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|
/* $OpenBSD: rde.c,v 1.96 2014/07/12 20:16:38 krw Exp $ */
/*
* Copyright (c) 2004, 2005 Claudio Jeker <claudio@openbsd.org>
* Copyright (c) 2004 Esben Norby <norby@openbsd.org>
* 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 <sys/queue.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <err.h>
#include <errno.h>
#include <stdlib.h>
#include <signal.h>
#include <string.h>
#include <pwd.h>
#include <unistd.h>
#include <event.h>
#include "ospf.h"
#include "ospfd.h"
#include "ospfe.h"
#include "log.h"
#include "rde.h"
void rde_sig_handler(int sig, short, void *);
void rde_shutdown(void);
void rde_dispatch_imsg(int, short, void *);
void rde_dispatch_parent(int, short, void *);
void rde_dump_area(struct area *, int, pid_t);
void rde_send_summary(pid_t);
void rde_send_summary_area(struct area *, pid_t);
void rde_nbr_init(u_int32_t);
void rde_nbr_free(void);
struct rde_nbr *rde_nbr_find(u_int32_t);
struct rde_nbr *rde_nbr_new(u_int32_t, struct rde_nbr *);
void rde_nbr_del(struct rde_nbr *);
void rde_req_list_add(struct rde_nbr *, struct lsa_hdr *);
int rde_req_list_exists(struct rde_nbr *, struct lsa_hdr *);
void rde_req_list_del(struct rde_nbr *, struct lsa_hdr *);
void rde_req_list_free(struct rde_nbr *);
struct iface *rde_asext_lookup(u_int32_t, int);
void rde_asext_get(struct kroute *);
void rde_asext_put(struct kroute *);
void rde_asext_free(void);
struct lsa *orig_asext_lsa(struct kroute *, u_int32_t, u_int16_t);
struct lsa *orig_sum_lsa(struct rt_node *, struct area *, u_int8_t, int);
struct ospfd_conf *rdeconf = NULL, *nconf = NULL;
struct imsgev *iev_ospfe;
struct imsgev *iev_main;
struct rde_nbr *nbrself;
struct lsa_tree asext_tree;
/* ARGSUSED */
void
rde_sig_handler(int sig, short event, void *arg)
{
/*
* signal handler rules don't apply, libevent decouples for us
*/
switch (sig) {
case SIGINT:
case SIGTERM:
rde_shutdown();
/* NOTREACHED */
default:
fatalx("unexpected signal");
}
}
/* route decision engine */
pid_t
rde(struct ospfd_conf *xconf, int pipe_parent2rde[2], int pipe_ospfe2rde[2],
int pipe_parent2ospfe[2])
{
struct event ev_sigint, ev_sigterm;
struct timeval now;
struct area *area;
struct iface *iface;
struct passwd *pw;
struct redistribute *r;
pid_t pid;
switch (pid = fork()) {
case -1:
fatal("cannot fork");
/* NOTREACHED */
case 0:
break;
default:
return (pid);
}
rdeconf = xconf;
if ((pw = getpwnam(OSPFD_USER)) == NULL)
fatal("getpwnam");
if (chroot(pw->pw_dir) == -1)
fatal("chroot");
if (chdir("/") == -1)
fatal("chdir(\"/\")");
setproctitle("route decision engine");
ospfd_process = PROC_RDE_ENGINE;
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");
event_init();
rde_nbr_init(NBR_HASHSIZE);
lsa_init(&asext_tree);
/* setup signal handler */
signal_set(&ev_sigint, SIGINT, rde_sig_handler, NULL);
signal_set(&ev_sigterm, SIGTERM, rde_sig_handler, NULL);
signal_add(&ev_sigint, NULL);
signal_add(&ev_sigterm, NULL);
signal(SIGPIPE, SIG_IGN);
signal(SIGHUP, SIG_IGN);
/* setup pipes */
close(pipe_ospfe2rde[0]);
close(pipe_parent2rde[0]);
close(pipe_parent2ospfe[0]);
close(pipe_parent2ospfe[1]);
if ((iev_ospfe = malloc(sizeof(struct imsgev))) == NULL ||
(iev_main = malloc(sizeof(struct imsgev))) == NULL)
fatal(NULL);
imsg_init(&iev_ospfe->ibuf, pipe_ospfe2rde[1]);
iev_ospfe->handler = rde_dispatch_imsg;
imsg_init(&iev_main->ibuf, pipe_parent2rde[1]);
iev_main->handler = rde_dispatch_parent;
/* setup event handler */
iev_ospfe->events = EV_READ;
event_set(&iev_ospfe->ev, iev_ospfe->ibuf.fd, iev_ospfe->events,
iev_ospfe->handler, iev_ospfe);
event_add(&iev_ospfe->ev, NULL);
iev_main->events = EV_READ;
event_set(&iev_main->ev, iev_main->ibuf.fd, iev_main->events,
iev_main->handler, iev_main);
event_add(&iev_main->ev, NULL);
evtimer_set(&rdeconf->ev, spf_timer, rdeconf);
cand_list_init();
rt_init();
/* remove unneded stuff from config */
LIST_FOREACH(area, &rdeconf->area_list, entry)
LIST_FOREACH(iface, &area->iface_list, entry)
md_list_clr(&iface->auth_md_list);
while ((r = SIMPLEQ_FIRST(&rdeconf->redist_list)) != NULL) {
SIMPLEQ_REMOVE_HEAD(&rdeconf->redist_list, entry);
free(r);
}
gettimeofday(&now, NULL);
rdeconf->uptime = now.tv_sec;
event_dispatch();
rde_shutdown();
/* NOTREACHED */
return (0);
}
void
rde_shutdown(void)
{
struct area *a;
struct vertex *v, *nv;
stop_spf_timer(rdeconf);
cand_list_clr();
rt_clear();
while ((a = LIST_FIRST(&rdeconf->area_list)) != NULL) {
LIST_REMOVE(a, entry);
area_del(a);
}
for (v = RB_MIN(lsa_tree, &asext_tree); v != NULL; v = nv) {
nv = RB_NEXT(lsa_tree, &asext_tree, v);
vertex_free(v);
}
rde_asext_free();
rde_nbr_free();
kr_shutdown();
msgbuf_clear(&iev_ospfe->ibuf.w);
free(iev_ospfe);
msgbuf_clear(&iev_main->ibuf.w);
free(iev_main);
free(rdeconf);
log_info("route decision engine exiting");
_exit(0);
}
int
rde_imsg_compose_ospfe(int type, u_int32_t peerid, pid_t pid, void *data,
u_int16_t datalen)
{
return (imsg_compose_event(iev_ospfe, type, peerid, pid, -1,
data, datalen));
}
/* ARGSUSED */
void
rde_dispatch_imsg(int fd, short event, void *bula)
{
struct imsgev *iev = bula;
struct imsgbuf *ibuf;
struct imsg imsg;
struct in_addr aid;
struct ls_req_hdr req_hdr;
struct lsa_hdr lsa_hdr, *db_hdr;
struct rde_nbr rn, *nbr;
struct timespec tp;
struct lsa *lsa;
struct area *area;
struct vertex *v;
char *buf;
ssize_t n;
time_t now;
int r, state, self, error, shut = 0, verbose;
u_int16_t l;
ibuf = &iev->ibuf;
if (event & EV_READ) {
if ((n = imsg_read(ibuf)) == -1)
fatal("imsg_read error");
if (n == 0) /* connection closed */
shut = 1;
}
if (event & EV_WRITE) {
if ((n = msgbuf_write(&ibuf->w)) == -1 && errno != EAGAIN)
fatal("msgbuf_write");
if (n == 0) /* connection closed */
shut = 1;
}
clock_gettime(CLOCK_MONOTONIC, &tp);
now = tp.tv_sec;
for (;;) {
if ((n = imsg_get(ibuf, &imsg)) == -1)
fatal("rde_dispatch_imsg: imsg_read error");
if (n == 0)
break;
switch (imsg.hdr.type) {
case IMSG_NEIGHBOR_UP:
if (imsg.hdr.len - IMSG_HEADER_SIZE != sizeof(rn))
fatalx("invalid size of OE request");
memcpy(&rn, imsg.data, sizeof(rn));
if (rde_nbr_new(imsg.hdr.peerid, &rn) == NULL)
fatalx("rde_dispatch_imsg: "
"neighbor already exists");
break;
case IMSG_NEIGHBOR_DOWN:
rde_nbr_del(rde_nbr_find(imsg.hdr.peerid));
break;
case IMSG_NEIGHBOR_CHANGE:
if (imsg.hdr.len - IMSG_HEADER_SIZE != sizeof(state))
fatalx("invalid size of OE request");
memcpy(&state, imsg.data, sizeof(state));
nbr = rde_nbr_find(imsg.hdr.peerid);
if (nbr == NULL)
break;
if (state != nbr->state &&
(nbr->state & NBR_STA_FULL ||
state & NBR_STA_FULL))
area_track(nbr->area, state);
nbr->state = state;
if (nbr->state & NBR_STA_FULL)
rde_req_list_free(nbr);
break;
case IMSG_NEIGHBOR_CAPA:
if (imsg.hdr.len - IMSG_HEADER_SIZE != sizeof(u_int8_t))
fatalx("invalid size of OE request");
nbr = rde_nbr_find(imsg.hdr.peerid);
if (nbr == NULL)
break;
nbr->capa_options = *(u_int8_t *)imsg.data;
break;
case IMSG_DB_SNAPSHOT:
nbr = rde_nbr_find(imsg.hdr.peerid);
if (nbr == NULL)
break;
lsa_snap(nbr);
imsg_compose_event(iev_ospfe, IMSG_DB_END, imsg.hdr.peerid,
0, -1, NULL, 0);
break;
case IMSG_DD:
nbr = rde_nbr_find(imsg.hdr.peerid);
if (nbr == NULL)
break;
buf = imsg.data;
error = 0;
for (l = imsg.hdr.len - IMSG_HEADER_SIZE;
l >= sizeof(lsa_hdr); l -= sizeof(lsa_hdr)) {
memcpy(&lsa_hdr, buf, sizeof(lsa_hdr));
buf += sizeof(lsa_hdr);
if (lsa_hdr.type == LSA_TYPE_EXTERNAL &&
nbr->area->stub) {
error = 1;
break;
}
v = lsa_find(nbr->iface, lsa_hdr.type,
lsa_hdr.ls_id, lsa_hdr.adv_rtr);
if (v == NULL)
db_hdr = NULL;
else
db_hdr = &v->lsa->hdr;
if (lsa_newer(&lsa_hdr, db_hdr) > 0) {
/*
* only request LSAs that are
* newer or missing
*/
rde_req_list_add(nbr, &lsa_hdr);
imsg_compose_event(iev_ospfe, IMSG_DD,
imsg.hdr.peerid, 0, -1, &lsa_hdr,
sizeof(lsa_hdr));
}
}
if (l != 0 && !error)
log_warnx("rde_dispatch_imsg: peerid %lu, "
"trailing garbage in Database Description "
"packet", imsg.hdr.peerid);
if (!error)
imsg_compose_event(iev_ospfe, IMSG_DD_END,
imsg.hdr.peerid, 0, -1, NULL, 0);
else
imsg_compose_event(iev_ospfe, IMSG_DD_BADLSA,
imsg.hdr.peerid, 0, -1, NULL, 0);
break;
case IMSG_LS_REQ:
nbr = rde_nbr_find(imsg.hdr.peerid);
if (nbr == NULL)
break;
buf = imsg.data;
for (l = imsg.hdr.len - IMSG_HEADER_SIZE;
l >= sizeof(req_hdr); l -= sizeof(req_hdr)) {
memcpy(&req_hdr, buf, sizeof(req_hdr));
buf += sizeof(req_hdr);
if ((v = lsa_find(nbr->iface,
ntohl(req_hdr.type), req_hdr.ls_id,
req_hdr.adv_rtr)) == NULL) {
log_debug("rde_dispatch_imsg: "
"requested LSA not found");
imsg_compose_event(iev_ospfe,
IMSG_LS_BADREQ, imsg.hdr.peerid,
0, -1, NULL, 0);
continue;
}
imsg_compose_event(iev_ospfe, IMSG_LS_UPD,
imsg.hdr.peerid, 0, -1, v->lsa,
ntohs(v->lsa->hdr.len));
}
if (l != 0)
log_warnx("rde_dispatch_imsg: peerid %lu, "
"trailing garbage in LS Request "
"packet", imsg.hdr.peerid);
break;
case IMSG_LS_UPD:
nbr = rde_nbr_find(imsg.hdr.peerid);
if (nbr == NULL)
break;
lsa = malloc(imsg.hdr.len - IMSG_HEADER_SIZE);
if (lsa == NULL)
fatal(NULL);
memcpy(lsa, imsg.data, imsg.hdr.len - IMSG_HEADER_SIZE);
if (!lsa_check(nbr, lsa,
imsg.hdr.len - IMSG_HEADER_SIZE)) {
free(lsa);
break;
}
v = lsa_find(nbr->iface, lsa->hdr.type, lsa->hdr.ls_id,
lsa->hdr.adv_rtr);
if (v == NULL)
db_hdr = NULL;
else
db_hdr = &v->lsa->hdr;
if (nbr->self) {
lsa_merge(nbr, lsa, v);
/* lsa_merge frees the right lsa */
break;
}
r = lsa_newer(&lsa->hdr, db_hdr);
if (r > 0) {
/* new LSA newer than DB */
if (v && v->flooded &&
v->changed + MIN_LS_ARRIVAL >= now) {
free(lsa);
break;
}
rde_req_list_del(nbr, &lsa->hdr);
if (!(self = lsa_self(nbr, lsa, v)))
if (lsa_add(nbr, lsa))
/* delayed lsa */
break;
/* flood and perhaps ack LSA */
imsg_compose_event(iev_ospfe, IMSG_LS_FLOOD,
imsg.hdr.peerid, 0, -1, lsa,
ntohs(lsa->hdr.len));
/* reflood self originated LSA */
if (self && v)
imsg_compose_event(iev_ospfe,
IMSG_LS_FLOOD, v->peerid, 0, -1,
v->lsa, ntohs(v->lsa->hdr.len));
/* new LSA was not added so free it */
if (self)
free(lsa);
} else if (r < 0) {
/*
* point 6 of "The Flooding Procedure"
* We are violating the RFC here because
* it does not make sense to reset a session
* because an equal LSA is already in the table.
* Only if the LSA sent is older than the one
* in the table we should reset the session.
*/
if (rde_req_list_exists(nbr, &lsa->hdr)) {
imsg_compose_event(iev_ospfe,
IMSG_LS_BADREQ, imsg.hdr.peerid,
0, -1, NULL, 0);
free(lsa);
break;
}
/* lsa no longer needed */
free(lsa);
/* new LSA older than DB */
if (ntohl(db_hdr->seq_num) == MAX_SEQ_NUM &&
ntohs(db_hdr->age) == MAX_AGE)
/* seq-num wrap */
break;
if (v->changed + MIN_LS_ARRIVAL >= now)
break;
/* directly send current LSA, no ack */
imsg_compose_event(iev_ospfe, IMSG_LS_UPD,
imsg.hdr.peerid, 0, -1, v->lsa,
ntohs(v->lsa->hdr.len));
} else {
/* LSA equal send direct ack */
imsg_compose_event(iev_ospfe, IMSG_LS_ACK,
imsg.hdr.peerid, 0, -1, &lsa->hdr,
sizeof(lsa->hdr));
free(lsa);
}
break;
case IMSG_LS_MAXAGE:
nbr = rde_nbr_find(imsg.hdr.peerid);
if (nbr == NULL)
break;
if (imsg.hdr.len != IMSG_HEADER_SIZE +
sizeof(struct lsa_hdr))
fatalx("invalid size of OE request");
memcpy(&lsa_hdr, imsg.data, sizeof(lsa_hdr));
if (rde_nbr_loading(nbr->area))
break;
v = lsa_find(nbr->iface, lsa_hdr.type, lsa_hdr.ls_id,
lsa_hdr.adv_rtr);
if (v == NULL)
db_hdr = NULL;
else
db_hdr = &v->lsa->hdr;
/*
* only delete LSA if the one in the db is not newer
*/
if (lsa_newer(db_hdr, &lsa_hdr) <= 0)
lsa_del(nbr, &lsa_hdr);
break;
case IMSG_CTL_SHOW_DATABASE:
case IMSG_CTL_SHOW_DB_EXT:
case IMSG_CTL_SHOW_DB_NET:
case IMSG_CTL_SHOW_DB_RTR:
case IMSG_CTL_SHOW_DB_SELF:
case IMSG_CTL_SHOW_DB_SUM:
case IMSG_CTL_SHOW_DB_ASBR:
case IMSG_CTL_SHOW_DB_OPAQ:
if (imsg.hdr.len != IMSG_HEADER_SIZE &&
imsg.hdr.len != IMSG_HEADER_SIZE + sizeof(aid)) {
log_warnx("rde_dispatch_imsg: wrong imsg len");
break;
}
if (imsg.hdr.len == IMSG_HEADER_SIZE) {
LIST_FOREACH(area, &rdeconf->area_list, entry) {
rde_dump_area(area, imsg.hdr.type,
imsg.hdr.pid);
}
lsa_dump(&asext_tree, imsg.hdr.type,
imsg.hdr.pid);
} else {
memcpy(&aid, imsg.data, sizeof(aid));
if ((area = area_find(rdeconf, aid)) != NULL) {
rde_dump_area(area, imsg.hdr.type,
imsg.hdr.pid);
if (!area->stub)
lsa_dump(&asext_tree,
imsg.hdr.type,
imsg.hdr.pid);
}
}
imsg_compose_event(iev_ospfe, IMSG_CTL_END, 0,
imsg.hdr.pid, -1, NULL, 0);
break;
case IMSG_CTL_SHOW_RIB:
LIST_FOREACH(area, &rdeconf->area_list, entry) {
imsg_compose_event(iev_ospfe, IMSG_CTL_AREA,
0, imsg.hdr.pid, -1, area, sizeof(*area));
rt_dump(area->id, imsg.hdr.pid, RIB_RTR);
rt_dump(area->id, imsg.hdr.pid, RIB_NET);
}
aid.s_addr = 0;
rt_dump(aid, imsg.hdr.pid, RIB_EXT);
imsg_compose_event(iev_ospfe, IMSG_CTL_END, 0,
imsg.hdr.pid, -1, NULL, 0);
break;
case IMSG_CTL_SHOW_SUM:
rde_send_summary(imsg.hdr.pid);
LIST_FOREACH(area, &rdeconf->area_list, entry)
rde_send_summary_area(area, imsg.hdr.pid);
imsg_compose_event(iev_ospfe, IMSG_CTL_END, 0,
imsg.hdr.pid, -1, NULL, 0);
break;
case IMSG_CTL_LOG_VERBOSE:
/* already checked by ospfe */
memcpy(&verbose, imsg.data, sizeof(verbose));
log_verbose(verbose);
break;
default:
log_debug("rde_dispatch_imsg: unexpected imsg %d",
imsg.hdr.type);
break;
}
imsg_free(&imsg);
}
if (!shut)
imsg_event_add(iev);
else {
/* this pipe is dead, so remove the event handler */
event_del(&iev->ev);
event_loopexit(NULL);
}
}
/* ARGSUSED */
void
rde_dispatch_parent(int fd, short event, void *bula)
{
static struct area *narea;
struct iface *niface;
struct imsg imsg;
struct kroute rr;
struct imsgev *iev = bula;
struct imsgbuf *ibuf;
struct redistribute *nred;
ssize_t n;
int shut = 0;
ibuf = &iev->ibuf;
if (event & EV_READ) {
if ((n = imsg_read(ibuf)) == -1)
fatal("imsg_read error");
if (n == 0) /* connection closed */
shut = 1;
}
if (event & EV_WRITE) {
if ((n = msgbuf_write(&ibuf->w)) == -1 && errno != EAGAIN)
fatal("msgbuf_write");
if (n == 0) /* connection closed */
shut = 1;
}
for (;;) {
if ((n = imsg_get(ibuf, &imsg)) == -1)
fatal("rde_dispatch_parent: imsg_read error");
if (n == 0)
break;
switch (imsg.hdr.type) {
case IMSG_NETWORK_ADD:
if (imsg.hdr.len != IMSG_HEADER_SIZE + sizeof(rr)) {
log_warnx("rde_dispatch_parent: "
"wrong imsg len");
break;
}
memcpy(&rr, imsg.data, sizeof(rr));
rde_asext_get(&rr);
break;
case IMSG_NETWORK_DEL:
if (imsg.hdr.len != IMSG_HEADER_SIZE + sizeof(rr)) {
log_warnx("rde_dispatch_parent: "
"wrong imsg len");
break;
}
memcpy(&rr, imsg.data, sizeof(rr));
rde_asext_put(&rr);
break;
case IMSG_RECONF_CONF:
if ((nconf = malloc(sizeof(struct ospfd_conf))) ==
NULL)
fatal(NULL);
memcpy(nconf, imsg.data, sizeof(struct ospfd_conf));
LIST_INIT(&nconf->area_list);
LIST_INIT(&nconf->cand_list);
break;
case IMSG_RECONF_AREA:
if ((narea = area_new()) == NULL)
fatal(NULL);
memcpy(narea, imsg.data, sizeof(struct area));
LIST_INIT(&narea->iface_list);
LIST_INIT(&narea->nbr_list);
RB_INIT(&narea->lsa_tree);
SIMPLEQ_INIT(&narea->redist_list);
LIST_INSERT_HEAD(&nconf->area_list, narea, entry);
break;
case IMSG_RECONF_REDIST:
if ((nred= malloc(sizeof(struct redistribute))) == NULL)
fatal(NULL);
memcpy(nred, imsg.data, sizeof(struct redistribute));
SIMPLEQ_INSERT_TAIL(&narea->redist_list, nred, entry);
break;
case IMSG_RECONF_IFACE:
if ((niface = malloc(sizeof(struct iface))) == NULL)
fatal(NULL);
memcpy(niface, imsg.data, sizeof(struct iface));
LIST_INIT(&niface->nbr_list);
TAILQ_INIT(&niface->ls_ack_list);
TAILQ_INIT(&niface->auth_md_list);
RB_INIT(&niface->lsa_tree);
niface->area = narea;
LIST_INSERT_HEAD(&narea->iface_list, niface, entry);
break;
case IMSG_RECONF_END:
merge_config(rdeconf, nconf);
nconf = NULL;
break;
default:
log_debug("rde_dispatch_parent: unexpected imsg %d",
imsg.hdr.type);
break;
}
imsg_free(&imsg);
}
if (!shut)
imsg_event_add(iev);
else {
/* this pipe is dead, so remove the event handler */
event_del(&iev->ev);
event_loopexit(NULL);
}
}
void
rde_dump_area(struct area *area, int imsg_type, pid_t pid)
{
struct iface *iface;
/* dump header */
imsg_compose_event(iev_ospfe, IMSG_CTL_AREA, 0, pid, -1,
area, sizeof(*area));
/* dump link local lsa */
LIST_FOREACH(iface, &area->iface_list, entry) {
imsg_compose_event(iev_ospfe, IMSG_CTL_IFACE,
0, pid, -1, iface, sizeof(*iface));
lsa_dump(&iface->lsa_tree, imsg_type, pid);
}
/* dump area lsa */
lsa_dump(&area->lsa_tree, imsg_type, pid);
}
u_int32_t
rde_router_id(void)
{
return (rdeconf->rtr_id.s_addr);
}
struct area *
rde_backbone_area(void)
{
struct in_addr id;
id.s_addr = INADDR_ANY;
return (area_find(rdeconf, id));
}
void
rde_send_change_kroute(struct rt_node *r)
{
int krcount = 0;
struct kroute kr;
struct rt_nexthop *rn;
struct ibuf *wbuf;
if ((wbuf = imsg_create(&iev_main->ibuf, IMSG_KROUTE_CHANGE, 0, 0,
sizeof(kr))) == NULL) {
return;
}
TAILQ_FOREACH(rn, &r->nexthop, entry) {
if (rn->invalid)
continue;
krcount++;
bzero(&kr, sizeof(kr));
kr.prefix.s_addr = r->prefix.s_addr;
kr.nexthop.s_addr = rn->nexthop.s_addr;
kr.prefixlen = r->prefixlen;
kr.ext_tag = r->ext_tag;
imsg_add(wbuf, &kr, sizeof(kr));
}
if (krcount == 0)
fatalx("rde_send_change_kroute: no valid nexthop found");
imsg_close(&iev_main->ibuf, wbuf);
imsg_event_add(iev_main);
}
void
rde_send_delete_kroute(struct rt_node *r)
{
struct kroute kr;
bzero(&kr, sizeof(kr));
kr.prefix.s_addr = r->prefix.s_addr;
kr.prefixlen = r->prefixlen;
imsg_compose_event(iev_main, IMSG_KROUTE_DELETE, 0, 0, -1,
&kr, sizeof(kr));
}
void
rde_send_summary(pid_t pid)
{
static struct ctl_sum sumctl;
struct timeval now;
struct area *area;
struct vertex *v;
bzero(&sumctl, sizeof(struct ctl_sum));
sumctl.rtr_id.s_addr = rde_router_id();
sumctl.spf_delay = rdeconf->spf_delay;
sumctl.spf_hold_time = rdeconf->spf_hold_time;
LIST_FOREACH(area, &rdeconf->area_list, entry)
sumctl.num_area++;
RB_FOREACH(v, lsa_tree, &asext_tree) {
sumctl.num_ext_lsa++;
sumctl.ext_lsa_cksum += ntohs(v->lsa->hdr.ls_chksum);
}
gettimeofday(&now, NULL);
if (rdeconf->uptime < now.tv_sec)
sumctl.uptime = now.tv_sec - rdeconf->uptime;
else
sumctl.uptime = 0;
sumctl.rfc1583compat = rdeconf->rfc1583compat;
rde_imsg_compose_ospfe(IMSG_CTL_SHOW_SUM, 0, pid, &sumctl,
sizeof(sumctl));
}
void
rde_send_summary_area(struct area *area, pid_t pid)
{
static struct ctl_sum_area sumareactl;
struct iface *iface;
struct rde_nbr *nbr;
struct lsa_tree *tree = &area->lsa_tree;
struct vertex *v;
bzero(&sumareactl, sizeof(struct ctl_sum_area));
sumareactl.area.s_addr = area->id.s_addr;
sumareactl.num_spf_calc = area->num_spf_calc;
LIST_FOREACH(iface, &area->iface_list, entry)
sumareactl.num_iface++;
LIST_FOREACH(nbr, &area->nbr_list, entry)
if (nbr->state == NBR_STA_FULL && !nbr->self)
sumareactl.num_adj_nbr++;
RB_FOREACH(v, lsa_tree, tree) {
sumareactl.num_lsa++;
sumareactl.lsa_cksum += ntohs(v->lsa->hdr.ls_chksum);
}
rde_imsg_compose_ospfe(IMSG_CTL_SHOW_SUM_AREA, 0, pid, &sumareactl,
sizeof(sumareactl));
}
LIST_HEAD(rde_nbr_head, rde_nbr);
struct nbr_table {
struct rde_nbr_head *hashtbl;
u_int32_t hashmask;
} rdenbrtable;
#define RDE_NBR_HASH(x) \
&rdenbrtable.hashtbl[(x) & rdenbrtable.hashmask]
void
rde_nbr_init(u_int32_t hashsize)
{
struct rde_nbr_head *head;
u_int32_t hs, i;
for (hs = 1; hs < hashsize; hs <<= 1)
;
rdenbrtable.hashtbl = calloc(hs, sizeof(struct rde_nbr_head));
if (rdenbrtable.hashtbl == NULL)
fatal("rde_nbr_init");
for (i = 0; i < hs; i++)
LIST_INIT(&rdenbrtable.hashtbl[i]);
rdenbrtable.hashmask = hs - 1;
if ((nbrself = calloc(1, sizeof(*nbrself))) == NULL)
fatal("rde_nbr_init");
nbrself->id.s_addr = rde_router_id();
nbrself->peerid = NBR_IDSELF;
nbrself->state = NBR_STA_DOWN;
nbrself->self = 1;
head = RDE_NBR_HASH(NBR_IDSELF);
LIST_INSERT_HEAD(head, nbrself, hash);
}
void
rde_nbr_free(void)
{
free(nbrself);
free(rdenbrtable.hashtbl);
}
struct rde_nbr *
rde_nbr_find(u_int32_t peerid)
{
struct rde_nbr_head *head;
struct rde_nbr *nbr;
head = RDE_NBR_HASH(peerid);
LIST_FOREACH(nbr, head, hash) {
if (nbr->peerid == peerid)
return (nbr);
}
return (NULL);
}
struct rde_nbr *
rde_nbr_new(u_int32_t peerid, struct rde_nbr *new)
{
struct rde_nbr_head *head;
struct rde_nbr *nbr;
struct area *area;
struct iface *iface;
if (rde_nbr_find(peerid))
return (NULL);
if ((area = area_find(rdeconf, new->area_id)) == NULL)
fatalx("rde_nbr_new: unknown area");
LIST_FOREACH(iface, &area->iface_list, entry) {
if (iface->ifindex == new->ifindex)
break;
}
if (iface == NULL)
fatalx("rde_nbr_new: unknown interface");
if ((nbr = calloc(1, sizeof(*nbr))) == NULL)
fatal("rde_nbr_new");
memcpy(nbr, new, sizeof(*nbr));
nbr->peerid = peerid;
nbr->area = area;
nbr->iface = iface;
TAILQ_INIT(&nbr->req_list);
head = RDE_NBR_HASH(peerid);
LIST_INSERT_HEAD(head, nbr, hash);
LIST_INSERT_HEAD(&area->nbr_list, nbr, entry);
return (nbr);
}
void
rde_nbr_del(struct rde_nbr *nbr)
{
if (nbr == NULL)
return;
rde_req_list_free(nbr);
LIST_REMOVE(nbr, entry);
LIST_REMOVE(nbr, hash);
free(nbr);
}
int
rde_nbr_loading(struct area *area)
{
struct rde_nbr *nbr;
int checkall = 0;
if (area == NULL) {
area = LIST_FIRST(&rdeconf->area_list);
checkall = 1;
}
while (area != NULL) {
LIST_FOREACH(nbr, &area->nbr_list, entry) {
if (nbr->self)
continue;
if (nbr->state & NBR_STA_XCHNG ||
nbr->state & NBR_STA_LOAD)
return (1);
}
if (!checkall)
break;
area = LIST_NEXT(area, entry);
}
return (0);
}
struct rde_nbr *
rde_nbr_self(struct area *area)
{
struct rde_nbr *nbr;
LIST_FOREACH(nbr, &area->nbr_list, entry)
if (nbr->self)
return (nbr);
/* this may not happen */
fatalx("rde_nbr_self: area without self");
return (NULL);
}
/*
* LSA req list
*/
void
rde_req_list_add(struct rde_nbr *nbr, struct lsa_hdr *lsa)
{
struct rde_req_entry *le;
if ((le = calloc(1, sizeof(*le))) == NULL)
fatal("rde_req_list_add");
TAILQ_INSERT_TAIL(&nbr->req_list, le, entry);
le->type = lsa->type;
le->ls_id = lsa->ls_id;
le->adv_rtr = lsa->adv_rtr;
}
int
rde_req_list_exists(struct rde_nbr *nbr, struct lsa_hdr *lsa_hdr)
{
struct rde_req_entry *le;
TAILQ_FOREACH(le, &nbr->req_list, entry) {
if ((lsa_hdr->type == le->type) &&
(lsa_hdr->ls_id == le->ls_id) &&
(lsa_hdr->adv_rtr == le->adv_rtr))
return (1);
}
return (0);
}
void
rde_req_list_del(struct rde_nbr *nbr, struct lsa_hdr *lsa_hdr)
{
struct rde_req_entry *le;
TAILQ_FOREACH(le, &nbr->req_list, entry) {
if ((lsa_hdr->type == le->type) &&
(lsa_hdr->ls_id == le->ls_id) &&
(lsa_hdr->adv_rtr == le->adv_rtr)) {
TAILQ_REMOVE(&nbr->req_list, le, entry);
free(le);
return;
}
}
}
void
rde_req_list_free(struct rde_nbr *nbr)
{
struct rde_req_entry *le;
while ((le = TAILQ_FIRST(&nbr->req_list)) != NULL) {
TAILQ_REMOVE(&nbr->req_list, le, entry);
free(le);
}
}
/*
* as-external LSA handling
*/
struct asext_node {
RB_ENTRY(asext_node) entry;
struct kroute r;
u_int32_t ls_id;
};
static __inline int asext_compare(struct asext_node *, struct asext_node *);
struct asext_node *asext_find(u_int32_t, u_int8_t);
RB_HEAD(asext_tree, asext_node) ast;
RB_PROTOTYPE(asext_tree, asext_node, entry, asext_compare)
RB_GENERATE(asext_tree, asext_node, entry, asext_compare)
static __inline int
asext_compare(struct asext_node *a, struct asext_node *b)
{
if (ntohl(a->r.prefix.s_addr) < ntohl(b->r.prefix.s_addr))
return (-1);
if (ntohl(a->r.prefix.s_addr) > ntohl(b->r.prefix.s_addr))
return (1);
if (a->r.prefixlen < b->r.prefixlen)
return (-1);
if (a->r.prefixlen > b->r.prefixlen)
return (1);
return (0);
}
struct asext_node *
asext_find(u_int32_t addr, u_int8_t prefixlen)
{
struct asext_node a;
a.r.prefix.s_addr = addr;
a.r.prefixlen = prefixlen;
return (RB_FIND(asext_tree, &ast, &a));
}
struct iface *
rde_asext_lookup(u_int32_t prefix, int plen)
{
struct area *area;
struct iface *iface;
LIST_FOREACH(area, &rdeconf->area_list, entry) {
LIST_FOREACH(iface, &area->iface_list, entry) {
if ((iface->addr.s_addr & iface->mask.s_addr) ==
(prefix & iface->mask.s_addr) && (plen == -1 ||
iface->mask.s_addr == prefixlen2mask(plen)))
return (iface);
}
}
return (NULL);
}
void
rde_asext_get(struct kroute *rr)
{
struct asext_node *an, *oan;
struct vertex *v;
struct lsa *lsa;
u_int32_t mask;
if (rde_asext_lookup(rr->prefix.s_addr, rr->prefixlen)) {
/* already announced as (stub) net LSA */
log_debug("rde_asext_get: %s/%d is net LSA",
inet_ntoa(rr->prefix), rr->prefixlen);
return;
}
an = asext_find(rr->prefix.s_addr, rr->prefixlen);
if (an == NULL) {
if ((an = calloc(1, sizeof(*an))) == NULL)
fatal("rde_asext_get");
bcopy(rr, &an->r, sizeof(*rr));
an->ls_id = rr->prefix.s_addr;
RB_INSERT(asext_tree, &ast, an);
} else {
/* the bcopy does not change the lookup key so it is save */
bcopy(rr, &an->r, sizeof(*rr));
}
/*
* ls_id must be unique, for overlapping routes this may
* not be true. In this case a unique ls_id needs to be found.
* The algorithm will change the ls_id of the less specific
* route. E.g. in the case of 10.0.0.0/16 and 10.0.0.0/24
* 10.0.0.0/24 will get the 10.0.0.0 ls_id and 10.0.0.0/16
* will change the ls_id to 10.0.255.255 and see if that is unique.
*/
oan = an;
mask = prefixlen2mask(oan->r.prefixlen);
v = lsa_find(NULL, LSA_TYPE_EXTERNAL, oan->ls_id,
rdeconf->rtr_id.s_addr);
while (v && v->lsa->data.asext.mask != mask) {
/* conflict needs to be resolved. change less specific lsa */
if (ntohl(v->lsa->data.asext.mask) < ntohl(mask)) {
/* lsa to insert is more specific, fix other lsa */
mask = v->lsa->data.asext.mask;
oan = asext_find(v->lsa->hdr.ls_id & mask,
mask2prefixlen(mask));
if (oan == NULL)
fatalx("as-ext LSA DB corrupted");
}
/* oan is less specific and needs new ls_id */
if (oan->ls_id == oan->r.prefix.s_addr)
oan->ls_id |= ~mask;
else {
u_int32_t tmp = ntohl(oan->ls_id);
oan->ls_id = htonl(tmp - 1);
if (oan->ls_id == oan->r.prefix.s_addr) {
log_warnx("prefix %s/%d can not be "
"redistributed, no unique ls_id found.",
inet_ntoa(rr->prefix), rr->prefixlen);
RB_REMOVE(asext_tree, &ast, an);
free(an);
return;
}
}
mask = prefixlen2mask(oan->r.prefixlen);
v = lsa_find(NULL, LSA_TYPE_EXTERNAL, oan->ls_id,
rdeconf->rtr_id.s_addr);
}
v = lsa_find(NULL, LSA_TYPE_EXTERNAL, an->ls_id,
rdeconf->rtr_id.s_addr);
lsa = orig_asext_lsa(rr, an->ls_id, DEFAULT_AGE);
lsa_merge(nbrself, lsa, v);
if (oan != an) {
v = lsa_find(NULL, LSA_TYPE_EXTERNAL, oan->ls_id,
rdeconf->rtr_id.s_addr);
lsa = orig_asext_lsa(&oan->r, oan->ls_id, DEFAULT_AGE);
lsa_merge(nbrself, lsa, v);
}
}
void
rde_asext_put(struct kroute *rr)
{
struct asext_node *an;
struct vertex *v;
struct lsa *lsa;
/*
* just try to remove the LSA. If the prefix is announced as
* stub net LSA asext_find() will fail and nothing will happen.
*/
an = asext_find(rr->prefix.s_addr, rr->prefixlen);
if (an == NULL) {
log_debug("rde_asext_put: NO SUCH LSA %s/%d",
inet_ntoa(rr->prefix), rr->prefixlen);
return;
}
/* inherit metric and ext_tag from the current LSA,
* some routers don't like to get withdraws that are
* different from what they have in their table.
*/
v = lsa_find(NULL, LSA_TYPE_EXTERNAL, an->ls_id,
rdeconf->rtr_id.s_addr);
if (v != NULL) {
rr->metric = ntohl(v->lsa->data.asext.metric);
rr->ext_tag = ntohl(v->lsa->data.asext.ext_tag);
}
/* remove by reflooding with MAX_AGE */
lsa = orig_asext_lsa(rr, an->ls_id, MAX_AGE);
lsa_merge(nbrself, lsa, v);
RB_REMOVE(asext_tree, &ast, an);
free(an);
}
void
rde_asext_free(void)
{
struct asext_node *an, *nan;
for (an = RB_MIN(asext_tree, &ast); an != NULL; an = nan) {
nan = RB_NEXT(asext_tree, &ast, an);
RB_REMOVE(asext_tree, &ast, an);
free(an);
}
}
struct lsa *
orig_asext_lsa(struct kroute *rr, u_int32_t ls_id, u_int16_t age)
{
struct lsa *lsa;
struct iface *iface;
u_int16_t len;
len = sizeof(struct lsa_hdr) + sizeof(struct lsa_asext);
if ((lsa = calloc(1, len)) == NULL)
fatal("orig_asext_lsa");
log_debug("orig_asext_lsa: %s/%d age %d",
inet_ntoa(rr->prefix), rr->prefixlen, age);
/* LSA header */
lsa->hdr.age = htons(age);
lsa->hdr.opts = area_ospf_options(NULL);
lsa->hdr.type = LSA_TYPE_EXTERNAL;
lsa->hdr.adv_rtr = rdeconf->rtr_id.s_addr;
/* update of seqnum is done by lsa_merge */
lsa->hdr.seq_num = htonl(INIT_SEQ_NUM);
lsa->hdr.len = htons(len);
/* prefix and mask */
lsa->hdr.ls_id = ls_id;
lsa->data.asext.mask = prefixlen2mask(rr->prefixlen);
/*
* nexthop -- on connected routes we are the nexthop,
* in other cases we may announce the true nexthop if the
* nexthop is reachable via an OSPF enabled interface but only
* broadcast & NBMA interfaces are considered in that case.
* It does not make sense to announce the nexthop of a point-to-point
* link since the traffic has to go through this box anyway.
* Some implementations actually check that there are multiple
* neighbors on the particular segment, we skip that check.
*/
iface = rde_asext_lookup(rr->nexthop.s_addr, -1);
if (rr->flags & F_FORCED_NEXTHOP)
lsa->data.asext.fw_addr = rr->nexthop.s_addr;
else if (rr->flags & F_CONNECTED)
lsa->data.asext.fw_addr = 0;
else if (iface && (iface->type == IF_TYPE_BROADCAST ||
iface->type == IF_TYPE_NBMA))
lsa->data.asext.fw_addr = rr->nexthop.s_addr;
else
lsa->data.asext.fw_addr = 0;
lsa->data.asext.metric = htonl(rr->metric);
lsa->data.asext.ext_tag = htonl(rr->ext_tag);
lsa->hdr.ls_chksum = 0;
lsa->hdr.ls_chksum = htons(iso_cksum(lsa, len, LS_CKSUM_OFFSET));
return (lsa);
}
/*
* summary LSA stuff
*/
void
rde_summary_update(struct rt_node *rte, struct area *area)
{
struct rt_nexthop *rn;
struct rt_node *nr;
struct vertex *v = NULL;
struct lsa *lsa;
u_int8_t type = 0;
/* first check if we actually need to announce this route */
if (!(rte->d_type == DT_NET || rte->flags & OSPF_RTR_E))
return;
/* never create summaries for as-ext LSA */
if (rte->p_type == PT_TYPE1_EXT || rte->p_type == PT_TYPE2_EXT)
return;
/* no need for summary LSA in the originating area */
if (rte->area.s_addr == area->id.s_addr)
return;
/* no need to originate inter-area routes to the backbone */
if (rte->p_type == PT_INTER_AREA && area->id.s_addr == INADDR_ANY)
return;
/* nexthop check, nexthop part of area -> no summary */
TAILQ_FOREACH(rn, &rte->nexthop, entry) {
nr = rt_lookup(DT_NET, rn->nexthop.s_addr);
if (nr && nr->area.s_addr == area->id.s_addr)
continue;
break;
}
if (rn == NULL) /* all nexthops belong to this area */
return;
if (rte->cost >= LS_INFINITY)
return;
/* TODO AS border router specific checks */
/* TODO inter-area network route stuff */
/* TODO intra-area stuff -- condense LSA ??? */
if (rte->d_type == DT_NET) {
type = LSA_TYPE_SUM_NETWORK;
} else if (rte->d_type == DT_RTR) {
if (area->stub)
/* do not redistribute type 4 LSA into stub areas */
return;
type = LSA_TYPE_SUM_ROUTER;
} else
fatalx("rde_summary_update: unknown route type");
/* update lsa but only if it was changed */
v = lsa_find_area(area, type, rte->prefix.s_addr, rde_router_id());
lsa = orig_sum_lsa(rte, area, type, rte->invalid);
lsa_merge(rde_nbr_self(area), lsa, v);
if (v == NULL)
v = lsa_find_area(area, type, rte->prefix.s_addr,
rde_router_id());
/* suppressed/deleted routes are not found in the second lsa_find */
if (v)
v->cost = rte->cost;
}
struct lsa *
orig_sum_lsa(struct rt_node *rte, struct area *area, u_int8_t type, int invalid)
{
struct lsa *lsa;
u_int16_t len;
len = sizeof(struct lsa_hdr) + sizeof(struct lsa_sum);
if ((lsa = calloc(1, len)) == NULL)
fatal("orig_sum_lsa");
/* LSA header */
lsa->hdr.age = htons(invalid ? MAX_AGE : DEFAULT_AGE);
lsa->hdr.opts = area_ospf_options(area);
lsa->hdr.type = type;
lsa->hdr.adv_rtr = rdeconf->rtr_id.s_addr;
lsa->hdr.seq_num = htonl(INIT_SEQ_NUM);
lsa->hdr.len = htons(len);
/* prefix and mask */
/*
* TODO ls_id must be unique, for overlapping routes this may
* not be true. In this case a hack needs to be done to
* make the ls_id unique.
*/
lsa->hdr.ls_id = rte->prefix.s_addr;
if (type == LSA_TYPE_SUM_NETWORK)
lsa->data.sum.mask = prefixlen2mask(rte->prefixlen);
else
lsa->data.sum.mask = 0; /* must be zero per RFC */
lsa->data.sum.metric = htonl(rte->cost & LSA_METRIC_MASK);
lsa->hdr.ls_chksum = 0;
lsa->hdr.ls_chksum =
htons(iso_cksum(lsa, len, LS_CKSUM_OFFSET));
return (lsa);
}
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