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|
/* $OpenBSD: printconf.c,v 1.142 2020/04/23 16:13:11 claudio Exp $ */
/*
* Copyright (c) 2003, 2004 Henning Brauer <henning@openbsd.org>
* Copyright (c) 2016 Job Snijders <job@instituut.net>
* Copyright (c) 2016 Peter Hessler <phessler@openbsd.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA, PROFITS OR MIND, WHETHER IN
* AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
* OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "bgpd.h"
#include "session.h"
#include "rde.h"
#include "log.h"
void print_prefix(struct filter_prefix *p);
const char *community_type(struct community *c);
void print_community(struct community *c);
void print_origin(u_int8_t);
void print_set(struct filter_set_head *);
void print_mainconf(struct bgpd_config *);
void print_l3vpn_targets(struct filter_set_head *, const char *);
void print_l3vpn(struct l3vpn *);
const char *print_af(u_int8_t);
void print_network(struct network_config *, const char *);
void print_as_sets(struct as_set_head *);
void print_prefixsets(struct prefixset_head *);
void print_originsets(struct prefixset_head *);
void print_roa(struct prefixset_tree *p);
void print_peer(struct peer_config *, struct bgpd_config *,
const char *);
const char *print_auth_alg(u_int8_t);
const char *print_enc_alg(u_int8_t);
void print_announce(struct peer_config *, const char *);
void print_as(struct filter_rule *);
void print_rule(struct bgpd_config *, struct filter_rule *);
const char *mrt_type(enum mrt_type);
void print_mrt(struct bgpd_config *, u_int32_t, u_int32_t,
const char *, const char *);
void print_groups(struct bgpd_config *);
int peer_compare(const void *, const void *);
void
print_prefix(struct filter_prefix *p)
{
u_int8_t max_len = 0;
switch (p->addr.aid) {
case AID_INET:
case AID_VPN_IPv4:
max_len = 32;
break;
case AID_INET6:
case AID_VPN_IPv6:
max_len = 128;
break;
case AID_UNSPEC:
/* no prefix to print */
return;
}
printf("%s/%u", log_addr(&p->addr), p->len);
switch (p->op) {
case OP_NONE:
break;
case OP_NE:
printf(" prefixlen != %u", p->len_min);
break;
case OP_XRANGE:
printf(" prefixlen %u >< %u ", p->len_min, p->len_max);
break;
case OP_RANGE:
if (p->len_min == p->len_max && p->len != p->len_min)
printf(" prefixlen = %u", p->len_min);
else if (p->len == p->len_min && p->len_max == max_len)
printf(" or-longer");
else if (p->len == p->len_min && p->len != p->len_max)
printf(" maxlen %u", p->len_max);
else if (p->len_max == max_len)
printf(" prefixlen >= %u", p->len_min);
else
printf(" prefixlen %u - %u", p->len_min, p->len_max);
break;
default:
printf(" prefixlen %u ??? %u", p->len_min, p->len_max);
break;
}
}
const char *
community_type(struct community *c)
{
switch ((u_int8_t)c->flags) {
case COMMUNITY_TYPE_BASIC:
return "community";
case COMMUNITY_TYPE_LARGE:
return "large-community";
case COMMUNITY_TYPE_EXT:
return "ext-community";
default:
return "???";
}
}
void
print_community(struct community *c)
{
struct in_addr addr;
short type;
u_int8_t subtype;
switch ((u_int8_t)c->flags) {
case COMMUNITY_TYPE_BASIC:
switch ((c->flags >> 8) & 0xff) {
case COMMUNITY_ANY:
printf("*:");
break;
case COMMUNITY_NEIGHBOR_AS:
printf("neighbor-as:");
break;
case COMMUNITY_LOCAL_AS:
printf("local-as:");
break;
default:
printf("%u:", c->data1);
break;
}
switch ((c->flags >> 16) & 0xff) {
case COMMUNITY_ANY:
printf("* ");
break;
case COMMUNITY_NEIGHBOR_AS:
printf("neighbor-as ");
break;
case COMMUNITY_LOCAL_AS:
printf("local-as ");
break;
default:
printf("%u ", c->data2);
break;
}
break;
case COMMUNITY_TYPE_LARGE:
switch ((c->flags >> 8) & 0xff) {
case COMMUNITY_ANY:
printf("*:");
break;
case COMMUNITY_NEIGHBOR_AS:
printf("neighbor-as:");
break;
case COMMUNITY_LOCAL_AS:
printf("local-as:");
break;
default:
printf("%u:", c->data1);
break;
}
switch ((c->flags >> 16) & 0xff) {
case COMMUNITY_ANY:
printf("*:");
break;
case COMMUNITY_NEIGHBOR_AS:
printf("neighbor-as:");
break;
case COMMUNITY_LOCAL_AS:
printf("local-as:");
break;
default:
printf("%u:", c->data2);
break;
}
switch ((c->flags >> 24) & 0xff) {
case COMMUNITY_ANY:
printf("* ");
break;
case COMMUNITY_NEIGHBOR_AS:
printf("neighbor-as ");
break;
case COMMUNITY_LOCAL_AS:
printf("local-as ");
break;
default:
printf("%u ", c->data3);
break;
}
break;
case COMMUNITY_TYPE_EXT:
if ((c->flags >> 24 & 0xff) == COMMUNITY_ANY) {
printf("* * ");
break;
}
type = (int32_t)c->data3 >> 8;
subtype = c->data3;
printf("%s ", log_ext_subtype(type, subtype));
if ((c->flags >> 8 & 0xff) == COMMUNITY_ANY) {
printf("* ");
break;
}
switch (type) {
case EXT_COMMUNITY_TRANS_TWO_AS:
case EXT_COMMUNITY_TRANS_FOUR_AS:
if ((c->flags >> 8 & 0xff) == COMMUNITY_NEIGHBOR_AS)
printf("neighbor-as:");
else if ((c->flags >> 8 & 0xff) == COMMUNITY_LOCAL_AS)
printf("local-as:");
else
printf("%s:", log_as(c->data1));
break;
case EXT_COMMUNITY_TRANS_IPV4:
addr.s_addr = htonl(c->data1);
printf("%s:", inet_ntoa(addr));
break;
}
switch (type) {
case EXT_COMMUNITY_TRANS_TWO_AS:
case EXT_COMMUNITY_TRANS_FOUR_AS:
case EXT_COMMUNITY_TRANS_IPV4:
if ((c->flags >> 16 & 0xff) == COMMUNITY_ANY)
printf("* ");
else if ((c->flags >> 16 & 0xff) ==
COMMUNITY_NEIGHBOR_AS)
printf("neighbor-as ");
else if ((c->flags >> 16 & 0xff) == COMMUNITY_LOCAL_AS)
printf("local-as ");
else
printf("%u ", c->data2);
break;
case EXT_COMMUNITY_NON_TRANS_OPAQUE:
if (subtype == EXT_COMMUNITY_SUBTYPE_OVS) {
switch (c->data2) {
case EXT_COMMUNITY_OVS_VALID:
printf("valid ");
break;
case EXT_COMMUNITY_OVS_NOTFOUND:
printf("not-found ");
break;
case EXT_COMMUNITY_OVS_INVALID:
printf("invalid ");
break;
}
break;
}
printf("0x%x%08x ", c->data1 & 0xffff, c->data2);
break;
case EXT_COMMUNITY_TRANS_OPAQUE:
case EXT_COMMUNITY_TRANS_EVPN:
default:
printf("0x%x%08x ", c->data1 & 0xffff, c->data2);
break;
}
}
}
void
print_origin(u_int8_t o)
{
if (o == ORIGIN_IGP)
printf("igp ");
else if (o == ORIGIN_EGP)
printf("egp ");
else if (o == ORIGIN_INCOMPLETE)
printf("incomplete ");
else
printf("%u ", o);
}
void
print_set(struct filter_set_head *set)
{
struct filter_set *s;
if (TAILQ_EMPTY(set))
return;
printf("set { ");
TAILQ_FOREACH(s, set, entry) {
switch (s->type) {
case ACTION_SET_LOCALPREF:
printf("localpref %u ", s->action.metric);
break;
case ACTION_SET_RELATIVE_LOCALPREF:
printf("localpref %+d ", s->action.relative);
break;
case ACTION_SET_MED:
printf("metric %u ", s->action.metric);
break;
case ACTION_SET_RELATIVE_MED:
printf("metric %+d ", s->action.relative);
break;
case ACTION_SET_WEIGHT:
printf("weight %u ", s->action.metric);
break;
case ACTION_SET_RELATIVE_WEIGHT:
printf("weight %+d ", s->action.relative);
break;
case ACTION_SET_NEXTHOP:
printf("nexthop %s ", log_addr(&s->action.nexthop));
break;
case ACTION_SET_NEXTHOP_REJECT:
printf("nexthop reject ");
break;
case ACTION_SET_NEXTHOP_BLACKHOLE:
printf("nexthop blackhole ");
break;
case ACTION_SET_NEXTHOP_NOMODIFY:
printf("nexthop no-modify ");
break;
case ACTION_SET_NEXTHOP_SELF:
printf("nexthop self ");
break;
case ACTION_SET_PREPEND_SELF:
printf("prepend-self %u ", s->action.prepend);
break;
case ACTION_SET_PREPEND_PEER:
printf("prepend-neighbor %u ", s->action.prepend);
break;
case ACTION_SET_AS_OVERRIDE:
printf("as-override ");
break;
case ACTION_DEL_COMMUNITY:
printf("%s delete ",
community_type(&s->action.community));
print_community(&s->action.community);
break;
case ACTION_SET_COMMUNITY:
printf("%s ", community_type(&s->action.community));
print_community(&s->action.community);
break;
case ACTION_PFTABLE:
printf("pftable %s ", s->action.pftable);
break;
case ACTION_RTLABEL:
printf("rtlabel %s ", s->action.rtlabel);
break;
case ACTION_SET_ORIGIN:
printf("origin ");
print_origin(s->action.origin);
break;
case ACTION_RTLABEL_ID:
case ACTION_PFTABLE_ID:
/* not possible */
printf("king bula saiz: config broken");
break;
}
}
printf("}");
}
void
print_mainconf(struct bgpd_config *conf)
{
struct in_addr ina;
struct listen_addr *la;
printf("AS %s", log_as(conf->as));
if (conf->as > USHRT_MAX && conf->short_as != AS_TRANS)
printf(" %u", conf->short_as);
ina.s_addr = conf->bgpid;
printf("\nrouter-id %s\n", inet_ntoa(ina));
printf("socket \"%s\"\n", conf->csock);
if (conf->rcsock)
printf("socket \"%s\" restricted\n", conf->rcsock);
if (conf->holdtime != INTERVAL_HOLD)
printf("holdtime %u\n", conf->holdtime);
if (conf->min_holdtime != MIN_HOLDTIME)
printf("holdtime min %u\n", conf->min_holdtime);
if (conf->connectretry != INTERVAL_CONNECTRETRY)
printf("connect-retry %u\n", conf->connectretry);
if (conf->flags & BGPD_FLAG_DECISION_ROUTEAGE)
printf("rde route-age evaluate\n");
if (conf->flags & BGPD_FLAG_DECISION_MED_ALWAYS)
printf("rde med compare always\n");
if (conf->log & BGPD_LOG_UPDATES)
printf("log updates\n");
TAILQ_FOREACH(la, conf->listen_addrs, entry)
printf("listen on %s\n",
log_sockaddr((struct sockaddr *)&la->sa, la->sa_len));
if (conf->flags & BGPD_FLAG_NEXTHOP_BGP)
printf("nexthop qualify via bgp\n");
if (conf->flags & BGPD_FLAG_NEXTHOP_DEFAULT)
printf("nexthop qualify via default\n");
if (conf->fib_priority != RTP_BGP)
printf("fib-priority %hhu\n", conf->fib_priority);
printf("\n");
}
void
print_l3vpn_targets(struct filter_set_head *set, const char *tgt)
{
struct filter_set *s;
TAILQ_FOREACH(s, set, entry) {
printf("\t%s ", tgt);
print_community(&s->action.community);
printf("\n");
}
}
void
print_l3vpn(struct l3vpn *vpn)
{
struct network *n;
printf("vpn \"%s\" on %s {\n", vpn->descr, vpn->ifmpe);
printf("\t%s\n", log_rd(vpn->rd));
print_l3vpn_targets(&vpn->export, "export-target");
print_l3vpn_targets(&vpn->import, "import-target");
if (vpn->flags & F_RIB_NOFIBSYNC)
printf("\tfib-update no\n");
else
printf("\tfib-update yes\n");
TAILQ_FOREACH(n, &vpn->net_l, entry)
print_network(&n->net, "\t");
printf("}\n");
}
const char *
print_af(u_int8_t aid)
{
/*
* Hack around the fact that aid2str() will return "IPv4 unicast"
* for AID_INET. AID_INET and AID_INET6 need special handling and
* the other AID should never end up here (at least for now).
*/
if (aid == AID_INET)
return ("inet");
if (aid == AID_INET6)
return ("inet6");
return (aid2str(aid));
}
void
print_network(struct network_config *n, const char *c)
{
switch (n->type) {
case NETWORK_STATIC:
printf("%snetwork %s static", c, print_af(n->prefix.aid));
break;
case NETWORK_CONNECTED:
printf("%snetwork %s connected", c, print_af(n->prefix.aid));
break;
case NETWORK_RTLABEL:
printf("%snetwork %s rtlabel \"%s\"", c,
print_af(n->prefix.aid), rtlabel_id2name(n->rtlabel));
break;
case NETWORK_PRIORITY:
printf("%snetwork %s priority %d", c,
print_af(n->prefix.aid), n->priority);
break;
case NETWORK_PREFIXSET:
printf("%snetwork prefix-set %s", c, n->psname);
break;
default:
printf("%snetwork %s/%u", c, log_addr(&n->prefix),
n->prefixlen);
break;
}
if (!TAILQ_EMPTY(&n->attrset))
printf(" ");
print_set(&n->attrset);
printf("\n");
}
void
print_as_sets(struct as_set_head *as_sets)
{
struct as_set *aset;
u_int32_t *as;
size_t i, n;
int len;
SIMPLEQ_FOREACH(aset, as_sets, entry) {
printf("as-set \"%s\" {\n\t", aset->name);
as = set_get(aset->set, &n);
for (i = 0, len = 8; i < n; i++) {
if (len > 72) {
printf("\n\t");
len = 8;
}
len += printf("%u ", as[i]);
}
printf("\n}\n\n");
}
}
void
print_prefixsets(struct prefixset_head *psh)
{
struct prefixset *ps;
struct prefixset_item *psi;
SIMPLEQ_FOREACH(ps, psh, entry) {
int count = 0;
printf("prefix-set \"%s\" {", ps->name);
RB_FOREACH(psi, prefixset_tree, &ps->psitems) {
if (count++ % 2 == 0)
printf("\n\t");
else
printf(", ");
print_prefix(&psi->p);
}
printf("\n}\n\n");
}
}
void
print_originsets(struct prefixset_head *psh)
{
struct prefixset *ps;
struct prefixset_item *psi;
struct roa_set *rs;
size_t i, n;
SIMPLEQ_FOREACH(ps, psh, entry) {
printf("origin-set \"%s\" {", ps->name);
RB_FOREACH(psi, prefixset_tree, &ps->psitems) {
rs = set_get(psi->set, &n);
for (i = 0; i < n; i++) {
printf("\n\t");
print_prefix(&psi->p);
if (psi->p.len != rs[i].maxlen)
printf(" maxlen %u", rs[i].maxlen);
printf(" source-as %u", rs[i].as);
}
}
printf("\n}\n\n");
}
}
void
print_roa(struct prefixset_tree *p)
{
struct prefixset_item *psi;
struct roa_set *rs;
size_t i, n;
if (RB_EMPTY(p))
return;
printf("roa-set {");
RB_FOREACH(psi, prefixset_tree, p) {
rs = set_get(psi->set, &n);
for (i = 0; i < n; i++) {
printf("\n\t");
print_prefix(&psi->p);
if (psi->p.len != rs[i].maxlen)
printf(" maxlen %u", rs[i].maxlen);
printf(" source-as %u", rs[i].as);
}
}
printf("\n}\n\n");
}
void
print_peer(struct peer_config *p, struct bgpd_config *conf, const char *c)
{
char *method;
struct in_addr ina;
if ((p->remote_addr.aid == AID_INET && p->remote_masklen != 32) ||
(p->remote_addr.aid == AID_INET6 && p->remote_masklen != 128))
printf("%sneighbor %s/%u {\n", c, log_addr(&p->remote_addr),
p->remote_masklen);
else
printf("%sneighbor %s {\n", c, log_addr(&p->remote_addr));
if (p->descr[0])
printf("%s\tdescr \"%s\"\n", c, p->descr);
if (p->rib[0])
printf("%s\trib \"%s\"\n", c, p->rib);
if (p->remote_as)
printf("%s\tremote-as %s\n", c, log_as(p->remote_as));
if (p->local_as != conf->as) {
printf("%s\tlocal-as %s", c, log_as(p->local_as));
if (p->local_as > USHRT_MAX && p->local_short_as != AS_TRANS)
printf(" %u", p->local_short_as);
printf("\n");
}
if (p->down)
printf("%s\tdown\n", c);
if (p->distance > 1)
printf("%s\tmultihop %u\n", c, p->distance);
if (p->passive)
printf("%s\tpassive\n", c);
if (p->local_addr_v4.aid)
printf("%s\tlocal-address %s\n", c,
log_addr(&p->local_addr_v4));
if (p->local_addr_v6.aid)
printf("%s\tlocal-address %s\n", c,
log_addr(&p->local_addr_v6));
if (p->max_prefix) {
printf("%s\tmax-prefix %u", c, p->max_prefix);
if (p->max_prefix_restart)
printf(" restart %u", p->max_prefix_restart);
printf("\n");
}
if (p->max_out_prefix) {
printf("%s\tmax-prefix %u out", c, p->max_out_prefix);
if (p->max_out_prefix_restart)
printf(" restart %u", p->max_out_prefix_restart);
printf("\n");
}
if (p->holdtime)
printf("%s\tholdtime %u\n", c, p->holdtime);
if (p->min_holdtime)
printf("%s\tholdtime min %u\n", c, p->min_holdtime);
if (p->announce_capa == 0)
printf("%s\tannounce capabilities no\n", c);
if (p->capabilities.refresh == 0)
printf("%s\tannounce refresh no\n", c);
if (p->capabilities.grestart.restart == 0)
printf("%s\tannounce restart no\n", c);
if (p->capabilities.as4byte == 0)
printf("%s\tannounce as4byte no\n", c);
if (p->export_type == EXPORT_NONE)
printf("%s\texport none\n", c);
else if (p->export_type == EXPORT_DEFAULT_ROUTE)
printf("%s\texport default-route\n", c);
if (p->enforce_as == ENFORCE_AS_ON)
printf("%s\tenforce neighbor-as yes\n", c);
else
printf("%s\tenforce neighbor-as no\n", c);
if (p->enforce_local_as == ENFORCE_AS_ON)
printf("%s\tenforce local-as yes\n", c);
else
printf("%s\tenforce local-as no\n", c);
if (p->reflector_client) {
if (conf->clusterid == 0)
printf("%s\troute-reflector\n", c);
else {
ina.s_addr = conf->clusterid;
printf("%s\troute-reflector %s\n", c,
inet_ntoa(ina));
}
}
if (p->demote_group[0])
printf("%s\tdemote %s\n", c, p->demote_group);
if (p->if_depend[0])
printf("%s\tdepend on \"%s\"\n", c, p->if_depend);
if (p->flags & PEERFLAG_TRANS_AS)
printf("%s\ttransparent-as yes\n", c);
if (p->flags & PEERFLAG_LOG_UPDATES)
printf("%s\tlog updates\n", c);
if (p->auth.method == AUTH_MD5SIG)
printf("%s\ttcp md5sig\n", c);
else if (p->auth.method == AUTH_IPSEC_MANUAL_ESP ||
p->auth.method == AUTH_IPSEC_MANUAL_AH) {
if (p->auth.method == AUTH_IPSEC_MANUAL_ESP)
method = "esp";
else
method = "ah";
printf("%s\tipsec %s in spi %u %s XXXXXX", c, method,
p->auth.spi_in, print_auth_alg(p->auth.auth_alg_in));
if (p->auth.enc_alg_in)
printf(" %s XXXXXX", print_enc_alg(p->auth.enc_alg_in));
printf("\n");
printf("%s\tipsec %s out spi %u %s XXXXXX", c, method,
p->auth.spi_out, print_auth_alg(p->auth.auth_alg_out));
if (p->auth.enc_alg_out)
printf(" %s XXXXXX",
print_enc_alg(p->auth.enc_alg_out));
printf("\n");
} else if (p->auth.method == AUTH_IPSEC_IKE_AH)
printf("%s\tipsec ah ike\n", c);
else if (p->auth.method == AUTH_IPSEC_IKE_ESP)
printf("%s\tipsec esp ike\n", c);
if (p->ttlsec)
printf("%s\tttl-security yes\n", c);
print_announce(p, c);
print_mrt(conf, p->id, p->groupid, c, "\t");
printf("%s}\n", c);
}
const char *
print_auth_alg(u_int8_t alg)
{
switch (alg) {
case SADB_AALG_SHA1HMAC:
return ("sha1");
case SADB_AALG_MD5HMAC:
return ("md5");
default:
return ("???");
}
}
const char *
print_enc_alg(u_int8_t alg)
{
switch (alg) {
case SADB_EALG_3DESCBC:
return ("3des");
case SADB_X_EALG_AES:
return ("aes");
default:
return ("???");
}
}
void
print_announce(struct peer_config *p, const char *c)
{
u_int8_t aid;
for (aid = 0; aid < AID_MAX; aid++)
if (p->capabilities.mp[aid])
printf("%s\tannounce %s\n", c, aid2str(aid));
}
void
print_as(struct filter_rule *r)
{
if (r->match.as.flags & AS_FLAG_AS_SET_NAME) {
printf("as-set \"%s\" ", r->match.as.name);
return;
}
switch (r->match.as.op) {
case OP_RANGE:
printf("%s - ", log_as(r->match.as.as_min));
printf("%s ", log_as(r->match.as.as_max));
break;
case OP_XRANGE:
printf("%s >< ", log_as(r->match.as.as_min));
printf("%s ", log_as(r->match.as.as_max));
break;
case OP_NE:
printf("!= %s ", log_as(r->match.as.as_min));
break;
default:
printf("%s ", log_as(r->match.as.as_min));
break;
}
}
void
print_rule(struct bgpd_config *conf, struct filter_rule *r)
{
struct peer *p;
int i;
if (r->action == ACTION_ALLOW)
printf("allow ");
else if (r->action == ACTION_DENY)
printf("deny ");
else
printf("match ");
if (r->quick)
printf("quick ");
if (r->rib[0])
printf("rib %s ", r->rib);
if (r->dir == DIR_IN)
printf("from ");
else if (r->dir == DIR_OUT)
printf("to ");
else
printf("eeeeeeeps. ");
if (r->peer.peerid) {
RB_FOREACH(p, peer_head, &conf->peers)
if (p->conf.id == r->peer.peerid)
break;
if (p == NULL)
printf("? ");
else
printf("%s ", log_addr(&p->conf.remote_addr));
} else if (r->peer.groupid) {
RB_FOREACH(p, peer_head, &conf->peers)
if (p->conf.groupid == r->peer.groupid)
break;
if (p == NULL)
printf("group ? ");
else
printf("group \"%s\" ", p->conf.group);
} else if (r->peer.remote_as) {
printf("AS %s ", log_as(r->peer.remote_as));
} else if (r->peer.ebgp) {
printf("ebgp ");
} else if (r->peer.ibgp) {
printf("ibgp ");
} else
printf("any ");
if (r->match.ovs.is_set) {
switch (r->match.ovs.validity) {
case ROA_VALID:
printf("ovs valid ");
break;
case ROA_INVALID:
printf("ovs invalid ");
break;
case ROA_NOTFOUND:
printf("ovs not-found ");
break;
default:
printf("ovs ??? %d ??? ", r->match.ovs.validity);
}
}
if (r->match.prefix.addr.aid != AID_UNSPEC) {
printf("prefix ");
print_prefix(&r->match.prefix);
printf(" ");
}
if (r->match.prefixset.name[0] != '\0')
printf("prefix-set \"%s\" ", r->match.prefixset.name);
if (r->match.prefixset.flags & PREFIXSET_FLAG_LONGER)
printf("or-longer ");
if (r->match.originset.name[0] != '\0')
printf("origin-set \"%s\" ", r->match.originset.name);
if (r->match.nexthop.flags) {
if (r->match.nexthop.flags == FILTER_NEXTHOP_NEIGHBOR)
printf("nexthop neighbor ");
else
printf("nexthop %s ", log_addr(&r->match.nexthop.addr));
}
if (r->match.as.type) {
if (r->match.as.type == AS_ALL)
printf("AS ");
else if (r->match.as.type == AS_SOURCE)
printf("source-as ");
else if (r->match.as.type == AS_TRANSIT)
printf("transit-as ");
else if (r->match.as.type == AS_PEER)
printf("peer-as ");
else
printf("unfluffy-as ");
print_as(r);
}
if (r->match.aslen.type) {
printf("%s %u ", r->match.aslen.type == ASLEN_MAX ?
"max-as-len" : "max-as-seq", r->match.aslen.aslen);
}
for (i = 0; i < MAX_COMM_MATCH; i++) {
struct community *c = &r->match.community[i];
if (c->flags != 0) {
printf("%s ", community_type(c));
print_community(c);
}
}
print_set(&r->set);
printf("\n");
}
const char *
mrt_type(enum mrt_type t)
{
switch (t) {
case MRT_NONE:
break;
case MRT_TABLE_DUMP:
return "table";
case MRT_TABLE_DUMP_MP:
return "table-mp";
case MRT_TABLE_DUMP_V2:
return "table-v2";
case MRT_ALL_IN:
return "all in";
case MRT_ALL_OUT:
return "all out";
case MRT_UPDATE_IN:
return "updates in";
case MRT_UPDATE_OUT:
return "updates out";
}
return "unfluffy MRT";
}
void
print_mrt(struct bgpd_config *conf, u_int32_t pid, u_int32_t gid,
const char *prep, const char *prep2)
{
struct mrt *m;
if (conf->mrt == NULL)
return;
LIST_FOREACH(m, conf->mrt, entry)
if ((gid != 0 && m->group_id == gid) ||
(m->peer_id == pid && m->group_id == gid)) {
printf("%s%sdump ", prep, prep2);
if (m->rib[0])
printf("rib %s ", m->rib);
printf("%s \"%s\"", mrt_type(m->type),
MRT2MC(m)->name);
if (MRT2MC(m)->ReopenTimerInterval == 0)
printf("\n");
else
printf(" %d\n", MRT2MC(m)->ReopenTimerInterval);
}
if (!LIST_EMPTY(conf->mrt))
printf("\n");
}
void
print_groups(struct bgpd_config *conf)
{
struct peer_config **peerlist;
struct peer *p;
u_int peer_cnt, i;
u_int32_t prev_groupid;
const char *tab = "\t";
const char *nada = "";
const char *c;
peer_cnt = 0;
RB_FOREACH(p, peer_head, &conf->peers)
peer_cnt++;
if ((peerlist = calloc(peer_cnt, sizeof(struct peer_config *))) == NULL)
fatal("print_groups calloc");
i = 0;
RB_FOREACH(p, peer_head, &conf->peers)
peerlist[i++] = &p->conf;
qsort(peerlist, peer_cnt, sizeof(struct peer_config *), peer_compare);
prev_groupid = 0;
for (i = 0; i < peer_cnt; i++) {
if (peerlist[i]->groupid) {
c = tab;
if (peerlist[i]->groupid != prev_groupid) {
if (prev_groupid)
printf("}\n\n");
printf("group \"%s\" {\n", peerlist[i]->group);
prev_groupid = peerlist[i]->groupid;
}
} else
c = nada;
print_peer(peerlist[i], conf, c);
}
if (prev_groupid)
printf("}\n\n");
free(peerlist);
}
int
peer_compare(const void *aa, const void *bb)
{
const struct peer_config * const *a;
const struct peer_config * const *b;
a = aa;
b = bb;
return ((*a)->groupid - (*b)->groupid);
}
void
print_config(struct bgpd_config *conf, struct rib_names *rib_l)
{
struct filter_rule *r;
struct network *n;
struct rde_rib *rr;
struct l3vpn *vpn;
print_mainconf(conf);
print_roa(&conf->roa);
print_as_sets(&conf->as_sets);
print_prefixsets(&conf->prefixsets);
print_originsets(&conf->originsets);
TAILQ_FOREACH(n, &conf->networks, entry)
print_network(&n->net, "");
if (!SIMPLEQ_EMPTY(&conf->l3vpns))
printf("\n");
SIMPLEQ_FOREACH(vpn, &conf->l3vpns, entry)
print_l3vpn(vpn);
printf("\n");
SIMPLEQ_FOREACH(rr, rib_l, entry) {
if (rr->flags & F_RIB_NOEVALUATE)
printf("rde rib %s no evaluate\n", rr->name);
else if (rr->flags & F_RIB_NOFIB)
printf("rde rib %s\n", rr->name);
else
printf("rde rib %s rtable %u fib-update %s\n", rr->name,
rr->rtableid, rr->flags & F_RIB_NOFIBSYNC ?
"no" : "yes");
}
printf("\n");
print_mrt(conf, 0, 0, "", "");
print_groups(conf);
TAILQ_FOREACH(r, conf->filters, entry)
print_rule(conf, r);
}
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