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/* MPLS-VPN
* Copyright (C) 2000 Kunihiro Ishiguro <kunihiro@zebra.org>
*
* This file is part of GNU Zebra.
*
* GNU Zebra 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.
*
* GNU Zebra 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 this program; see the file COPYING; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <zebra.h>
#include "command.h"
#include "prefix.h"
#include "log.h"
#include "memory.h"
#include "stream.h"
#include "queue.h"
#include "filter.h"
#include "mpls.h"
#include "json.h"
#include "zclient.h"
#include "bgpd/bgpd.h"
#include "bgpd/bgp_debug.h"
#include "bgpd/bgp_errors.h"
#include "bgpd/bgp_table.h"
#include "bgpd/bgp_route.h"
#include "bgpd/bgp_attr.h"
#include "bgpd/bgp_label.h"
#include "bgpd/bgp_mplsvpn.h"
#include "bgpd/bgp_packet.h"
#include "bgpd/bgp_vty.h"
#include "bgpd/bgp_vpn.h"
#include "bgpd/bgp_ecommunity.h"
#include "bgpd/bgp_zebra.h"
#include "bgpd/bgp_nexthop.h"
#include "bgpd/bgp_nht.h"
#include "bgpd/bgp_evpn.h"
#if ENABLE_BGP_VNC
#include "bgpd/rfapi/rfapi_backend.h"
#endif
/*
* Definitions and external declarations.
*/
extern struct zclient *zclient;
extern int argv_find_and_parse_vpnvx(struct cmd_token **argv, int argc,
int *index, afi_t *afi)
{
int ret = 0;
if (argv_find(argv, argc, "vpnv4", index)) {
ret = 1;
if (afi)
*afi = AFI_IP;
} else if (argv_find(argv, argc, "vpnv6", index)) {
ret = 1;
if (afi)
*afi = AFI_IP6;
}
return ret;
}
uint32_t decode_label(mpls_label_t *label_pnt)
{
uint32_t l;
uint8_t *pnt = (uint8_t *)label_pnt;
l = ((uint32_t)*pnt++ << 12);
l |= (uint32_t)*pnt++ << 4;
l |= (uint32_t)((*pnt & 0xf0) >> 4);
return l;
}
void encode_label(mpls_label_t label, mpls_label_t *label_pnt)
{
uint8_t *pnt = (uint8_t *)label_pnt;
if (pnt == NULL)
return;
if (label == BGP_PREVENT_VRF_2_VRF_LEAK) {
*label_pnt = label;
return;
}
*pnt++ = (label >> 12) & 0xff;
*pnt++ = (label >> 4) & 0xff;
*pnt++ = ((label << 4) + 1) & 0xff; /* S=1 */
}
int bgp_nlri_parse_vpn(struct peer *peer, struct attr *attr,
struct bgp_nlri *packet)
{
uint8_t *pnt;
uint8_t *lim;
struct prefix p;
int psize = 0;
int prefixlen;
uint16_t type;
struct rd_as rd_as;
struct rd_ip rd_ip;
struct prefix_rd prd;
mpls_label_t label = {0};
afi_t afi;
safi_t safi;
int addpath_encoded;
uint32_t addpath_id;
/* Make prefix_rd */
prd.family = AF_UNSPEC;
prd.prefixlen = 64;
pnt = packet->nlri;
lim = pnt + packet->length;
afi = packet->afi;
safi = packet->safi;
addpath_id = 0;
addpath_encoded =
(CHECK_FLAG(peer->af_cap[afi][safi], PEER_CAP_ADDPATH_AF_RX_ADV)
&& CHECK_FLAG(peer->af_cap[afi][safi],
PEER_CAP_ADDPATH_AF_TX_RCV));
#define VPN_PREFIXLEN_MIN_BYTES (3 + 8) /* label + RD */
for (; pnt < lim; pnt += psize) {
/* Clear prefix structure. */
memset(&p, 0, sizeof(struct prefix));
if (addpath_encoded) {
/* When packet overflow occurs return immediately. */
if (pnt + BGP_ADDPATH_ID_LEN > lim)
return -1;
addpath_id = ntohl(*((uint32_t *)pnt));
pnt += BGP_ADDPATH_ID_LEN;
}
/* Fetch prefix length. */
prefixlen = *pnt++;
p.family = afi2family(packet->afi);
psize = PSIZE(prefixlen);
if (prefixlen < VPN_PREFIXLEN_MIN_BYTES * 8) {
flog_err(
EC_BGP_UPDATE_RCV,
"%s [Error] Update packet error / VPN (prefix length %d less than VPN min length)",
peer->host, prefixlen);
return -1;
}
/* sanity check against packet data */
if ((pnt + psize) > lim) {
flog_err(
EC_BGP_UPDATE_RCV,
"%s [Error] Update packet error / VPN (prefix length %d exceeds packet size %u)",
peer->host, prefixlen, (uint)(lim - pnt));
return -1;
}
/* sanity check against storage for the IP address portion */
if ((psize - VPN_PREFIXLEN_MIN_BYTES) > (ssize_t)sizeof(p.u)) {
flog_err(
EC_BGP_UPDATE_RCV,
"%s [Error] Update packet error / VPN (psize %d exceeds storage size %zu)",
peer->host,
prefixlen - VPN_PREFIXLEN_MIN_BYTES * 8,
sizeof(p.u));
return -1;
}
/* Sanity check against max bitlen of the address family */
if ((psize - VPN_PREFIXLEN_MIN_BYTES) > prefix_blen(&p)) {
flog_err(
EC_BGP_UPDATE_RCV,
"%s [Error] Update packet error / VPN (psize %d exceeds family (%u) max byte len %u)",
peer->host,
prefixlen - VPN_PREFIXLEN_MIN_BYTES * 8,
p.family, prefix_blen(&p));
return -1;
}
/* Copy label to prefix. */
memcpy(&label, pnt, BGP_LABEL_BYTES);
bgp_set_valid_label(&label);
/* Copy routing distinguisher to rd. */
memcpy(&prd.val, pnt + BGP_LABEL_BYTES, 8);
/* Decode RD type. */
type = decode_rd_type(pnt + BGP_LABEL_BYTES);
switch (type) {
case RD_TYPE_AS:
decode_rd_as(pnt + 5, &rd_as);
break;
case RD_TYPE_AS4:
decode_rd_as4(pnt + 5, &rd_as);
break;
case RD_TYPE_IP:
decode_rd_ip(pnt + 5, &rd_ip);
break;
#if ENABLE_BGP_VNC
case RD_TYPE_VNC_ETH:
break;
#endif
default:
flog_err(EC_BGP_UPDATE_RCV, "Unknown RD type %d", type);
break; /* just report */
}
p.prefixlen =
prefixlen
- VPN_PREFIXLEN_MIN_BYTES * 8; /* exclude label & RD */
memcpy(p.u.val, pnt + VPN_PREFIXLEN_MIN_BYTES,
psize - VPN_PREFIXLEN_MIN_BYTES);
if (attr) {
bgp_update(peer, &p, addpath_id, attr, packet->afi,
SAFI_MPLS_VPN, ZEBRA_ROUTE_BGP,
BGP_ROUTE_NORMAL, &prd, &label, 1, 0, NULL);
} else {
bgp_withdraw(peer, &p, addpath_id, attr, packet->afi,
SAFI_MPLS_VPN, ZEBRA_ROUTE_BGP,
BGP_ROUTE_NORMAL, &prd, &label, 1, NULL);
}
}
/* Packet length consistency check. */
if (pnt != lim) {
flog_err(
EC_BGP_UPDATE_RCV,
"%s [Error] Update packet error / VPN (%zu data remaining after parsing)",
peer->host, lim - pnt);
return -1;
}
return 0;
#undef VPN_PREFIXLEN_MIN_BYTES
}
/*
* This function informs zebra of the label this vrf sets on routes
* leaked to VPN. Zebra should install this label in the kernel with
* an action of "pop label and then use this vrf's IP FIB to route the PDU."
*
* Sending this vrf-label association is qualified by a) whether vrf->vpn
* exporting is active ("export vpn" is enabled, vpn-policy RD and RT list
* are set) and b) whether vpn-policy label is set.
*
* If any of these conditions do not hold, then we send MPLS_LABEL_NONE
* for this vrf, which zebra interprets to mean "delete this vrf-label
* association."
*/
void vpn_leak_zebra_vrf_label_update(struct bgp *bgp, afi_t afi)
{
mpls_label_t label = MPLS_LABEL_NONE;
int debug = BGP_DEBUG(vpn, VPN_LEAK_LABEL);
if (bgp->vrf_id == VRF_UNKNOWN) {
if (debug) {
zlog_debug(
"%s: vrf %s: afi %s: vrf_id not set, "
"can't set zebra vrf label",
__func__, bgp->name_pretty, afi2str(afi));
}
return;
}
if (vpn_leak_to_vpn_active(bgp, afi, NULL)) {
label = bgp->vpn_policy[afi].tovpn_label;
}
if (debug) {
zlog_debug("%s: vrf %s: afi %s: setting label %d for vrf id %d",
__func__, bgp->name_pretty, afi2str(afi), label,
bgp->vrf_id);
}
if (label == BGP_PREVENT_VRF_2_VRF_LEAK)
label = MPLS_LABEL_NONE;
zclient_send_vrf_label(zclient, bgp->vrf_id, afi, label, ZEBRA_LSP_BGP);
bgp->vpn_policy[afi].tovpn_zebra_vrf_label_last_sent = label;
}
/*
* If zebra tells us vrf has become unconfigured, tell zebra not to
* use this label to forward to the vrf anymore
*/
void vpn_leak_zebra_vrf_label_withdraw(struct bgp *bgp, afi_t afi)
{
mpls_label_t label = MPLS_LABEL_NONE;
int debug = BGP_DEBUG(vpn, VPN_LEAK_LABEL);
if (bgp->vrf_id == VRF_UNKNOWN) {
if (debug) {
zlog_debug(
"%s: vrf_id not set, can't delete zebra vrf label",
__func__);
}
return;
}
if (debug) {
zlog_debug("%s: deleting label for vrf %s (id=%d)", __func__,
bgp->name_pretty, bgp->vrf_id);
}
if (label == BGP_PREVENT_VRF_2_VRF_LEAK)
label = MPLS_LABEL_NONE;
zclient_send_vrf_label(zclient, bgp->vrf_id, afi, label, ZEBRA_LSP_BGP);
bgp->vpn_policy[afi].tovpn_zebra_vrf_label_last_sent = label;
}
int vpn_leak_label_callback(
mpls_label_t label,
void *labelid,
bool allocated)
{
struct vpn_policy *vp = (struct vpn_policy *)labelid;
int debug = BGP_DEBUG(vpn, VPN_LEAK_LABEL);
if (debug)
zlog_debug("%s: label=%u, allocated=%d",
__func__, label, allocated);
if (!allocated) {
/*
* previously-allocated label is now invalid
*/
if (CHECK_FLAG(vp->flags, BGP_VPN_POLICY_TOVPN_LABEL_AUTO) &&
(vp->tovpn_label != MPLS_LABEL_NONE)) {
vpn_leak_prechange(BGP_VPN_POLICY_DIR_TOVPN,
vp->afi, bgp_get_default(), vp->bgp);
vp->tovpn_label = MPLS_LABEL_NONE;
vpn_leak_postchange(BGP_VPN_POLICY_DIR_TOVPN,
vp->afi, bgp_get_default(), vp->bgp);
}
return 0;
}
/*
* New label allocation
*/
if (!CHECK_FLAG(vp->flags, BGP_VPN_POLICY_TOVPN_LABEL_AUTO)) {
/*
* not currently configured for auto label, reject allocation
*/
return -1;
}
if (vp->tovpn_label != MPLS_LABEL_NONE) {
if (label == vp->tovpn_label) {
/* already have same label, accept but do nothing */
return 0;
}
/* Shouldn't happen: different label allocation */
flog_err(EC_BGP_LABEL,
"%s: %s had label %u but got new assignment %u",
__func__, vp->bgp->name_pretty, vp->tovpn_label,
label);
/* use new one */
}
vpn_leak_prechange(BGP_VPN_POLICY_DIR_TOVPN,
vp->afi, bgp_get_default(), vp->bgp);
vp->tovpn_label = label;
vpn_leak_postchange(BGP_VPN_POLICY_DIR_TOVPN,
vp->afi, bgp_get_default(), vp->bgp);
return 0;
}
static int ecom_intersect(struct ecommunity *e1, struct ecommunity *e2)
{
int i;
int j;
if (!e1 || !e2)
return 0;
for (i = 0; i < e1->size; ++i) {
for (j = 0; j < e2->size; ++j) {
if (!memcmp(e1->val + (i * ECOMMUNITY_SIZE),
e2->val + (j * ECOMMUNITY_SIZE),
ECOMMUNITY_SIZE)) {
return 1;
}
}
}
return 0;
}
static bool labels_same(struct bgp_path_info *bpi, mpls_label_t *label,
uint32_t n)
{
uint32_t i;
if (!bpi->extra) {
if (!n)
return true;
else
return false;
}
if (n != bpi->extra->num_labels)
return false;
for (i = 0; i < n; ++i) {
if (label[i] != bpi->extra->label[i])
return false;
}
return true;
}
/*
* make encoded route labels match specified encoded label set
*/
static void setlabels(struct bgp_path_info *bpi,
mpls_label_t *label, /* array of labels */
uint32_t num_labels)
{
if (num_labels)
assert(label);
assert(num_labels <= BGP_MAX_LABELS);
if (!num_labels) {
if (bpi->extra)
bpi->extra->num_labels = 0;
return;
}
struct bgp_path_info_extra *extra = bgp_path_info_extra_get(bpi);
uint32_t i;
for (i = 0; i < num_labels; ++i) {
extra->label[i] = label[i];
if (!bgp_is_valid_label(&label[i])) {
bgp_set_valid_label(&extra->label[i]);
}
}
extra->num_labels = num_labels;
}
/*
* returns pointer to new bgp_path_info upon success
*/
static struct bgp_path_info *
leak_update(struct bgp *bgp, /* destination bgp instance */
struct bgp_node *bn, struct attr *new_attr, /* already interned */
afi_t afi, safi_t safi, struct bgp_path_info *source_bpi,
mpls_label_t *label, uint32_t num_labels, void *parent,
struct bgp *bgp_orig, struct prefix *nexthop_orig,
int nexthop_self_flag, int debug)
{
struct prefix *p = &bn->p;
struct bgp_path_info *bpi;
struct bgp_path_info *bpi_ultimate;
struct bgp_path_info *new;
char buf_prefix[PREFIX_STRLEN];
if (debug) {
prefix2str(&bn->p, buf_prefix, sizeof(buf_prefix));
zlog_debug("%s: entry: leak-to=%s, p=%s, type=%d, sub_type=%d",
__func__, bgp->name_pretty, buf_prefix,
source_bpi->type, source_bpi->sub_type);
}
/*
* Routes that are redistributed into BGP from zebra do not get
* nexthop tracking. However, if those routes are subsequently
* imported to other RIBs within BGP, the leaked routes do not
* carry the original BGP_ROUTE_REDISTRIBUTE sub_type. Therefore,
* in order to determine if the route we are currently leaking
* should have nexthop tracking, we must find the ultimate
* parent so we can check its sub_type.
*
* As of now, source_bpi may at most be a second-generation route
* (only one hop back to ultimate parent for vrf-vpn-vrf scheme).
* Using a loop here supports more complex intra-bgp import-export
* schemes that could be implemented in the future.
*
*/
for (bpi_ultimate = source_bpi;
bpi_ultimate->extra && bpi_ultimate->extra->parent;
bpi_ultimate = bpi_ultimate->extra->parent)
;
/*
* match parent
*/
for (bpi = bgp_node_get_bgp_path_info(bn); bpi; bpi = bpi->next) {
if (bpi->extra && bpi->extra->parent == parent)
break;
}
if (bpi) {
bool labelssame = labels_same(bpi, label, num_labels);
if (attrhash_cmp(bpi->attr, new_attr) && labelssame
&& !CHECK_FLAG(bpi->flags, BGP_PATH_REMOVED)) {
bgp_attr_unintern(&new_attr);
if (debug)
zlog_debug(
"%s: ->%s: %s: Found route, no change",
__func__, bgp->name_pretty,
buf_prefix);
return NULL;
}
/* attr is changed */
bgp_path_info_set_flag(bn, bpi, BGP_PATH_ATTR_CHANGED);
/* Rewrite BGP route information. */
if (CHECK_FLAG(bpi->flags, BGP_PATH_REMOVED))
bgp_path_info_restore(bn, bpi);
else
bgp_aggregate_decrement(bgp, p, bpi, afi, safi);
bgp_attr_unintern(&bpi->attr);
bpi->attr = new_attr;
bpi->uptime = bgp_clock();
/*
* rewrite labels
*/
if (!labelssame)
setlabels(bpi, label, num_labels);
if (nexthop_self_flag)
bgp_path_info_set_flag(bn, bpi, BGP_PATH_ANNC_NH_SELF);
struct bgp *bgp_nexthop = bgp;
int nh_valid;
if (bpi->extra && bpi->extra->bgp_orig)
bgp_nexthop = bpi->extra->bgp_orig;
/*
* No nexthop tracking for redistributed routes or for
* EVPN-imported routes that get leaked.
*/
if (bpi_ultimate->sub_type == BGP_ROUTE_REDISTRIBUTE ||
is_pi_family_evpn(bpi_ultimate))
nh_valid = 1;
else
/*
* TBD do we need to do anything about the
* 'connected' parameter?
*/
nh_valid = bgp_find_or_add_nexthop(bgp, bgp_nexthop,
afi, bpi, NULL, 0);
if (debug)
zlog_debug("%s: nexthop is %svalid (in vrf %s)",
__func__, (nh_valid ? "" : "not "),
bgp_nexthop->name_pretty);
if (nh_valid)
bgp_path_info_set_flag(bn, bpi, BGP_PATH_VALID);
/* Process change. */
bgp_aggregate_increment(bgp, p, bpi, afi, safi);
bgp_process(bgp, bn, afi, safi);
bgp_unlock_node(bn);
if (debug)
zlog_debug("%s: ->%s: %s Found route, changed attr",
__func__, bgp->name_pretty, buf_prefix);
return bpi;
}
new = info_make(ZEBRA_ROUTE_BGP, BGP_ROUTE_IMPORTED, 0,
bgp->peer_self, new_attr, bn);
if (nexthop_self_flag)
bgp_path_info_set_flag(bn, new, BGP_PATH_ANNC_NH_SELF);
bgp_path_info_extra_get(new);
if (num_labels)
setlabels(new, label, num_labels);
new->extra->parent = bgp_path_info_lock(parent);
bgp_lock_node((struct bgp_node *)((struct bgp_path_info *)parent)->net);
if (bgp_orig)
new->extra->bgp_orig = bgp_lock(bgp_orig);
if (nexthop_orig)
new->extra->nexthop_orig = *nexthop_orig;
/*
* nexthop tracking for unicast routes
*/
struct bgp *bgp_nexthop = bgp;
int nh_valid;
if (new->extra->bgp_orig)
bgp_nexthop = new->extra->bgp_orig;
/*
* No nexthop tracking for redistributed routes because
* their originating protocols will do the tracking and
* withdraw those routes if the nexthops become unreachable
* This also holds good for EVPN-imported routes that get
* leaked.
*/
if (bpi_ultimate->sub_type == BGP_ROUTE_REDISTRIBUTE ||
is_pi_family_evpn(bpi_ultimate))
nh_valid = 1;
else
/*
* TBD do we need to do anything about the
* 'connected' parameter?
*/
nh_valid = bgp_find_or_add_nexthop(bgp, bgp_nexthop,
afi, new, NULL, 0);
if (debug)
zlog_debug("%s: nexthop is %svalid (in vrf %s)",
__func__, (nh_valid ? "" : "not "),
bgp_nexthop->name_pretty);
if (nh_valid)
bgp_path_info_set_flag(bn, new, BGP_PATH_VALID);
bgp_aggregate_increment(bgp, p, new, afi, safi);
bgp_path_info_add(bn, new);
bgp_unlock_node(bn);
bgp_process(bgp, bn, afi, safi);
if (debug)
zlog_debug("%s: ->%s: %s: Added new route", __func__,
bgp->name_pretty, buf_prefix);
return new;
}
/* cf vnc_import_bgp_add_route_mode_nvegroup() and add_vnc_route() */
void vpn_leak_from_vrf_update(struct bgp *bgp_vpn, /* to */
struct bgp *bgp_vrf, /* from */
struct bgp_path_info *path_vrf) /* route */
{
int debug = BGP_DEBUG(vpn, VPN_LEAK_FROM_VRF);
struct prefix *p = &path_vrf->net->p;
afi_t afi = family2afi(p->family);
struct attr static_attr = {0};
struct attr *new_attr = NULL;
safi_t safi = SAFI_MPLS_VPN;
mpls_label_t label_val;
mpls_label_t label;
struct bgp_node *bn;
const char *debugmsg;
int nexthop_self_flag = 0;
if (debug)
zlog_debug("%s: from vrf %s", __func__, bgp_vrf->name_pretty);
if (debug && path_vrf->attr->ecommunity) {
char *s = ecommunity_ecom2str(path_vrf->attr->ecommunity,
ECOMMUNITY_FORMAT_ROUTE_MAP, 0);
zlog_debug("%s: %s path_vrf->type=%d, EC{%s}", __func__,
bgp_vrf->name, path_vrf->type, s);
XFREE(MTYPE_ECOMMUNITY_STR, s);
}
if (!bgp_vpn)
return;
if (!afi) {
if (debug)
zlog_debug("%s: can't get afi of prefix", __func__);
return;
}
/* Is this route exportable into the VPN table? */
if (!is_route_injectable_into_vpn(path_vrf))
return;
if (!vpn_leak_to_vpn_active(bgp_vrf, afi, &debugmsg)) {
if (debug)
zlog_debug("%s: %s skipping: %s", __func__,
bgp_vrf->name, debugmsg);
return;
}
bgp_attr_dup(&static_attr, path_vrf->attr); /* shallow copy */
/*
* route map handling
*/
if (bgp_vrf->vpn_policy[afi].rmap[BGP_VPN_POLICY_DIR_TOVPN]) {
struct bgp_path_info info;
route_map_result_t ret;
memset(&info, 0, sizeof(info));
info.peer = bgp_vpn->peer_self;
info.attr = &static_attr;
ret = route_map_apply(
bgp_vrf->vpn_policy[afi].rmap[BGP_VPN_POLICY_DIR_TOVPN],
p, RMAP_BGP, &info);
if (RMAP_DENYMATCH == ret) {
bgp_attr_flush(&static_attr); /* free any added parts */
if (debug)
zlog_debug(
"%s: vrf %s route map \"%s\" says DENY, returning",
__func__, bgp_vrf->name_pretty,
bgp_vrf->vpn_policy[afi]
.rmap[BGP_VPN_POLICY_DIR_TOVPN]
->name);
return;
}
}
if (debug && static_attr.ecommunity) {
char *s = ecommunity_ecom2str(static_attr.ecommunity,
ECOMMUNITY_FORMAT_ROUTE_MAP, 0);
zlog_debug("%s: post route map static_attr.ecommunity{%s}",
__func__, s);
XFREE(MTYPE_ECOMMUNITY_STR, s);
}
/*
* Add the vpn-policy rt-list
*/
struct ecommunity *old_ecom;
struct ecommunity *new_ecom;
old_ecom = static_attr.ecommunity;
if (old_ecom) {
new_ecom = ecommunity_merge(
ecommunity_dup(old_ecom),
bgp_vrf->vpn_policy[afi]
.rtlist[BGP_VPN_POLICY_DIR_TOVPN]);
if (!old_ecom->refcnt)
ecommunity_free(&old_ecom);
} else {
new_ecom = ecommunity_dup(
bgp_vrf->vpn_policy[afi]
.rtlist[BGP_VPN_POLICY_DIR_TOVPN]);
}
static_attr.ecommunity = new_ecom;
SET_FLAG(static_attr.flag, ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES));
if (debug && static_attr.ecommunity) {
char *s = ecommunity_ecom2str(static_attr.ecommunity,
ECOMMUNITY_FORMAT_ROUTE_MAP, 0);
zlog_debug("%s: post merge static_attr.ecommunity{%s}",
__func__, s);
XFREE(MTYPE_ECOMMUNITY_STR, s);
}
/* Nexthop */
/* if policy nexthop not set, use 0 */
if (CHECK_FLAG(bgp_vrf->vpn_policy[afi].flags,
BGP_VPN_POLICY_TOVPN_NEXTHOP_SET)) {
struct prefix *nexthop =
&bgp_vrf->vpn_policy[afi].tovpn_nexthop;
switch (nexthop->family) {
case AF_INET:
/* prevent mp_nexthop_global_in <- self in bgp_route.c
*/
static_attr.nexthop.s_addr = nexthop->u.prefix4.s_addr;
static_attr.mp_nexthop_global_in = nexthop->u.prefix4;
static_attr.mp_nexthop_len = 4;
break;
case AF_INET6:
static_attr.mp_nexthop_global = nexthop->u.prefix6;
static_attr.mp_nexthop_len = 16;
break;
default:
assert(0);
}
} else {
if (!CHECK_FLAG(bgp_vrf->af_flags[afi][SAFI_UNICAST],
BGP_CONFIG_VRF_TO_VRF_EXPORT)) {
if (afi == AFI_IP) {
/*
* For ipv4, copy to multiprotocol
* nexthop field
*/
static_attr.mp_nexthop_global_in =
static_attr.nexthop;
static_attr.mp_nexthop_len = 4;
/*
* XXX Leave static_attr.nexthop
* intact for NHT
*/
static_attr.flag &=
~ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP);
}
} else {
/* Update based on next-hop family to account for
* RFC 5549 (BGP unnumbered) scenario. Note that
* specific action is only needed for the case of
* IPv4 nexthops as the attr has been copied
* otherwise.
*/
if (afi == AFI_IP
&& !BGP_ATTR_NEXTHOP_AFI_IP6(path_vrf->attr)) {
static_attr.mp_nexthop_global_in.s_addr =
static_attr.nexthop.s_addr;
static_attr.mp_nexthop_len = 4;
static_attr.flag |=
ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP);
}
}
nexthop_self_flag = 1;
}
label_val = bgp_vrf->vpn_policy[afi].tovpn_label;
if (label_val == MPLS_LABEL_NONE) {
encode_label(MPLS_LABEL_IMPLICIT_NULL, &label);
} else {
encode_label(label_val, &label);
}
/* Set originator ID to "me" */
SET_FLAG(static_attr.flag, ATTR_FLAG_BIT(BGP_ATTR_ORIGINATOR_ID));
static_attr.originator_id = bgp_vpn->router_id;
new_attr = bgp_attr_intern(
&static_attr); /* hashed refcounted everything */
bgp_attr_flush(&static_attr); /* free locally-allocated parts */
if (debug && new_attr->ecommunity) {
char *s = ecommunity_ecom2str(new_attr->ecommunity,
ECOMMUNITY_FORMAT_ROUTE_MAP, 0);
zlog_debug("%s: new_attr->ecommunity{%s}", __func__, s);
XFREE(MTYPE_ECOMMUNITY_STR, s);
}
/* Now new_attr is an allocated interned attr */
bn = bgp_afi_node_get(bgp_vpn->rib[afi][safi], afi, safi, p,
&(bgp_vrf->vpn_policy[afi].tovpn_rd));
struct bgp_path_info *new_info;
new_info = leak_update(bgp_vpn, bn, new_attr, afi, safi, path_vrf,
&label, 1, path_vrf, bgp_vrf, NULL,
nexthop_self_flag, debug);
/*
* Routes actually installed in the vpn RIB must also be
* offered to all vrfs (because now they originate from
* the vpn RIB).
*
* Acceptance into other vrfs depends on rt-lists.
* Originating vrf will not accept the looped back route
* because of loop checking.
*/
if (new_info)
vpn_leak_to_vrf_update(bgp_vrf, new_info);
}
void vpn_leak_from_vrf_withdraw(struct bgp *bgp_vpn, /* to */
struct bgp *bgp_vrf, /* from */
struct bgp_path_info *path_vrf) /* route */
{
int debug = BGP_DEBUG(vpn, VPN_LEAK_FROM_VRF);
struct prefix *p = &path_vrf->net->p;
afi_t afi = family2afi(p->family);
safi_t safi = SAFI_MPLS_VPN;
struct bgp_path_info *bpi;
struct bgp_node *bn;
const char *debugmsg;
char buf_prefix[PREFIX_STRLEN];
if (debug) {
prefix2str(p, buf_prefix, sizeof(buf_prefix));
zlog_debug(
"%s: entry: leak-from=%s, p=%s, type=%d, sub_type=%d",
__func__, bgp_vrf->name_pretty, buf_prefix,
path_vrf->type, path_vrf->sub_type);
}
if (!bgp_vpn)
return;
if (!afi) {
if (debug)
zlog_debug("%s: can't get afi of prefix", __func__);
return;
}
/* Is this route exportable into the VPN table? */
if (!is_route_injectable_into_vpn(path_vrf))
return;
if (!vpn_leak_to_vpn_active(bgp_vrf, afi, &debugmsg)) {
if (debug)
zlog_debug("%s: skipping: %s", __func__, debugmsg);
return;
}
if (debug)
zlog_debug("%s: withdrawing (path_vrf=%p)", __func__, path_vrf);
bn = bgp_afi_node_get(bgp_vpn->rib[afi][safi], afi, safi, p,
&(bgp_vrf->vpn_policy[afi].tovpn_rd));
if (!bn)
return;
/*
* vrf -> vpn
* match original bpi imported from
*/
for (bpi = bgp_node_get_bgp_path_info(bn); bpi; bpi = bpi->next) {
if (bpi->extra && bpi->extra->parent == path_vrf) {
break;
}
}
if (bpi) {
/* withdraw from looped vrfs as well */
vpn_leak_to_vrf_withdraw(bgp_vpn, bpi);
bgp_aggregate_decrement(bgp_vpn, p, bpi, afi, safi);
bgp_path_info_delete(bn, bpi);
bgp_process(bgp_vpn, bn, afi, safi);
}
bgp_unlock_node(bn);
}
void vpn_leak_from_vrf_withdraw_all(struct bgp *bgp_vpn, /* to */
struct bgp *bgp_vrf, /* from */
afi_t afi)
{
int debug = BGP_DEBUG(vpn, VPN_LEAK_FROM_VRF);
struct bgp_node *prn;
safi_t safi = SAFI_MPLS_VPN;
/*
* Walk vpn table, delete bpi with bgp_orig == bgp_vrf
*/
for (prn = bgp_table_top(bgp_vpn->rib[afi][safi]); prn;
prn = bgp_route_next(prn)) {
struct bgp_table *table;
struct bgp_node *bn;
struct bgp_path_info *bpi;
/* This is the per-RD table of prefixes */
table = bgp_node_get_bgp_table_info(prn);
if (!table)
continue;
for (bn = bgp_table_top(table); bn; bn = bgp_route_next(bn)) {
char buf[PREFIX2STR_BUFFER];
bpi = bgp_node_get_bgp_path_info(bn);
if (debug && bpi) {
zlog_debug(
"%s: looking at prefix %s", __func__,
prefix2str(&bn->p, buf, sizeof(buf)));
}
for (; bpi; bpi = bpi->next) {
if (debug)
zlog_debug("%s: type %d, sub_type %d",
__func__, bpi->type,
bpi->sub_type);
if (bpi->sub_type != BGP_ROUTE_IMPORTED)
continue;
if (!bpi->extra)
continue;
if ((struct bgp *)bpi->extra->bgp_orig
== bgp_vrf) {
/* delete route */
if (debug)
zlog_debug("%s: deleting it",
__func__);
bgp_aggregate_decrement(bgp_vpn, &bn->p,
bpi, afi, safi);
bgp_path_info_delete(bn, bpi);
bgp_process(bgp_vpn, bn, afi, safi);
}
}
}
}
}
void vpn_leak_from_vrf_update_all(struct bgp *bgp_vpn, /* to */
struct bgp *bgp_vrf, /* from */
afi_t afi)
{
struct bgp_node *bn;
struct bgp_path_info *bpi;
int debug = BGP_DEBUG(vpn, VPN_LEAK_FROM_VRF);
if (debug)
zlog_debug("%s: entry, afi=%d, vrf=%s", __func__, afi,
bgp_vrf->name_pretty);
for (bn = bgp_table_top(bgp_vrf->rib[afi][SAFI_UNICAST]); bn;
bn = bgp_route_next(bn)) {
if (debug)
zlog_debug("%s: node=%p", __func__, bn);
for (bpi = bgp_node_get_bgp_path_info(bn); bpi;
bpi = bpi->next) {
if (debug)
zlog_debug(
"%s: calling vpn_leak_from_vrf_update",
__func__);
vpn_leak_from_vrf_update(bgp_vpn, bgp_vrf, bpi);
}
}
}
static void
vpn_leak_to_vrf_update_onevrf(struct bgp *bgp_vrf, /* to */
struct bgp *bgp_vpn, /* from */
struct bgp_path_info *path_vpn) /* route */
{
struct prefix *p = &path_vpn->net->p;
afi_t afi = family2afi(p->family);
struct attr static_attr = {0};
struct attr *new_attr = NULL;
struct bgp_node *bn;
safi_t safi = SAFI_UNICAST;
const char *debugmsg;
struct prefix nexthop_orig;
mpls_label_t *pLabels = NULL;
uint32_t num_labels = 0;
int nexthop_self_flag = 1;
struct bgp_path_info *bpi_ultimate = NULL;
int origin_local = 0;
struct bgp *src_vrf;
int debug = BGP_DEBUG(vpn, VPN_LEAK_TO_VRF);
if (!vpn_leak_from_vpn_active(bgp_vrf, afi, &debugmsg)) {
if (debug)
zlog_debug("%s: skipping: %s", __func__, debugmsg);
return;
}
/* Check for intersection of route targets */
if (!ecom_intersect(
bgp_vrf->vpn_policy[afi].rtlist[BGP_VPN_POLICY_DIR_FROMVPN],
path_vpn->attr->ecommunity)) {
return;
}
if (debug) {
char buf_prefix[PREFIX_STRLEN];
prefix2str(p, buf_prefix, sizeof(buf_prefix));
zlog_debug("%s: updating %s to vrf %s", __func__,
buf_prefix, bgp_vrf->name_pretty);
}
bgp_attr_dup(&static_attr, path_vpn->attr); /* shallow copy */
/*
* Nexthop: stash and clear
*
* Nexthop is valid in context of VPN core, but not in destination vrf.
* Stash it for later label resolution by vrf ingress path and then
* overwrite with 0, i.e., "me", for the sake of vrf advertisement.
*/
uint8_t nhfamily = NEXTHOP_FAMILY(path_vpn->attr->mp_nexthop_len);
memset(&nexthop_orig, 0, sizeof(nexthop_orig));
nexthop_orig.family = nhfamily;
switch (nhfamily) {
case AF_INET:
/* save */
nexthop_orig.u.prefix4 = path_vpn->attr->mp_nexthop_global_in;
nexthop_orig.prefixlen = 32;
if (CHECK_FLAG(bgp_vrf->af_flags[afi][safi],
BGP_CONFIG_VRF_TO_VRF_IMPORT)) {
static_attr.nexthop.s_addr =
nexthop_orig.u.prefix4.s_addr;
static_attr.mp_nexthop_global_in =
path_vpn->attr->mp_nexthop_global_in;
static_attr.mp_nexthop_len =
path_vpn->attr->mp_nexthop_len;
}
static_attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP);
break;
case AF_INET6:
/* save */
nexthop_orig.u.prefix6 = path_vpn->attr->mp_nexthop_global;
nexthop_orig.prefixlen = 128;
if (CHECK_FLAG(bgp_vrf->af_flags[afi][safi],
BGP_CONFIG_VRF_TO_VRF_IMPORT)) {
static_attr.mp_nexthop_global = nexthop_orig.u.prefix6;
}
break;
}
/*
* route map handling
*/
if (bgp_vrf->vpn_policy[afi].rmap[BGP_VPN_POLICY_DIR_FROMVPN]) {
struct bgp_path_info info;
route_map_result_t ret;
memset(&info, 0, sizeof(info));
info.peer = bgp_vrf->peer_self;
info.attr = &static_attr;
info.extra = path_vpn->extra; /* Used for source-vrf filter */
ret = route_map_apply(bgp_vrf->vpn_policy[afi]
.rmap[BGP_VPN_POLICY_DIR_FROMVPN],
p, RMAP_BGP, &info);
if (RMAP_DENYMATCH == ret) {
bgp_attr_flush(&static_attr); /* free any added parts */
if (debug)
zlog_debug(
"%s: vrf %s vpn-policy route map \"%s\" says DENY, returning",
__func__, bgp_vrf->name_pretty,
bgp_vrf->vpn_policy[afi]
.rmap[BGP_VPN_POLICY_DIR_FROMVPN]
->name);
return;
}
/*
* if route-map changed nexthop, don't nexthop-self on output
*/
if (!CHECK_FLAG(static_attr.rmap_change_flags,
BATTR_RMAP_NEXTHOP_UNCHANGED))
nexthop_self_flag = 0;
}
new_attr = bgp_attr_intern(&static_attr);
bgp_attr_flush(&static_attr);
bn = bgp_afi_node_get(bgp_vrf->rib[afi][safi], afi, safi, p, NULL);
/*
* ensure labels are copied
*
* However, there is a special case: if the route originated in
* another local VRF (as opposed to arriving via VPN), then the
* nexthop is reached by hairpinning through this router (me)
* using IP forwarding only (no LSP). Therefore, the route
* imported to the VRF should not have labels attached. Note
* that nexthop tracking is also involved: eliminating the
* labels for these routes enables the non-labeled nexthops
* from the originating VRF to be considered valid for this route.
*/
if (!CHECK_FLAG(bgp_vrf->af_flags[afi][safi],
BGP_CONFIG_VRF_TO_VRF_IMPORT)) {
/* work back to original route */
for (bpi_ultimate = path_vpn;
bpi_ultimate->extra && bpi_ultimate->extra->parent;
bpi_ultimate = bpi_ultimate->extra->parent)
;
/*
* if original route was unicast,
* then it did not arrive over vpn
*/
if (bpi_ultimate->net) {
struct bgp_table *table;
table = bgp_node_table(bpi_ultimate->net);
if (table && (table->safi == SAFI_UNICAST))
origin_local = 1;
}
/* copy labels */
if (!origin_local && path_vpn->extra
&& path_vpn->extra->num_labels) {
num_labels = path_vpn->extra->num_labels;
if (num_labels > BGP_MAX_LABELS)
num_labels = BGP_MAX_LABELS;
pLabels = path_vpn->extra->label;
}
}
if (debug) {
char buf_prefix[PREFIX_STRLEN];
prefix2str(p, buf_prefix, sizeof(buf_prefix));
zlog_debug("%s: pfx %s: num_labels %d", __func__, buf_prefix,
num_labels);
}
/*
* For VRF-2-VRF route-leaking,
* the source will be the originating VRF.
*/
if (path_vpn->extra && path_vpn->extra->bgp_orig)
src_vrf = path_vpn->extra->bgp_orig;
else
src_vrf = bgp_vpn;
leak_update(bgp_vrf, bn, new_attr, afi, safi, path_vpn, pLabels,
num_labels, path_vpn, /* parent */
src_vrf, &nexthop_orig, nexthop_self_flag, debug);
}
void vpn_leak_to_vrf_update(struct bgp *bgp_vpn, /* from */
struct bgp_path_info *path_vpn) /* route */
{
struct listnode *mnode, *mnnode;
struct bgp *bgp;
int debug = BGP_DEBUG(vpn, VPN_LEAK_TO_VRF);
if (debug)
zlog_debug("%s: start (path_vpn=%p)", __func__, path_vpn);
/* Loop over VRFs */
for (ALL_LIST_ELEMENTS(bm->bgp, mnode, mnnode, bgp)) {
if (!path_vpn->extra
|| path_vpn->extra->bgp_orig != bgp) { /* no loop */
vpn_leak_to_vrf_update_onevrf(bgp, bgp_vpn, path_vpn);
}
}
}
void vpn_leak_to_vrf_withdraw(struct bgp *bgp_vpn, /* from */
struct bgp_path_info *path_vpn) /* route */
{
struct prefix *p;
afi_t afi;
safi_t safi = SAFI_UNICAST;
struct bgp *bgp;
struct listnode *mnode, *mnnode;
struct bgp_node *bn;
struct bgp_path_info *bpi;
const char *debugmsg;
char buf_prefix[PREFIX_STRLEN];
int debug = BGP_DEBUG(vpn, VPN_LEAK_TO_VRF);
if (debug) {
prefix2str(&path_vpn->net->p, buf_prefix, sizeof(buf_prefix));
zlog_debug("%s: entry: p=%s, type=%d, sub_type=%d", __func__,
buf_prefix, path_vpn->type, path_vpn->sub_type);
}
if (debug)
zlog_debug("%s: start (path_vpn=%p)", __func__, path_vpn);
if (!path_vpn->net) {
#if ENABLE_BGP_VNC
/* BGP_ROUTE_RFP routes do not have path_vpn->net set (yet) */
if (path_vpn->type == ZEBRA_ROUTE_BGP
&& path_vpn->sub_type == BGP_ROUTE_RFP) {
return;
}
#endif
if (debug)
zlog_debug(
"%s: path_vpn->net unexpectedly NULL, no prefix, bailing",
__func__);
return;
}
p = &path_vpn->net->p;
afi = family2afi(p->family);
/* Loop over VRFs */
for (ALL_LIST_ELEMENTS(bm->bgp, mnode, mnnode, bgp)) {
if (!vpn_leak_from_vpn_active(bgp, afi, &debugmsg)) {
if (debug)
zlog_debug("%s: skipping: %s", __func__,
debugmsg);
continue;
}
/* Check for intersection of route targets */
if (!ecom_intersect(bgp->vpn_policy[afi]
.rtlist[BGP_VPN_POLICY_DIR_FROMVPN],
path_vpn->attr->ecommunity)) {
continue;
}
if (debug)
zlog_debug("%s: withdrawing from vrf %s", __func__,
bgp->name_pretty);
bn = bgp_afi_node_get(bgp->rib[afi][safi], afi, safi, p, NULL);
for (bpi = bgp_node_get_bgp_path_info(bn); bpi;
bpi = bpi->next) {
if (bpi->extra
&& (struct bgp_path_info *)bpi->extra->parent
== path_vpn) {
break;
}
}
if (bpi) {
if (debug)
zlog_debug("%s: deleting bpi %p", __func__,
bpi);
bgp_aggregate_decrement(bgp, p, bpi, afi, safi);
bgp_path_info_delete(bn, bpi);
bgp_process(bgp, bn, afi, safi);
}
bgp_unlock_node(bn);
}
}
void vpn_leak_to_vrf_withdraw_all(struct bgp *bgp_vrf, /* to */
afi_t afi)
{
struct bgp_node *bn;
struct bgp_path_info *bpi;
safi_t safi = SAFI_UNICAST;
int debug = BGP_DEBUG(vpn, VPN_LEAK_TO_VRF);
if (debug)
zlog_debug("%s: entry", __func__);
/*
* Walk vrf table, delete bpi with bgp_orig in a different vrf
*/
for (bn = bgp_table_top(bgp_vrf->rib[afi][safi]); bn;
bn = bgp_route_next(bn)) {
for (bpi = bgp_node_get_bgp_path_info(bn); bpi;
bpi = bpi->next) {
if (bpi->extra
&& bpi->extra->bgp_orig != bgp_vrf
&& bpi->extra->parent
&& is_pi_family_vpn(bpi->extra->parent)) {
/* delete route */
bgp_aggregate_decrement(bgp_vrf, &bn->p, bpi,
afi, safi);
bgp_path_info_delete(bn, bpi);
bgp_process(bgp_vrf, bn, afi, safi);
}
}
}
}
void vpn_leak_to_vrf_update_all(struct bgp *bgp_vrf, /* to */
struct bgp *bgp_vpn, /* from */
afi_t afi)
{
struct prefix_rd prd;
struct bgp_node *prn;
safi_t safi = SAFI_MPLS_VPN;
assert(bgp_vpn);
/*
* Walk vpn table
*/
for (prn = bgp_table_top(bgp_vpn->rib[afi][safi]); prn;
prn = bgp_route_next(prn)) {
struct bgp_table *table;
struct bgp_node *bn;
struct bgp_path_info *bpi;
memset(&prd, 0, sizeof(prd));
prd.family = AF_UNSPEC;
prd.prefixlen = 64;
memcpy(prd.val, prn->p.u.val, 8);
/* This is the per-RD table of prefixes */
table = bgp_node_get_bgp_table_info(prn);
if (!table)
continue;
for (bn = bgp_table_top(table); bn; bn = bgp_route_next(bn)) {
for (bpi = bgp_node_get_bgp_path_info(bn); bpi;
bpi = bpi->next) {
if (bpi->extra
&& bpi->extra->bgp_orig == bgp_vrf)
continue;
vpn_leak_to_vrf_update_onevrf(bgp_vrf, bgp_vpn,
bpi);
}
}
}
}
/*
* This function is called for definition/deletion/change to a route-map
*/
static void vpn_policy_routemap_update(struct bgp *bgp, const char *rmap_name)
{
int debug = BGP_DEBUG(vpn, VPN_LEAK_RMAP_EVENT);
afi_t afi;
struct route_map *rmap;
if (bgp->inst_type != BGP_INSTANCE_TYPE_DEFAULT
&& bgp->inst_type != BGP_INSTANCE_TYPE_VRF) {
return;
}
rmap = route_map_lookup_by_name(rmap_name); /* NULL if deleted */
for (afi = 0; afi < AFI_MAX; ++afi) {
if (bgp->vpn_policy[afi].rmap_name[BGP_VPN_POLICY_DIR_TOVPN]
&& !strcmp(rmap_name,
bgp->vpn_policy[afi]
.rmap_name[BGP_VPN_POLICY_DIR_TOVPN])) {
if (debug)
zlog_debug(
"%s: rmap \"%s\" matches vrf-policy tovpn for as %d afi %s",
__func__, rmap_name, bgp->as,
afi2str(afi));
vpn_leak_prechange(BGP_VPN_POLICY_DIR_TOVPN, afi,
bgp_get_default(), bgp);
if (debug)
zlog_debug("%s: after vpn_leak_prechange",
__func__);
/* in case of definition/deletion */
bgp->vpn_policy[afi].rmap[BGP_VPN_POLICY_DIR_TOVPN] =
rmap;
vpn_leak_postchange(BGP_VPN_POLICY_DIR_TOVPN, afi,
bgp_get_default(), bgp);
if (debug)
zlog_debug("%s: after vpn_leak_postchange",
__func__);
}
if (bgp->vpn_policy[afi].rmap_name[BGP_VPN_POLICY_DIR_FROMVPN]
&& !strcmp(rmap_name,
bgp->vpn_policy[afi]
.rmap_name[BGP_VPN_POLICY_DIR_FROMVPN])) {
if (debug) {
zlog_debug("%s: rmap \"%s\" matches vrf-policy fromvpn for as %d afi %s",
__func__, rmap_name, bgp->as,
afi2str(afi));
}
vpn_leak_prechange(BGP_VPN_POLICY_DIR_FROMVPN, afi,
bgp_get_default(), bgp);
/* in case of definition/deletion */
bgp->vpn_policy[afi].rmap[BGP_VPN_POLICY_DIR_FROMVPN] =
rmap;
vpn_leak_postchange(BGP_VPN_POLICY_DIR_FROMVPN, afi,
bgp_get_default(), bgp);
}
}
}
void vpn_policy_routemap_event(const char *rmap_name)
{
int debug = BGP_DEBUG(vpn, VPN_LEAK_RMAP_EVENT);
struct listnode *mnode, *mnnode;
struct bgp *bgp;
if (debug)
zlog_debug("%s: entry", __func__);
if (bm->bgp == NULL) /* may be called during cleanup */
return;
for (ALL_LIST_ELEMENTS(bm->bgp, mnode, mnnode, bgp))
vpn_policy_routemap_update(bgp, rmap_name);
}
void vrf_import_from_vrf(struct bgp *to_bgp, struct bgp *from_bgp,
afi_t afi, safi_t safi)
{
const char *export_name;
vpn_policy_direction_t idir, edir;
char *vname;
char buf[1000];
struct ecommunity *ecom;
bool first_export = false;
export_name = to_bgp->name ? to_bgp->name : VRF_DEFAULT_NAME;
idir = BGP_VPN_POLICY_DIR_FROMVPN;
edir = BGP_VPN_POLICY_DIR_TOVPN;
/*
* Cross-ref both VRFs. Also, note if this is the first time
* any VRF is importing from "import_vrf".
*/
vname = (from_bgp->name ? XSTRDUP(MTYPE_TMP, from_bgp->name)
: XSTRDUP(MTYPE_TMP, VRF_DEFAULT_NAME));
listnode_add(to_bgp->vpn_policy[afi].import_vrf, vname);
if (!listcount(from_bgp->vpn_policy[afi].export_vrf))
first_export = true;
vname = XSTRDUP(MTYPE_TMP, export_name);
listnode_add(from_bgp->vpn_policy[afi].export_vrf, vname);
/* Update import RT for current VRF using export RT of the VRF we're
* importing from. First though, make sure "import_vrf" has that
* set.
*/
if (first_export) {
form_auto_rd(from_bgp->router_id, from_bgp->vrf_rd_id,
&from_bgp->vrf_prd_auto);
from_bgp->vpn_policy[afi].tovpn_rd = from_bgp->vrf_prd_auto;
SET_FLAG(from_bgp->vpn_policy[afi].flags,
BGP_VPN_POLICY_TOVPN_RD_SET);
prefix_rd2str(&from_bgp->vpn_policy[afi].tovpn_rd,
buf, sizeof(buf));
from_bgp->vpn_policy[afi].rtlist[edir] =
ecommunity_str2com(buf, ECOMMUNITY_ROUTE_TARGET, 0);
SET_FLAG(from_bgp->af_flags[afi][safi],
BGP_CONFIG_VRF_TO_VRF_EXPORT);
from_bgp->vpn_policy[afi].tovpn_label =
BGP_PREVENT_VRF_2_VRF_LEAK;
}
ecom = from_bgp->vpn_policy[afi].rtlist[edir];
if (to_bgp->vpn_policy[afi].rtlist[idir])
to_bgp->vpn_policy[afi].rtlist[idir] =
ecommunity_merge(to_bgp->vpn_policy[afi]
.rtlist[idir], ecom);
else
to_bgp->vpn_policy[afi].rtlist[idir] = ecommunity_dup(ecom);
SET_FLAG(to_bgp->af_flags[afi][safi], BGP_CONFIG_VRF_TO_VRF_IMPORT);
/* Does "import_vrf" first need to export its routes or that
* is already done and we just need to import those routes
* from the global table?
*/
if (first_export)
vpn_leak_postchange(edir, afi, bgp_get_default(), from_bgp);
else
vpn_leak_postchange(idir, afi, bgp_get_default(), to_bgp);
}
void vrf_unimport_from_vrf(struct bgp *to_bgp, struct bgp *from_bgp,
afi_t afi, safi_t safi)
{
const char *export_name, *tmp_name;
vpn_policy_direction_t idir, edir;
char *vname;
struct ecommunity *ecom;
struct listnode *node;
export_name = to_bgp->name ? to_bgp->name : VRF_DEFAULT_NAME;
tmp_name = from_bgp->name ? from_bgp->name : VRF_DEFAULT_NAME;
idir = BGP_VPN_POLICY_DIR_FROMVPN;
edir = BGP_VPN_POLICY_DIR_TOVPN;
/* Were we importing from "import_vrf"? */
for (ALL_LIST_ELEMENTS_RO(to_bgp->vpn_policy[afi].import_vrf, node,
vname)) {
if (strcmp(vname, tmp_name) == 0)
break;
}
/*
* We do not check in the cli if the passed in bgp
* instance is actually imported into us before
* we call this function. As such if we do not
* find this in the import_vrf list than
* we just need to return safely.
*/
if (!vname)
return;
/* Remove "import_vrf" from our import list. */
listnode_delete(to_bgp->vpn_policy[afi].import_vrf, vname);
XFREE(MTYPE_TMP, vname);
/* Remove routes imported from "import_vrf". */
/* TODO: In the current logic, we have to first remove all
* imported routes and then (if needed) import back routes
*/
vpn_leak_prechange(idir, afi, bgp_get_default(), to_bgp);
if (to_bgp->vpn_policy[afi].import_vrf->count == 0) {
UNSET_FLAG(to_bgp->af_flags[afi][safi],
BGP_CONFIG_VRF_TO_VRF_IMPORT);
ecommunity_free(&to_bgp->vpn_policy[afi].rtlist[idir]);
} else {
ecom = from_bgp->vpn_policy[afi].rtlist[edir];
ecommunity_del_val(to_bgp->vpn_policy[afi].rtlist[idir],
(struct ecommunity_val *)ecom->val);
vpn_leak_postchange(idir, afi, bgp_get_default(), to_bgp);
}
/*
* What?
* So SA is assuming that since the ALL_LIST_ELEMENTS_RO
* below is checking for NULL that export_vrf can be
* NULL, consequently it is complaining( like a cabbage )
* that we could dereference and crash in the listcount(..)
* check below.
* So make it happy, under protest, with liberty and justice
* for all.
*/
assert(from_bgp->vpn_policy[afi].export_vrf);
/* Remove us from "import_vrf's" export list. If no other VRF
* is importing from "import_vrf", cleanup appropriately.
*/
for (ALL_LIST_ELEMENTS_RO(from_bgp->vpn_policy[afi].export_vrf,
node, vname)) {
if (strcmp(vname, export_name) == 0)
break;
}
/*
* If we have gotten to this point then the vname must
* exist. If not, we are in a world of trouble and
* have slag sitting around.
*
* import_vrf and export_vrf must match in having
* the in/out names as appropriate.
*/
assert(vname);
listnode_delete(from_bgp->vpn_policy[afi].export_vrf, vname);
XFREE(MTYPE_TMP, vname);
if (!listcount(from_bgp->vpn_policy[afi].export_vrf)) {
vpn_leak_prechange(edir, afi, bgp_get_default(), from_bgp);
ecommunity_free(&from_bgp->vpn_policy[afi].rtlist[edir]);
UNSET_FLAG(from_bgp->af_flags[afi][safi],
BGP_CONFIG_VRF_TO_VRF_EXPORT);
memset(&from_bgp->vpn_policy[afi].tovpn_rd, 0,
sizeof(struct prefix_rd));
UNSET_FLAG(from_bgp->vpn_policy[afi].flags,
BGP_VPN_POLICY_TOVPN_RD_SET);
from_bgp->vpn_policy[afi].tovpn_label = MPLS_LABEL_NONE;
}
}
/* For testing purpose, static route of MPLS-VPN. */
DEFUN (vpnv4_network,
vpnv4_network_cmd,
"network A.B.C.D/M rd ASN:NN_OR_IP-ADDRESS:NN <tag|label> (0-1048575)",
"Specify a network to announce via BGP\n"
"IPv4 prefix\n"
"Specify Route Distinguisher\n"
"VPN Route Distinguisher\n"
"VPN NLRI label (tag)\n"
"VPN NLRI label (tag)\n"
"Label value\n")
{
int idx_ipv4_prefixlen = 1;
int idx_ext_community = 3;
int idx_label = 5;
return bgp_static_set_safi(
AFI_IP, SAFI_MPLS_VPN, vty, argv[idx_ipv4_prefixlen]->arg,
argv[idx_ext_community]->arg, argv[idx_label]->arg, NULL, 0,
NULL, NULL, NULL, NULL);
}
DEFUN (vpnv4_network_route_map,
vpnv4_network_route_map_cmd,
"network A.B.C.D/M rd ASN:NN_OR_IP-ADDRESS:NN <tag|label> (0-1048575) route-map WORD",
"Specify a network to announce via BGP\n"
"IPv4 prefix\n"
"Specify Route Distinguisher\n"
"VPN Route Distinguisher\n"
"VPN NLRI label (tag)\n"
"VPN NLRI label (tag)\n"
"Label value\n"
"route map\n"
"route map name\n")
{
int idx_ipv4_prefixlen = 1;
int idx_ext_community = 3;
int idx_label = 5;
int idx_word_2 = 7;
return bgp_static_set_safi(
AFI_IP, SAFI_MPLS_VPN, vty, argv[idx_ipv4_prefixlen]->arg,
argv[idx_ext_community]->arg, argv[idx_label]->arg,
argv[idx_word_2]->arg, 0, NULL, NULL, NULL, NULL);
}
/* For testing purpose, static route of MPLS-VPN. */
DEFUN (no_vpnv4_network,
no_vpnv4_network_cmd,
"no network A.B.C.D/M rd ASN:NN_OR_IP-ADDRESS:NN <tag|label> (0-1048575)",
NO_STR
"Specify a network to announce via BGP\n"
"IPv4 prefix\n"
"Specify Route Distinguisher\n"
"VPN Route Distinguisher\n"
"VPN NLRI label (tag)\n"
"VPN NLRI label (tag)\n"
"Label value\n")
{
int idx_ipv4_prefixlen = 2;
int idx_ext_community = 4;
int idx_label = 6;
return bgp_static_unset_safi(AFI_IP, SAFI_MPLS_VPN, vty,
argv[idx_ipv4_prefixlen]->arg,
argv[idx_ext_community]->arg,
argv[idx_label]->arg, 0, NULL, NULL, NULL);
}
DEFUN (vpnv6_network,
vpnv6_network_cmd,
"network X:X::X:X/M rd ASN:NN_OR_IP-ADDRESS:NN <tag|label> (0-1048575) [route-map WORD]",
"Specify a network to announce via BGP\n"
"IPv6 prefix <network>/<length>, e.g., 3ffe::/16\n"
"Specify Route Distinguisher\n"
"VPN Route Distinguisher\n"
"VPN NLRI label (tag)\n"
"VPN NLRI label (tag)\n"
"Label value\n"
"route map\n"
"route map name\n")
{
int idx_ipv6_prefix = 1;
int idx_ext_community = 3;
int idx_label = 5;
int idx_word_2 = 7;
if (argc == 8)
return bgp_static_set_safi(
AFI_IP6, SAFI_MPLS_VPN, vty, argv[idx_ipv6_prefix]->arg,
argv[idx_ext_community]->arg, argv[idx_label]->arg,
argv[idx_word_2]->arg, 0, NULL, NULL, NULL, NULL);
else
return bgp_static_set_safi(
AFI_IP6, SAFI_MPLS_VPN, vty, argv[idx_ipv6_prefix]->arg,
argv[idx_ext_community]->arg, argv[idx_label]->arg,
NULL, 0, NULL, NULL, NULL, NULL);
}
/* For testing purpose, static route of MPLS-VPN. */
DEFUN (no_vpnv6_network,
no_vpnv6_network_cmd,
"no network X:X::X:X/M rd ASN:NN_OR_IP-ADDRESS:NN <tag|label> (0-1048575)",
NO_STR
"Specify a network to announce via BGP\n"
"IPv6 prefix <network>/<length>, e.g., 3ffe::/16\n"
"Specify Route Distinguisher\n"
"VPN Route Distinguisher\n"
"VPN NLRI label (tag)\n"
"VPN NLRI label (tag)\n"
"Label value\n")
{
int idx_ipv6_prefix = 2;
int idx_ext_community = 4;
int idx_label = 6;
return bgp_static_unset_safi(AFI_IP6, SAFI_MPLS_VPN, vty,
argv[idx_ipv6_prefix]->arg,
argv[idx_ext_community]->arg,
argv[idx_label]->arg, 0, NULL, NULL, NULL);
}
int bgp_show_mpls_vpn(struct vty *vty, afi_t afi, struct prefix_rd *prd,
enum bgp_show_type type, void *output_arg, int tags,
bool use_json)
{
struct bgp *bgp;
struct bgp_table *table;
bgp = bgp_get_default();
if (bgp == NULL) {
if (!use_json)
vty_out(vty, "No BGP process is configured\n");
else
vty_out(vty, "{}\n");
return CMD_WARNING;
}
table = bgp->rib[afi][SAFI_MPLS_VPN];
return bgp_show_table_rd(vty, bgp, SAFI_MPLS_VPN, table, prd, type,
output_arg, use_json);
}
DEFUN (show_bgp_ip_vpn_all_rd,
show_bgp_ip_vpn_all_rd_cmd,
"show bgp "BGP_AFI_CMD_STR" vpn all [rd ASN:NN_OR_IP-ADDRESS:NN] [json]",
SHOW_STR
BGP_STR
BGP_VPNVX_HELP_STR
"Display VPN NLRI specific information\n"
"Display VPN NLRI specific information\n"
"Display information for a route distinguisher\n"
"VPN Route Distinguisher\n"
JSON_STR)
{
int ret;
struct prefix_rd prd;
afi_t afi;
int idx = 0;
if (argv_find_and_parse_afi(argv, argc, &idx, &afi)) {
if (argv_find(argv, argc, "rd", &idx)) {
ret = str2prefix_rd(argv[idx + 1]->arg, &prd);
if (!ret) {
vty_out(vty,
"%% Malformed Route Distinguisher\n");
return CMD_WARNING;
}
return bgp_show_mpls_vpn(vty, afi, &prd,
bgp_show_type_normal, NULL, 0,
use_json(argc, argv));
} else {
return bgp_show_mpls_vpn(vty, afi, NULL,
bgp_show_type_normal, NULL, 0,
use_json(argc, argv));
}
}
return CMD_SUCCESS;
}
ALIAS(show_bgp_ip_vpn_all_rd,
show_bgp_ip_vpn_rd_cmd,
"show bgp "BGP_AFI_CMD_STR" vpn rd ASN:NN_OR_IP-ADDRESS:NN [json]",
SHOW_STR
BGP_STR
BGP_VPNVX_HELP_STR
"Display VPN NLRI specific information\n"
"Display information for a route distinguisher\n"
"VPN Route Distinguisher\n"
JSON_STR)
#ifdef KEEP_OLD_VPN_COMMANDS
DEFUN (show_ip_bgp_vpn_rd,
show_ip_bgp_vpn_rd_cmd,
"show ip bgp "BGP_AFI_CMD_STR" vpn rd ASN:NN_OR_IP-ADDRESS:NN",
SHOW_STR
IP_STR
BGP_STR
BGP_AFI_HELP_STR
"Address Family modifier\n"
"Display information for a route distinguisher\n"
"VPN Route Distinguisher\n")
{
int idx_ext_community = argc - 1;
int ret;
struct prefix_rd prd;
afi_t afi;
int idx = 0;
if (argv_find_and_parse_vpnvx(argv, argc, &idx, &afi)) {
ret = str2prefix_rd(argv[idx_ext_community]->arg, &prd);
if (!ret) {
vty_out(vty, "%% Malformed Route Distinguisher\n");
return CMD_WARNING;
}
return bgp_show_mpls_vpn(vty, afi, &prd, bgp_show_type_normal,
NULL, 0, 0);
}
return CMD_SUCCESS;
}
DEFUN (show_ip_bgp_vpn_all,
show_ip_bgp_vpn_all_cmd,
"show [ip] bgp <vpnv4|vpnv6>",
SHOW_STR
IP_STR
BGP_STR
BGP_VPNVX_HELP_STR)
{
afi_t afi;
int idx = 0;
if (argv_find_and_parse_vpnvx(argv, argc, &idx, &afi))
return bgp_show_mpls_vpn(vty, afi, NULL, bgp_show_type_normal,
NULL, 0, 0);
return CMD_SUCCESS;
}
DEFUN (show_ip_bgp_vpn_all_tags,
show_ip_bgp_vpn_all_tags_cmd,
"show [ip] bgp <vpnv4|vpnv6> all tags",
SHOW_STR
IP_STR
BGP_STR
BGP_VPNVX_HELP_STR
"Display information about all VPNv4/VPNV6 NLRIs\n"
"Display BGP tags for prefixes\n")
{
afi_t afi;
int idx = 0;
if (argv_find_and_parse_vpnvx(argv, argc, &idx, &afi))
return bgp_show_mpls_vpn(vty, afi, NULL, bgp_show_type_normal,
NULL, 1, 0);
return CMD_SUCCESS;
}
DEFUN (show_ip_bgp_vpn_rd_tags,
show_ip_bgp_vpn_rd_tags_cmd,
"show [ip] bgp <vpnv4|vpnv6> rd ASN:NN_OR_IP-ADDRESS:NN tags",
SHOW_STR
IP_STR
BGP_STR
BGP_VPNVX_HELP_STR
"Display information for a route distinguisher\n"
"VPN Route Distinguisher\n"
"Display BGP tags for prefixes\n")
{
int idx_ext_community = 5;
int ret;
struct prefix_rd prd;
afi_t afi;
int idx = 0;
if (argv_find_and_parse_vpnvx(argv, argc, &idx, &afi)) {
ret = str2prefix_rd(argv[idx_ext_community]->arg, &prd);
if (!ret) {
vty_out(vty, "%% Malformed Route Distinguisher\n");
return CMD_WARNING;
}
return bgp_show_mpls_vpn(vty, afi, &prd, bgp_show_type_normal,
NULL, 1, 0);
}
return CMD_SUCCESS;
}
DEFUN (show_ip_bgp_vpn_all_neighbor_routes,
show_ip_bgp_vpn_all_neighbor_routes_cmd,
"show [ip] bgp <vpnv4|vpnv6> all neighbors A.B.C.D routes [json]",
SHOW_STR
IP_STR
BGP_STR
BGP_VPNVX_HELP_STR
"Display information about all VPNv4/VPNv6 NLRIs\n"
"Detailed information on TCP and BGP neighbor connections\n"
"Neighbor to display information about\n"
"Display routes learned from neighbor\n"
JSON_STR)
{
int idx_ipv4 = 6;
union sockunion su;
struct peer *peer;
int ret;
bool uj = use_json(argc, argv);
afi_t afi;
int idx = 0;
if (argv_find_and_parse_vpnvx(argv, argc, &idx, &afi)) {
ret = str2sockunion(argv[idx_ipv4]->arg, &su);
if (ret < 0) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(json_no, "warning",
"Malformed address");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty, "Malformed address: %s\n",
argv[idx_ipv4]->arg);
return CMD_WARNING;
}
peer = peer_lookup(NULL, &su);
if (!peer || !peer->afc[afi][SAFI_MPLS_VPN]) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(
json_no, "warning",
"No such neighbor or address family");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty,
"%% No such neighbor or address family\n");
return CMD_WARNING;
}
return bgp_show_mpls_vpn(vty, afi, NULL, bgp_show_type_neighbor,
&su, 0, uj);
}
return CMD_SUCCESS;
}
DEFUN (show_ip_bgp_vpn_rd_neighbor_routes,
show_ip_bgp_vpn_rd_neighbor_routes_cmd,
"show [ip] bgp <vpnv4|vpnv6> rd ASN:NN_OR_IP-ADDRESS:NN neighbors A.B.C.D routes [json]",
SHOW_STR
IP_STR
BGP_STR
BGP_VPNVX_HELP_STR
"Display information for a route distinguisher\n"
"VPN Route Distinguisher\n"
"Detailed information on TCP and BGP neighbor connections\n"
"Neighbor to display information about\n"
"Display routes learned from neighbor\n"
JSON_STR)
{
int idx_ext_community = 5;
int idx_ipv4 = 7;
int ret;
union sockunion su;
struct peer *peer;
struct prefix_rd prd;
bool uj = use_json(argc, argv);
afi_t afi;
int idx = 0;
if (argv_find_and_parse_vpnvx(argv, argc, &idx, &afi)) {
ret = str2prefix_rd(argv[idx_ext_community]->arg, &prd);
if (!ret) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(
json_no, "warning",
"Malformed Route Distinguisher");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty,
"%% Malformed Route Distinguisher\n");
return CMD_WARNING;
}
ret = str2sockunion(argv[idx_ipv4]->arg, &su);
if (ret < 0) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(json_no, "warning",
"Malformed address");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty, "Malformed address: %s\n",
argv[idx_ext_community]->arg);
return CMD_WARNING;
}
peer = peer_lookup(NULL, &su);
if (!peer || !peer->afc[afi][SAFI_MPLS_VPN]) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(
json_no, "warning",
"No such neighbor or address family");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty,
"%% No such neighbor or address family\n");
return CMD_WARNING;
}
return bgp_show_mpls_vpn(vty, afi, &prd, bgp_show_type_neighbor,
&su, 0, uj);
}
return CMD_SUCCESS;
}
DEFUN (show_ip_bgp_vpn_all_neighbor_advertised_routes,
show_ip_bgp_vpn_all_neighbor_advertised_routes_cmd,
"show [ip] bgp <vpnv4|vpnv6> all neighbors A.B.C.D advertised-routes [json]",
SHOW_STR
IP_STR
BGP_STR
BGP_VPNVX_HELP_STR
"Display information about all VPNv4/VPNv6 NLRIs\n"
"Detailed information on TCP and BGP neighbor connections\n"
"Neighbor to display information about\n"
"Display the routes advertised to a BGP neighbor\n"
JSON_STR)
{
int idx_ipv4 = 6;
int ret;
struct peer *peer;
union sockunion su;
bool uj = use_json(argc, argv);
afi_t afi;
int idx = 0;
if (argv_find_and_parse_vpnvx(argv, argc, &idx, &afi)) {
ret = str2sockunion(argv[idx_ipv4]->arg, &su);
if (ret < 0) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(json_no, "warning",
"Malformed address");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty, "Malformed address: %s\n",
argv[idx_ipv4]->arg);
return CMD_WARNING;
}
peer = peer_lookup(NULL, &su);
if (!peer || !peer->afc[afi][SAFI_MPLS_VPN]) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(
json_no, "warning",
"No such neighbor or address family");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty,
"%% No such neighbor or address family\n");
return CMD_WARNING;
}
return show_adj_route_vpn(vty, peer, NULL, AFI_IP,
SAFI_MPLS_VPN, uj);
}
return CMD_SUCCESS;
}
DEFUN (show_ip_bgp_vpn_rd_neighbor_advertised_routes,
show_ip_bgp_vpn_rd_neighbor_advertised_routes_cmd,
"show [ip] bgp <vpnv4|vpnv6> rd ASN:NN_OR_IP-ADDRESS:NN neighbors A.B.C.D advertised-routes [json]",
SHOW_STR
IP_STR
BGP_STR
BGP_VPNVX_HELP_STR
"Display information for a route distinguisher\n"
"VPN Route Distinguisher\n"
"Detailed information on TCP and BGP neighbor connections\n"
"Neighbor to display information about\n"
"Display the routes advertised to a BGP neighbor\n"
JSON_STR)
{
int idx_ext_community = 5;
int idx_ipv4 = 7;
int ret;
struct peer *peer;
struct prefix_rd prd;
union sockunion su;
bool uj = use_json(argc, argv);
afi_t afi;
int idx = 0;
if (argv_find_and_parse_vpnvx(argv, argc, &idx, &afi)) {
ret = str2sockunion(argv[idx_ipv4]->arg, &su);
if (ret < 0) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(json_no, "warning",
"Malformed address");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty, "Malformed address: %s\n",
argv[idx_ext_community]->arg);
return CMD_WARNING;
}
peer = peer_lookup(NULL, &su);
if (!peer || !peer->afc[afi][SAFI_MPLS_VPN]) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(
json_no, "warning",
"No such neighbor or address family");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty,
"%% No such neighbor or address family\n");
return CMD_WARNING;
}
ret = str2prefix_rd(argv[idx_ext_community]->arg, &prd);
if (!ret) {
if (uj) {
json_object *json_no = NULL;
json_no = json_object_new_object();
json_object_string_add(
json_no, "warning",
"Malformed Route Distinguisher");
vty_out(vty, "%s\n",
json_object_to_json_string(json_no));
json_object_free(json_no);
} else
vty_out(vty,
"%% Malformed Route Distinguisher\n");
return CMD_WARNING;
}
return show_adj_route_vpn(vty, peer, &prd, AFI_IP,
SAFI_MPLS_VPN, uj);
}
return CMD_SUCCESS;
}
#endif /* KEEP_OLD_VPN_COMMANDS */
void bgp_mplsvpn_init(void)
{
install_element(BGP_VPNV4_NODE, &vpnv4_network_cmd);
install_element(BGP_VPNV4_NODE, &vpnv4_network_route_map_cmd);
install_element(BGP_VPNV4_NODE, &no_vpnv4_network_cmd);
install_element(BGP_VPNV6_NODE, &vpnv6_network_cmd);
install_element(BGP_VPNV6_NODE, &no_vpnv6_network_cmd);
install_element(VIEW_NODE, &show_bgp_ip_vpn_all_rd_cmd);
install_element(VIEW_NODE, &show_bgp_ip_vpn_rd_cmd);
#ifdef KEEP_OLD_VPN_COMMANDS
install_element(VIEW_NODE, &show_ip_bgp_vpn_rd_cmd);
install_element(VIEW_NODE, &show_ip_bgp_vpn_all_cmd);
install_element(VIEW_NODE, &show_ip_bgp_vpn_all_tags_cmd);
install_element(VIEW_NODE, &show_ip_bgp_vpn_rd_tags_cmd);
install_element(VIEW_NODE, &show_ip_bgp_vpn_all_neighbor_routes_cmd);
install_element(VIEW_NODE, &show_ip_bgp_vpn_rd_neighbor_routes_cmd);
install_element(VIEW_NODE,
&show_ip_bgp_vpn_all_neighbor_advertised_routes_cmd);
install_element(VIEW_NODE,
&show_ip_bgp_vpn_rd_neighbor_advertised_routes_cmd);
#endif /* KEEP_OLD_VPN_COMMANDS */
}
vrf_id_t get_first_vrf_for_redirect_with_rt(struct ecommunity *eckey)
{
struct listnode *mnode, *mnnode;
struct bgp *bgp;
for (ALL_LIST_ELEMENTS(bm->bgp, mnode, mnnode, bgp)) {
struct ecommunity *ec;
if (bgp->inst_type != BGP_INSTANCE_TYPE_VRF)
continue;
ec = bgp->vpn_policy[AFI_IP].import_redirect_rtlist;
if (ecom_intersect(ec, eckey))
return bgp->vrf_id;
}
return VRF_UNKNOWN;
}
/*
* The purpose of this function is to process leaks that were deferred
* from earlier per-vrf configuration due to not-yet-existing default
* vrf, in other words, configuration such as:
*
* router bgp MMM vrf FOO
* address-family ipv4 unicast
* rd vpn export 1:1
* exit-address-family
*
* router bgp NNN
* ...
*
* This function gets called when the default instance ("router bgp NNN")
* is created.
*/
void vpn_leak_postchange_all(void)
{
struct listnode *next;
struct bgp *bgp;
struct bgp *bgp_default = bgp_get_default();
assert(bgp_default);
/* First, do any exporting from VRFs to the single VPN RIB */
for (ALL_LIST_ELEMENTS_RO(bm->bgp, next, bgp)) {
if (bgp->inst_type != BGP_INSTANCE_TYPE_VRF)
continue;
vpn_leak_postchange(
BGP_VPN_POLICY_DIR_TOVPN,
AFI_IP,
bgp_default,
bgp);
vpn_leak_postchange(
BGP_VPN_POLICY_DIR_TOVPN,
AFI_IP6,
bgp_default,
bgp);
}
/* Now, do any importing to VRFs from the single VPN RIB */
for (ALL_LIST_ELEMENTS_RO(bm->bgp, next, bgp)) {
if (bgp->inst_type != BGP_INSTANCE_TYPE_VRF)
continue;
vpn_leak_postchange(
BGP_VPN_POLICY_DIR_FROMVPN,
AFI_IP,
bgp_default,
bgp);
vpn_leak_postchange(
BGP_VPN_POLICY_DIR_FROMVPN,
AFI_IP6,
bgp_default,
bgp);
}
}
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