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|
/* BGP attributes management routines.
* Copyright (C) 1996, 97, 98, 1999 Kunihiro Ishiguro
*
* 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 "linklist.h"
#include "prefix.h"
#include "memory.h"
#include "vector.h"
#include "stream.h"
#include "log.h"
#include "hash.h"
#include "jhash.h"
#include "queue.h"
#include "table.h"
#include "filter.h"
#include "command.h"
#include "bgpd/bgpd.h"
#include "bgpd/bgp_attr.h"
#include "bgpd/bgp_route.h"
#include "bgpd/bgp_aspath.h"
#include "bgpd/bgp_community.h"
#include "bgpd/bgp_debug.h"
#include "bgpd/bgp_label.h"
#include "bgpd/bgp_packet.h"
#include "bgpd/bgp_ecommunity.h"
#include "bgpd/bgp_lcommunity.h"
#include "bgpd/bgp_updgrp.h"
#include "bgpd/bgp_encap_types.h"
#if ENABLE_BGP_VNC
#include "bgpd/rfapi/bgp_rfapi_cfg.h"
#include "bgp_encap_types.h"
#include "bgp_vnc_types.h"
#endif
#include "bgp_encap_types.h"
#include "bgp_evpn.h"
/* Attribute strings for logging. */
static const struct message attr_str[] = {
{BGP_ATTR_ORIGIN, "ORIGIN"},
{BGP_ATTR_AS_PATH, "AS_PATH"},
{BGP_ATTR_NEXT_HOP, "NEXT_HOP"},
{BGP_ATTR_MULTI_EXIT_DISC, "MULTI_EXIT_DISC"},
{BGP_ATTR_LOCAL_PREF, "LOCAL_PREF"},
{BGP_ATTR_ATOMIC_AGGREGATE, "ATOMIC_AGGREGATE"},
{BGP_ATTR_AGGREGATOR, "AGGREGATOR"},
{BGP_ATTR_COMMUNITIES, "COMMUNITY"},
{BGP_ATTR_ORIGINATOR_ID, "ORIGINATOR_ID"},
{BGP_ATTR_CLUSTER_LIST, "CLUSTER_LIST"},
{BGP_ATTR_DPA, "DPA"},
{BGP_ATTR_ADVERTISER, "ADVERTISER"},
{BGP_ATTR_RCID_PATH, "RCID_PATH"},
{BGP_ATTR_MP_REACH_NLRI, "MP_REACH_NLRI"},
{BGP_ATTR_MP_UNREACH_NLRI, "MP_UNREACH_NLRI"},
{BGP_ATTR_EXT_COMMUNITIES, "EXT_COMMUNITIES"},
{BGP_ATTR_AS4_PATH, "AS4_PATH"},
{BGP_ATTR_AS4_AGGREGATOR, "AS4_AGGREGATOR"},
{BGP_ATTR_AS_PATHLIMIT, "AS_PATHLIMIT"},
{BGP_ATTR_PMSI_TUNNEL, "PMSI_TUNNEL_ATTRIBUTE"},
{BGP_ATTR_ENCAP, "ENCAP"},
#if ENABLE_BGP_VNC
{BGP_ATTR_VNC, "VNC"},
#endif
{BGP_ATTR_LARGE_COMMUNITIES, "LARGE_COMMUNITY"},
{BGP_ATTR_PREFIX_SID, "PREFIX_SID"},
{0}};
static const struct message attr_flag_str[] = {
{BGP_ATTR_FLAG_OPTIONAL, "Optional"},
{BGP_ATTR_FLAG_TRANS, "Transitive"},
{BGP_ATTR_FLAG_PARTIAL, "Partial"},
/* bgp_attr_flags_diagnose() relies on this bit being last in
this list */
{BGP_ATTR_FLAG_EXTLEN, "Extended Length"},
{0}};
static struct hash *cluster_hash;
static void *cluster_hash_alloc(void *p)
{
const struct cluster_list *val = (const struct cluster_list *)p;
struct cluster_list *cluster;
cluster = XMALLOC(MTYPE_CLUSTER, sizeof(struct cluster_list));
cluster->length = val->length;
if (cluster->length) {
cluster->list = XMALLOC(MTYPE_CLUSTER_VAL, val->length);
memcpy(cluster->list, val->list, val->length);
} else
cluster->list = NULL;
cluster->refcnt = 0;
return cluster;
}
/* Cluster list related functions. */
static struct cluster_list *cluster_parse(struct in_addr *pnt, int length)
{
struct cluster_list tmp;
struct cluster_list *cluster;
tmp.length = length;
tmp.list = pnt;
cluster = hash_get(cluster_hash, &tmp, cluster_hash_alloc);
cluster->refcnt++;
return cluster;
}
int cluster_loop_check(struct cluster_list *cluster, struct in_addr originator)
{
int i;
for (i = 0; i < cluster->length / 4; i++)
if (cluster->list[i].s_addr == originator.s_addr)
return 1;
return 0;
}
static unsigned int cluster_hash_key_make(void *p)
{
const struct cluster_list *cluster = p;
return jhash(cluster->list, cluster->length, 0);
}
static int cluster_hash_cmp(const void *p1, const void *p2)
{
const struct cluster_list *cluster1 = p1;
const struct cluster_list *cluster2 = p2;
return (cluster1->length == cluster2->length
&& memcmp(cluster1->list, cluster2->list, cluster1->length)
== 0);
}
static void cluster_free(struct cluster_list *cluster)
{
if (cluster->list)
XFREE(MTYPE_CLUSTER_VAL, cluster->list);
XFREE(MTYPE_CLUSTER, cluster);
}
static struct cluster_list *cluster_intern(struct cluster_list *cluster)
{
struct cluster_list *find;
find = hash_get(cluster_hash, cluster, cluster_hash_alloc);
find->refcnt++;
return find;
}
void cluster_unintern(struct cluster_list *cluster)
{
if (cluster->refcnt)
cluster->refcnt--;
if (cluster->refcnt == 0) {
hash_release(cluster_hash, cluster);
cluster_free(cluster);
}
}
static void cluster_init(void)
{
cluster_hash = hash_create(cluster_hash_key_make, cluster_hash_cmp,
"BGP Cluster");
}
static void cluster_finish(void)
{
hash_clean(cluster_hash, (void (*)(void *))cluster_free);
hash_free(cluster_hash);
cluster_hash = NULL;
}
static struct hash *encap_hash = NULL;
#if ENABLE_BGP_VNC
static struct hash *vnc_hash = NULL;
#endif
struct bgp_attr_encap_subtlv *encap_tlv_dup(struct bgp_attr_encap_subtlv *orig)
{
struct bgp_attr_encap_subtlv *new;
struct bgp_attr_encap_subtlv *tail;
struct bgp_attr_encap_subtlv *p;
for (p = orig, tail = new = NULL; p; p = p->next) {
int size = sizeof(struct bgp_attr_encap_subtlv) + p->length;
if (tail) {
tail->next = XCALLOC(MTYPE_ENCAP_TLV, size);
tail = tail->next;
} else {
tail = new = XCALLOC(MTYPE_ENCAP_TLV, size);
}
assert(tail);
memcpy(tail, p, size);
tail->next = NULL;
}
return new;
}
static void encap_free(struct bgp_attr_encap_subtlv *p)
{
struct bgp_attr_encap_subtlv *next;
while (p) {
next = p->next;
p->next = NULL;
XFREE(MTYPE_ENCAP_TLV, p);
p = next;
}
}
void bgp_attr_flush_encap(struct attr *attr)
{
if (!attr)
return;
if (attr->encap_subtlvs) {
encap_free(attr->encap_subtlvs);
attr->encap_subtlvs = NULL;
}
#if ENABLE_BGP_VNC
if (attr->vnc_subtlvs) {
encap_free(attr->vnc_subtlvs);
attr->vnc_subtlvs = NULL;
}
#endif
}
/*
* Compare encap sub-tlv chains
*
* 1 = equivalent
* 0 = not equivalent
*
* This algorithm could be made faster if needed
*/
static int encap_same(struct bgp_attr_encap_subtlv *h1,
struct bgp_attr_encap_subtlv *h2)
{
struct bgp_attr_encap_subtlv *p;
struct bgp_attr_encap_subtlv *q;
if (h1 == h2)
return 1;
if (h1 == NULL || h2 == NULL)
return 0;
for (p = h1; p; p = p->next) {
for (q = h2; q; q = q->next) {
if ((p->type == q->type) && (p->length == q->length)
&& !memcmp(p->value, q->value, p->length)) {
break;
}
}
if (!q)
return 0;
}
for (p = h2; p; p = p->next) {
for (q = h1; q; q = q->next) {
if ((p->type == q->type) && (p->length == q->length)
&& !memcmp(p->value, q->value, p->length)) {
break;
}
}
if (!q)
return 0;
}
return 1;
}
static void *encap_hash_alloc(void *p)
{
/* Encap structure is already allocated. */
return p;
}
typedef enum {
ENCAP_SUBTLV_TYPE,
#if ENABLE_BGP_VNC
VNC_SUBTLV_TYPE
#endif
} encap_subtlv_type;
static struct bgp_attr_encap_subtlv *
encap_intern(struct bgp_attr_encap_subtlv *encap, encap_subtlv_type type)
{
struct bgp_attr_encap_subtlv *find;
struct hash *hash = encap_hash;
#if ENABLE_BGP_VNC
if (type == VNC_SUBTLV_TYPE)
hash = vnc_hash;
#endif
find = hash_get(hash, encap, encap_hash_alloc);
if (find != encap)
encap_free(encap);
find->refcnt++;
return find;
}
static void encap_unintern(struct bgp_attr_encap_subtlv **encapp,
encap_subtlv_type type)
{
struct bgp_attr_encap_subtlv *encap = *encapp;
if (encap->refcnt)
encap->refcnt--;
if (encap->refcnt == 0) {
struct hash *hash = encap_hash;
#if ENABLE_BGP_VNC
if (type == VNC_SUBTLV_TYPE)
hash = vnc_hash;
#endif
hash_release(hash, encap);
encap_free(encap);
*encapp = NULL;
}
}
static unsigned int encap_hash_key_make(void *p)
{
const struct bgp_attr_encap_subtlv *encap = p;
return jhash(encap->value, encap->length, 0);
}
static int encap_hash_cmp(const void *p1, const void *p2)
{
return encap_same((struct bgp_attr_encap_subtlv *)p1,
(struct bgp_attr_encap_subtlv *)p2);
}
static void encap_init(void)
{
encap_hash = hash_create(encap_hash_key_make, encap_hash_cmp,
"BGP Encap Hash");
#if ENABLE_BGP_VNC
vnc_hash = hash_create(encap_hash_key_make, encap_hash_cmp,
"BGP VNC Hash");
#endif
}
static void encap_finish(void)
{
hash_clean(encap_hash, (void (*)(void *))encap_free);
hash_free(encap_hash);
encap_hash = NULL;
#if ENABLE_BGP_VNC
hash_clean(vnc_hash, (void (*)(void *))encap_free);
hash_free(vnc_hash);
vnc_hash = NULL;
#endif
}
static bool overlay_index_same(const struct attr *a1, const struct attr *a2)
{
if (!a1 && a2)
return false;
if (!a2 && a1)
return false;
if (!a1 && !a2)
return true;
return !memcmp(&(a1->evpn_overlay), &(a2->evpn_overlay),
sizeof(struct overlay_index));
}
/* Unknown transit attribute. */
static struct hash *transit_hash;
static void transit_free(struct transit *transit)
{
if (transit->val)
XFREE(MTYPE_TRANSIT_VAL, transit->val);
XFREE(MTYPE_TRANSIT, transit);
}
static void *transit_hash_alloc(void *p)
{
/* Transit structure is already allocated. */
return p;
}
static struct transit *transit_intern(struct transit *transit)
{
struct transit *find;
find = hash_get(transit_hash, transit, transit_hash_alloc);
if (find != transit)
transit_free(transit);
find->refcnt++;
return find;
}
void transit_unintern(struct transit *transit)
{
if (transit->refcnt)
transit->refcnt--;
if (transit->refcnt == 0) {
hash_release(transit_hash, transit);
transit_free(transit);
}
}
static unsigned int transit_hash_key_make(void *p)
{
const struct transit *transit = p;
return jhash(transit->val, transit->length, 0);
}
static int transit_hash_cmp(const void *p1, const void *p2)
{
const struct transit *transit1 = p1;
const struct transit *transit2 = p2;
return (transit1->length == transit2->length
&& memcmp(transit1->val, transit2->val, transit1->length) == 0);
}
static void transit_init(void)
{
transit_hash = hash_create(transit_hash_key_make, transit_hash_cmp,
"BGP Transit Hash");
}
static void transit_finish(void)
{
hash_clean(transit_hash, (void (*)(void *))transit_free);
hash_free(transit_hash);
transit_hash = NULL;
}
/* Attribute hash routines. */
static struct hash *attrhash;
/* Shallow copy of an attribute
* Though, not so shallow that it doesn't copy the contents
* of the attr_extra pointed to by 'extra'
*/
void bgp_attr_dup(struct attr *new, struct attr *orig)
{
*new = *orig;
}
unsigned long int attr_count(void)
{
return attrhash->count;
}
unsigned long int attr_unknown_count(void)
{
return transit_hash->count;
}
unsigned int attrhash_key_make(void *p)
{
const struct attr *attr = (struct attr *)p;
uint32_t key = 0;
#define MIX(val) key = jhash_1word(val, key)
#define MIX3(a, b, c) key = jhash_3words((a), (b), (c), key)
MIX3(attr->origin, attr->nexthop.s_addr, attr->med);
MIX3(attr->local_pref, attr->aggregator_as,
attr->aggregator_addr.s_addr);
MIX3(attr->weight, attr->mp_nexthop_global_in.s_addr,
attr->originator_id.s_addr);
MIX3(attr->tag, attr->label, attr->label_index);
if (attr->aspath)
MIX(aspath_key_make(attr->aspath));
if (attr->community)
MIX(community_hash_make(attr->community));
if (attr->lcommunity)
MIX(lcommunity_hash_make(attr->lcommunity));
if (attr->ecommunity)
MIX(ecommunity_hash_make(attr->ecommunity));
if (attr->cluster)
MIX(cluster_hash_key_make(attr->cluster));
if (attr->transit)
MIX(transit_hash_key_make(attr->transit));
if (attr->encap_subtlvs)
MIX(encap_hash_key_make(attr->encap_subtlvs));
#if ENABLE_BGP_VNC
if (attr->vnc_subtlvs)
MIX(encap_hash_key_make(attr->vnc_subtlvs));
#endif
MIX(attr->mp_nexthop_len);
key = jhash(attr->mp_nexthop_global.s6_addr, IPV6_MAX_BYTELEN, key);
key = jhash(attr->mp_nexthop_local.s6_addr, IPV6_MAX_BYTELEN, key);
return key;
}
int attrhash_cmp(const void *p1, const void *p2)
{
const struct attr *attr1 = p1;
const struct attr *attr2 = p2;
if (attr1->flag == attr2->flag && attr1->origin == attr2->origin
&& attr1->nexthop.s_addr == attr2->nexthop.s_addr
&& attr1->aspath == attr2->aspath
&& attr1->community == attr2->community && attr1->med == attr2->med
&& attr1->local_pref == attr2->local_pref
&& attr1->rmap_change_flags == attr2->rmap_change_flags) {
if (attr1->aggregator_as == attr2->aggregator_as
&& attr1->aggregator_addr.s_addr
== attr2->aggregator_addr.s_addr
&& attr1->weight == attr2->weight
&& attr1->tag == attr2->tag
&& attr1->label_index == attr2->label_index
&& attr1->mp_nexthop_len == attr2->mp_nexthop_len
&& attr1->ecommunity == attr2->ecommunity
&& attr1->lcommunity == attr2->lcommunity
&& attr1->cluster == attr2->cluster
&& attr1->transit == attr2->transit
&& (attr1->encap_tunneltype == attr2->encap_tunneltype)
&& encap_same(attr1->encap_subtlvs, attr2->encap_subtlvs)
#if ENABLE_BGP_VNC
&& encap_same(attr1->vnc_subtlvs, attr2->vnc_subtlvs)
#endif
&& IPV6_ADDR_SAME(&attr1->mp_nexthop_global,
&attr2->mp_nexthop_global)
&& IPV6_ADDR_SAME(&attr1->mp_nexthop_local,
&attr2->mp_nexthop_local)
&& IPV4_ADDR_SAME(&attr1->mp_nexthop_global_in,
&attr2->mp_nexthop_global_in)
&& IPV4_ADDR_SAME(&attr1->originator_id,
&attr2->originator_id)
&& overlay_index_same(attr1, attr2))
return 1;
}
return 0;
}
static void attrhash_init(void)
{
attrhash =
hash_create(attrhash_key_make, attrhash_cmp, "BGP Attributes");
}
/*
* special for hash_clean below
*/
static void attr_vfree(void *attr)
{
XFREE(MTYPE_ATTR, attr);
}
static void attrhash_finish(void)
{
hash_clean(attrhash, attr_vfree);
hash_free(attrhash);
attrhash = NULL;
}
static void attr_show_all_iterator(struct hash_backet *backet, struct vty *vty)
{
struct attr *attr = backet->data;
vty_out(vty, "attr[%ld] nexthop %s\n", attr->refcnt,
inet_ntoa(attr->nexthop));
}
void attr_show_all(struct vty *vty)
{
hash_iterate(attrhash, (void (*)(struct hash_backet *,
void *))attr_show_all_iterator,
vty);
}
static void *bgp_attr_hash_alloc(void *p)
{
struct attr *val = (struct attr *)p;
struct attr *attr;
attr = XMALLOC(MTYPE_ATTR, sizeof(struct attr));
*attr = *val;
if (val->encap_subtlvs) {
val->encap_subtlvs = NULL;
}
#if ENABLE_BGP_VNC
if (val->vnc_subtlvs) {
val->vnc_subtlvs = NULL;
}
#endif
attr->refcnt = 0;
return attr;
}
/* Internet argument attribute. */
struct attr *bgp_attr_intern(struct attr *attr)
{
struct attr *find;
/* Intern referenced strucutre. */
if (attr->aspath) {
if (!attr->aspath->refcnt)
attr->aspath = aspath_intern(attr->aspath);
else
attr->aspath->refcnt++;
}
if (attr->community) {
if (!attr->community->refcnt)
attr->community = community_intern(attr->community);
else
attr->community->refcnt++;
}
if (attr->ecommunity) {
if (!attr->ecommunity->refcnt)
attr->ecommunity = ecommunity_intern(attr->ecommunity);
else
attr->ecommunity->refcnt++;
}
if (attr->lcommunity) {
if (!attr->lcommunity->refcnt)
attr->lcommunity = lcommunity_intern(attr->lcommunity);
else
attr->lcommunity->refcnt++;
}
if (attr->cluster) {
if (!attr->cluster->refcnt)
attr->cluster = cluster_intern(attr->cluster);
else
attr->cluster->refcnt++;
}
if (attr->transit) {
if (!attr->transit->refcnt)
attr->transit = transit_intern(attr->transit);
else
attr->transit->refcnt++;
}
if (attr->encap_subtlvs) {
if (!attr->encap_subtlvs->refcnt)
attr->encap_subtlvs = encap_intern(attr->encap_subtlvs,
ENCAP_SUBTLV_TYPE);
else
attr->encap_subtlvs->refcnt++;
}
#if ENABLE_BGP_VNC
if (attr->vnc_subtlvs) {
if (!attr->vnc_subtlvs->refcnt)
attr->vnc_subtlvs = encap_intern(attr->vnc_subtlvs,
VNC_SUBTLV_TYPE);
else
attr->vnc_subtlvs->refcnt++;
}
#endif
/* At this point, attr only contains intern'd pointers. that means
* if we find it in attrhash, it has all the same pointers and we
* correctly updated the refcounts on these.
* If we don't find it, we need to allocate a one because in all
* cases this returns a new reference to a hashed attr, but the input
* wasn't on hash. */
find = (struct attr *)hash_get(attrhash, attr, bgp_attr_hash_alloc);
find->refcnt++;
return find;
}
/* Make network statement's attribute. */
struct attr *bgp_attr_default_set(struct attr *attr, u_char origin)
{
memset(attr, 0, sizeof(struct attr));
attr->origin = origin;
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_ORIGIN);
attr->aspath = aspath_empty();
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_AS_PATH);
attr->weight = BGP_ATTR_DEFAULT_WEIGHT;
attr->tag = 0;
attr->label_index = BGP_INVALID_LABEL_INDEX;
attr->label = MPLS_INVALID_LABEL;
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP);
attr->mp_nexthop_len = IPV6_MAX_BYTELEN;
return attr;
}
/* Create the attributes for an aggregate */
struct attr *bgp_attr_aggregate_intern(struct bgp *bgp, u_char origin,
struct aspath *aspath,
struct community *community, int as_set,
u_char atomic_aggregate)
{
struct attr attr;
struct attr *new;
memset(&attr, 0, sizeof(struct attr));
/* Origin attribute. */
attr.origin = origin;
attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_ORIGIN);
/* AS path attribute. */
if (aspath)
attr.aspath = aspath_intern(aspath);
else
attr.aspath = aspath_empty();
attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_AS_PATH);
/* Next hop attribute. */
attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP);
if (community) {
u_int32_t gshut = COMMUNITY_GSHUT;
/* If we are not shutting down ourselves and we are
* aggregating a route that contains the GSHUT community we
* need to remove that community when creating the aggregate */
if (!bgp_flag_check(bgp, BGP_FLAG_GRACEFUL_SHUTDOWN)
&& community_include(community, gshut)) {
community_del_val(community, &gshut);
}
attr.community = community;
attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_COMMUNITIES);
}
if (bgp_flag_check(bgp, BGP_FLAG_GRACEFUL_SHUTDOWN)) {
bgp_attr_add_gshut_community(&attr);
}
attr.label_index = BGP_INVALID_LABEL_INDEX;
attr.label = MPLS_INVALID_LABEL;
attr.weight = BGP_ATTR_DEFAULT_WEIGHT;
attr.mp_nexthop_len = IPV6_MAX_BYTELEN;
if (!as_set || atomic_aggregate)
attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_ATOMIC_AGGREGATE);
attr.flag |= ATTR_FLAG_BIT(BGP_ATTR_AGGREGATOR);
if (CHECK_FLAG(bgp->config, BGP_CONFIG_CONFEDERATION))
attr.aggregator_as = bgp->confed_id;
else
attr.aggregator_as = bgp->as;
attr.aggregator_addr = bgp->router_id;
attr.label_index = BGP_INVALID_LABEL_INDEX;
attr.label = MPLS_INVALID_LABEL;
new = bgp_attr_intern(&attr);
aspath_unintern(&new->aspath);
return new;
}
/* Unintern just the sub-components of the attr, but not the attr */
void bgp_attr_unintern_sub(struct attr *attr)
{
/* aspath refcount shoud be decrement. */
if (attr->aspath)
aspath_unintern(&attr->aspath);
UNSET_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_AS_PATH));
if (attr->community)
community_unintern(&attr->community);
UNSET_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_COMMUNITIES));
if (attr->ecommunity)
ecommunity_unintern(&attr->ecommunity);
UNSET_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES));
if (attr->lcommunity)
lcommunity_unintern(&attr->lcommunity);
UNSET_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_LARGE_COMMUNITIES));
if (attr->cluster)
cluster_unintern(attr->cluster);
UNSET_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_CLUSTER_LIST));
if (attr->transit)
transit_unintern(attr->transit);
if (attr->encap_subtlvs)
encap_unintern(&attr->encap_subtlvs, ENCAP_SUBTLV_TYPE);
#if ENABLE_BGP_VNC
if (attr->vnc_subtlvs)
encap_unintern(&attr->vnc_subtlvs, VNC_SUBTLV_TYPE);
#endif
}
/*
* We have some show commands that let you experimentally
* apply a route-map. When we apply the route-map
* we are reseting values but not saving them for
* posterity via intern'ing( because route-maps don't
* do that) but at this point in time we need
* to compare the new attr to the old and if the
* routemap has changed it we need to, as Snoop Dog says,
* Drop it like it's hot
*/
void bgp_attr_undup(struct attr *new, struct attr *old)
{
if (new->aspath != old->aspath)
aspath_free(new->aspath);
if (new->community != old->community)
community_free(new->community);
if (new->ecommunity != old->ecommunity)
ecommunity_free(&new->ecommunity);
if (new->lcommunity != old->lcommunity)
lcommunity_free(&new->lcommunity);
}
/* Free bgp attribute and aspath. */
void bgp_attr_unintern(struct attr **pattr)
{
struct attr *attr = *pattr;
struct attr *ret;
struct attr tmp;
/* Decrement attribute reference. */
attr->refcnt--;
tmp = *attr;
/* If reference becomes zero then free attribute object. */
if (attr->refcnt == 0) {
ret = hash_release(attrhash, attr);
assert(ret != NULL);
XFREE(MTYPE_ATTR, attr);
*pattr = NULL;
}
bgp_attr_unintern_sub(&tmp);
}
void bgp_attr_flush(struct attr *attr)
{
if (attr->aspath && !attr->aspath->refcnt) {
aspath_free(attr->aspath);
attr->aspath = NULL;
}
if (attr->community && !attr->community->refcnt) {
community_free(attr->community);
attr->community = NULL;
}
if (attr->ecommunity && !attr->ecommunity->refcnt)
ecommunity_free(&attr->ecommunity);
if (attr->lcommunity && !attr->lcommunity->refcnt)
lcommunity_free(&attr->lcommunity);
if (attr->cluster && !attr->cluster->refcnt) {
cluster_free(attr->cluster);
attr->cluster = NULL;
}
if (attr->transit && !attr->transit->refcnt) {
transit_free(attr->transit);
attr->transit = NULL;
}
if (attr->encap_subtlvs && !attr->encap_subtlvs->refcnt) {
encap_free(attr->encap_subtlvs);
attr->encap_subtlvs = NULL;
}
#if ENABLE_BGP_VNC
if (attr->vnc_subtlvs && !attr->vnc_subtlvs->refcnt) {
encap_free(attr->vnc_subtlvs);
attr->vnc_subtlvs = NULL;
}
#endif
}
/* Implement draft-scudder-idr-optional-transitive behaviour and
* avoid resetting sessions for malformed attributes which are
* are partial/optional and hence where the error likely was not
* introduced by the sending neighbour.
*/
static bgp_attr_parse_ret_t
bgp_attr_malformed(struct bgp_attr_parser_args *args, u_char subcode,
bgp_size_t length)
{
struct peer *const peer = args->peer;
const u_int8_t flags = args->flags;
/* startp and length must be special-cased, as whether or not to
* send the attribute data with the NOTIFY depends on the error,
* the caller therefore signals this with the seperate length argument
*/
u_char *notify_datap = (length > 0 ? args->startp : NULL);
/* Only relax error handling for eBGP peers */
if (peer->sort != BGP_PEER_EBGP) {
bgp_notify_send_with_data(peer, BGP_NOTIFY_UPDATE_ERR, subcode,
notify_datap, length);
return BGP_ATTR_PARSE_ERROR;
}
/* Adjust the stream getp to the end of the attribute, in case we can
* still proceed but the caller hasn't read all the attribute.
*/
stream_set_getp(BGP_INPUT(peer),
(args->startp - STREAM_DATA(BGP_INPUT(peer)))
+ args->total);
switch (args->type) {
/* where an attribute is relatively inconsequential, e.g. it does not
* affect route selection, and can be safely ignored, then any such
* attributes which are malformed should just be ignored and the route
* processed as normal.
*/
case BGP_ATTR_AS4_AGGREGATOR:
case BGP_ATTR_AGGREGATOR:
case BGP_ATTR_ATOMIC_AGGREGATE:
return BGP_ATTR_PARSE_PROCEED;
/* Core attributes, particularly ones which may influence route
* selection, should always cause session resets
*/
case BGP_ATTR_ORIGIN:
case BGP_ATTR_AS_PATH:
case BGP_ATTR_NEXT_HOP:
case BGP_ATTR_MULTI_EXIT_DISC:
case BGP_ATTR_LOCAL_PREF:
case BGP_ATTR_COMMUNITIES:
case BGP_ATTR_ORIGINATOR_ID:
case BGP_ATTR_CLUSTER_LIST:
case BGP_ATTR_MP_REACH_NLRI:
case BGP_ATTR_MP_UNREACH_NLRI:
case BGP_ATTR_EXT_COMMUNITIES:
bgp_notify_send_with_data(peer, BGP_NOTIFY_UPDATE_ERR, subcode,
notify_datap, length);
return BGP_ATTR_PARSE_ERROR;
}
/* Partial optional attributes that are malformed should not cause
* the whole session to be reset. Instead treat it as a withdrawal
* of the routes, if possible.
*/
if (CHECK_FLAG(flags, BGP_ATTR_FLAG_TRANS)
&& CHECK_FLAG(flags, BGP_ATTR_FLAG_OPTIONAL)
&& CHECK_FLAG(flags, BGP_ATTR_FLAG_PARTIAL))
return BGP_ATTR_PARSE_WITHDRAW;
/* default to reset */
return BGP_ATTR_PARSE_ERROR_NOTIFYPLS;
}
/* Find out what is wrong with the path attribute flag bits and log the error.
"Flag bits" here stand for Optional, Transitive and Partial, but not for
Extended Length. Checking O/T/P bits at once implies, that the attribute
being diagnosed is defined by RFC as either a "well-known" or an "optional,
non-transitive" attribute. */
static void
bgp_attr_flags_diagnose(struct bgp_attr_parser_args *args,
u_int8_t desired_flags /* how RFC says it must be */
)
{
u_char seen = 0, i;
u_char real_flags = args->flags;
const u_int8_t attr_code = args->type;
desired_flags &= ~BGP_ATTR_FLAG_EXTLEN;
real_flags &= ~BGP_ATTR_FLAG_EXTLEN;
for (i = 0; i <= 2; i++) /* O,T,P, but not E */
if (CHECK_FLAG(desired_flags, attr_flag_str[i].key)
!= CHECK_FLAG(real_flags, attr_flag_str[i].key)) {
zlog_err("%s attribute must%s be flagged as \"%s\"",
lookup_msg(attr_str, attr_code, NULL),
CHECK_FLAG(desired_flags, attr_flag_str[i].key)
? ""
: " not",
attr_flag_str[i].str);
seen = 1;
}
if (!seen) {
zlog_debug(
"Strange, %s called for attr %s, but no problem found with flags"
" (real flags 0x%x, desired 0x%x)",
__func__, lookup_msg(attr_str, attr_code, NULL),
real_flags, desired_flags);
}
}
/* Required flags for attributes. EXTLEN will be masked off when testing,
* as will PARTIAL for optional+transitive attributes.
*/
const u_int8_t attr_flags_values[] = {
[BGP_ATTR_ORIGIN] = BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_AS_PATH] = BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_NEXT_HOP] = BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_MULTI_EXIT_DISC] = BGP_ATTR_FLAG_OPTIONAL,
[BGP_ATTR_LOCAL_PREF] = BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_ATOMIC_AGGREGATE] = BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_AGGREGATOR] =
BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_OPTIONAL,
[BGP_ATTR_COMMUNITIES] =
BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_OPTIONAL,
[BGP_ATTR_ORIGINATOR_ID] = BGP_ATTR_FLAG_OPTIONAL,
[BGP_ATTR_CLUSTER_LIST] = BGP_ATTR_FLAG_OPTIONAL,
[BGP_ATTR_MP_REACH_NLRI] = BGP_ATTR_FLAG_OPTIONAL,
[BGP_ATTR_MP_UNREACH_NLRI] = BGP_ATTR_FLAG_OPTIONAL,
[BGP_ATTR_EXT_COMMUNITIES] =
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_AS4_PATH] =
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_AS4_AGGREGATOR] =
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_PMSI_TUNNEL] =
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_LARGE_COMMUNITIES] =
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS,
[BGP_ATTR_PREFIX_SID] =
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS,
};
static const size_t attr_flags_values_max = array_size(attr_flags_values) - 1;
static int bgp_attr_flag_invalid(struct bgp_attr_parser_args *args)
{
u_int8_t mask = BGP_ATTR_FLAG_EXTLEN;
const u_int8_t flags = args->flags;
const u_int8_t attr_code = args->type;
/* there may be attributes we don't know about */
if (attr_code > attr_flags_values_max)
return 0;
if (attr_flags_values[attr_code] == 0)
return 0;
/* RFC4271, "For well-known attributes, the Transitive bit MUST be set
* to
* 1."
*/
if (!CHECK_FLAG(BGP_ATTR_FLAG_OPTIONAL, flags)
&& !CHECK_FLAG(BGP_ATTR_FLAG_TRANS, flags)) {
zlog_err(
"%s well-known attributes must have transitive flag set (%x)",
lookup_msg(attr_str, attr_code, NULL), flags);
return 1;
}
/* "For well-known attributes and for optional non-transitive
* attributes,
* the Partial bit MUST be set to 0."
*/
if (CHECK_FLAG(flags, BGP_ATTR_FLAG_PARTIAL)) {
if (!CHECK_FLAG(flags, BGP_ATTR_FLAG_OPTIONAL)) {
zlog_err(
"%s well-known attribute "
"must NOT have the partial flag set (%x)",
lookup_msg(attr_str, attr_code, NULL), flags);
return 1;
}
if (CHECK_FLAG(flags, BGP_ATTR_FLAG_OPTIONAL)
&& !CHECK_FLAG(flags, BGP_ATTR_FLAG_TRANS)) {
zlog_err(
"%s optional + transitive attribute "
"must NOT have the partial flag set (%x)",
lookup_msg(attr_str, attr_code, NULL), flags);
return 1;
}
}
/* Optional transitive attributes may go through speakers that don't
* reocgnise them and set the Partial bit.
*/
if (CHECK_FLAG(flags, BGP_ATTR_FLAG_OPTIONAL)
&& CHECK_FLAG(flags, BGP_ATTR_FLAG_TRANS))
SET_FLAG(mask, BGP_ATTR_FLAG_PARTIAL);
if ((flags & ~mask) == attr_flags_values[attr_code])
return 0;
bgp_attr_flags_diagnose(args, attr_flags_values[attr_code]);
return 1;
}
/* Get origin attribute of the update message. */
static bgp_attr_parse_ret_t bgp_attr_origin(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
/* If any recognized attribute has Attribute Length that conflicts
with the expected length (based on the attribute type code), then
the Error Subcode is set to Attribute Length Error. The Data
field contains the erroneous attribute (type, length and
value). */
if (length != 1) {
zlog_err("Origin attribute length is not one %d", length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
/* Fetch origin attribute. */
attr->origin = stream_getc(BGP_INPUT(peer));
/* If the ORIGIN attribute has an undefined value, then the Error
Subcode is set to Invalid Origin Attribute. The Data field
contains the unrecognized attribute (type, length and value). */
if ((attr->origin != BGP_ORIGIN_IGP) && (attr->origin != BGP_ORIGIN_EGP)
&& (attr->origin != BGP_ORIGIN_INCOMPLETE)) {
zlog_err("Origin attribute value is invalid %d", attr->origin);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_INVAL_ORIGIN,
args->total);
}
/* Set oring attribute flag. */
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_ORIGIN);
return 0;
}
/* Parse AS path information. This function is wrapper of
aspath_parse. */
static int bgp_attr_aspath(struct bgp_attr_parser_args *args)
{
struct attr *const attr = args->attr;
struct peer *const peer = args->peer;
const bgp_size_t length = args->length;
/*
* peer with AS4 => will get 4Byte ASnums
* otherwise, will get 16 Bit
*/
attr->aspath = aspath_parse(peer->curr, length,
CHECK_FLAG(peer->cap, PEER_CAP_AS4_RCV));
/* In case of IBGP, length will be zero. */
if (!attr->aspath) {
zlog_err("Malformed AS path from %s, length is %d", peer->host,
length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_MAL_AS_PATH,
0);
}
/* Set aspath attribute flag. */
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_AS_PATH);
return BGP_ATTR_PARSE_PROCEED;
}
static bgp_attr_parse_ret_t bgp_attr_aspath_check(struct peer *const peer,
struct attr *const attr)
{
/* These checks were part of bgp_attr_aspath, but with
* as4 we should to check aspath things when
* aspath synthesizing with as4_path has already taken place.
* Otherwise we check ASPATH and use the synthesized thing, and that is
* not right.
* So do the checks later, i.e. here
*/
struct bgp *bgp = peer->bgp;
struct aspath *aspath;
/* Confederation sanity check. */
if ((peer->sort == BGP_PEER_CONFED
&& !aspath_left_confed_check(attr->aspath))
|| (peer->sort == BGP_PEER_EBGP
&& aspath_confed_check(attr->aspath))) {
zlog_err("Malformed AS path from %s", peer->host);
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_MAL_AS_PATH);
return BGP_ATTR_PARSE_ERROR;
}
/* First AS check for EBGP. */
if (bgp != NULL && bgp_flag_check(bgp, BGP_FLAG_ENFORCE_FIRST_AS)) {
if (peer->sort == BGP_PEER_EBGP
&& !aspath_firstas_check(attr->aspath, peer->as)) {
zlog_err("%s incorrect first AS (must be %u)",
peer->host, peer->as);
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_MAL_AS_PATH);
return BGP_ATTR_PARSE_ERROR;
}
}
/* local-as prepend */
if (peer->change_local_as
&& !CHECK_FLAG(peer->flags, PEER_FLAG_LOCAL_AS_NO_PREPEND)) {
aspath = aspath_dup(attr->aspath);
aspath = aspath_add_seq(aspath, peer->change_local_as);
aspath_unintern(&attr->aspath);
attr->aspath = aspath_intern(aspath);
}
return BGP_ATTR_PARSE_PROCEED;
}
/* Parse AS4 path information. This function is another wrapper of
aspath_parse. */
static int bgp_attr_as4_path(struct bgp_attr_parser_args *args,
struct aspath **as4_path)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
*as4_path = aspath_parse(peer->curr, length, 1);
/* In case of IBGP, length will be zero. */
if (!*as4_path) {
zlog_err("Malformed AS4 path from %s, length is %d", peer->host,
length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_MAL_AS_PATH,
0);
}
/* Set aspath attribute flag. */
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_AS4_PATH);
return BGP_ATTR_PARSE_PROCEED;
}
/* Nexthop attribute. */
static bgp_attr_parse_ret_t bgp_attr_nexthop(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
in_addr_t nexthop_h, nexthop_n;
/* Check nexthop attribute length. */
if (length != 4) {
zlog_err("Nexthop attribute length isn't four [%d]", length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
/* According to section 6.3 of RFC4271, syntactically incorrect NEXT_HOP
attribute must result in a NOTIFICATION message (this is implemented
below).
At the same time, semantically incorrect NEXT_HOP is more likely to
be just
logged locally (this is implemented somewhere else). The UPDATE
message
gets ignored in any of these cases. */
nexthop_n = stream_get_ipv4(peer->curr);
nexthop_h = ntohl(nexthop_n);
if ((IPV4_NET0(nexthop_h) || IPV4_NET127(nexthop_h)
|| IPV4_CLASS_DE(nexthop_h))
&& !BGP_DEBUG(
allow_martians,
ALLOW_MARTIANS)) /* loopbacks may be used in testing */
{
char buf[INET_ADDRSTRLEN];
inet_ntop(AF_INET, &nexthop_n, buf, INET_ADDRSTRLEN);
zlog_err("Martian nexthop %s", buf);
return bgp_attr_malformed(
args, BGP_NOTIFY_UPDATE_INVAL_NEXT_HOP, args->total);
}
attr->nexthop.s_addr = nexthop_n;
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP);
return BGP_ATTR_PARSE_PROCEED;
}
/* MED atrribute. */
static bgp_attr_parse_ret_t bgp_attr_med(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
/* Length check. */
if (length != 4) {
zlog_err("MED attribute length isn't four [%d]", length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
attr->med = stream_getl(peer->curr);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_MULTI_EXIT_DISC);
return BGP_ATTR_PARSE_PROCEED;
}
/* Local preference attribute. */
static bgp_attr_parse_ret_t
bgp_attr_local_pref(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
/* Length check. */
if (length != 4) {
zlog_err("LOCAL_PREF attribute length isn't 4 [%u]", length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
/* If it is contained in an UPDATE message that is received from an
external peer, then this attribute MUST be ignored by the
receiving speaker. */
if (peer->sort == BGP_PEER_EBGP) {
stream_forward_getp(peer->curr, length);
return BGP_ATTR_PARSE_PROCEED;
}
attr->local_pref = stream_getl(peer->curr);
/* Set the local-pref flag. */
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_LOCAL_PREF);
return BGP_ATTR_PARSE_PROCEED;
}
/* Atomic aggregate. */
static int bgp_attr_atomic(struct bgp_attr_parser_args *args)
{
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
/* Length check. */
if (length != 0) {
zlog_err("ATOMIC_AGGREGATE attribute length isn't 0 [%u]",
length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
/* Set atomic aggregate flag. */
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_ATOMIC_AGGREGATE);
return BGP_ATTR_PARSE_PROCEED;
}
/* Aggregator attribute */
static int bgp_attr_aggregator(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
int wantedlen = 6;
/* peer with AS4 will send 4 Byte AS, peer without will send 2 Byte */
if (CHECK_FLAG(peer->cap, PEER_CAP_AS4_RCV))
wantedlen = 8;
if (length != wantedlen) {
zlog_err("AGGREGATOR attribute length isn't %u [%u]", wantedlen,
length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
if (CHECK_FLAG(peer->cap, PEER_CAP_AS4_RCV))
attr->aggregator_as = stream_getl(peer->curr);
else
attr->aggregator_as = stream_getw(peer->curr);
attr->aggregator_addr.s_addr = stream_get_ipv4(peer->curr);
/* Set atomic aggregate flag. */
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_AGGREGATOR);
return BGP_ATTR_PARSE_PROCEED;
}
/* New Aggregator attribute */
static bgp_attr_parse_ret_t
bgp_attr_as4_aggregator(struct bgp_attr_parser_args *args,
as_t *as4_aggregator_as,
struct in_addr *as4_aggregator_addr)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
if (length != 8) {
zlog_err("New Aggregator length is not 8 [%d]", length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
0);
}
*as4_aggregator_as = stream_getl(peer->curr);
as4_aggregator_addr->s_addr = stream_get_ipv4(peer->curr);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_AS4_AGGREGATOR);
return BGP_ATTR_PARSE_PROCEED;
}
/* Munge Aggregator and New-Aggregator, AS_PATH and NEW_AS_PATH.
*/
static bgp_attr_parse_ret_t
bgp_attr_munge_as4_attrs(struct peer *const peer, struct attr *const attr,
struct aspath *as4_path, as_t as4_aggregator,
struct in_addr *as4_aggregator_addr)
{
int ignore_as4_path = 0;
struct aspath *newpath;
if (!attr->aspath) {
/* NULL aspath shouldn't be possible as bgp_attr_parse should
* have
* checked that all well-known, mandatory attributes were
* present.
*
* Can only be a problem with peer itself - hard error
*/
return BGP_ATTR_PARSE_ERROR;
}
if (CHECK_FLAG(peer->cap, PEER_CAP_AS4_RCV)) {
/* peer can do AS4, so we ignore AS4_PATH and AS4_AGGREGATOR
* if given.
* It is worth a warning though, because the peer really
* should not send them
*/
if (BGP_DEBUG(as4, AS4)) {
if (attr->flag & (ATTR_FLAG_BIT(BGP_ATTR_AS4_PATH)))
zlog_debug("[AS4] %s %s AS4_PATH", peer->host,
"AS4 capable peer, yet it sent");
if (attr->flag
& (ATTR_FLAG_BIT(BGP_ATTR_AS4_AGGREGATOR)))
zlog_debug("[AS4] %s %s AS4_AGGREGATOR",
peer->host,
"AS4 capable peer, yet it sent");
}
return BGP_ATTR_PARSE_PROCEED;
}
/* We have a asn16 peer. First, look for AS4_AGGREGATOR
* because that may override AS4_PATH
*/
if (attr->flag & (ATTR_FLAG_BIT(BGP_ATTR_AS4_AGGREGATOR))) {
if (attr->flag & (ATTR_FLAG_BIT(BGP_ATTR_AGGREGATOR))) {
/* received both.
* if the as_number in aggregator is not AS_TRANS,
* then AS4_AGGREGATOR and AS4_PATH shall be ignored
* and the Aggregator shall be taken as
* info on the aggregating node, and the AS_PATH
* shall be taken as the AS_PATH
* otherwise
* the Aggregator shall be ignored and the
* AS4_AGGREGATOR shall be taken as the
* Aggregating node and the AS_PATH is to be
* constructed "as in all other cases"
*/
if (attr->aggregator_as != BGP_AS_TRANS) {
/* ignore */
if (BGP_DEBUG(as4, AS4))
zlog_debug(
"[AS4] %s BGP not AS4 capable peer"
" send AGGREGATOR != AS_TRANS and"
" AS4_AGGREGATOR, so ignore"
" AS4_AGGREGATOR and AS4_PATH",
peer->host);
ignore_as4_path = 1;
} else {
/* "New_aggregator shall be taken as aggregator"
*/
attr->aggregator_as = as4_aggregator;
attr->aggregator_addr.s_addr =
as4_aggregator_addr->s_addr;
}
} else {
/* We received a AS4_AGGREGATOR but no AGGREGATOR.
* That is bogus - but reading the conditions
* we have to handle AS4_AGGREGATOR as if it were
* AGGREGATOR in that case
*/
if (BGP_DEBUG(as4, AS4))
zlog_debug(
"[AS4] %s BGP not AS4 capable peer send"
" AS4_AGGREGATOR but no AGGREGATOR, will take"
" it as if AGGREGATOR with AS_TRANS had been there",
peer->host);
attr->aggregator_as = as4_aggregator;
/* sweep it under the carpet and simulate a "good"
* AGGREGATOR */
attr->flag |= (ATTR_FLAG_BIT(BGP_ATTR_AGGREGATOR));
}
}
/* need to reconcile NEW_AS_PATH and AS_PATH */
if (!ignore_as4_path
&& (attr->flag & (ATTR_FLAG_BIT(BGP_ATTR_AS4_PATH)))) {
newpath = aspath_reconcile_as4(attr->aspath, as4_path);
aspath_unintern(&attr->aspath);
attr->aspath = aspath_intern(newpath);
}
return BGP_ATTR_PARSE_PROCEED;
}
/* Community attribute. */
static bgp_attr_parse_ret_t
bgp_attr_community(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
if (length == 0) {
attr->community = NULL;
return BGP_ATTR_PARSE_PROCEED;
}
attr->community =
community_parse((u_int32_t *)stream_pnt(peer->curr), length);
/* XXX: fix community_parse to use stream API and remove this */
stream_forward_getp(peer->curr, length);
if (!attr->community)
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_OPT_ATTR_ERR,
args->total);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_COMMUNITIES);
return BGP_ATTR_PARSE_PROCEED;
}
/* Originator ID attribute. */
static bgp_attr_parse_ret_t
bgp_attr_originator_id(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
/* Length check. */
if (length != 4) {
zlog_err("Bad originator ID length %d", length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
attr->originator_id.s_addr = stream_get_ipv4(peer->curr);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_ORIGINATOR_ID);
return BGP_ATTR_PARSE_PROCEED;
}
/* Cluster list attribute. */
static bgp_attr_parse_ret_t
bgp_attr_cluster_list(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
/* Check length. */
if (length % 4) {
zlog_err("Bad cluster list length %d", length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
attr->cluster =
cluster_parse((struct in_addr *)stream_pnt(peer->curr), length);
/* XXX: Fix cluster_parse to use stream API and then remove this */
stream_forward_getp(peer->curr, length);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_CLUSTER_LIST);
return BGP_ATTR_PARSE_PROCEED;
}
/* Multiprotocol reachability information parse. */
int bgp_mp_reach_parse(struct bgp_attr_parser_args *args,
struct bgp_nlri *mp_update)
{
iana_afi_t pkt_afi;
afi_t afi;
iana_safi_t pkt_safi;
safi_t safi;
bgp_size_t nlri_len;
size_t start;
struct stream *s;
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
/* Set end of packet. */
s = BGP_INPUT(peer);
start = stream_get_getp(s);
/* safe to read statically sized header? */
#define BGP_MP_REACH_MIN_SIZE 5
#define LEN_LEFT (length - (stream_get_getp(s) - start))
if ((length > STREAM_READABLE(s)) || (length < BGP_MP_REACH_MIN_SIZE)) {
zlog_info("%s: %s sent invalid length, %lu", __func__,
peer->host, (unsigned long)length);
return BGP_ATTR_PARSE_ERROR_NOTIFYPLS;
}
/* Load AFI, SAFI. */
pkt_afi = stream_getw(s);
pkt_safi = stream_getc(s);
/* Convert AFI, SAFI to internal values, check. */
if (bgp_map_afi_safi_iana2int(pkt_afi, pkt_safi, &afi, &safi)) {
/* Log if AFI or SAFI is unrecognized. This is not an error
* unless
* the attribute is otherwise malformed.
*/
if (bgp_debug_update(peer, NULL, NULL, 0))
zlog_debug(
"%s: MP_REACH received AFI %u or SAFI %u is unrecognized",
peer->host, pkt_afi, pkt_safi);
return BGP_ATTR_PARSE_ERROR;
}
/* Get nexthop length. */
attr->mp_nexthop_len = stream_getc(s);
if (LEN_LEFT < attr->mp_nexthop_len) {
zlog_info(
"%s: %s, MP nexthop length, %u, goes past end of attribute",
__func__, peer->host, attr->mp_nexthop_len);
return BGP_ATTR_PARSE_ERROR_NOTIFYPLS;
}
/* Nexthop length check. */
switch (attr->mp_nexthop_len) {
case BGP_ATTR_NHLEN_VPNV4:
stream_getl(s); /* RD high */
stream_getl(s); /* RD low */
/*
* NOTE: intentional fall through
* - for consistency in rx processing
*
* The following comment is to signal GCC this intention
* and supress the warning
*/
/* FALLTHRU */
case BGP_ATTR_NHLEN_IPV4:
stream_get(&attr->mp_nexthop_global_in, s, IPV4_MAX_BYTELEN);
/* Probably needed for RFC 2283 */
if (attr->nexthop.s_addr == 0)
memcpy(&attr->nexthop.s_addr,
&attr->mp_nexthop_global_in, IPV4_MAX_BYTELEN);
break;
case BGP_ATTR_NHLEN_IPV6_GLOBAL:
case BGP_ATTR_NHLEN_VPNV6_GLOBAL:
if (attr->mp_nexthop_len == BGP_ATTR_NHLEN_VPNV6_GLOBAL) {
stream_getl(s); /* RD high */
stream_getl(s); /* RD low */
}
stream_get(&attr->mp_nexthop_global, s, IPV6_MAX_BYTELEN);
break;
case BGP_ATTR_NHLEN_IPV6_GLOBAL_AND_LL:
case BGP_ATTR_NHLEN_VPNV6_GLOBAL_AND_LL:
if (attr->mp_nexthop_len
== BGP_ATTR_NHLEN_VPNV6_GLOBAL_AND_LL) {
stream_getl(s); /* RD high */
stream_getl(s); /* RD low */
}
stream_get(&attr->mp_nexthop_global, s, IPV6_MAX_BYTELEN);
if (attr->mp_nexthop_len
== BGP_ATTR_NHLEN_VPNV6_GLOBAL_AND_LL) {
stream_getl(s); /* RD high */
stream_getl(s); /* RD low */
}
stream_get(&attr->mp_nexthop_local, s, IPV6_MAX_BYTELEN);
if (!IN6_IS_ADDR_LINKLOCAL(&attr->mp_nexthop_local)) {
char buf1[INET6_ADDRSTRLEN];
char buf2[INET6_ADDRSTRLEN];
if (bgp_debug_update(peer, NULL, NULL, 1))
zlog_debug(
"%s rcvd nexthops %s, %s -- ignoring non-LL value",
peer->host,
inet_ntop(AF_INET6,
&attr->mp_nexthop_global,
buf1, INET6_ADDRSTRLEN),
inet_ntop(AF_INET6,
&attr->mp_nexthop_local, buf2,
INET6_ADDRSTRLEN));
attr->mp_nexthop_len = IPV6_MAX_BYTELEN;
}
break;
default:
zlog_info("%s: (%s) Wrong multiprotocol next hop length: %d",
__func__, peer->host, attr->mp_nexthop_len);
return BGP_ATTR_PARSE_ERROR_NOTIFYPLS;
}
if (!LEN_LEFT) {
zlog_info("%s: (%s) Failed to read SNPA and NLRI(s)", __func__,
peer->host);
return BGP_ATTR_PARSE_ERROR_NOTIFYPLS;
}
{
u_char val;
if ((val = stream_getc(s)))
zlog_warn(
"%s sent non-zero value, %u, for defunct SNPA-length field",
peer->host, val);
}
/* must have nrli_len, what is left of the attribute */
nlri_len = LEN_LEFT;
if (nlri_len > STREAM_READABLE(s)) {
zlog_info("%s: (%s) Failed to read NLRI", __func__, peer->host);
return BGP_ATTR_PARSE_ERROR_NOTIFYPLS;
}
if (!nlri_len) {
zlog_info("%s: (%s) No Reachability, Treating as a EOR marker",
__func__, peer->host);
mp_update->afi = afi;
mp_update->safi = safi;
return BGP_ATTR_PARSE_EOR;
}
mp_update->afi = afi;
mp_update->safi = safi;
mp_update->nlri = stream_pnt(s);
mp_update->length = nlri_len;
stream_forward_getp(s, nlri_len);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_MP_REACH_NLRI);
return BGP_ATTR_PARSE_PROCEED;
#undef LEN_LEFT
}
/* Multiprotocol unreachable parse */
int bgp_mp_unreach_parse(struct bgp_attr_parser_args *args,
struct bgp_nlri *mp_withdraw)
{
struct stream *s;
iana_afi_t pkt_afi;
afi_t afi;
iana_safi_t pkt_safi;
safi_t safi;
u_int16_t withdraw_len;
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
s = peer->curr;
#define BGP_MP_UNREACH_MIN_SIZE 3
if ((length > STREAM_READABLE(s)) || (length < BGP_MP_UNREACH_MIN_SIZE))
return BGP_ATTR_PARSE_ERROR_NOTIFYPLS;
pkt_afi = stream_getw(s);
pkt_safi = stream_getc(s);
/* Convert AFI, SAFI to internal values, check. */
if (bgp_map_afi_safi_iana2int(pkt_afi, pkt_safi, &afi, &safi)) {
/* Log if AFI or SAFI is unrecognized. This is not an error
* unless
* the attribute is otherwise malformed.
*/
if (bgp_debug_update(peer, NULL, NULL, 0))
zlog_debug(
"%s: MP_UNREACH received AFI %u or SAFI %u is unrecognized",
peer->host, pkt_afi, pkt_safi);
return BGP_ATTR_PARSE_ERROR;
}
withdraw_len = length - BGP_MP_UNREACH_MIN_SIZE;
mp_withdraw->afi = afi;
mp_withdraw->safi = safi;
mp_withdraw->nlri = stream_pnt(s);
mp_withdraw->length = withdraw_len;
stream_forward_getp(s, withdraw_len);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_MP_UNREACH_NLRI);
return BGP_ATTR_PARSE_PROCEED;
}
/* Large Community attribute. */
static bgp_attr_parse_ret_t
bgp_attr_large_community(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
/*
* Large community follows new attribute format.
*/
if (length == 0) {
attr->lcommunity = NULL;
/* Empty extcomm doesn't seem to be invalid per se */
return BGP_ATTR_PARSE_PROCEED;
}
attr->lcommunity =
lcommunity_parse((u_int8_t *)stream_pnt(peer->curr), length);
/* XXX: fix ecommunity_parse to use stream API */
stream_forward_getp(peer->curr, length);
if (!attr->lcommunity)
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_OPT_ATTR_ERR,
args->total);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_LARGE_COMMUNITIES);
return BGP_ATTR_PARSE_PROCEED;
}
/* Extended Community attribute. */
static bgp_attr_parse_ret_t
bgp_attr_ext_communities(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
u_char sticky = 0;
if (length == 0) {
attr->ecommunity = NULL;
/* Empty extcomm doesn't seem to be invalid per se */
return BGP_ATTR_PARSE_PROCEED;
}
attr->ecommunity =
ecommunity_parse((u_int8_t *)stream_pnt(peer->curr), length);
/* XXX: fix ecommunity_parse to use stream API */
stream_forward_getp(peer->curr, length);
if (!attr->ecommunity)
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_OPT_ATTR_ERR,
args->total);
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES);
/* Extract MAC mobility sequence number, if any. */
attr->mm_seqnum = bgp_attr_mac_mobility_seqnum(attr, &sticky);
attr->sticky = sticky;
/* Check if this is a Gateway MAC-IP advertisement */
attr->default_gw = bgp_attr_default_gw(attr);
/* Extract the Rmac, if any */
bgp_attr_rmac(attr, &attr->rmac);
return BGP_ATTR_PARSE_PROCEED;
}
/* Parse Tunnel Encap attribute in an UPDATE */
static int bgp_attr_encap(uint8_t type, struct peer *peer, /* IN */
bgp_size_t length, /* IN: attr's length field */
struct attr *attr, /* IN: caller already allocated */
u_char flag, /* IN: attr's flags field */
u_char *startp)
{
bgp_size_t total;
uint16_t tunneltype = 0;
total = length + (CHECK_FLAG(flag, BGP_ATTR_FLAG_EXTLEN) ? 4 : 3);
if (!CHECK_FLAG(flag, BGP_ATTR_FLAG_TRANS)
|| !CHECK_FLAG(flag, BGP_ATTR_FLAG_OPTIONAL)) {
zlog_info(
"Tunnel Encap attribute flag isn't optional and transitive %d",
flag);
bgp_notify_send_with_data(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_ATTR_FLAG_ERR,
startp, total);
return -1;
}
if (BGP_ATTR_ENCAP == type) {
/* read outer TLV type and length */
uint16_t tlv_length;
if (length < 4) {
zlog_info(
"Tunnel Encap attribute not long enough to contain outer T,L");
bgp_notify_send_with_data(
peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_OPT_ATTR_ERR, startp, total);
return -1;
}
tunneltype = stream_getw(BGP_INPUT(peer));
tlv_length = stream_getw(BGP_INPUT(peer));
length -= 4;
if (tlv_length != length) {
zlog_info("%s: tlv_length(%d) != length(%d)", __func__,
tlv_length, length);
}
}
while (length >= 4) {
uint16_t subtype = 0;
uint16_t sublength = 0;
struct bgp_attr_encap_subtlv *tlv;
if (BGP_ATTR_ENCAP == type) {
subtype = stream_getc(BGP_INPUT(peer));
sublength = stream_getc(BGP_INPUT(peer));
length -= 2;
#if ENABLE_BGP_VNC
} else {
subtype = stream_getw(BGP_INPUT(peer));
sublength = stream_getw(BGP_INPUT(peer));
length -= 4;
#endif
}
if (sublength > length) {
zlog_info(
"Tunnel Encap attribute sub-tlv length %d exceeds remaining length %d",
sublength, length);
bgp_notify_send_with_data(
peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_OPT_ATTR_ERR, startp, total);
return -1;
}
/* alloc and copy sub-tlv */
/* TBD make sure these are freed when attributes are released */
tlv = XCALLOC(MTYPE_ENCAP_TLV,
sizeof(struct bgp_attr_encap_subtlv) + sublength);
tlv->type = subtype;
tlv->length = sublength;
stream_get(tlv->value, peer->curr, sublength);
length -= sublength;
/* attach tlv to encap chain */
if (BGP_ATTR_ENCAP == type) {
struct bgp_attr_encap_subtlv *stlv_last;
for (stlv_last = attr->encap_subtlvs;
stlv_last && stlv_last->next;
stlv_last = stlv_last->next)
;
if (stlv_last) {
stlv_last->next = tlv;
} else {
attr->encap_subtlvs = tlv;
}
#if ENABLE_BGP_VNC
} else {
struct bgp_attr_encap_subtlv *stlv_last;
for (stlv_last = attr->vnc_subtlvs;
stlv_last && stlv_last->next;
stlv_last = stlv_last->next)
;
if (stlv_last) {
stlv_last->next = tlv;
} else {
attr->vnc_subtlvs = tlv;
}
#endif
}
}
if (BGP_ATTR_ENCAP == type) {
attr->encap_tunneltype = tunneltype;
}
if (length) {
/* spurious leftover data */
zlog_info(
"Tunnel Encap attribute length is bad: %d leftover octets",
length);
bgp_notify_send_with_data(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_OPT_ATTR_ERR,
startp, total);
return -1;
}
return 0;
}
/* Prefix SID attribute
* draft-ietf-idr-bgp-prefix-sid-05
*/
static bgp_attr_parse_ret_t
bgp_attr_prefix_sid(struct bgp_attr_parser_args *args,
struct bgp_nlri *mp_update)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
int type;
int length;
u_int32_t label_index;
struct in6_addr ipv6_sid;
u_int32_t srgb_base;
u_int32_t srgb_range;
int srgb_count;
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_PREFIX_SID);
type = stream_getc(peer->curr);
length = stream_getw(peer->curr);
if (type == BGP_PREFIX_SID_LABEL_INDEX) {
if (length != BGP_PREFIX_SID_LABEL_INDEX_LENGTH) {
zlog_err(
"Prefix SID label index length is %d instead of %d",
length, BGP_PREFIX_SID_LABEL_INDEX_LENGTH);
return bgp_attr_malformed(
args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
/* Ignore flags and reserved */
stream_getc(peer->curr);
stream_getw(peer->curr);
/* Fetch the label index and see if it is valid. */
label_index = stream_getl(peer->curr);
if (label_index == BGP_INVALID_LABEL_INDEX)
return bgp_attr_malformed(
args, BGP_NOTIFY_UPDATE_OPT_ATTR_ERR,
args->total);
/* Store label index; subsequently, we'll check on
* address-family */
attr->label_index = label_index;
/*
* Ignore the Label index attribute unless received for
* labeled-unicast
* SAFI.
*/
if (!mp_update->length
|| mp_update->safi != SAFI_LABELED_UNICAST)
attr->label_index = BGP_INVALID_LABEL_INDEX;
}
/* Placeholder code for the IPv6 SID type */
else if (type == BGP_PREFIX_SID_IPV6) {
if (length != BGP_PREFIX_SID_IPV6_LENGTH) {
zlog_err("Prefix SID IPv6 length is %d instead of %d",
length, BGP_PREFIX_SID_IPV6_LENGTH);
return bgp_attr_malformed(
args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
/* Ignore reserved */
stream_getc(peer->curr);
stream_getw(peer->curr);
stream_get(&ipv6_sid, peer->curr, 16);
}
/* Placeholder code for the Originator SRGB type */
else if (type == BGP_PREFIX_SID_ORIGINATOR_SRGB) {
/* Ignore flags */
stream_getw(peer->curr);
length -= 2;
if (length % BGP_PREFIX_SID_ORIGINATOR_SRGB_LENGTH) {
zlog_err(
"Prefix SID Originator SRGB length is %d, it must be a multiple of %d ",
length, BGP_PREFIX_SID_ORIGINATOR_SRGB_LENGTH);
return bgp_attr_malformed(
args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
srgb_count = length / BGP_PREFIX_SID_ORIGINATOR_SRGB_LENGTH;
for (int i = 0; i < srgb_count; i++) {
stream_get(&srgb_base, peer->curr, 3);
stream_get(&srgb_range, peer->curr, 3);
}
}
return BGP_ATTR_PARSE_PROCEED;
}
/* PMSI tunnel attribute (RFC 6514)
* Basic validation checks done here.
*/
static bgp_attr_parse_ret_t
bgp_attr_pmsi_tunnel(struct bgp_attr_parser_args *args)
{
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
const bgp_size_t length = args->length;
u_int8_t tnl_type;
/* Verify that the receiver is expecting "ingress replication" as we
* can only support that.
*/
if (length < 2) {
zlog_err("Bad PMSI tunnel attribute length %d", length);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
stream_getc(peer->curr); /* Flags */
tnl_type = stream_getc(peer->curr);
if (tnl_type > PMSI_TNLTYPE_MAX) {
zlog_err("Invalid PMSI tunnel attribute type %d", tnl_type);
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_OPT_ATTR_ERR,
args->total);
}
if (tnl_type == PMSI_TNLTYPE_INGR_REPL) {
if (length != 9) {
zlog_err("Bad PMSI tunnel attribute length %d for IR",
length);
return bgp_attr_malformed(
args, BGP_NOTIFY_UPDATE_ATTR_LENG_ERR,
args->total);
}
}
attr->flag |= ATTR_FLAG_BIT(BGP_ATTR_PMSI_TUNNEL);
attr->pmsi_tnl_type = tnl_type;
/* Forward read pointer of input stream. */
stream_forward_getp(peer->curr, length - 2);
return BGP_ATTR_PARSE_PROCEED;
}
/* BGP unknown attribute treatment. */
static bgp_attr_parse_ret_t bgp_attr_unknown(struct bgp_attr_parser_args *args)
{
bgp_size_t total = args->total;
struct transit *transit;
struct peer *const peer = args->peer;
struct attr *const attr = args->attr;
u_char *const startp = args->startp;
const u_char type = args->type;
const u_char flag = args->flags;
const bgp_size_t length = args->length;
if (bgp_debug_update(peer, NULL, NULL, 1))
zlog_debug(
"%s Unknown attribute is received (type %d, length %d)",
peer->host, type, length);
/* Forward read pointer of input stream. */
stream_forward_getp(peer->curr, length);
/* If any of the mandatory well-known attributes are not recognized,
then the Error Subcode is set to Unrecognized Well-known
Attribute. The Data field contains the unrecognized attribute
(type, length and value). */
if (!CHECK_FLAG(flag, BGP_ATTR_FLAG_OPTIONAL)) {
return bgp_attr_malformed(args, BGP_NOTIFY_UPDATE_UNREC_ATTR,
args->total);
}
/* Unrecognized non-transitive optional attributes must be quietly
ignored and not passed along to other BGP peers. */
if (!CHECK_FLAG(flag, BGP_ATTR_FLAG_TRANS))
return BGP_ATTR_PARSE_PROCEED;
/* If a path with recognized transitive optional attribute is
accepted and passed along to other BGP peers and the Partial bit
in the Attribute Flags octet is set to 1 by some previous AS, it
is not set back to 0 by the current AS. */
SET_FLAG(*startp, BGP_ATTR_FLAG_PARTIAL);
/* Store transitive attribute to the end of attr->transit. */
if (!attr->transit)
attr->transit = XCALLOC(MTYPE_TRANSIT, sizeof(struct transit));
transit = attr->transit;
if (transit->val)
transit->val = XREALLOC(MTYPE_TRANSIT_VAL, transit->val,
transit->length + total);
else
transit->val = XMALLOC(MTYPE_TRANSIT_VAL, total);
memcpy(transit->val + transit->length, startp, total);
transit->length += total;
return BGP_ATTR_PARSE_PROCEED;
}
/* Well-known attribute check. */
static int bgp_attr_check(struct peer *peer, struct attr *attr)
{
u_char type = 0;
/* BGP Graceful-Restart End-of-RIB for IPv4 unicast is signaled as an
* empty UPDATE. */
if (CHECK_FLAG(peer->cap, PEER_CAP_RESTART_RCV) && !attr->flag)
return BGP_ATTR_PARSE_PROCEED;
/* "An UPDATE message that contains the MP_UNREACH_NLRI is not required
to carry any other path attributes.", though if MP_REACH_NLRI or NLRI
are present, it should. Check for any other attribute being present
instead.
*/
if (attr->flag == ATTR_FLAG_BIT(BGP_ATTR_MP_UNREACH_NLRI))
return BGP_ATTR_PARSE_PROCEED;
if (!CHECK_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_ORIGIN)))
type = BGP_ATTR_ORIGIN;
if (!CHECK_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_AS_PATH)))
type = BGP_ATTR_AS_PATH;
/* RFC 2858 makes Next-Hop optional/ignored, if MP_REACH_NLRI is present
* and
* NLRI is empty. We can't easily check NLRI empty here though.
*/
if (!CHECK_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP))
&& !CHECK_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_MP_REACH_NLRI)))
type = BGP_ATTR_NEXT_HOP;
if (peer->sort == BGP_PEER_IBGP
&& !CHECK_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_LOCAL_PREF)))
type = BGP_ATTR_LOCAL_PREF;
if (type) {
zlog_warn("%s Missing well-known attribute %s.", peer->host,
lookup_msg(attr_str, type, NULL));
bgp_notify_send_with_data(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_MISS_ATTR, &type,
1);
return BGP_ATTR_PARSE_ERROR;
}
return BGP_ATTR_PARSE_PROCEED;
}
/* Read attribute of update packet. This function is called from
bgp_update_receive() in bgp_packet.c. */
bgp_attr_parse_ret_t bgp_attr_parse(struct peer *peer, struct attr *attr,
bgp_size_t size, struct bgp_nlri *mp_update,
struct bgp_nlri *mp_withdraw)
{
int ret;
u_char flag = 0;
u_char type = 0;
bgp_size_t length;
u_char *startp, *endp;
u_char *attr_endp;
u_char seen[BGP_ATTR_BITMAP_SIZE];
/* we need the as4_path only until we have synthesized the as_path with
* it */
/* same goes for as4_aggregator */
struct aspath *as4_path = NULL;
as_t as4_aggregator = 0;
struct in_addr as4_aggregator_addr = {.s_addr = 0};
/* Initialize bitmap. */
memset(seen, 0, BGP_ATTR_BITMAP_SIZE);
/* End pointer of BGP attribute. */
endp = BGP_INPUT_PNT(peer) + size;
/* Get attributes to the end of attribute length. */
while (BGP_INPUT_PNT(peer) < endp) {
/* Check remaining length check.*/
if (endp - BGP_INPUT_PNT(peer) < BGP_ATTR_MIN_LEN) {
/* XXX warning: long int format, int arg (arg 5) */
zlog_warn(
"%s: error BGP attribute length %lu is smaller than min len",
peer->host,
(unsigned long)(endp
- stream_pnt(BGP_INPUT(peer))));
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_ATTR_LENG_ERR);
return BGP_ATTR_PARSE_ERROR;
}
/* Fetch attribute flag and type. */
startp = BGP_INPUT_PNT(peer);
/* "The lower-order four bits of the Attribute Flags octet are
unused. They MUST be zero when sent and MUST be ignored when
received." */
flag = 0xF0 & stream_getc(BGP_INPUT(peer));
type = stream_getc(BGP_INPUT(peer));
/* Check whether Extended-Length applies and is in bounds */
if (CHECK_FLAG(flag, BGP_ATTR_FLAG_EXTLEN)
&& ((endp - startp) < (BGP_ATTR_MIN_LEN + 1))) {
zlog_warn(
"%s: Extended length set, but just %lu bytes of attr header",
peer->host,
(unsigned long)(endp
- stream_pnt(BGP_INPUT(peer))));
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_ATTR_LENG_ERR);
return BGP_ATTR_PARSE_ERROR;
}
/* Check extended attribue length bit. */
if (CHECK_FLAG(flag, BGP_ATTR_FLAG_EXTLEN))
length = stream_getw(BGP_INPUT(peer));
else
length = stream_getc(BGP_INPUT(peer));
/* If any attribute appears more than once in the UPDATE
message, then the Error Subcode is set to Malformed Attribute
List. */
if (CHECK_BITMAP(seen, type)) {
zlog_warn(
"%s: error BGP attribute type %d appears twice in a message",
peer->host, type);
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_MAL_ATTR);
return BGP_ATTR_PARSE_ERROR;
}
/* Set type to bitmap to check duplicate attribute. `type' is
unsigned char so it never overflow bitmap range. */
SET_BITMAP(seen, type);
/* Overflow check. */
attr_endp = BGP_INPUT_PNT(peer) + length;
if (attr_endp > endp) {
zlog_warn(
"%s: BGP type %d length %d is too large, attribute total length is %d. attr_endp is %p. endp is %p",
peer->host, type, length, size, attr_endp,
endp);
/*
* RFC 4271 6.3
* If any recognized attribute has an Attribute
* Length that conflicts with the expected length
* (based on the attribute type code), then the
* Error Subcode MUST be set to Attribute Length
* Error. The Data field MUST contain the erroneous
* attribute (type, length, and value).
* ----------
* We do not currently have a good way to determine the
* length of the attribute independent of the length
* received in the message. Instead we send the
* minimum between the amount of data we have and the
* amount specified by the attribute length field.
*
* Instead of directly passing in the packet buffer and
* offset we use the stream_get* functions to read into
* a stack buffer, since they perform bounds checking
* and we are working with untrusted data.
*/
unsigned char ndata[BGP_MAX_PACKET_SIZE];
memset(ndata, 0x00, sizeof(ndata));
size_t lfl =
CHECK_FLAG(flag, BGP_ATTR_FLAG_EXTLEN) ? 2 : 1;
/* Rewind to end of flag field */
stream_forward_getp(BGP_INPUT(peer), -(1 + lfl));
/* Type */
stream_get(&ndata[0], BGP_INPUT(peer), 1);
/* Length */
stream_get(&ndata[1], BGP_INPUT(peer), lfl);
/* Value */
size_t atl = attr_endp - startp;
size_t ndl = MIN(atl, STREAM_READABLE(BGP_INPUT(peer)));
stream_get(&ndata[lfl + 1], BGP_INPUT(peer), ndl);
bgp_notify_send_with_data(
peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_ATTR_LENG_ERR, ndata,
ndl + lfl + 1);
return BGP_ATTR_PARSE_ERROR;
}
struct bgp_attr_parser_args attr_args = {
.peer = peer,
.length = length,
.attr = attr,
.type = type,
.flags = flag,
.startp = startp,
.total = attr_endp - startp,
};
/* If any recognized attribute has Attribute Flags that conflict
with the Attribute Type Code, then the Error Subcode is set
to
Attribute Flags Error. The Data field contains the erroneous
attribute (type, length and value). */
if (bgp_attr_flag_invalid(&attr_args)) {
bgp_attr_parse_ret_t ret;
ret = bgp_attr_malformed(
&attr_args, BGP_NOTIFY_UPDATE_ATTR_FLAG_ERR,
attr_args.total);
if (ret == BGP_ATTR_PARSE_PROCEED)
continue;
return ret;
}
/* OK check attribute and store it's value. */
switch (type) {
case BGP_ATTR_ORIGIN:
ret = bgp_attr_origin(&attr_args);
break;
case BGP_ATTR_AS_PATH:
ret = bgp_attr_aspath(&attr_args);
break;
case BGP_ATTR_AS4_PATH:
ret = bgp_attr_as4_path(&attr_args, &as4_path);
break;
case BGP_ATTR_NEXT_HOP:
ret = bgp_attr_nexthop(&attr_args);
break;
case BGP_ATTR_MULTI_EXIT_DISC:
ret = bgp_attr_med(&attr_args);
break;
case BGP_ATTR_LOCAL_PREF:
ret = bgp_attr_local_pref(&attr_args);
break;
case BGP_ATTR_ATOMIC_AGGREGATE:
ret = bgp_attr_atomic(&attr_args);
break;
case BGP_ATTR_AGGREGATOR:
ret = bgp_attr_aggregator(&attr_args);
break;
case BGP_ATTR_AS4_AGGREGATOR:
ret = bgp_attr_as4_aggregator(&attr_args,
&as4_aggregator,
&as4_aggregator_addr);
break;
case BGP_ATTR_COMMUNITIES:
ret = bgp_attr_community(&attr_args);
break;
case BGP_ATTR_LARGE_COMMUNITIES:
ret = bgp_attr_large_community(&attr_args);
break;
case BGP_ATTR_ORIGINATOR_ID:
ret = bgp_attr_originator_id(&attr_args);
break;
case BGP_ATTR_CLUSTER_LIST:
ret = bgp_attr_cluster_list(&attr_args);
break;
case BGP_ATTR_MP_REACH_NLRI:
ret = bgp_mp_reach_parse(&attr_args, mp_update);
break;
case BGP_ATTR_MP_UNREACH_NLRI:
ret = bgp_mp_unreach_parse(&attr_args, mp_withdraw);
break;
case BGP_ATTR_EXT_COMMUNITIES:
ret = bgp_attr_ext_communities(&attr_args);
break;
#if ENABLE_BGP_VNC
case BGP_ATTR_VNC:
#endif
case BGP_ATTR_ENCAP:
ret = bgp_attr_encap(type, peer, length, attr, flag,
startp);
break;
case BGP_ATTR_PREFIX_SID:
ret = bgp_attr_prefix_sid(&attr_args, mp_update);
break;
case BGP_ATTR_PMSI_TUNNEL:
ret = bgp_attr_pmsi_tunnel(&attr_args);
break;
default:
ret = bgp_attr_unknown(&attr_args);
break;
}
if (ret == BGP_ATTR_PARSE_ERROR_NOTIFYPLS) {
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_MAL_ATTR);
ret = BGP_ATTR_PARSE_ERROR;
}
if (ret == BGP_ATTR_PARSE_EOR) {
if (as4_path)
aspath_unintern(&as4_path);
return ret;
}
/* If hard error occured immediately return to the caller. */
if (ret == BGP_ATTR_PARSE_ERROR) {
zlog_warn("%s: Attribute %s, parse error", peer->host,
lookup_msg(attr_str, type, NULL));
if (as4_path)
aspath_unintern(&as4_path);
return ret;
}
if (ret == BGP_ATTR_PARSE_WITHDRAW) {
zlog_warn(
"%s: Attribute %s, parse error - treating as withdrawal",
peer->host, lookup_msg(attr_str, type, NULL));
if (as4_path)
aspath_unintern(&as4_path);
return ret;
}
/* Check the fetched length. */
if (BGP_INPUT_PNT(peer) != attr_endp) {
zlog_warn("%s: BGP attribute %s, fetch error",
peer->host, lookup_msg(attr_str, type, NULL));
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_ATTR_LENG_ERR);
if (as4_path)
aspath_unintern(&as4_path);
return BGP_ATTR_PARSE_ERROR;
}
}
/* Check final read pointer is same as end pointer. */
if (BGP_INPUT_PNT(peer) != endp) {
zlog_warn("%s: BGP attribute %s, length mismatch", peer->host,
lookup_msg(attr_str, type, NULL));
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_ATTR_LENG_ERR);
if (as4_path)
aspath_unintern(&as4_path);
return BGP_ATTR_PARSE_ERROR;
}
/* Check all mandatory well-known attributes are present */
{
bgp_attr_parse_ret_t ret;
if ((ret = bgp_attr_check(peer, attr)) < 0) {
if (as4_path)
aspath_unintern(&as4_path);
return ret;
}
}
/*
* At this place we can see whether we got AS4_PATH and/or
* AS4_AGGREGATOR from a 16Bit peer and act accordingly.
* We can not do this before we've read all attributes because
* the as4 handling does not say whether AS4_PATH has to be sent
* after AS_PATH or not - and when AS4_AGGREGATOR will be send
* in relationship to AGGREGATOR.
* So, to be defensive, we are not relying on any order and read
* all attributes first, including these 32bit ones, and now,
* afterwards, we look what and if something is to be done for as4.
*
* It is possible to not have AS_PATH, e.g. GR EoR and sole
* MP_UNREACH_NLRI.
*/
/* actually... this doesn't ever return failure currently, but
* better safe than sorry */
if (CHECK_FLAG(attr->flag, ATTR_FLAG_BIT(BGP_ATTR_AS_PATH))
&& bgp_attr_munge_as4_attrs(peer, attr, as4_path, as4_aggregator,
&as4_aggregator_addr)) {
bgp_notify_send(peer, BGP_NOTIFY_UPDATE_ERR,
BGP_NOTIFY_UPDATE_MAL_ATTR);
if (as4_path)
aspath_unintern(&as4_path);
return BGP_ATTR_PARSE_ERROR;
}
/* At this stage, we have done all fiddling with as4, and the
* resulting info is in attr->aggregator resp. attr->aspath
* so we can chuck as4_aggregator and as4_path alltogether in
* order to save memory
*/
if (as4_path) {
aspath_unintern(&as4_path); /* unintern - it is in the hash */
/* The flag that we got this is still there, but that does not
* do any trouble
*/
}
/*
* The "rest" of the code does nothing with as4_aggregator.
* there is no memory attached specifically which is not part
* of the attr.
* so ignoring just means do nothing.
*/
/*
* Finally do the checks on the aspath we did not do yet
* because we waited for a potentially synthesized aspath.
*/
if (attr->flag & (ATTR_FLAG_BIT(BGP_ATTR_AS_PATH))) {
ret = bgp_attr_aspath_check(peer, attr);
if (ret != BGP_ATTR_PARSE_PROCEED)
return ret;
}
/* Finally intern unknown attribute. */
if (attr->transit)
attr->transit = transit_intern(attr->transit);
if (attr->encap_subtlvs)
attr->encap_subtlvs =
encap_intern(attr->encap_subtlvs, ENCAP_SUBTLV_TYPE);
#if ENABLE_BGP_VNC
if (attr->vnc_subtlvs)
attr->vnc_subtlvs =
encap_intern(attr->vnc_subtlvs, VNC_SUBTLV_TYPE);
#endif
return BGP_ATTR_PARSE_PROCEED;
}
size_t bgp_packet_mpattr_start(struct stream *s, struct peer *peer, afi_t afi,
safi_t safi, struct bpacket_attr_vec_arr *vecarr,
struct attr *attr)
{
size_t sizep;
iana_afi_t pkt_afi;
iana_safi_t pkt_safi;
afi_t nh_afi;
/* Set extended bit always to encode the attribute length as 2 bytes */
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_MP_REACH_NLRI);
sizep = stream_get_endp(s);
stream_putw(s, 0); /* Marker: Attribute length. */
/* Convert AFI, SAFI to values for packet. */
bgp_map_afi_safi_int2iana(afi, safi, &pkt_afi, &pkt_safi);
stream_putw(s, pkt_afi); /* AFI */
stream_putc(s, pkt_safi); /* SAFI */
/* Nexthop AFI */
if (afi == AFI_IP
&& (safi == SAFI_UNICAST || safi == SAFI_LABELED_UNICAST))
nh_afi = peer_cap_enhe(peer, afi, safi) ? AFI_IP6 : AFI_IP;
else
nh_afi = BGP_NEXTHOP_AFI_FROM_NHLEN(attr->mp_nexthop_len);
/* Nexthop */
bpacket_attr_vec_arr_set_vec(vecarr, BGP_ATTR_VEC_NH, s, attr);
switch (nh_afi) {
case AFI_IP:
switch (safi) {
case SAFI_UNICAST:
case SAFI_MULTICAST:
case SAFI_LABELED_UNICAST:
stream_putc(s, 4);
stream_put_ipv4(s, attr->nexthop.s_addr);
break;
case SAFI_MPLS_VPN:
stream_putc(s, 12);
stream_putl(s, 0); /* RD = 0, per RFC */
stream_putl(s, 0);
stream_put(s, &attr->mp_nexthop_global_in, 4);
break;
case SAFI_ENCAP:
case SAFI_EVPN:
stream_putc(s, 4);
stream_put(s, &attr->mp_nexthop_global_in, 4);
break;
default:
break;
}
break;
case AFI_IP6:
switch (safi) {
case SAFI_UNICAST:
case SAFI_MULTICAST:
case SAFI_LABELED_UNICAST:
case SAFI_EVPN: {
if (attr->mp_nexthop_len
== BGP_ATTR_NHLEN_IPV6_GLOBAL_AND_LL) {
stream_putc(s,
BGP_ATTR_NHLEN_IPV6_GLOBAL_AND_LL);
stream_put(s, &attr->mp_nexthop_global,
IPV6_MAX_BYTELEN);
stream_put(s, &attr->mp_nexthop_local,
IPV6_MAX_BYTELEN);
} else {
stream_putc(s, IPV6_MAX_BYTELEN);
stream_put(s, &attr->mp_nexthop_global,
IPV6_MAX_BYTELEN);
}
} break;
case SAFI_MPLS_VPN: {
if (attr->mp_nexthop_len
== BGP_ATTR_NHLEN_IPV6_GLOBAL) {
stream_putc(s, 24);
stream_putl(s, 0); /* RD = 0, per RFC */
stream_putl(s, 0);
stream_put(s, &attr->mp_nexthop_global,
IPV6_MAX_BYTELEN);
} else if (attr->mp_nexthop_len
== BGP_ATTR_NHLEN_IPV6_GLOBAL_AND_LL) {
stream_putc(s, 48);
stream_putl(s, 0); /* RD = 0, per RFC */
stream_putl(s, 0);
stream_put(s, &attr->mp_nexthop_global,
IPV6_MAX_BYTELEN);
stream_putl(s, 0); /* RD = 0, per RFC */
stream_putl(s, 0);
stream_put(s, &attr->mp_nexthop_local,
IPV6_MAX_BYTELEN);
}
} break;
case SAFI_ENCAP:
stream_putc(s, IPV6_MAX_BYTELEN);
stream_put(s, &attr->mp_nexthop_global,
IPV6_MAX_BYTELEN);
break;
default:
break;
}
break;
default:
zlog_err(
"Bad nexthop when sening to %s, AFI %u SAFI %u nhlen %d",
peer->host, afi, safi, attr->mp_nexthop_len);
break;
}
/* SNPA */
stream_putc(s, 0);
return sizep;
}
void bgp_packet_mpattr_prefix(struct stream *s, afi_t afi, safi_t safi,
struct prefix *p, struct prefix_rd *prd,
mpls_label_t *label, u_int32_t num_labels,
int addpath_encode, u_int32_t addpath_tx_id,
struct attr *attr)
{
if (safi == SAFI_MPLS_VPN) {
if (addpath_encode)
stream_putl(s, addpath_tx_id);
/* Label, RD, Prefix write. */
stream_putc(s, p->prefixlen + 88);
stream_put(s, label, BGP_LABEL_BYTES);
stream_put(s, prd->val, 8);
stream_put(s, &p->u.prefix, PSIZE(p->prefixlen));
} else if (afi == AFI_L2VPN && safi == SAFI_EVPN) {
/* EVPN prefix - contents depend on type */
bgp_evpn_encode_prefix(s, p, prd, label, num_labels, attr,
addpath_encode, addpath_tx_id);
} else if (safi == SAFI_LABELED_UNICAST) {
/* Prefix write with label. */
stream_put_labeled_prefix(s, p, label);
} else
stream_put_prefix_addpath(s, p, addpath_encode, addpath_tx_id);
}
size_t bgp_packet_mpattr_prefix_size(afi_t afi, safi_t safi, struct prefix *p)
{
int size = PSIZE(p->prefixlen);
if (safi == SAFI_MPLS_VPN)
size += 88;
else if (afi == AFI_L2VPN && safi == SAFI_EVPN)
size += 232; // TODO: Maximum possible for type-2, type-3 and
// type-5
return size;
}
/*
* Encodes the tunnel encapsulation attribute,
* and with ENABLE_BGP_VNC the VNC attribute which uses
* almost the same TLV format
*/
static void bgp_packet_mpattr_tea(struct bgp *bgp, struct peer *peer,
struct stream *s, struct attr *attr,
uint8_t attrtype)
{
unsigned int attrlenfield = 0;
unsigned int attrhdrlen = 0;
struct bgp_attr_encap_subtlv *subtlvs;
struct bgp_attr_encap_subtlv *st;
const char *attrname;
if (!attr || (attrtype == BGP_ATTR_ENCAP
&& (!attr->encap_tunneltype
|| attr->encap_tunneltype == BGP_ENCAP_TYPE_MPLS)))
return;
switch (attrtype) {
case BGP_ATTR_ENCAP:
attrname = "Tunnel Encap";
subtlvs = attr->encap_subtlvs;
if (subtlvs == NULL) /* nothing to do */
return;
/*
* The tunnel encap attr has an "outer" tlv.
* T = tunneltype,
* L = total length of subtlvs,
* V = concatenated subtlvs.
*/
attrlenfield = 2 + 2; /* T + L */
attrhdrlen = 1 + 1; /* subTLV T + L */
break;
#if ENABLE_BGP_VNC
case BGP_ATTR_VNC:
attrname = "VNC";
subtlvs = attr->vnc_subtlvs;
if (subtlvs == NULL) /* nothing to do */
return;
attrlenfield = 0; /* no outer T + L */
attrhdrlen = 2 + 2; /* subTLV T + L */
break;
#endif
default:
assert(0);
}
/* compute attr length */
for (st = subtlvs; st; st = st->next) {
attrlenfield += (attrhdrlen + st->length);
}
if (attrlenfield > 0xffff) {
zlog_info("%s attribute is too long (length=%d), can't send it",
attrname, attrlenfield);
return;
}
if (attrlenfield > 0xff) {
/* 2-octet length field */
stream_putc(s,
BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, attrtype);
stream_putw(s, attrlenfield & 0xffff);
} else {
/* 1-octet length field */
stream_putc(s, BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_OPTIONAL);
stream_putc(s, attrtype);
stream_putc(s, attrlenfield & 0xff);
}
if (attrtype == BGP_ATTR_ENCAP) {
/* write outer T+L */
stream_putw(s, attr->encap_tunneltype);
stream_putw(s, attrlenfield - 4);
}
/* write each sub-tlv */
for (st = subtlvs; st; st = st->next) {
if (attrtype == BGP_ATTR_ENCAP) {
stream_putc(s, st->type);
stream_putc(s, st->length);
#if ENABLE_BGP_VNC
} else {
stream_putw(s, st->type);
stream_putw(s, st->length);
#endif
}
stream_put(s, st->value, st->length);
}
}
void bgp_packet_mpattr_end(struct stream *s, size_t sizep)
{
/* Set MP attribute length. Don't count the (2) bytes used to encode
the attr length */
stream_putw_at(s, sizep, (stream_get_endp(s) - sizep) - 2);
}
/* Make attribute packet. */
bgp_size_t bgp_packet_attribute(struct bgp *bgp, struct peer *peer,
struct stream *s, struct attr *attr,
struct bpacket_attr_vec_arr *vecarr,
struct prefix *p, afi_t afi, safi_t safi,
struct peer *from, struct prefix_rd *prd,
mpls_label_t *label, u_int32_t num_labels,
int addpath_encode, u_int32_t addpath_tx_id)
{
size_t cp;
size_t aspath_sizep;
struct aspath *aspath;
int send_as4_path = 0;
int send_as4_aggregator = 0;
int use32bit = (CHECK_FLAG(peer->cap, PEER_CAP_AS4_RCV)) ? 1 : 0;
if (!bgp)
bgp = peer->bgp;
/* Remember current pointer. */
cp = stream_get_endp(s);
if (p
&& !((afi == AFI_IP && safi == SAFI_UNICAST)
&& !peer_cap_enhe(peer, afi, safi))) {
size_t mpattrlen_pos = 0;
mpattrlen_pos = bgp_packet_mpattr_start(s, peer, afi, safi,
vecarr, attr);
bgp_packet_mpattr_prefix(s, afi, safi, p, prd, label,
num_labels, addpath_encode,
addpath_tx_id, attr);
bgp_packet_mpattr_end(s, mpattrlen_pos);
}
/* Origin attribute. */
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_ORIGIN);
stream_putc(s, 1);
stream_putc(s, attr->origin);
/* AS path attribute. */
/* If remote-peer is EBGP */
if (peer->sort == BGP_PEER_EBGP
&& (!CHECK_FLAG(peer->af_flags[afi][safi],
PEER_FLAG_AS_PATH_UNCHANGED)
|| attr->aspath->segments == NULL)
&& (!CHECK_FLAG(peer->af_flags[afi][safi],
PEER_FLAG_RSERVER_CLIENT))) {
aspath = aspath_dup(attr->aspath);
/* Even though we may not be configured for confederations we
* may have
* RXed an AS_PATH with AS_CONFED_SEQUENCE or AS_CONFED_SET */
aspath = aspath_delete_confed_seq(aspath);
if (CHECK_FLAG(bgp->config, BGP_CONFIG_CONFEDERATION)) {
/* Stuff our path CONFED_ID on the front */
aspath = aspath_add_seq(aspath, bgp->confed_id);
} else {
if (peer->change_local_as) {
/* If replace-as is specified, we only use the
change_local_as when
advertising routes. */
if (!CHECK_FLAG(
peer->flags,
PEER_FLAG_LOCAL_AS_REPLACE_AS)) {
aspath = aspath_add_seq(aspath,
peer->local_as);
}
aspath = aspath_add_seq(aspath,
peer->change_local_as);
} else {
aspath = aspath_add_seq(aspath, peer->local_as);
}
}
} else if (peer->sort == BGP_PEER_CONFED) {
/* A confed member, so we need to do the AS_CONFED_SEQUENCE
* thing */
aspath = aspath_dup(attr->aspath);
aspath = aspath_add_confed_seq(aspath, peer->local_as);
} else
aspath = attr->aspath;
/* If peer is not AS4 capable, then:
* - send the created AS_PATH out as AS4_PATH (optional, transitive),
* but ensure that no AS_CONFED_SEQUENCE and AS_CONFED_SET path
* segment
* types are in it (i.e. exclude them if they are there)
* AND do this only if there is at least one asnum > 65535 in the
* path!
* - send an AS_PATH out, but put 16Bit ASnums in it, not 32bit, and
* change
* all ASnums > 65535 to BGP_AS_TRANS
*/
stream_putc(s, BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_AS_PATH);
aspath_sizep = stream_get_endp(s);
stream_putw(s, 0);
stream_putw_at(s, aspath_sizep, aspath_put(s, aspath, use32bit));
/* OLD session may need NEW_AS_PATH sent, if there are 4-byte ASNs
* in the path
*/
if (!use32bit && aspath_has_as4(aspath))
send_as4_path =
1; /* we'll do this later, at the correct place */
/* Nexthop attribute. */
if (afi == AFI_IP && safi == SAFI_UNICAST
&& !peer_cap_enhe(peer, afi, safi)) {
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_NEXT_HOP)) {
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_NEXT_HOP);
bpacket_attr_vec_arr_set_vec(vecarr, BGP_ATTR_VEC_NH, s,
attr);
stream_putc(s, 4);
stream_put_ipv4(s, attr->nexthop.s_addr);
} else if (peer_cap_enhe(from, afi, safi)) {
/*
* Likely this is the case when an IPv4 prefix was
* received with
* Extended Next-hop capability and now being advertised
* to
* non-ENHE peers.
* Setting the mandatory (ipv4) next-hop attribute here
* to enable
* implicit next-hop self with correct (ipv4 address
* family).
*/
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_NEXT_HOP);
bpacket_attr_vec_arr_set_vec(vecarr, BGP_ATTR_VEC_NH, s,
NULL);
stream_putc(s, 4);
stream_put_ipv4(s, 0);
}
}
/* MED attribute. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_MULTI_EXIT_DISC)
|| bgp->maxmed_active) {
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL);
stream_putc(s, BGP_ATTR_MULTI_EXIT_DISC);
stream_putc(s, 4);
stream_putl(s, (bgp->maxmed_active ? bgp->maxmed_value
: attr->med));
}
/* Local preference. */
if (peer->sort == BGP_PEER_IBGP || peer->sort == BGP_PEER_CONFED) {
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_LOCAL_PREF);
stream_putc(s, 4);
stream_putl(s, attr->local_pref);
}
/* Atomic aggregate. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_ATOMIC_AGGREGATE)) {
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_ATOMIC_AGGREGATE);
stream_putc(s, 0);
}
/* Aggregator. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_AGGREGATOR)) {
/* Common to BGP_ATTR_AGGREGATOR, regardless of ASN size */
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_AGGREGATOR);
if (use32bit) {
/* AS4 capable peer */
stream_putc(s, 8);
stream_putl(s, attr->aggregator_as);
} else {
/* 2-byte AS peer */
stream_putc(s, 6);
/* Is ASN representable in 2-bytes? Or must AS_TRANS be
* used? */
if (attr->aggregator_as > 65535) {
stream_putw(s, BGP_AS_TRANS);
/* we have to send AS4_AGGREGATOR, too.
* we'll do that later in order to send
* attributes in ascending
* order.
*/
send_as4_aggregator = 1;
} else
stream_putw(s, (u_int16_t)attr->aggregator_as);
}
stream_put_ipv4(s, attr->aggregator_addr.s_addr);
}
/* Community attribute. */
if (CHECK_FLAG(peer->af_flags[afi][safi], PEER_FLAG_SEND_COMMUNITY)
&& (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_COMMUNITIES))) {
if (attr->community->size * 4 > 255) {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS
| BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_COMMUNITIES);
stream_putw(s, attr->community->size * 4);
} else {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_COMMUNITIES);
stream_putc(s, attr->community->size * 4);
}
stream_put(s, attr->community->val, attr->community->size * 4);
}
/*
* Large Community attribute.
*/
if (CHECK_FLAG(peer->af_flags[afi][safi],
PEER_FLAG_SEND_LARGE_COMMUNITY)
&& (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_LARGE_COMMUNITIES))) {
if (lcom_length(attr->lcommunity) > 255) {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS
| BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_LARGE_COMMUNITIES);
stream_putw(s, lcom_length(attr->lcommunity));
} else {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_LARGE_COMMUNITIES);
stream_putc(s, lcom_length(attr->lcommunity));
}
stream_put(s, attr->lcommunity->val,
lcom_length(attr->lcommunity));
}
/* Route Reflector. */
if (peer->sort == BGP_PEER_IBGP && from
&& from->sort == BGP_PEER_IBGP) {
/* Originator ID. */
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL);
stream_putc(s, BGP_ATTR_ORIGINATOR_ID);
stream_putc(s, 4);
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_ORIGINATOR_ID))
stream_put_in_addr(s, &attr->originator_id);
else
stream_put_in_addr(s, &from->remote_id);
/* Cluster list. */
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL);
stream_putc(s, BGP_ATTR_CLUSTER_LIST);
if (attr->cluster) {
stream_putc(s, attr->cluster->length + 4);
/* If this peer configuration's parent BGP has
* cluster_id. */
if (bgp->config & BGP_CONFIG_CLUSTER_ID)
stream_put_in_addr(s, &bgp->cluster_id);
else
stream_put_in_addr(s, &bgp->router_id);
stream_put(s, attr->cluster->list,
attr->cluster->length);
} else {
stream_putc(s, 4);
/* If this peer configuration's parent BGP has
* cluster_id. */
if (bgp->config & BGP_CONFIG_CLUSTER_ID)
stream_put_in_addr(s, &bgp->cluster_id);
else
stream_put_in_addr(s, &bgp->router_id);
}
}
/* Extended Communities attribute. */
if (CHECK_FLAG(peer->af_flags[afi][safi], PEER_FLAG_SEND_EXT_COMMUNITY)
&& (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_EXT_COMMUNITIES))) {
if (peer->sort == BGP_PEER_IBGP
|| peer->sort == BGP_PEER_CONFED) {
if (attr->ecommunity->size * 8 > 255) {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS
| BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_EXT_COMMUNITIES);
stream_putw(s, attr->ecommunity->size * 8);
} else {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_EXT_COMMUNITIES);
stream_putc(s, attr->ecommunity->size * 8);
}
stream_put(s, attr->ecommunity->val,
attr->ecommunity->size * 8);
} else {
u_int8_t *pnt;
int tbit;
int ecom_tr_size = 0;
int i;
for (i = 0; i < attr->ecommunity->size; i++) {
pnt = attr->ecommunity->val + (i * 8);
tbit = *pnt;
if (CHECK_FLAG(tbit,
ECOMMUNITY_FLAG_NON_TRANSITIVE))
continue;
ecom_tr_size++;
}
if (ecom_tr_size) {
if (ecom_tr_size * 8 > 255) {
stream_putc(
s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS
| BGP_ATTR_FLAG_EXTLEN);
stream_putc(s,
BGP_ATTR_EXT_COMMUNITIES);
stream_putw(s, ecom_tr_size * 8);
} else {
stream_putc(
s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS);
stream_putc(s,
BGP_ATTR_EXT_COMMUNITIES);
stream_putc(s, ecom_tr_size * 8);
}
for (i = 0; i < attr->ecommunity->size; i++) {
pnt = attr->ecommunity->val + (i * 8);
tbit = *pnt;
if (CHECK_FLAG(
tbit,
ECOMMUNITY_FLAG_NON_TRANSITIVE))
continue;
stream_put(s, pnt, 8);
}
}
}
}
/* Label index attribute. */
if (safi == SAFI_LABELED_UNICAST) {
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_PREFIX_SID)) {
u_int32_t label_index;
label_index = attr->label_index;
if (label_index != BGP_INVALID_LABEL_INDEX) {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_PREFIX_SID);
stream_putc(s, 10);
stream_putc(s, BGP_PREFIX_SID_LABEL_INDEX);
stream_putw(s,
BGP_PREFIX_SID_LABEL_INDEX_LENGTH);
stream_putc(s, 0); // reserved
stream_putw(s, 0); // flags
stream_putl(s, label_index);
}
}
}
if (send_as4_path) {
/* If the peer is NOT As4 capable, AND */
/* there are ASnums > 65535 in path THEN
* give out AS4_PATH */
/* Get rid of all AS_CONFED_SEQUENCE and AS_CONFED_SET
* path segments!
* Hm, I wonder... confederation things *should* only be at
* the beginning of an aspath, right? Then we should use
* aspath_delete_confed_seq for this, because it is already
* there! (JK)
* Folks, talk to me: what is reasonable here!?
*/
aspath = aspath_delete_confed_seq(aspath);
stream_putc(s,
BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_AS4_PATH);
aspath_sizep = stream_get_endp(s);
stream_putw(s, 0);
stream_putw_at(s, aspath_sizep, aspath_put(s, aspath, 1));
}
if (aspath != attr->aspath)
aspath_free(aspath);
if (send_as4_aggregator) {
/* send AS4_AGGREGATOR, at this place */
/* this section of code moved here in order to ensure the
* correct
* *ascending* order of attributes
*/
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_AS4_AGGREGATOR);
stream_putc(s, 8);
stream_putl(s, attr->aggregator_as);
stream_put_ipv4(s, attr->aggregator_addr.s_addr);
}
if (((afi == AFI_IP || afi == AFI_IP6)
&& (safi == SAFI_ENCAP || safi == SAFI_MPLS_VPN))
|| (afi == AFI_L2VPN && safi == SAFI_EVPN)) {
/* Tunnel Encap attribute */
bgp_packet_mpattr_tea(bgp, peer, s, attr, BGP_ATTR_ENCAP);
#if ENABLE_BGP_VNC
/* VNC attribute */
bgp_packet_mpattr_tea(bgp, peer, s, attr, BGP_ATTR_VNC);
#endif
}
/* PMSI Tunnel */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_PMSI_TUNNEL)) {
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_PMSI_TUNNEL);
stream_putc(s, 9); // Length
stream_putc(s, 0); // Flags
stream_putc(s, PMSI_TNLTYPE_INGR_REPL); // IR (6)
stream_put(s, &(attr->label),
BGP_LABEL_BYTES); // MPLS Label / VXLAN VNI
stream_put_ipv4(s, attr->nexthop.s_addr);
// Unicast tunnel endpoint IP address
}
/* Unknown transit attribute. */
if (attr->transit)
stream_put(s, attr->transit->val, attr->transit->length);
/* Return total size of attribute. */
return stream_get_endp(s) - cp;
}
size_t bgp_packet_mpunreach_start(struct stream *s, afi_t afi, safi_t safi)
{
unsigned long attrlen_pnt;
iana_afi_t pkt_afi;
iana_safi_t pkt_safi;
/* Set extended bit always to encode the attribute length as 2 bytes */
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_MP_UNREACH_NLRI);
attrlen_pnt = stream_get_endp(s);
stream_putw(s, 0); /* Length of this attribute. */
/* Convert AFI, SAFI to values for packet. */
bgp_map_afi_safi_int2iana(afi, safi, &pkt_afi, &pkt_safi);
stream_putw(s, pkt_afi);
stream_putc(s, pkt_safi);
return attrlen_pnt;
}
void bgp_packet_mpunreach_prefix(struct stream *s, struct prefix *p, afi_t afi,
safi_t safi, struct prefix_rd *prd,
mpls_label_t *label, u_int32_t num_labels,
int addpath_encode, u_int32_t addpath_tx_id,
struct attr *attr)
{
u_char wlabel[3] = {0x80, 0x00, 0x00};
if (safi == SAFI_LABELED_UNICAST) {
label = (mpls_label_t *)wlabel;
num_labels = 1;
}
return bgp_packet_mpattr_prefix(s, afi, safi, p, prd, label, num_labels,
addpath_encode, addpath_tx_id, attr);
}
void bgp_packet_mpunreach_end(struct stream *s, size_t attrlen_pnt)
{
bgp_packet_mpattr_end(s, attrlen_pnt);
}
/* Initialization of attribute. */
void bgp_attr_init(void)
{
aspath_init();
attrhash_init();
community_init();
ecommunity_init();
lcommunity_init();
cluster_init();
transit_init();
encap_init();
}
void bgp_attr_finish(void)
{
aspath_finish();
attrhash_finish();
community_finish();
ecommunity_finish();
lcommunity_finish();
cluster_finish();
transit_finish();
encap_finish();
}
/* Make attribute packet. */
void bgp_dump_routes_attr(struct stream *s, struct attr *attr,
struct prefix *prefix)
{
unsigned long cp;
unsigned long len;
size_t aspath_lenp;
struct aspath *aspath;
int addpath_encode = 0;
u_int32_t addpath_tx_id = 0;
/* Remember current pointer. */
cp = stream_get_endp(s);
/* Place holder of length. */
stream_putw(s, 0);
/* Origin attribute. */
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_ORIGIN);
stream_putc(s, 1);
stream_putc(s, attr->origin);
aspath = attr->aspath;
stream_putc(s, BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_AS_PATH);
aspath_lenp = stream_get_endp(s);
stream_putw(s, 0);
stream_putw_at(s, aspath_lenp, aspath_put(s, aspath, 1));
/* Nexthop attribute. */
/* If it's an IPv6 prefix, don't dump the IPv4 nexthop to save space */
if (prefix != NULL && prefix->family != AF_INET6) {
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_NEXT_HOP);
stream_putc(s, 4);
stream_put_ipv4(s, attr->nexthop.s_addr);
}
/* MED attribute. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_MULTI_EXIT_DISC)) {
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL);
stream_putc(s, BGP_ATTR_MULTI_EXIT_DISC);
stream_putc(s, 4);
stream_putl(s, attr->med);
}
/* Local preference. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_LOCAL_PREF)) {
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_LOCAL_PREF);
stream_putc(s, 4);
stream_putl(s, attr->local_pref);
}
/* Atomic aggregate. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_ATOMIC_AGGREGATE)) {
stream_putc(s, BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_ATOMIC_AGGREGATE);
stream_putc(s, 0);
}
/* Aggregator. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_AGGREGATOR)) {
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_AGGREGATOR);
stream_putc(s, 8);
stream_putl(s, attr->aggregator_as);
stream_put_ipv4(s, attr->aggregator_addr.s_addr);
}
/* Community attribute. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_COMMUNITIES)) {
if (attr->community->size * 4 > 255) {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS
| BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_COMMUNITIES);
stream_putw(s, attr->community->size * 4);
} else {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_COMMUNITIES);
stream_putc(s, attr->community->size * 4);
}
stream_put(s, attr->community->val, attr->community->size * 4);
}
/* Large Community attribute. */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_LARGE_COMMUNITIES)) {
if (lcom_length(attr->lcommunity) > 255) {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS
| BGP_ATTR_FLAG_EXTLEN);
stream_putc(s, BGP_ATTR_LARGE_COMMUNITIES);
stream_putw(s, lcom_length(attr->lcommunity));
} else {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_LARGE_COMMUNITIES);
stream_putc(s, lcom_length(attr->lcommunity));
}
stream_put(s, attr->lcommunity->val,
lcom_length(attr->lcommunity));
}
/* Add a MP_NLRI attribute to dump the IPv6 next hop */
if (prefix != NULL && prefix->family == AF_INET6
&& (attr->mp_nexthop_len == BGP_ATTR_NHLEN_IPV6_GLOBAL
|| attr->mp_nexthop_len == BGP_ATTR_NHLEN_IPV6_GLOBAL_AND_LL)) {
int sizep;
stream_putc(s, BGP_ATTR_FLAG_OPTIONAL);
stream_putc(s, BGP_ATTR_MP_REACH_NLRI);
sizep = stream_get_endp(s);
/* MP header */
stream_putc(s, 0); /* Marker: Attribute length. */
stream_putw(s, AFI_IP6); /* AFI */
stream_putc(s, SAFI_UNICAST); /* SAFI */
/* Next hop */
stream_putc(s, attr->mp_nexthop_len);
stream_put(s, &attr->mp_nexthop_global, IPV6_MAX_BYTELEN);
if (attr->mp_nexthop_len == BGP_ATTR_NHLEN_IPV6_GLOBAL_AND_LL)
stream_put(s, &attr->mp_nexthop_local,
IPV6_MAX_BYTELEN);
/* SNPA */
stream_putc(s, 0);
/* Prefix */
stream_put_prefix_addpath(s, prefix, addpath_encode,
addpath_tx_id);
/* Set MP attribute length. */
stream_putc_at(s, sizep, (stream_get_endp(s) - sizep) - 1);
}
/* Prefix SID */
if (attr->flag & ATTR_FLAG_BIT(BGP_ATTR_PREFIX_SID)) {
if (attr->label_index != BGP_INVALID_LABEL_INDEX) {
stream_putc(s,
BGP_ATTR_FLAG_OPTIONAL
| BGP_ATTR_FLAG_TRANS);
stream_putc(s, BGP_ATTR_PREFIX_SID);
stream_putc(s, 10);
stream_putc(s, BGP_PREFIX_SID_LABEL_INDEX);
stream_putc(s, BGP_PREFIX_SID_LABEL_INDEX_LENGTH);
stream_putc(s, 0); // reserved
stream_putw(s, 0); // flags
stream_putl(s, attr->label_index);
}
}
/* Return total size of attribute. */
len = stream_get_endp(s) - cp - 2;
stream_putw_at(s, cp, len);
}
|