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mirror_frr/zebra/zebra_vxlan.c
Donatas Abraitis 4b6667ce61
Merge pull request #12578 from Pdoijode/evpn-mac-vni-det 
zebra: Evpn mac vni detail show command
2023-01-11 12:06:37 +02:00

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/*
* Zebra EVPN for VxLAN code
* Copyright (C) 2016, 2017 Cumulus Networks, Inc.
*
* This file is part of FRR.
*
* FRR is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2, or (at your option) any
* later version.
*
* FRR is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with FRR; see the file COPYING. If not, write to the Free
* Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
* 02111-1307, USA.
*/
#include <zebra.h>
#include "hash.h"
#include "if.h"
#include "jhash.h"
#include "linklist.h"
#include "log.h"
#include "memory.h"
#include "prefix.h"
#include "stream.h"
#include "table.h"
#include "vlan.h"
#include "vxlan.h"
#ifdef GNU_LINUX
#include <linux/neighbour.h>
#endif
#include "lib/printfrr.h"
#include "zebra/zebra_router.h"
#include "zebra/debug.h"
#include "zebra/interface.h"
#include "zebra/rib.h"
#include "zebra/rt.h"
#include "zebra/rt_netlink.h"
#include "zebra/zebra_errors.h"
#include "zebra/zebra_l2.h"
#include "zebra/zebra_ns.h"
#include "zebra/zebra_vrf.h"
#include "zebra/zebra_vxlan.h"
#include "zebra/zebra_evpn.h"
#include "zebra/zebra_evpn_mac.h"
#include "zebra/zebra_evpn_neigh.h"
#include "zebra/zebra_vxlan_private.h"
#include "zebra/zebra_evpn_mh.h"
#include "zebra/zebra_evpn_vxlan.h"
#include "zebra/zebra_router.h"
DEFINE_MTYPE_STATIC(ZEBRA, HOST_PREFIX, "host prefix");
DEFINE_MTYPE_STATIC(ZEBRA, ZL3VNI, "L3 VNI hash");
DEFINE_MTYPE_STATIC(ZEBRA, L3VNI_MAC, "EVPN L3VNI MAC");
DEFINE_MTYPE_STATIC(ZEBRA, L3NEIGH, "EVPN Neighbor");
DEFINE_MTYPE_STATIC(ZEBRA, ZVXLAN_SG, "zebra VxLAN multicast group");
DEFINE_MTYPE_STATIC(ZEBRA, EVPN_VTEP, "zebra VxLAN VTEP IP");
DEFINE_HOOK(zebra_rmac_update,
(struct zebra_mac * rmac, struct zebra_l3vni *zl3vni, bool delete,
const char *reason),
(rmac, zl3vni, delete, reason));
/* config knobs */
static bool accept_bgp_seq = true;
/* static function declarations */
static void zevpn_print_neigh_hash_all_evpn(struct hash_bucket *bucket,
void **args);
static void zl3vni_print_nh(struct zebra_neigh *n, struct vty *vty,
json_object *json);
static void zl3vni_print_rmac(struct zebra_mac *zrmac, struct vty *vty,
json_object *json);
static void zevpn_print_mac_hash_all_evpn(struct hash_bucket *bucket, void *ctxt);
/* l3-vni next-hop neigh related APIs */
static struct zebra_neigh *zl3vni_nh_lookup(struct zebra_l3vni *zl3vni,
const struct ipaddr *ip);
static void *zl3vni_nh_alloc(void *p);
static struct zebra_neigh *zl3vni_nh_add(struct zebra_l3vni *zl3vni,
const struct ipaddr *vtep_ip,
const struct ethaddr *rmac);
static int zl3vni_nh_del(struct zebra_l3vni *zl3vni, struct zebra_neigh *n);
static int zl3vni_nh_install(struct zebra_l3vni *zl3vni, struct zebra_neigh *n);
static int zl3vni_nh_uninstall(struct zebra_l3vni *zl3vni,
struct zebra_neigh *n);
/* l3-vni rmac related APIs */
static void zl3vni_print_rmac_hash(struct hash_bucket *, void *);
static struct zebra_mac *zl3vni_rmac_lookup(struct zebra_l3vni *zl3vni,
const struct ethaddr *rmac);
static void *zl3vni_rmac_alloc(void *p);
static struct zebra_mac *zl3vni_rmac_add(struct zebra_l3vni *zl3vni,
const struct ethaddr *rmac);
static int zl3vni_rmac_del(struct zebra_l3vni *zl3vni, struct zebra_mac *zrmac);
static int zl3vni_rmac_install(struct zebra_l3vni *zl3vni,
struct zebra_mac *zrmac);
static int zl3vni_rmac_uninstall(struct zebra_l3vni *zl3vni,
struct zebra_mac *zrmac);
/* l3-vni related APIs*/
static void *zl3vni_alloc(void *p);
static struct zebra_l3vni *zl3vni_add(vni_t vni, vrf_id_t vrf_id);
static int zl3vni_del(struct zebra_l3vni *zl3vni);
static void zebra_vxlan_process_l3vni_oper_up(struct zebra_l3vni *zl3vni);
static void zebra_vxlan_process_l3vni_oper_down(struct zebra_l3vni *zl3vni);
static void zevpn_build_hash_table(void);
static unsigned int zebra_vxlan_sg_hash_key_make(const void *p);
static bool zebra_vxlan_sg_hash_eq(const void *p1, const void *p2);
static void zebra_vxlan_sg_do_deref(struct zebra_vrf *zvrf,
struct in_addr sip, struct in_addr mcast_grp);
static struct zebra_vxlan_sg *zebra_vxlan_sg_do_ref(struct zebra_vrf *vrf,
struct in_addr sip,
struct in_addr mcast_grp);
static void zebra_vxlan_sg_deref(struct in_addr local_vtep_ip,
struct in_addr mcast_grp);
static void zebra_vxlan_sg_ref(struct in_addr local_vtep_ip,
struct in_addr mcast_grp);
static void zebra_vxlan_cleanup_sg_table(struct zebra_vrf *zvrf);
bool zebra_evpn_do_dup_addr_detect(struct zebra_vrf *zvrf)
{
return zvrf->dup_addr_detect && zebra_evpn_mh_do_dup_addr_detect();
}
/* Private functions */
static int host_rb_entry_compare(const struct host_rb_entry *hle1,
const struct host_rb_entry *hle2)
{
if (hle1->p.family < hle2->p.family)
return -1;
if (hle1->p.family > hle2->p.family)
return 1;
if (hle1->p.prefixlen < hle2->p.prefixlen)
return -1;
if (hle1->p.prefixlen > hle2->p.prefixlen)
return 1;
if (hle1->p.family == AF_INET) {
if (hle1->p.u.prefix4.s_addr < hle2->p.u.prefix4.s_addr)
return -1;
if (hle1->p.u.prefix4.s_addr > hle2->p.u.prefix4.s_addr)
return 1;
return 0;
} else if (hle1->p.family == AF_INET6) {
return memcmp(&hle1->p.u.prefix6, &hle2->p.u.prefix6,
IPV6_MAX_BYTELEN);
} else if (hle1->p.family == AF_EVPN) {
uint8_t family1;
uint8_t family2;
/* two (v4/v6) dummy prefixes of route_type BGP_EVPN_AD_ROUTE
* are used for all nexthops associated with a non-zero ESI
*/
family1 = is_evpn_prefix_ipaddr_v4(
(const struct prefix_evpn *)&hle1->p)
? AF_INET
: AF_INET6;
family2 = is_evpn_prefix_ipaddr_v4(
(const struct prefix_evpn *)&hle2->p)
? AF_INET
: AF_INET6;
if (family1 < family2)
return -1;
if (family1 > family2)
return 1;
return 0;
} else {
zlog_debug("%s: Unexpected family type: %d", __func__,
hle1->p.family);
return 0;
}
}
RB_GENERATE(host_rb_tree_entry, host_rb_entry, hl_entry, host_rb_entry_compare);
static uint32_t rb_host_count(struct host_rb_tree_entry *hrbe)
{
struct host_rb_entry *hle;
uint32_t count = 0;
RB_FOREACH (hle, host_rb_tree_entry, hrbe)
count++;
return count;
}
static int l3vni_rmac_nh_list_cmp(void *p1, void *p2)
{
const struct ipaddr *vtep_ip1 = p1;
const struct ipaddr *vtep_ip2 = p2;
return !ipaddr_cmp(vtep_ip1, vtep_ip2);
}
static void l3vni_rmac_nh_free(struct ipaddr *vtep_ip)
{
XFREE(MTYPE_EVPN_VTEP, vtep_ip);
}
static void l3vni_rmac_nh_list_nh_delete(struct zebra_l3vni *zl3vni,
struct zebra_mac *zrmac,
struct ipaddr *vtep_ip)
{
struct listnode *node = NULL, *nnode = NULL;
struct ipaddr *vtep = NULL;
for (ALL_LIST_ELEMENTS(zrmac->nh_list, node, nnode, vtep)) {
if (ipaddr_cmp(vtep, vtep_ip) == 0)
break;
}
if (node) {
l3vni_rmac_nh_free(vtep);
list_delete_node(zrmac->nh_list, node);
}
}
/*
* Print neighbors for all EVPN.
*/
static void zevpn_print_neigh_hash_all_evpn(struct hash_bucket *bucket,
void **args)
{
struct vty *vty;
json_object *json = NULL, *json_evpn = NULL;
struct zebra_evpn *zevpn;
uint32_t num_neigh;
struct neigh_walk_ctx wctx;
char vni_str[VNI_STR_LEN];
uint32_t print_dup;
vty = (struct vty *)args[0];
json = (json_object *)args[1];
print_dup = (uint32_t)(uintptr_t)args[2];
zevpn = (struct zebra_evpn *)bucket->data;
num_neigh = hashcount(zevpn->neigh_table);
if (print_dup)
num_neigh = num_dup_detected_neighs(zevpn);
if (json == NULL) {
vty_out(vty,
"\nVNI %u #ARP (IPv4 and IPv6, local and remote) %u\n\n",
zevpn->vni, num_neigh);
} else {
json_evpn = json_object_new_object();
json_object_int_add(json_evpn, "numArpNd", num_neigh);
snprintf(vni_str, VNI_STR_LEN, "%u", zevpn->vni);
}
if (!num_neigh) {
if (json)
json_object_object_add(json, vni_str, json_evpn);
return;
}
/* Since we have IPv6 addresses to deal with which can vary widely in
* size, we try to be a bit more elegant in display by first computing
* the maximum width.
*/
memset(&wctx, 0, sizeof(wctx));
wctx.zevpn = zevpn;
wctx.vty = vty;
wctx.addr_width = 15;
wctx.json = json_evpn;
hash_iterate(zevpn->neigh_table, zebra_evpn_find_neigh_addr_width,
&wctx);
if (json == NULL)
zebra_evpn_print_neigh_hdr(vty, &wctx);
if (print_dup)
hash_iterate(zevpn->neigh_table,
zebra_evpn_print_dad_neigh_hash, &wctx);
else
hash_iterate(zevpn->neigh_table, zebra_evpn_print_neigh_hash,
&wctx);
if (json)
json_object_object_add(json, vni_str, json_evpn);
}
/*
* Print neighbors for all EVPNs in detail.
*/
static void zevpn_print_neigh_hash_all_evpn_detail(struct hash_bucket *bucket,
void **args)
{
struct vty *vty;
json_object *json = NULL, *json_evpn = NULL;
struct zebra_evpn *zevpn;
uint32_t num_neigh;
struct neigh_walk_ctx wctx;
char vni_str[VNI_STR_LEN];
uint32_t print_dup;
vty = (struct vty *)args[0];
json = (json_object *)args[1];
print_dup = (uint32_t)(uintptr_t)args[2];
zevpn = (struct zebra_evpn *)bucket->data;
if (!zevpn) {
if (json)
vty_out(vty, "{}\n");
return;
}
num_neigh = hashcount(zevpn->neigh_table);
if (print_dup && num_dup_detected_neighs(zevpn) == 0)
return;
if (json == NULL) {
vty_out(vty,
"\nVNI %u #ARP (IPv4 and IPv6, local and remote) %u\n\n",
zevpn->vni, num_neigh);
} else {
json_evpn = json_object_new_object();
json_object_int_add(json_evpn, "numArpNd", num_neigh);
snprintf(vni_str, VNI_STR_LEN, "%u", zevpn->vni);
}
if (!num_neigh) {
if (json)
json_object_object_add(json, vni_str, json_evpn);
return;
}
memset(&wctx, 0, sizeof(wctx));
wctx.zevpn = zevpn;
wctx.vty = vty;
wctx.addr_width = 15;
wctx.json = json_evpn;
if (print_dup)
hash_iterate(zevpn->neigh_table,
zebra_evpn_print_dad_neigh_hash_detail, &wctx);
else
hash_iterate(zevpn->neigh_table,
zebra_evpn_print_neigh_hash_detail, &wctx);
if (json)
json_object_object_add(json, vni_str, json_evpn);
}
/* print a specific next hop for an l3vni */
static void zl3vni_print_nh(struct zebra_neigh *n, struct vty *vty,
json_object *json)
{
char buf1[ETHER_ADDR_STRLEN];
char buf2[INET6_ADDRSTRLEN];
json_object *json_hosts = NULL;
struct host_rb_entry *hle;
if (!json) {
vty_out(vty, "Ip: %s\n",
ipaddr2str(&n->ip, buf2, sizeof(buf2)));
vty_out(vty, " RMAC: %s\n",
prefix_mac2str(&n->emac, buf1, sizeof(buf1)));
vty_out(vty, " Refcount: %d\n",
rb_host_count(&n->host_rb));
vty_out(vty, " Prefixes:\n");
RB_FOREACH (hle, host_rb_tree_entry, &n->host_rb)
vty_out(vty, " %pFX\n", &hle->p);
} else {
json_hosts = json_object_new_array();
json_object_string_add(
json, "ip", ipaddr2str(&(n->ip), buf2, sizeof(buf2)));
json_object_string_add(
json, "routerMac",
prefix_mac2str(&n->emac, buf2, sizeof(buf2)));
json_object_int_add(json, "refCount",
rb_host_count(&n->host_rb));
RB_FOREACH (hle, host_rb_tree_entry, &n->host_rb)
json_object_array_add(json_hosts,
json_object_new_string(prefix2str(
&hle->p, buf2, sizeof(buf2))));
json_object_object_add(json, "prefixList", json_hosts);
}
}
/* Print a specific RMAC entry */
static void zl3vni_print_rmac(struct zebra_mac *zrmac, struct vty *vty,
json_object *json)
{
struct listnode *node = NULL;
struct ipaddr *vtep = NULL;
json_object *json_nhs = NULL;
if (!json) {
vty_out(vty, "MAC: %pEA\n", &zrmac->macaddr);
vty_out(vty, " Remote VTEP: %pI4\n",
&zrmac->fwd_info.r_vtep_ip);
} else {
json_nhs = json_object_new_array();
json_object_string_addf(json, "routerMac", "%pEA",
&zrmac->macaddr);
json_object_string_addf(json, "vtepIp", "%pI4",
&zrmac->fwd_info.r_vtep_ip);
for (ALL_LIST_ELEMENTS_RO(zrmac->nh_list, node, vtep)) {
json_object_array_add(json_nhs, json_object_new_stringf(
"%pIA", vtep));
}
json_object_object_add(json, "nexthops", json_nhs);
}
}
/*
* Print MACs for all EVPNs.
*/
static void zevpn_print_mac_hash_all_evpn(struct hash_bucket *bucket, void *ctxt)
{
struct vty *vty;
json_object *json = NULL, *json_evpn = NULL;
json_object *json_mac = NULL;
struct zebra_evpn *zevpn;
uint32_t num_macs;
struct mac_walk_ctx *wctx = ctxt;
char vni_str[VNI_STR_LEN];
vty = wctx->vty;
json = wctx->json;
zevpn = (struct zebra_evpn *)bucket->data;
wctx->zevpn = zevpn;
/*We are iterating over a new VNI, set the count to 0*/
wctx->count = 0;
num_macs = num_valid_macs(zevpn);
if (!num_macs)
return;
if (wctx->print_dup)
num_macs = num_dup_detected_macs(zevpn);
if (json) {
json_evpn = json_object_new_object();
json_mac = json_object_new_object();
snprintf(vni_str, VNI_STR_LEN, "%u", zevpn->vni);
}
if (!CHECK_FLAG(wctx->flags, SHOW_REMOTE_MAC_FROM_VTEP)) {
if (json == NULL) {
vty_out(vty, "\nVNI %u #MACs (local and remote) %u\n\n",
zevpn->vni, num_macs);
vty_out(vty,
"Flags: N=sync-neighs, I=local-inactive, P=peer-active, X=peer-proxy\n");
vty_out(vty, "%-17s %-6s %-5s %-30s %-5s %s\n", "MAC",
"Type", "Flags", "Intf/Remote ES/VTEP",
"VLAN", "Seq #'s");
} else
json_object_int_add(json_evpn, "numMacs", num_macs);
}
if (!num_macs) {
if (json) {
json_object_int_add(json_evpn, "numMacs", num_macs);
json_object_object_add(json, vni_str, json_evpn);
}
return;
}
/* assign per-evpn to wctx->json object to fill macs
* under the evpn. Re-assign primary json object to fill
* next evpn information.
*/
wctx->json = json_mac;
if (wctx->print_dup)
hash_iterate(zevpn->mac_table, zebra_evpn_print_dad_mac_hash,
wctx);
else
hash_iterate(zevpn->mac_table, zebra_evpn_print_mac_hash, wctx);
wctx->json = json;
if (json) {
if (wctx->count)
json_object_object_add(json_evpn, "macs", json_mac);
json_object_object_add(json, vni_str, json_evpn);
}
}
/*
* Print MACs in detail for all EVPNs.
*/
static void zevpn_print_mac_hash_all_evpn_detail(struct hash_bucket *bucket,
void *ctxt)
{
struct vty *vty;
json_object *json = NULL, *json_evpn = NULL;
json_object *json_mac = NULL;
struct zebra_evpn *zevpn;
uint32_t num_macs;
struct mac_walk_ctx *wctx = ctxt;
char vni_str[VNI_STR_LEN];
vty = wctx->vty;
json = wctx->json;
zevpn = (struct zebra_evpn *)bucket->data;
if (!zevpn) {
if (json)
vty_out(vty, "{}\n");
return;
}
wctx->zevpn = zevpn;
/*We are iterating over a new EVPN, set the count to 0*/
wctx->count = 0;
num_macs = num_valid_macs(zevpn);
if (!num_macs)
return;
if (wctx->print_dup && (num_dup_detected_macs(zevpn) == 0))
return;
if (json) {
json_evpn = json_object_new_object();
json_mac = json_object_new_object();
snprintf(vni_str, VNI_STR_LEN, "%u", zevpn->vni);
}
if (!CHECK_FLAG(wctx->flags, SHOW_REMOTE_MAC_FROM_VTEP)) {
if (json == NULL) {
vty_out(vty, "\nVNI %u #MACs (local and remote) %u\n\n",
zevpn->vni, num_macs);
} else
json_object_int_add(json_evpn, "numMacs", num_macs);
}
/* assign per-evpn to wctx->json object to fill macs
* under the evpn. Re-assign primary json object to fill
* next evpn information.
*/
wctx->json = json_mac;
if (wctx->print_dup)
hash_iterate(zevpn->mac_table,
zebra_evpn_print_dad_mac_hash_detail, wctx);
else
hash_iterate(zevpn->mac_table, zebra_evpn_print_mac_hash_detail,
wctx);
wctx->json = json;
if (json) {
if (wctx->count)
json_object_object_add(json_evpn, "macs", json_mac);
json_object_object_add(json, vni_str, json_evpn);
}
}
static void zl3vni_print_nh_hash(struct hash_bucket *bucket, void *ctx)
{
struct nh_walk_ctx *wctx = NULL;
struct vty *vty = NULL;
struct json_object *json_evpn = NULL;
struct json_object *json_nh = NULL;
struct zebra_neigh *n = NULL;
char buf1[ETHER_ADDR_STRLEN];
char buf2[INET6_ADDRSTRLEN];
wctx = (struct nh_walk_ctx *)ctx;
vty = wctx->vty;
json_evpn = wctx->json;
if (json_evpn)
json_nh = json_object_new_object();
n = (struct zebra_neigh *)bucket->data;
if (!json_evpn) {
vty_out(vty, "%-15s %-17s\n",
ipaddr2str(&(n->ip), buf2, sizeof(buf2)),
prefix_mac2str(&n->emac, buf1, sizeof(buf1)));
} else {
json_object_string_add(json_nh, "nexthopIp",
ipaddr2str(&n->ip, buf2, sizeof(buf2)));
json_object_string_add(
json_nh, "routerMac",
prefix_mac2str(&n->emac, buf1, sizeof(buf1)));
json_object_object_add(json_evpn,
ipaddr2str(&(n->ip), buf2, sizeof(buf2)),
json_nh);
}
}
static void zl3vni_print_nh_hash_all_vni(struct hash_bucket *bucket,
void **args)
{
struct vty *vty = NULL;
json_object *json = NULL;
json_object *json_evpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
uint32_t num_nh = 0;
struct nh_walk_ctx wctx;
char vni_str[VNI_STR_LEN];
vty = (struct vty *)args[0];
json = (struct json_object *)args[1];
zl3vni = (struct zebra_l3vni *)bucket->data;
num_nh = hashcount(zl3vni->nh_table);
if (!num_nh)
return;
if (json) {
json_evpn = json_object_new_object();
snprintf(vni_str, VNI_STR_LEN, "%u", zl3vni->vni);
}
if (json == NULL) {
vty_out(vty, "\nVNI %u #Next-Hops %u\n\n", zl3vni->vni, num_nh);
vty_out(vty, "%-15s %-17s\n", "IP", "RMAC");
} else
json_object_int_add(json_evpn, "numNextHops", num_nh);
memset(&wctx, 0, sizeof(wctx));
wctx.vty = vty;
wctx.json = json_evpn;
hash_iterate(zl3vni->nh_table, zl3vni_print_nh_hash, &wctx);
if (json)
json_object_object_add(json, vni_str, json_evpn);
}
static void zl3vni_print_rmac_hash_all_vni(struct hash_bucket *bucket,
void **args)
{
struct vty *vty = NULL;
json_object *json = NULL;
json_object *json_evpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
uint32_t num_rmacs;
struct rmac_walk_ctx wctx;
char vni_str[VNI_STR_LEN];
vty = (struct vty *)args[0];
json = (struct json_object *)args[1];
zl3vni = (struct zebra_l3vni *)bucket->data;
num_rmacs = hashcount(zl3vni->rmac_table);
if (!num_rmacs)
return;
if (json) {
json_evpn = json_object_new_object();
snprintf(vni_str, VNI_STR_LEN, "%u", zl3vni->vni);
}
if (json == NULL) {
vty_out(vty, "\nVNI %u #RMACs %u\n\n", zl3vni->vni, num_rmacs);
vty_out(vty, "%-17s %-21s\n", "RMAC", "Remote VTEP");
} else
json_object_int_add(json_evpn, "numRmacs", num_rmacs);
/* assign per-vni to wctx->json object to fill macs
* under the vni. Re-assign primary json object to fill
* next vni information.
*/
memset(&wctx, 0, sizeof(wctx));
wctx.vty = vty;
wctx.json = json_evpn;
hash_iterate(zl3vni->rmac_table, zl3vni_print_rmac_hash, &wctx);
if (json)
json_object_object_add(json, vni_str, json_evpn);
}
static void zl3vni_print_rmac_hash(struct hash_bucket *bucket, void *ctx)
{
struct zebra_mac *zrmac = NULL;
struct rmac_walk_ctx *wctx = NULL;
struct vty *vty = NULL;
struct json_object *json = NULL;
struct json_object *json_rmac = NULL;
char buf[PREFIX_STRLEN];
wctx = (struct rmac_walk_ctx *)ctx;
vty = wctx->vty;
json = wctx->json;
if (json)
json_rmac = json_object_new_object();
zrmac = (struct zebra_mac *)bucket->data;
if (!json) {
vty_out(vty, "%-17s %-21pI4\n",
prefix_mac2str(&zrmac->macaddr, buf, sizeof(buf)),
&zrmac->fwd_info.r_vtep_ip);
} else {
json_object_string_add(
json_rmac, "routerMac",
prefix_mac2str(&zrmac->macaddr, buf, sizeof(buf)));
json_object_string_addf(json_rmac, "vtepIp", "%pI4",
&zrmac->fwd_info.r_vtep_ip);
json_object_object_add(
json, prefix_mac2str(&zrmac->macaddr, buf, sizeof(buf)),
json_rmac);
}
}
/* print a specific L3 VNI entry */
static void zl3vni_print(struct zebra_l3vni *zl3vni, void **ctx)
{
char buf[PREFIX_STRLEN];
struct vty *vty = NULL;
json_object *json = NULL;
struct zebra_evpn *zevpn = NULL;
json_object *json_evpn_list = NULL;
struct listnode *node = NULL, *nnode = NULL;
vty = ctx[0];
json = ctx[1];
if (!json) {
vty_out(vty, "VNI: %u\n", zl3vni->vni);
vty_out(vty, " Type: %s\n", "L3");
vty_out(vty, " Tenant VRF: %s\n", zl3vni_vrf_name(zl3vni));
vty_out(vty, " Local Vtep Ip: %pI4\n",
&zl3vni->local_vtep_ip);
vty_out(vty, " Vxlan-Intf: %s\n",
zl3vni_vxlan_if_name(zl3vni));
vty_out(vty, " SVI-If: %s\n", zl3vni_svi_if_name(zl3vni));
vty_out(vty, " State: %s\n", zl3vni_state2str(zl3vni));
vty_out(vty, " VNI Filter: %s\n",
CHECK_FLAG(zl3vni->filter, PREFIX_ROUTES_ONLY)
? "prefix-routes-only"
: "none");
vty_out(vty, " System MAC: %s\n",
zl3vni_sysmac2str(zl3vni, buf, sizeof(buf)));
vty_out(vty, " Router MAC: %s\n",
zl3vni_rmac2str(zl3vni, buf, sizeof(buf)));
vty_out(vty, " L2 VNIs: ");
for (ALL_LIST_ELEMENTS(zl3vni->l2vnis, node, nnode, zevpn))
vty_out(vty, "%u ", zevpn->vni);
vty_out(vty, "\n");
} else {
json_evpn_list = json_object_new_array();
json_object_int_add(json, "vni", zl3vni->vni);
json_object_string_add(json, "type", "L3");
json_object_string_addf(json, "localVtepIp", "%pI4",
&zl3vni->local_vtep_ip);
json_object_string_add(json, "vxlanIntf",
zl3vni_vxlan_if_name(zl3vni));
json_object_string_add(json, "sviIntf",
zl3vni_svi_if_name(zl3vni));
json_object_string_add(json, "state", zl3vni_state2str(zl3vni));
json_object_string_add(json, "vrf", zl3vni_vrf_name(zl3vni));
json_object_string_add(
json, "sysMac",
zl3vni_sysmac2str(zl3vni, buf, sizeof(buf)));
json_object_string_add(
json, "routerMac",
zl3vni_rmac2str(zl3vni, buf, sizeof(buf)));
json_object_string_add(
json, "vniFilter",
CHECK_FLAG(zl3vni->filter, PREFIX_ROUTES_ONLY)
? "prefix-routes-only"
: "none");
for (ALL_LIST_ELEMENTS(zl3vni->l2vnis, node, nnode, zevpn)) {
json_object_array_add(json_evpn_list,
json_object_new_int(zevpn->vni));
}
json_object_object_add(json, "l2Vnis", json_evpn_list);
}
}
/* print a L3 VNI hash entry */
static void zl3vni_print_hash(struct hash_bucket *bucket, void *ctx[])
{
struct vty *vty = NULL;
json_object *json = NULL;
json_object *json_evpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
vty = (struct vty *)ctx[0];
json = (json_object *)ctx[1];
zl3vni = (struct zebra_l3vni *)bucket->data;
if (!json) {
vty_out(vty, "%-10u %-4s %-21s %-8lu %-8lu %-15s %-37s\n",
zl3vni->vni, "L3", zl3vni_vxlan_if_name(zl3vni),
hashcount(zl3vni->rmac_table),
hashcount(zl3vni->nh_table), "n/a",
zl3vni_vrf_name(zl3vni));
} else {
char vni_str[VNI_STR_LEN];
snprintf(vni_str, VNI_STR_LEN, "%u", zl3vni->vni);
json_evpn = json_object_new_object();
json_object_int_add(json_evpn, "vni", zl3vni->vni);
json_object_string_add(json_evpn, "vxlanIf",
zl3vni_vxlan_if_name(zl3vni));
json_object_int_add(json_evpn, "numMacs",
hashcount(zl3vni->rmac_table));
json_object_int_add(json_evpn, "numArpNd",
hashcount(zl3vni->nh_table));
json_object_string_add(json_evpn, "numRemoteVteps", "n/a");
json_object_string_add(json_evpn, "type", "L3");
json_object_string_add(json_evpn, "tenantVrf",
zl3vni_vrf_name(zl3vni));
json_object_object_add(json, vni_str, json_evpn);
}
}
/* print a L3 VNI hash entry in detail*/
static void zl3vni_print_hash_detail(struct hash_bucket *bucket, void *data)
{
struct vty *vty = NULL;
struct zebra_l3vni *zl3vni = NULL;
json_object *json_array = NULL;
bool use_json = false;
struct zebra_evpn_show *zes = data;
vty = zes->vty;
json_array = zes->json;
use_json = zes->use_json;
zl3vni = (struct zebra_l3vni *)bucket->data;
zebra_vxlan_print_vni(vty, zes->zvrf, zl3vni->vni,
use_json, json_array);
if (!use_json)
vty_out(vty, "\n");
}
static int zvni_map_to_svi_ns(struct ns *ns,
void *_in_param,
void **_p_ifp)
{
struct zebra_ns *zns = ns->info;
struct route_node *rn;
struct zebra_from_svi_param *in_param =
(struct zebra_from_svi_param *)_in_param;
struct zebra_l2info_vlan *vl;
struct interface *tmp_if = NULL;
struct interface **p_ifp = (struct interface **)_p_ifp;
struct zebra_if *zif;
assert(in_param && p_ifp);
/* TODO: Optimize with a hash. */
for (rn = route_top(zns->if_table); rn; rn = route_next(rn)) {
tmp_if = (struct interface *)rn->info;
/* Check oper status of the SVI. */
if (!tmp_if || !if_is_operative(tmp_if))
continue;
zif = tmp_if->info;
if (!zif || zif->zif_type != ZEBRA_IF_VLAN
|| zif->link != in_param->br_if)
continue;
vl = (struct zebra_l2info_vlan *)&zif->l2info.vl;
if (vl->vid == in_param->vid) {
*p_ifp = tmp_if;
return NS_WALK_STOP;
}
}
return NS_WALK_CONTINUE;
}
/* Map to SVI on bridge corresponding to specified VLAN. This can be one
* of two cases:
* (a) In the case of a VLAN-aware bridge, the SVI is a L3 VLAN interface
* linked to the bridge
* (b) In the case of a VLAN-unaware bridge, the SVI is the bridge interface
* itself
*/
struct interface *zvni_map_to_svi(vlanid_t vid, struct interface *br_if)
{
struct interface *tmp_if = NULL;
struct zebra_if *zif;
struct zebra_l2info_bridge *br;
struct zebra_from_svi_param in_param;
struct interface **p_ifp;
/* Defensive check, caller expected to invoke only with valid bridge. */
if (!br_if)
return NULL;
/* Determine if bridge is VLAN-aware or not */
zif = br_if->info;
assert(zif);
br = &zif->l2info.br;
in_param.bridge_vlan_aware = br->vlan_aware;
/* Check oper status of the SVI. */
if (!in_param.bridge_vlan_aware)
return if_is_operative(br_if) ? br_if : NULL;
in_param.vid = vid;
in_param.br_if = br_if;
in_param.zif = NULL;
p_ifp = &tmp_if;
/* Identify corresponding VLAN interface. */
ns_walk_func(zvni_map_to_svi_ns, (void *)&in_param,
(void **)p_ifp);
return tmp_if;
}
static int zebra_evpn_vxlan_del(struct zebra_evpn *zevpn)
{
zevpn_vxlan_if_set(zevpn, zevpn->vxlan_if, false /* set */);
/* Remove references to the BUM mcast grp */
zebra_vxlan_sg_deref(zevpn->local_vtep_ip, zevpn->mcast_grp);
return zebra_evpn_del(zevpn);
}
static int zevpn_build_hash_table_zns(struct ns *ns,
void *param_in __attribute__((unused)),
void **param_out __attribute__((unused)))
{
struct zebra_ns *zns = ns->info;
struct route_node *rn;
struct interface *ifp;
struct zebra_vrf *zvrf;
zvrf = zebra_vrf_get_evpn();
/* Walk VxLAN interfaces and create EVPN hash. */
for (rn = route_top(zns->if_table); rn; rn = route_next(rn)) {
vni_t vni;
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
struct zebra_if *zif;
struct zebra_l2info_vxlan *vxl;
ifp = (struct interface *)rn->info;
if (!ifp)
continue;
zif = ifp->info;
if (!zif || zif->zif_type != ZEBRA_IF_VXLAN)
continue;
vxl = &zif->l2info.vxl;
vni = vxl->vni;
/* link of VXLAN interface should be in zebra_evpn_vrf */
if (zvrf->zns->ns_id != vxl->link_nsid) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Intf %s(%u) VNI %u, link not in same "
"namespace than BGP EVPN core instance ",
ifp->name, ifp->ifindex, vni);
continue;
}
/* L3-VNI and L2-VNI are handled seperately */
zl3vni = zl3vni_lookup(vni);
if (zl3vni) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"create L3-VNI hash for Intf %s(%u) L3-VNI %u",
ifp->name, ifp->ifindex, vni);
/* associate with vxlan_if */
zl3vni->local_vtep_ip = vxl->vtep_ip;
zl3vni->vxlan_if = ifp;
/*
* we need to associate with SVI.
* we can associate with svi-if only after association
* with vxlan-intf is complete
*/
zl3vni->svi_if = zl3vni_map_to_svi_if(zl3vni);
/* Associate l3vni to mac-vlan and extract VRR MAC */
zl3vni->mac_vlan_if = zl3vni_map_to_mac_vlan_if(zl3vni);
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("create l3vni %u svi_if %s mac_vlan_if %s",
vni, zl3vni->svi_if ? zl3vni->svi_if->name
: "NIL",
zl3vni->mac_vlan_if ?
zl3vni->mac_vlan_if->name : "NIL");
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
} else {
struct interface *vlan_if = NULL;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Create L2-VNI hash for intf %s(%u) L2-VNI %u local IP %pI4",
ifp->name, ifp->ifindex, vni,
&vxl->vtep_ip);
/* EVPN hash entry is expected to exist, if the BGP process is killed */
zevpn = zebra_evpn_lookup(vni);
if (zevpn) {
zlog_debug(
"EVPN hash already present for IF %s(%u) L2-VNI %u",
ifp->name, ifp->ifindex, vni);
/*
* Inform BGP if intf is up and mapped to
* bridge.
*/
if (if_is_operative(ifp) &&
zif->brslave_info.br_if)
zebra_evpn_send_add_to_client(zevpn);
/* Send Local MAC-entries to client */
zebra_evpn_send_mac_list_to_client(zevpn);
/* Send Loval Neighbor entries to client */
zebra_evpn_send_neigh_to_client(zevpn);
} else {
zevpn = zebra_evpn_add(vni);
if (!zevpn) {
zlog_debug(
"Failed to add EVPN hash, IF %s(%u) L2-VNI %u",
ifp->name, ifp->ifindex, vni);
return NS_WALK_CONTINUE;
}
if (zevpn->local_vtep_ip.s_addr !=
vxl->vtep_ip.s_addr ||
zevpn->mcast_grp.s_addr !=
vxl->mcast_grp.s_addr) {
zebra_vxlan_sg_deref(
zevpn->local_vtep_ip,
zevpn->mcast_grp);
zebra_vxlan_sg_ref(vxl->vtep_ip,
vxl->mcast_grp);
zevpn->local_vtep_ip = vxl->vtep_ip;
zevpn->mcast_grp = vxl->mcast_grp;
/* on local vtep-ip check if ES
* orig-ip needs to be updated
*/
zebra_evpn_es_set_base_evpn(zevpn);
}
zevpn_vxlan_if_set(zevpn, ifp, true /* set */);
vlan_if = zvni_map_to_svi(
vxl->access_vlan,
zif->brslave_info.br_if);
if (vlan_if) {
zevpn->svi_if = vlan_if;
zevpn->vrf_id = vlan_if->vrf->vrf_id;
zl3vni = zl3vni_from_vrf(
vlan_if->vrf->vrf_id);
if (zl3vni)
listnode_add_sort(
zl3vni->l2vnis, zevpn);
}
/*
* Inform BGP if intf is up and mapped to
* bridge.
*/
if (if_is_operative(ifp) &&
zif->brslave_info.br_if)
zebra_evpn_send_add_to_client(zevpn);
}
}
}
return NS_WALK_CONTINUE;
}
/*
* Build the VNI hash table by going over the VxLAN interfaces. This
* is called when EVPN (advertise-all-vni) is enabled.
*/
static void zevpn_build_hash_table(void)
{
ns_walk_func(zevpn_build_hash_table_zns, NULL, NULL);
}
/*
* Cleanup EVPN/VTEP and update kernel
*/
static void zebra_evpn_vxlan_cleanup_all(struct hash_bucket *bucket, void *arg)
{
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
zevpn = (struct zebra_evpn *)bucket->data;
/* remove l2vni from l2vni's tenant-vrf l3-vni list */
zl3vni = zl3vni_from_vrf(zevpn->vrf_id);
if (zl3vni)
listnode_delete(zl3vni->l2vnis, zevpn);
zebra_evpn_cleanup_all(bucket, arg);
}
/* cleanup L3VNI */
static void zl3vni_cleanup_all(struct hash_bucket *bucket, void *args)
{
struct zebra_l3vni *zl3vni = NULL;
zl3vni = (struct zebra_l3vni *)bucket->data;
zebra_vxlan_process_l3vni_oper_down(zl3vni);
}
static void rb_find_or_add_host(struct host_rb_tree_entry *hrbe,
const struct prefix *host)
{
struct host_rb_entry lookup;
struct host_rb_entry *hle;
memset(&lookup, 0, sizeof(lookup));
memcpy(&lookup.p, host, sizeof(*host));
hle = RB_FIND(host_rb_tree_entry, hrbe, &lookup);
if (hle)
return;
hle = XCALLOC(MTYPE_HOST_PREFIX, sizeof(struct host_rb_entry));
memcpy(hle, &lookup, sizeof(lookup));
RB_INSERT(host_rb_tree_entry, hrbe, hle);
}
static void rb_delete_host(struct host_rb_tree_entry *hrbe, struct prefix *host)
{
struct host_rb_entry lookup;
struct host_rb_entry *hle;
memset(&lookup, 0, sizeof(lookup));
memcpy(&lookup.p, host, sizeof(*host));
hle = RB_FIND(host_rb_tree_entry, hrbe, &lookup);
if (hle) {
RB_REMOVE(host_rb_tree_entry, hrbe, hle);
XFREE(MTYPE_HOST_PREFIX, hle);
}
return;
}
/*
* Look up MAC hash entry.
*/
static struct zebra_mac *zl3vni_rmac_lookup(struct zebra_l3vni *zl3vni,
const struct ethaddr *rmac)
{
struct zebra_mac tmp;
struct zebra_mac *pmac;
memset(&tmp, 0, sizeof(tmp));
memcpy(&tmp.macaddr, rmac, ETH_ALEN);
pmac = hash_lookup(zl3vni->rmac_table, &tmp);
return pmac;
}
/*
* Callback to allocate RMAC hash entry.
*/
static void *zl3vni_rmac_alloc(void *p)
{
const struct zebra_mac *tmp_rmac = p;
struct zebra_mac *zrmac;
zrmac = XCALLOC(MTYPE_L3VNI_MAC, sizeof(struct zebra_mac));
*zrmac = *tmp_rmac;
return ((void *)zrmac);
}
/*
* Add RMAC entry to l3-vni
*/
static struct zebra_mac *zl3vni_rmac_add(struct zebra_l3vni *zl3vni,
const struct ethaddr *rmac)
{
struct zebra_mac tmp_rmac;
struct zebra_mac *zrmac = NULL;
memset(&tmp_rmac, 0, sizeof(tmp_rmac));
memcpy(&tmp_rmac.macaddr, rmac, ETH_ALEN);
zrmac = hash_get(zl3vni->rmac_table, &tmp_rmac, zl3vni_rmac_alloc);
zrmac->nh_list = list_new();
zrmac->nh_list->cmp = (int (*)(void *, void *))l3vni_rmac_nh_list_cmp;
zrmac->nh_list->del = (void (*)(void *))l3vni_rmac_nh_free;
SET_FLAG(zrmac->flags, ZEBRA_MAC_REMOTE);
SET_FLAG(zrmac->flags, ZEBRA_MAC_REMOTE_RMAC);
return zrmac;
}
/*
* Delete MAC entry.
*/
static int zl3vni_rmac_del(struct zebra_l3vni *zl3vni, struct zebra_mac *zrmac)
{
struct zebra_mac *tmp_rmac;
/* free the list of nh list*/
list_delete(&zrmac->nh_list);
tmp_rmac = hash_release(zl3vni->rmac_table, zrmac);
XFREE(MTYPE_L3VNI_MAC, tmp_rmac);
return 0;
}
/*
* Install remote RMAC into the forwarding plane.
*/
static int zl3vni_rmac_install(struct zebra_l3vni *zl3vni,
struct zebra_mac *zrmac)
{
const struct zebra_if *zif = NULL, *br_zif = NULL;
const struct zebra_l2info_vxlan *vxl = NULL;
const struct interface *br_ifp;
enum zebra_dplane_result res;
vlanid_t vid;
if (!(CHECK_FLAG(zrmac->flags, ZEBRA_MAC_REMOTE))
|| !(CHECK_FLAG(zrmac->flags, ZEBRA_MAC_REMOTE_RMAC)))
return 0;
zif = zl3vni->vxlan_if->info;
if (!zif)
return -1;
br_ifp = zif->brslave_info.br_if;
if (br_ifp == NULL)
return -1;
vxl = &zif->l2info.vxl;
br_zif = (const struct zebra_if *)br_ifp->info;
if (IS_ZEBRA_IF_BRIDGE_VLAN_AWARE(br_zif))
vid = vxl->access_vlan;
else
vid = 0;
res = dplane_rem_mac_add(zl3vni->vxlan_if, br_ifp, vid,
&zrmac->macaddr, zrmac->fwd_info.r_vtep_ip, 0, 0,
false /*was_static*/);
if (res != ZEBRA_DPLANE_REQUEST_FAILURE)
return 0;
else
return -1;
}
/*
* Uninstall remote RMAC from the forwarding plane.
*/
static int zl3vni_rmac_uninstall(struct zebra_l3vni *zl3vni,
struct zebra_mac *zrmac)
{
const struct zebra_if *zif = NULL, *br_zif;
const struct zebra_l2info_vxlan *vxl = NULL;
const struct interface *br_ifp;
vlanid_t vid;
enum zebra_dplane_result res;
if (!(CHECK_FLAG(zrmac->flags, ZEBRA_MAC_REMOTE))
|| !(CHECK_FLAG(zrmac->flags, ZEBRA_MAC_REMOTE_RMAC)))
return 0;
if (!zl3vni->vxlan_if) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"RMAC %pEA on L3-VNI %u hash %p couldn't be uninstalled - no vxlan_if",
&zrmac->macaddr, zl3vni->vni, zl3vni);
return -1;
}
zif = zl3vni->vxlan_if->info;
if (!zif)
return -1;
br_ifp = zif->brslave_info.br_if;
if (br_ifp == NULL)
return -1;
vxl = &zif->l2info.vxl;
br_zif = (const struct zebra_if *)br_ifp->info;
if (IS_ZEBRA_IF_BRIDGE_VLAN_AWARE(br_zif))
vid = vxl->access_vlan;
else
vid = 0;
res = dplane_rem_mac_del(zl3vni->vxlan_if, br_ifp, vid,
&zrmac->macaddr, zrmac->fwd_info.r_vtep_ip);
if (res != ZEBRA_DPLANE_REQUEST_FAILURE)
return 0;
else
return -1;
}
/* handle rmac add */
static int zl3vni_remote_rmac_add(struct zebra_l3vni *zl3vni,
const struct ethaddr *rmac,
const struct ipaddr *vtep_ip)
{
struct zebra_mac *zrmac = NULL;
struct ipaddr *vtep = NULL;
zrmac = zl3vni_rmac_lookup(zl3vni, rmac);
if (!zrmac) {
/* Create the RMAC entry, or update its vtep, if necessary. */
zrmac = zl3vni_rmac_add(zl3vni, rmac);
if (!zrmac) {
zlog_debug(
"Failed to add RMAC %pEA L3VNI %u Remote VTEP %pIA",
rmac, zl3vni->vni, vtep_ip);
return -1;
}
memset(&zrmac->fwd_info, 0, sizeof(zrmac->fwd_info));
zrmac->fwd_info.r_vtep_ip = vtep_ip->ipaddr_v4;
vtep = XCALLOC(MTYPE_EVPN_VTEP, sizeof(struct ipaddr));
memcpy(vtep, vtep_ip, sizeof(struct ipaddr));
if (!listnode_add_sort_nodup(zrmac->nh_list, (void *)vtep))
XFREE(MTYPE_EVPN_VTEP, vtep);
/* Send RMAC for FPM processing */
hook_call(zebra_rmac_update, zrmac, zl3vni, false,
"new RMAC added");
/* install rmac in kernel */
zl3vni_rmac_install(zl3vni, zrmac);
} else if (!IPV4_ADDR_SAME(&zrmac->fwd_info.r_vtep_ip,
&vtep_ip->ipaddr_v4)) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"L3VNI %u Remote VTEP change(%pI4 -> %pIA) for RMAC %pEA",
zl3vni->vni, &zrmac->fwd_info.r_vtep_ip,
vtep_ip, rmac);
zrmac->fwd_info.r_vtep_ip = vtep_ip->ipaddr_v4;
vtep = XCALLOC(MTYPE_EVPN_VTEP, sizeof(struct ipaddr));
memcpy(vtep, vtep_ip, sizeof(struct ipaddr));
if (!listnode_add_sort_nodup(zrmac->nh_list, (void *)vtep))
XFREE(MTYPE_EVPN_VTEP, vtep);
/* install rmac in kernel */
zl3vni_rmac_install(zl3vni, zrmac);
}
return 0;
}
/* handle rmac delete */
static void zl3vni_remote_rmac_del(struct zebra_l3vni *zl3vni,
struct zebra_mac *zrmac,
struct ipaddr *vtep_ip)
{
struct ipaddr ipv4_vtep;
if (!zl3vni_nh_lookup(zl3vni, vtep_ip)) {
memset(&ipv4_vtep, 0, sizeof(ipv4_vtep));
ipv4_vtep.ipa_type = IPADDR_V4;
if (vtep_ip->ipa_type == IPADDR_V6)
ipv4_mapped_ipv6_to_ipv4(&vtep_ip->ipaddr_v6,
&ipv4_vtep.ipaddr_v4);
else
memcpy(&(ipv4_vtep.ipaddr_v4), &vtep_ip->ipaddr_v4,
sizeof(struct in_addr));
/* remove nh from rmac's list */
l3vni_rmac_nh_list_nh_delete(zl3vni, zrmac, &ipv4_vtep);
/* delete nh is same as current selected, fall back to
* one present in the list
*/
if (IPV4_ADDR_SAME(&zrmac->fwd_info.r_vtep_ip,
&ipv4_vtep.ipaddr_v4) &&
listcount(zrmac->nh_list)) {
struct ipaddr *vtep;
vtep = listgetdata(listhead(zrmac->nh_list));
zrmac->fwd_info.r_vtep_ip = vtep->ipaddr_v4;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"L3VNI %u Remote VTEP nh change(%pIA -> %pI4) for RMAC %pEA",
zl3vni->vni, &ipv4_vtep,
&zrmac->fwd_info.r_vtep_ip,
&zrmac->macaddr);
/* install rmac in kernel */
zl3vni_rmac_install(zl3vni, zrmac);
}
if (!listcount(zrmac->nh_list)) {
/* uninstall from kernel */
zl3vni_rmac_uninstall(zl3vni, zrmac);
/* Send RMAC for FPM processing */
hook_call(zebra_rmac_update, zrmac, zl3vni, true,
"RMAC deleted");
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"L3VNI %u RMAC %pEA vtep_ip %pIA delete",
zl3vni->vni, &zrmac->macaddr, vtep_ip);
/* del the rmac entry */
zl3vni_rmac_del(zl3vni, zrmac);
}
}
}
/*
* Look up nh hash entry on a l3-vni.
*/
static struct zebra_neigh *zl3vni_nh_lookup(struct zebra_l3vni *zl3vni,
const struct ipaddr *ip)
{
struct zebra_neigh tmp;
struct zebra_neigh *n;
memset(&tmp, 0, sizeof(tmp));
memcpy(&tmp.ip, ip, sizeof(struct ipaddr));
n = hash_lookup(zl3vni->nh_table, &tmp);
return n;
}
/*
* Callback to allocate NH hash entry on L3-VNI.
*/
static void *zl3vni_nh_alloc(void *p)
{
const struct zebra_neigh *tmp_n = p;
struct zebra_neigh *n;
n = XCALLOC(MTYPE_L3NEIGH, sizeof(struct zebra_neigh));
*n = *tmp_n;
return ((void *)n);
}
/*
* Add neighbor entry.
*/
static struct zebra_neigh *zl3vni_nh_add(struct zebra_l3vni *zl3vni,
const struct ipaddr *ip,
const struct ethaddr *mac)
{
struct zebra_neigh tmp_n;
struct zebra_neigh *n = NULL;
memset(&tmp_n, 0, sizeof(tmp_n));
memcpy(&tmp_n.ip, ip, sizeof(struct ipaddr));
n = hash_get(zl3vni->nh_table, &tmp_n, zl3vni_nh_alloc);
RB_INIT(host_rb_tree_entry, &n->host_rb);
memcpy(&n->emac, mac, ETH_ALEN);
SET_FLAG(n->flags, ZEBRA_NEIGH_REMOTE);
SET_FLAG(n->flags, ZEBRA_NEIGH_REMOTE_NH);
return n;
}
/*
* Delete neighbor entry.
*/
static int zl3vni_nh_del(struct zebra_l3vni *zl3vni, struct zebra_neigh *n)
{
struct zebra_neigh *tmp_n;
struct host_rb_entry *hle;
while (!RB_EMPTY(host_rb_tree_entry, &n->host_rb)) {
hle = RB_ROOT(host_rb_tree_entry, &n->host_rb);
RB_REMOVE(host_rb_tree_entry, &n->host_rb, hle);
XFREE(MTYPE_HOST_PREFIX, hle);
}
tmp_n = hash_release(zl3vni->nh_table, n);
XFREE(MTYPE_L3NEIGH, tmp_n);
return 0;
}
/*
* Install remote nh as neigh into the kernel.
*/
static int zl3vni_nh_install(struct zebra_l3vni *zl3vni, struct zebra_neigh *n)
{
uint8_t flags;
int ret = 0;
if (!is_l3vni_oper_up(zl3vni))
return -1;
if (!(n->flags & ZEBRA_NEIGH_REMOTE)
|| !(n->flags & ZEBRA_NEIGH_REMOTE_NH))
return 0;
flags = DPLANE_NTF_EXT_LEARNED;
if (n->flags & ZEBRA_NEIGH_ROUTER_FLAG)
flags |= DPLANE_NTF_ROUTER;
dplane_rem_neigh_add(zl3vni->svi_if, &n->ip, &n->emac, flags,
false /*was_static*/);
return ret;
}
/*
* Uninstall remote nh from the kernel.
*/
static int zl3vni_nh_uninstall(struct zebra_l3vni *zl3vni,
struct zebra_neigh *n)
{
if (!(n->flags & ZEBRA_NEIGH_REMOTE)
|| !(n->flags & ZEBRA_NEIGH_REMOTE_NH))
return 0;
if (!zl3vni->svi_if || !if_is_operative(zl3vni->svi_if))
return 0;
dplane_rem_neigh_delete(zl3vni->svi_if, &n->ip);
return 0;
}
/* add remote vtep as a neigh entry */
static int zl3vni_remote_nh_add(struct zebra_l3vni *zl3vni,
const struct ipaddr *vtep_ip,
const struct ethaddr *rmac,
const struct prefix *host_prefix)
{
struct zebra_neigh *nh = NULL;
/* Create the next hop entry, or update its mac, if necessary. */
nh = zl3vni_nh_lookup(zl3vni, vtep_ip);
if (!nh) {
nh = zl3vni_nh_add(zl3vni, vtep_ip, rmac);
if (!nh) {
zlog_debug(
"Failed to add NH %pIA as Neigh (RMAC %pEA L3-VNI %u prefix %pFX)",
vtep_ip, rmac, zl3vni->vni, host_prefix);
return -1;
}
/* install the nh neigh in kernel */
zl3vni_nh_install(zl3vni, nh);
} else if (memcmp(&nh->emac, rmac, ETH_ALEN) != 0) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"L3VNI %u RMAC change(%pEA --> %pEA) for nexthop %pIA, prefix %pFX",
zl3vni->vni, &nh->emac, rmac, vtep_ip,
host_prefix);
memcpy(&nh->emac, rmac, ETH_ALEN);
/* install (update) the nh neigh in kernel */
zl3vni_nh_install(zl3vni, nh);
}
rb_find_or_add_host(&nh->host_rb, host_prefix);
return 0;
}
/* handle nh neigh delete */
static void zl3vni_remote_nh_del(struct zebra_l3vni *zl3vni,
struct zebra_neigh *nh,
struct prefix *host_prefix)
{
rb_delete_host(&nh->host_rb, host_prefix);
if (RB_EMPTY(host_rb_tree_entry, &nh->host_rb)) {
/* uninstall from kernel */
zl3vni_nh_uninstall(zl3vni, nh);
/* delete the nh entry */
zl3vni_nh_del(zl3vni, nh);
}
}
/* handle neigh update from kernel - the only thing of interest is to
* readd stale entries.
*/
static int zl3vni_local_nh_add_update(struct zebra_l3vni *zl3vni,
struct ipaddr *ip, uint16_t state)
{
#ifdef GNU_LINUX
struct zebra_neigh *n = NULL;
n = zl3vni_nh_lookup(zl3vni, ip);
if (!n)
return 0;
/* all next hop neigh are remote and installed by frr.
* If the kernel has aged this entry, re-install.
*/
if (state & NUD_STALE)
zl3vni_nh_install(zl3vni, n);
#endif
return 0;
}
/* handle neigh delete from kernel */
static int zl3vni_local_nh_del(struct zebra_l3vni *zl3vni, struct ipaddr *ip)
{
struct zebra_neigh *n = NULL;
n = zl3vni_nh_lookup(zl3vni, ip);
if (!n)
return 0;
/* all next hop neigh are remote and installed by frr.
* If we get an age out notification for these neigh entries, we have to
* install it back
*/
zl3vni_nh_install(zl3vni, n);
return 0;
}
/*
* Hash function for L3 VNI.
*/
static unsigned int l3vni_hash_keymake(const void *p)
{
const struct zebra_l3vni *zl3vni = p;
return jhash_1word(zl3vni->vni, 0);
}
/*
* Compare 2 L3 VNI hash entries.
*/
static bool l3vni_hash_cmp(const void *p1, const void *p2)
{
const struct zebra_l3vni *zl3vni1 = p1;
const struct zebra_l3vni *zl3vni2 = p2;
return (zl3vni1->vni == zl3vni2->vni);
}
/*
* Callback to allocate L3 VNI hash entry.
*/
static void *zl3vni_alloc(void *p)
{
struct zebra_l3vni *zl3vni = NULL;
const struct zebra_l3vni *tmp_l3vni = p;
zl3vni = XCALLOC(MTYPE_ZL3VNI, sizeof(struct zebra_l3vni));
zl3vni->vni = tmp_l3vni->vni;
return ((void *)zl3vni);
}
/*
* Look up L3 VNI hash entry.
*/
struct zebra_l3vni *zl3vni_lookup(vni_t vni)
{
struct zebra_l3vni tmp_l3vni;
struct zebra_l3vni *zl3vni = NULL;
memset(&tmp_l3vni, 0, sizeof(tmp_l3vni));
tmp_l3vni.vni = vni;
zl3vni = hash_lookup(zrouter.l3vni_table, &tmp_l3vni);
return zl3vni;
}
/*
* Add L3 VNI hash entry.
*/
static struct zebra_l3vni *zl3vni_add(vni_t vni, vrf_id_t vrf_id)
{
struct zebra_l3vni tmp_zl3vni;
struct zebra_l3vni *zl3vni = NULL;
memset(&tmp_zl3vni, 0, sizeof(tmp_zl3vni));
tmp_zl3vni.vni = vni;
zl3vni = hash_get(zrouter.l3vni_table, &tmp_zl3vni, zl3vni_alloc);
zl3vni->vrf_id = vrf_id;
zl3vni->svi_if = NULL;
zl3vni->vxlan_if = NULL;
zl3vni->l2vnis = list_new();
zl3vni->l2vnis->cmp = zebra_evpn_list_cmp;
/* Create hash table for remote RMAC */
zl3vni->rmac_table = zebra_mac_db_create("Zebra L3-VNI RMAC-Table");
/* Create hash table for neighbors */
zl3vni->nh_table = zebra_neigh_db_create("Zebra L3-VNI next-hop table");
return zl3vni;
}
/*
* Delete L3 VNI hash entry.
*/
static int zl3vni_del(struct zebra_l3vni *zl3vni)
{
struct zebra_l3vni *tmp_zl3vni;
/* free the list of l2vnis */
list_delete(&zl3vni->l2vnis);
zl3vni->l2vnis = NULL;
/* Free the rmac table */
hash_free(zl3vni->rmac_table);
zl3vni->rmac_table = NULL;
/* Free the nh table */
hash_free(zl3vni->nh_table);
zl3vni->nh_table = NULL;
/* Free the VNI hash entry and allocated memory. */
tmp_zl3vni = hash_release(zrouter.l3vni_table, zl3vni);
XFREE(MTYPE_ZL3VNI, tmp_zl3vni);
return 0;
}
static int zl3vni_map_to_vxlan_if_ns(struct ns *ns,
void *_zl3vni,
void **_pifp)
{
struct zebra_ns *zns = ns->info;
struct zebra_l3vni *zl3vni = (struct zebra_l3vni *)_zl3vni;
struct route_node *rn = NULL;
struct interface *ifp = NULL;
struct zebra_vrf *zvrf;
zvrf = zebra_vrf_get_evpn();
assert(_pifp);
/* loop through all vxlan-interface */
for (rn = route_top(zns->if_table); rn; rn = route_next(rn)) {
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan *vxl = NULL;
ifp = (struct interface *)rn->info;
if (!ifp)
continue;
zif = ifp->info;
if (!zif || zif->zif_type != ZEBRA_IF_VXLAN)
continue;
vxl = &zif->l2info.vxl;
if (vxl->vni != zl3vni->vni)
continue;
/* link of VXLAN interface should be in zebra_evpn_vrf */
if (zvrf->zns->ns_id != vxl->link_nsid) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Intf %s(%u) VNI %u, link not in same "
"namespace than BGP EVPN core instance ",
ifp->name, ifp->ifindex, vxl->vni);
continue;
}
zl3vni->local_vtep_ip = vxl->vtep_ip;
*_pifp = (void *)ifp;
return NS_WALK_STOP;
}
return NS_WALK_CONTINUE;
}
struct interface *zl3vni_map_to_vxlan_if(struct zebra_l3vni *zl3vni)
{
struct interface **p_ifp;
struct interface *ifp = NULL;
p_ifp = &ifp;
ns_walk_func(zl3vni_map_to_vxlan_if_ns,
(void *)zl3vni, (void **)p_ifp);
return ifp;
}
struct interface *zl3vni_map_to_svi_if(struct zebra_l3vni *zl3vni)
{
struct zebra_if *zif = NULL; /* zebra_if for vxlan_if */
struct zebra_l2info_vxlan *vxl = NULL; /* l2 info for vxlan_if */
if (!zl3vni)
return NULL;
if (!zl3vni->vxlan_if)
return NULL;
zif = zl3vni->vxlan_if->info;
if (!zif)
return NULL;
vxl = &zif->l2info.vxl;
return zvni_map_to_svi(vxl->access_vlan, zif->brslave_info.br_if);
}
struct interface *zl3vni_map_to_mac_vlan_if(struct zebra_l3vni *zl3vni)
{
struct zebra_if *zif = NULL; /* zebra_if for vxlan_if */
if (!zl3vni)
return NULL;
if (!zl3vni->vxlan_if)
return NULL;
zif = zl3vni->vxlan_if->info;
if (!zif)
return NULL;
return zebra_evpn_map_to_macvlan(zif->brslave_info.br_if,
zl3vni->svi_if);
}
struct zebra_l3vni *zl3vni_from_vrf(vrf_id_t vrf_id)
{
struct zebra_vrf *zvrf = NULL;
zvrf = zebra_vrf_lookup_by_id(vrf_id);
if (!zvrf)
return NULL;
return zl3vni_lookup(zvrf->l3vni);
}
static int zl3vni_from_svi_ns(struct ns *ns, void *_in_param, void **_p_zl3vni)
{
struct zebra_ns *zns = ns->info;
struct zebra_l3vni **p_zl3vni = (struct zebra_l3vni **)_p_zl3vni;
struct zebra_from_svi_param *in_param =
(struct zebra_from_svi_param *)_in_param;
struct route_node *rn = NULL;
struct interface *tmp_if = NULL;
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan *vxl = NULL;
assert(in_param && p_zl3vni);
/* loop through all vxlan-interface */
for (rn = route_top(zns->if_table); rn; rn = route_next(rn)) {
tmp_if = (struct interface *)rn->info;
if (!tmp_if)
continue;
zif = tmp_if->info;
if (!zif || zif->zif_type != ZEBRA_IF_VXLAN)
continue;
if (!if_is_operative(tmp_if))
continue;
vxl = &zif->l2info.vxl;
if (zif->brslave_info.br_if != in_param->br_if)
continue;
if (!in_param->bridge_vlan_aware
|| vxl->access_vlan == in_param->vid) {
*p_zl3vni = zl3vni_lookup(vxl->vni);
return NS_WALK_STOP;
}
}
return NS_WALK_CONTINUE;
}
/*
* Map SVI and associated bridge to a VNI. This is invoked upon getting
* neighbor notifications, to see if they are of interest.
*/
static struct zebra_l3vni *zl3vni_from_svi(struct interface *ifp,
struct interface *br_if)
{
struct zebra_l3vni *zl3vni = NULL;
struct zebra_if *zif = NULL;
struct zebra_l2info_bridge *br = NULL;
struct zebra_from_svi_param in_param = {};
struct zebra_l3vni **p_zl3vni;
if (!br_if)
return NULL;
/* Make sure the linked interface is a bridge. */
if (!IS_ZEBRA_IF_BRIDGE(br_if))
return NULL;
in_param.br_if = br_if;
/* Determine if bridge is VLAN-aware or not */
zif = br_if->info;
assert(zif);
br = &zif->l2info.br;
in_param.bridge_vlan_aware = br->vlan_aware;
if (in_param.bridge_vlan_aware) {
struct zebra_l2info_vlan *vl;
if (!IS_ZEBRA_IF_VLAN(ifp))
return NULL;
zif = ifp->info;
assert(zif);
vl = &zif->l2info.vl;
in_param.vid = vl->vid;
}
/* See if this interface (or interface plus VLAN Id) maps to a VxLAN */
/* TODO: Optimize with a hash. */
p_zl3vni = &zl3vni;
ns_walk_func(zl3vni_from_svi_ns, (void *)&in_param, (void **)p_zl3vni);
return zl3vni;
}
vni_t vni_id_from_svi(struct interface *ifp, struct interface *br_if)
{
vni_t vni = 0;
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
/* Check if an L3VNI belongs to this SVI interface.
* If not, check if an L2VNI belongs to this SVI interface.
*/
zl3vni = zl3vni_from_svi(ifp, br_if);
if (zl3vni)
vni = zl3vni->vni;
else {
zevpn = zebra_evpn_from_svi(ifp, br_if);
if (zevpn)
vni = zevpn->vni;
}
return vni;
}
static inline void zl3vni_get_vrr_rmac(struct zebra_l3vni *zl3vni,
struct ethaddr *rmac)
{
if (!zl3vni)
return;
if (!is_l3vni_oper_up(zl3vni))
return;
if (zl3vni->mac_vlan_if && if_is_operative(zl3vni->mac_vlan_if))
memcpy(rmac->octet, zl3vni->mac_vlan_if->hw_addr, ETH_ALEN);
}
/*
* Inform BGP about l3-vni.
*/
static int zl3vni_send_add_to_client(struct zebra_l3vni *zl3vni)
{
struct stream *s = NULL;
struct zserv *client = NULL;
struct ethaddr svi_rmac, vrr_rmac = {.octet = {0} };
struct zebra_vrf *zvrf;
bool is_anycast_mac = true;
client = zserv_find_client(ZEBRA_ROUTE_BGP, 0);
/* BGP may not be running. */
if (!client)
return 0;
zvrf = zebra_vrf_lookup_by_id(zl3vni->vrf_id);
assert(zvrf);
/* get the svi and vrr rmac values */
memset(&svi_rmac, 0, sizeof(svi_rmac));
zl3vni_get_svi_rmac(zl3vni, &svi_rmac);
zl3vni_get_vrr_rmac(zl3vni, &vrr_rmac);
/* In absence of vrr mac use svi mac as anycast MAC value */
if (is_zero_mac(&vrr_rmac)) {
memcpy(&vrr_rmac, &svi_rmac, ETH_ALEN);
is_anycast_mac = false;
}
s = stream_new(ZEBRA_MAX_PACKET_SIZ);
/* The message is used for both vni add and/or update like
* vrr mac is added for l3vni SVI.
*/
zclient_create_header(s, ZEBRA_L3VNI_ADD, zl3vni_vrf_id(zl3vni));
stream_putl(s, zl3vni->vni);
stream_put(s, &svi_rmac, sizeof(struct ethaddr));
stream_put_in_addr(s, &zl3vni->local_vtep_ip);
stream_put(s, &zl3vni->filter, sizeof(int));
stream_putl(s, zl3vni->svi_if->ifindex);
stream_put(s, &vrr_rmac, sizeof(struct ethaddr));
stream_putl(s, is_anycast_mac);
/* Write packet size. */
stream_putw_at(s, 0, stream_get_endp(s));
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Send L3_VNI_ADD %u VRF %s RMAC %pEA VRR %pEA local-ip %pI4 filter %s to %s",
zl3vni->vni, vrf_id_to_name(zl3vni_vrf_id(zl3vni)),
&svi_rmac, &vrr_rmac, &zl3vni->local_vtep_ip,
CHECK_FLAG(zl3vni->filter, PREFIX_ROUTES_ONLY)
? "prefix-routes-only"
: "none",
zebra_route_string(client->proto));
client->l3vniadd_cnt++;
return zserv_send_message(client, s);
}
/*
* Inform BGP about local l3-VNI deletion.
*/
static int zl3vni_send_del_to_client(struct zebra_l3vni *zl3vni)
{
struct stream *s = NULL;
struct zserv *client = NULL;
client = zserv_find_client(ZEBRA_ROUTE_BGP, 0);
/* BGP may not be running. */
if (!client)
return 0;
s = stream_new(ZEBRA_MAX_PACKET_SIZ);
zclient_create_header(s, ZEBRA_L3VNI_DEL, zl3vni_vrf_id(zl3vni));
stream_putl(s, zl3vni->vni);
/* Write packet size. */
stream_putw_at(s, 0, stream_get_endp(s));
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Send L3_VNI_DEL %u VRF %s to %s", zl3vni->vni,
vrf_id_to_name(zl3vni_vrf_id(zl3vni)),
zebra_route_string(client->proto));
client->l3vnidel_cnt++;
return zserv_send_message(client, s);
}
static void zebra_vxlan_process_l3vni_oper_up(struct zebra_l3vni *zl3vni)
{
if (!zl3vni)
return;
/* send l3vni add to BGP */
zl3vni_send_add_to_client(zl3vni);
}
static void zebra_vxlan_process_l3vni_oper_down(struct zebra_l3vni *zl3vni)
{
if (!zl3vni)
return;
/* send l3-vni del to BGP*/
zl3vni_send_del_to_client(zl3vni);
}
static void zevpn_add_to_l3vni_list(struct hash_bucket *bucket, void *ctxt)
{
struct zebra_evpn *zevpn = (struct zebra_evpn *)bucket->data;
struct zebra_l3vni *zl3vni = (struct zebra_l3vni *)ctxt;
if (zevpn->vrf_id == zl3vni_vrf_id(zl3vni))
listnode_add_sort(zl3vni->l2vnis, zevpn);
}
/*
* Handle transition of vni from l2 to l3 and vice versa.
* This function handles only the L2VNI add/delete part of
* the above transition.
* L3VNI add/delete is handled by the calling functions.
*/
static int zebra_vxlan_handle_vni_transition(struct zebra_vrf *zvrf, vni_t vni,
int add)
{
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
/* There is a possibility that VNI notification was already received
* from kernel and we programmed it as L2-VNI
* In such a case we need to delete this L2-VNI first, so
* that it can be reprogrammed as L3-VNI in the system. It is also
* possible that the vrf-vni mapping is removed from FRR while the vxlan
* interface is still present in kernel. In this case to keep it
* symmetric, we will delete the l3-vni and reprogram it as l2-vni
*/
if (add) {
/* Locate hash entry */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn)
return 0;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Del L2-VNI %u - transition to L3-VNI", vni);
/* Delete EVPN from BGP. */
zebra_evpn_send_del_to_client(zevpn);
zebra_evpn_neigh_del_all(zevpn, 0, 0, DEL_ALL_NEIGH);
zebra_evpn_mac_del_all(zevpn, 0, 0, DEL_ALL_MAC);
/* Free up all remote VTEPs, if any. */
zebra_evpn_vtep_del_all(zevpn, 1);
zl3vni = zl3vni_from_vrf(zevpn->vrf_id);
if (zl3vni)
listnode_delete(zl3vni->l2vnis, zevpn);
/* Delete the hash entry. */
if (zebra_evpn_vxlan_del(zevpn)) {
flog_err(EC_ZEBRA_VNI_DEL_FAILED,
"Failed to del EVPN hash %p, VNI %u", zevpn,
zevpn->vni);
return -1;
}
} else {
struct zebra_ns *zns;
struct route_node *rn;
struct interface *ifp;
struct zebra_if *zif;
struct zebra_l2info_vxlan *vxl;
struct interface *vlan_if;
bool found = false;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Adding L2-VNI %u - transition from L3-VNI",
vni);
/* Find VxLAN interface for this VNI. */
zns = zebra_ns_lookup(NS_DEFAULT);
for (rn = route_top(zns->if_table); rn; rn = route_next(rn)) {
ifp = (struct interface *)rn->info;
if (!ifp)
continue;
zif = ifp->info;
if (!zif || zif->zif_type != ZEBRA_IF_VXLAN)
continue;
vxl = &zif->l2info.vxl;
if (vxl->vni == vni) {
found = true;
break;
}
}
if (!found) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_err(
"Adding L2-VNI - Failed to find VxLAN interface for VNI %u",
vni);
return -1;
}
/* Create VNI hash entry for L2VNI */
zevpn = zebra_evpn_lookup(vni);
if (zevpn)
return 0;
zevpn = zebra_evpn_add(vni);
/* Find bridge interface for the VNI */
vlan_if = zvni_map_to_svi(vxl->access_vlan,
zif->brslave_info.br_if);
if (vlan_if) {
zevpn->vrf_id = vlan_if->vrf->vrf_id;
zl3vni = zl3vni_from_vrf(vlan_if->vrf->vrf_id);
if (zl3vni)
listnode_add_sort_nodup(zl3vni->l2vnis, zevpn);
}
zevpn->vxlan_if = ifp;
zevpn->local_vtep_ip = vxl->vtep_ip;
/* Inform BGP if the VNI is up and mapped to a bridge. */
if (if_is_operative(ifp) && zif->brslave_info.br_if) {
zebra_evpn_send_add_to_client(zevpn);
zebra_evpn_read_mac_neigh(zevpn, ifp);
}
}
return 0;
}
/* delete and uninstall rmac hash entry */
static void zl3vni_del_rmac_hash_entry(struct hash_bucket *bucket, void *ctx)
{
struct zebra_mac *zrmac = NULL;
struct zebra_l3vni *zl3vni = NULL;
zrmac = (struct zebra_mac *)bucket->data;
zl3vni = (struct zebra_l3vni *)ctx;
zl3vni_rmac_uninstall(zl3vni, zrmac);
/* Send RMAC for FPM processing */
hook_call(zebra_rmac_update, zrmac, zl3vni, true, "RMAC deleted");
zl3vni_rmac_del(zl3vni, zrmac);
}
/* delete and uninstall nh hash entry */
static void zl3vni_del_nh_hash_entry(struct hash_bucket *bucket, void *ctx)
{
struct zebra_neigh *n = NULL;
struct zebra_l3vni *zl3vni = NULL;
n = (struct zebra_neigh *)bucket->data;
zl3vni = (struct zebra_l3vni *)ctx;
zl3vni_nh_uninstall(zl3vni, n);
zl3vni_nh_del(zl3vni, n);
}
/* re-add remote rmac if needed */
static int zebra_vxlan_readd_remote_rmac(struct zebra_l3vni *zl3vni,
struct ethaddr *rmac)
{
struct zebra_mac *zrmac = NULL;
zrmac = zl3vni_rmac_lookup(zl3vni, rmac);
if (!zrmac)
return 0;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Del remote RMAC %pEA L3VNI %u - readd",
rmac, zl3vni->vni);
zl3vni_rmac_install(zl3vni, zrmac);
return 0;
}
/* Public functions */
int is_l3vni_for_prefix_routes_only(vni_t vni)
{
struct zebra_l3vni *zl3vni = NULL;
zl3vni = zl3vni_lookup(vni);
if (!zl3vni)
return 0;
return CHECK_FLAG(zl3vni->filter, PREFIX_ROUTES_ONLY) ? 1 : 0;
}
/* handle evpn route in vrf table */
void zebra_vxlan_evpn_vrf_route_add(vrf_id_t vrf_id, const struct ethaddr *rmac,
const struct ipaddr *vtep_ip,
const struct prefix *host_prefix)
{
struct zebra_l3vni *zl3vni = NULL;
struct ipaddr ipv4_vtep;
zl3vni = zl3vni_from_vrf(vrf_id);
if (!zl3vni || !is_l3vni_oper_up(zl3vni))
return;
/*
* add the next hop neighbor -
* neigh to be installed is the ipv6 nexthop neigh
*/
zl3vni_remote_nh_add(zl3vni, vtep_ip, rmac, host_prefix);
/*
* if the remote vtep is a ipv4 mapped ipv6 address convert it to ipv4
* address. Rmac is programmed against the ipv4 vtep because we only
* support ipv4 tunnels in the h/w right now
*/
memset(&ipv4_vtep, 0, sizeof(ipv4_vtep));
ipv4_vtep.ipa_type = IPADDR_V4;
if (vtep_ip->ipa_type == IPADDR_V6)
ipv4_mapped_ipv6_to_ipv4(&vtep_ip->ipaddr_v6,
&(ipv4_vtep.ipaddr_v4));
else
memcpy(&(ipv4_vtep.ipaddr_v4), &vtep_ip->ipaddr_v4,
sizeof(struct in_addr));
/*
* add the rmac - remote rmac to be installed is against the ipv4
* nexthop address
*/
zl3vni_remote_rmac_add(zl3vni, rmac, &ipv4_vtep);
}
/* handle evpn vrf route delete */
void zebra_vxlan_evpn_vrf_route_del(vrf_id_t vrf_id,
struct ipaddr *vtep_ip,
struct prefix *host_prefix)
{
struct zebra_l3vni *zl3vni = NULL;
struct zebra_neigh *nh = NULL;
struct zebra_mac *zrmac = NULL;
zl3vni = zl3vni_from_vrf(vrf_id);
if (!zl3vni)
return;
/* find the next hop entry and rmac entry */
nh = zl3vni_nh_lookup(zl3vni, vtep_ip);
if (!nh)
return;
zrmac = zl3vni_rmac_lookup(zl3vni, &nh->emac);
/* delete the next hop entry */
zl3vni_remote_nh_del(zl3vni, nh, host_prefix);
/* delete the rmac entry */
if (zrmac)
zl3vni_remote_rmac_del(zl3vni, zrmac, vtep_ip);
}
void zebra_vxlan_print_specific_rmac_l3vni(struct vty *vty, vni_t l3vni,
struct ethaddr *rmac, bool use_json)
{
struct zebra_l3vni *zl3vni = NULL;
struct zebra_mac *zrmac = NULL;
json_object *json = NULL;
if (!is_evpn_enabled()) {
if (use_json)
vty_out(vty, "{}\n");
return;
}
if (use_json)
json = json_object_new_object();
zl3vni = zl3vni_lookup(l3vni);
if (!zl3vni) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% L3-VNI %u doesn't exist\n", l3vni);
return;
}
zrmac = zl3vni_rmac_lookup(zl3vni, rmac);
if (!zrmac) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty,
"%% Requested RMAC doesn't exist in L3-VNI %u\n",
l3vni);
return;
}
zl3vni_print_rmac(zrmac, vty, json);
if (use_json)
vty_json(vty, json);
}
void zebra_vxlan_print_rmacs_l3vni(struct vty *vty, vni_t l3vni, bool use_json)
{
struct zebra_l3vni *zl3vni;
uint32_t num_rmacs;
struct rmac_walk_ctx wctx;
json_object *json = NULL;
if (!is_evpn_enabled())
return;
zl3vni = zl3vni_lookup(l3vni);
if (!zl3vni) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% L3-VNI %u does not exist\n", l3vni);
return;
}
num_rmacs = hashcount(zl3vni->rmac_table);
if (!num_rmacs)
return;
if (use_json)
json = json_object_new_object();
memset(&wctx, 0, sizeof(wctx));
wctx.vty = vty;
wctx.json = json;
if (!use_json) {
vty_out(vty, "Number of Remote RMACs known for this VNI: %u\n",
num_rmacs);
vty_out(vty, "%-17s %-21s\n", "MAC", "Remote VTEP");
} else
json_object_int_add(json, "numRmacs", num_rmacs);
hash_iterate(zl3vni->rmac_table, zl3vni_print_rmac_hash, &wctx);
if (use_json)
vty_json(vty, json);
}
void zebra_vxlan_print_rmacs_all_l3vni(struct vty *vty, bool use_json)
{
json_object *json = NULL;
void *args[2];
if (!is_evpn_enabled()) {
if (use_json)
vty_out(vty, "{}\n");
return;
}
if (use_json)
json = json_object_new_object();
args[0] = vty;
args[1] = json;
hash_iterate(zrouter.l3vni_table,
(void (*)(struct hash_bucket *,
void *))zl3vni_print_rmac_hash_all_vni,
args);
if (use_json)
vty_json(vty, json);
}
void zebra_vxlan_print_specific_nh_l3vni(struct vty *vty, vni_t l3vni,
struct ipaddr *ip, bool use_json)
{
struct zebra_l3vni *zl3vni = NULL;
struct zebra_neigh *n = NULL;
json_object *json = NULL;
if (!is_evpn_enabled()) {
if (use_json)
vty_out(vty, "{}\n");
return;
}
if (use_json)
json = json_object_new_object();
zl3vni = zl3vni_lookup(l3vni);
if (!zl3vni) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% L3-VNI %u does not exist\n", l3vni);
return;
}
n = zl3vni_nh_lookup(zl3vni, ip);
if (!n) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty,
"%% Requested next-hop not present for L3-VNI %u",
l3vni);
return;
}
zl3vni_print_nh(n, vty, json);
if (use_json)
vty_json(vty, json);
}
void zebra_vxlan_print_nh_l3vni(struct vty *vty, vni_t l3vni, bool use_json)
{
uint32_t num_nh;
struct nh_walk_ctx wctx;
json_object *json = NULL;
struct zebra_l3vni *zl3vni = NULL;
if (!is_evpn_enabled())
return;
zl3vni = zl3vni_lookup(l3vni);
if (!zl3vni) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% L3-VNI %u does not exist\n", l3vni);
return;
}
num_nh = hashcount(zl3vni->nh_table);
if (!num_nh)
return;
if (use_json)
json = json_object_new_object();
wctx.vty = vty;
wctx.json = json;
if (!use_json) {
vty_out(vty, "Number of NH Neighbors known for this VNI: %u\n",
num_nh);
vty_out(vty, "%-15s %-17s\n", "IP", "RMAC");
} else
json_object_int_add(json, "numNextHops", num_nh);
hash_iterate(zl3vni->nh_table, zl3vni_print_nh_hash, &wctx);
if (use_json)
vty_json(vty, json);
}
void zebra_vxlan_print_nh_all_l3vni(struct vty *vty, bool use_json)
{
json_object *json = NULL;
void *args[2];
if (!is_evpn_enabled()) {
if (use_json)
vty_out(vty, "{}\n");
return;
}
if (use_json)
json = json_object_new_object();
args[0] = vty;
args[1] = json;
hash_iterate(zrouter.l3vni_table,
(void (*)(struct hash_bucket *,
void *))zl3vni_print_nh_hash_all_vni,
args);
if (use_json)
vty_json(vty, json);
}
/*
* Display L3 VNI information (VTY command handler).
*/
void zebra_vxlan_print_l3vni(struct vty *vty, vni_t vni, bool use_json)
{
void *args[2];
json_object *json = NULL;
struct zebra_l3vni *zl3vni = NULL;
if (!is_evpn_enabled()) {
if (use_json)
vty_out(vty, "{}\n");
return;
}
zl3vni = zl3vni_lookup(vni);
if (!zl3vni) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
if (use_json)
json = json_object_new_object();
args[0] = vty;
args[1] = json;
zl3vni_print(zl3vni, (void *)args);
if (use_json)
vty_json(vty, json);
}
void zebra_vxlan_print_vrf_vni(struct vty *vty, struct zebra_vrf *zvrf,
json_object *json_vrfs)
{
char buf[ETHER_ADDR_STRLEN];
struct zebra_l3vni *zl3vni = NULL;
zl3vni = zl3vni_lookup(zvrf->l3vni);
if (!zl3vni)
return;
if (!json_vrfs) {
vty_out(vty, "%-37s %-10u %-20s %-20s %-5s %-18s\n",
zvrf_name(zvrf), zl3vni->vni,
zl3vni_vxlan_if_name(zl3vni),
zl3vni_svi_if_name(zl3vni), zl3vni_state2str(zl3vni),
zl3vni_rmac2str(zl3vni, buf, sizeof(buf)));
} else {
json_object *json_vrf = NULL;
json_vrf = json_object_new_object();
json_object_string_add(json_vrf, "vrf", zvrf_name(zvrf));
json_object_int_add(json_vrf, "vni", zl3vni->vni);
json_object_string_add(json_vrf, "vxlanIntf",
zl3vni_vxlan_if_name(zl3vni));
json_object_string_add(json_vrf, "sviIntf",
zl3vni_svi_if_name(zl3vni));
json_object_string_add(json_vrf, "state",
zl3vni_state2str(zl3vni));
json_object_string_add(
json_vrf, "routerMac",
zl3vni_rmac2str(zl3vni, buf, sizeof(buf)));
json_object_array_add(json_vrfs, json_vrf);
}
}
/*
* Display Neighbors for a VNI (VTY command handler).
*/
void zebra_vxlan_print_neigh_vni(struct vty *vty, struct zebra_vrf *zvrf,
vni_t vni, bool use_json)
{
struct zebra_evpn *zevpn;
uint32_t num_neigh;
struct neigh_walk_ctx wctx;
json_object *json = NULL;
if (!is_evpn_enabled())
return;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
num_neigh = hashcount(zevpn->neigh_table);
if (!num_neigh)
return;
if (use_json)
json = json_object_new_object();
/* Since we have IPv6 addresses to deal with which can vary widely in
* size, we try to be a bit more elegant in display by first computing
* the maximum width.
*/
memset(&wctx, 0, sizeof(wctx));
wctx.zevpn = zevpn;
wctx.vty = vty;
wctx.addr_width = 15;
wctx.json = json;
hash_iterate(zevpn->neigh_table, zebra_evpn_find_neigh_addr_width,
&wctx);
if (!use_json) {
vty_out(vty,
"Number of ARPs (local and remote) known for this VNI: %u\n",
num_neigh);
zebra_evpn_print_neigh_hdr(vty, &wctx);
} else
json_object_int_add(json, "numArpNd", num_neigh);
hash_iterate(zevpn->neigh_table, zebra_evpn_print_neigh_hash, &wctx);
if (use_json)
vty_json(vty, json);
}
/*
* Display neighbors across all VNIs (VTY command handler).
*/
void zebra_vxlan_print_neigh_all_vni(struct vty *vty, struct zebra_vrf *zvrf,
bool print_dup, bool use_json)
{
json_object *json = NULL;
void *args[3];
if (!is_evpn_enabled())
return;
if (use_json)
json = json_object_new_object();
args[0] = vty;
args[1] = json;
args[2] = (void *)(ptrdiff_t)print_dup;
hash_iterate(zvrf->evpn_table,
(void (*)(struct hash_bucket *,
void *))zevpn_print_neigh_hash_all_evpn,
args);
if (use_json)
vty_json(vty, json);
}
/*
* Display neighbors across all VNIs in detail(VTY command handler).
*/
void zebra_vxlan_print_neigh_all_vni_detail(struct vty *vty,
struct zebra_vrf *zvrf,
bool print_dup, bool use_json)
{
json_object *json = NULL;
void *args[3];
if (!is_evpn_enabled())
return;
if (use_json)
json = json_object_new_object();
args[0] = vty;
args[1] = json;
args[2] = (void *)(ptrdiff_t)print_dup;
hash_iterate(zvrf->evpn_table,
(void (*)(struct hash_bucket *,
void *))zevpn_print_neigh_hash_all_evpn_detail,
args);
if (use_json)
vty_json(vty, json);
}
/*
* Display specific neighbor for a VNI, if present (VTY command handler).
*/
void zebra_vxlan_print_specific_neigh_vni(struct vty *vty,
struct zebra_vrf *zvrf, vni_t vni,
struct ipaddr *ip, bool use_json)
{
struct zebra_evpn *zevpn;
struct zebra_neigh *n;
json_object *json = NULL;
if (!is_evpn_enabled())
return;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
n = zebra_evpn_neigh_lookup(zevpn, ip);
if (!n) {
if (!use_json)
vty_out(vty,
"%% Requested neighbor does not exist in VNI %u\n",
vni);
return;
}
if (use_json)
json = json_object_new_object();
zebra_evpn_print_neigh(n, vty, json);
if (use_json)
vty_json(vty, json);
}
/*
* Display neighbors for a VNI from specific VTEP (VTY command handler).
* By definition, these are remote neighbors.
*/
void zebra_vxlan_print_neigh_vni_vtep(struct vty *vty, struct zebra_vrf *zvrf,
vni_t vni, struct in_addr vtep_ip,
bool use_json)
{
struct zebra_evpn *zevpn;
uint32_t num_neigh;
struct neigh_walk_ctx wctx;
json_object *json = NULL;
if (!is_evpn_enabled())
return;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
num_neigh = hashcount(zevpn->neigh_table);
if (!num_neigh)
return;
if (use_json)
json = json_object_new_object();
memset(&wctx, 0, sizeof(wctx));
wctx.zevpn = zevpn;
wctx.vty = vty;
wctx.addr_width = 15;
wctx.flags = SHOW_REMOTE_NEIGH_FROM_VTEP;
wctx.r_vtep_ip = vtep_ip;
wctx.json = json;
hash_iterate(zevpn->neigh_table, zebra_evpn_find_neigh_addr_width,
&wctx);
hash_iterate(zevpn->neigh_table, zebra_evpn_print_neigh_hash, &wctx);
if (use_json)
vty_json(vty, json);
}
/*
* Display Duplicate detected Neighbors for a VNI
* (VTY command handler).
*/
void zebra_vxlan_print_neigh_vni_dad(struct vty *vty,
struct zebra_vrf *zvrf,
vni_t vni,
bool use_json)
{
struct zebra_evpn *zevpn;
uint32_t num_neigh;
struct neigh_walk_ctx wctx;
json_object *json = NULL;
if (!is_evpn_enabled())
return;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
num_neigh = hashcount(zevpn->neigh_table);
if (!num_neigh)
return;
num_neigh = num_dup_detected_neighs(zevpn);
if (!num_neigh)
return;
if (use_json)
json = json_object_new_object();
/* Since we have IPv6 addresses to deal with which can vary widely in
* size, we try to be a bit more elegant in display by first computing
* the maximum width.
*/
memset(&wctx, 0, sizeof(wctx));
wctx.zevpn = zevpn;
wctx.vty = vty;
wctx.addr_width = 15;
wctx.json = json;
hash_iterate(zevpn->neigh_table, zebra_evpn_find_neigh_addr_width,
&wctx);
if (!use_json) {
vty_out(vty,
"Number of ARPs (local and remote) known for this VNI: %u\n",
num_neigh);
vty_out(vty, "%*s %-6s %-8s %-17s %-30s\n",
-wctx.addr_width, "IP", "Type",
"State", "MAC", "Remote ES/VTEP");
} else
json_object_int_add(json, "numArpNd", num_neigh);
hash_iterate(zevpn->neigh_table, zebra_evpn_print_dad_neigh_hash,
&wctx);
if (use_json)
vty_json(vty, json);
}
/*
* Display MACs for a VNI (VTY command handler).
*/
void zebra_vxlan_print_macs_vni(struct vty *vty, struct zebra_vrf *zvrf,
vni_t vni, bool use_json, bool detail)
{
struct zebra_evpn *zevpn;
uint32_t num_macs;
struct mac_walk_ctx wctx;
json_object *json = NULL;
json_object *json_mac = NULL;
if (!is_evpn_enabled())
return;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
num_macs = num_valid_macs(zevpn);
if (!num_macs)
return;
if (use_json) {
json = json_object_new_object();
json_mac = json_object_new_object();
}
memset(&wctx, 0, sizeof(wctx));
wctx.zevpn = zevpn;
wctx.vty = vty;
wctx.json = json_mac;
if (!use_json) {
if (detail) {
vty_out(vty, "\nVNI %u #MACs (local and remote) %u\n\n",
zevpn->vni, num_macs);
} else {
vty_out(vty,
"Number of MACs (local and remote) known for this VNI: %u\n",
num_macs);
vty_out(vty,
"Flags: N=sync-neighs, I=local-inactive, P=peer-active, X=peer-proxy\n");
vty_out(vty, "%-17s %-6s %-5s %-30s %-5s %s\n", "MAC",
"Type", "Flags", "Intf/Remote ES/VTEP", "VLAN",
"Seq #'s");
}
} else
json_object_int_add(json, "numMacs", num_macs);
if (detail)
hash_iterate(zevpn->mac_table, zebra_evpn_print_mac_hash_detail,
&wctx);
else
hash_iterate(zevpn->mac_table, zebra_evpn_print_mac_hash,
&wctx);
if (use_json) {
json_object_object_add(json, "macs", json_mac);
vty_json(vty, json);
}
}
/*
* Display MACs for all VNIs (VTY command handler).
*/
void zebra_vxlan_print_macs_all_vni(struct vty *vty, struct zebra_vrf *zvrf,
bool print_dup, bool use_json)
{
struct mac_walk_ctx wctx;
json_object *json = NULL;
if (!is_evpn_enabled()) {
if (use_json)
vty_out(vty, "{}\n");
return;
}
if (use_json)
json = json_object_new_object();
memset(&wctx, 0, sizeof(wctx));
wctx.vty = vty;
wctx.json = json;
wctx.print_dup = print_dup;
hash_iterate(zvrf->evpn_table, zevpn_print_mac_hash_all_evpn, &wctx);
if (use_json)
vty_json(vty, json);
}
/*
* Display MACs in detail for all VNIs (VTY command handler).
*/
void zebra_vxlan_print_macs_all_vni_detail(struct vty *vty,
struct zebra_vrf *zvrf,
bool print_dup, bool use_json)
{
struct mac_walk_ctx wctx;
json_object *json = NULL;
if (!is_evpn_enabled()) {
if (use_json)
vty_out(vty, "{}\n");
return;
}
if (use_json)
json = json_object_new_object();
memset(&wctx, 0, sizeof(wctx));
wctx.vty = vty;
wctx.json = json;
wctx.print_dup = print_dup;
hash_iterate(zvrf->evpn_table, zevpn_print_mac_hash_all_evpn_detail,
&wctx);
if (use_json)
vty_json(vty, json);
}
/*
* Display MACs for all VNIs (VTY command handler).
*/
void zebra_vxlan_print_macs_all_vni_vtep(struct vty *vty,
struct zebra_vrf *zvrf,
struct in_addr vtep_ip, bool use_json)
{
struct mac_walk_ctx wctx;
json_object *json = NULL;
if (!is_evpn_enabled())
return;
if (use_json)
json = json_object_new_object();
memset(&wctx, 0, sizeof(wctx));
wctx.vty = vty;
wctx.flags = SHOW_REMOTE_MAC_FROM_VTEP;
wctx.r_vtep_ip = vtep_ip;
wctx.json = json;
hash_iterate(zvrf->evpn_table, zevpn_print_mac_hash_all_evpn, &wctx);
if (use_json)
vty_json(vty, json);
}
/*
* Display specific MAC for a VNI, if present (VTY command handler).
*/
void zebra_vxlan_print_specific_mac_vni(struct vty *vty, struct zebra_vrf *zvrf,
vni_t vni, struct ethaddr *macaddr,
bool use_json)
{
struct zebra_evpn *zevpn;
struct zebra_mac *mac;
json_object *json = NULL;
if (!is_evpn_enabled())
return;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
mac = zebra_evpn_mac_lookup(zevpn, macaddr);
if (!mac) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty,
"%% Requested MAC does not exist in VNI %u\n",
vni);
return;
}
if (use_json)
json = json_object_new_object();
zebra_evpn_print_mac(mac, vty, json);
if (use_json)
vty_json(vty, json);
}
/* Print Duplicate MACs per VNI */
void zebra_vxlan_print_macs_vni_dad(struct vty *vty,
struct zebra_vrf *zvrf,
vni_t vni, bool use_json)
{
struct zebra_evpn *zevpn;
struct mac_walk_ctx wctx;
uint32_t num_macs;
json_object *json = NULL;
json_object *json_mac = NULL;
if (!is_evpn_enabled())
return;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
num_macs = num_valid_macs(zevpn);
if (!num_macs)
return;
num_macs = num_dup_detected_macs(zevpn);
if (!num_macs)
return;
if (use_json) {
json = json_object_new_object();
json_mac = json_object_new_object();
}
memset(&wctx, 0, sizeof(wctx));
wctx.zevpn = zevpn;
wctx.vty = vty;
wctx.json = json_mac;
if (!use_json) {
vty_out(vty,
"Number of MACs (local and remote) known for this VNI: %u\n",
num_macs);
vty_out(vty, "%-17s %-6s %-5s %-30s %-5s\n", "MAC", "Type",
"Flags", "Intf/Remote ES/VTEP", "VLAN");
} else
json_object_int_add(json, "numMacs", num_macs);
hash_iterate(zevpn->mac_table, zebra_evpn_print_dad_mac_hash, &wctx);
if (use_json) {
json_object_object_add(json, "macs", json_mac);
vty_json(vty, json);
}
}
int zebra_vxlan_clear_dup_detect_vni_mac(struct zebra_vrf *zvrf, vni_t vni,
struct ethaddr *macaddr, char *errmsg,
size_t errmsg_len)
{
struct zebra_evpn *zevpn;
struct zebra_mac *mac;
struct listnode *node = NULL;
struct zebra_neigh *nbr = NULL;
if (!is_evpn_enabled())
return 0;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
snprintfrr(errmsg, errmsg_len, "VNI %u does not exist", vni);
return -1;
}
mac = zebra_evpn_mac_lookup(zevpn, macaddr);
if (!mac) {
snprintf(errmsg, errmsg_len,
"Requested MAC does not exist in VNI %u\n", vni);
return -1;
}
if (!CHECK_FLAG(mac->flags, ZEBRA_MAC_DUPLICATE)) {
snprintfrr(errmsg, errmsg_len,
"Requested MAC is not duplicate detected\n");
return -1;
}
/* Remove all IPs as duplicate associcated with this MAC */
for (ALL_LIST_ELEMENTS_RO(mac->neigh_list, node, nbr)) {
/* For local neigh mark inactive so MACIP update is generated
* to BGP. This is a scenario where MAC update received
* and detected as duplicate which marked neigh as duplicate.
* Later local neigh update did not get a chance to relay
* to BGP. Similarly remote macip update, neigh needs to be
* installed locally.
*/
if (zvrf->dad_freeze &&
CHECK_FLAG(nbr->flags, ZEBRA_NEIGH_DUPLICATE)) {
if (CHECK_FLAG(nbr->flags, ZEBRA_NEIGH_LOCAL))
ZEBRA_NEIGH_SET_INACTIVE(nbr);
else if (CHECK_FLAG(nbr->flags, ZEBRA_NEIGH_REMOTE))
zebra_evpn_rem_neigh_install(
zevpn, nbr, false /*was_static*/);
}
UNSET_FLAG(nbr->flags, ZEBRA_NEIGH_DUPLICATE);
nbr->dad_count = 0;
nbr->detect_start_time.tv_sec = 0;
nbr->dad_dup_detect_time = 0;
}
UNSET_FLAG(mac->flags, ZEBRA_MAC_DUPLICATE);
mac->dad_count = 0;
mac->detect_start_time.tv_sec = 0;
mac->detect_start_time.tv_usec = 0;
mac->dad_dup_detect_time = 0;
THREAD_OFF(mac->dad_mac_auto_recovery_timer);
/* warn-only action return */
if (!zvrf->dad_freeze)
return 0;
/* Local: Notify Peer VTEPs, Remote: Install the entry */
if (CHECK_FLAG(mac->flags, ZEBRA_MAC_LOCAL)) {
/* Inform to BGP */
if (zebra_evpn_mac_send_add_to_client(zevpn->vni, &mac->macaddr,
mac->flags, mac->loc_seq,
mac->es))
return 0;
/* Process all neighbors associated with this MAC. */
zebra_evpn_process_neigh_on_local_mac_change(zevpn, mac, 0,
0 /*es_change*/);
} else if (CHECK_FLAG(mac->flags, ZEBRA_MAC_REMOTE)) {
zebra_evpn_process_neigh_on_remote_mac_add(zevpn, mac);
/* Install the entry. */
zebra_evpn_rem_mac_install(zevpn, mac, false /* was_static */);
}
return 0;
}
int zebra_vxlan_clear_dup_detect_vni_ip(struct zebra_vrf *zvrf, vni_t vni,
struct ipaddr *ip, char *errmsg,
size_t errmsg_len)
{
struct zebra_evpn *zevpn;
struct zebra_neigh *nbr;
struct zebra_mac *mac;
char buf[INET6_ADDRSTRLEN];
char buf2[ETHER_ADDR_STRLEN];
if (!is_evpn_enabled())
return 0;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
snprintfrr(errmsg, errmsg_len, "VNI %u does not exist\n", vni);
return -1;
}
nbr = zebra_evpn_neigh_lookup(zevpn, ip);
if (!nbr) {
snprintfrr(errmsg, errmsg_len,
"Requested host IP does not exist in VNI %u\n", vni);
return -1;
}
ipaddr2str(&nbr->ip, buf, sizeof(buf));
if (!CHECK_FLAG(nbr->flags, ZEBRA_NEIGH_DUPLICATE)) {
snprintfrr(errmsg, errmsg_len,
"Requested host IP %s is not duplicate detected\n",
buf);
return -1;
}
mac = zebra_evpn_mac_lookup(zevpn, &nbr->emac);
if (CHECK_FLAG(mac->flags, ZEBRA_MAC_DUPLICATE)) {
snprintfrr(
errmsg, errmsg_len,
"Requested IP's associated MAC %s is still in duplicate state\n",
prefix_mac2str(&nbr->emac, buf2, sizeof(buf2)));
return -1;
}
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("%s: clear neigh %s in dup state, flags 0x%x seq %u",
__func__, buf, nbr->flags, nbr->loc_seq);
UNSET_FLAG(nbr->flags, ZEBRA_NEIGH_DUPLICATE);
nbr->dad_count = 0;
nbr->detect_start_time.tv_sec = 0;
nbr->detect_start_time.tv_usec = 0;
nbr->dad_dup_detect_time = 0;
THREAD_OFF(nbr->dad_ip_auto_recovery_timer);
if (!!CHECK_FLAG(nbr->flags, ZEBRA_NEIGH_LOCAL)) {
zebra_evpn_neigh_send_add_to_client(zevpn->vni, ip, &nbr->emac,
nbr->mac, nbr->flags,
nbr->loc_seq);
} else if (!!CHECK_FLAG(nbr->flags, ZEBRA_NEIGH_REMOTE)) {
zebra_evpn_rem_neigh_install(zevpn, nbr, false /*was_static*/);
}
return 0;
}
static void zevpn_clear_dup_mac_hash(struct hash_bucket *bucket, void *ctxt)
{
struct mac_walk_ctx *wctx = ctxt;
struct zebra_mac *mac;
struct zebra_evpn *zevpn;
struct listnode *node = NULL;
struct zebra_neigh *nbr = NULL;
mac = (struct zebra_mac *)bucket->data;
if (!mac)
return;
zevpn = wctx->zevpn;
if (!CHECK_FLAG(mac->flags, ZEBRA_MAC_DUPLICATE))
return;
UNSET_FLAG(mac->flags, ZEBRA_MAC_DUPLICATE);
mac->dad_count = 0;
mac->detect_start_time.tv_sec = 0;
mac->detect_start_time.tv_usec = 0;
mac->dad_dup_detect_time = 0;
THREAD_OFF(mac->dad_mac_auto_recovery_timer);
/* Remove all IPs as duplicate associcated with this MAC */
for (ALL_LIST_ELEMENTS_RO(mac->neigh_list, node, nbr)) {
if (CHECK_FLAG(nbr->flags, ZEBRA_NEIGH_LOCAL)
&& nbr->dad_count)
ZEBRA_NEIGH_SET_INACTIVE(nbr);
UNSET_FLAG(nbr->flags, ZEBRA_NEIGH_DUPLICATE);
nbr->dad_count = 0;
nbr->detect_start_time.tv_sec = 0;
nbr->dad_dup_detect_time = 0;
}
/* Local: Notify Peer VTEPs, Remote: Install the entry */
if (CHECK_FLAG(mac->flags, ZEBRA_MAC_LOCAL)) {
/* Inform to BGP */
if (zebra_evpn_mac_send_add_to_client(zevpn->vni, &mac->macaddr,
mac->flags, mac->loc_seq,
mac->es))
return;
/* Process all neighbors associated with this MAC. */
zebra_evpn_process_neigh_on_local_mac_change(zevpn, mac, 0,
0 /*es_change*/);
} else if (CHECK_FLAG(mac->flags, ZEBRA_MAC_REMOTE)) {
zebra_evpn_process_neigh_on_remote_mac_add(zevpn, mac);
/* Install the entry. */
zebra_evpn_rem_mac_install(zevpn, mac, false /* was_static */);
}
}
static void zevpn_clear_dup_detect_hash_vni_all(struct hash_bucket *bucket,
void **args)
{
struct zebra_evpn *zevpn;
struct zebra_vrf *zvrf;
struct mac_walk_ctx m_wctx;
struct neigh_walk_ctx n_wctx;
zevpn = (struct zebra_evpn *)bucket->data;
if (!zevpn)
return;
zvrf = (struct zebra_vrf *)args[0];
if (hashcount(zevpn->neigh_table)) {
memset(&n_wctx, 0, sizeof(n_wctx));
n_wctx.zevpn = zevpn;
n_wctx.zvrf = zvrf;
hash_iterate(zevpn->neigh_table,
zebra_evpn_clear_dup_neigh_hash, &n_wctx);
}
if (num_valid_macs(zevpn)) {
memset(&m_wctx, 0, sizeof(m_wctx));
m_wctx.zevpn = zevpn;
m_wctx.zvrf = zvrf;
hash_iterate(zevpn->mac_table, zevpn_clear_dup_mac_hash, &m_wctx);
}
}
int zebra_vxlan_clear_dup_detect_vni_all(struct zebra_vrf *zvrf)
{
void *args[1];
if (!is_evpn_enabled())
return 0;
args[0] = zvrf;
hash_iterate(zvrf->evpn_table,
(void (*)(struct hash_bucket *, void *))
zevpn_clear_dup_detect_hash_vni_all, args);
return 0;
}
int zebra_vxlan_clear_dup_detect_vni(struct zebra_vrf *zvrf, vni_t vni)
{
struct zebra_evpn *zevpn;
struct mac_walk_ctx m_wctx;
struct neigh_walk_ctx n_wctx;
if (!is_evpn_enabled())
return 0;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
zlog_warn("VNI %u does not exist", vni);
return CMD_WARNING;
}
if (hashcount(zevpn->neigh_table)) {
memset(&n_wctx, 0, sizeof(n_wctx));
n_wctx.zevpn = zevpn;
n_wctx.zvrf = zvrf;
hash_iterate(zevpn->neigh_table,
zebra_evpn_clear_dup_neigh_hash, &n_wctx);
}
if (num_valid_macs(zevpn)) {
memset(&m_wctx, 0, sizeof(m_wctx));
m_wctx.zevpn = zevpn;
m_wctx.zvrf = zvrf;
hash_iterate(zevpn->mac_table, zevpn_clear_dup_mac_hash, &m_wctx);
}
return 0;
}
/*
* Display MACs for a VNI from specific VTEP (VTY command handler).
*/
void zebra_vxlan_print_macs_vni_vtep(struct vty *vty, struct zebra_vrf *zvrf,
vni_t vni, struct in_addr vtep_ip,
bool use_json)
{
struct zebra_evpn *zevpn;
uint32_t num_macs;
struct mac_walk_ctx wctx;
json_object *json = NULL;
json_object *json_mac = NULL;
if (!is_evpn_enabled())
return;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
if (use_json)
vty_out(vty, "{}\n");
else
vty_out(vty, "%% VNI %u does not exist\n", vni);
return;
}
num_macs = num_valid_macs(zevpn);
if (!num_macs)
return;
if (use_json) {
json = json_object_new_object();
json_mac = json_object_new_object();
}
memset(&wctx, 0, sizeof(wctx));
wctx.zevpn = zevpn;
wctx.vty = vty;
wctx.flags = SHOW_REMOTE_MAC_FROM_VTEP;
wctx.r_vtep_ip = vtep_ip;
wctx.json = json_mac;
hash_iterate(zevpn->mac_table, zebra_evpn_print_mac_hash, &wctx);
if (use_json) {
json_object_int_add(json, "numMacs", wctx.count);
if (wctx.count)
json_object_object_add(json, "macs", json_mac);
vty_json(vty, json);
}
}
/*
* Display VNI information (VTY command handler).
*
* use_json flag indicates that output should be in JSON format.
* json_array is non NULL when JSON output needs to be aggregated (by the
* caller) and then printed, otherwise, JSON evpn vni info is printed
* right away.
*/
void zebra_vxlan_print_vni(struct vty *vty, struct zebra_vrf *zvrf, vni_t vni,
bool use_json, json_object *json_array)
{
json_object *json = NULL;
void *args[2];
struct zebra_l3vni *zl3vni = NULL;
struct zebra_evpn *zevpn = NULL;
if (!is_evpn_enabled())
return;
if (use_json)
json = json_object_new_object();
args[0] = vty;
args[1] = json;
zl3vni = zl3vni_lookup(vni);
if (zl3vni) {
zl3vni_print(zl3vni, (void *)args);
} else {
zevpn = zebra_evpn_lookup(vni);
if (zevpn)
zebra_evpn_print(zevpn, (void *)args);
else if (!json)
vty_out(vty, "%% VNI %u does not exist\n", vni);
}
if (use_json) {
/*
* Each "json" object contains info about 1 VNI.
* When "json_array" is non-null, we aggreggate the json output
* into json_array and print it as a JSON array.
*/
if (json_array)
json_object_array_add(json_array, json);
else
vty_json(vty, json);
}
}
/* Display all global details for EVPN */
void zebra_vxlan_print_evpn(struct vty *vty, bool uj)
{
int num_l2vnis = 0;
int num_l3vnis = 0;
int num_vnis = 0;
json_object *json = NULL;
struct zebra_vrf *zvrf = NULL;
if (!is_evpn_enabled())
return;
zvrf = zebra_vrf_get_evpn();
num_l3vnis = hashcount(zrouter.l3vni_table);
num_l2vnis = hashcount(zvrf->evpn_table);
num_vnis = num_l2vnis + num_l3vnis;
if (uj) {
json = json_object_new_object();
json_object_string_add(json, "advertiseGatewayMacip",
zvrf->advertise_gw_macip ? "Yes" : "No");
json_object_string_add(json, "advertiseSviMacip",
zvrf->advertise_svi_macip ? "Yes"
: "No");
json_object_string_add(json, "advertiseSviMac",
zebra_evpn_mh_do_adv_svi_mac() ? "Yes"
: "No");
json_object_int_add(json, "numVnis", num_vnis);
json_object_int_add(json, "numL2Vnis", num_l2vnis);
json_object_int_add(json, "numL3Vnis", num_l3vnis);
if (zebra_evpn_do_dup_addr_detect(zvrf))
json_object_boolean_true_add(json,
"isDuplicateAddrDetection");
else
json_object_boolean_false_add(json,
"isDuplicateAddrDetection");
json_object_int_add(json, "maxMoves", zvrf->dad_max_moves);
json_object_int_add(json, "detectionTime", zvrf->dad_time);
json_object_int_add(json, "detectionFreezeTime",
zvrf->dad_freeze_time);
zebra_evpn_mh_json(json);
} else {
vty_out(vty, "L2 VNIs: %u\n", num_l2vnis);
vty_out(vty, "L3 VNIs: %u\n", num_l3vnis);
vty_out(vty, "Advertise gateway mac-ip: %s\n",
zvrf->advertise_gw_macip ? "Yes" : "No");
vty_out(vty, "Advertise svi mac-ip: %s\n",
zvrf->advertise_svi_macip ? "Yes" : "No");
vty_out(vty, "Advertise svi mac: %s\n",
zebra_evpn_mh_do_adv_svi_mac() ? "Yes" : "No");
vty_out(vty, "Duplicate address detection: %s\n",
zebra_evpn_do_dup_addr_detect(zvrf) ? "Enable"
: "Disable");
vty_out(vty, " Detection max-moves %u, time %d\n",
zvrf->dad_max_moves, zvrf->dad_time);
if (zvrf->dad_freeze) {
if (zvrf->dad_freeze_time)
vty_out(vty, " Detection freeze %u\n",
zvrf->dad_freeze_time);
else
vty_out(vty, " Detection freeze %s\n",
"permanent");
}
zebra_evpn_mh_print(vty);
}
if (uj)
vty_json(vty, json);
}
/*
* Display VNI hash table (VTY command handler).
*/
void zebra_vxlan_print_vnis(struct vty *vty, struct zebra_vrf *zvrf,
bool use_json)
{
json_object *json = NULL;
void *args[2];
if (!is_evpn_enabled())
return;
if (use_json)
json = json_object_new_object();
else
vty_out(vty, "%-10s %-4s %-21s %-8s %-8s %-15s %-37s\n", "VNI",
"Type", "VxLAN IF", "# MACs", "# ARPs",
"# Remote VTEPs", "Tenant VRF");
args[0] = vty;
args[1] = json;
/* Display all L2-VNIs */
hash_iterate(
zvrf->evpn_table,
(void (*)(struct hash_bucket *, void *))zebra_evpn_print_hash,
args);
/* Display all L3-VNIs */
hash_iterate(zrouter.l3vni_table,
(void (*)(struct hash_bucket *, void *))zl3vni_print_hash,
args);
if (use_json)
vty_json(vty, json);
}
void zebra_vxlan_dup_addr_detection(ZAPI_HANDLER_ARGS)
{
struct stream *s;
int time = 0;
uint32_t max_moves = 0;
uint32_t freeze_time = 0;
bool dup_addr_detect = false;
bool freeze = false;
bool old_addr_detect;
s = msg;
STREAM_GETL(s, dup_addr_detect);
STREAM_GETL(s, time);
STREAM_GETL(s, max_moves);
STREAM_GETL(s, freeze);
STREAM_GETL(s, freeze_time);
old_addr_detect = zebra_evpn_do_dup_addr_detect(zvrf);
zvrf->dup_addr_detect = dup_addr_detect;
dup_addr_detect = zebra_evpn_do_dup_addr_detect(zvrf);
/* DAD previous state was enabled, and new state is disable,
* clear all duplicate detected addresses.
*/
if (old_addr_detect && !dup_addr_detect)
zebra_vxlan_clear_dup_detect_vni_all(zvrf);
zvrf->dad_time = time;
zvrf->dad_max_moves = max_moves;
zvrf->dad_freeze = freeze;
zvrf->dad_freeze_time = freeze_time;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"VRF %s duplicate detect %s max_moves %u timeout %u freeze %s freeze_time %u",
vrf_id_to_name(zvrf->vrf->vrf_id),
dup_addr_detect ? "enable" : "disable",
zvrf->dad_max_moves, zvrf->dad_time,
zvrf->dad_freeze ? "enable" : "disable",
zvrf->dad_freeze_time);
stream_failure:
return;
}
/*
* Display VNI hash table in detail(VTY command handler).
*/
void zebra_vxlan_print_vnis_detail(struct vty *vty, struct zebra_vrf *zvrf,
bool use_json)
{
json_object *json_array = NULL;
struct zebra_ns *zns = NULL;
struct zebra_evpn_show zes;
if (!is_evpn_enabled())
return;
zns = zebra_ns_lookup(NS_DEFAULT);
if (!zns)
return;
if (use_json)
json_array = json_object_new_array();
zes.vty = vty;
zes.json = json_array;
zes.zvrf = zvrf;
zes.use_json = use_json;
/* Display all L2-VNIs */
hash_iterate(zvrf->evpn_table,
(void (*)(struct hash_bucket *,
void *))zebra_evpn_print_hash_detail,
&zes);
/* Display all L3-VNIs */
hash_iterate(zrouter.l3vni_table,
(void (*)(struct hash_bucket *,
void *))zl3vni_print_hash_detail,
&zes);
if (use_json)
vty_json(vty, json_array);
}
/*
* Handle neighbor delete notification from the kernel (on a VLAN device
* / L3 interface). This may result in either the neighbor getting deleted
* from our database or being re-added to the kernel (if it is a valid
* remote neighbor).
*/
int zebra_vxlan_handle_kernel_neigh_del(struct interface *ifp,
struct interface *link_if,
struct ipaddr *ip)
{
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
/* check if this is a remote neigh entry corresponding to remote
* next-hop
*/
zl3vni = zl3vni_from_svi(ifp, link_if);
if (zl3vni)
return zl3vni_local_nh_del(zl3vni, ip);
/* We are only interested in neighbors on an SVI that resides on top
* of a VxLAN bridge.
*/
zevpn = zebra_evpn_from_svi(ifp, link_if);
if (!zevpn) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"%s: Del neighbor %pIA EVPN is not present for interface %s",
__func__, ip, ifp->name);
return 0;
}
if (!zevpn->vxlan_if) {
zlog_debug(
"VNI %u hash %p doesn't have intf upon local neighbor DEL",
zevpn->vni, zevpn);
return -1;
}
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Del neighbor %pIA intf %s(%u) -> L2-VNI %u",
ip, ifp->name, ifp->ifindex, zevpn->vni);
return zebra_evpn_neigh_del_ip(zevpn, ip);
}
/*
* Handle neighbor add or update notification from the kernel (on a VLAN
* device / L3 interface). This is typically for a local neighbor but can
* also be for a remote neighbor (e.g., ageout notification). It could
* also be a "move" scenario.
*/
int zebra_vxlan_handle_kernel_neigh_update(struct interface *ifp,
struct interface *link_if,
struct ipaddr *ip,
struct ethaddr *macaddr,
uint16_t state,
bool is_ext,
bool is_router,
bool local_inactive, bool dp_static)
{
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
/* check if this is a remote neigh entry corresponding to remote
* next-hop
*/
zl3vni = zl3vni_from_svi(ifp, link_if);
if (zl3vni)
return zl3vni_local_nh_add_update(zl3vni, ip, state);
/* We are only interested in neighbors on an SVI that resides on top
* of a VxLAN bridge.
*/
zevpn = zebra_evpn_from_svi(ifp, link_if);
if (!zevpn)
return 0;
if (IS_ZEBRA_DEBUG_VXLAN || IS_ZEBRA_DEBUG_EVPN_MH_NEIGH)
zlog_debug(
"Add/Update neighbor %pIA MAC %pEA intf %s(%u) state 0x%x %s%s%s%s-> L2-VNI %u",
ip, macaddr, ifp->name,
ifp->ifindex, state, is_ext ? "ext-learned " : "",
is_router ? "router " : "",
local_inactive ? "local_inactive " : "",
dp_static ? "peer_sync " : "", zevpn->vni);
/* Is this about a local neighbor or a remote one? */
if (!is_ext)
return zebra_evpn_local_neigh_update(zevpn, ifp, ip, macaddr,
is_router, local_inactive,
dp_static);
return zebra_evpn_remote_neigh_update(zevpn, ifp, ip, macaddr, state);
}
static int32_t
zebra_vxlan_remote_macip_helper(bool add, struct stream *s, vni_t *vni,
struct ethaddr *macaddr, uint16_t *ipa_len,
struct ipaddr *ip, struct in_addr *vtep_ip,
uint8_t *flags, uint32_t *seq, esi_t *esi)
{
uint16_t l = 0;
/*
* Obtain each remote MACIP and process.
* Message contains VNI, followed by MAC followed by IP (if any)
* followed by remote VTEP IP.
*/
memset(ip, 0, sizeof(*ip));
STREAM_GETL(s, *vni);
STREAM_GET(macaddr->octet, s, ETH_ALEN);
STREAM_GETW(s, *ipa_len);
if (*ipa_len) {
if (*ipa_len == IPV4_MAX_BYTELEN)
ip->ipa_type = IPADDR_V4;
else if (*ipa_len == IPV6_MAX_BYTELEN)
ip->ipa_type = IPADDR_V6;
else {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"ipa_len *must* be %d or %d bytes in length not %d",
IPV4_MAX_BYTELEN, IPV6_MAX_BYTELEN,
*ipa_len);
goto stream_failure;
}
STREAM_GET(&ip->ip.addr, s, *ipa_len);
}
l += 4 + ETH_ALEN + 4 + *ipa_len;
STREAM_GET(&vtep_ip->s_addr, s, IPV4_MAX_BYTELEN);
l += IPV4_MAX_BYTELEN;
if (add) {
STREAM_GETC(s, *flags);
STREAM_GETL(s, *seq);
l += 5;
STREAM_GET(esi, s, sizeof(esi_t));
l += sizeof(esi_t);
}
return l;
stream_failure:
return -1;
}
/*
* Handle message from client to delete a remote MACIP for a VNI.
*/
void zebra_vxlan_remote_macip_del(ZAPI_HANDLER_ARGS)
{
struct stream *s;
vni_t vni;
struct ethaddr macaddr;
struct ipaddr ip;
struct in_addr vtep_ip;
uint16_t l = 0, ipa_len;
char buf1[INET6_ADDRSTRLEN];
s = msg;
while (l < hdr->length) {
int res_length = zebra_vxlan_remote_macip_helper(
false, s, &vni, &macaddr, &ipa_len, &ip, &vtep_ip, NULL,
NULL, NULL);
if (res_length == -1)
goto stream_failure;
l += res_length;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Recv MACIP DEL VNI %u MAC %pEA%s%s Remote VTEP %pI4 from %s",
vni, &macaddr,
ipa_len ? " IP " : "",
ipa_len ?
ipaddr2str(&ip, buf1, sizeof(buf1)) : "",
&vtep_ip, zebra_route_string(client->proto));
/* Enqueue to workqueue for processing */
zebra_rib_queue_evpn_rem_macip_del(vni, &macaddr, &ip, vtep_ip);
}
stream_failure:
return;
}
/*
* Handle message from client to add a remote MACIP for a VNI. This
* could be just the add of a MAC address or the add of a neighbor
* (IP+MAC).
*/
void zebra_vxlan_remote_macip_add(ZAPI_HANDLER_ARGS)
{
struct stream *s;
vni_t vni;
struct ethaddr macaddr;
struct ipaddr ip;
struct in_addr vtep_ip;
uint16_t l = 0, ipa_len;
uint8_t flags = 0;
uint32_t seq;
char buf1[INET6_ADDRSTRLEN];
esi_t esi;
char esi_buf[ESI_STR_LEN];
if (!EVPN_ENABLED(zvrf)) {
zlog_debug("EVPN not enabled, ignoring remote MACIP ADD");
return;
}
s = msg;
while (l < hdr->length) {
int res_length = zebra_vxlan_remote_macip_helper(
true, s, &vni, &macaddr, &ipa_len, &ip, &vtep_ip,
&flags, &seq, &esi);
if (res_length == -1)
goto stream_failure;
l += res_length;
if (IS_ZEBRA_DEBUG_VXLAN) {
if (memcmp(&esi, zero_esi, sizeof(esi_t)))
esi_to_str(&esi, esi_buf, sizeof(esi_buf));
else
strlcpy(esi_buf, "-", ESI_STR_LEN);
zlog_debug(
"Recv %sMACIP ADD VNI %u MAC %pEA%s%s flags 0x%x seq %u VTEP %pI4 ESI %s from %s",
(flags & ZEBRA_MACIP_TYPE_SYNC_PATH) ?
"sync-" : "",
vni, &macaddr,
ipa_len ? " IP " : "",
ipa_len ?
ipaddr2str(&ip, buf1, sizeof(buf1)) : "",
flags, seq, &vtep_ip, esi_buf,
zebra_route_string(client->proto));
}
/* Enqueue to workqueue for processing */
zebra_rib_queue_evpn_rem_macip_add(vni, &macaddr, &ip, flags,
seq, vtep_ip, &esi);
}
stream_failure:
return;
}
/*
* Handle remote vtep delete by kernel; re-add the vtep if we have it
*/
int zebra_vxlan_check_readd_vtep(struct interface *ifp,
struct in_addr vtep_ip)
{
struct zebra_if *zif;
struct zebra_vrf *zvrf = NULL;
struct zebra_l2info_vxlan *vxl;
vni_t vni;
struct zebra_evpn *zevpn = NULL;
struct zebra_vtep *zvtep = NULL;
zif = ifp->info;
assert(zif);
vxl = &zif->l2info.vxl;
vni = vxl->vni;
/* If EVPN is not enabled, nothing to do. */
if (!is_evpn_enabled())
return 0;
/* Locate VRF corresponding to interface. */
zvrf = ifp->vrf->info;
if (!zvrf)
return -1;
/* Locate hash entry; it is expected to exist. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn)
return 0;
/* If the remote vtep entry doesn't exists nothing to do */
zvtep = zebra_evpn_vtep_find(zevpn, &vtep_ip);
if (!zvtep)
return 0;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Del MAC for remote VTEP %pI4 intf %s(%u) VNI %u - readd",
&vtep_ip, ifp->name, ifp->ifindex, vni);
zebra_evpn_vtep_install(zevpn, zvtep);
return 0;
}
/*
* Handle notification of MAC add/update over VxLAN. If the kernel is notifying
* us, this must involve a multihoming scenario. Treat this as implicit delete
* of any prior local MAC.
*/
static int zebra_vxlan_check_del_local_mac(struct interface *ifp,
struct interface *br_if,
struct ethaddr *macaddr,
vlanid_t vid)
{
struct zebra_if *zif;
struct zebra_l2info_vxlan *vxl;
vni_t vni;
struct zebra_evpn *zevpn;
struct zebra_mac *mac;
zif = ifp->info;
assert(zif);
vxl = &zif->l2info.vxl;
vni = vxl->vni;
/* Check if EVPN is enabled. */
if (!is_evpn_enabled())
return 0;
/* Locate hash entry; it is expected to exist. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn)
return 0;
/* If entry doesn't exist, nothing to do. */
mac = zebra_evpn_mac_lookup(zevpn, macaddr);
if (!mac)
return 0;
/* Is it a local entry? */
if (!CHECK_FLAG(mac->flags, ZEBRA_MAC_LOCAL))
return 0;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Add/update remote MAC %pEA intf %s(%u) VNI %u flags 0x%x - del local",
macaddr, ifp->name, ifp->ifindex, vni, mac->flags);
/* Remove MAC from BGP. */
zebra_evpn_mac_send_del_to_client(zevpn->vni, macaddr, mac->flags,
false /* force */);
/*
* If there are no neigh associated with the mac delete the mac
* else mark it as AUTO for forward reference
*/
if (!listcount(mac->neigh_list)) {
zebra_evpn_mac_del(zevpn, mac);
} else {
zebra_evpn_mac_clear_fwd_info(mac);
UNSET_FLAG(mac->flags, ZEBRA_MAC_ALL_LOCAL_FLAGS);
UNSET_FLAG(mac->flags, ZEBRA_MAC_STICKY);
SET_FLAG(mac->flags, ZEBRA_MAC_AUTO);
}
return 0;
}
/* MAC notification from the dataplane with a network dest port -
* 1. This can be a local MAC on a down ES (if fast-failover is not possible
* 2. Or it can be a remote MAC
*/
int zebra_vxlan_dp_network_mac_add(struct interface *ifp,
struct interface *br_if,
struct ethaddr *macaddr, vlanid_t vid,
uint32_t nhg_id, bool sticky, bool dp_static)
{
struct zebra_evpn_es *es;
struct interface *acc_ifp;
/* If netlink message is with vid, it will have no nexthop.
* So skip it.
*/
if (vid) {
if (IS_ZEBRA_DEBUG_VXLAN || IS_ZEBRA_DEBUG_EVPN_MH_MAC)
zlog_debug("dpAdd MAC %pEA VID %u - ignore as no nhid",
macaddr, vid);
return 0;
}
/* Get vxlan's vid for netlink message has no it. */
vid = ((struct zebra_if *)ifp->info)->l2info.vxl.access_vlan;
/* if remote mac delete the local entry */
if (!nhg_id || !zebra_evpn_nhg_is_local_es(nhg_id, &es)
|| !zebra_evpn_es_local_mac_via_network_port(es)) {
if (IS_ZEBRA_DEBUG_VXLAN || IS_ZEBRA_DEBUG_EVPN_MH_MAC)
zlog_debug("dpAdd remote MAC %pEA VID %u", macaddr,
vid);
return zebra_vxlan_check_del_local_mac(ifp, br_if, macaddr,
vid);
}
/* If local MAC on a down local ES translate the network-mac-add
* to a local-active-mac-add
*/
if (IS_ZEBRA_DEBUG_VXLAN || IS_ZEBRA_DEBUG_EVPN_MH_MAC)
zlog_debug("dpAdd local-nw-MAC %pEA VID %u", macaddr, vid);
acc_ifp = es->zif->ifp;
return zebra_vxlan_local_mac_add_update(
acc_ifp, br_if, macaddr, vid, sticky,
false /* local_inactive */, dp_static);
}
/*
* Handle network MAC delete by kernel -
* 1. readd the remote MAC if we have it
* 2. local MAC with does ES may also need to be re-installed
*/
int zebra_vxlan_dp_network_mac_del(struct interface *ifp,
struct interface *br_if,
struct ethaddr *macaddr, vlanid_t vid)
{
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan *vxl = NULL;
vni_t vni;
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
struct zebra_mac *mac = NULL;
zif = ifp->info;
assert(zif);
vxl = &zif->l2info.vxl;
vni = vxl->vni;
/* Check if EVPN is enabled. */
if (!is_evpn_enabled())
return 0;
/* check if this is a remote RMAC and readd simillar to remote macs */
zl3vni = zl3vni_lookup(vni);
if (zl3vni)
return zebra_vxlan_readd_remote_rmac(zl3vni, macaddr);
/* Locate hash entry; it is expected to exist. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn)
return 0;
/* If entry doesn't exist, nothing to do. */
mac = zebra_evpn_mac_lookup(zevpn, macaddr);
if (!mac)
return 0;
if (CHECK_FLAG(mac->flags, ZEBRA_MAC_REMOTE)) {
/* If remote entry simply re-install */
if (IS_ZEBRA_DEBUG_VXLAN || IS_ZEBRA_DEBUG_EVPN_MH_MAC)
zlog_debug(
"dpDel remote MAC %pEA intf %s(%u) VNI %u - readd",
macaddr, ifp->name, ifp->ifindex, vni);
zebra_evpn_rem_mac_install(zevpn, mac, false /* was_static */);
} else if (CHECK_FLAG(mac->flags, ZEBRA_MAC_LOCAL) && mac->es
&& zebra_evpn_es_local_mac_via_network_port(mac->es)) {
/* If local entry via nw-port call local-del which will
* re-install entry in the dataplane is needed
*/
if (IS_ZEBRA_DEBUG_VXLAN || IS_ZEBRA_DEBUG_EVPN_MH_MAC)
zlog_debug("dpDel local-nw-MAC %pEA VNI %u", macaddr,
vni);
zebra_evpn_del_local_mac(zevpn, mac, false);
}
return 0;
}
/*
* Handle local MAC delete (on a port or VLAN corresponding to this VNI).
*/
int zebra_vxlan_local_mac_del(struct interface *ifp, struct interface *br_if,
struct ethaddr *macaddr, vlanid_t vid)
{
struct zebra_evpn *zevpn;
struct zebra_mac *mac;
/* We are interested in MACs only on ports or (port, VLAN) that
* map to a VNI.
*/
zevpn = zebra_evpn_map_vlan(ifp, br_if, vid);
if (!zevpn)
return 0;
if (!zevpn->vxlan_if) {
zlog_debug(
"VNI %u hash %p doesn't have intf upon local MAC DEL",
zevpn->vni, zevpn);
return -1;
}
/* If entry doesn't exist, nothing to do. */
mac = zebra_evpn_mac_lookup(zevpn, macaddr);
if (!mac)
return 0;
/* Is it a local entry? */
if (!CHECK_FLAG(mac->flags, ZEBRA_MAC_LOCAL))
return 0;
return zebra_evpn_del_local_mac(zevpn, mac, false);
}
/*
* Handle local MAC add (on a port or VLAN corresponding to this VNI).
*/
int zebra_vxlan_local_mac_add_update(struct interface *ifp,
struct interface *br_if,
struct ethaddr *macaddr, vlanid_t vid,
bool sticky, bool local_inactive,
bool dp_static)
{
struct zebra_evpn *zevpn;
struct zebra_vrf *zvrf;
assert(ifp);
/* We are interested in MACs only on ports or (port, VLAN) that
* map to an EVPN.
*/
zevpn = zebra_evpn_map_vlan(ifp, br_if, vid);
if (!zevpn) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
" Add/Update %sMAC %pEA intf %s(%u) VID %u, could not find EVPN",
sticky ? "sticky " : "", macaddr,
ifp->name, ifp->ifindex, vid);
return 0;
}
if (!zevpn->vxlan_if) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
" VNI %u hash %p doesn't have intf upon local MAC ADD",
zevpn->vni, zevpn);
return -1;
}
zvrf = zebra_vrf_get_evpn();
return zebra_evpn_add_update_local_mac(zvrf, zevpn, ifp, macaddr, vid,
sticky, local_inactive,
dp_static, NULL);
}
/*
* Handle message from client to delete a remote VTEP for an EVPN.
*/
void zebra_vxlan_remote_vtep_del_zapi(ZAPI_HANDLER_ARGS)
{
struct stream *s;
unsigned short l = 0;
vni_t vni;
struct in_addr vtep_ip;
if (!is_evpn_enabled()) {
zlog_debug(
"%s: EVPN is not enabled yet we have received a VTEP DEL msg",
__func__);
return;
}
if (!EVPN_ENABLED(zvrf)) {
zlog_debug("Recv VTEP DEL zapi for non-EVPN VRF %u",
zvrf_id(zvrf));
return;
}
s = msg;
while (l < hdr->length) {
int flood_control __attribute__((unused));
/* Obtain each remote VTEP and process. */
STREAM_GETL(s, vni);
l += 4;
STREAM_GET(&vtep_ip.s_addr, s, IPV4_MAX_BYTELEN);
l += IPV4_MAX_BYTELEN;
/* Flood control is intentionally ignored right now */
STREAM_GETL(s, flood_control);
l += 4;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Recv VTEP DEL %pI4 VNI %u from %s",
&vtep_ip, vni,
zebra_route_string(client->proto));
/* Enqueue for processing */
zebra_rib_queue_evpn_rem_vtep_del(zvrf_id(zvrf), vni, vtep_ip);
}
stream_failure:
return;
}
/*
* Handle message from client to delete a remote VTEP for an EVPN.
*/
void zebra_vxlan_remote_vtep_del(vrf_id_t vrf_id, vni_t vni,
struct in_addr vtep_ip)
{
struct zebra_evpn *zevpn;
struct zebra_vtep *zvtep;
struct interface *ifp;
struct zebra_if *zif;
struct zebra_vrf *zvrf;
if (!is_evpn_enabled()) {
zlog_debug("%s: Can't process vtep del: EVPN is not enabled",
__func__);
return;
}
zvrf = zebra_vrf_lookup_by_id(vrf_id);
if (!zvrf)
return;
if (!EVPN_ENABLED(zvrf)) {
zlog_debug("Can't process VTEP DEL for non-EVPN VRF %u",
zvrf_id(zvrf));
return;
}
/* Locate VNI hash entry - expected to exist. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Failed to locate VNI hash for remote VTEP DEL, VNI %u",
vni);
return;
}
ifp = zevpn->vxlan_if;
if (!ifp) {
zlog_debug(
"VNI %u hash %p doesn't have intf upon remote VTEP DEL",
zevpn->vni, zevpn);
return;
}
zif = ifp->info;
/* If down or not mapped to a bridge, we're done. */
if (!if_is_operative(ifp) || !zif->brslave_info.br_if)
return;
/* If the remote VTEP does not exist, there's nothing more to
* do.
* Otherwise, uninstall any remote MACs pointing to this VTEP
* and then, the VTEP entry itself and remove it.
*/
zvtep = zebra_evpn_vtep_find(zevpn, &vtep_ip);
if (!zvtep)
return;
zebra_evpn_vtep_uninstall(zevpn, &vtep_ip);
zebra_evpn_vtep_del(zevpn, zvtep);
}
/*
* Handle message from client to add a remote VTEP for an EVPN.
*/
void zebra_vxlan_remote_vtep_add(vrf_id_t vrf_id, vni_t vni,
struct in_addr vtep_ip, int flood_control)
{
struct zebra_evpn *zevpn;
struct interface *ifp;
struct zebra_if *zif;
struct zebra_vtep *zvtep;
struct zebra_vrf *zvrf;
if (!is_evpn_enabled()) {
zlog_debug("%s: EVPN not enabled: can't process a VTEP ADD",
__func__);
return;
}
zvrf = zebra_vrf_lookup_by_id(vrf_id);
if (!zvrf)
return;
if (!EVPN_ENABLED(zvrf)) {
zlog_debug("Can't process VTEP ADD for non-EVPN VRF %u",
zvrf_id(zvrf));
return;
}
/* Locate VNI hash entry - expected to exist. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
flog_err(
EC_ZEBRA_VTEP_ADD_FAILED,
"Failed to locate EVPN hash upon remote VTEP ADD, VNI %u",
vni);
return;
}
ifp = zevpn->vxlan_if;
if (!ifp) {
flog_err(
EC_ZEBRA_VTEP_ADD_FAILED,
"VNI %u hash %p doesn't have intf upon remote VTEP ADD",
zevpn->vni, zevpn);
return;
}
zif = ifp->info;
/* If down or not mapped to a bridge, we're done. */
if (!if_is_operative(ifp) || !zif->brslave_info.br_if)
return;
zvtep = zebra_evpn_vtep_find(zevpn, &vtep_ip);
if (zvtep) {
/* If the remote VTEP already exists check if
* the flood mode has changed
*/
if (zvtep->flood_control != flood_control) {
if (zvtep->flood_control == VXLAN_FLOOD_DISABLED)
/* old mode was head-end-replication but
* is no longer; get rid of the HER fdb
* entry installed before
*/
zebra_evpn_vtep_uninstall(zevpn, &vtep_ip);
zvtep->flood_control = flood_control;
zebra_evpn_vtep_install(zevpn, zvtep);
}
} else {
zvtep = zebra_evpn_vtep_add(zevpn, &vtep_ip, flood_control);
if (zvtep)
zebra_evpn_vtep_install(zevpn, zvtep);
else
flog_err(EC_ZEBRA_VTEP_ADD_FAILED,
"Failed to add remote VTEP, VNI %u zevpn %p",
vni, zevpn);
}
}
/*
* Handle message from client to add a remote VTEP for an EVPN.
*/
void zebra_vxlan_remote_vtep_add_zapi(ZAPI_HANDLER_ARGS)
{
struct stream *s;
unsigned short l = 0;
vni_t vni;
struct in_addr vtep_ip;
int flood_control;
if (!is_evpn_enabled()) {
zlog_debug(
"%s: EVPN not enabled yet we received a VTEP ADD zapi msg",
__func__);
return;
}
if (!EVPN_ENABLED(zvrf)) {
zlog_debug("Recv VTEP ADD zapi for non-EVPN VRF %u",
zvrf_id(zvrf));
return;
}
s = msg;
while (l < hdr->length) {
/* Obtain each remote VTEP and process. */
STREAM_GETL(s, vni);
l += 4;
STREAM_GET(&vtep_ip.s_addr, s, IPV4_MAX_BYTELEN);
STREAM_GETL(s, flood_control);
l += IPV4_MAX_BYTELEN + 4;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Recv VTEP ADD %pI4 VNI %u flood %d from %s",
&vtep_ip, vni, flood_control,
zebra_route_string(client->proto));
/* Enqueue for processing */
zebra_rib_queue_evpn_rem_vtep_add(zvrf_id(zvrf), vni, vtep_ip,
flood_control);
}
stream_failure:
return;
}
/*
* Add/Del gateway macip to evpn
* g/w can be:
* 1. SVI interface on a vlan aware bridge
* 2. SVI interface on a vlan unaware bridge
* 3. vrr interface (MACVLAN) associated to a SVI
* We advertise macip routes for an interface if it is associated to VxLan vlan
*/
int zebra_vxlan_add_del_gw_macip(struct interface *ifp, const struct prefix *p,
int add)
{
struct ipaddr ip;
struct ethaddr macaddr;
struct zebra_evpn *zevpn = NULL;
memset(&ip, 0, sizeof(ip));
memset(&macaddr, 0, sizeof(macaddr));
/* Check if EVPN is enabled. */
if (!is_evpn_enabled())
return 0;
if (IS_ZEBRA_IF_MACVLAN(ifp)) {
struct interface *svi_if =
NULL; /* SVI corresponding to the MACVLAN */
struct zebra_if *ifp_zif =
NULL; /* Zebra daemon specific info for MACVLAN */
struct zebra_if *svi_if_zif =
NULL; /* Zebra daemon specific info for SVI*/
ifp_zif = ifp->info;
if (!ifp_zif)
return -1;
/*
* for a MACVLAN interface the link represents the svi_if
*/
svi_if = if_lookup_by_index_per_ns(zebra_ns_lookup(NS_DEFAULT),
ifp_zif->link_ifindex);
if (!svi_if) {
zlog_debug("MACVLAN %s(%u) without link information",
ifp->name, ifp->ifindex);
return -1;
}
if (IS_ZEBRA_IF_VLAN(svi_if)) {
/*
* If it is a vlan aware bridge then the link gives the
* bridge information
*/
struct interface *svi_if_link = NULL;
svi_if_zif = svi_if->info;
if (svi_if_zif) {
svi_if_link = if_lookup_by_index_per_ns(
zebra_ns_lookup(NS_DEFAULT),
svi_if_zif->link_ifindex);
zevpn = zebra_evpn_from_svi(svi_if,
svi_if_link);
}
} else if (IS_ZEBRA_IF_BRIDGE(svi_if)) {
/*
* If it is a vlan unaware bridge then svi is the bridge
* itself
*/
zevpn = zebra_evpn_from_svi(svi_if, svi_if);
}
} else if (IS_ZEBRA_IF_VLAN(ifp)) {
struct zebra_if *svi_if_zif =
NULL; /* Zebra daemon specific info for SVI */
struct interface *svi_if_link =
NULL; /* link info for the SVI = bridge info */
svi_if_zif = ifp->info;
if (svi_if_zif) {
svi_if_link = if_lookup_by_index_per_ns(
zebra_ns_lookup(NS_DEFAULT),
svi_if_zif->link_ifindex);
if (svi_if_link)
zevpn = zebra_evpn_from_svi(ifp, svi_if_link);
}
} else if (IS_ZEBRA_IF_BRIDGE(ifp)) {
zevpn = zebra_evpn_from_svi(ifp, ifp);
}
if (!zevpn)
return 0;
if (!zevpn->vxlan_if) {
zlog_debug("VNI %u hash %p doesn't have intf upon MACVLAN up",
zevpn->vni, zevpn);
return -1;
}
/* VRR IP is advertised only if gw-macip-adv-enabled */
if (IS_ZEBRA_IF_MACVLAN(ifp)) {
if (!advertise_gw_macip_enabled(zevpn))
return 0;
} else {
/* SVI IP is advertised if gw or svi macip-adv-enabled */
if (!advertise_svi_macip_enabled(zevpn)
&& !advertise_gw_macip_enabled(zevpn))
return 0;
}
memcpy(&macaddr.octet, ifp->hw_addr, ETH_ALEN);
if (p->family == AF_INET) {
ip.ipa_type = IPADDR_V4;
memcpy(&(ip.ipaddr_v4), &(p->u.prefix4),
sizeof(struct in_addr));
} else if (p->family == AF_INET6) {
ip.ipa_type = IPADDR_V6;
memcpy(&(ip.ipaddr_v6), &(p->u.prefix6),
sizeof(struct in6_addr));
}
if (add)
zebra_evpn_gw_macip_add(ifp, zevpn, &macaddr, &ip);
else
zebra_evpn_gw_macip_del(ifp, zevpn, &ip);
return 0;
}
/*
* Handle SVI interface going down.
* SVI can be associated to either L3-VNI or L2-VNI.
* For L2-VNI: At this point, this is a NOP since
* the kernel deletes the neighbor entries on this SVI (if any).
* We only need to update the vrf corresponding to zevpn.
* For L3-VNI: L3-VNI is operationally down, update mac-ip routes and delete
* from bgp
*/
int zebra_vxlan_svi_down(struct interface *ifp, struct interface *link_if)
{
struct zebra_l3vni *zl3vni = NULL;
zl3vni = zl3vni_from_svi(ifp, link_if);
if (zl3vni) {
/* process l3-vni down */
zebra_vxlan_process_l3vni_oper_down(zl3vni);
/* remove association with svi-if */
zl3vni->svi_if = NULL;
} else {
struct zebra_evpn *zevpn = NULL;
/* Unlink the SVI from the access VLAN */
zebra_evpn_acc_bd_svi_set(ifp->info, link_if->info, false);
/* since we dont have svi corresponding to zevpn, we associate it
* to default vrf. Note: the corresponding neigh entries on the
* SVI would have already been deleted */
zevpn = zebra_evpn_from_svi(ifp, link_if);
if (zevpn) {
/* remove from l3-vni list */
zl3vni = zl3vni_from_vrf(zevpn->vrf_id);
if (zl3vni)
listnode_delete(zl3vni->l2vnis, zevpn);
zevpn->svi_if = NULL;
zevpn->vrf_id = VRF_DEFAULT;
/* update the tenant vrf in BGP */
if (if_is_operative(zevpn->vxlan_if))
zebra_evpn_send_add_to_client(zevpn);
}
}
return 0;
}
/*
* Handle SVI interface coming up.
* SVI can be associated to L3-VNI (l3vni vxlan interface) or L2-VNI (l2-vni
* vxlan intf).
* For L2-VNI: we need to install any remote neighbors entried (used for
* arp-suppression)
* For L3-VNI: SVI will be used to get the rmac to be used with L3-VNI
*/
int zebra_vxlan_svi_up(struct interface *ifp, struct interface *link_if)
{
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
zl3vni = zl3vni_from_svi(ifp, link_if);
if (zl3vni) {
/* associate with svi */
zl3vni->svi_if = ifp;
/* process oper-up */
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
} else {
/* process SVI up for l2-vni */
struct neigh_walk_ctx n_wctx;
zevpn = zebra_evpn_from_svi(ifp, link_if);
if (!zevpn)
return 0;
if (!zevpn->vxlan_if) {
zlog_debug(
"VNI %u hash %p doesn't have intf upon SVI up",
zevpn->vni, zevpn);
return -1;
}
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"SVI %s(%u) VNI %u VRF %s is UP, installing neighbors",
ifp->name, ifp->ifindex, zevpn->vni,
ifp->vrf->name);
/* update the vrf information for l2-vni and inform bgp */
zevpn->svi_if = ifp;
zevpn->vrf_id = ifp->vrf->vrf_id;
zl3vni = zl3vni_from_vrf(zevpn->vrf_id);
if (zl3vni)
listnode_add_sort_nodup(zl3vni->l2vnis, zevpn);
if (if_is_operative(zevpn->vxlan_if))
zebra_evpn_send_add_to_client(zevpn);
/* Install any remote neighbors for this VNI. */
memset(&n_wctx, 0, sizeof(n_wctx));
n_wctx.zevpn = zevpn;
hash_iterate(zevpn->neigh_table, zebra_evpn_install_neigh_hash,
&n_wctx);
/* Link the SVI from the access VLAN */
zebra_evpn_acc_bd_svi_set(ifp->info, link_if->info, true);
/* Update MACIP routes created by advertise-svi-ip */
if (advertise_svi_macip_enabled(zevpn)) {
zebra_evpn_del_macip_for_intf(ifp, zevpn);
zebra_evpn_add_macip_for_intf(ifp, zevpn);
}
}
return 0;
}
/*
* Handle MAC-VLAN interface going down.
* L3VNI: When MAC-VLAN interface goes down,
* find its associated SVI and update type2/type-5 routes
* with SVI as RMAC
*/
void zebra_vxlan_macvlan_down(struct interface *ifp)
{
struct zebra_l3vni *zl3vni = NULL;
struct zebra_if *zif, *link_zif;
struct interface *link_ifp, *link_if;
zif = ifp->info;
assert(zif);
link_ifp = zif->link;
if (!link_ifp) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"macvlan parent link is not found. Parent index %d ifp %s",
zif->link_ifindex,
ifindex2ifname(zif->link_ifindex,
ifp->vrf->vrf_id));
return;
}
link_zif = link_ifp->info;
assert(link_zif);
link_if = if_lookup_by_index_per_ns(zebra_ns_lookup(NS_DEFAULT),
link_zif->link_ifindex);
zl3vni = zl3vni_from_svi(link_ifp, link_if);
if (zl3vni) {
zl3vni->mac_vlan_if = NULL;
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
}
}
/*
* Handle MAC-VLAN interface going up.
* L3VNI: When MAC-VLAN interface comes up,
* find its associated SVI and update type-2 routes
* with MAC-VLAN's MAC as RMAC and for type-5 routes
* use SVI's MAC as RMAC.
*/
void zebra_vxlan_macvlan_up(struct interface *ifp)
{
struct zebra_l3vni *zl3vni = NULL;
struct zebra_if *zif, *link_zif;
struct interface *link_ifp, *link_if;
zif = ifp->info;
assert(zif);
link_ifp = zif->link;
link_zif = link_ifp->info;
assert(link_zif);
link_if = if_lookup_by_index_per_ns(zebra_ns_lookup(NS_DEFAULT),
link_zif->link_ifindex);
zl3vni = zl3vni_from_svi(link_ifp, link_if);
if (zl3vni) {
/* associate with macvlan (VRR) interface */
zl3vni->mac_vlan_if = ifp;
/* process oper-up */
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
}
}
/*
* Handle VxLAN interface down
*/
int zebra_vxlan_if_down(struct interface *ifp)
{
vni_t vni;
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan *vxl = NULL;
struct zebra_l3vni *zl3vni = NULL;
struct zebra_evpn *zevpn;
/* Check if EVPN is enabled. */
if (!is_evpn_enabled())
return 0;
zif = ifp->info;
assert(zif);
vxl = &zif->l2info.vxl;
vni = vxl->vni;
zl3vni = zl3vni_lookup(vni);
if (zl3vni) {
/* process-if-down for l3-vni */
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Intf %s(%u) L3-VNI %u is DOWN", ifp->name,
ifp->ifindex, vni);
zebra_vxlan_process_l3vni_oper_down(zl3vni);
} else {
/* process if-down for l2-vni */
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Intf %s(%u) L2-VNI %u is DOWN", ifp->name,
ifp->ifindex, vni);
/* Locate hash entry; it is expected to exist. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
zlog_debug(
"Failed to locate VNI hash at DOWN, IF %s(%u) VNI %u",
ifp->name, ifp->ifindex, vni);
return -1;
}
assert(zevpn->vxlan_if == ifp);
/* remove from l3-vni list */
zl3vni = zl3vni_from_vrf(zevpn->vrf_id);
if (zl3vni)
listnode_delete(zl3vni->l2vnis, zevpn);
/* Delete this VNI from BGP. */
zebra_evpn_send_del_to_client(zevpn);
/* Free up all neighbors and MACs, if any. */
zebra_evpn_neigh_del_all(zevpn, 1, 0, DEL_ALL_NEIGH);
zebra_evpn_mac_del_all(zevpn, 1, 0, DEL_ALL_MAC);
/* Free up all remote VTEPs, if any. */
zebra_evpn_vtep_del_all(zevpn, 1);
}
return 0;
}
/*
* Handle VxLAN interface up - update BGP if required.
*/
int zebra_vxlan_if_up(struct interface *ifp)
{
vni_t vni;
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan *vxl = NULL;
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
/* Check if EVPN is enabled. */
if (!is_evpn_enabled())
return 0;
zif = ifp->info;
assert(zif);
vxl = &zif->l2info.vxl;
vni = vxl->vni;
zl3vni = zl3vni_lookup(vni);
if (zl3vni) {
/* we need to associate with SVI, if any, we can associate with
* svi-if only after association with vxlan-intf is complete
*/
zl3vni->svi_if = zl3vni_map_to_svi_if(zl3vni);
zl3vni->mac_vlan_if = zl3vni_map_to_mac_vlan_if(zl3vni);
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Intf %s(%u) L3-VNI %u is UP svi_if %s mac_vlan_if %s"
, ifp->name, ifp->ifindex, vni,
zl3vni->svi_if ? zl3vni->svi_if->name : "NIL",
zl3vni->mac_vlan_if ?
zl3vni->mac_vlan_if->name : "NIL");
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
} else {
/* Handle L2-VNI add */
struct interface *vlan_if = NULL;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Intf %s(%u) L2-VNI %u is UP", ifp->name,
ifp->ifindex, vni);
/* Locate hash entry; it is expected to exist. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
zlog_debug(
"Failed to locate EVPN hash at UP, IF %s(%u) VNI %u",
ifp->name, ifp->ifindex, vni);
return -1;
}
assert(zevpn->vxlan_if == ifp);
vlan_if = zvni_map_to_svi(vxl->access_vlan,
zif->brslave_info.br_if);
if (vlan_if) {
zevpn->svi_if = vlan_if;
zevpn->vrf_id = vlan_if->vrf->vrf_id;
zl3vni = zl3vni_from_vrf(vlan_if->vrf->vrf_id);
if (zl3vni)
listnode_add_sort_nodup(zl3vni->l2vnis, zevpn);
}
/* If part of a bridge, inform BGP about this VNI. */
/* Also, read and populate local MACs and neighbors. */
if (zif->brslave_info.br_if) {
zebra_evpn_send_add_to_client(zevpn);
zebra_evpn_read_mac_neigh(zevpn, ifp);
}
}
return 0;
}
/*
* Handle VxLAN interface delete. Locate and remove entry in hash table
* and update BGP, if required.
*/
int zebra_vxlan_if_del(struct interface *ifp)
{
vni_t vni;
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan *vxl = NULL;
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
/* Check if EVPN is enabled. */
if (!is_evpn_enabled())
return 0;
zif = ifp->info;
assert(zif);
vxl = &zif->l2info.vxl;
vni = vxl->vni;
zl3vni = zl3vni_lookup(vni);
if (zl3vni) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Del L3-VNI %u intf %s(%u)", vni, ifp->name,
ifp->ifindex);
/* process oper-down for l3-vni */
zebra_vxlan_process_l3vni_oper_down(zl3vni);
/* remove the association with vxlan_if */
memset(&zl3vni->local_vtep_ip, 0, sizeof(struct in_addr));
zl3vni->vxlan_if = NULL;
} else {
/* process if-del for l2-vni*/
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("Del L2-VNI %u intf %s(%u)", vni, ifp->name,
ifp->ifindex);
/* Locate hash entry; it is expected to exist. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
zlog_debug(
"Failed to locate VNI hash at del, IF %s(%u) VNI %u",
ifp->name, ifp->ifindex, vni);
return 0;
}
/* remove from l3-vni list */
zl3vni = zl3vni_from_vrf(zevpn->vrf_id);
if (zl3vni)
listnode_delete(zl3vni->l2vnis, zevpn);
/* Delete VNI from BGP. */
zebra_evpn_send_del_to_client(zevpn);
/* Free up all neighbors and MAC, if any. */
zebra_evpn_neigh_del_all(zevpn, 0, 0, DEL_ALL_NEIGH);
zebra_evpn_mac_del_all(zevpn, 0, 0, DEL_ALL_MAC);
/* Free up all remote VTEPs, if any. */
zebra_evpn_vtep_del_all(zevpn, 0);
/* Delete the hash entry. */
if (zebra_evpn_vxlan_del(zevpn)) {
flog_err(EC_ZEBRA_VNI_DEL_FAILED,
"Failed to del EVPN hash %p, IF %s(%u) VNI %u",
zevpn, ifp->name, ifp->ifindex, zevpn->vni);
return -1;
}
}
return 0;
}
/*
* Handle VxLAN interface update - change to tunnel IP, master or VLAN.
*/
int zebra_vxlan_if_update(struct interface *ifp, uint16_t chgflags)
{
vni_t vni;
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan *vxl = NULL;
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
struct interface *vlan_if = NULL;
/* Check if EVPN is enabled. */
if (!is_evpn_enabled())
return 0;
zif = ifp->info;
assert(zif);
vxl = &zif->l2info.vxl;
vni = vxl->vni;
zl3vni = zl3vni_lookup(vni);
if (zl3vni) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Update L3-VNI %u intf %s(%u) VLAN %u local IP %pI4 master %u chg 0x%x",
vni, ifp->name, ifp->ifindex, vxl->access_vlan,
&vxl->vtep_ip,
zif->brslave_info.bridge_ifindex, chgflags);
/* Removed from bridge? Cleanup and return */
if ((chgflags & ZEBRA_VXLIF_MASTER_CHANGE)
&& (zif->brslave_info.bridge_ifindex == IFINDEX_INTERNAL)) {
zebra_vxlan_process_l3vni_oper_down(zl3vni);
return 0;
}
if ((chgflags & ZEBRA_VXLIF_MASTER_MAC_CHANGE)
&& if_is_operative(ifp) && is_l3vni_oper_up(zl3vni)) {
zebra_vxlan_process_l3vni_oper_down(zl3vni);
zebra_vxlan_process_l3vni_oper_up(zl3vni);
return 0;
}
/* access-vlan change - process oper down, associate with new
* svi_if and then process oper up again
*/
if (chgflags & ZEBRA_VXLIF_VLAN_CHANGE) {
if (if_is_operative(ifp)) {
zebra_vxlan_process_l3vni_oper_down(zl3vni);
zl3vni->svi_if = NULL;
zl3vni->svi_if = zl3vni_map_to_svi_if(zl3vni);
zl3vni->mac_vlan_if =
zl3vni_map_to_mac_vlan_if(zl3vni);
zl3vni->local_vtep_ip = vxl->vtep_ip;
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(
zl3vni);
}
}
/*
* local-ip change - process oper down, associate with new
* local-ip and then process oper up again
*/
if (chgflags & ZEBRA_VXLIF_LOCAL_IP_CHANGE) {
if (if_is_operative(ifp)) {
zebra_vxlan_process_l3vni_oper_down(zl3vni);
zl3vni->local_vtep_ip = vxl->vtep_ip;
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(
zl3vni);
}
}
/* Update local tunnel IP. */
zl3vni->local_vtep_ip = vxl->vtep_ip;
/* if we have a valid new master, process l3-vni oper up */
if (chgflags & ZEBRA_VXLIF_MASTER_CHANGE) {
if (if_is_operative(ifp) && is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
}
} else {
/* Update VNI hash. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn) {
zlog_debug(
"Failed to find EVPN hash on update, IF %s(%u) VNI %u",
ifp->name, ifp->ifindex, vni);
return -1;
}
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Update L2-VNI %u intf %s(%u) VLAN %u local IP %pI4 master %u chg 0x%x",
vni, ifp->name, ifp->ifindex, vxl->access_vlan,
&vxl->vtep_ip,
zif->brslave_info.bridge_ifindex, chgflags);
/* Removed from bridge? Cleanup and return */
if ((chgflags & ZEBRA_VXLIF_MASTER_CHANGE)
&& (zif->brslave_info.bridge_ifindex == IFINDEX_INTERNAL)) {
/* Delete from client, remove all remote VTEPs */
/* Also, free up all MACs and neighbors. */
zevpn->svi_if = NULL;
zebra_evpn_send_del_to_client(zevpn);
zebra_evpn_neigh_del_all(zevpn, 1, 0, DEL_ALL_NEIGH);
zebra_evpn_mac_del_all(zevpn, 1, 0, DEL_ALL_MAC);
zebra_evpn_vtep_del_all(zevpn, 1);
return 0;
}
/* Handle other changes. */
if (chgflags & ZEBRA_VXLIF_VLAN_CHANGE) {
/* Remove all existing local neigh and MACs for this VNI
* (including from BGP)
*/
zebra_evpn_neigh_del_all(zevpn, 0, 1, DEL_LOCAL_MAC);
zebra_evpn_mac_del_all(zevpn, 0, 1, DEL_LOCAL_MAC);
}
if (zevpn->local_vtep_ip.s_addr != vxl->vtep_ip.s_addr ||
zevpn->mcast_grp.s_addr != vxl->mcast_grp.s_addr) {
zebra_vxlan_sg_deref(zevpn->local_vtep_ip,
zevpn->mcast_grp);
zebra_vxlan_sg_ref(vxl->vtep_ip, vxl->mcast_grp);
zevpn->local_vtep_ip = vxl->vtep_ip;
zevpn->mcast_grp = vxl->mcast_grp;
/* on local vtep-ip check if ES orig-ip
* needs to be updated
*/
zebra_evpn_es_set_base_evpn(zevpn);
}
zevpn_vxlan_if_set(zevpn, ifp, true /* set */);
vlan_if = zvni_map_to_svi(vxl->access_vlan,
zif->brslave_info.br_if);
if (vlan_if) {
zevpn->svi_if = vlan_if;
zevpn->vrf_id = vlan_if->vrf->vrf_id;
zl3vni = zl3vni_from_vrf(vlan_if->vrf->vrf_id);
if (zl3vni)
listnode_add_sort_nodup(zl3vni->l2vnis, zevpn);
}
/* Take further actions needed.
* Note that if we are here, there is a change of interest.
*/
/* If down or not mapped to a bridge, we're done. */
if (!if_is_operative(ifp) || !zif->brslave_info.br_if)
return 0;
/* Inform BGP, if there is a change of interest. */
if (chgflags &
(ZEBRA_VXLIF_MASTER_CHANGE | ZEBRA_VXLIF_LOCAL_IP_CHANGE |
ZEBRA_VXLIF_MCAST_GRP_CHANGE | ZEBRA_VXLIF_VLAN_CHANGE))
zebra_evpn_send_add_to_client(zevpn);
/* If there is a valid new master or a VLAN mapping change,
* read and populate local MACs and neighbors.
* Also, reinstall any remote MACs and neighbors
* for this VNI (based on new VLAN).
*/
if (chgflags & ZEBRA_VXLIF_MASTER_CHANGE)
zebra_evpn_read_mac_neigh(zevpn, ifp);
else if (chgflags & ZEBRA_VXLIF_VLAN_CHANGE) {
struct mac_walk_ctx m_wctx;
struct neigh_walk_ctx n_wctx;
zebra_evpn_read_mac_neigh(zevpn, ifp);
memset(&m_wctx, 0, sizeof(m_wctx));
m_wctx.zevpn = zevpn;
hash_iterate(zevpn->mac_table,
zebra_evpn_install_mac_hash, &m_wctx);
memset(&n_wctx, 0, sizeof(n_wctx));
n_wctx.zevpn = zevpn;
hash_iterate(zevpn->neigh_table,
zebra_evpn_install_neigh_hash, &n_wctx);
}
}
return 0;
}
/*
* Handle VxLAN interface add.
*/
int zebra_vxlan_if_add(struct interface *ifp)
{
vni_t vni;
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan *vxl = NULL;
struct zebra_evpn *zevpn = NULL;
struct zebra_l3vni *zl3vni = NULL;
/* Check if EVPN is enabled. */
if (!is_evpn_enabled())
return 0;
zif = ifp->info;
assert(zif);
vxl = &zif->l2info.vxl;
vni = vxl->vni;
zl3vni = zl3vni_lookup(vni);
if (zl3vni) {
/* process if-add for l3-vni*/
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Add L3-VNI %u intf %s(%u) VLAN %u local IP %pI4 master %u",
vni, ifp->name, ifp->ifindex, vxl->access_vlan,
&vxl->vtep_ip,
zif->brslave_info.bridge_ifindex);
/* associate with vxlan_if */
zl3vni->local_vtep_ip = vxl->vtep_ip;
zl3vni->vxlan_if = ifp;
/* Associate with SVI, if any. We can associate with svi-if only
* after association with vxlan_if is complete */
zl3vni->svi_if = zl3vni_map_to_svi_if(zl3vni);
zl3vni->mac_vlan_if = zl3vni_map_to_mac_vlan_if(zl3vni);
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
} else {
/* process if-add for l2-vni */
struct interface *vlan_if = NULL;
/* Create or update EVPN hash. */
zevpn = zebra_evpn_lookup(vni);
if (!zevpn)
zevpn = zebra_evpn_add(vni);
if (zevpn->local_vtep_ip.s_addr != vxl->vtep_ip.s_addr ||
zevpn->mcast_grp.s_addr != vxl->mcast_grp.s_addr) {
zebra_vxlan_sg_deref(zevpn->local_vtep_ip,
zevpn->mcast_grp);
zebra_vxlan_sg_ref(vxl->vtep_ip, vxl->mcast_grp);
zevpn->local_vtep_ip = vxl->vtep_ip;
zevpn->mcast_grp = vxl->mcast_grp;
/* on local vtep-ip check if ES orig-ip
* needs to be updated
*/
zebra_evpn_es_set_base_evpn(zevpn);
}
zevpn_vxlan_if_set(zevpn, ifp, true /* set */);
vlan_if = zvni_map_to_svi(vxl->access_vlan,
zif->brslave_info.br_if);
if (vlan_if) {
zevpn->svi_if = vlan_if;
zevpn->vrf_id = vlan_if->vrf->vrf_id;
zl3vni = zl3vni_from_vrf(vlan_if->vrf->vrf_id);
if (zl3vni)
listnode_add_sort_nodup(zl3vni->l2vnis, zevpn);
}
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Add L2-VNI %u VRF %s intf %s(%u) VLAN %u local IP %pI4 mcast_grp %pI4 master %u",
vni,
vlan_if ? vlan_if->vrf->name : VRF_DEFAULT_NAME,
ifp->name, ifp->ifindex, vxl->access_vlan,
&vxl->vtep_ip, &vxl->mcast_grp,
zif->brslave_info.bridge_ifindex);
/* If down or not mapped to a bridge, we're done. */
if (!if_is_operative(ifp) || !zif->brslave_info.br_if)
return 0;
/* Inform BGP */
zebra_evpn_send_add_to_client(zevpn);
/* Read and populate local MACs and neighbors */
zebra_evpn_read_mac_neigh(zevpn, ifp);
}
return 0;
}
int zebra_vxlan_process_vrf_vni_cmd(struct zebra_vrf *zvrf, vni_t vni,
char *err, int err_str_sz, int filter,
int add)
{
struct zebra_l3vni *zl3vni = NULL;
struct zebra_vrf *zvrf_evpn = NULL;
zvrf_evpn = zebra_vrf_get_evpn();
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("vrf %s vni %u %s", zvrf_name(zvrf), vni,
add ? "ADD" : "DEL");
if (add) {
/* check if the vni is already present under zvrf */
if (zvrf->l3vni) {
snprintf(err, err_str_sz,
"VNI is already configured under the vrf");
return -1;
}
/* check if this VNI is already present in the system */
zl3vni = zl3vni_lookup(vni);
if (zl3vni) {
snprintf(err, err_str_sz,
"VNI is already configured as L3-VNI");
return -1;
}
/* Remove L2VNI if present */
zebra_vxlan_handle_vni_transition(zvrf, vni, add);
/* add the L3-VNI to the global table */
zl3vni = zl3vni_add(vni, zvrf_id(zvrf));
/* associate the vrf with vni */
zvrf->l3vni = vni;
/* set the filter in l3vni to denote if we are using l3vni only
* for prefix routes
*/
if (filter)
SET_FLAG(zl3vni->filter, PREFIX_ROUTES_ONLY);
/* associate with vxlan-intf;
* we need to associate with the vxlan-intf first
*/
zl3vni->vxlan_if = zl3vni_map_to_vxlan_if(zl3vni);
/* associate with corresponding SVI interface, we can associate
* with svi-if only after vxlan interface association is
* complete
*/
zl3vni->svi_if = zl3vni_map_to_svi_if(zl3vni);
zl3vni->mac_vlan_if = zl3vni_map_to_mac_vlan_if(zl3vni);
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"%s: l3vni %u svi_if %s mac_vlan_if %s",
__func__, vni,
zl3vni->svi_if ? zl3vni->svi_if->name : "NIL",
zl3vni->mac_vlan_if ? zl3vni->mac_vlan_if->name
: "NIL");
/* formulate l2vni list */
hash_iterate(zvrf_evpn->evpn_table, zevpn_add_to_l3vni_list,
zl3vni);
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
} else {
zl3vni = zl3vni_lookup(vni);
if (!zl3vni) {
snprintf(err, err_str_sz, "VNI doesn't exist");
return -1;
}
if (zvrf->l3vni != vni) {
snprintf(err, err_str_sz,
"VNI %d doesn't exist in VRF: %s",
vni, zvrf->vrf->name);
return -1;
}
if (filter && !CHECK_FLAG(zl3vni->filter, PREFIX_ROUTES_ONLY)) {
snprintf(err, ERR_STR_SZ,
"prefix-routes-only is not set for the vni");
return -1;
}
zebra_vxlan_process_l3vni_oper_down(zl3vni);
/* delete and uninstall all rmacs */
hash_iterate(zl3vni->rmac_table, zl3vni_del_rmac_hash_entry,
zl3vni);
/* delete and uninstall all next-hops */
hash_iterate(zl3vni->nh_table, zl3vni_del_nh_hash_entry,
zl3vni);
zvrf->l3vni = 0;
zl3vni_del(zl3vni);
/* Add L2VNI for this VNI */
zebra_vxlan_handle_vni_transition(zvrf, vni, add);
}
return 0;
}
int zebra_vxlan_vrf_enable(struct zebra_vrf *zvrf)
{
struct zebra_l3vni *zl3vni = NULL;
if (zvrf->l3vni)
zl3vni = zl3vni_lookup(zvrf->l3vni);
if (!zl3vni)
return 0;
zl3vni->vrf_id = zvrf_id(zvrf);
if (is_l3vni_oper_up(zl3vni))
zebra_vxlan_process_l3vni_oper_up(zl3vni);
return 0;
}
int zebra_vxlan_vrf_disable(struct zebra_vrf *zvrf)
{
struct zebra_l3vni *zl3vni = NULL;
if (zvrf->l3vni)
zl3vni = zl3vni_lookup(zvrf->l3vni);
if (!zl3vni)
return 0;
zebra_vxlan_process_l3vni_oper_down(zl3vni);
/* delete and uninstall all rmacs */
hash_iterate(zl3vni->rmac_table, zl3vni_del_rmac_hash_entry, zl3vni);
/* delete and uninstall all next-hops */
hash_iterate(zl3vni->nh_table, zl3vni_del_nh_hash_entry, zl3vni);
zl3vni->vrf_id = VRF_UNKNOWN;
return 0;
}
int zebra_vxlan_vrf_delete(struct zebra_vrf *zvrf)
{
struct zebra_l3vni *zl3vni = NULL;
vni_t vni;
if (zvrf->l3vni)
zl3vni = zl3vni_lookup(zvrf->l3vni);
if (!zl3vni)
return 0;
vni = zl3vni->vni;
zl3vni_del(zl3vni);
zebra_vxlan_handle_vni_transition(zvrf, vni, 0);
return 0;
}
/*
* Handle message from client to specify the flooding mechanism for
* BUM packets. The default is to do head-end (ingress) replication
* and the other supported option is to disable it. This applies to
* all BUM traffic and disabling it applies to both the transmit and
* receive direction.
*/
void zebra_vxlan_flood_control(ZAPI_HANDLER_ARGS)
{
struct stream *s;
enum vxlan_flood_control flood_ctrl;
if (!EVPN_ENABLED(zvrf)) {
zlog_err("EVPN flood control for non-EVPN VRF %u",
zvrf_id(zvrf));
return;
}
s = msg;
STREAM_GETC(s, flood_ctrl);
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("EVPN flood control %u, currently %u",
flood_ctrl, zvrf->vxlan_flood_ctrl);
if (zvrf->vxlan_flood_ctrl == flood_ctrl)
return;
zvrf->vxlan_flood_ctrl = flood_ctrl;
/* Install or uninstall flood entries corresponding to
* remote VTEPs.
*/
hash_iterate(zvrf->evpn_table, zebra_evpn_handle_flooding_remote_vteps,
zvrf);
stream_failure:
return;
}
/*
* Handle message from client to enable/disable advertisement of svi macip
* routes
*/
void zebra_vxlan_advertise_svi_macip(ZAPI_HANDLER_ARGS)
{
struct stream *s;
int advertise;
vni_t vni = 0;
struct zebra_evpn *zevpn = NULL;
struct interface *ifp = NULL;
if (!EVPN_ENABLED(zvrf)) {
zlog_debug("EVPN SVI-MACIP Adv for non-EVPN VRF %u",
zvrf_id(zvrf));
return;
}
s = msg;
STREAM_GETC(s, advertise);
STREAM_GETL(s, vni);
if (!vni) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("EVPN SVI-MACIP Adv %s, currently %s",
advertise ? "enabled" : "disabled",
advertise_svi_macip_enabled(NULL)
? "enabled"
: "disabled");
if (zvrf->advertise_svi_macip == advertise)
return;
if (advertise) {
zvrf->advertise_svi_macip = advertise;
hash_iterate(zvrf->evpn_table,
zebra_evpn_gw_macip_add_for_evpn_hash,
NULL);
} else {
hash_iterate(zvrf->evpn_table,
zebra_evpn_svi_macip_del_for_evpn_hash,
NULL);
zvrf->advertise_svi_macip = advertise;
}
} else {
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan zl2_info;
struct interface *vlan_if = NULL;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn)
return;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"EVPN SVI macip Adv %s on VNI %d , currently %s",
advertise ? "enabled" : "disabled", vni,
advertise_svi_macip_enabled(zevpn)
? "enabled"
: "disabled");
if (zevpn->advertise_svi_macip == advertise)
return;
/* Store flag even though SVI is not present.
* Once SVI comes up triggers self MAC-IP route add.
*/
zevpn->advertise_svi_macip = advertise;
ifp = zevpn->vxlan_if;
if (!ifp)
return;
zif = ifp->info;
/* If down or not mapped to a bridge, we're done. */
if (!if_is_operative(ifp) || !zif->brslave_info.br_if)
return;
zl2_info = zif->l2info.vxl;
vlan_if = zvni_map_to_svi(zl2_info.access_vlan,
zif->brslave_info.br_if);
if (!vlan_if)
return;
if (advertise) {
/* Add primary SVI MAC-IP */
zebra_evpn_add_macip_for_intf(vlan_if, zevpn);
} else {
/* Del primary SVI MAC-IP */
zebra_evpn_del_macip_for_intf(vlan_if, zevpn);
}
}
stream_failure:
return;
}
/*
* Handle message from client to enable/disable advertisement of g/w macip
* routes
*/
void zebra_vxlan_advertise_subnet(ZAPI_HANDLER_ARGS)
{
struct stream *s;
int advertise;
vni_t vni = 0;
struct zebra_evpn *zevpn = NULL;
struct interface *ifp = NULL;
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan zl2_info;
struct interface *vlan_if = NULL;
if (!EVPN_ENABLED(zvrf)) {
zlog_debug("EVPN GW-MACIP Adv for non-EVPN VRF %u",
zvrf_id(zvrf));
return;
}
s = msg;
STREAM_GETC(s, advertise);
STREAM_GET(&vni, s, 3);
zevpn = zebra_evpn_lookup(vni);
if (!zevpn)
return;
if (zevpn->advertise_subnet == advertise)
return;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("EVPN subnet Adv %s on VNI %d , currently %s",
advertise ? "enabled" : "disabled", vni,
zevpn->advertise_subnet ? "enabled" : "disabled");
zevpn->advertise_subnet = advertise;
ifp = zevpn->vxlan_if;
if (!ifp)
return;
zif = ifp->info;
/* If down or not mapped to a bridge, we're done. */
if (!if_is_operative(ifp) || !zif->brslave_info.br_if)
return;
zl2_info = zif->l2info.vxl;
vlan_if =
zvni_map_to_svi(zl2_info.access_vlan, zif->brslave_info.br_if);
if (!vlan_if)
return;
if (zevpn->advertise_subnet)
zebra_evpn_advertise_subnet(zevpn, vlan_if, 1);
else
zebra_evpn_advertise_subnet(zevpn, vlan_if, 0);
stream_failure:
return;
}
/*
* Handle message from client to enable/disable advertisement of g/w macip
* routes
*/
void zebra_vxlan_advertise_gw_macip(ZAPI_HANDLER_ARGS)
{
struct stream *s;
int advertise;
vni_t vni = 0;
struct zebra_evpn *zevpn = NULL;
struct interface *ifp = NULL;
if (!EVPN_ENABLED(zvrf)) {
zlog_debug("EVPN GW-MACIP Adv for non-EVPN VRF %u",
zvrf_id(zvrf));
return;
}
s = msg;
STREAM_GETC(s, advertise);
STREAM_GETL(s, vni);
if (!vni) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("EVPN gateway macip Adv %s, currently %s",
advertise ? "enabled" : "disabled",
advertise_gw_macip_enabled(NULL)
? "enabled"
: "disabled");
if (zvrf->advertise_gw_macip == advertise)
return;
zvrf->advertise_gw_macip = advertise;
if (advertise_gw_macip_enabled(zevpn))
hash_iterate(zvrf->evpn_table,
zebra_evpn_gw_macip_add_for_evpn_hash,
NULL);
else
hash_iterate(zvrf->evpn_table,
zebra_evpn_gw_macip_del_for_evpn_hash,
NULL);
} else {
struct zebra_if *zif = NULL;
struct zebra_l2info_vxlan zl2_info;
struct interface *vlan_if = NULL;
struct interface *vrr_if = NULL;
zevpn = zebra_evpn_lookup(vni);
if (!zevpn)
return;
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"EVPN gateway macip Adv %s on VNI %d , currently %s",
advertise ? "enabled" : "disabled", vni,
advertise_gw_macip_enabled(zevpn) ? "enabled"
: "disabled");
if (zevpn->advertise_gw_macip == advertise)
return;
zevpn->advertise_gw_macip = advertise;
ifp = zevpn->vxlan_if;
if (!ifp)
return;
zif = ifp->info;
/* If down or not mapped to a bridge, we're done. */
if (!if_is_operative(ifp) || !zif->brslave_info.br_if)
return;
zl2_info = zif->l2info.vxl;
vlan_if = zvni_map_to_svi(zl2_info.access_vlan,
zif->brslave_info.br_if);
if (!vlan_if)
return;
if (advertise_gw_macip_enabled(zevpn)) {
/* Add primary SVI MAC-IP */
zebra_evpn_add_macip_for_intf(vlan_if, zevpn);
/* Add VRR MAC-IP - if any*/
vrr_if = zebra_get_vrr_intf_for_svi(vlan_if);
if (vrr_if)
zebra_evpn_add_macip_for_intf(vrr_if, zevpn);
} else {
/* Del primary MAC-IP */
zebra_evpn_del_macip_for_intf(vlan_if, zevpn);
/* Del VRR MAC-IP - if any*/
vrr_if = zebra_get_vrr_intf_for_svi(vlan_if);
if (vrr_if)
zebra_evpn_del_macip_for_intf(vrr_if, zevpn);
}
}
stream_failure:
return;
}
static int macfdb_read_ns(struct ns *ns,
void *_in_param __attribute__((unused)),
void **out_param __attribute__((unused)))
{
struct zebra_ns *zns = ns->info;
macfdb_read(zns);
return NS_WALK_CONTINUE;
}
static int neigh_read_ns(struct ns *ns,
void *_in_param __attribute__((unused)),
void **out_param __attribute__((unused)))
{
struct zebra_ns *zns = ns->info;
neigh_read(zns);
return NS_WALK_CONTINUE;
}
/*
* Handle message from client to learn (or stop learning) about VNIs and MACs.
* When enabled, the VNI hash table will be built and MAC FDB table read;
* when disabled, the entries should be deleted and remote VTEPs and MACs
* uninstalled from the kernel.
* This also informs the setting for BUM handling at the time this change
* occurs; it is relevant only when specifying "learn".
*/
void zebra_vxlan_advertise_all_vni(ZAPI_HANDLER_ARGS)
{
struct stream *s = NULL;
int advertise = 0;
enum vxlan_flood_control flood_ctrl;
/* Mismatch between EVPN VRF and current VRF (should be prevented by
* bgpd's cli) */
if (is_evpn_enabled() && !EVPN_ENABLED(zvrf))
return;
s = msg;
STREAM_GETC(s, advertise);
STREAM_GETC(s, flood_ctrl);
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("EVPN VRF %s(%u) VNI Adv %s, currently %s, flood control %u",
zvrf_name(zvrf), zvrf_id(zvrf),
advertise ? "enabled" : "disabled",
is_evpn_enabled() ? "enabled" : "disabled",
flood_ctrl);
if (zvrf->advertise_all_vni == advertise)
return;
zvrf->advertise_all_vni = advertise;
if (EVPN_ENABLED(zvrf)) {
zrouter.evpn_vrf = zvrf;
/* Note BUM handling */
zvrf->vxlan_flood_ctrl = flood_ctrl;
/* Replay all ESs */
zebra_evpn_es_send_all_to_client(true /* add */);
/* Build EVPN hash table and inform BGP. */
zevpn_build_hash_table();
/* Add all SVI (L3 GW) MACs to BGP*/
hash_iterate(zvrf->evpn_table,
zebra_evpn_gw_macip_add_for_evpn_hash, NULL);
/* Read the MAC FDB */
ns_walk_func(macfdb_read_ns, NULL, NULL);
/* Read neighbors */
ns_walk_func(neigh_read_ns, NULL, NULL);
} else {
/* Cleanup VTEPs for all EVPNs - uninstall from
* kernel and free entries.
*/
hash_iterate(zvrf->evpn_table, zebra_evpn_vxlan_cleanup_all,
zvrf);
/* Delete all ESs in BGP */
zebra_evpn_es_send_all_to_client(false /* add */);
/* cleanup all l3vnis */
hash_iterate(zrouter.l3vni_table, zl3vni_cleanup_all, NULL);
/* Mark as "no EVPN VRF" */
zrouter.evpn_vrf = NULL;
}
stream_failure:
return;
}
/*
* Allocate EVPN hash table for this VRF and do other initialization.
* NOTE: Currently supported only for default VRF.
*/
void zebra_vxlan_init_tables(struct zebra_vrf *zvrf)
{
char buffer[80];
if (!zvrf)
return;
snprintf(buffer, sizeof(buffer), "Zebra VRF EVPN Table: %s",
zvrf->vrf->name);
zvrf->evpn_table = hash_create_size(8, zebra_evpn_hash_keymake,
zebra_evpn_hash_cmp, buffer);
snprintf(buffer, sizeof(buffer), "Zebra VxLAN SG Table: %s",
zvrf->vrf->name);
zvrf->vxlan_sg_table = hash_create_size(8, zebra_vxlan_sg_hash_key_make,
zebra_vxlan_sg_hash_eq, buffer);
}
/* Cleanup EVPN info, but don't free the table. */
void zebra_vxlan_cleanup_tables(struct zebra_vrf *zvrf)
{
struct zebra_vrf *evpn_zvrf = zebra_vrf_get_evpn();
hash_iterate(zvrf->evpn_table, zebra_evpn_vxlan_cleanup_all, zvrf);
zebra_vxlan_cleanup_sg_table(zvrf);
if (zvrf == evpn_zvrf)
zebra_evpn_es_cleanup();
}
/* Close all EVPN handling */
void zebra_vxlan_close_tables(struct zebra_vrf *zvrf)
{
if (!zvrf)
return;
hash_iterate(zvrf->evpn_table, zebra_evpn_vxlan_cleanup_all, zvrf);
hash_free(zvrf->evpn_table);
if (zvrf->vxlan_sg_table) {
zebra_vxlan_cleanup_sg_table(zvrf);
hash_free(zvrf->vxlan_sg_table);
zvrf->vxlan_sg_table = NULL;
}
}
/* init the l3vni table */
void zebra_vxlan_init(void)
{
zrouter.l3vni_table = hash_create(l3vni_hash_keymake, l3vni_hash_cmp,
"Zebra VRF L3 VNI table");
zrouter.evpn_vrf = NULL;
zebra_evpn_mh_init();
}
/* free l3vni table */
void zebra_vxlan_disable(void)
{
hash_free(zrouter.l3vni_table);
zebra_evpn_mh_terminate();
}
/* get the l3vni svi ifindex */
ifindex_t get_l3vni_svi_ifindex(vrf_id_t vrf_id)
{
struct zebra_l3vni *zl3vni = NULL;
zl3vni = zl3vni_from_vrf(vrf_id);
if (!zl3vni || !is_l3vni_oper_up(zl3vni))
return 0;
return zl3vni->svi_if->ifindex;
}
/************************** vxlan SG cache management ************************/
/* Inform PIM about the mcast group */
static int zebra_vxlan_sg_send(struct zebra_vrf *zvrf,
struct prefix_sg *sg,
char *sg_str, uint16_t cmd)
{
struct zserv *client = NULL;
struct stream *s = NULL;
client = zserv_find_client(ZEBRA_ROUTE_PIM, 0);
if (!client)
return 0;
if (!CHECK_FLAG(zvrf->flags, ZEBRA_PIM_SEND_VXLAN_SG))
return 0;
s = stream_new(ZEBRA_MAX_PACKET_SIZ);
zclient_create_header(s, cmd, VRF_DEFAULT);
stream_putl(s, IPV4_MAX_BYTELEN);
stream_put(s, &sg->src.s_addr, IPV4_MAX_BYTELEN);
stream_put(s, &sg->grp.s_addr, IPV4_MAX_BYTELEN);
/* Write packet size. */
stream_putw_at(s, 0, stream_get_endp(s));
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug(
"Send %s %s to %s",
(cmd == ZEBRA_VXLAN_SG_ADD) ? "add" : "del", sg_str,
zebra_route_string(client->proto));
if (cmd == ZEBRA_VXLAN_SG_ADD)
client->vxlan_sg_add_cnt++;
else
client->vxlan_sg_del_cnt++;
return zserv_send_message(client, s);
}
static unsigned int zebra_vxlan_sg_hash_key_make(const void *p)
{
const struct zebra_vxlan_sg *vxlan_sg = p;
return (jhash_2words(vxlan_sg->sg.src.s_addr,
vxlan_sg->sg.grp.s_addr, 0));
}
static bool zebra_vxlan_sg_hash_eq(const void *p1, const void *p2)
{
const struct zebra_vxlan_sg *sg1 = p1;
const struct zebra_vxlan_sg *sg2 = p2;
return ((sg1->sg.src.s_addr == sg2->sg.src.s_addr)
&& (sg1->sg.grp.s_addr == sg2->sg.grp.s_addr));
}
static struct zebra_vxlan_sg *zebra_vxlan_sg_new(struct zebra_vrf *zvrf,
struct prefix_sg *sg)
{
struct zebra_vxlan_sg *vxlan_sg;
vxlan_sg = XCALLOC(MTYPE_ZVXLAN_SG, sizeof(*vxlan_sg));
vxlan_sg->zvrf = zvrf;
vxlan_sg->sg = *sg;
prefix_sg2str(sg, vxlan_sg->sg_str);
vxlan_sg = hash_get(zvrf->vxlan_sg_table, vxlan_sg, hash_alloc_intern);
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("vxlan SG %s created", vxlan_sg->sg_str);
return vxlan_sg;
}
static struct zebra_vxlan_sg *zebra_vxlan_sg_find(struct zebra_vrf *zvrf,
struct prefix_sg *sg)
{
struct zebra_vxlan_sg lookup;
lookup.sg = *sg;
return hash_lookup(zvrf->vxlan_sg_table, &lookup);
}
static struct zebra_vxlan_sg *zebra_vxlan_sg_add(struct zebra_vrf *zvrf,
struct prefix_sg *sg)
{
struct zebra_vxlan_sg *vxlan_sg;
struct zebra_vxlan_sg *parent = NULL;
struct in_addr sip;
vxlan_sg = zebra_vxlan_sg_find(zvrf, sg);
if (vxlan_sg)
return vxlan_sg;
/* create a *G entry for every BUM group implicitly -
* 1. The SG entry is used by pimd to setup the vxlan-origination-mroute
* 2. the XG entry is used by pimd to setup the
* vxlan-termination-mroute
*/
if (sg->src.s_addr != INADDR_ANY) {
memset(&sip, 0, sizeof(sip));
parent = zebra_vxlan_sg_do_ref(zvrf, sip, sg->grp);
if (!parent)
return NULL;
}
vxlan_sg = zebra_vxlan_sg_new(zvrf, sg);
zebra_vxlan_sg_send(zvrf, sg, vxlan_sg->sg_str,
ZEBRA_VXLAN_SG_ADD);
return vxlan_sg;
}
static void zebra_vxlan_sg_del(struct zebra_vxlan_sg *vxlan_sg)
{
struct in_addr sip;
struct zebra_vrf *zvrf;
zvrf = vrf_info_lookup(VRF_DEFAULT);
if (!zvrf)
return;
/* On SG entry deletion remove the reference to its parent XG
* entry
*/
if (vxlan_sg->sg.src.s_addr != INADDR_ANY) {
memset(&sip, 0, sizeof(sip));
zebra_vxlan_sg_do_deref(zvrf, sip, vxlan_sg->sg.grp);
}
zebra_vxlan_sg_send(zvrf, &vxlan_sg->sg,
vxlan_sg->sg_str, ZEBRA_VXLAN_SG_DEL);
hash_release(vxlan_sg->zvrf->vxlan_sg_table, vxlan_sg);
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("VXLAN SG %s deleted", vxlan_sg->sg_str);
XFREE(MTYPE_ZVXLAN_SG, vxlan_sg);
}
static void zebra_vxlan_sg_do_deref(struct zebra_vrf *zvrf,
struct in_addr sip, struct in_addr mcast_grp)
{
struct zebra_vxlan_sg *vxlan_sg;
struct prefix_sg sg;
sg.family = AF_INET;
sg.prefixlen = IPV4_MAX_BYTELEN;
sg.src = sip;
sg.grp = mcast_grp;
vxlan_sg = zebra_vxlan_sg_find(zvrf, &sg);
if (!vxlan_sg)
return;
if (vxlan_sg->ref_cnt)
--vxlan_sg->ref_cnt;
if (!vxlan_sg->ref_cnt)
zebra_vxlan_sg_del(vxlan_sg);
}
static struct zebra_vxlan_sg *zebra_vxlan_sg_do_ref(struct zebra_vrf *zvrf,
struct in_addr sip,
struct in_addr mcast_grp)
{
struct zebra_vxlan_sg *vxlan_sg;
struct prefix_sg sg;
sg.family = AF_INET;
sg.prefixlen = IPV4_MAX_BYTELEN;
sg.src = sip;
sg.grp = mcast_grp;
vxlan_sg = zebra_vxlan_sg_add(zvrf, &sg);
if (vxlan_sg)
++vxlan_sg->ref_cnt;
return vxlan_sg;
}
static void zebra_vxlan_sg_deref(struct in_addr local_vtep_ip,
struct in_addr mcast_grp)
{
struct zebra_vrf *zvrf;
if (local_vtep_ip.s_addr == INADDR_ANY
|| mcast_grp.s_addr == INADDR_ANY)
return;
zvrf = vrf_info_lookup(VRF_DEFAULT);
if (!zvrf)
return;
zebra_vxlan_sg_do_deref(zvrf, local_vtep_ip, mcast_grp);
}
static void zebra_vxlan_sg_ref(struct in_addr local_vtep_ip,
struct in_addr mcast_grp)
{
struct zebra_vrf *zvrf;
if (local_vtep_ip.s_addr == INADDR_ANY
|| mcast_grp.s_addr == INADDR_ANY)
return;
zvrf = vrf_info_lookup(VRF_DEFAULT);
if (!zvrf)
return;
zebra_vxlan_sg_do_ref(zvrf, local_vtep_ip, mcast_grp);
}
static void zebra_vxlan_xg_pre_cleanup(struct hash_bucket *bucket, void *arg)
{
struct zebra_vxlan_sg *vxlan_sg = (struct zebra_vxlan_sg *)bucket->data;
/* increment the ref count against (*,G) to prevent them from being
* deleted
*/
if (vxlan_sg->sg.src.s_addr == INADDR_ANY)
++vxlan_sg->ref_cnt;
}
static void zebra_vxlan_xg_post_cleanup(struct hash_bucket *bucket, void *arg)
{
struct zebra_vxlan_sg *vxlan_sg = (struct zebra_vxlan_sg *)bucket->data;
/* decrement the dummy ref count against (*,G) to delete them */
if (vxlan_sg->sg.src.s_addr == INADDR_ANY) {
if (vxlan_sg->ref_cnt)
--vxlan_sg->ref_cnt;
if (!vxlan_sg->ref_cnt)
zebra_vxlan_sg_del(vxlan_sg);
}
}
static void zebra_vxlan_sg_cleanup(struct hash_bucket *bucket, void *arg)
{
struct zebra_vxlan_sg *vxlan_sg = (struct zebra_vxlan_sg *)bucket->data;
zebra_vxlan_sg_del(vxlan_sg);
}
static void zebra_vxlan_cleanup_sg_table(struct zebra_vrf *zvrf)
{
/* increment the ref count against (*,G) to prevent them from being
* deleted
*/
hash_iterate(zvrf->vxlan_sg_table, zebra_vxlan_xg_pre_cleanup, NULL);
hash_iterate(zvrf->vxlan_sg_table, zebra_vxlan_sg_cleanup, NULL);
/* decrement the dummy ref count against the XG entries */
hash_iterate(zvrf->vxlan_sg_table, zebra_vxlan_xg_post_cleanup, NULL);
}
static void zebra_vxlan_sg_replay_send(struct hash_bucket *bucket, void *arg)
{
struct zebra_vxlan_sg *vxlan_sg = (struct zebra_vxlan_sg *)bucket->data;
zebra_vxlan_sg_send(vxlan_sg->zvrf, &vxlan_sg->sg,
vxlan_sg->sg_str, ZEBRA_VXLAN_SG_ADD);
}
/* Handle message from client to replay vxlan SG entries */
void zebra_vxlan_sg_replay(ZAPI_HANDLER_ARGS)
{
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("VxLAN SG updates to PIM, start");
SET_FLAG(zvrf->flags, ZEBRA_PIM_SEND_VXLAN_SG);
if (!EVPN_ENABLED(zvrf)) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("VxLAN SG replay request on unexpected vrf %d",
zvrf->vrf->vrf_id);
return;
}
hash_iterate(zvrf->vxlan_sg_table, zebra_vxlan_sg_replay_send, NULL);
}
/* Cleanup EVPN configuration of a specific VRF */
static void zebra_evpn_vrf_cfg_cleanup(struct zebra_vrf *zvrf)
{
struct zebra_l3vni *zl3vni = NULL;
zvrf->advertise_all_vni = 0;
zvrf->advertise_gw_macip = 0;
zvrf->advertise_svi_macip = 0;
zvrf->vxlan_flood_ctrl = VXLAN_FLOOD_HEAD_END_REPL;
hash_iterate(zvrf->evpn_table, zebra_evpn_cfg_cleanup, NULL);
if (zvrf->l3vni)
zl3vni = zl3vni_lookup(zvrf->l3vni);
if (zl3vni) {
/* delete and uninstall all rmacs */
hash_iterate(zl3vni->rmac_table, zl3vni_del_rmac_hash_entry,
zl3vni);
/* delete and uninstall all next-hops */
hash_iterate(zl3vni->nh_table, zl3vni_del_nh_hash_entry,
zl3vni);
}
}
/* Cleanup BGP EVPN configuration upon client disconnect */
static int zebra_evpn_bgp_cfg_clean_up(struct zserv *client)
{
struct vrf *vrf;
struct zebra_vrf *zvrf;
RB_FOREACH (vrf, vrf_id_head, &vrfs_by_id) {
zvrf = vrf->info;
if (zvrf)
zebra_evpn_vrf_cfg_cleanup(zvrf);
}
return 0;
}
static int zebra_evpn_pim_cfg_clean_up(struct zserv *client)
{
struct zebra_vrf *zvrf = zebra_vrf_get_evpn();
if (CHECK_FLAG(zvrf->flags, ZEBRA_PIM_SEND_VXLAN_SG)) {
if (IS_ZEBRA_DEBUG_VXLAN)
zlog_debug("VxLAN SG updates to PIM, stop");
UNSET_FLAG(zvrf->flags, ZEBRA_PIM_SEND_VXLAN_SG);
}
return 0;
}
static int zebra_evpn_cfg_clean_up(struct zserv *client)
{
if (client->proto == ZEBRA_ROUTE_BGP)
return zebra_evpn_bgp_cfg_clean_up(client);
if (client->proto == ZEBRA_ROUTE_PIM)
return zebra_evpn_pim_cfg_clean_up(client);
return 0;
}
/*
* Handle results for vxlan dataplane operations.
*/
extern void zebra_vxlan_handle_result(struct zebra_dplane_ctx *ctx)
{
return;
}
/* Config knob for accepting lower sequence numbers */
void zebra_vxlan_set_accept_bgp_seq(bool set)
{
accept_bgp_seq = set;
}
bool zebra_vxlan_get_accept_bgp_seq(void)
{
return accept_bgp_seq;
}
/* Cleanup BGP EVPN configuration upon client disconnect */
extern void zebra_evpn_init(void)
{
hook_register(zserv_client_close, zebra_evpn_cfg_clean_up);
}
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