zif
->ifp
,
713 /* handle VLAN->VxLAN_IF association */
714 void zebra_evpn_vl_vxl_ref(uint16_t vid
, struct zebra_if
*vxlan_zif
)
716 struct zebra_evpn_access_bd
*acc_bd
;
717 struct zebra_if
*old_vxlan_zif
;
718 struct zebra_evpn
*old_zevpn
;
723 acc_bd
= zebra_evpn_acc_vl_find(vid
);
725 acc_bd
= zebra_evpn_acc_vl_new(vid
,
726 vxlan_zif
->brslave_info
.br_if
);
728 old_vxlan_zif
= acc_bd
->vxlan_zif
;
729 acc_bd
->vxlan_zif
= vxlan_zif
;
730 if (vxlan_zif
== old_vxlan_zif
)
733 old_zevpn
= acc_bd
->zevpn
;
734 acc_bd
->zevpn
= zebra_evpn_lookup(vxlan_zif
->l2info
.vxl
.vni
);
735 if (acc_bd
->zevpn
== old_zevpn
)
738 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
739 zlog_debug("access vlan %d vni %u ref",
740 acc_bd
->vid
, vxlan_zif
->l2info
.vxl
.vni
);
743 zebra_evpn_acc_bd_evpn_set(acc_bd
, NULL
, old_zevpn
);
746 zebra_evpn_acc_bd_evpn_set(acc_bd
, acc_bd
->zevpn
, NULL
);
749 /* handle VLAN->VxLAN_IF deref */
750 void zebra_evpn_vl_vxl_deref(uint16_t vid
, struct zebra_if
*vxlan_zif
)
752 struct zebra_evpn_access_bd
*acc_bd
;
757 acc_bd
= zebra_evpn_acc_vl_find(vid
);
761 /* clear vxlan_if only if it matches */
762 if (acc_bd
->vxlan_zif
!= vxlan_zif
)
765 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
766 zlog_debug("access vlan %d vni %u deref",
767 acc_bd
->vid
, vxlan_zif
->l2info
.vxl
.vni
);
770 zebra_evpn_acc_bd_evpn_set(acc_bd
, NULL
, acc_bd
->zevpn
);
772 acc_bd
->zevpn
= NULL
;
773 acc_bd
->vxlan_zif
= NULL
;
775 /* if there are no other references the access_bd can be freed */
776 zebra_evpn_acc_bd_free_on_deref(acc_bd
);
779 /* handle EVPN add/del */
780 void zebra_evpn_vxl_evpn_set(struct zebra_if
*zif
, struct zebra_evpn
*zevpn
,
783 struct zebra_l2info_vxlan
*vxl
;
784 struct zebra_evpn_access_bd
*acc_bd
;
789 /* locate access_bd associated with the vxlan device */
790 vxl
= &zif
->l2info
.vxl
;
791 acc_bd
= zebra_evpn_acc_vl_find(vxl
->access_vlan
);
796 zebra_evpn_es_set_base_evpn(zevpn
);
797 if (acc_bd
->zevpn
!= zevpn
) {
798 acc_bd
->zevpn
= zevpn
;
799 zebra_evpn_acc_bd_evpn_set(acc_bd
, zevpn
, NULL
);
803 struct zebra_evpn
*old_zevpn
= acc_bd
->zevpn
;
804 acc_bd
->zevpn
= NULL
;
805 zebra_evpn_acc_bd_evpn_set(acc_bd
, NULL
, old_zevpn
);
810 /* handle addition of new VLAN members */
811 void zebra_evpn_vl_mbr_ref(uint16_t vid
, struct zebra_if
*zif
)
813 struct zebra_evpn_access_bd
*acc_bd
;
818 acc_bd
= zebra_evpn_acc_vl_find(vid
);
820 acc_bd
= zebra_evpn_acc_vl_new(vid
, zif
->brslave_info
.br_if
);
822 if (listnode_lookup(acc_bd
->mbr_zifs
, zif
))
825 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
826 zlog_debug("access vlan %d mbr %s ref",
827 vid
, zif
->ifp
->name
);
829 listnode_add(acc_bd
->mbr_zifs
, zif
);
830 if (acc_bd
->zevpn
&& zif
->es_info
.es
)
831 zebra_evpn_local_es_evi_add(zif
->es_info
.es
, acc_bd
->zevpn
);
834 /* handle deletion of VLAN members */
835 void zebra_evpn_vl_mbr_deref(uint16_t vid
, struct zebra_if
*zif
)
837 struct zebra_evpn_access_bd
*acc_bd
;
838 struct listnode
*node
;
843 acc_bd
= zebra_evpn_acc_vl_find(vid
);
847 node
= listnode_lookup(acc_bd
->mbr_zifs
, zif
);
851 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
852 zlog_debug("access vlan %d mbr %s deref",
853 vid
, zif
->ifp
->name
);
855 list_delete_node(acc_bd
->mbr_zifs
, node
);
857 if (acc_bd
->zevpn
&& zif
->es_info
.es
)
858 zebra_evpn_local_es_evi_del(zif
->es_info
.es
, acc_bd
->zevpn
);
860 /* if there are no other references the access_bd can be freed */
861 zebra_evpn_acc_bd_free_on_deref(acc_bd
);
864 static void zebra_evpn_acc_vl_adv_svi_mac_cb(struct hash_bucket
*bucket
,
867 struct zebra_evpn_access_bd
*acc_bd
= bucket
->data
;
869 if (acc_bd
->vlan_zif
&& acc_bd
->zevpn
)
870 zebra_evpn_mac_svi_add(acc_bd
->vlan_zif
->ifp
, acc_bd
->zevpn
);
873 /* called when advertise SVI MAC is enabled on the switch */
874 static void zebra_evpn_acc_vl_adv_svi_mac_all(void)
876 hash_iterate(zmh_info
->evpn_vlan_table
,
877 zebra_evpn_acc_vl_adv_svi_mac_cb
, NULL
);
880 static void zebra_evpn_acc_vl_json_fill(struct zebra_evpn_access_bd
*acc_bd
,
881 json_object
*json
, bool detail
)
883 json_object_int_add(json
, "vlan", acc_bd
->vid
);
884 if (acc_bd
->vxlan_zif
)
885 json_object_string_add(json
, "vxlanIf",
886 acc_bd
->vxlan_zif
->ifp
->name
);
888 json_object_int_add(json
, "vni", acc_bd
->zevpn
->vni
);
889 if (acc_bd
->mbr_zifs
)
890 json_object_int_add(json
, "memberIfCount",
891 listcount(acc_bd
->mbr_zifs
));
894 json_object
*json_mbrs
;
895 json_object
*json_mbr
;
896 struct zebra_if
*zif
;
897 struct listnode
*node
;
900 json_mbrs
= json_object_new_array();
901 for (ALL_LIST_ELEMENTS_RO(acc_bd
->mbr_zifs
, node
, zif
)) {
902 json_mbr
= json_object_new_object();
903 json_object_string_add(json_mbr
, "ifName",
905 json_object_array_add(json_mbrs
, json_mbr
);
907 json_object_object_add(json
, "members", json_mbrs
);
911 static void zebra_evpn_acc_vl_show_entry_detail(struct vty
*vty
,
912 struct zebra_evpn_access_bd
*acc_bd
, json_object
*json
)
914 struct zebra_if
*zif
;
915 struct listnode
*node
;
918 zebra_evpn_acc_vl_json_fill(acc_bd
, json
, true);
920 vty_out(vty
, "VLAN: %u\n", acc_bd
->vid
);
921 vty_out(vty
, " VxLAN Interface: %s\n",
923 acc_bd
->vxlan_zif
->ifp
->name
: "-");
924 vty_out(vty
, " SVI: %s\n",
925 acc_bd
->vlan_zif
? acc_bd
->vlan_zif
->ifp
->name
: "-");
926 vty_out(vty
, " L2-VNI: %d\n",
927 acc_bd
->zevpn
? acc_bd
->zevpn
->vni
: 0);
928 vty_out(vty
, " Member Count: %d\n",
929 listcount(acc_bd
->mbr_zifs
));
930 vty_out(vty
, " Members: \n");
931 for (ALL_LIST_ELEMENTS_RO(acc_bd
->mbr_zifs
, node
, zif
))
932 vty_out(vty
, " %s\n", zif
->ifp
->name
);
937 static void zebra_evpn_acc_vl_show_entry(struct vty
*vty
,
938 struct zebra_evpn_access_bd
*acc_bd
, json_object
*json
)
941 zebra_evpn_acc_vl_json_fill(acc_bd
, json
, false);
943 vty_out(vty
, "%-5u %-15s %-8d %-15s %u\n", acc_bd
->vid
,
944 acc_bd
->vlan_zif
? acc_bd
->vlan_zif
->ifp
->name
: "-",
945 acc_bd
->zevpn
? acc_bd
->zevpn
->vni
: 0,
946 acc_bd
->vxlan_zif
? acc_bd
->vxlan_zif
->ifp
->name
: "-",
947 listcount(acc_bd
->mbr_zifs
));
951 static void zebra_evpn_acc_vl_show_hash(struct hash_bucket
*bucket
, void *ctxt
)
953 struct evpn_mh_show_ctx
*wctx
= ctxt
;
954 struct zebra_evpn_access_bd
*acc_bd
= bucket
->data
;
955 json_object
*json
= NULL
;
958 json
= json_object_new_object();
960 zebra_evpn_acc_vl_show_entry_detail(wctx
->vty
, acc_bd
, json
);
962 zebra_evpn_acc_vl_show_entry(wctx
->vty
, acc_bd
, json
);
964 json_object_array_add(wctx
->json
, json
);
967 void zebra_evpn_acc_vl_show(struct vty
*vty
, bool uj
)
969 struct evpn_mh_show_ctx wctx
;
970 json_object
*json_array
= NULL
;
973 json_array
= json_object_new_array();
975 memset(&wctx
, 0, sizeof(wctx
));
977 wctx
.json
= json_array
;
981 vty_out(vty
, "%-5s %-15s %-8s %-15s %s\n", "VLAN", "SVI",
982 "L2-VNI", "VXLAN-IF", "# Members");
984 hash_iterate(zmh_info
->evpn_vlan_table
, zebra_evpn_acc_vl_show_hash
,
988 vty_json(vty
, json_array
);
991 void zebra_evpn_acc_vl_show_detail(struct vty
*vty
, bool uj
)
993 struct evpn_mh_show_ctx wctx
;
994 json_object
*json_array
= NULL
;
997 json_array
= json_object_new_array();
998 memset(&wctx
, 0, sizeof(wctx
));
1000 wctx
.json
= json_array
;
1003 hash_iterate(zmh_info
->evpn_vlan_table
, zebra_evpn_acc_vl_show_hash
,
1007 vty_json(vty
, json_array
);
1010 void zebra_evpn_acc_vl_show_vid(struct vty
*vty
, bool uj
, vlanid_t vid
)
1012 json_object
*json
= NULL
;
1013 struct zebra_evpn_access_bd
*acc_bd
;
1016 json
= json_object_new_object();
1018 acc_bd
= zebra_evpn_acc_vl_find(vid
);
1020 zebra_evpn_acc_vl_show_entry_detail(vty
, acc_bd
, json
);
1023 vty_out(vty
, "VLAN %u not present\n", vid
);
1027 vty_json(vty
, json
);
1030 /* Initialize VLAN member bitmap on an interface. Although VLAN membership
1031 * is independent of EVPN we only process it if its of interest to EVPN-MH
1032 * i.e. on access ports that can be setup as Ethernet Segments. And that is
1033 * intended as an optimization.
1035 void zebra_evpn_if_init(struct zebra_if
*zif
)
1037 if (!zebra_evpn_is_if_es_capable(zif
))
1040 if (!bf_is_inited(zif
->vlan_bitmap
))
1041 bf_init(zif
->vlan_bitmap
, IF_VLAN_BITMAP_MAX
);
1043 /* if an es_id and sysmac are already present against the interface
1046 zebra_evpn_local_es_update(zif
, &zif
->es_info
.esi
);
1049 /* handle deletion of an access port by removing it from all associated
1050 * broadcast domains.
1052 void zebra_evpn_if_cleanup(struct zebra_if
*zif
)
1055 struct zebra_evpn_es
*es
;
1057 if (bf_is_inited(zif
->vlan_bitmap
)) {
1058 bf_for_each_set_bit(zif
->vlan_bitmap
, vid
, IF_VLAN_BITMAP_MAX
)
1060 zebra_evpn_vl_mbr_deref(vid
, zif
);
1063 bf_free(zif
->vlan_bitmap
);
1066 /* Delete associated Ethernet Segment */
1067 es
= zif
->es_info
.es
;
1069 zebra_evpn_local_es_del(&es
);
1072 /*****************************************************************************
1073 * L2 NH/NHG Management
1074 * A L2 NH entry is programmed in the kernel for every ES-VTEP entry. This
1075 * NH is then added to the L2-ECMP-NHG associated with the ES.
1077 static uint32_t zebra_evpn_nhid_alloc(struct zebra_evpn_es
*es
)
1082 bf_assign_index(zmh_info
->nh_id_bitmap
, id
);
1088 nh_id
= id
| EVPN_NHG_ID_TYPE_BIT
;
1089 /* Add to NHG hash */
1091 (void)hash_get(zmh_info
->nhg_table
, es
, hash_alloc_intern
);
1093 nh_id
= id
| EVPN_NH_ID_TYPE_BIT
;
1099 static void zebra_evpn_nhid_free(uint32_t nh_id
, struct zebra_evpn_es
*es
)
1101 uint32_t id
= (nh_id
& EVPN_NH_ID_VAL_MASK
);
1107 hash_release(zmh_info
->nhg_table
, es
);
1111 bf_release_index(zmh_info
->nh_id_bitmap
, id
);
1114 static unsigned int zebra_evpn_nh_ip_hash_keymake(const void *p
)
1116 const struct zebra_evpn_l2_nh
*nh
= p
;
1118 return jhash_1word(nh
->vtep_ip
.s_addr
, 0);
1121 static bool zebra_evpn_nh_ip_cmp(const void *p1
, const void *p2
)
1123 const struct zebra_evpn_l2_nh
*nh1
= p1
;
1124 const struct zebra_evpn_l2_nh
*nh2
= p2
;
1126 if (nh1
== NULL
&& nh2
== NULL
)
1129 if (nh1
== NULL
|| nh2
== NULL
)
1132 return (nh1
->vtep_ip
.s_addr
== nh2
->vtep_ip
.s_addr
);
1135 static unsigned int zebra_evpn_nhg_hash_keymake(const void *p
)
1137 const struct zebra_evpn_es
*es
= p
;
1139 return jhash_1word(es
->nhg_id
, 0);
1142 static bool zebra_evpn_nhg_cmp(const void *p1
, const void *p2
)
1144 const struct zebra_evpn_es
*es1
= p1
;
1145 const struct zebra_evpn_es
*es2
= p2
;
1147 if (es1
== NULL
&& es2
== NULL
)
1150 if (es1
== NULL
|| es2
== NULL
)
1153 return (es1
->nhg_id
== es2
->nhg_id
);
1156 /* Lookup ES using the NHG id associated with it */
1157 static struct zebra_evpn_es
*zebra_evpn_nhg_find(uint32_t nhg_id
)
1159 struct zebra_evpn_es
*es
;
1160 struct zebra_evpn_es tmp
;
1162 tmp
.nhg_id
= nhg_id
;
1163 es
= hash_lookup(zmh_info
->nhg_table
, &tmp
);
1168 /* Returns TRUE if the NHG is associated with a local ES */
1169 bool zebra_evpn_nhg_is_local_es(uint32_t nhg_id
,
1170 struct zebra_evpn_es
**local_es
)
1172 struct zebra_evpn_es
*es
;
1174 es
= zebra_evpn_nhg_find(nhg_id
);
1175 if (es
&& (es
->flags
& ZEBRA_EVPNES_LOCAL
)) {
1184 /* update remote macs associated with the ES */
1185 static void zebra_evpn_nhg_mac_update(struct zebra_evpn_es
*es
)
1187 struct zebra_mac
*mac
;
1188 struct listnode
*node
;
1191 local_via_nw
= zebra_evpn_es_local_mac_via_network_port(es
);
1192 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
|| IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
1193 zlog_debug("mac update on es %s nhg %s", es
->esi_str
,
1194 (es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
)
1198 for (ALL_LIST_ELEMENTS_RO(es
->mac_list
, node
, mac
)) {
1199 if (CHECK_FLAG(mac
->flags
, ZEBRA_MAC_REMOTE
)
1200 || (local_via_nw
&& CHECK_FLAG(mac
->flags
, ZEBRA_MAC_LOCAL
)
1201 && zebra_evpn_mac_is_static(mac
))) {
1202 if (es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
) {
1203 if (IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
1205 "%smac %pEA install via es %s nhg 0x%x",
1206 (mac
->flags
& ZEBRA_MAC_REMOTE
)
1209 &mac
->macaddr
, es
->esi_str
,
1211 zebra_evpn_rem_mac_install(
1212 mac
->zevpn
, mac
, false /*was_static*/);
1214 if (IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
1216 "%smac %pEA un-install es %s",
1217 (mac
->flags
& ZEBRA_MAC_REMOTE
)
1220 &mac
->macaddr
, es
->esi_str
);
1221 zebra_evpn_rem_mac_uninstall(mac
->zevpn
, mac
,
1228 /* The MAC ECMP group is activated on the first VTEP */
1229 static void zebra_evpn_nhg_update(struct zebra_evpn_es
*es
)
1231 uint32_t nh_cnt
= 0;
1232 struct nh_grp nh_ids
[ES_VTEP_MAX_CNT
];
1233 struct zebra_evpn_es_vtep
*es_vtep
;
1234 struct listnode
*node
;
1239 for (ALL_LIST_ELEMENTS_RO(es
->es_vtep_list
, node
, es_vtep
)) {
1243 if (nh_cnt
>= ES_VTEP_MAX_CNT
)
1246 memset(&nh_ids
[nh_cnt
], 0, sizeof(struct nh_grp
));
1247 nh_ids
[nh_cnt
].id
= es_vtep
->nh
->nh_id
;
1252 if (IS_ZEBRA_DEBUG_EVPN_MH_NH
) {
1253 char nh_str
[ES_VTEP_LIST_STR_SZ
];
1258 for (i
= 0; i
< nh_cnt
; ++i
) {
1259 snprintf(nh_buf
, sizeof(nh_buf
), "%u ",
1261 strlcat(nh_str
, nh_buf
, sizeof(nh_str
));
1263 zlog_debug("es %s nhg %u add %s", es
->esi_str
,
1264 es
->nhg_id
, nh_str
);
1267 kernel_upd_mac_nhg(es
->nhg_id
, nh_cnt
, nh_ids
);
1268 if (!(es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
)) {
1269 es
->flags
|= ZEBRA_EVPNES_NHG_ACTIVE
;
1270 /* add backup NHG to the br-port */
1271 if ((es
->flags
& ZEBRA_EVPNES_LOCAL
))
1272 zebra_evpn_es_br_port_dplane_update(es
,
1274 zebra_evpn_nhg_mac_update(es
);
1277 if (es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
) {
1278 if (IS_ZEBRA_DEBUG_EVPN_MH_NH
)
1279 zlog_debug("es %s nhg %u del", es
->esi_str
,
1281 es
->flags
&= ~ZEBRA_EVPNES_NHG_ACTIVE
;
1282 /* remove backup NHG from the br-port */
1283 if ((es
->flags
& ZEBRA_EVPNES_LOCAL
))
1284 zebra_evpn_es_br_port_dplane_update(es
,
1286 zebra_evpn_nhg_mac_update(es
);
1287 kernel_del_mac_nhg(es
->nhg_id
);
1293 static void zebra_evpn_es_l2_nh_show_entry(struct zebra_evpn_l2_nh
*nh
,
1295 json_object
*json_array
)
1298 json_object
*json
= NULL
;
1300 json
= json_object_new_object();
1301 json_object_string_addf(json
, "vtep", "%pI4", &nh
->vtep_ip
);
1302 json_object_int_add(json
, "nhId", nh
->nh_id
);
1303 json_object_int_add(json
, "refCnt", nh
->ref_cnt
);
1305 json_object_array_add(json_array
, json
);
1307 vty_out(vty
, "%-16pI4 %-10u %u\n", &nh
->vtep_ip
, nh
->nh_id
,
1312 static void zebra_evpn_l2_nh_show_cb(struct hash_bucket
*bucket
, void *ctxt
)
1314 struct zebra_evpn_l2_nh
*nh
= (struct zebra_evpn_l2_nh
*)bucket
->data
;
1315 struct evpn_mh_show_ctx
*wctx
= (struct evpn_mh_show_ctx
*)ctxt
;
1317 zebra_evpn_es_l2_nh_show_entry(nh
, wctx
->vty
, wctx
->json
);
1320 void zebra_evpn_l2_nh_show(struct vty
*vty
, bool uj
)
1322 struct evpn_mh_show_ctx wctx
;
1323 json_object
*json_array
= NULL
;
1326 json_array
= json_object_new_array();
1328 vty_out(vty
, "%-16s %-10s %s\n", "VTEP", "NH id", "#ES");
1331 memset(&wctx
, 0, sizeof(wctx
));
1333 wctx
.json
= json_array
;
1335 hash_iterate(zmh_info
->nh_ip_table
, zebra_evpn_l2_nh_show_cb
, &wctx
);
1338 vty_json(vty
, json_array
);
1341 static struct zebra_evpn_l2_nh
*zebra_evpn_l2_nh_find(struct in_addr vtep_ip
)
1343 struct zebra_evpn_l2_nh
*nh
;
1344 struct zebra_evpn_l2_nh tmp
;
1346 tmp
.vtep_ip
.s_addr
= vtep_ip
.s_addr
;
1347 nh
= hash_lookup(zmh_info
->nh_ip_table
, &tmp
);
1352 static struct zebra_evpn_l2_nh
*zebra_evpn_l2_nh_alloc(struct in_addr vtep_ip
)
1354 struct zebra_evpn_l2_nh
*nh
;
1356 nh
= XCALLOC(MTYPE_L2_NH
, sizeof(*nh
));
1357 nh
->vtep_ip
= vtep_ip
;
1358 (void)hash_get(zmh_info
->nh_ip_table
, nh
, hash_alloc_intern
);
1360 nh
->nh_id
= zebra_evpn_nhid_alloc(NULL
);
1362 hash_release(zmh_info
->nh_ip_table
, nh
);
1363 XFREE(MTYPE_L2_NH
, nh
);
1367 /* install the NH in the dataplane */
1368 kernel_upd_mac_nh(nh
->nh_id
, nh
->vtep_ip
);
1373 static void zebra_evpn_l2_nh_free(struct zebra_evpn_l2_nh
*nh
)
1375 /* delete the NH from the dataplane */
1376 kernel_del_mac_nh(nh
->nh_id
);
1378 zebra_evpn_nhid_free(nh
->nh_id
, NULL
);
1379 hash_release(zmh_info
->nh_ip_table
, nh
);
1380 XFREE(MTYPE_L2_NH
, nh
);
1383 static void zebra_evpn_l2_nh_es_vtep_ref(struct zebra_evpn_es_vtep
*es_vtep
)
1388 es_vtep
->nh
= zebra_evpn_l2_nh_find(es_vtep
->vtep_ip
);
1390 es_vtep
->nh
= zebra_evpn_l2_nh_alloc(es_vtep
->vtep_ip
);
1393 zlog_warn("es %s vtep %pI4 nh ref failed", es_vtep
->es
->esi_str
,
1398 ++es_vtep
->nh
->ref_cnt
;
1400 if (IS_ZEBRA_DEBUG_EVPN_MH_NH
)
1401 zlog_debug("es %s vtep %pI4 nh %u ref %u", es_vtep
->es
->esi_str
,
1402 &es_vtep
->vtep_ip
, es_vtep
->nh
->nh_id
,
1403 es_vtep
->nh
->ref_cnt
);
1405 /* add the NH to the parent NHG */
1406 zebra_evpn_nhg_update(es_vtep
->es
);
1409 static void zebra_evpn_l2_nh_es_vtep_deref(struct zebra_evpn_es_vtep
*es_vtep
)
1411 struct zebra_evpn_l2_nh
*nh
= es_vtep
->nh
;
1420 if (IS_ZEBRA_DEBUG_EVPN_MH_NH
)
1421 zlog_debug("es %s vtep %pI4 nh %u deref %u",
1422 es_vtep
->es
->esi_str
, &es_vtep
->vtep_ip
, nh
->nh_id
,
1425 /* remove the NH from the parent NHG */
1426 zebra_evpn_nhg_update(es_vtep
->es
);
1428 /* uninstall the NH */
1430 zebra_evpn_l2_nh_free(nh
);
1433 /*****************************************************************************/
1434 /* Ethernet Segment Management
1435 * 1. Ethernet Segment is a collection of links attached to the same
1436 * server (MHD) or switch (MHN)
1437 * 2. An Ethernet Segment can span multiple PEs and is identified by the
1439 * 3. Zebra manages the local ESI configuration.
1440 * 4. It also maintains the aliasing that maps an ESI (local or remote)
1441 * to one or more PEs/VTEPs.
1442 * 5. remote ESs are added by BGP (on rxing EAD Type-1 routes)
1444 /* A list of remote VTEPs is maintained for each ES. This list includes -
1445 * 1. VTEPs for which we have imported the ESR i.e. ES-peers
1446 * 2. VTEPs that have an "active" ES-EVI VTEP i.e. EAD-per-ES and EAD-per-EVI
1447 * have been imported into one or more EVPNs
1449 static int zebra_evpn_es_vtep_cmp(void *p1
, void *p2
)
1451 const struct zebra_evpn_es_vtep
*es_vtep1
= p1
;
1452 const struct zebra_evpn_es_vtep
*es_vtep2
= p2
;
1454 return es_vtep1
->vtep_ip
.s_addr
- es_vtep2
->vtep_ip
.s_addr
;
1457 static struct zebra_evpn_es_vtep
*zebra_evpn_es_vtep_new(
1458 struct zebra_evpn_es
*es
, struct in_addr vtep_ip
)
1460 struct zebra_evpn_es_vtep
*es_vtep
;
1462 es_vtep
= XCALLOC(MTYPE_ZES_VTEP
, sizeof(*es_vtep
));
1465 es_vtep
->vtep_ip
.s_addr
= vtep_ip
.s_addr
;
1466 listnode_init(&es_vtep
->es_listnode
, es_vtep
);
1467 listnode_add_sort(es
->es_vtep_list
, &es_vtep
->es_listnode
);
1472 static void zebra_evpn_es_vtep_free(struct zebra_evpn_es_vtep
*es_vtep
)
1474 struct zebra_evpn_es
*es
= es_vtep
->es
;
1476 list_delete_node(es
->es_vtep_list
, &es_vtep
->es_listnode
);
1477 /* update the L2-NHG associated with the ES */
1478 zebra_evpn_l2_nh_es_vtep_deref(es_vtep
);
1479 XFREE(MTYPE_ZES_VTEP
, es_vtep
);
1483 /* check if VTEP is already part of the list */
1484 static struct zebra_evpn_es_vtep
*zebra_evpn_es_vtep_find(
1485 struct zebra_evpn_es
*es
, struct in_addr vtep_ip
)
1487 struct listnode
*node
= NULL
;
1488 struct zebra_evpn_es_vtep
*es_vtep
;
1490 for (ALL_LIST_ELEMENTS_RO(es
->es_vtep_list
, node
, es_vtep
)) {
1491 if (es_vtep
->vtep_ip
.s_addr
== vtep_ip
.s_addr
)
1497 /* flush all the dataplane br-port info associated with the ES */
1498 static bool zebra_evpn_es_br_port_dplane_clear(struct zebra_evpn_es
*es
)
1500 struct in_addr sph_filters
[ES_VTEP_MAX_CNT
];
1502 if (!(es
->flags
& ZEBRA_EVPNES_BR_PORT
))
1505 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1506 zlog_debug("es %s br-port dplane clear", es
->esi_str
);
1508 memset(&sph_filters
, 0, sizeof(sph_filters
));
1509 dplane_br_port_update(es
->zif
->ifp
, false /* non_df */, 0, sph_filters
,
1510 0 /* backup_nhg_id */);
1515 zebra_evpn_es_br_port_dplane_update_needed(struct zebra_evpn_es
*es
)
1517 return (es
->flags
& ZEBRA_EVPNES_NON_DF
)
1518 || (es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
)
1519 || listcount(es
->es_vtep_list
);
1522 /* returns TRUE if dplane entry was updated */
1523 static bool zebra_evpn_es_br_port_dplane_update(struct zebra_evpn_es
*es
,
1526 uint32_t backup_nhg_id
;
1527 struct in_addr sph_filters
[ES_VTEP_MAX_CNT
];
1528 struct listnode
*node
= NULL
;
1529 struct zebra_evpn_es_vtep
*es_vtep
;
1530 uint32_t sph_filter_cnt
= 0;
1532 if (!(es
->flags
& ZEBRA_EVPNES_LOCAL
))
1533 return zebra_evpn_es_br_port_dplane_clear(es
);
1535 /* If the ES is not a bridge port there is nothing
1538 if (!(es
->flags
& ZEBRA_EVPNES_BR_PORT
))
1541 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1542 zlog_debug("es %s br-port dplane update by %s", es
->esi_str
,
1544 backup_nhg_id
= (es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
) ? es
->nhg_id
: 0;
1546 memset(&sph_filters
, 0, sizeof(sph_filters
));
1547 if (es
->flags
& ZEBRA_EVPNES_BYPASS
) {
1548 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1550 "es %s SPH filter disabled as it is in bypass",
1553 if (listcount(es
->es_vtep_list
) > ES_VTEP_MAX_CNT
) {
1554 zlog_warn("es %s vtep count %d exceeds filter cnt %d",
1555 es
->esi_str
, listcount(es
->es_vtep_list
),
1558 for (ALL_LIST_ELEMENTS_RO(es
->es_vtep_list
, node
,
1561 & ZEBRA_EVPNES_VTEP_DEL_IN_PROG
)
1563 sph_filters
[sph_filter_cnt
] = es_vtep
->vtep_ip
;
1569 dplane_br_port_update(es
->zif
->ifp
, !!(es
->flags
& ZEBRA_EVPNES_NON_DF
),
1570 sph_filter_cnt
, sph_filters
, backup_nhg_id
);
1575 /* returns TRUE if dplane entry was updated */
1576 static bool zebra_evpn_es_df_change(struct zebra_evpn_es
*es
, bool new_non_df
,
1577 const char *caller
, const char *reason
)
1581 old_non_df
= !!(es
->flags
& ZEBRA_EVPNES_NON_DF
);
1583 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1584 zlog_debug("df-change es %s %s to %s; %s: %s", es
->esi_str
,
1585 old_non_df
? "non-df" : "df",
1586 new_non_df
? "non-df" : "df", caller
, reason
);
1588 if (old_non_df
== new_non_df
)
1592 es
->flags
|= ZEBRA_EVPNES_NON_DF
;
1594 es
->flags
&= ~ZEBRA_EVPNES_NON_DF
;
1596 /* update non-DF block filter in the dataplane */
1597 return zebra_evpn_es_br_port_dplane_update(es
, __func__
);
1601 /* returns TRUE if dplane entry was updated */
1602 static bool zebra_evpn_es_run_df_election(struct zebra_evpn_es
*es
,
1605 struct listnode
*node
= NULL
;
1606 struct zebra_evpn_es_vtep
*es_vtep
;
1607 bool new_non_df
= false;
1609 /* If the ES is not ready (i.e. not completely configured) there
1610 * is no need to setup the BUM block filter
1612 if (!(es
->flags
& ZEBRA_EVPNES_LOCAL
)
1613 || (es
->flags
& ZEBRA_EVPNES_BYPASS
)
1614 || !zmh_info
->es_originator_ip
.s_addr
)
1615 return zebra_evpn_es_df_change(es
, new_non_df
, caller
,
1618 /* if oper-state is down DF filtering must be on. when the link comes
1619 * up again dataplane should block BUM till FRR has had the chance
1620 * to run DF election again
1622 if (!(es
->flags
& ZEBRA_EVPNES_OPER_UP
)) {
1624 return zebra_evpn_es_df_change(es
, new_non_df
, caller
,
1628 /* ES was just created; we need to wait for the peers to rx the
1629 * our Type-4 routes and for the switch to import the peers' Type-4
1632 if (es
->df_delay_timer
) {
1634 return zebra_evpn_es_df_change(es
, new_non_df
, caller
,
1638 for (ALL_LIST_ELEMENTS_RO(es
->es_vtep_list
, node
, es_vtep
)) {
1639 /* Only VTEPs that have advertised the ESR can participate
1642 if (!(es_vtep
->flags
& ZEBRA_EVPNES_VTEP_RXED_ESR
))
1645 /* If the DF alg is not the same we should fall back to
1646 * service-carving. But as service-carving is not supported
1647 * we will stop forwarding BUM
1649 if (es_vtep
->df_alg
!= EVPN_MH_DF_ALG_PREF
) {
1654 /* Peer VTEP wins DF election if -
1655 * the peer-VTEP has higher preference (or)
1656 * the pref is the same but peer's IP address is lower
1658 if ((es_vtep
->df_pref
> es
->df_pref
)
1659 || ((es_vtep
->df_pref
== es
->df_pref
)
1660 && (es_vtep
->vtep_ip
.s_addr
1661 < zmh_info
->es_originator_ip
.s_addr
))) {
1667 return zebra_evpn_es_df_change(es
, new_non_df
, caller
, "elected");
1670 static void zebra_evpn_es_vtep_add(struct zebra_evpn_es
*es
,
1671 struct in_addr vtep_ip
, bool esr_rxed
,
1672 uint8_t df_alg
, uint16_t df_pref
)
1674 struct zebra_evpn_es_vtep
*es_vtep
;
1676 bool dplane_updated
= false;
1678 es_vtep
= zebra_evpn_es_vtep_find(es
, vtep_ip
);
1681 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1682 zlog_debug("es %s vtep %pI4 add",
1683 es
->esi_str
, &vtep_ip
);
1684 es_vtep
= zebra_evpn_es_vtep_new(es
, vtep_ip
);
1685 /* update the L2-NHG associated with the ES */
1686 zebra_evpn_l2_nh_es_vtep_ref(es_vtep
);
1689 old_esr_rxed
= !!(es_vtep
->flags
& ZEBRA_EVPNES_VTEP_RXED_ESR
);
1690 if ((old_esr_rxed
!= esr_rxed
) || (es_vtep
->df_alg
!= df_alg
)
1691 || (es_vtep
->df_pref
!= df_pref
)) {
1692 /* If any of the DF election params changed we need to re-run
1696 es_vtep
->flags
|= ZEBRA_EVPNES_VTEP_RXED_ESR
;
1698 es_vtep
->flags
&= ~ZEBRA_EVPNES_VTEP_RXED_ESR
;
1699 es_vtep
->df_alg
= df_alg
;
1700 es_vtep
->df_pref
= df_pref
;
1701 dplane_updated
= zebra_evpn_es_run_df_election(es
, __func__
);
1703 /* add the vtep to the SPH list */
1704 if (!dplane_updated
&& (es
->flags
& ZEBRA_EVPNES_LOCAL
))
1705 zebra_evpn_es_br_port_dplane_update(es
, __func__
);
1708 static void zebra_evpn_es_vtep_del(struct zebra_evpn_es
*es
,
1709 struct in_addr vtep_ip
)
1711 struct zebra_evpn_es_vtep
*es_vtep
;
1712 bool dplane_updated
= false;
1714 es_vtep
= zebra_evpn_es_vtep_find(es
, vtep_ip
);
1717 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1718 zlog_debug("es %s vtep %pI4 del",
1719 es
->esi_str
, &vtep_ip
);
1720 es_vtep
->flags
|= ZEBRA_EVPNES_VTEP_DEL_IN_PROG
;
1721 if (es_vtep
->flags
& ZEBRA_EVPNES_VTEP_RXED_ESR
) {
1722 es_vtep
->flags
&= ~ZEBRA_EVPNES_VTEP_RXED_ESR
;
1724 zebra_evpn_es_run_df_election(es
, __func__
);
1726 /* remove the vtep from the SPH list */
1727 if (!dplane_updated
&& (es
->flags
& ZEBRA_EVPNES_LOCAL
))
1728 zebra_evpn_es_br_port_dplane_update(es
, __func__
);
1729 zebra_evpn_es_vtep_free(es_vtep
);
1733 /* compare ES-IDs for the global ES RB tree */
1734 static int zebra_es_rb_cmp(const struct zebra_evpn_es
*es1
,
1735 const struct zebra_evpn_es
*es2
)
1737 return memcmp(&es1
->esi
, &es2
->esi
, ESI_BYTES
);
1739 RB_GENERATE(zebra_es_rb_head
, zebra_evpn_es
, rb_node
, zebra_es_rb_cmp
);
1742 struct zebra_evpn_es
*zebra_evpn_es_find(const esi_t
*esi
)
1744 struct zebra_evpn_es tmp
;
1746 memcpy(&tmp
.esi
, esi
, sizeof(esi_t
));
1747 return RB_FIND(zebra_es_rb_head
, &zmh_info
->es_rb_tree
, &tmp
);
1750 /* A new local es is created when a local-es-id and sysmac is configured
1751 * against an interface.
1753 static struct zebra_evpn_es
*zebra_evpn_es_new(const esi_t
*esi
)
1755 struct zebra_evpn_es
*es
;
1757 if (!memcmp(esi
, zero_esi
, sizeof(esi_t
)))
1760 es
= XCALLOC(MTYPE_ZES
, sizeof(struct zebra_evpn_es
));
1763 memcpy(&es
->esi
, esi
, sizeof(esi_t
));
1764 esi_to_str(&es
->esi
, es
->esi_str
, sizeof(es
->esi_str
));
1766 /* Add to rb_tree */
1767 RB_INSERT(zebra_es_rb_head
, &zmh_info
->es_rb_tree
, es
);
1769 /* Initialise the ES-EVI list */
1770 es
->es_evi_list
= list_new();
1771 listset_app_node_mem(es
->es_evi_list
);
1773 /* Initialise the VTEP list */
1774 es
->es_vtep_list
= list_new();
1775 listset_app_node_mem(es
->es_vtep_list
);
1776 es
->es_vtep_list
->cmp
= zebra_evpn_es_vtep_cmp
;
1778 /* mac entries associated with the ES */
1779 es
->mac_list
= list_new();
1780 listset_app_node_mem(es
->mac_list
);
1783 es
->nhg_id
= zebra_evpn_nhid_alloc(es
);
1785 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1786 zlog_debug("es %s nhg %u new", es
->esi_str
, es
->nhg_id
);
1791 /* Free a given ES -
1792 * This just frees appropriate memory, caller should have taken other
1795 static void zebra_evpn_es_free(struct zebra_evpn_es
**esp
)
1797 struct zebra_evpn_es
*es
= *esp
;
1799 /* If the ES has a local or remote reference it cannot be freed.
1800 * Free is also prevented if there are MAC entries referencing
1803 if ((es
->flags
& (ZEBRA_EVPNES_LOCAL
| ZEBRA_EVPNES_REMOTE
)) ||
1804 listcount(es
->mac_list
))
1807 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1808 zlog_debug("es %s free", es
->esi_str
);
1810 /* If the NHG is still installed uninstall it and free the id */
1811 if (es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
) {
1812 es
->flags
&= ~ZEBRA_EVPNES_NHG_ACTIVE
;
1813 kernel_del_mac_nhg(es
->nhg_id
);
1815 zebra_evpn_nhid_free(es
->nhg_id
, es
);
1817 /* cleanup resources maintained against the ES */
1818 list_delete(&es
->es_evi_list
);
1819 list_delete(&es
->es_vtep_list
);
1820 list_delete(&es
->mac_list
);
1822 /* remove from the VNI-ESI rb tree */
1823 RB_REMOVE(zebra_es_rb_head
, &zmh_info
->es_rb_tree
, es
);
1825 XFREE(MTYPE_ZES
, es
);
1830 /* Inform BGP about local ES addition */
1831 static int zebra_evpn_es_send_add_to_client(struct zebra_evpn_es
*es
)
1833 struct zserv
*client
;
1838 client
= zserv_find_client(ZEBRA_ROUTE_BGP
, 0);
1839 /* BGP may not be running. */
1843 s
= stream_new(ZEBRA_MAX_PACKET_SIZ
);
1845 zclient_create_header(s
, ZEBRA_LOCAL_ES_ADD
, zebra_vrf_get_evpn_id());
1846 stream_put(s
, &es
->esi
, sizeof(esi_t
));
1847 stream_put_ipv4(s
, zmh_info
->es_originator_ip
.s_addr
);
1848 oper_up
= !!(es
->flags
& ZEBRA_EVPNES_OPER_UP
);
1849 stream_putc(s
, oper_up
);
1850 stream_putw(s
, es
->df_pref
);
1851 bypass
= !!(es
->flags
& ZEBRA_EVPNES_BYPASS
);
1852 stream_putc(s
, bypass
);
1854 /* Write packet size. */
1855 stream_putw_at(s
, 0, stream_get_endp(s
));
1857 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1859 "send add local es %s %pI4 active %u df_pref %u%s to %s",
1860 es
->esi_str
, &zmh_info
->es_originator_ip
, oper_up
,
1861 es
->df_pref
, bypass
? " bypass" : "",
1862 zebra_route_string(client
->proto
));
1864 client
->local_es_add_cnt
++;
1865 return zserv_send_message(client
, s
);
1868 /* Inform BGP about local ES deletion */
1869 static int zebra_evpn_es_send_del_to_client(struct zebra_evpn_es
*es
)
1871 struct zserv
*client
;
1874 client
= zserv_find_client(ZEBRA_ROUTE_BGP
, 0);
1875 /* BGP may not be running. */
1879 s
= stream_new(ZEBRA_MAX_PACKET_SIZ
);
1882 zclient_create_header(s
, ZEBRA_LOCAL_ES_DEL
, zebra_vrf_get_evpn_id());
1883 stream_put(s
, &es
->esi
, sizeof(esi_t
));
1885 /* Write packet size. */
1886 stream_putw_at(s
, 0, stream_get_endp(s
));
1888 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
1889 zlog_debug("send del local es %s to %s", es
->esi_str
,
1890 zebra_route_string(client
->proto
));
1892 client
->local_es_del_cnt
++;
1893 return zserv_send_message(client
, s
);
1896 static void zebra_evpn_es_re_eval_send_to_client(struct zebra_evpn_es
*es
,
1897 bool es_evi_re_reval
)
1901 struct listnode
*node
;
1902 struct zebra_evpn_es_evi
*es_evi
;
1904 old_ready
= !!(es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
);
1906 if ((es
->flags
& ZEBRA_EVPNES_LOCAL
) &&
1907 zmh_info
->es_originator_ip
.s_addr
)
1908 es
->flags
|= ZEBRA_EVPNES_READY_FOR_BGP
;
1910 es
->flags
&= ~ZEBRA_EVPNES_READY_FOR_BGP
;
1912 new_ready
= !!(es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
);
1913 if (old_ready
== new_ready
)
1917 zebra_evpn_es_send_add_to_client(es
);
1919 zebra_evpn_es_send_del_to_client(es
);
1921 /* re-eval associated EVIs */
1922 if (es_evi_re_reval
) {
1923 for (ALL_LIST_ELEMENTS_RO(es
->es_evi_list
, node
, es_evi
)) {
1924 if (!(es_evi
->flags
& ZEBRA_EVPNES_EVI_LOCAL
))
1926 zebra_evpn_es_evi_re_eval_send_to_client(es_evi
);
1931 void zebra_evpn_es_send_all_to_client(bool add
)
1933 struct listnode
*es_node
;
1934 struct listnode
*evi_node
;
1935 struct zebra_evpn_es
*es
;
1936 struct zebra_evpn_es_evi
*es_evi
;
1941 for (ALL_LIST_ELEMENTS_RO(zmh_info
->local_es_list
, es_node
, es
)) {
1942 if (es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
) {
1944 zebra_evpn_es_send_add_to_client(es
);
1945 for (ALL_LIST_ELEMENTS_RO(es
->es_evi_list
,
1946 evi_node
, es_evi
)) {
1947 if (!(es_evi
->flags
&
1948 ZEBRA_EVPNES_EVI_READY_FOR_BGP
))
1952 zebra_evpn_es_evi_send_to_client(
1956 zebra_evpn_es_evi_send_to_client(
1961 zebra_evpn_es_send_del_to_client(es
);
1966 /* walk the vlan bitmap associated with the zif and create or delete
1967 * es_evis for all vlans associated with a VNI.
1968 * XXX: This API is really expensive. optimize later if possible.
1970 static void zebra_evpn_es_setup_evis(struct zebra_evpn_es
*es
)
1972 struct zebra_if
*zif
= es
->zif
;
1974 struct zebra_evpn_access_bd
*acc_bd
;
1976 if (!bf_is_inited(zif
->vlan_bitmap
))
1979 bf_for_each_set_bit(zif
->vlan_bitmap
, vid
, IF_VLAN_BITMAP_MAX
) {
1980 acc_bd
= zebra_evpn_acc_vl_find(vid
);
1982 zebra_evpn_local_es_evi_add(es
, acc_bd
->zevpn
);
1986 static void zebra_evpn_flush_local_mac(struct zebra_mac
*mac
,
1987 struct interface
*ifp
)
1989 struct zebra_if
*zif
;
1990 struct interface
*br_ifp
;
1994 br_ifp
= zif
->brslave_info
.br_if
;
1998 if (mac
->zevpn
->vxlan_if
) {
1999 zif
= mac
->zevpn
->vxlan_if
->info
;
2000 vid
= zif
->l2info
.vxl
.access_vlan
;
2005 /* delete the local mac from the dataplane */
2006 dplane_local_mac_del(ifp
, br_ifp
, vid
, &mac
->macaddr
);
2007 /* delete the local mac in zebra */
2008 zebra_evpn_del_local_mac(mac
->zevpn
, mac
, true);
2011 static void zebra_evpn_es_flush_local_macs(struct zebra_evpn_es
*es
,
2012 struct interface
*ifp
, bool add
)
2014 struct zebra_mac
*mac
;
2015 struct listnode
*node
;
2016 struct listnode
*nnode
;
2018 for (ALL_LIST_ELEMENTS(es
->mac_list
, node
, nnode
, mac
)) {
2019 if (!CHECK_FLAG(mac
->flags
, ZEBRA_MAC_LOCAL
))
2022 /* If ES is being attached/detached from the access port we
2023 * need to clear local activity and peer activity and start
2025 if (IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
2026 zlog_debug("VNI %u mac %pEA update; local ES %s %s",
2029 es
->esi_str
, add
? "add" : "del");
2030 zebra_evpn_flush_local_mac(mac
, ifp
);
2034 void zebra_evpn_es_local_br_port_update(struct zebra_if
*zif
)
2036 struct zebra_evpn_es
*es
= zif
->es_info
.es
;
2037 bool old_br_port
= !!(es
->flags
& ZEBRA_EVPNES_BR_PORT
);
2040 if (zif
->brslave_info
.bridge_ifindex
!= IFINDEX_INTERNAL
)
2041 es
->flags
|= ZEBRA_EVPNES_BR_PORT
;
2043 es
->flags
&= ~ZEBRA_EVPNES_BR_PORT
;
2045 new_br_port
= !!(es
->flags
& ZEBRA_EVPNES_BR_PORT
);
2046 if (old_br_port
== new_br_port
)
2049 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2050 zlog_debug("es %s br_port change old %u new %u", es
->esi_str
,
2051 old_br_port
, new_br_port
);
2053 /* update the dataplane br_port attrs */
2054 if (new_br_port
&& zebra_evpn_es_br_port_dplane_update_needed(es
))
2055 zebra_evpn_es_br_port_dplane_update(es
, __func__
);
2058 /* On config of first local-ES turn off DAD */
2059 static void zebra_evpn_mh_dup_addr_detect_off(void)
2061 struct zebra_vrf
*zvrf
;
2065 if (zmh_info
->flags
& ZEBRA_EVPN_MH_DUP_ADDR_DETECT_OFF
)
2068 zvrf
= zebra_vrf_get_evpn();
2069 old_detect
= zebra_evpn_do_dup_addr_detect(zvrf
);
2070 zmh_info
->flags
|= ZEBRA_EVPN_MH_DUP_ADDR_DETECT_OFF
;
2071 new_detect
= zebra_evpn_do_dup_addr_detect(zvrf
);
2073 if (old_detect
&& !new_detect
) {
2074 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2076 "evpn-mh config caused DAD addr detect chg from %s to %s",
2077 old_detect
? "on" : "off",
2078 new_detect
? "on" : "off");
2079 zebra_vxlan_clear_dup_detect_vni_all(zvrf
);
2083 /* On config of first local-ES turn off advertisement of STALE/DELAY/PROBE
2086 static void zebra_evpn_mh_advertise_reach_neigh_only(void)
2088 if (zmh_info
->flags
& ZEBRA_EVPN_MH_ADV_REACHABLE_NEIGH_ONLY
)
2091 zmh_info
->flags
|= ZEBRA_EVPN_MH_ADV_REACHABLE_NEIGH_ONLY
;
2092 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2093 zlog_debug("evpn-mh: only REACHABLE neigh advertised");
2095 /* XXX - if STALE/DELAY/PROBE neighs were previously advertised we
2096 * need to withdraw them
2100 /* On config of first local-ES turn on advertisement of local SVI-MAC */
2101 static void zebra_evpn_mh_advertise_svi_mac(void)
2103 if (zmh_info
->flags
& ZEBRA_EVPN_MH_ADV_SVI_MAC
)
2106 zmh_info
->flags
|= ZEBRA_EVPN_MH_ADV_SVI_MAC
;
2107 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2108 zlog_debug("evpn-mh: advertise SVI MAC");
2110 /* walk through all SVIs and see if we need to advertise the MAC */
2111 zebra_evpn_acc_vl_adv_svi_mac_all();
2114 static void zebra_evpn_es_df_delay_exp_cb(struct thread
*t
)
2116 struct zebra_evpn_es
*es
;
2120 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2121 zlog_debug("es %s df-delay expired", es
->esi_str
);
2123 zebra_evpn_es_run_df_election(es
, __func__
);
2126 /* currently there is no global config to turn on MH instead we use
2127 * the addition of the first local Ethernet Segment as the trigger to
2128 * init MH specific processing
2130 static void zebra_evpn_mh_on_first_local_es(void)
2132 zebra_evpn_mh_dup_addr_detect_off();
2133 zebra_evpn_mh_advertise_reach_neigh_only();
2134 zebra_evpn_mh_advertise_svi_mac();
2137 static void zebra_evpn_es_local_info_set(struct zebra_evpn_es
*es
,
2138 struct zebra_if
*zif
)
2140 if (es
->flags
& ZEBRA_EVPNES_LOCAL
)
2143 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2144 zlog_debug("local es %s add; nhg %u if %s", es
->esi_str
,
2145 es
->nhg_id
, zif
->ifp
->name
);
2147 zebra_evpn_mh_on_first_local_es();
2149 es
->flags
|= ZEBRA_EVPNES_LOCAL
;
2150 listnode_init(&es
->local_es_listnode
, es
);
2151 listnode_add(zmh_info
->local_es_list
, &es
->local_es_listnode
);
2153 /* attach es to interface */
2154 zif
->es_info
.es
= es
;
2155 es
->df_pref
= zif
->es_info
.df_pref
? zif
->es_info
.df_pref
2156 : EVPN_MH_DF_PREF_DEFAULT
;
2158 /* attach interface to es */
2160 if (if_is_operative(zif
->ifp
))
2161 es
->flags
|= ZEBRA_EVPNES_OPER_UP
;
2163 if (zif
->brslave_info
.bridge_ifindex
!= IFINDEX_INTERNAL
)
2164 es
->flags
|= ZEBRA_EVPNES_BR_PORT
;
2166 /* inherit the bypass flag from the interface */
2167 if (zif
->flags
& ZIF_FLAG_LACP_BYPASS
)
2168 es
->flags
|= ZEBRA_EVPNES_BYPASS
;
2170 /* setup base-vni if one doesn't already exist; the ES will get sent
2171 * to BGP as a part of that process
2173 if (!zmh_info
->es_base_evpn
)
2174 zebra_evpn_es_get_one_base_evpn();
2176 /* send notification to bgp */
2177 zebra_evpn_es_re_eval_send_to_client(es
,
2178 false /* es_evi_re_reval */);
2180 /* Start the DF delay timer on the local ES */
2181 if (!es
->df_delay_timer
)
2182 thread_add_timer(zrouter
.master
, zebra_evpn_es_df_delay_exp_cb
,
2183 es
, ZEBRA_EVPN_MH_DF_DELAY_TIME
,
2184 &es
->df_delay_timer
);
2186 /* See if the local VTEP can function as DF on the ES */
2187 if (!zebra_evpn_es_run_df_election(es
, __func__
)) {
2188 /* check if the dplane entry needs to be re-programmed as a
2189 * result of some thing other than DF status change
2191 if (zebra_evpn_es_br_port_dplane_update_needed(es
))
2192 zebra_evpn_es_br_port_dplane_update(es
, __func__
);
2196 /* Setup ES-EVIs for all VxLAN stretched VLANs associated with
2199 zebra_evpn_es_setup_evis(es
);
2200 /* if there any local macs referring to the ES as dest we
2201 * need to clear the contents and start over
2203 zebra_evpn_es_flush_local_macs(es
, zif
->ifp
, true);
2205 /* inherit EVPN protodown flags on the access port */
2206 zebra_evpn_mh_update_protodown_es(es
, true /*resync_dplane*/);
2209 static void zebra_evpn_es_local_info_clear(struct zebra_evpn_es
**esp
)
2211 struct zebra_if
*zif
;
2212 struct zebra_evpn_es
*es
= *esp
;
2213 bool dplane_updated
= false;
2215 if (!(es
->flags
& ZEBRA_EVPNES_LOCAL
))
2220 /* if there any local macs referring to the ES as dest we
2221 * need to clear the contents and start over
2223 zebra_evpn_es_flush_local_macs(es
, zif
->ifp
, false);
2225 es
->flags
&= ~(ZEBRA_EVPNES_LOCAL
| ZEBRA_EVPNES_READY_FOR_BGP
);
2227 THREAD_OFF(es
->df_delay_timer
);
2229 /* clear EVPN protodown flags on the access port */
2230 zebra_evpn_mh_clear_protodown_es(es
);
2232 /* remove the DF filter */
2233 dplane_updated
= zebra_evpn_es_run_df_election(es
, __func__
);
2235 /* flush the BUM filters and backup NHG */
2236 if (!dplane_updated
)
2237 zebra_evpn_es_br_port_dplane_clear(es
);
2239 /* clear the es from the parent interface */
2240 zif
->es_info
.es
= NULL
;
2243 /* clear all local flags associated with the ES */
2244 es
->flags
&= ~(ZEBRA_EVPNES_OPER_UP
| ZEBRA_EVPNES_BR_PORT
2245 | ZEBRA_EVPNES_BYPASS
);
2247 /* remove from the ES list */
2248 list_delete_node(zmh_info
->local_es_list
, &es
->local_es_listnode
);
2250 /* free up the ES if there is no remote reference */
2251 zebra_evpn_es_free(esp
);
2254 /* Delete an ethernet segment and inform BGP */
2255 static void zebra_evpn_local_es_del(struct zebra_evpn_es
**esp
)
2257 struct zebra_evpn_es_evi
*es_evi
;
2258 struct listnode
*node
= NULL
;
2259 struct listnode
*nnode
= NULL
;
2260 struct zebra_if
*zif
;
2261 struct zebra_evpn_es
*es
= *esp
;
2263 if (!CHECK_FLAG(es
->flags
, ZEBRA_EVPNES_LOCAL
))
2266 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
) {
2268 zlog_debug("local es %s del; nhg %u if %s", es
->esi_str
,
2269 es
->nhg_id
, zif
? zif
->ifp
->name
: "-");
2272 /* remove all ES-EVIs associated with the ES */
2273 for (ALL_LIST_ELEMENTS(es
->es_evi_list
, node
, nnode
, es_evi
))
2274 zebra_evpn_local_es_evi_do_del(es_evi
);
2276 /* send a del if the ES had been sent to BGP earlier */
2277 if (es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
)
2278 zebra_evpn_es_send_del_to_client(es
);
2280 zebra_evpn_es_local_info_clear(esp
);
2283 /* eval remote info associated with the ES */
2284 static void zebra_evpn_es_remote_info_re_eval(struct zebra_evpn_es
**esp
)
2286 struct zebra_evpn_es
*es
= *esp
;
2288 /* if there are remote VTEPs the ES-EVI is classified as "remote" */
2289 if (listcount(es
->es_vtep_list
)) {
2290 if (!(es
->flags
& ZEBRA_EVPNES_REMOTE
)) {
2291 es
->flags
|= ZEBRA_EVPNES_REMOTE
;
2292 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2293 zlog_debug("remote es %s add; nhg %u",
2294 es
->esi_str
, es
->nhg_id
);
2297 if (es
->flags
& ZEBRA_EVPNES_REMOTE
) {
2298 es
->flags
&= ~ZEBRA_EVPNES_REMOTE
;
2299 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2300 zlog_debug("remote es %s del; nhg %u",
2301 es
->esi_str
, es
->nhg_id
);
2302 zebra_evpn_es_free(esp
);
2307 /* A new local es is created when a local-es-id and sysmac is configured
2308 * against an interface.
2310 static int zebra_evpn_local_es_update(struct zebra_if
*zif
, esi_t
*esi
)
2312 struct zebra_evpn_es
*old_es
= zif
->es_info
.es
;
2313 struct zebra_evpn_es
*es
;
2315 memcpy(&zif
->es_info
.esi
, esi
, sizeof(*esi
));
2316 if (old_es
&& !memcmp(&old_es
->esi
, esi
, sizeof(*esi
)))
2317 /* dup - nothing to be done */
2320 /* release the old_es against the zif */
2322 zebra_evpn_local_es_del(&old_es
);
2324 es
= zebra_evpn_es_find(esi
);
2326 /* if it exists against another interface flag an error */
2327 if (es
->zif
&& es
->zif
!= zif
) {
2328 memset(&zif
->es_info
.esi
, 0, sizeof(*esi
));
2333 es
= zebra_evpn_es_new(esi
);
2337 zebra_evpn_es_local_info_set(es
, zif
);
2342 static int zebra_evpn_type3_esi_update(struct zebra_if
*zif
, uint32_t lid
,
2343 struct ethaddr
*sysmac
)
2345 struct zebra_evpn_es
*old_es
= zif
->es_info
.es
;
2348 int field_bytes
= 0;
2350 /* Complete config of the ES-ID bootstraps the ES */
2351 if (!lid
|| is_zero_mac(sysmac
)) {
2353 memset(&zif
->es_info
.esi
, 0, sizeof(zif
->es_info
.esi
));
2354 /* if in ES is attached to zif delete it */
2356 zebra_evpn_local_es_del(&old_es
);
2360 /* build 10-byte type-3-ESI -
2361 * Type(1-byte), MAC(6-bytes), ES-LID (3-bytes)
2364 esi
.val
[offset
] = ESI_TYPE_MAC
;
2365 offset
+= field_bytes
;
2367 field_bytes
= ETH_ALEN
;
2368 memcpy(&esi
.val
[offset
], (uint8_t *)sysmac
, field_bytes
);
2369 offset
+= field_bytes
;
2371 esi
.val
[offset
++] = (uint8_t)(lid
>> 16);
2372 esi
.val
[offset
++] = (uint8_t)(lid
>> 8);
2373 esi
.val
[offset
++] = (uint8_t)lid
;
2375 return zebra_evpn_local_es_update(zif
, &esi
);
2378 int zebra_evpn_remote_es_del(const esi_t
*esi
, struct in_addr vtep_ip
)
2380 char buf
[ESI_STR_LEN
];
2381 struct zebra_evpn_es
*es
;
2383 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2384 zlog_debug("remote es %s vtep %pI4 del",
2385 esi_to_str(esi
, buf
, sizeof(buf
)), &vtep_ip
);
2387 es
= zebra_evpn_es_find(esi
);
2389 zlog_warn("remote es %s vtep %pI4 del failed, es missing",
2390 esi_to_str(esi
, buf
, sizeof(buf
)), &vtep_ip
);
2394 zebra_evpn_es_vtep_del(es
, vtep_ip
);
2395 zebra_evpn_es_remote_info_re_eval(&es
);
2400 /* force delete a remote ES on the way down */
2401 static void zebra_evpn_remote_es_flush(struct zebra_evpn_es
**esp
)
2403 struct zebra_evpn_es_vtep
*es_vtep
;
2404 struct listnode
*node
;
2405 struct listnode
*nnode
;
2406 struct zebra_evpn_es
*es
= *esp
;
2408 for (ALL_LIST_ELEMENTS(es
->es_vtep_list
, node
, nnode
, es_vtep
)) {
2409 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2410 zlog_debug("es %s vtep %pI4 flush",
2413 zebra_evpn_es_vtep_free(es_vtep
);
2415 zebra_evpn_es_remote_info_re_eval(esp
);
2418 int zebra_evpn_remote_es_add(const esi_t
*esi
, struct in_addr vtep_ip
,
2419 bool esr_rxed
, uint8_t df_alg
, uint16_t df_pref
)
2421 char buf
[ESI_STR_LEN
];
2422 struct zebra_evpn_es
*es
;
2424 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2425 zlog_debug("remote es %s vtep %pI4 add %s df_alg %d df_pref %d",
2426 esi_to_str(esi
, buf
, sizeof(buf
)),
2427 &vtep_ip
, esr_rxed
? "esr" : "", df_alg
,
2430 es
= zebra_evpn_es_find(esi
);
2432 es
= zebra_evpn_es_new(esi
);
2435 "remote es %s vtep %pI4 add failed, es missing",
2436 esi_to_str(esi
, buf
, sizeof(buf
)), &vtep_ip
);
2441 if (df_alg
!= EVPN_MH_DF_ALG_PREF
)
2443 "remote es %s vtep %pI4 add %s with unsupported df_alg %d",
2444 esi_to_str(esi
, buf
, sizeof(buf
)), &vtep_ip
,
2445 esr_rxed
? "esr" : "", df_alg
);
2447 zebra_evpn_es_vtep_add(es
, vtep_ip
, esr_rxed
, df_alg
, df_pref
);
2448 zebra_evpn_es_remote_info_re_eval(&es
);
2453 void zebra_evpn_proc_remote_es(ZAPI_HANDLER_ARGS
)
2456 struct in_addr vtep_ip
;
2459 if (!is_evpn_enabled()) {
2461 "%s: EVPN not enabled yet we received a es_add zapi call",
2466 memset(&esi
, 0, sizeof(esi_t
));
2469 STREAM_GET(&esi
, s
, sizeof(esi_t
));
2470 STREAM_GET(&vtep_ip
.s_addr
, s
, sizeof(vtep_ip
.s_addr
));
2472 if (hdr
->command
== ZEBRA_REMOTE_ES_VTEP_ADD
) {
2473 uint32_t zapi_flags
;
2478 STREAM_GETL(s
, zapi_flags
);
2479 esr_rxed
= (zapi_flags
& ZAPI_ES_VTEP_FLAG_ESR_RXED
) ? true
2481 STREAM_GETC(s
, df_alg
);
2482 STREAM_GETW(s
, df_pref
);
2483 zebra_rib_queue_evpn_rem_es_add(&esi
, &vtep_ip
, esr_rxed
,
2486 zebra_rib_queue_evpn_rem_es_del(&esi
, &vtep_ip
);
2493 void zebra_evpn_es_mac_deref_entry(struct zebra_mac
*mac
)
2495 struct zebra_evpn_es
*es
= mac
->es
;
2501 list_delete_node(es
->mac_list
, &mac
->es_listnode
);
2502 if (!listcount(es
->mac_list
))
2503 zebra_evpn_es_free(&es
);
2506 /* Associate a MAC entry with a local or remote ES. Returns false if there
2509 bool zebra_evpn_es_mac_ref_entry(struct zebra_mac
*mac
,
2510 struct zebra_evpn_es
*es
)
2516 zebra_evpn_es_mac_deref_entry(mac
);
2522 listnode_init(&mac
->es_listnode
, mac
);
2523 listnode_add(es
->mac_list
, &mac
->es_listnode
);
2528 bool zebra_evpn_es_mac_ref(struct zebra_mac
*mac
, const esi_t
*esi
)
2530 struct zebra_evpn_es
*es
;
2532 es
= zebra_evpn_es_find(esi
);
2534 /* If non-zero esi implicitly create a new ES */
2535 if (memcmp(esi
, zero_esi
, sizeof(esi_t
))) {
2536 es
= zebra_evpn_es_new(esi
);
2537 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2538 zlog_debug("auto es %s add on mac ref",
2543 return zebra_evpn_es_mac_ref_entry(mac
, es
);
2546 /* Inform BGP about local ES-EVI add or del */
2547 static int zebra_evpn_es_evi_send_to_client(struct zebra_evpn_es
*es
,
2548 struct zebra_evpn
*zevpn
, bool add
)
2550 struct zserv
*client
;
2553 client
= zserv_find_client(ZEBRA_ROUTE_BGP
, 0);
2554 /* BGP may not be running. */
2558 s
= stream_new(ZEBRA_MAX_PACKET_SIZ
);
2560 zclient_create_header(s
,
2561 add
? ZEBRA_LOCAL_ES_EVI_ADD
: ZEBRA_LOCAL_ES_EVI_DEL
,
2562 zebra_vrf_get_evpn_id());
2563 stream_put(s
, &es
->esi
, sizeof(esi_t
));
2564 stream_putl(s
, zevpn
->vni
);
2566 /* Write packet size. */
2567 stream_putw_at(s
, 0, stream_get_endp(s
));
2569 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2570 zlog_debug("send %s local es %s evi %u to %s",
2571 add
? "add" : "del",
2572 es
->esi_str
, zevpn
->vni
,
2573 zebra_route_string(client
->proto
));
2575 client
->local_es_add_cnt
++;
2576 return zserv_send_message(client
, s
);
2579 /* sysmac part of a local ESI has changed */
2580 static int zebra_evpn_es_sys_mac_update(struct zebra_if
*zif
,
2581 struct ethaddr
*sysmac
)
2585 rv
= zebra_evpn_type3_esi_update(zif
, zif
->es_info
.lid
, sysmac
);
2587 memcpy(&zif
->es_info
.sysmac
, sysmac
, sizeof(struct ethaddr
));
2592 /* local-ID part of ESI has changed */
2593 static int zebra_evpn_es_lid_update(struct zebra_if
*zif
, uint32_t lid
)
2597 rv
= zebra_evpn_type3_esi_update(zif
, lid
, &zif
->es_info
.sysmac
);
2599 zif
->es_info
.lid
= lid
;
2604 /* type-0 esi has changed */
2605 static int zebra_evpn_es_type0_esi_update(struct zebra_if
*zif
, esi_t
*esi
)
2609 rv
= zebra_evpn_local_es_update(zif
, esi
);
2611 /* clear the old es_lid, es_sysmac - type-0 is being set so old
2612 * type-3 params need to be flushed
2614 memset(&zif
->es_info
.sysmac
, 0, sizeof(struct ethaddr
));
2615 zif
->es_info
.lid
= 0;
2620 void zebra_evpn_es_cleanup(void)
2622 struct zebra_evpn_es
*es
;
2623 struct zebra_evpn_es
*es_next
;
2625 RB_FOREACH_SAFE(es
, zebra_es_rb_head
,
2626 &zmh_info
->es_rb_tree
, es_next
) {
2627 zebra_evpn_local_es_del(&es
);
2629 zebra_evpn_remote_es_flush(&es
);
2633 static void zebra_evpn_es_df_pref_update(struct zebra_if
*zif
, uint16_t df_pref
)
2635 struct zebra_evpn_es
*es
;
2638 if (zif
->es_info
.df_pref
== df_pref
)
2641 zif
->es_info
.df_pref
= df_pref
;
2642 es
= zif
->es_info
.es
;
2647 tmp_pref
= zif
->es_info
.df_pref
? zif
->es_info
.df_pref
2648 : EVPN_MH_DF_PREF_DEFAULT
;
2650 if (es
->df_pref
== tmp_pref
)
2653 es
->df_pref
= tmp_pref
;
2654 /* run df election */
2655 zebra_evpn_es_run_df_election(es
, __func__
);
2657 if (es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
)
2658 zebra_evpn_es_send_add_to_client(es
);
2661 /* If bypass mode on an es changed we set all local macs to
2662 * inactive and drop the sync info
2664 static void zebra_evpn_es_bypass_update_macs(struct zebra_evpn_es
*es
,
2665 struct interface
*ifp
, bool bypass
)
2667 struct zebra_mac
*mac
;
2668 struct listnode
*node
;
2669 struct listnode
*nnode
;
2670 struct zebra_if
*zif
;
2672 /* Flush all MACs linked to the ES */
2673 for (ALL_LIST_ELEMENTS(es
->mac_list
, node
, nnode
, mac
)) {
2674 if (!CHECK_FLAG(mac
->flags
, ZEBRA_MAC_LOCAL
))
2677 if (IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
2678 zlog_debug("VNI %u mac %pEA %s update es %s",
2681 bypass
? "bypass" : "non-bypass",
2683 zebra_evpn_flush_local_mac(mac
, ifp
);
2686 /* While in bypass-mode locally learnt MACs are linked
2687 * to the access port instead of the ES
2693 for (ALL_LIST_ELEMENTS(zif
->mac_list
, node
, nnode
, mac
)) {
2694 if (!CHECK_FLAG(mac
->flags
, ZEBRA_MAC_LOCAL
))
2697 if (IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
2698 zlog_debug("VNI %u mac %pEA %s update ifp %s",
2701 bypass
? "bypass" : "non-bypass", ifp
->name
);
2702 zebra_evpn_flush_local_mac(mac
, ifp
);
2706 void zebra_evpn_es_bypass_update(struct zebra_evpn_es
*es
,
2707 struct interface
*ifp
, bool bypass
)
2710 bool dplane_updated
;
2712 old_bypass
= !!(es
->flags
& ZEBRA_EVPNES_BYPASS
);
2713 if (old_bypass
== bypass
)
2717 es
->flags
|= ZEBRA_EVPNES_BYPASS
;
2719 es
->flags
&= ~ZEBRA_EVPNES_BYPASS
;
2721 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2722 zlog_debug("bond %s es %s lacp bypass changed to %s", ifp
->name
,
2723 es
->esi_str
, bypass
? "on" : "off");
2725 /* send bypass update to BGP */
2726 if (es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
)
2727 zebra_evpn_es_send_add_to_client(es
);
2729 zebra_evpn_es_bypass_update_macs(es
, ifp
, bypass
);
2731 /* re-run DF election */
2732 dplane_updated
= zebra_evpn_es_run_df_election(es
, __func__
);
2734 /* disable SPH filter */
2735 if (!dplane_updated
&& (es
->flags
& ZEBRA_EVPNES_LOCAL
)
2736 && (listcount(es
->es_vtep_list
) > ES_VTEP_MAX_CNT
))
2737 zebra_evpn_es_br_port_dplane_update(es
, __func__
);
2740 static void zebra_evpn_es_bypass_cfg_update(struct zebra_if
*zif
, bool bypass
)
2742 bool old_bypass
= !!(zif
->es_info
.flags
& ZIF_CFG_ES_FLAG_BYPASS
);
2744 if (old_bypass
== bypass
)
2748 zif
->es_info
.flags
|= ZIF_CFG_ES_FLAG_BYPASS
;
2750 zif
->es_info
.flags
&= ~ZIF_CFG_ES_FLAG_BYPASS
;
2753 if (zif
->es_info
.es
)
2754 zebra_evpn_es_bypass_update(zif
->es_info
.es
, zif
->ifp
, bypass
);
2758 /* Only certain types of access ports can be setup as an Ethernet Segment */
2759 bool zebra_evpn_is_if_es_capable(struct zebra_if
*zif
)
2761 if (zif
->zif_type
== ZEBRA_IF_BOND
)
2764 /* XXX: allow swpX i.e. a regular ethernet port to be an ES link too */
2768 void zebra_evpn_if_es_print(struct vty
*vty
, json_object
*json
,
2769 struct zebra_if
*zif
)
2771 char buf
[ETHER_ADDR_STRLEN
];
2772 char esi_buf
[ESI_STR_LEN
];
2775 json_object
*json_evpn
;
2777 json_evpn
= json_object_new_object();
2778 json_object_object_add(json
, "evpnMh", json_evpn
);
2780 if (zif
->es_info
.lid
|| !is_zero_mac(&zif
->es_info
.sysmac
)) {
2781 json_object_int_add(json_evpn
, "esId",
2783 json_object_string_add(
2784 json_evpn
, "esSysmac",
2785 prefix_mac2str(&zif
->es_info
.sysmac
, buf
,
2787 } else if (memcmp(&zif
->es_info
.esi
, zero_esi
,
2788 sizeof(*zero_esi
))) {
2789 json_object_string_add(json_evpn
, "esId",
2790 esi_to_str(&zif
->es_info
.esi
,
2795 if (zif
->flags
& ZIF_FLAG_EVPN_MH_UPLINK
)
2796 json_object_string_add(
2797 json_evpn
, "uplink",
2798 CHECK_FLAG(zif
->flags
,
2799 ZIF_FLAG_EVPN_MH_UPLINK_OPER_UP
)
2804 bool vty_print
= false;
2807 strlcat(mh_buf
, " EVPN-MH:", sizeof(mh_buf
));
2808 if (zif
->es_info
.lid
|| !is_zero_mac(&zif
->es_info
.sysmac
)) {
2810 snprintf(mh_buf
+ strlen(mh_buf
),
2811 sizeof(mh_buf
) - strlen(mh_buf
),
2812 " ES id %u ES sysmac %s", zif
->es_info
.lid
,
2813 prefix_mac2str(&zif
->es_info
.sysmac
, buf
,
2815 } else if (memcmp(&zif
->es_info
.esi
, zero_esi
,
2816 sizeof(*zero_esi
))) {
2818 snprintf(mh_buf
+ strnlen(mh_buf
, sizeof(mh_buf
)),
2820 - strnlen(mh_buf
, sizeof(mh_buf
)),
2822 esi_to_str(&zif
->es_info
.esi
, esi_buf
,
2826 if (zif
->flags
& ZIF_FLAG_EVPN_MH_UPLINK
) {
2828 if (zif
->flags
& ZIF_FLAG_EVPN_MH_UPLINK_OPER_UP
)
2829 strlcat(mh_buf
, " uplink (up)", sizeof(mh_buf
));
2831 strlcat(mh_buf
, " uplink (down)",
2836 vty_out(vty
, "%s\n", mh_buf
);
2840 static void zebra_evpn_local_mac_oper_state_change(struct zebra_evpn_es
*es
)
2842 struct zebra_mac
*mac
;
2843 struct listnode
*node
;
2845 /* If fast-failover is supported by the dataplane via the use
2846 * of an ES backup NHG there is nothing to be done in the
2849 if (!(zmh_info
->flags
& ZEBRA_EVPN_MH_REDIRECT_OFF
))
2852 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
|| IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
2853 zlog_debug("mac slow-fail on es %s %s ", es
->esi_str
,
2854 (es
->flags
& ZEBRA_EVPNES_OPER_UP
) ? "up" : "down");
2856 for (ALL_LIST_ELEMENTS_RO(es
->mac_list
, node
, mac
)) {
2857 if (!(mac
->flags
& ZEBRA_MAC_LOCAL
)
2858 || !zebra_evpn_mac_is_static(mac
))
2861 if (es
->flags
& ZEBRA_EVPNES_OPER_UP
) {
2862 if (IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
2864 "VNI %u mac %pEA move to acc %s es %s %s ",
2867 es
->zif
->ifp
->name
, es
->esi_str
,
2868 (es
->flags
& ZEBRA_EVPNES_OPER_UP
)
2871 /* switch the local macs to access port */
2872 if (zebra_evpn_sync_mac_dp_install(
2873 mac
, false /*set_inactive*/,
2874 false /*force_clear_static*/, __func__
)
2876 /* if the local mac install fails get rid of the
2879 zebra_evpn_rem_mac_uninstall(mac
->zevpn
, mac
,
2882 /* switch the local macs to network port. if there
2883 * is no active NHG we don't bother deleting the MAC;
2884 * that is left up to the dataplane to handle.
2886 if (!(es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
))
2888 if (IS_ZEBRA_DEBUG_EVPN_MH_MAC
)
2890 "VNI %u mac %pEA move to nhg %u es %s %s ",
2893 es
->nhg_id
, es
->esi_str
,
2894 (es
->flags
& ZEBRA_EVPNES_OPER_UP
)
2897 zebra_evpn_rem_mac_install(mac
->zevpn
, mac
,
2898 true /*was_static*/);
2903 void zebra_evpn_es_if_oper_state_change(struct zebra_if
*zif
, bool up
)
2905 struct zebra_evpn_es
*es
= zif
->es_info
.es
;
2906 bool old_up
= !!(es
->flags
& ZEBRA_EVPNES_OPER_UP
);
2911 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
2912 zlog_debug("es %s state changed to %s ",
2914 up
? "up" : "down");
2916 es
->flags
|= ZEBRA_EVPNES_OPER_UP
;
2918 es
->flags
&= ~ZEBRA_EVPNES_OPER_UP
;
2920 zebra_evpn_es_run_df_election(es
, __func__
);
2921 zebra_evpn_local_mac_oper_state_change(es
);
2923 /* inform BGP of the ES oper state change */
2924 if (es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
)
2925 zebra_evpn_es_send_add_to_client(es
);
2928 static char *zebra_evpn_es_vtep_str(char *vtep_str
, struct zebra_evpn_es
*es
,
2929 uint8_t vtep_str_size
)
2931 struct zebra_evpn_es_vtep
*zvtep
;
2932 struct listnode
*node
;
2934 char ip_buf
[INET6_ADDRSTRLEN
];
2937 for (ALL_LIST_ELEMENTS_RO(es
->es_vtep_list
, node
, zvtep
)) {
2941 inet_ntop(AF_INET
, &zvtep
->vtep_ip
, ip_buf
,
2945 strlcat(vtep_str
, ",", vtep_str_size
);
2947 inet_ntop(AF_INET
, &zvtep
->vtep_ip
, ip_buf
,
2955 static void zebra_evpn_es_json_vtep_fill(struct zebra_evpn_es
*es
,
2956 json_object
*json_vteps
)
2958 struct zebra_evpn_es_vtep
*es_vtep
;
2959 struct listnode
*node
;
2960 json_object
*json_vtep_entry
;
2961 char alg_buf
[EVPN_DF_ALG_STR_LEN
];
2963 for (ALL_LIST_ELEMENTS_RO(es
->es_vtep_list
, node
, es_vtep
)) {
2964 json_vtep_entry
= json_object_new_object();
2965 json_object_string_addf(json_vtep_entry
, "vtep", "%pI4",
2967 if (es_vtep
->flags
& ZEBRA_EVPNES_VTEP_RXED_ESR
) {
2968 json_object_string_add(
2969 json_vtep_entry
, "dfAlgorithm",
2970 evpn_es_df_alg2str(es_vtep
->df_alg
, alg_buf
,
2972 json_object_int_add(json_vtep_entry
, "dfPreference",
2976 json_object_int_add(json_vtep_entry
, "nexthopId",
2977 es_vtep
->nh
->nh_id
);
2978 json_object_array_add(json_vteps
, json_vtep_entry
);
2982 static void zebra_evpn_es_show_entry(struct vty
*vty
, struct zebra_evpn_es
*es
,
2983 json_object
*json_array
)
2986 char vtep_str
[ES_VTEP_LIST_STR_SZ
];
2989 json_object
*json
= NULL
;
2990 json_object
*json_vteps
;
2991 json_object
*json_flags
;
2993 json
= json_object_new_object();
2994 json_object_string_add(json
, "esi", es
->esi_str
);
2997 & (ZEBRA_EVPNES_LOCAL
| ZEBRA_EVPNES_REMOTE
2998 | ZEBRA_EVPNES_NON_DF
)) {
2999 json_flags
= json_object_new_array();
3000 if (es
->flags
& ZEBRA_EVPNES_LOCAL
)
3001 json_array_string_add(json_flags
, "local");
3002 if (es
->flags
& ZEBRA_EVPNES_REMOTE
)
3003 json_array_string_add(json_flags
, "remote");
3004 if (es
->flags
& ZEBRA_EVPNES_NON_DF
)
3005 json_array_string_add(json_flags
, "nonDF");
3006 if (es
->flags
& ZEBRA_EVPNES_BYPASS
)
3007 json_array_string_add(json_flags
, "bypass");
3008 json_object_object_add(json
, "flags", json_flags
);
3012 json_object_string_add(json
, "accessPort",
3013 es
->zif
->ifp
->name
);
3015 if (listcount(es
->es_vtep_list
)) {
3016 json_vteps
= json_object_new_array();
3017 zebra_evpn_es_json_vtep_fill(es
, json_vteps
);
3018 json_object_object_add(json
, "vteps", json_vteps
);
3020 json_object_array_add(json_array
, json
);
3023 if (es
->flags
& ZEBRA_EVPNES_LOCAL
)
3024 strlcat(type_str
, "L", sizeof(type_str
));
3025 if (es
->flags
& ZEBRA_EVPNES_REMOTE
)
3026 strlcat(type_str
, "R", sizeof(type_str
));
3027 if (es
->flags
& ZEBRA_EVPNES_NON_DF
)
3028 strlcat(type_str
, "N", sizeof(type_str
));
3029 if (es
->flags
& ZEBRA_EVPNES_BYPASS
)
3030 strlcat(type_str
, "B", sizeof(type_str
));
3032 zebra_evpn_es_vtep_str(vtep_str
, es
, sizeof(vtep_str
));
3034 vty_out(vty
, "%-30s %-4s %-21s %s\n",
3035 es
->esi_str
, type_str
,
3036 es
->zif
? es
->zif
->ifp
->name
: "-",
3041 static void zebra_evpn_es_show_entry_detail(struct vty
*vty
,
3042 struct zebra_evpn_es
*es
, json_object
*json
)
3045 char alg_buf
[EVPN_DF_ALG_STR_LEN
];
3046 struct zebra_evpn_es_vtep
*es_vtep
;
3047 struct listnode
*node
;
3048 char thread_buf
[THREAD_TIMER_STRLEN
];
3051 json_object
*json_vteps
;
3052 json_object
*json_flags
;
3054 json_object_string_add(json
, "esi", es
->esi_str
);
3056 json_object_string_add(json
, "accessPort",
3057 es
->zif
->ifp
->name
);
3061 json_flags
= json_object_new_array();
3062 if (es
->flags
& ZEBRA_EVPNES_LOCAL
)
3063 json_array_string_add(json_flags
, "local");
3064 if (es
->flags
& ZEBRA_EVPNES_REMOTE
)
3065 json_array_string_add(json_flags
, "remote");
3066 if (es
->flags
& ZEBRA_EVPNES_NON_DF
)
3067 json_array_string_add(json_flags
, "nonDF");
3068 if (es
->flags
& ZEBRA_EVPNES_BYPASS
)
3069 json_array_string_add(json_flags
, "bypass");
3070 if (es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
)
3071 json_array_string_add(json_flags
,
3073 if (es
->flags
& ZEBRA_EVPNES_BR_PORT
)
3074 json_array_string_add(json_flags
, "bridgePort");
3075 if (es
->flags
& ZEBRA_EVPNES_OPER_UP
)
3076 json_array_string_add(json_flags
, "operUp");
3077 if (es
->flags
& ZEBRA_EVPNES_NHG_ACTIVE
)
3078 json_array_string_add(json_flags
,
3079 "nexthopGroupActive");
3080 json_object_object_add(json
, "flags", json_flags
);
3083 json_object_int_add(json
, "vniCount",
3084 listcount(es
->es_evi_list
));
3085 json_object_int_add(json
, "macCount", listcount(es
->mac_list
));
3086 json_object_int_add(json
, "dfPreference", es
->df_pref
);
3087 if (es
->df_delay_timer
)
3088 json_object_string_add(
3089 json
, "dfDelayTimer",
3090 thread_timer_to_hhmmss(thread_buf
,
3092 es
->df_delay_timer
));
3093 json_object_int_add(json
, "nexthopGroup", es
->nhg_id
);
3094 if (listcount(es
->es_vtep_list
)) {
3095 json_vteps
= json_object_new_array();
3096 zebra_evpn_es_json_vtep_fill(es
, json_vteps
);
3097 json_object_object_add(json
, "vteps", json_vteps
);
3101 if (es
->flags
& ZEBRA_EVPNES_LOCAL
)
3102 strlcat(type_str
, "Local", sizeof(type_str
));
3103 if (es
->flags
& ZEBRA_EVPNES_REMOTE
) {
3104 if (strnlen(type_str
, sizeof(type_str
)))
3105 strlcat(type_str
, ",", sizeof(type_str
));
3106 strlcat(type_str
, "Remote", sizeof(type_str
));
3109 vty_out(vty
, "ESI: %s\n", es
->esi_str
);
3110 vty_out(vty
, " Type: %s\n", type_str
);
3111 vty_out(vty
, " Interface: %s\n",
3113 es
->zif
->ifp
->name
: "-");
3114 if (es
->flags
& ZEBRA_EVPNES_LOCAL
) {
3115 vty_out(vty
, " State: %s\n",
3116 (es
->flags
& ZEBRA_EVPNES_OPER_UP
) ? "up"
3118 vty_out(vty
, " Bridge port: %s\n",
3119 (es
->flags
& ZEBRA_EVPNES_BR_PORT
) ? "yes"
3122 vty_out(vty
, " Ready for BGP: %s\n",
3123 (es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
) ?
3125 if (es
->flags
& ZEBRA_EVPNES_BYPASS
)
3126 vty_out(vty
, " LACP bypass: on\n");
3127 vty_out(vty
, " VNI Count: %d\n", listcount(es
->es_evi_list
));
3128 vty_out(vty
, " MAC Count: %d\n", listcount(es
->mac_list
));
3129 if (es
->flags
& ZEBRA_EVPNES_LOCAL
)
3130 vty_out(vty
, " DF status: %s \n",
3131 (es
->flags
& ZEBRA_EVPNES_NON_DF
) ? "non-df"
3133 if (es
->df_delay_timer
)
3134 vty_out(vty
, " DF delay: %s\n",
3135 thread_timer_to_hhmmss(thread_buf
,
3137 es
->df_delay_timer
));
3138 vty_out(vty
, " DF preference: %u\n", es
->df_pref
);
3139 vty_out(vty
, " Nexthop group: %u\n", es
->nhg_id
);
3140 vty_out(vty
, " VTEPs:\n");
3141 for (ALL_LIST_ELEMENTS_RO(es
->es_vtep_list
, node
, es_vtep
)) {
3142 vty_out(vty
, " %pI4",
3144 if (es_vtep
->flags
& ZEBRA_EVPNES_VTEP_RXED_ESR
)
3145 vty_out(vty
, " df_alg: %s df_pref: %d",
3146 evpn_es_df_alg2str(es_vtep
->df_alg
,
3150 vty_out(vty
, " nh: %u\n",
3151 es_vtep
->nh
? es_vtep
->nh
->nh_id
: 0);
3158 void zebra_evpn_es_show(struct vty
*vty
, bool uj
)
3160 struct zebra_evpn_es
*es
;
3161 json_object
*json_array
= NULL
;
3164 json_array
= json_object_new_array();
3166 vty_out(vty
, "Type: B bypass, L local, R remote, N non-DF\n");
3167 vty_out(vty
, "%-30s %-4s %-21s %s\n",
3168 "ESI", "Type", "ES-IF", "VTEPs");
3171 RB_FOREACH(es
, zebra_es_rb_head
, &zmh_info
->es_rb_tree
)
3172 zebra_evpn_es_show_entry(vty
, es
, json_array
);
3175 vty_json(vty
, json_array
);
3178 void zebra_evpn_es_show_detail(struct vty
*vty
, bool uj
)
3180 struct zebra_evpn_es
*es
;
3181 json_object
*json_array
= NULL
;
3184 json_array
= json_object_new_array();
3186 RB_FOREACH (es
, zebra_es_rb_head
, &zmh_info
->es_rb_tree
) {
3187 json_object
*json
= NULL
;
3190 json
= json_object_new_object();
3191 zebra_evpn_es_show_entry_detail(vty
, es
, json
);
3193 json_object_array_add(json_array
, json
);
3197 vty_json(vty
, json_array
);
3200 void zebra_evpn_es_show_esi(struct vty
*vty
, bool uj
, esi_t
*esi
)
3202 struct zebra_evpn_es
*es
;
3203 char esi_str
[ESI_STR_LEN
];
3204 json_object
*json
= NULL
;
3207 json
= json_object_new_object();
3209 es
= zebra_evpn_es_find(esi
);
3212 zebra_evpn_es_show_entry_detail(vty
, es
, json
);
3215 esi_to_str(esi
, esi_str
, sizeof(esi_str
));
3216 vty_out(vty
, "ESI %s does not exist\n", esi_str
);
3221 vty_json(vty
, json
);
3224 int zebra_evpn_mh_if_write(struct vty
*vty
, struct interface
*ifp
)
3226 struct zebra_if
*zif
= ifp
->info
;
3227 char buf
[ETHER_ADDR_STRLEN
];
3228 bool type_3_esi
= false;
3229 char esi_buf
[ESI_STR_LEN
];
3231 if (zif
->es_info
.lid
) {
3232 vty_out(vty
, " evpn mh es-id %u\n", zif
->es_info
.lid
);
3236 if (!is_zero_mac(&zif
->es_info
.sysmac
)) {
3237 vty_out(vty
, " evpn mh es-sys-mac %s\n",
3238 prefix_mac2str(&zif
->es_info
.sysmac
,
3244 && memcmp(&zif
->es_info
.esi
, zero_esi
, sizeof(*zero_esi
)))
3245 vty_out(vty
, " evpn mh es-id %s\n",
3246 esi_to_str(&zif
->es_info
.esi
, esi_buf
, sizeof(esi_buf
)));
3248 if (zif
->es_info
.df_pref
)
3249 vty_out(vty
, " evpn mh es-df-pref %u\n", zif
->es_info
.df_pref
);
3251 if (zif
->flags
& ZIF_FLAG_EVPN_MH_UPLINK
)
3252 vty_out(vty
, " evpn mh uplink\n");
3257 #ifndef VTYSH_EXTRACT_PL
3258 #include "zebra/zebra_evpn_mh_clippy.c"
3260 /* CLI for setting an ES in bypass mode */
3261 DEFPY_HIDDEN(zebra_evpn_es_bypass
, zebra_evpn_es_bypass_cmd
,
3262 "[no] evpn mh bypass",
3263 NO_STR
"EVPN\n" EVPN_MH_VTY_STR
"set bypass mode\n")
3265 VTY_DECLVAR_CONTEXT(interface
, ifp
);
3266 struct zebra_if
*zif
;
3271 zebra_evpn_es_bypass_cfg_update(zif
, false);
3273 if (!zebra_evpn_is_if_es_capable(zif
)) {
3275 "%% DF bypass cannot be associated with this interface type\n");
3278 zebra_evpn_es_bypass_cfg_update(zif
, true);
3283 /* CLI for configuring DF preference part for an ES */
3284 DEFPY(zebra_evpn_es_pref
, zebra_evpn_es_pref_cmd
,
3285 "[no$no] evpn mh es-df-pref [(1-65535)$df_pref]",
3286 NO_STR
"EVPN\n" EVPN_MH_VTY_STR
3287 "preference value used for DF election\n"
3290 VTY_DECLVAR_CONTEXT(interface
, ifp
);
3291 struct zebra_if
*zif
;
3296 zebra_evpn_es_df_pref_update(zif
, 0);
3298 if (!zebra_evpn_is_if_es_capable(zif
)) {
3300 "%% DF preference cannot be associated with this interface type\n");
3303 zebra_evpn_es_df_pref_update(zif
, df_pref
);
3308 /* CLI for setting up sysmac part of ESI on an access port */
3309 DEFPY(zebra_evpn_es_sys_mac
,
3310 zebra_evpn_es_sys_mac_cmd
,
3311 "[no$no] evpn mh es-sys-mac [X:X:X:X:X:X$mac]",
3315 "Ethernet segment system MAC\n"
3319 VTY_DECLVAR_CONTEXT(interface
, ifp
);
3320 struct zebra_if
*zif
;
3326 static struct ethaddr zero_mac
;
3328 ret
= zebra_evpn_es_sys_mac_update(zif
, &zero_mac
);
3330 vty_out(vty
, "%% Failed to clear ES sysmac\n");
3335 if (!zebra_evpn_is_if_es_capable(zif
)) {
3337 "%% ESI cannot be associated with this interface type\n");
3341 if (!mac
|| is_zero_mac(&mac
->eth_addr
)) {
3342 vty_out(vty
, "%% ES sysmac value is invalid\n");
3346 ret
= zebra_evpn_es_sys_mac_update(zif
, &mac
->eth_addr
);
3349 "%% ESI already exists on a different interface\n");
3356 /* CLI for setting up local-ID part of ESI on an access port */
3357 DEFPY(zebra_evpn_es_id
,
3358 zebra_evpn_es_id_cmd
,
3359 "[no$no] evpn mh es-id [(1-16777215)$es_lid | NAME$esi_str]",
3363 "Ethernet segment identifier\n"
3364 "local discriminator\n"
3365 "10-byte ID - 00:AA:BB:CC:DD:EE:FF:GG:HH:II\n"
3368 VTY_DECLVAR_CONTEXT(interface
, ifp
);
3369 struct zebra_if
*zif
;
3376 if (zif
->es_info
.lid
)
3377 ret
= zebra_evpn_es_lid_update(zif
, 0);
3378 else if (memcmp(&zif
->es_info
.esi
, zero_esi
, sizeof(*zero_esi
)))
3379 ret
= zebra_evpn_es_type0_esi_update(zif
, zero_esi
);
3383 "%% Failed to clear ES local id or ESI name\n");
3387 if (!zebra_evpn_is_if_es_capable(zif
)) {
3389 "%% ESI cannot be associated with this interface type\n");
3394 if (!str_to_esi(esi_str
, &esi
)) {
3395 vty_out(vty
, "%% Malformed ESI name\n");
3398 ret
= zebra_evpn_es_type0_esi_update(zif
, &esi
);
3402 "%% Specify ES local id or ESI name\n");
3405 ret
= zebra_evpn_es_lid_update(zif
, es_lid
);
3410 "%% ESI already exists on a different interface\n");
3417 /* CLI for tagging an interface as an uplink */
3418 DEFPY(zebra_evpn_mh_uplink
, zebra_evpn_mh_uplink_cmd
, "[no] evpn mh uplink",
3419 NO_STR
"EVPN\n" EVPN_MH_VTY_STR
"uplink to the VxLAN core\n")
3421 VTY_DECLVAR_CONTEXT(interface
, ifp
);
3422 struct zebra_if
*zif
;
3425 zebra_evpn_mh_uplink_cfg_update(zif
, no
? false : true);
3430 void zebra_evpn_mh_json(json_object
*json
)
3432 json_object
*json_array
;
3433 char thread_buf
[THREAD_TIMER_STRLEN
];
3435 json_object_int_add(json
, "macHoldtime", zmh_info
->mac_hold_time
);
3436 json_object_int_add(json
, "neighHoldtime", zmh_info
->neigh_hold_time
);
3437 json_object_int_add(json
, "startupDelay", zmh_info
->startup_delay_time
);
3438 json_object_string_add(
3439 json
, "startupDelayTimer",
3440 thread_timer_to_hhmmss(thread_buf
, sizeof(thread_buf
),
3441 zmh_info
->startup_delay_timer
));
3442 json_object_int_add(json
, "uplinkConfigCount",
3443 zmh_info
->uplink_cfg_cnt
);
3444 json_object_int_add(json
, "uplinkActiveCount",
3445 zmh_info
->uplink_oper_up_cnt
);
3447 if (zmh_info
->protodown_rc
) {
3448 json_array
= json_object_new_array();
3449 if (CHECK_FLAG(zmh_info
->protodown_rc
,
3450 ZEBRA_PROTODOWN_EVPN_STARTUP_DELAY
))
3451 json_object_array_add(
3453 json_object_new_string("startupDelay"));
3454 if (CHECK_FLAG(zmh_info
->protodown_rc
,
3455 ZEBRA_PROTODOWN_EVPN_UPLINK_DOWN
))
3456 json_object_array_add(
3458 json_object_new_string("uplinkDown"));
3459 json_object_object_add(json
, "protodownReasons", json_array
);
3463 void zebra_evpn_mh_print(struct vty
*vty
)
3465 char pd_buf
[ZEBRA_PROTODOWN_RC_STR_LEN
];
3466 char thread_buf
[THREAD_TIMER_STRLEN
];
3468 vty_out(vty
, "EVPN MH:\n");
3469 vty_out(vty
, " mac-holdtime: %ds, neigh-holdtime: %ds\n",
3470 zmh_info
->mac_hold_time
, zmh_info
->neigh_hold_time
);
3471 vty_out(vty
, " startup-delay: %ds, start-delay-timer: %s\n",
3472 zmh_info
->startup_delay_time
,
3473 thread_timer_to_hhmmss(thread_buf
, sizeof(thread_buf
),
3474 zmh_info
->startup_delay_timer
));
3475 vty_out(vty
, " uplink-cfg-cnt: %u, uplink-active-cnt: %u\n",
3476 zmh_info
->uplink_cfg_cnt
, zmh_info
->uplink_oper_up_cnt
);
3477 if (zmh_info
->protodown_rc
)
3478 vty_out(vty
, " protodown reasons: %s\n",
3479 zebra_protodown_rc_str(zmh_info
->protodown_rc
, pd_buf
,
3483 /*****************************************************************************/
3484 /* A base L2-VNI is maintained to derive parameters such as ES originator-IP.
3485 * XXX: once single vxlan device model becomes available this will not be
3488 /* called when a new vni is added or becomes oper up or becomes a bridge port */
3489 void zebra_evpn_es_set_base_evpn(struct zebra_evpn
*zevpn
)
3491 struct listnode
*node
;
3492 struct zebra_evpn_es
*es
;
3494 if (zmh_info
->es_base_evpn
) {
3495 if (zmh_info
->es_base_evpn
!= zevpn
) {
3496 /* unrelated EVPN; ignore it */
3499 /* check if the local vtep-ip has changed */
3501 /* check if the EVPN can be used as base EVPN */
3502 if (!zebra_evpn_send_to_client_ok(zevpn
))
3505 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3506 zlog_debug("es base vni set to %d",
3508 zmh_info
->es_base_evpn
= zevpn
;
3511 /* update local VTEP-IP */
3512 if (zmh_info
->es_originator_ip
.s_addr
==
3513 zmh_info
->es_base_evpn
->local_vtep_ip
.s_addr
)
3516 zmh_info
->es_originator_ip
.s_addr
=
3517 zmh_info
->es_base_evpn
->local_vtep_ip
.s_addr
;
3519 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3520 zlog_debug("es originator ip set to %pI4",
3521 &zmh_info
->es_base_evpn
->local_vtep_ip
);
3523 /* if originator ip changes we need to update bgp */
3524 for (ALL_LIST_ELEMENTS_RO(zmh_info
->local_es_list
, node
, es
)) {
3525 zebra_evpn_es_run_df_election(es
, __func__
);
3527 if (es
->flags
& ZEBRA_EVPNES_READY_FOR_BGP
)
3528 zebra_evpn_es_send_add_to_client(es
);
3530 zebra_evpn_es_re_eval_send_to_client(es
,
3531 true /* es_evi_re_reval */);
3535 /* called when a vni is removed or becomes oper down or is removed from a
3538 void zebra_evpn_es_clear_base_evpn(struct zebra_evpn
*zevpn
)
3540 struct listnode
*node
;
3541 struct zebra_evpn_es
*es
;
3543 if (zmh_info
->es_base_evpn
!= zevpn
)
3546 zmh_info
->es_base_evpn
= NULL
;
3547 /* lost current base EVPN; try to find a new one */
3548 zebra_evpn_es_get_one_base_evpn();
3550 /* couldn't locate an eligible base evpn */
3551 if (!zmh_info
->es_base_evpn
&& zmh_info
->es_originator_ip
.s_addr
) {
3552 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3553 zlog_debug("es originator ip cleared");
3555 zmh_info
->es_originator_ip
.s_addr
= 0;
3556 /* lost originator ip */
3557 for (ALL_LIST_ELEMENTS_RO(zmh_info
->local_es_list
, node
, es
)) {
3558 zebra_evpn_es_re_eval_send_to_client(es
,
3559 true /* es_evi_re_reval */);
3564 /* Locate an "eligible" L2-VNI to follow */
3565 static int zebra_evpn_es_get_one_base_evpn_cb(struct hash_bucket
*b
, void *data
)
3567 struct zebra_evpn
*zevpn
= b
->data
;
3569 zebra_evpn_es_set_base_evpn(zevpn
);
3571 if (zmh_info
->es_base_evpn
)
3572 return HASHWALK_ABORT
;
3574 return HASHWALK_CONTINUE
;
3577 /* locate a base_evpn to follow for the purposes of common params like
3580 static void zebra_evpn_es_get_one_base_evpn(void)
3582 struct zebra_vrf
*zvrf
;
3584 zvrf
= zebra_vrf_get_evpn();
3585 hash_walk(zvrf
->evpn_table
, zebra_evpn_es_get_one_base_evpn_cb
, NULL
);
3588 /*****************************************************************************
3589 * local ethernet segments can be error-disabled if the switch is not
3590 * ready to start transmitting traffic via the VxLAN overlay
3592 bool zebra_evpn_is_es_bond(struct interface
*ifp
)
3594 struct zebra_if
*zif
= ifp
->info
;
3596 return !!(struct zebra_if
*)zif
->es_info
.es
;
3599 bool zebra_evpn_is_es_bond_member(struct interface
*ifp
)
3601 struct zebra_if
*zif
= ifp
->info
;
3603 return IS_ZEBRA_IF_BOND_SLAVE(zif
->ifp
) && zif
->bondslave_info
.bond_if
3604 && ((struct zebra_if
*)zif
->bondslave_info
.bond_if
->info
)
3608 void zebra_evpn_mh_update_protodown_bond_mbr(struct zebra_if
*zif
, bool clear
,
3612 uint32_t old_protodown_rc
= 0;
3613 uint32_t new_protodown_rc
= 0;
3614 uint32_t protodown_rc
= 0;
3617 struct zebra_if
*bond_zif
;
3619 bond_zif
= zif
->bondslave_info
.bond_if
->info
;
3620 protodown_rc
= bond_zif
->protodown_rc
;
3623 old_protodown_rc
= zif
->protodown_rc
;
3624 new_protodown_rc
= (old_protodown_rc
& ~ZEBRA_PROTODOWN_EVPN_ALL
);
3625 new_protodown_rc
|= (protodown_rc
& ZEBRA_PROTODOWN_EVPN_ALL
);
3626 new_protodown
= !!new_protodown_rc
;
3628 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
&& (new_protodown_rc
!= old_protodown_rc
))
3630 "%s bond mbr %s protodown_rc changed; old 0x%x new 0x%x",
3631 caller
, zif
->ifp
->name
, old_protodown_rc
,
3634 if (zebra_if_update_protodown_rc(zif
->ifp
, new_protodown
,
3635 new_protodown_rc
) == 0) {
3636 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3637 zlog_debug("%s protodown %s", zif
->ifp
->name
,
3638 new_protodown
? "on" : "off");
3642 /* The bond members inherit the protodown reason code from the bond */
3643 static void zebra_evpn_mh_update_protodown_bond(struct zebra_if
*bond_zif
)
3645 struct zebra_if
*zif
;
3646 struct listnode
*node
;
3648 if (!bond_zif
->bond_info
.mbr_zifs
)
3651 for (ALL_LIST_ELEMENTS_RO(bond_zif
->bond_info
.mbr_zifs
, node
, zif
)) {
3652 zebra_evpn_mh_update_protodown_bond_mbr(zif
, false /*clear*/,
3657 /* The global EVPN MH protodown rc is applied to all local ESs */
3658 static void zebra_evpn_mh_update_protodown_es(struct zebra_evpn_es
*es
,
3661 struct zebra_if
*zif
;
3662 uint32_t old_protodown_rc
;
3665 /* if the reason code is the same bail unless it is a new
3666 * ES bond in that case we would need to ensure that the
3667 * dplane is really in sync with zebra
3670 && (zif
->protodown_rc
& ZEBRA_PROTODOWN_EVPN_ALL
)
3671 == (zmh_info
->protodown_rc
& ZEBRA_PROTODOWN_EVPN_ALL
))
3674 old_protodown_rc
= zif
->protodown_rc
;
3675 zif
->protodown_rc
&= ~ZEBRA_PROTODOWN_EVPN_ALL
;
3676 zif
->protodown_rc
|=
3677 (zmh_info
->protodown_rc
& ZEBRA_PROTODOWN_EVPN_ALL
);
3679 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
3680 && (old_protodown_rc
!= zif
->protodown_rc
))
3682 "es %s ifp %s protodown_rc changed; old 0x%x new 0x%x",
3683 es
->esi_str
, zif
->ifp
->name
, old_protodown_rc
,
3686 /* update dataplane with the new protodown setting */
3687 zebra_evpn_mh_update_protodown_bond(zif
);
3690 static void zebra_evpn_mh_clear_protodown_es(struct zebra_evpn_es
*es
)
3692 struct zebra_if
*zif
;
3693 uint32_t old_protodown_rc
;
3696 if (!(zif
->protodown_rc
& ZEBRA_PROTODOWN_EVPN_ALL
))
3699 old_protodown_rc
= zif
->protodown_rc
;
3700 zif
->protodown_rc
&= ~ZEBRA_PROTODOWN_EVPN_ALL
;
3702 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3704 "clear: es %s ifp %s protodown_rc cleared; old 0x%x new 0x%x",
3705 es
->esi_str
, zif
->ifp
->name
, old_protodown_rc
,
3708 /* update dataplane with the new protodown setting */
3709 zebra_evpn_mh_update_protodown_bond(zif
);
3712 static void zebra_evpn_mh_update_protodown_es_all(void)
3714 struct listnode
*node
;
3715 struct zebra_evpn_es
*es
;
3717 for (ALL_LIST_ELEMENTS_RO(zmh_info
->local_es_list
, node
, es
))
3718 zebra_evpn_mh_update_protodown_es(es
, false /*resync_dplane*/);
3721 static void zebra_evpn_mh_update_protodown(uint32_t protodown_rc
, bool set
)
3723 uint32_t old_protodown_rc
= zmh_info
->protodown_rc
;
3726 if ((protodown_rc
& zmh_info
->protodown_rc
) == protodown_rc
)
3729 zmh_info
->protodown_rc
|= protodown_rc
;
3731 if (!(protodown_rc
& zmh_info
->protodown_rc
))
3733 zmh_info
->protodown_rc
&= ~protodown_rc
;
3736 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3737 zlog_debug("mh protodown_rc changed; old 0x%x new 0x%x",
3738 old_protodown_rc
, zmh_info
->protodown_rc
);
3739 zebra_evpn_mh_update_protodown_es_all();
3742 static inline bool zebra_evpn_mh_is_all_uplinks_down(void)
3744 return zmh_info
->uplink_cfg_cnt
&& !zmh_info
->uplink_oper_up_cnt
;
3747 static void zebra_evpn_mh_uplink_oper_flags_update(struct zebra_if
*zif
,
3750 if (set
&& if_is_operative(zif
->ifp
)) {
3751 if (!(zif
->flags
& ZIF_FLAG_EVPN_MH_UPLINK_OPER_UP
)) {
3752 zif
->flags
|= ZIF_FLAG_EVPN_MH_UPLINK_OPER_UP
;
3753 ++zmh_info
->uplink_oper_up_cnt
;
3756 if (zif
->flags
& ZIF_FLAG_EVPN_MH_UPLINK_OPER_UP
) {
3757 zif
->flags
&= ~ZIF_FLAG_EVPN_MH_UPLINK_OPER_UP
;
3758 if (zmh_info
->uplink_oper_up_cnt
)
3759 --zmh_info
->uplink_oper_up_cnt
;
3764 static void zebra_evpn_mh_uplink_cfg_update(struct zebra_if
*zif
, bool set
)
3766 bool old_protodown
= zebra_evpn_mh_is_all_uplinks_down();
3770 if (zif
->flags
& ZIF_FLAG_EVPN_MH_UPLINK
)
3773 zif
->flags
|= ZIF_FLAG_EVPN_MH_UPLINK
;
3774 ++zmh_info
->uplink_cfg_cnt
;
3776 if (!(zif
->flags
& ZIF_FLAG_EVPN_MH_UPLINK
))
3779 zif
->flags
&= ~ZIF_FLAG_EVPN_MH_UPLINK
;
3780 if (zmh_info
->uplink_cfg_cnt
)
3781 --zmh_info
->uplink_cfg_cnt
;
3784 zebra_evpn_mh_uplink_oper_flags_update(zif
, set
);
3785 new_protodown
= zebra_evpn_mh_is_all_uplinks_down();
3786 if (old_protodown
== new_protodown
)
3789 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3791 "mh-uplink-cfg-chg on if %s/%d %s uplinks cfg %u up %u",
3792 zif
->ifp
->name
, zif
->ifp
->ifindex
, set
? "set" : "down",
3793 zmh_info
->uplink_cfg_cnt
, zmh_info
->uplink_oper_up_cnt
);
3795 zebra_evpn_mh_update_protodown(ZEBRA_PROTODOWN_EVPN_UPLINK_DOWN
,
3799 void zebra_evpn_mh_uplink_oper_update(struct zebra_if
*zif
)
3801 bool old_protodown
= zebra_evpn_mh_is_all_uplinks_down();
3804 zebra_evpn_mh_uplink_oper_flags_update(zif
, true /*set*/);
3806 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3808 "mh-uplink-oper-chg on if %s/%d %s; uplinks cfg %u up %u",
3809 zif
->ifp
->name
, zif
->ifp
->ifindex
,
3810 if_is_operative(zif
->ifp
) ? "up" : "down",
3811 zmh_info
->uplink_cfg_cnt
, zmh_info
->uplink_oper_up_cnt
);
3813 new_protodown
= zebra_evpn_mh_is_all_uplinks_down();
3814 if (old_protodown
== new_protodown
)
3817 /* if protodown_rc XXX_UPLINK_DOWN is about to be cleared
3818 * fire up the start-up delay timer to allow the EVPN network
3819 * to converge (Type-2 routes need to be advertised and processed)
3821 if (!new_protodown
&& (zmh_info
->uplink_oper_up_cnt
== 1))
3822 zebra_evpn_mh_startup_delay_timer_start("uplink-up");
3824 zebra_evpn_mh_update_protodown(ZEBRA_PROTODOWN_EVPN_UPLINK_DOWN
,
3828 static void zebra_evpn_mh_startup_delay_exp_cb(struct thread
*t
)
3830 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3831 zlog_debug("startup-delay expired");
3833 zebra_evpn_mh_update_protodown(ZEBRA_PROTODOWN_EVPN_STARTUP_DELAY
,
3837 static void zebra_evpn_mh_startup_delay_timer_start(const char *rc
)
3839 if (zmh_info
->startup_delay_timer
) {
3840 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3841 zlog_debug("startup-delay timer cancelled");
3842 THREAD_OFF(zmh_info
->startup_delay_timer
);
3845 if (zmh_info
->startup_delay_time
) {
3846 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3848 "startup-delay timer started for %d sec on %s",
3849 zmh_info
->startup_delay_time
, rc
);
3850 thread_add_timer(zrouter
.master
,
3851 zebra_evpn_mh_startup_delay_exp_cb
, NULL
,
3852 zmh_info
->startup_delay_time
,
3853 &zmh_info
->startup_delay_timer
);
3854 zebra_evpn_mh_update_protodown(
3855 ZEBRA_PROTODOWN_EVPN_STARTUP_DELAY
, true /* set */);
3857 zebra_evpn_mh_update_protodown(
3858 ZEBRA_PROTODOWN_EVPN_STARTUP_DELAY
, false /* set */);
3862 /*****************************************************************************
3863 * Nexthop management: nexthops associated with Type-2 routes that have
3864 * an ES as destination are consolidated by BGP into a per-VRF nh->rmac
3865 * mapping which is the installed as a remote neigh/fdb entry with a
3866 * dummy (type-1) prefix referencing it.
3867 * This handling is needed because Type-2 routes with ES as dest use NHG
3868 * that are setup using EAD routes (i.e. such NHGs do not include the
3870 ****************************************************************************/
3871 void zebra_evpn_proc_remote_nh(ZAPI_HANDLER_ARGS
)
3876 struct ethaddr rmac
;
3877 struct prefix_evpn dummy_prefix
;
3878 size_t min_len
= 4 + sizeof(nh
);
3883 * Ensure that the stream sent to us is long enough
3885 if (hdr
->command
== ZEBRA_EVPN_REMOTE_NH_ADD
)
3886 min_len
+= sizeof(rmac
);
3887 if (hdr
->length
< min_len
)
3890 vrf_id
= stream_getl(s
);
3891 stream_get(&nh
, s
, sizeof(nh
));
3893 memset(&dummy_prefix
, 0, sizeof(dummy_prefix
));
3894 dummy_prefix
.family
= AF_EVPN
;
3895 dummy_prefix
.prefixlen
= (sizeof(struct evpn_addr
) * 8);
3896 dummy_prefix
.prefix
.route_type
= 1; /* XXX - fixup to type-1 def */
3897 dummy_prefix
.prefix
.ead_addr
.ip
.ipa_type
= nh
.ipa_type
;
3899 if (hdr
->command
== ZEBRA_EVPN_REMOTE_NH_ADD
) {
3900 stream_get(&rmac
, s
, sizeof(rmac
));
3901 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3903 "evpn remote nh %d %pIA rmac %pEA add pfx %pFX",
3904 vrf_id
, &nh
, &rmac
, &dummy_prefix
);
3905 zebra_rib_queue_evpn_route_add(vrf_id
, &rmac
, &nh
,
3906 (struct prefix
*)&dummy_prefix
);
3908 if (IS_ZEBRA_DEBUG_EVPN_MH_ES
)
3909 zlog_debug("evpn remote nh %d %pIA del pfx %pFX",
3910 vrf_id
, &nh
, &dummy_prefix
);
3911 zebra_rib_queue_evpn_route_del(vrf_id
, &nh
,
3912 (struct prefix
*)&dummy_prefix
);
3916 /*****************************************************************************/
3917 void zebra_evpn_mh_config_write(struct vty
*vty
)
3919 if (zmh_info
->mac_hold_time
!= ZEBRA_EVPN_MH_MAC_HOLD_TIME_DEF
)
3920 vty_out(vty
, "evpn mh mac-holdtime %d\n",
3921 zmh_info
->mac_hold_time
);
3923 if (zmh_info
->neigh_hold_time
!= ZEBRA_EVPN_MH_NEIGH_HOLD_TIME_DEF
)
3924 vty_out(vty
, "evpn mh neigh-holdtime %d\n",
3925 zmh_info
->neigh_hold_time
);
3927 if (zmh_info
->startup_delay_time
!= ZEBRA_EVPN_MH_STARTUP_DELAY_DEF
)
3928 vty_out(vty
, "evpn mh startup-delay %d\n",
3929 zmh_info
->startup_delay_time
);
3931 if (zmh_info
->flags
& ZEBRA_EVPN_MH_REDIRECT_OFF
)
3932 vty_out(vty
, "evpn mh redirect-off\n");
3935 int zebra_evpn_mh_neigh_holdtime_update(struct vty
*vty
,
3936 uint32_t duration
, bool set_default
)
3939 duration
= ZEBRA_EVPN_MH_NEIGH_HOLD_TIME_DEF
;
3941 zmh_info
->neigh_hold_time
= duration
;
3946 int zebra_evpn_mh_mac_holdtime_update(struct vty
*vty
,
3947 uint32_t duration
, bool set_default
)
3950 duration
= ZEBRA_EVPN_MH_MAC_HOLD_TIME_DEF
;
3952 zmh_info
->mac_hold_time
= duration
;
3957 int zebra_evpn_mh_startup_delay_update(struct vty
*vty
, uint32_t duration
,
3961 duration
= ZEBRA_EVPN_MH_STARTUP_DELAY_DEF
;
3963 zmh_info
->startup_delay_time
= duration
;
3965 /* if startup_delay_timer is running allow it to be adjusted
3968 if (zmh_info
->startup_delay_timer
)
3969 zebra_evpn_mh_startup_delay_timer_start("config");
3974 int zebra_evpn_mh_redirect_off(struct vty
*vty
, bool redirect_off
)
3976 /* This knob needs to be set before ESs are configured
3977 * i.e. cannot be changed on the fly
3980 zmh_info
->flags
|= ZEBRA_EVPN_MH_REDIRECT_OFF
;
3982 zmh_info
->flags
&= ~ZEBRA_EVPN_MH_REDIRECT_OFF
;
3987 void zebra_evpn_interface_init(void)
3989 install_element(INTERFACE_NODE
, &zebra_evpn_es_id_cmd
);
3990 install_element(INTERFACE_NODE
, &zebra_evpn_es_sys_mac_cmd
);
3991 install_element(INTERFACE_NODE
, &zebra_evpn_es_pref_cmd
);
3992 install_element(INTERFACE_NODE
, &zebra_evpn_es_bypass_cmd
);
3993 install_element(INTERFACE_NODE
, &zebra_evpn_mh_uplink_cmd
);
3996 void zebra_evpn_mh_init(void)
3998 zrouter
.mh_info
= XCALLOC(MTYPE_ZMH_INFO
, sizeof(*zrouter
.mh_info
));
4000 zmh_info
->mac_hold_time
= ZEBRA_EVPN_MH_MAC_HOLD_TIME_DEF
;
4001 zmh_info
->neigh_hold_time
= ZEBRA_EVPN_MH_NEIGH_HOLD_TIME_DEF
;
4002 /* setup ES tables */
4003 RB_INIT(zebra_es_rb_head
, &zmh_info
->es_rb_tree
);
4004 zmh_info
->local_es_list
= list_new();
4005 listset_app_node_mem(zmh_info
->local_es_list
);
4007 bf_init(zmh_info
->nh_id_bitmap
, EVPN_NH_ID_MAX
);
4008 bf_assign_zero_index(zmh_info
->nh_id_bitmap
);
4009 zmh_info
->nhg_table
= hash_create(zebra_evpn_nhg_hash_keymake
,
4010 zebra_evpn_nhg_cmp
, "l2 NHG table");
4011 zmh_info
->nh_ip_table
=
4012 hash_create(zebra_evpn_nh_ip_hash_keymake
, zebra_evpn_nh_ip_cmp
,
4015 /* setup broadcast domain tables */
4016 zmh_info
->evpn_vlan_table
= hash_create(zebra_evpn_acc_vl_hash_keymake
,
4017 zebra_evpn_acc_vl_cmp
, "access VLAN hash table");
4019 zmh_info
->startup_delay_time
= ZEBRA_EVPN_MH_STARTUP_DELAY_DEF
;
4020 zebra_evpn_mh_startup_delay_timer_start("init");
4023 void zebra_evpn_mh_terminate(void)
4025 list_delete(&zmh_info
->local_es_list
);
4027 hash_iterate(zmh_info
->evpn_vlan_table
,
4028 zebra_evpn_acc_vl_cleanup_all
, NULL
);
4029 hash_free(zmh_info
->evpn_vlan_table
);
4030 hash_free(zmh_info
->nhg_table
);
4031 hash_free(zmh_info
->nh_ip_table
);
4032 bf_free(zmh_info
->nh_id_bitmap
);