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|
/* $OpenBSD: rde.c,v 1.269 2009/10/12 13:14:47 claudio Exp $ */
/*
* Copyright (c) 2003, 2004 Henning Brauer <henning@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 OR PROFITS, 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 <sys/types.h>
#include <sys/socket.h>
#include <errno.h>
#include <ifaddrs.h>
#include <limits.h>
#include <pwd.h>
#include <poll.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "bgpd.h"
#include "mrt.h"
#include "rde.h"
#include "session.h"
#define PFD_PIPE_MAIN 0
#define PFD_PIPE_SESSION 1
#define PFD_PIPE_SESSION_CTL 2
#define PFD_PIPE_COUNT 3
void rde_sighdlr(int);
void rde_dispatch_imsg_session(struct imsgbuf *);
void rde_dispatch_imsg_parent(struct imsgbuf *);
int rde_update_dispatch(struct imsg *);
void rde_update_update(struct rde_peer *, struct rde_aspath *,
struct bgpd_addr *, u_int8_t);
void rde_update_withdraw(struct rde_peer *, struct bgpd_addr *,
u_int8_t);
int rde_attr_parse(u_char *, u_int16_t, struct rde_peer *,
struct rde_aspath *, struct mpattr *);
u_int8_t rde_attr_missing(struct rde_aspath *, int, u_int16_t);
int rde_get_mp_nexthop(u_char *, u_int16_t, u_int16_t,
struct rde_aspath *);
int rde_update_get_prefix(u_char *, u_int16_t, struct bgpd_addr *,
u_int8_t *);
int rde_update_get_prefix6(u_char *, u_int16_t, struct bgpd_addr *,
u_int8_t *);
void rde_update_err(struct rde_peer *, u_int8_t , u_int8_t,
void *, u_int16_t);
void rde_update_log(const char *, u_int16_t,
const struct rde_peer *, const struct bgpd_addr *,
const struct bgpd_addr *, u_int8_t);
void rde_as4byte_fixup(struct rde_peer *, struct rde_aspath *);
void rde_reflector(struct rde_peer *, struct rde_aspath *);
void rde_dump_rib_as(struct prefix *, struct rde_aspath *,pid_t,
int);
void rde_dump_filter(struct prefix *,
struct ctl_show_rib_request *);
void rde_dump_filterout(struct rde_peer *, struct prefix *,
struct ctl_show_rib_request *);
void rde_dump_upcall(struct rib_entry *, void *);
void rde_dump_prefix_upcall(struct rib_entry *, void *);
void rde_dump_ctx_new(struct ctl_show_rib_request *, pid_t,
enum imsg_type);
void rde_dump_mrt_new(struct mrt *, pid_t, int);
void rde_dump_done(void *);
void rde_up_dump_upcall(struct rib_entry *, void *);
void rde_softreconfig_out(struct rib_entry *, void *);
void rde_softreconfig_in(struct rib_entry *, void *);
void rde_softreconfig_load(struct rib_entry *, void *);
void rde_update_queue_runner(void);
void rde_update6_queue_runner(void);
void peer_init(u_int32_t);
void peer_shutdown(void);
void peer_localaddrs(struct rde_peer *, struct bgpd_addr *);
struct rde_peer *peer_add(u_int32_t, struct peer_config *);
struct rde_peer *peer_get(u_int32_t);
void peer_up(u_int32_t, struct session_up *);
void peer_down(u_int32_t);
void peer_dump(u_int32_t, u_int16_t, u_int8_t);
void peer_send_eor(struct rde_peer *, u_int16_t, u_int16_t);
void network_init(struct network_head *);
void network_add(struct network_config *, int);
void network_delete(struct network_config *, int);
void network_dump_upcall(struct rib_entry *, void *);
void rde_shutdown(void);
int sa_cmp(struct bgpd_addr *, struct sockaddr *);
volatile sig_atomic_t rde_quit = 0;
struct bgpd_config *conf, *nconf;
time_t reloadtime;
struct rde_peer_head peerlist;
struct rde_peer *peerself;
struct filter_head *rules_l, *newrules;
struct imsgbuf *ibuf_se;
struct imsgbuf *ibuf_se_ctl;
struct imsgbuf *ibuf_main;
struct rde_memstats rdemem;
struct rde_dump_ctx {
struct rib_context ribctx;
struct ctl_show_rib_request req;
sa_family_t af;
};
struct rde_mrt_ctx {
struct mrt mrt;
struct rib_context ribctx;
};
struct mrt_head rde_mrts = LIST_HEAD_INITIALIZER(rde_mrts);
u_int rde_mrt_cnt;
void
rde_sighdlr(int sig)
{
switch (sig) {
case SIGINT:
case SIGTERM:
rde_quit = 1;
break;
}
}
u_int32_t peerhashsize = 64;
u_int32_t pathhashsize = 1024;
u_int32_t attrhashsize = 512;
u_int32_t nexthophashsize = 64;
pid_t
rde_main(struct bgpd_config *config, struct peer *peer_l,
struct network_head *net_l, struct filter_head *rules,
struct mrt_head *mrt_l, struct rib_names *rib_n, int pipe_m2r[2],
int pipe_s2r[2], int pipe_m2s[2], int pipe_s2rctl[2], int debug)
{
pid_t pid;
struct passwd *pw;
struct peer *p;
struct listen_addr *la;
struct pollfd *pfd = NULL;
struct filter_rule *f;
struct filter_set *set;
struct nexthop *nh;
struct rde_rib *rr;
struct mrt *mrt, *xmrt;
void *newp;
u_int pfd_elms = 0, i, j;
int timeout;
switch (pid = fork()) {
case -1:
fatal("cannot fork");
case 0:
break;
default:
return (pid);
}
conf = config;
if ((pw = getpwnam(BGPD_USER)) == NULL)
fatal("getpwnam");
if (chroot(pw->pw_dir) == -1)
fatal("chroot");
if (chdir("/") == -1)
fatal("chdir(\"/\")");
setproctitle("route decision engine");
bgpd_process = PROC_RDE;
if (setgroups(1, &pw->pw_gid) ||
setresgid(pw->pw_gid, pw->pw_gid, pw->pw_gid) ||
setresuid(pw->pw_uid, pw->pw_uid, pw->pw_uid))
fatal("can't drop privileges");
signal(SIGTERM, rde_sighdlr);
signal(SIGINT, rde_sighdlr);
signal(SIGPIPE, SIG_IGN);
signal(SIGHUP, SIG_IGN);
close(pipe_s2r[0]);
close(pipe_s2rctl[0]);
close(pipe_m2r[0]);
close(pipe_m2s[0]);
close(pipe_m2s[1]);
/* initialize the RIB structures */
if ((ibuf_se = malloc(sizeof(struct imsgbuf))) == NULL ||
(ibuf_se_ctl = malloc(sizeof(struct imsgbuf))) == NULL ||
(ibuf_main = malloc(sizeof(struct imsgbuf))) == NULL)
fatal(NULL);
imsg_init(ibuf_se, pipe_s2r[1]);
imsg_init(ibuf_se_ctl, pipe_s2rctl[1]);
imsg_init(ibuf_main, pipe_m2r[1]);
/* peer list, mrt list and listener list are not used in the RDE */
while ((p = peer_l) != NULL) {
peer_l = p->next;
free(p);
}
while ((mrt = LIST_FIRST(mrt_l)) != NULL) {
LIST_REMOVE(mrt, entry);
free(mrt);
}
while ((la = TAILQ_FIRST(config->listen_addrs)) != NULL) {
TAILQ_REMOVE(config->listen_addrs, la, entry);
close(la->fd);
free(la);
}
free(config->listen_addrs);
pt_init();
while ((rr = SIMPLEQ_FIRST(&ribnames))) {
SIMPLEQ_REMOVE_HEAD(&ribnames, entry);
rib_new(-1, rr->name, rr->flags);
free(rr);
}
path_init(pathhashsize);
aspath_init(pathhashsize);
attr_init(attrhashsize);
nexthop_init(nexthophashsize);
peer_init(peerhashsize);
rules_l = rules;
network_init(net_l);
log_info("route decision engine ready");
TAILQ_FOREACH(f, rules, entry) {
f->peer.ribid = rib_find(f->rib);
TAILQ_FOREACH(set, &f->set, entry) {
if (set->type == ACTION_SET_NEXTHOP) {
nh = nexthop_get(&set->action.nexthop);
nh->refcnt++;
}
}
}
while (rde_quit == 0) {
if (pfd_elms < PFD_PIPE_COUNT + rde_mrt_cnt) {
if ((newp = realloc(pfd, sizeof(struct pollfd) *
(PFD_PIPE_COUNT + rde_mrt_cnt))) == NULL) {
/* panic for now */
log_warn("could not resize pfd from %u -> %u"
" entries", pfd_elms, PFD_PIPE_COUNT +
rde_mrt_cnt);
fatalx("exiting");
}
pfd = newp;
pfd_elms = PFD_PIPE_COUNT + rde_mrt_cnt;
}
timeout = INFTIM;
bzero(pfd, sizeof(struct pollfd) * pfd_elms);
pfd[PFD_PIPE_MAIN].fd = ibuf_main->fd;
pfd[PFD_PIPE_MAIN].events = POLLIN;
if (ibuf_main->w.queued > 0)
pfd[PFD_PIPE_MAIN].events |= POLLOUT;
pfd[PFD_PIPE_SESSION].fd = ibuf_se->fd;
pfd[PFD_PIPE_SESSION].events = POLLIN;
if (ibuf_se->w.queued > 0)
pfd[PFD_PIPE_SESSION].events |= POLLOUT;
pfd[PFD_PIPE_SESSION_CTL].fd = ibuf_se_ctl->fd;
pfd[PFD_PIPE_SESSION_CTL].events = POLLIN;
if (ibuf_se_ctl->w.queued > 0)
pfd[PFD_PIPE_SESSION_CTL].events |= POLLOUT;
else if (rib_dump_pending())
timeout = 0;
i = PFD_PIPE_COUNT;
LIST_FOREACH(mrt, &rde_mrts, entry) {
if (mrt->wbuf.queued) {
pfd[i].fd = mrt->wbuf.fd;
pfd[i].events = POLLOUT;
i++;
}
}
if (poll(pfd, i, timeout) == -1) {
if (errno != EINTR)
fatal("poll error");
continue;
}
if ((pfd[PFD_PIPE_MAIN].revents & POLLOUT) &&
ibuf_main->w.queued)
if (msgbuf_write(&ibuf_main->w) < 0)
fatal("pipe write error");
if (pfd[PFD_PIPE_MAIN].revents & POLLIN)
rde_dispatch_imsg_parent(ibuf_main);
if ((pfd[PFD_PIPE_SESSION].revents & POLLOUT) &&
ibuf_se->w.queued)
if (msgbuf_write(&ibuf_se->w) < 0)
fatal("pipe write error");
if (pfd[PFD_PIPE_SESSION].revents & POLLIN)
rde_dispatch_imsg_session(ibuf_se);
if ((pfd[PFD_PIPE_SESSION_CTL].revents & POLLOUT) &&
ibuf_se_ctl->w.queued)
if (msgbuf_write(&ibuf_se_ctl->w) < 0)
fatal("pipe write error");
if (pfd[PFD_PIPE_SESSION_CTL].revents & POLLIN)
rde_dispatch_imsg_session(ibuf_se_ctl);
for (j = PFD_PIPE_COUNT, mrt = LIST_FIRST(&rde_mrts);
j < i && mrt != 0; j++) {
xmrt = LIST_NEXT(mrt, entry);
if (pfd[j].fd == mrt->wbuf.fd &&
pfd[j].revents & POLLOUT)
mrt_write(mrt);
if (mrt->wbuf.queued == 0 &&
mrt->state == MRT_STATE_REMOVE) {
close(mrt->wbuf.fd);
LIST_REMOVE(mrt, entry);
free(mrt);
rde_mrt_cnt--;
}
mrt = xmrt;
}
rde_update_queue_runner();
rde_update6_queue_runner();
if (ibuf_se_ctl->w.queued <= 0)
rib_dump_runner();
}
/* do not clean up on shutdown on production, it takes ages. */
if (debug)
rde_shutdown();
while ((mrt = LIST_FIRST(&rde_mrts)) != NULL) {
msgbuf_clear(&mrt->wbuf);
close(mrt->wbuf.fd);
LIST_REMOVE(mrt, entry);
free(mrt);
}
msgbuf_clear(&ibuf_se->w);
free(ibuf_se);
msgbuf_clear(&ibuf_se_ctl->w);
free(ibuf_se_ctl);
msgbuf_clear(&ibuf_main->w);
free(ibuf_main);
log_info("route decision engine exiting");
_exit(0);
}
struct network_config netconf_s, netconf_p;
struct filter_set_head *session_set, *parent_set;
void
rde_dispatch_imsg_session(struct imsgbuf *ibuf)
{
struct imsg imsg;
struct peer p;
struct peer_config pconf;
struct rrefresh r;
struct rde_peer *peer;
struct session_up sup;
struct ctl_show_rib_request req;
struct filter_set *s;
struct nexthop *nh;
int n;
if ((n = imsg_read(ibuf)) == -1)
fatal("rde_dispatch_imsg_session: imsg_read error");
if (n == 0) /* connection closed */
fatalx("rde_dispatch_imsg_session: pipe closed");
for (;;) {
if ((n = imsg_get(ibuf, &imsg)) == -1)
fatal("rde_dispatch_imsg_session: imsg_read error");
if (n == 0)
break;
switch (imsg.hdr.type) {
case IMSG_UPDATE:
rde_update_dispatch(&imsg);
break;
case IMSG_SESSION_ADD:
if (imsg.hdr.len - IMSG_HEADER_SIZE != sizeof(pconf))
fatalx("incorrect size of session request");
memcpy(&pconf, imsg.data, sizeof(pconf));
peer = peer_add(imsg.hdr.peerid, &pconf);
if (peer == NULL) {
log_warnx("session add: "
"peer id %d already exists",
imsg.hdr.peerid);
break;
}
break;
case IMSG_SESSION_UP:
if (imsg.hdr.len - IMSG_HEADER_SIZE != sizeof(sup))
fatalx("incorrect size of session request");
memcpy(&sup, imsg.data, sizeof(sup));
peer_up(imsg.hdr.peerid, &sup);
break;
case IMSG_SESSION_DOWN:
peer_down(imsg.hdr.peerid);
break;
case IMSG_REFRESH:
if (imsg.hdr.len - IMSG_HEADER_SIZE != sizeof(r)) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
memcpy(&r, imsg.data, sizeof(r));
peer_dump(imsg.hdr.peerid, r.afi, r.safi);
break;
case IMSG_NETWORK_ADD:
if (imsg.hdr.len - IMSG_HEADER_SIZE !=
sizeof(struct network_config)) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
memcpy(&netconf_s, imsg.data, sizeof(netconf_s));
TAILQ_INIT(&netconf_s.attrset);
session_set = &netconf_s.attrset;
break;
case IMSG_NETWORK_DONE:
if (imsg.hdr.len != IMSG_HEADER_SIZE) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
session_set = NULL;
switch (netconf_s.prefix.af) {
case AF_INET:
if (netconf_s.prefixlen > 32)
goto badnet;
network_add(&netconf_s, 0);
break;
case AF_INET6:
if (netconf_s.prefixlen > 128)
goto badnet;
network_add(&netconf_s, 0);
break;
default:
badnet:
log_warnx("rde_dispatch: bad network");
break;
}
break;
case IMSG_NETWORK_REMOVE:
if (imsg.hdr.len - IMSG_HEADER_SIZE !=
sizeof(struct network_config)) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
memcpy(&netconf_s, imsg.data, sizeof(netconf_s));
TAILQ_INIT(&netconf_s.attrset);
network_delete(&netconf_s, 0);
break;
case IMSG_NETWORK_FLUSH:
if (imsg.hdr.len != IMSG_HEADER_SIZE) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
prefix_network_clean(peerself, time(NULL),
F_ANN_DYNAMIC);
break;
case IMSG_FILTER_SET:
if (imsg.hdr.len - IMSG_HEADER_SIZE !=
sizeof(struct filter_set)) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
if (session_set == NULL) {
log_warnx("rde_dispatch: "
"IMSG_FILTER_SET unexpected");
break;
}
if ((s = malloc(sizeof(struct filter_set))) == NULL)
fatal(NULL);
memcpy(s, imsg.data, sizeof(struct filter_set));
TAILQ_INSERT_TAIL(session_set, s, entry);
if (s->type == ACTION_SET_NEXTHOP) {
nh = nexthop_get(&s->action.nexthop);
nh->refcnt++;
}
break;
case IMSG_CTL_SHOW_NETWORK:
case IMSG_CTL_SHOW_RIB:
case IMSG_CTL_SHOW_RIB_AS:
case IMSG_CTL_SHOW_RIB_COMMUNITY:
case IMSG_CTL_SHOW_RIB_PREFIX:
if (imsg.hdr.len != IMSG_HEADER_SIZE + sizeof(req)) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
memcpy(&req, imsg.data, sizeof(req));
rde_dump_ctx_new(&req, imsg.hdr.pid, imsg.hdr.type);
break;
case IMSG_CTL_SHOW_NEIGHBOR:
if (imsg.hdr.len - IMSG_HEADER_SIZE !=
sizeof(struct peer)) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
memcpy(&p, imsg.data, sizeof(struct peer));
peer = peer_get(p.conf.id);
if (peer != NULL) {
p.stats.prefix_cnt = peer->prefix_cnt;
p.stats.prefix_rcvd_update =
peer->prefix_rcvd_update;
p.stats.prefix_rcvd_withdraw =
peer->prefix_rcvd_withdraw;
p.stats.prefix_sent_update =
peer->prefix_sent_update;
p.stats.prefix_sent_withdraw =
peer->prefix_sent_withdraw;
}
imsg_compose(ibuf_se_ctl, IMSG_CTL_SHOW_NEIGHBOR, 0,
imsg.hdr.pid, -1, &p, sizeof(struct peer));
break;
case IMSG_CTL_END:
imsg_compose(ibuf_se_ctl, IMSG_CTL_END, 0, imsg.hdr.pid,
-1, NULL, 0);
break;
case IMSG_CTL_SHOW_RIB_MEM:
imsg_compose(ibuf_se_ctl, IMSG_CTL_SHOW_RIB_MEM, 0,
imsg.hdr.pid, -1, &rdemem, sizeof(rdemem));
break;
default:
break;
}
imsg_free(&imsg);
}
}
void
rde_dispatch_imsg_parent(struct imsgbuf *ibuf)
{
struct imsg imsg;
struct mrt xmrt;
struct rde_rib rn;
struct rde_peer *peer;
struct filter_rule *r;
struct filter_set *s;
struct nexthop *nh;
int n, fd, reconf_in = 0, reconf_out = 0;
u_int16_t rid;
if ((n = imsg_read(ibuf)) == -1)
fatal("rde_dispatch_imsg_parent: imsg_read error");
if (n == 0) /* connection closed */
fatalx("rde_dispatch_imsg_parent: pipe closed");
for (;;) {
if ((n = imsg_get(ibuf, &imsg)) == -1)
fatal("rde_dispatch_imsg_parent: imsg_read error");
if (n == 0)
break;
switch (imsg.hdr.type) {
case IMSG_RECONF_CONF:
reloadtime = time(NULL);
newrules = calloc(1, sizeof(struct filter_head));
if (newrules == NULL)
fatal(NULL);
TAILQ_INIT(newrules);
if ((nconf = malloc(sizeof(struct bgpd_config))) ==
NULL)
fatal(NULL);
memcpy(nconf, imsg.data, sizeof(struct bgpd_config));
for (rid = 0; rid < rib_size; rid++)
ribs[rid].state = RIB_DELETE;
break;
case IMSG_NETWORK_ADD:
memcpy(&netconf_p, imsg.data, sizeof(netconf_p));
TAILQ_INIT(&netconf_p.attrset);
parent_set = &netconf_p.attrset;
break;
case IMSG_NETWORK_DONE:
parent_set = NULL;
network_add(&netconf_p, 1);
break;
case IMSG_NETWORK_REMOVE:
if (imsg.hdr.len - IMSG_HEADER_SIZE !=
sizeof(struct network_config)) {
log_warnx("rde_dispatch: wrong imsg len");
break;
}
memcpy(&netconf_p, imsg.data, sizeof(netconf_p));
TAILQ_INIT(&netconf_p.attrset);
network_delete(&netconf_p, 1);
break;
case IMSG_RECONF_RIB:
if (imsg.hdr.len - IMSG_HEADER_SIZE !=
sizeof(struct rde_rib))
fatalx("IMSG_RECONF_RIB bad len");
memcpy(&rn, imsg.data, sizeof(rn));
rid = rib_find(rn.name);
if (rid == RIB_FAILED)
rib_new(-1, rn.name, rn.flags);
else
ribs[rid].state = RIB_ACTIVE;
break;
case IMSG_RECONF_FILTER:
if (imsg.hdr.len - IMSG_HEADER_SIZE !=
sizeof(struct filter_rule))
fatalx("IMSG_RECONF_FILTER bad len");
if ((r = malloc(sizeof(struct filter_rule))) == NULL)
fatal(NULL);
memcpy(r, imsg.data, sizeof(struct filter_rule));
TAILQ_INIT(&r->set);
r->peer.ribid = rib_find(r->rib);
parent_set = &r->set;
TAILQ_INSERT_TAIL(newrules, r, entry);
break;
case IMSG_RECONF_DONE:
if (nconf == NULL)
fatalx("got IMSG_RECONF_DONE but no config");
if ((nconf->flags & BGPD_FLAG_NO_EVALUATE)
!= (conf->flags & BGPD_FLAG_NO_EVALUATE)) {
log_warnx( "change to/from route-collector "
"mode ignored");
if (conf->flags & BGPD_FLAG_NO_EVALUATE)
nconf->flags |= BGPD_FLAG_NO_EVALUATE;
else
nconf->flags &= ~BGPD_FLAG_NO_EVALUATE;
}
memcpy(conf, nconf, sizeof(struct bgpd_config));
free(nconf);
nconf = NULL;
parent_set = NULL;
prefix_network_clean(peerself, reloadtime, 0);
/* check if filter changed */
LIST_FOREACH(peer, &peerlist, peer_l) {
if (peer->conf.id == 0)
continue;
peer->reconf_out = 0;
peer->reconf_in = 0;
if (peer->conf.softreconfig_out &&
!rde_filter_equal(rules_l, newrules, peer,
DIR_OUT)) {
peer->reconf_out = 1;
reconf_out = 1;
}
if (peer->conf.softreconfig_in &&
!rde_filter_equal(rules_l, newrules, peer,
DIR_IN)) {
peer->reconf_in = 1;
reconf_in = 1;
}
}
/* bring ribs in sync before softreconfig dance */
for (rid = 0; rid < rib_size; rid++) {
if (ribs[rid].state == RIB_DELETE)
rib_free(&ribs[rid]);
else if (ribs[rid].state == RIB_NEW)
rib_dump(&ribs[0],
rde_softreconfig_load, &ribs[rid],
AF_UNSPEC);
}
/* sync local-RIB first */
if (reconf_in)
rib_dump(&ribs[0], rde_softreconfig_in, NULL,
AF_UNSPEC);
/* then sync peers */
if (reconf_out) {
int i;
for (i = 1; i < rib_size; i++) {
if (ribs[i].state == RIB_NEW)
/* already synced by _load */
continue;
rib_dump(&ribs[i], rde_softreconfig_out,
NULL, AF_UNSPEC);
}
}
while ((r = TAILQ_FIRST(rules_l)) != NULL) {
TAILQ_REMOVE(rules_l, r, entry);
filterset_free(&r->set);
free(r);
}
free(rules_l);
rules_l = newrules;
log_info("RDE reconfigured");
break;
case IMSG_NEXTHOP_UPDATE:
nexthop_update(imsg.data);
break;
case IMSG_FILTER_SET:
if (parent_set == NULL) {
log_warnx("rde_dispatch_imsg_parent: "
"IMSG_FILTER_SET unexpected");
break;
}
if ((s = malloc(sizeof(struct filter_set))) == NULL)
fatal(NULL);
memcpy(s, imsg.data, sizeof(struct filter_set));
TAILQ_INSERT_TAIL(parent_set, s, entry);
if (s->type == ACTION_SET_NEXTHOP) {
nh = nexthop_get(&s->action.nexthop);
nh->refcnt++;
}
break;
case IMSG_MRT_OPEN:
case IMSG_MRT_REOPEN:
if (imsg.hdr.len > IMSG_HEADER_SIZE +
sizeof(struct mrt)) {
log_warnx("wrong imsg len");
break;
}
memcpy(&xmrt, imsg.data, sizeof(xmrt));
if ((fd = imsg.fd) == -1)
log_warnx("expected to receive fd for mrt dump "
"but didn't receive any");
else if (xmrt.type == MRT_TABLE_DUMP ||
xmrt.type == MRT_TABLE_DUMP_MP) {
rde_dump_mrt_new(&xmrt, imsg.hdr.pid, fd);
} else
close(fd);
break;
case IMSG_MRT_CLOSE:
/* ignore end message because a dump is atomic */
break;
default:
break;
}
imsg_free(&imsg);
}
}
/* handle routing updates from the session engine. */
int
rde_update_dispatch(struct imsg *imsg)
{
struct rde_peer *peer;
struct rde_aspath *asp = NULL;
u_char *p, *mpp = NULL;
int error = -1, pos = 0;
u_int16_t afi, len, mplen;
u_int16_t withdrawn_len;
u_int16_t attrpath_len;
u_int16_t nlri_len;
u_int8_t prefixlen, safi, subtype;
struct bgpd_addr prefix;
struct mpattr mpa;
peer = peer_get(imsg->hdr.peerid);
if (peer == NULL) /* unknown peer, cannot happen */
return (-1);
if (peer->state != PEER_UP)
return (-1); /* peer is not yet up, cannot happen */
p = imsg->data;
if (imsg->hdr.len < IMSG_HEADER_SIZE + 2) {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ATTRLIST, NULL, 0);
return (-1);
}
memcpy(&len, p, 2);
withdrawn_len = ntohs(len);
p += 2;
if (imsg->hdr.len < IMSG_HEADER_SIZE + 2 + withdrawn_len + 2) {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ATTRLIST, NULL, 0);
return (-1);
}
p += withdrawn_len;
memcpy(&len, p, 2);
attrpath_len = len = ntohs(len);
p += 2;
if (imsg->hdr.len <
IMSG_HEADER_SIZE + 2 + withdrawn_len + 2 + attrpath_len) {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ATTRLIST, NULL, 0);
return (-1);
}
nlri_len =
imsg->hdr.len - IMSG_HEADER_SIZE - 4 - withdrawn_len - attrpath_len;
bzero(&mpa, sizeof(mpa));
if (attrpath_len != 0) { /* 0 = no NLRI information in this message */
/* parse path attributes */
asp = path_get();
while (len > 0) {
if ((pos = rde_attr_parse(p, len, peer, asp,
&mpa)) < 0)
goto done;
p += pos;
len -= pos;
}
/* check for missing but necessary attributes */
if ((subtype = rde_attr_missing(asp, peer->conf.ebgp,
nlri_len))) {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_MISSNG_WK_ATTR,
&subtype, sizeof(u_int8_t));
goto done;
}
rde_as4byte_fixup(peer, asp);
/* enforce remote AS if requested */
if (asp->flags & F_ATTR_ASPATH &&
peer->conf.enforce_as == ENFORCE_AS_ON)
if (peer->conf.remote_as !=
aspath_neighbor(asp->aspath)) {
log_peer_warnx(&peer->conf, "bad path, "
"enforce remote-as enabled");
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ASPATH,
NULL, 0);
goto done;
}
rde_reflector(peer, asp);
}
p = imsg->data;
len = withdrawn_len;
p += 2;
/* withdraw prefix */
while (len > 0) {
if ((pos = rde_update_get_prefix(p, len, &prefix,
&prefixlen)) == -1) {
/*
* the RFC does not mention what we should do in
* this case. Let's do the same as in the NLRI case.
*/
log_peer_warnx(&peer->conf, "bad withdraw prefix");
rde_update_err(peer, ERR_UPDATE, ERR_UPD_NETWORK,
NULL, 0);
goto done;
}
if (prefixlen > 32) {
log_peer_warnx(&peer->conf, "bad withdraw prefix");
rde_update_err(peer, ERR_UPDATE, ERR_UPD_NETWORK,
NULL, 0);
goto done;
}
p += pos;
len -= pos;
if (peer->capa_received.mp_v4 == SAFI_NONE &&
peer->capa_received.mp_v6 != SAFI_NONE) {
log_peer_warnx(&peer->conf, "bad AFI, IPv4 disabled");
rde_update_err(peer, ERR_UPDATE, ERR_UPD_OPTATTR,
NULL, 0);
goto done;
}
rde_update_withdraw(peer, &prefix, prefixlen);
}
if (attrpath_len == 0) {
/* 0 = no NLRI information in this message */
if (nlri_len != 0) {
/* crap at end of update which should not be there */
rde_update_err(peer, ERR_UPDATE,
ERR_UPD_ATTRLIST, NULL, 0);
return (-1);
}
return (0);
}
/* withdraw MP_UNREACH_NLRI if available */
if (mpa.unreach_len != 0) {
mpp = mpa.unreach;
mplen = mpa.unreach_len;
memcpy(&afi, mpp, 2);
mpp += 2;
mplen -= 2;
afi = ntohs(afi);
safi = *mpp++;
mplen--;
switch (afi) {
case AFI_IPv6:
if (peer->capa_received.mp_v6 == SAFI_NONE) {
log_peer_warnx(&peer->conf, "bad AFI, "
"IPv6 disabled");
rde_update_err(peer, ERR_UPDATE,
ERR_UPD_OPTATTR, NULL, 0);
goto done;
}
while (mplen > 0) {
if ((pos = rde_update_get_prefix6(mpp, mplen,
&prefix, &prefixlen)) == -1) {
log_peer_warnx(&peer->conf,
"bad IPv6 withdraw prefix");
rde_update_err(peer, ERR_UPDATE,
ERR_UPD_OPTATTR,
mpa.unreach, mpa.unreach_len);
goto done;
}
if (prefixlen > 128) {
log_peer_warnx(&peer->conf,
"bad IPv6 withdraw prefix");
rde_update_err(peer, ERR_UPDATE,
ERR_UPD_OPTATTR,
mpa.unreach, mpa.unreach_len);
goto done;
}
mpp += pos;
mplen -= pos;
rde_update_withdraw(peer, &prefix, prefixlen);
}
break;
default:
/* silently ignore unsupported multiprotocol AF */
break;
}
if ((asp->flags & ~F_ATTR_MP_UNREACH) == 0) {
error = 0;
goto done;
}
}
/* shift to NLRI information */
p += 2 + attrpath_len;
/* aspath needs to be loop free nota bene this is not a hard error */
if (peer->conf.ebgp && !aspath_loopfree(asp->aspath, conf->as))
asp->flags |= F_ATTR_LOOP;
/* parse nlri prefix */
while (nlri_len > 0) {
if ((pos = rde_update_get_prefix(p, nlri_len, &prefix,
&prefixlen)) == -1) {
log_peer_warnx(&peer->conf, "bad nlri prefix");
rde_update_err(peer, ERR_UPDATE, ERR_UPD_NETWORK,
NULL, 0);
goto done;
}
if (prefixlen > 32) {
log_peer_warnx(&peer->conf, "bad nlri prefix");
rde_update_err(peer, ERR_UPDATE, ERR_UPD_NETWORK,
NULL, 0);
goto done;
}
p += pos;
nlri_len -= pos;
if (peer->capa_received.mp_v4 == SAFI_NONE &&
peer->capa_received.mp_v6 != SAFI_NONE) {
log_peer_warnx(&peer->conf, "bad AFI, IPv4 disabled");
rde_update_err(peer, ERR_UPDATE, ERR_UPD_OPTATTR,
NULL, 0);
goto done;
}
rde_update_update(peer, asp, &prefix, prefixlen);
/* max prefix checker */
if (peer->conf.max_prefix &&
peer->prefix_cnt >= peer->conf.max_prefix) {
log_peer_warnx(&peer->conf, "prefix limit reached");
rde_update_err(peer, ERR_CEASE, ERR_CEASE_MAX_PREFIX,
NULL, 0);
goto done;
}
}
/* add MP_REACH_NLRI if available */
if (mpa.reach_len != 0) {
mpp = mpa.reach;
mplen = mpa.reach_len;
memcpy(&afi, mpp, 2);
mpp += 2;
mplen -= 2;
afi = ntohs(afi);
safi = *mpp++;
mplen--;
/*
* this works because asp is not linked.
* But first unlock the previously locked nexthop.
*/
if (asp->nexthop) {
asp->nexthop->refcnt--;
(void)nexthop_delete(asp->nexthop);
asp->nexthop = NULL;
}
if ((pos = rde_get_mp_nexthop(mpp, mplen, afi, asp)) == -1) {
log_peer_warnx(&peer->conf, "bad IPv6 nlri prefix");
rde_update_err(peer, ERR_UPDATE, ERR_UPD_OPTATTR,
mpa.reach, mpa.reach_len);
goto done;
}
mpp += pos;
mplen -= pos;
switch (afi) {
case AFI_IPv6:
if (peer->capa_received.mp_v6 == SAFI_NONE) {
log_peer_warnx(&peer->conf, "bad AFI, "
"IPv6 disabled");
rde_update_err(peer, ERR_UPDATE,
ERR_UPD_OPTATTR, NULL, 0);
goto done;
}
while (mplen > 0) {
if ((pos = rde_update_get_prefix6(mpp, mplen,
&prefix, &prefixlen)) == -1) {
log_peer_warnx(&peer->conf,
"bad IPv6 nlri prefix");
rde_update_err(peer, ERR_UPDATE,
ERR_UPD_OPTATTR,
mpa.reach, mpa.reach_len);
goto done;
}
if (prefixlen > 128) {
rde_update_err(peer, ERR_UPDATE,
ERR_UPD_OPTATTR,
mpa.reach, mpa.reach_len);
goto done;
}
mpp += pos;
mplen -= pos;
rde_update_update(peer, asp, &prefix,
prefixlen);
/* max prefix checker */
if (peer->conf.max_prefix &&
peer->prefix_cnt >= peer->conf.max_prefix) {
log_peer_warnx(&peer->conf,
"prefix limit reached");
rde_update_err(peer, ERR_CEASE,
ERR_CEASE_MAX_PREFIX, NULL, 0);
goto done;
}
}
break;
default:
/* silently ignore unsupported multiprotocol AF */
break;
}
}
done:
if (attrpath_len != 0) {
/* unlock the previously locked entry */
if (asp->nexthop) {
asp->nexthop->refcnt--;
(void)nexthop_delete(asp->nexthop);
}
/* free allocated attribute memory that is no longer used */
path_put(asp);
}
return (error);
}
extern u_int16_t rib_size;
void
rde_update_update(struct rde_peer *peer, struct rde_aspath *asp,
struct bgpd_addr *prefix, u_int8_t prefixlen)
{
struct rde_aspath *fasp;
enum filter_actions action;
int r = 0, f = 0;
u_int16_t i;
peer->prefix_rcvd_update++;
/* add original path to the Adj-RIB-In */
if (peer->conf.softreconfig_in)
r += path_update(&ribs[0], peer, asp, prefix, prefixlen);
for (i = 1; i < rib_size; i++) {
/* input filter */
action = rde_filter(i, &fasp, rules_l, peer, asp, prefix,
prefixlen, peer, DIR_IN);
if (fasp == NULL)
fasp = asp;
if (action == ACTION_ALLOW) {
rde_update_log("update", i, peer,
&fasp->nexthop->exit_nexthop, prefix, prefixlen);
r += path_update(&ribs[i], peer, fasp, prefix,
prefixlen);
} else if (prefix_remove(&ribs[i], peer, prefix, prefixlen,
0)) {
rde_update_log("filtered withdraw", i, peer,
NULL, prefix, prefixlen);
f++;
}
/* free modified aspath */
if (fasp != asp)
path_put(fasp);
}
if (r)
peer->prefix_cnt++;
else if (f)
peer->prefix_cnt--;
}
void
rde_update_withdraw(struct rde_peer *peer, struct bgpd_addr *prefix,
u_int8_t prefixlen)
{
int r = 0;
u_int16_t i;
peer->prefix_rcvd_withdraw++;
for (i = rib_size - 1; ; i--) {
if (prefix_remove(&ribs[i], peer, prefix, prefixlen, 0)) {
rde_update_log("withdraw", i, peer, NULL, prefix,
prefixlen);
r++;
}
if (i == 0)
break;
}
if (r)
peer->prefix_cnt--;
}
/*
* BGP UPDATE parser functions
*/
/* attribute parser specific makros */
#define UPD_READ(t, p, plen, n) \
do { \
memcpy(t, p, n); \
p += n; \
plen += n; \
} while (0)
#define CHECK_FLAGS(s, t, m) \
(((s) & ~(ATTR_EXTLEN | (m))) == (t))
int
rde_attr_parse(u_char *p, u_int16_t len, struct rde_peer *peer,
struct rde_aspath *a, struct mpattr *mpa)
{
struct bgpd_addr nexthop;
u_char *op = p, *npath;
u_int32_t tmp32;
u_int16_t attr_len, nlen;
u_int16_t plen = 0;
u_int8_t flags;
u_int8_t type;
u_int8_t tmp8;
if (len < 3) {
bad_len:
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ATTRLEN, op, len);
return (-1);
}
UPD_READ(&flags, p, plen, 1);
UPD_READ(&type, p, plen, 1);
if (flags & ATTR_EXTLEN) {
if (len - plen < 2)
goto bad_len;
UPD_READ(&attr_len, p, plen, 2);
attr_len = ntohs(attr_len);
} else {
UPD_READ(&tmp8, p, plen, 1);
attr_len = tmp8;
}
if (len - plen < attr_len)
goto bad_len;
/* adjust len to the actual attribute size including header */
len = plen + attr_len;
switch (type) {
case ATTR_UNDEF:
/* ignore and drop path attributes with a type code of 0 */
break;
case ATTR_ORIGIN:
if (attr_len != 1)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0)) {
bad_flags:
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ATTRFLAGS,
op, len);
return (-1);
}
UPD_READ(&a->origin, p, plen, 1);
if (a->origin > ORIGIN_INCOMPLETE) {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ORIGIN,
op, len);
return (-1);
}
if (a->flags & F_ATTR_ORIGIN)
goto bad_list;
a->flags |= F_ATTR_ORIGIN;
break;
case ATTR_ASPATH:
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
goto bad_flags;
if (aspath_verify(p, attr_len, rde_as4byte(peer)) != 0) {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ASPATH,
NULL, 0);
return (-1);
}
if (a->flags & F_ATTR_ASPATH)
goto bad_list;
if (rde_as4byte(peer)) {
npath = p;
nlen = attr_len;
} else
npath = aspath_inflate(p, attr_len, &nlen);
a->flags |= F_ATTR_ASPATH;
a->aspath = aspath_get(npath, nlen);
if (npath != p)
free(npath);
plen += attr_len;
break;
case ATTR_NEXTHOP:
if (attr_len != 4)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
goto bad_flags;
if (a->flags & F_ATTR_NEXTHOP)
goto bad_list;
a->flags |= F_ATTR_NEXTHOP;
bzero(&nexthop, sizeof(nexthop));
nexthop.af = AF_INET;
UPD_READ(&nexthop.v4.s_addr, p, plen, 4);
/*
* Check if the nexthop is a valid IP address. We consider
* multicast and experimental addresses as invalid.
*/
tmp32 = ntohl(nexthop.v4.s_addr);
if (IN_MULTICAST(tmp32) || IN_BADCLASS(tmp32)) {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_NETWORK,
op, len);
return (-1);
}
a->nexthop = nexthop_get(&nexthop);
/*
* lock the nexthop because it is not yet linked else
* withdraws may remove this nexthop which in turn would
* cause a use after free error.
*/
a->nexthop->refcnt++;
break;
case ATTR_MED:
if (attr_len != 4)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL, 0))
goto bad_flags;
if (a->flags & F_ATTR_MED)
goto bad_list;
a->flags |= F_ATTR_MED;
UPD_READ(&tmp32, p, plen, 4);
a->med = ntohl(tmp32);
break;
case ATTR_LOCALPREF:
if (attr_len != 4)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
goto bad_flags;
if (peer->conf.ebgp) {
/* ignore local-pref attr on non ibgp peers */
plen += 4;
break;
}
if (a->flags & F_ATTR_LOCALPREF)
goto bad_list;
a->flags |= F_ATTR_LOCALPREF;
UPD_READ(&tmp32, p, plen, 4);
a->lpref = ntohl(tmp32);
break;
case ATTR_ATOMIC_AGGREGATE:
if (attr_len != 0)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
goto bad_flags;
goto optattr;
case ATTR_AGGREGATOR:
if ((!rde_as4byte(peer) && attr_len != 6) ||
(rde_as4byte(peer) && attr_len != 8)) {
/*
* ignore attribute in case of error as per
* draft-ietf-idr-optional-transitive-00.txt
* but only if partial bit is set
*/
if ((flags & ATTR_PARTIAL) == 0)
goto bad_len;
plen += attr_len;
break;
}
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE,
ATTR_PARTIAL))
goto bad_flags;
if (!rde_as4byte(peer)) {
/* need to inflate aggregator AS to 4-byte */
u_char t[8];
t[0] = t[1] = 0;
UPD_READ(&t[2], p, plen, 2);
UPD_READ(&t[4], p, plen, 4);
if (attr_optadd(a, flags, type, t,
sizeof(t)) == -1)
goto bad_list;
break;
}
/* 4-byte ready server take the default route */
goto optattr;
case ATTR_COMMUNITIES:
if ((attr_len & 0x3) != 0) {
/*
* mark update as bad and withdraw all routes as per
* draft-ietf-idr-optional-transitive-00.txt
* but only if partial bit is set
*/
if ((flags & ATTR_PARTIAL) == 0)
goto bad_len;
else
a->flags |= F_ATTR_PARSE_ERR;
}
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE,
ATTR_PARTIAL))
goto bad_flags;
goto optattr;
case ATTR_ORIGINATOR_ID:
if (attr_len != 4)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL, 0))
goto bad_flags;
goto optattr;
case ATTR_CLUSTER_LIST:
if ((attr_len & 0x3) != 0)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL, 0))
goto bad_flags;
goto optattr;
case ATTR_MP_REACH_NLRI:
if (attr_len < 4)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL, 0))
goto bad_flags;
/* the validity is checked in rde_update_dispatch() */
if (a->flags & F_ATTR_MP_REACH)
goto bad_list;
a->flags |= F_ATTR_MP_REACH;
mpa->reach = p;
mpa->reach_len = attr_len;
plen += attr_len;
break;
case ATTR_MP_UNREACH_NLRI:
if (attr_len < 3)
goto bad_len;
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL, 0))
goto bad_flags;
/* the validity is checked in rde_update_dispatch() */
if (a->flags & F_ATTR_MP_UNREACH)
goto bad_list;
a->flags |= F_ATTR_MP_UNREACH;
mpa->unreach = p;
mpa->unreach_len = attr_len;
plen += attr_len;
break;
case ATTR_AS4_AGGREGATOR:
if (attr_len != 8) {
/* see ATTR_AGGREGATOR ... */
if ((flags & ATTR_PARTIAL) == 0)
goto bad_len;
/* we should add a warning here */
plen += attr_len;
break;
}
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE,
ATTR_PARTIAL))
goto bad_flags;
a->flags |= F_ATTR_AS4BYTE_NEW;
goto optattr;
case ATTR_AS4_PATH:
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE,
ATTR_PARTIAL))
goto bad_flags;
if (aspath_verify(p, attr_len, 1) != 0) {
/*
* XXX RFC does not specify how to handle errors.
* XXX Instead of dropping the session because of a
* XXX bad path just mark the full update as having
* XXX a parse error which makes the update no longer
* XXX eligible and will not be considered for routing
* XXX or redistribution.
* XXX We follow draft-ietf-idr-optional-transitive
* XXX by looking at the partial bit.
*/
if (flags & ATTR_PARTIAL) {
a->flags |= F_ATTR_PARSE_ERR;
goto optattr;
} else {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ASPATH,
NULL, 0);
return (-1);
}
}
a->flags |= F_ATTR_AS4BYTE_NEW;
goto optattr;
default:
if ((flags & ATTR_OPTIONAL) == 0) {
rde_update_err(peer, ERR_UPDATE, ERR_UPD_UNKNWN_WK_ATTR,
op, len);
return (-1);
}
optattr:
if (attr_optadd(a, flags, type, p, attr_len) == -1) {
bad_list:
rde_update_err(peer, ERR_UPDATE, ERR_UPD_ATTRLIST,
NULL, 0);
return (-1);
}
plen += attr_len;
break;
}
return (plen);
}
#undef UPD_READ
#undef CHECK_FLAGS
u_int8_t
rde_attr_missing(struct rde_aspath *a, int ebgp, u_int16_t nlrilen)
{
/* ATTR_MP_UNREACH_NLRI may be sent alone */
if (nlrilen == 0 && a->flags & F_ATTR_MP_UNREACH &&
(a->flags & F_ATTR_MP_REACH) == 0)
return (0);
if ((a->flags & F_ATTR_ORIGIN) == 0)
return (ATTR_ORIGIN);
if ((a->flags & F_ATTR_ASPATH) == 0)
return (ATTR_ASPATH);
if ((a->flags & F_ATTR_MP_REACH) == 0 &&
(a->flags & F_ATTR_NEXTHOP) == 0)
return (ATTR_NEXTHOP);
if (!ebgp)
if ((a->flags & F_ATTR_LOCALPREF) == 0)
return (ATTR_LOCALPREF);
return (0);
}
int
rde_get_mp_nexthop(u_char *data, u_int16_t len, u_int16_t afi,
struct rde_aspath *asp)
{
struct bgpd_addr nexthop;
u_int8_t totlen, nhlen;
if (len == 0)
return (-1);
nhlen = *data++;
totlen = 1;
len--;
if (nhlen > len)
return (-1);
bzero(&nexthop, sizeof(nexthop));
switch (afi) {
case AFI_IPv6:
/*
* RFC2545 describes that there may be a link-local
* address carried in nexthop. Yikes!
* This is not only silly, it is wrong and we just ignore
* this link-local nexthop. The bgpd session doesn't run
* over the link-local address so why should all other
* traffic.
*/
if (nhlen != 16 && nhlen != 32) {
log_warnx("bad multiprotocol nexthop, bad size");
return (-1);
}
nexthop.af = AF_INET6;
memcpy(&nexthop.v6.s6_addr, data, 16);
asp->nexthop = nexthop_get(&nexthop);
/*
* lock the nexthop because it is not yet linked else
* withdraws may remove this nexthop which in turn would
* cause a use after free error.
*/
asp->nexthop->refcnt++;
/* ignore reserved (old SNPA) field as per RFC 4760 */
totlen += nhlen + 1;
data += nhlen + 1;
return (totlen);
default:
log_warnx("bad multiprotocol nexthop, bad AF");
break;
}
return (-1);
}
int
rde_update_get_prefix(u_char *p, u_int16_t len, struct bgpd_addr *prefix,
u_int8_t *prefixlen)
{
int i;
u_int8_t pfxlen;
u_int16_t plen;
union {
struct in_addr a32;
u_int8_t a8[4];
} addr;
if (len < 1)
return (-1);
memcpy(&pfxlen, p, 1);
p += 1;
plen = 1;
bzero(prefix, sizeof(struct bgpd_addr));
addr.a32.s_addr = 0;
for (i = 0; i <= 3; i++) {
if (pfxlen > i * 8) {
if (len - plen < 1)
return (-1);
memcpy(&addr.a8[i], p++, 1);
plen++;
}
}
prefix->af = AF_INET;
prefix->v4.s_addr = addr.a32.s_addr;
*prefixlen = pfxlen;
return (plen);
}
int
rde_update_get_prefix6(u_char *p, u_int16_t len, struct bgpd_addr *prefix,
u_int8_t *prefixlen)
{
int i;
u_int8_t pfxlen;
u_int16_t plen;
if (len < 1)
return (-1);
memcpy(&pfxlen, p, 1);
p += 1;
plen = 1;
bzero(prefix, sizeof(struct bgpd_addr));
for (i = 0; i <= 15; i++) {
if (pfxlen > i * 8) {
if (len - plen < 1)
return (-1);
memcpy(&prefix->v6.s6_addr[i], p++, 1);
plen++;
}
}
prefix->af = AF_INET6;
*prefixlen = pfxlen;
return (plen);
}
void
rde_update_err(struct rde_peer *peer, u_int8_t error, u_int8_t suberr,
void *data, u_int16_t size)
{
struct buf *wbuf;
if ((wbuf = imsg_create(ibuf_se, IMSG_UPDATE_ERR, peer->conf.id, 0,
size + sizeof(error) + sizeof(suberr))) == NULL)
fatal("imsg_create error");
if (imsg_add(wbuf, &error, sizeof(error)) == -1 ||
imsg_add(wbuf, &suberr, sizeof(suberr)) == -1 ||
imsg_add(wbuf, data, size) == -1)
fatal("imsg_add error");
imsg_close(ibuf_se, wbuf);
peer->state = PEER_ERR;
}
void
rde_update_log(const char *message, u_int16_t rid,
const struct rde_peer *peer, const struct bgpd_addr *next,
const struct bgpd_addr *prefix, u_int8_t prefixlen)
{
char *l = NULL;
char *n = NULL;
char *p = NULL;
if (!(conf->log & BGPD_LOG_UPDATES))
return;
if (next != NULL)
if (asprintf(&n, " via %s", log_addr(next)) == -1)
n = NULL;
if (asprintf(&p, "%s/%u", log_addr(prefix), prefixlen) == -1)
p = NULL;
l = log_fmt_peer(&peer->conf);
log_info("Rib %s: %s AS%s: %s %s%s", ribs[rid].name,
l, log_as(peer->conf.remote_as), message,
p ? p : "out of memory", n ? n : "");
free(l);
free(n);
free(p);
}
/*
* 4-Byte ASN helper function.
* Two scenarios need to be considered:
* - NEW session with NEW attributes present -> just remove the attributes
* - OLD session with NEW attributes present -> try to merge them
*/
void
rde_as4byte_fixup(struct rde_peer *peer, struct rde_aspath *a)
{
struct attr *nasp, *naggr, *oaggr;
u_int32_t as;
/*
* if either ATTR_AS4_AGGREGATOR or ATTR_AS4_PATH is present
* try to fixup the attributes.
* Do not fixup if F_ATTR_PARSE_ERR is set.
*/
if (!(a->flags & F_ATTR_AS4BYTE_NEW) || a->flags & F_ATTR_PARSE_ERR)
return;
/* first get the attributes */
nasp = attr_optget(a, ATTR_AS4_PATH);
naggr = attr_optget(a, ATTR_AS4_AGGREGATOR);
if (rde_as4byte(peer)) {
/* NEW session using 4-byte ASNs */
if (nasp)
attr_free(a, nasp);
if (naggr)
attr_free(a, naggr);
return;
}
/* OLD session using 2-byte ASNs */
/* try to merge the new attributes into the old ones */
if ((oaggr = attr_optget(a, ATTR_AGGREGATOR))) {
memcpy(&as, oaggr->data, sizeof(as));
if (ntohl(as) != AS_TRANS) {
/* per RFC ignore AS4_PATH and AS4_AGGREGATOR */
if (nasp)
attr_free(a, nasp);
if (naggr)
attr_free(a, naggr);
return;
}
if (naggr) {
/* switch over to new AGGREGATOR */
attr_free(a, oaggr);
if (attr_optadd(a, ATTR_OPTIONAL | ATTR_TRANSITIVE,
ATTR_AGGREGATOR, naggr->data, naggr->len))
fatalx("attr_optadd failed but impossible");
}
}
/* there is no need for AS4_AGGREGATOR any more */
if (naggr)
attr_free(a, naggr);
/* merge AS4_PATH with ASPATH */
if (nasp)
aspath_merge(a, nasp);
}
/*
* route reflector helper function
*/
void
rde_reflector(struct rde_peer *peer, struct rde_aspath *asp)
{
struct attr *a;
u_int8_t *p;
u_int16_t len;
u_int32_t id;
/* do not consider updates with parse errors */
if (asp->flags & F_ATTR_PARSE_ERR)
return;
/* check for originator id if eq router_id drop */
if ((a = attr_optget(asp, ATTR_ORIGINATOR_ID)) != NULL) {
if (memcmp(&conf->bgpid, a->data, sizeof(conf->bgpid)) == 0) {
/* this is coming from myself */
asp->flags |= F_ATTR_LOOP;
return;
}
} else if (conf->flags & BGPD_FLAG_REFLECTOR) {
if (peer->conf.ebgp == 0)
id = htonl(peer->remote_bgpid);
else
id = conf->bgpid;
if (attr_optadd(asp, ATTR_OPTIONAL, ATTR_ORIGINATOR_ID,
&id, sizeof(u_int32_t)) == -1)
fatalx("attr_optadd failed but impossible");
}
/* check for own id in the cluster list */
if (conf->flags & BGPD_FLAG_REFLECTOR) {
if ((a = attr_optget(asp, ATTR_CLUSTER_LIST)) != NULL) {
for (len = 0; len < a->len;
len += sizeof(conf->clusterid))
/* check if coming from my cluster */
if (memcmp(&conf->clusterid, a->data + len,
sizeof(conf->clusterid)) == 0) {
asp->flags |= F_ATTR_LOOP;
return;
}
/* prepend own clusterid by replacing attribute */
len = a->len + sizeof(conf->clusterid);
if (len < a->len)
fatalx("rde_reflector: cluster-list overflow");
if ((p = malloc(len)) == NULL)
fatal("rde_reflector");
memcpy(p, &conf->clusterid, sizeof(conf->clusterid));
memcpy(p + sizeof(conf->clusterid), a->data, a->len);
attr_free(asp, a);
if (attr_optadd(asp, ATTR_OPTIONAL, ATTR_CLUSTER_LIST,
p, len) == -1)
fatalx("attr_optadd failed but impossible");
free(p);
} else if (attr_optadd(asp, ATTR_OPTIONAL, ATTR_CLUSTER_LIST,
&conf->clusterid, sizeof(conf->clusterid)) == -1)
fatalx("attr_optadd failed but impossible");
}
}
/*
* control specific functions
*/
void
rde_dump_rib_as(struct prefix *p, struct rde_aspath *asp, pid_t pid, int flags)
{
struct ctl_show_rib rib;
struct buf *wbuf;
struct attr *a;
void *bp;
u_int8_t l;
bzero(&rib, sizeof(rib));
rib.lastchange = p->lastchange;
rib.local_pref = asp->lpref;
rib.med = asp->med;
rib.prefix_cnt = asp->prefix_cnt;
rib.active_cnt = asp->active_cnt;
strlcpy(rib.descr, asp->peer->conf.descr, sizeof(rib.descr));
memcpy(&rib.remote_addr, &asp->peer->remote_addr,
sizeof(rib.remote_addr));
rib.remote_id = asp->peer->remote_bgpid;
if (asp->nexthop != NULL) {
memcpy(&rib.true_nexthop, &asp->nexthop->true_nexthop,
sizeof(rib.true_nexthop));
memcpy(&rib.exit_nexthop, &asp->nexthop->exit_nexthop,
sizeof(rib.exit_nexthop));
} else {
/* announced network may have a NULL nexthop */
bzero(&rib.true_nexthop, sizeof(rib.true_nexthop));
bzero(&rib.exit_nexthop, sizeof(rib.exit_nexthop));
rib.true_nexthop.af = p->prefix->af;
rib.exit_nexthop.af = p->prefix->af;
}
pt_getaddr(p->prefix, &rib.prefix);
rib.prefixlen = p->prefix->prefixlen;
rib.origin = asp->origin;
rib.flags = 0;
if (p->rib->active == p)
rib.flags |= F_RIB_ACTIVE;
if (asp->peer->conf.ebgp == 0)
rib.flags |= F_RIB_INTERNAL;
if (asp->flags & F_PREFIX_ANNOUNCED)
rib.flags |= F_RIB_ANNOUNCE;
if (asp->nexthop == NULL || asp->nexthop->state == NEXTHOP_REACH)
rib.flags |= F_RIB_ELIGIBLE;
if (asp->flags & F_ATTR_LOOP)
rib.flags &= ~F_RIB_ELIGIBLE;
rib.aspath_len = aspath_length(asp->aspath);
if ((wbuf = imsg_create(ibuf_se_ctl, IMSG_CTL_SHOW_RIB, 0, pid,
sizeof(rib) + rib.aspath_len)) == NULL)
return;
if (imsg_add(wbuf, &rib, sizeof(rib)) == -1 ||
imsg_add(wbuf, aspath_dump(asp->aspath),
rib.aspath_len) == -1)
return;
imsg_close(ibuf_se_ctl, wbuf);
if (flags & F_CTL_DETAIL)
for (l = 0; l < asp->others_len; l++) {
if ((a = asp->others[l]) == NULL)
break;
if ((wbuf = imsg_create(ibuf_se_ctl,
IMSG_CTL_SHOW_RIB_ATTR, 0, pid,
attr_optlen(a))) == NULL)
return;
if ((bp = buf_reserve(wbuf, attr_optlen(a))) == NULL) {
buf_free(wbuf);
return;
}
if (attr_write(bp, attr_optlen(a), a->flags,
a->type, a->data, a->len) == -1) {
buf_free(wbuf);
return;
}
imsg_close(ibuf_se_ctl, wbuf);
}
}
void
rde_dump_filterout(struct rde_peer *peer, struct prefix *p,
struct ctl_show_rib_request *req)
{
struct bgpd_addr addr;
struct rde_aspath *asp;
enum filter_actions a;
if (up_test_update(peer, p) != 1)
return;
pt_getaddr(p->prefix, &addr);
a = rde_filter(1 /* XXX */, &asp, rules_l, peer, p->aspath, &addr,
p->prefix->prefixlen, p->aspath->peer, DIR_OUT);
if (asp)
asp->peer = p->aspath->peer;
else
asp = p->aspath;
if (a == ACTION_ALLOW)
rde_dump_rib_as(p, asp, req->pid, req->flags);
if (asp != p->aspath)
path_put(asp);
}
void
rde_dump_filter(struct prefix *p, struct ctl_show_rib_request *req)
{
struct rde_peer *peer;
if (req->flags & F_CTL_ADJ_IN ||
!(req->flags & (F_CTL_ADJ_IN|F_CTL_ADJ_OUT))) {
if (req->peerid && req->peerid != p->aspath->peer->conf.id)
return;
if (req->type == IMSG_CTL_SHOW_RIB_AS &&
!aspath_match(p->aspath->aspath, req->as.type, req->as.as))
return;
if (req->type == IMSG_CTL_SHOW_RIB_COMMUNITY &&
!rde_filter_community(p->aspath, req->community.as,
req->community.type))
return;
rde_dump_rib_as(p, p->aspath, req->pid, req->flags);
} else if (req->flags & F_CTL_ADJ_OUT) {
if (p->rib->active != p)
/* only consider active prefix */
return;
if (req->peerid) {
if ((peer = peer_get(req->peerid)) != NULL)
rde_dump_filterout(peer, p, req);
return;
}
}
}
void
rde_dump_upcall(struct rib_entry *re, void *ptr)
{
struct prefix *p;
struct rde_dump_ctx *ctx = ptr;
LIST_FOREACH(p, &re->prefix_h, rib_l)
rde_dump_filter(p, &ctx->req);
}
void
rde_dump_prefix_upcall(struct rib_entry *re, void *ptr)
{
struct rde_dump_ctx *ctx = ptr;
struct prefix *p;
struct pt_entry *pt;
struct bgpd_addr addr;
pt = re->prefix;
pt_getaddr(pt, &addr);
if (addr.af != ctx->req.prefix.af)
return;
if (ctx->req.prefixlen > pt->prefixlen)
return;
if (!prefix_compare(&ctx->req.prefix, &addr, ctx->req.prefixlen))
LIST_FOREACH(p, &re->prefix_h, rib_l)
rde_dump_filter(p, &ctx->req);
}
void
rde_dump_ctx_new(struct ctl_show_rib_request *req, pid_t pid,
enum imsg_type type)
{
struct rde_dump_ctx *ctx;
struct rib_entry *re;
u_int error;
u_int16_t id;
if ((ctx = calloc(1, sizeof(*ctx))) == NULL) {
log_warn("rde_dump_ctx_new");
error = CTL_RES_NOMEM;
imsg_compose(ibuf_se_ctl, IMSG_CTL_RESULT, 0, pid, -1, &error,
sizeof(error));
return;
}
if ((id = rib_find(req->rib)) == RIB_FAILED) {
log_warnx("rde_dump_ctx_new: no such rib %s", req->rib);
error = CTL_RES_NOSUCHPEER;
imsg_compose(ibuf_se_ctl, IMSG_CTL_RESULT, 0, pid, -1, &error,
sizeof(error));
return;
}
memcpy(&ctx->req, req, sizeof(struct ctl_show_rib_request));
ctx->req.pid = pid;
ctx->req.type = type;
ctx->ribctx.ctx_count = RDE_RUNNER_ROUNDS;
ctx->ribctx.ctx_rib = &ribs[id];
switch (ctx->req.type) {
case IMSG_CTL_SHOW_NETWORK:
ctx->ribctx.ctx_upcall = network_dump_upcall;
break;
case IMSG_CTL_SHOW_RIB:
case IMSG_CTL_SHOW_RIB_AS:
case IMSG_CTL_SHOW_RIB_COMMUNITY:
ctx->ribctx.ctx_upcall = rde_dump_upcall;
break;
case IMSG_CTL_SHOW_RIB_PREFIX:
if (req->flags & F_LONGER) {
ctx->ribctx.ctx_upcall = rde_dump_prefix_upcall;
break;
}
if (req->prefixlen == 32)
re = rib_lookup(&ribs[id], &req->prefix);
else
re = rib_get(&ribs[id], &req->prefix, req->prefixlen);
if (re)
rde_dump_upcall(re, ctx);
rde_dump_done(ctx);
return;
default:
fatalx("rde_dump_ctx_new: unsupported imsg type");
}
ctx->ribctx.ctx_done = rde_dump_done;
ctx->ribctx.ctx_arg = ctx;
ctx->ribctx.ctx_af = ctx->req.af;
rib_dump_r(&ctx->ribctx);
}
void
rde_dump_done(void *arg)
{
struct rde_dump_ctx *ctx = arg;
imsg_compose(ibuf_se_ctl, IMSG_CTL_END, 0, ctx->req.pid,
-1, NULL, 0);
free(ctx);
}
void
rde_dump_mrt_new(struct mrt *mrt, pid_t pid, int fd)
{
struct rde_mrt_ctx *ctx;
u_int16_t id;
if ((ctx = calloc(1, sizeof(*ctx))) == NULL) {
log_warn("rde_dump_mrt_new");
return;
}
memcpy(&ctx->mrt, mrt, sizeof(struct mrt));
TAILQ_INIT(&ctx->mrt.wbuf.bufs);
ctx->mrt.wbuf.fd = fd;
ctx->mrt.state = MRT_STATE_RUNNING;
id = rib_find(ctx->mrt.rib);
if (id == RIB_FAILED) {
log_warnx("non existing RIB %s for mrt dump", ctx->mrt.rib);
free(ctx);
return;
}
ctx->ribctx.ctx_count = RDE_RUNNER_ROUNDS;
ctx->ribctx.ctx_rib = &ribs[id];
ctx->ribctx.ctx_upcall = mrt_dump_upcall;
ctx->ribctx.ctx_done = mrt_dump_done;
ctx->ribctx.ctx_arg = &ctx->mrt;
ctx->ribctx.ctx_af = AF_UNSPEC;
LIST_INSERT_HEAD(&rde_mrts, &ctx->mrt, entry);
rde_mrt_cnt++;
rib_dump_r(&ctx->ribctx);
}
/*
* kroute specific functions
*/
void
rde_send_kroute(struct prefix *new, struct prefix *old)
{
struct kroute_label kl;
struct kroute6_label kl6;
struct bgpd_addr addr;
struct prefix *p;
enum imsg_type type;
/*
* Make sure that self announce prefixes are not commited to the
* FIB. If both prefixes are unreachable no update is needed.
*/
if ((old == NULL || old->aspath->flags & F_PREFIX_ANNOUNCED) &&
(new == NULL || new->aspath->flags & F_PREFIX_ANNOUNCED))
return;
if (new == NULL || new->aspath->flags & F_PREFIX_ANNOUNCED) {
type = IMSG_KROUTE_DELETE;
p = old;
} else {
type = IMSG_KROUTE_CHANGE;
p = new;
}
pt_getaddr(p->prefix, &addr);
switch (addr.af) {
case AF_INET:
bzero(&kl, sizeof(kl));
kl.kr.prefix.s_addr = addr.v4.s_addr;
kl.kr.prefixlen = p->prefix->prefixlen;
if (p->aspath->flags & F_NEXTHOP_REJECT)
kl.kr.flags |= F_REJECT;
if (p->aspath->flags & F_NEXTHOP_BLACKHOLE)
kl.kr.flags |= F_BLACKHOLE;
if (type == IMSG_KROUTE_CHANGE)
kl.kr.nexthop.s_addr =
p->aspath->nexthop->true_nexthop.v4.s_addr;
strlcpy(kl.label, rtlabel_id2name(p->aspath->rtlabelid),
sizeof(kl.label));
if (imsg_compose(ibuf_main, type, 0, 0, -1, &kl,
sizeof(kl)) == -1)
fatal("imsg_compose error");
break;
case AF_INET6:
bzero(&kl6, sizeof(kl6));
memcpy(&kl6.kr.prefix, &addr.v6, sizeof(struct in6_addr));
kl6.kr.prefixlen = p->prefix->prefixlen;
if (p->aspath->flags & F_NEXTHOP_REJECT)
kl6.kr.flags |= F_REJECT;
if (p->aspath->flags & F_NEXTHOP_BLACKHOLE)
kl6.kr.flags |= F_BLACKHOLE;
if (type == IMSG_KROUTE_CHANGE) {
type = IMSG_KROUTE6_CHANGE;
memcpy(&kl6.kr.nexthop,
&p->aspath->nexthop->true_nexthop.v6,
sizeof(struct in6_addr));
} else
type = IMSG_KROUTE6_DELETE;
strlcpy(kl6.label, rtlabel_id2name(p->aspath->rtlabelid),
sizeof(kl6.label));
if (imsg_compose(ibuf_main, type, 0, 0, -1, &kl6,
sizeof(kl6)) == -1)
fatal("imsg_compose error");
break;
}
}
/*
* pf table specific functions
*/
void
rde_send_pftable(u_int16_t id, struct bgpd_addr *addr,
u_int8_t len, int del)
{
struct pftable_msg pfm;
if (id == 0)
return;
/* do not run while cleaning up */
if (rde_quit)
return;
bzero(&pfm, sizeof(pfm));
strlcpy(pfm.pftable, pftable_id2name(id), sizeof(pfm.pftable));
memcpy(&pfm.addr, addr, sizeof(pfm.addr));
pfm.len = len;
if (imsg_compose(ibuf_main,
del ? IMSG_PFTABLE_REMOVE : IMSG_PFTABLE_ADD,
0, 0, -1, &pfm, sizeof(pfm)) == -1)
fatal("imsg_compose error");
}
void
rde_send_pftable_commit(void)
{
/* do not run while cleaning up */
if (rde_quit)
return;
if (imsg_compose(ibuf_main, IMSG_PFTABLE_COMMIT, 0, 0, -1, NULL, 0) ==
-1)
fatal("imsg_compose error");
}
/*
* nexthop specific functions
*/
void
rde_send_nexthop(struct bgpd_addr *next, int valid)
{
int type;
if (valid)
type = IMSG_NEXTHOP_ADD;
else
type = IMSG_NEXTHOP_REMOVE;
if (imsg_compose(ibuf_main, type, 0, 0, -1, next,
sizeof(struct bgpd_addr)) == -1)
fatal("imsg_compose error");
}
/*
* soft reconfig specific functions
*/
void
rde_softreconfig_out(struct rib_entry *re, void *ptr)
{
struct prefix *p = re->active;
struct pt_entry *pt;
struct rde_peer *peer;
struct rde_aspath *oasp, *nasp;
enum filter_actions oa, na;
struct bgpd_addr addr;
if (p == NULL)
return;
pt = re->prefix;
pt_getaddr(pt, &addr);
LIST_FOREACH(peer, &peerlist, peer_l) {
if (peer->conf.id == 0)
continue;
if (peer->ribid != re->ribid)
continue;
if (peer->reconf_out == 0)
continue;
if (up_test_update(peer, p) != 1)
continue;
oa = rde_filter(re->ribid, &oasp, rules_l, peer, p->aspath,
&addr, pt->prefixlen, p->aspath->peer, DIR_OUT);
na = rde_filter(re->ribid, &nasp, newrules, peer, p->aspath,
&addr, pt->prefixlen, p->aspath->peer, DIR_OUT);
oasp = oasp != NULL ? oasp : p->aspath;
nasp = nasp != NULL ? nasp : p->aspath;
if (oa == ACTION_DENY && na == ACTION_DENY)
/* nothing todo */
goto done;
if (oa == ACTION_DENY && na == ACTION_ALLOW) {
/* send update */
up_generate(peer, nasp, &addr, pt->prefixlen);
goto done;
}
if (oa == ACTION_ALLOW && na == ACTION_DENY) {
/* send withdraw */
up_generate(peer, NULL, &addr, pt->prefixlen);
goto done;
}
if (oa == ACTION_ALLOW && na == ACTION_ALLOW) {
if (path_compare(nasp, oasp) == 0)
goto done;
/* send update */
up_generate(peer, nasp, &addr, pt->prefixlen);
}
done:
if (oasp != p->aspath)
path_put(oasp);
if (nasp != p->aspath)
path_put(nasp);
}
}
void
rde_softreconfig_in(struct rib_entry *re, void *ptr)
{
struct prefix *p, *np;
struct pt_entry *pt;
struct rde_peer *peer;
struct rde_aspath *asp, *oasp, *nasp;
enum filter_actions oa, na;
struct bgpd_addr addr;
u_int16_t i;
pt = re->prefix;
pt_getaddr(pt, &addr);
for (p = LIST_FIRST(&re->prefix_h); p != NULL; p = np) {
np = LIST_NEXT(p, rib_l);
/* store aspath as prefix may change till we're done */
asp = p->aspath;
peer = asp->peer;
/* XXX how can this happen ??? */
if (peer->reconf_in == 0)
continue;
for (i = 1; i < rib_size; i++) {
/* only active ribs need a softreconfig rerun */
if (ribs[i].state != RIB_ACTIVE)
continue;
/* check if prefix changed */
oa = rde_filter(i, &oasp, rules_l, peer, asp, &addr,
pt->prefixlen, peer, DIR_IN);
na = rde_filter(i, &nasp, newrules, peer, asp, &addr,
pt->prefixlen, peer, DIR_IN);
oasp = oasp != NULL ? oasp : asp;
nasp = nasp != NULL ? nasp : asp;
if (oa == ACTION_DENY && na == ACTION_DENY)
/* nothing todo */
goto done;
if (oa == ACTION_DENY && na == ACTION_ALLOW) {
/* update Local-RIB */
path_update(&ribs[i], peer, nasp, &addr,
pt->prefixlen);
goto done;
}
if (oa == ACTION_ALLOW && na == ACTION_DENY) {
/* remove from Local-RIB */
prefix_remove(&ribs[i], peer, &addr,
pt->prefixlen, 0);
goto done;
}
if (oa == ACTION_ALLOW && na == ACTION_ALLOW) {
if (path_compare(nasp, oasp) == 0)
goto done;
/* send update */
path_update(&ribs[i], peer, nasp, &addr,
pt->prefixlen);
}
done:
if (oasp != asp)
path_put(oasp);
if (nasp != asp)
path_put(nasp);
}
}
}
void
rde_softreconfig_load(struct rib_entry *re, void *ptr)
{
struct rib *rib = ptr;
struct prefix *p, *np;
struct pt_entry *pt;
struct rde_peer *peer;
struct rde_aspath *asp, *nasp;
enum filter_actions action;
struct bgpd_addr addr;
pt = re->prefix;
pt_getaddr(pt, &addr);
for (p = LIST_FIRST(&re->prefix_h); p != NULL; p = np) {
np = LIST_NEXT(p, rib_l);
/* store aspath as prefix may change till we're done */
asp = p->aspath;
peer = asp->peer;
action = rde_filter(rib->id, &nasp, newrules, peer, asp, &addr,
pt->prefixlen, peer, DIR_IN);
nasp = nasp != NULL ? nasp : asp;
if (action == ACTION_ALLOW) {
/* update Local-RIB */
path_update(rib, peer, nasp, &addr, pt->prefixlen);
}
if (nasp != asp)
path_put(nasp);
}
}
/*
* update specific functions
*/
u_char queue_buf[4096];
void
rde_up_dump_upcall(struct rib_entry *re, void *ptr)
{
struct rde_peer *peer = ptr;
if (re->ribid != peer->ribid)
fatalx("King Bula: monsterous evil horror.");
if (re->active == NULL)
return;
up_generate_updates(rules_l, peer, re->active, NULL);
}
void
rde_generate_updates(u_int16_t ribid, struct prefix *new, struct prefix *old)
{
struct rde_peer *peer;
/*
* If old is != NULL we know it was active and should be removed.
* If new is != NULL we know it is reachable and then we should
* generate an update.
*/
if (old == NULL && new == NULL)
return;
LIST_FOREACH(peer, &peerlist, peer_l) {
if (peer->conf.id == 0)
continue;
if (peer->ribid != ribid)
continue;
if (peer->state != PEER_UP)
continue;
up_generate_updates(rules_l, peer, new, old);
}
}
void
rde_update_queue_runner(void)
{
struct rde_peer *peer;
int r, sent, max = RDE_RUNNER_ROUNDS;
u_int16_t len, wd_len, wpos;
len = sizeof(queue_buf) - MSGSIZE_HEADER;
do {
sent = 0;
LIST_FOREACH(peer, &peerlist, peer_l) {
if (peer->conf.id == 0)
continue;
if (peer->state != PEER_UP)
continue;
/* first withdraws */
wpos = 2; /* reserve space for the length field */
r = up_dump_prefix(queue_buf + wpos, len - wpos - 2,
&peer->withdraws, peer);
wd_len = r;
/* write withdraws length filed */
wd_len = htons(wd_len);
memcpy(queue_buf, &wd_len, 2);
wpos += r;
/* now bgp path attributes */
r = up_dump_attrnlri(queue_buf + wpos, len - wpos,
peer);
wpos += r;
if (wpos == 4)
/*
* No packet to send. The 4 bytes are the
* needed withdraw and path attribute length.
*/
continue;
/* finally send message to SE */
if (imsg_compose(ibuf_se, IMSG_UPDATE, peer->conf.id,
0, -1, queue_buf, wpos) == -1)
fatal("imsg_compose error");
sent++;
}
max -= sent;
} while (sent != 0 && max > 0);
}
void
rde_update6_queue_runner(void)
{
struct rde_peer *peer;
u_char *b;
int sent, max = RDE_RUNNER_ROUNDS / 2;
u_int16_t len;
/* first withdraws ... */
do {
sent = 0;
LIST_FOREACH(peer, &peerlist, peer_l) {
if (peer->conf.id == 0)
continue;
if (peer->state != PEER_UP)
continue;
len = sizeof(queue_buf) - MSGSIZE_HEADER;
b = up_dump_mp_unreach(queue_buf, &len, peer);
if (b == NULL)
continue;
/* finally send message to SE */
if (imsg_compose(ibuf_se, IMSG_UPDATE, peer->conf.id,
0, -1, b, len) == -1)
fatal("imsg_compose error");
sent++;
}
max -= sent;
} while (sent != 0 && max > 0);
/* ... then updates */
max = RDE_RUNNER_ROUNDS / 2;
do {
sent = 0;
LIST_FOREACH(peer, &peerlist, peer_l) {
if (peer->conf.id == 0)
continue;
if (peer->state != PEER_UP)
continue;
len = sizeof(queue_buf) - MSGSIZE_HEADER;
b = up_dump_mp_reach(queue_buf, &len, peer);
if (b == NULL)
continue;
/* finally send message to SE */
if (imsg_compose(ibuf_se, IMSG_UPDATE, peer->conf.id,
0, -1, b, len) == -1)
fatal("imsg_compose error");
sent++;
}
max -= sent;
} while (sent != 0 && max > 0);
}
/*
* generic helper function
*/
u_int32_t
rde_local_as(void)
{
return (conf->as);
}
int
rde_noevaluate(void)
{
/* do not run while cleaning up */
if (rde_quit)
return (1);
return (conf->flags & BGPD_FLAG_NO_EVALUATE);
}
int
rde_decisionflags(void)
{
return (conf->flags & BGPD_FLAG_DECISION_MASK);
}
int
rde_as4byte(struct rde_peer *peer)
{
return (peer->capa_announced.as4byte && peer->capa_received.as4byte);
}
/*
* peer functions
*/
struct peer_table {
struct rde_peer_head *peer_hashtbl;
u_int32_t peer_hashmask;
} peertable;
#define PEER_HASH(x) \
&peertable.peer_hashtbl[(x) & peertable.peer_hashmask]
void
peer_init(u_int32_t hashsize)
{
struct peer_config pc;
struct in_addr id;
u_int32_t hs, i;
for (hs = 1; hs < hashsize; hs <<= 1)
;
peertable.peer_hashtbl = calloc(hs, sizeof(struct rde_peer_head));
if (peertable.peer_hashtbl == NULL)
fatal("peer_init");
for (i = 0; i < hs; i++)
LIST_INIT(&peertable.peer_hashtbl[i]);
LIST_INIT(&peerlist);
peertable.peer_hashmask = hs - 1;
bzero(&pc, sizeof(pc));
pc.remote_as = conf->as;
id.s_addr = conf->bgpid;
snprintf(pc.descr, sizeof(pc.descr), "LOCAL: ID %s", inet_ntoa(id));
peerself = peer_add(0, &pc);
if (peerself == NULL)
fatalx("peer_init add self");
peerself->state = PEER_UP;
peerself->remote_bgpid = ntohl(conf->bgpid);
peerself->short_as = conf->short_as;
}
void
peer_shutdown(void)
{
u_int32_t i;
for (i = 0; i <= peertable.peer_hashmask; i++)
if (!LIST_EMPTY(&peertable.peer_hashtbl[i]))
log_warnx("peer_free: free non-free table");
free(peertable.peer_hashtbl);
}
struct rde_peer *
peer_get(u_int32_t id)
{
struct rde_peer_head *head;
struct rde_peer *peer;
head = PEER_HASH(id);
LIST_FOREACH(peer, head, hash_l) {
if (peer->conf.id == id)
return (peer);
}
return (NULL);
}
struct rde_peer *
peer_add(u_int32_t id, struct peer_config *p_conf)
{
struct rde_peer_head *head;
struct rde_peer *peer;
if (peer_get(id))
return (NULL);
peer = calloc(1, sizeof(struct rde_peer));
if (peer == NULL)
fatal("peer_add");
LIST_INIT(&peer->path_h);
memcpy(&peer->conf, p_conf, sizeof(struct peer_config));
peer->remote_bgpid = 0;
peer->ribid = rib_find(peer->conf.rib);
peer->state = PEER_NONE;
up_init(peer);
head = PEER_HASH(id);
LIST_INSERT_HEAD(head, peer, hash_l);
LIST_INSERT_HEAD(&peerlist, peer, peer_l);
return (peer);
}
void
peer_localaddrs(struct rde_peer *peer, struct bgpd_addr *laddr)
{
struct ifaddrs *ifap, *ifa, *match;
if (getifaddrs(&ifap) == -1)
fatal("getifaddrs");
for (match = ifap; match != NULL; match = match->ifa_next)
if (sa_cmp(laddr, match->ifa_addr) == 0)
break;
if (match == NULL)
fatalx("peer_localaddrs: local address not found");
for (ifa = ifap; ifa != NULL; ifa = ifa->ifa_next) {
if (ifa->ifa_addr->sa_family == AF_INET &&
strcmp(ifa->ifa_name, match->ifa_name) == 0) {
if (ifa->ifa_addr->sa_family ==
match->ifa_addr->sa_family)
ifa = match;
peer->local_v4_addr.af = AF_INET;
peer->local_v4_addr.v4.s_addr =
((struct sockaddr_in *)ifa->ifa_addr)->
sin_addr.s_addr;
break;
}
}
for (ifa = ifap; ifa != NULL; ifa = ifa->ifa_next) {
if (ifa->ifa_addr->sa_family == AF_INET6 &&
strcmp(ifa->ifa_name, match->ifa_name) == 0) {
/*
* only accept global scope addresses except explicitly
* specified.
*/
if (ifa->ifa_addr->sa_family ==
match->ifa_addr->sa_family)
ifa = match;
else if (IN6_IS_ADDR_LINKLOCAL(
&((struct sockaddr_in6 *)ifa->
ifa_addr)->sin6_addr) ||
IN6_IS_ADDR_SITELOCAL(
&((struct sockaddr_in6 *)ifa->
ifa_addr)->sin6_addr))
continue;
peer->local_v6_addr.af = AF_INET6;
memcpy(&peer->local_v6_addr.v6,
&((struct sockaddr_in6 *)ifa->ifa_addr)->
sin6_addr, sizeof(struct in6_addr));
peer->local_v6_addr.scope_id =
((struct sockaddr_in6 *)ifa->ifa_addr)->
sin6_scope_id;
break;
}
}
freeifaddrs(ifap);
}
void
peer_up(u_int32_t id, struct session_up *sup)
{
struct rde_peer *peer;
peer = peer_get(id);
if (peer == NULL) {
log_warnx("peer_up: peer id %d already exists", id);
return;
}
if (peer->state != PEER_DOWN && peer->state != PEER_NONE)
fatalx("peer_up: bad state");
peer->remote_bgpid = ntohl(sup->remote_bgpid);
peer->short_as = sup->short_as;
memcpy(&peer->remote_addr, &sup->remote_addr,
sizeof(peer->remote_addr));
memcpy(&peer->capa_announced, &sup->capa_announced,
sizeof(peer->capa_announced));
memcpy(&peer->capa_received, &sup->capa_received,
sizeof(peer->capa_received));
peer_localaddrs(peer, &sup->local_addr);
peer->state = PEER_UP;
up_init(peer);
if (rde_noevaluate())
/*
* no need to dump the table to the peer, there are no active
* prefixes anyway. This is a speed up hack.
*/
return;
peer_dump(id, AFI_ALL, SAFI_ALL);
}
void
peer_down(u_int32_t id)
{
struct rde_peer *peer;
struct rde_aspath *asp, *nasp;
peer = peer_get(id);
if (peer == NULL) {
log_warnx("peer_down: unknown peer id %d", id);
return;
}
peer->remote_bgpid = 0;
peer->state = PEER_DOWN;
up_down(peer);
/* walk through per peer RIB list and remove all prefixes. */
for (asp = LIST_FIRST(&peer->path_h); asp != NULL; asp = nasp) {
nasp = LIST_NEXT(asp, peer_l);
path_remove(asp);
}
LIST_INIT(&peer->path_h);
peer->prefix_cnt = 0;
/* Deletions are performed in path_remove() */
rde_send_pftable_commit();
LIST_REMOVE(peer, hash_l);
LIST_REMOVE(peer, peer_l);
free(peer);
}
void
peer_dump(u_int32_t id, u_int16_t afi, u_int8_t safi)
{
struct rde_peer *peer;
peer = peer_get(id);
if (peer == NULL) {
log_warnx("peer_dump: unknown peer id %d", id);
return;
}
if (afi == AFI_ALL || afi == AFI_IPv4)
if (safi == SAFI_ALL || safi == SAFI_UNICAST) {
if (peer->conf.announce_type == ANNOUNCE_DEFAULT_ROUTE)
up_generate_default(rules_l, peer, AF_INET);
else
rib_dump(&ribs[peer->ribid], rde_up_dump_upcall,
peer, AF_INET);
if (peer->capa_received.restart &&
peer->capa_announced.restart)
peer_send_eor(peer, AFI_IPv4, SAFI_UNICAST);
}
if (afi == AFI_ALL || afi == AFI_IPv6)
if (safi == SAFI_ALL || safi == SAFI_UNICAST) {
if (peer->conf.announce_type == ANNOUNCE_DEFAULT_ROUTE)
up_generate_default(rules_l, peer, AF_INET6);
else
rib_dump(&ribs[peer->ribid], rde_up_dump_upcall,
peer, AF_INET6);
if (peer->capa_received.restart &&
peer->capa_announced.restart)
peer_send_eor(peer, AFI_IPv6, SAFI_UNICAST);
}
}
/* End-of-RIB marker, RFC 4724 */
void
peer_send_eor(struct rde_peer *peer, u_int16_t afi, u_int16_t safi)
{
if (afi == AFI_IPv4 && safi == SAFI_UNICAST) {
u_char null[4];
bzero(&null, 4);
if (imsg_compose(ibuf_se, IMSG_UPDATE, peer->conf.id,
0, -1, &null, 4) == -1)
fatal("imsg_compose error in peer_send_eor");
} else {
u_int16_t i;
u_char buf[10];
i = 0; /* v4 withdrawn len */
bcopy(&i, &buf[0], sizeof(i));
i = htons(6); /* path attr len */
bcopy(&i, &buf[2], sizeof(i));
buf[4] = ATTR_OPTIONAL;
buf[5] = ATTR_MP_UNREACH_NLRI;
buf[6] = 3; /* withdrawn len */
i = htons(afi);
bcopy(&i, &buf[7], sizeof(i));
buf[9] = safi;
if (imsg_compose(ibuf_se, IMSG_UPDATE, peer->conf.id,
0, -1, &buf, 10) == -1)
fatal("imsg_compose error in peer_send_eor");
}
}
/*
* network announcement stuff
*/
void
network_init(struct network_head *net_l)
{
struct network *n;
reloadtime = time(NULL);
while ((n = TAILQ_FIRST(net_l)) != NULL) {
TAILQ_REMOVE(net_l, n, entry);
network_add(&n->net, 1);
free(n);
}
}
void
network_add(struct network_config *nc, int flagstatic)
{
struct rde_aspath *asp;
u_int16_t i;
asp = path_get();
asp->aspath = aspath_get(NULL, 0);
asp->origin = ORIGIN_IGP;
asp->flags = F_ATTR_ORIGIN | F_ATTR_ASPATH |
F_ATTR_LOCALPREF | F_PREFIX_ANNOUNCED;
/* the nexthop is unset unless a default set overrides it */
if (!flagstatic)
asp->flags |= F_ANN_DYNAMIC;
rde_apply_set(asp, &nc->attrset, nc->prefix.af, peerself, peerself);
for (i = 1; i < rib_size; i++)
path_update(&ribs[i], peerself, asp, &nc->prefix,
nc->prefixlen);
path_put(asp);
filterset_free(&nc->attrset);
}
void
network_delete(struct network_config *nc, int flagstatic)
{
u_int32_t flags = F_PREFIX_ANNOUNCED;
u_int32_t i;
if (!flagstatic)
flags |= F_ANN_DYNAMIC;
for (i = rib_size - 1; i > 0; i--)
prefix_remove(&ribs[i], peerself, &nc->prefix, nc->prefixlen,
flags);
}
void
network_dump_upcall(struct rib_entry *re, void *ptr)
{
struct prefix *p;
struct kroute k;
struct kroute6 k6;
struct bgpd_addr addr;
struct rde_dump_ctx *ctx = ptr;
LIST_FOREACH(p, &re->prefix_h, rib_l) {
if (!(p->aspath->flags & F_PREFIX_ANNOUNCED))
continue;
if (p->prefix->af == AF_INET) {
bzero(&k, sizeof(k));
pt_getaddr(p->prefix, &addr);
k.prefix.s_addr = addr.v4.s_addr;
k.prefixlen = p->prefix->prefixlen;
if (p->aspath->peer == peerself)
k.flags = F_KERNEL;
if (imsg_compose(ibuf_se_ctl, IMSG_CTL_SHOW_NETWORK, 0,
ctx->req.pid, -1, &k, sizeof(k)) == -1)
log_warnx("network_dump_upcall: "
"imsg_compose error");
}
if (p->prefix->af == AF_INET6) {
bzero(&k6, sizeof(k6));
pt_getaddr(p->prefix, &addr);
memcpy(&k6.prefix, &addr.v6, sizeof(k6.prefix));
k6.prefixlen = p->prefix->prefixlen;
if (p->aspath->peer == peerself)
k6.flags = F_KERNEL;
if (imsg_compose(ibuf_se_ctl, IMSG_CTL_SHOW_NETWORK6, 0,
ctx->req.pid, -1, &k6, sizeof(k6)) == -1)
log_warnx("network_dump_upcall: "
"imsg_compose error");
}
}
}
/* clean up */
void
rde_shutdown(void)
{
struct rde_peer *p;
struct filter_rule *r;
u_int32_t i;
/*
* the decision process is turned off if rde_quit = 1 and
* rde_shutdown depends on this.
*/
/*
* All peers go down
*/
for (i = 0; i <= peertable.peer_hashmask; i++)
while ((p = LIST_FIRST(&peertable.peer_hashtbl[i])) != NULL)
peer_down(p->conf.id);
/* free filters */
while ((r = TAILQ_FIRST(rules_l)) != NULL) {
TAILQ_REMOVE(rules_l, r, entry);
filterset_free(&r->set);
free(r);
}
free(rules_l);
nexthop_shutdown();
path_shutdown();
aspath_shutdown();
attr_shutdown();
pt_shutdown();
peer_shutdown();
}
int
sa_cmp(struct bgpd_addr *a, struct sockaddr *b)
{
struct sockaddr_in *in_b;
struct sockaddr_in6 *in6_b;
if (a->af != b->sa_family)
return (1);
switch (a->af) {
case AF_INET:
in_b = (struct sockaddr_in *)b;
if (a->v4.s_addr != in_b->sin_addr.s_addr)
return (1);
break;
case AF_INET6:
in6_b = (struct sockaddr_in6 *)b;
#ifdef __KAME__
/* directly stolen from sbin/ifconfig/ifconfig.c */
if (IN6_IS_ADDR_LINKLOCAL(&in6_b->sin6_addr)) {
in6_b->sin6_scope_id =
ntohs(*(u_int16_t *)&in6_b->sin6_addr.s6_addr[2]);
in6_b->sin6_addr.s6_addr[2] =
in6_b->sin6_addr.s6_addr[3] = 0;
}
#endif
if (bcmp(&a->v6, &in6_b->sin6_addr,
sizeof(struct in6_addr)))
return (1);
break;
default:
fatal("king bula sez: unknown address family");
/* NOTREACHED */
}
return (0);
}
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