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mirror of https://git.FreeBSD.org/src.git synced 2024-12-22 11:17:19 +00:00
freebsd/sbin/routed/output.c
Warner Losh fbbd9655e5 Renumber copyright clause 4
Renumber cluase 4 to 3, per what everybody else did when BSD granted
them permission to remove clause 3. My insistance on keeping the same
numbering for legal reasons is too pedantic, so give up on that point.

Submitted by:	Jan Schaumann <jschauma@stevens.edu>
Pull Request:	https://github.com/freebsd/freebsd/pull/96
2017-02-28 23:42:47 +00:00

975 lines
25 KiB
C

/*
* Copyright (c) 1983, 1988, 1993
* The Regents of the University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*/
#include "defs.h"
#ifdef __NetBSD__
__RCSID("$NetBSD$");
#elif defined(__FreeBSD__)
__RCSID("$FreeBSD$");
#else
__RCSID("$Revision: 2.27 $");
#ident "$Revision: 2.27 $"
#endif
u_int update_seqno;
/* walk the tree of routes with this for output
*/
static struct {
struct sockaddr_in to;
naddr to_mask;
naddr to_net;
naddr to_std_mask;
naddr to_std_net;
struct interface *ifp; /* usually output interface */
struct auth *a;
char metric; /* adjust metrics by interface */
int npackets;
int gen_limit;
u_int state;
#define WS_ST_FLASH 0x001 /* send only changed routes */
#define WS_ST_RIP2_ALL 0x002 /* send full featured RIPv2 */
#define WS_ST_AG 0x004 /* ok to aggregate subnets */
#define WS_ST_SUPER_AG 0x008 /* ok to aggregate networks */
#define WS_ST_QUERY 0x010 /* responding to a query */
#define WS_ST_TO_ON_NET 0x020 /* sending onto one of our nets */
#define WS_ST_DEFAULT 0x040 /* faking a default */
} ws;
/* A buffer for what can be heard by both RIPv1 and RIPv2 listeners */
struct ws_buf v12buf;
static union pkt_buf ripv12_buf;
/* Another for only RIPv2 listeners */
static struct ws_buf v2buf;
static union pkt_buf rip_v2_buf;
void
bufinit(void)
{
ripv12_buf.rip.rip_cmd = RIPCMD_RESPONSE;
v12buf.buf = &ripv12_buf.rip;
v12buf.base = &v12buf.buf->rip_nets[0];
rip_v2_buf.rip.rip_cmd = RIPCMD_RESPONSE;
rip_v2_buf.rip.rip_vers = RIPv2;
v2buf.buf = &rip_v2_buf.rip;
v2buf.base = &v2buf.buf->rip_nets[0];
}
/* Send the contents of the global buffer via the non-multicast socket
*/
int /* <0 on failure */
output(enum output_type type,
struct sockaddr_in *dst, /* send to here */
struct interface *ifp,
struct rip *buf,
int size) /* this many bytes */
{
struct sockaddr_in osin;
int flags;
const char *msg;
int res;
int soc;
int serrno;
assert(ifp != NULL);
osin = *dst;
if (osin.sin_port == 0)
osin.sin_port = htons(RIP_PORT);
#ifdef _HAVE_SIN_LEN
if (osin.sin_len == 0)
osin.sin_len = sizeof(osin);
#endif
soc = rip_sock;
flags = 0;
switch (type) {
case OUT_QUERY:
msg = "Answer Query";
if (soc < 0)
soc = ifp->int_rip_sock;
break;
case OUT_UNICAST:
msg = "Send";
if (soc < 0)
soc = ifp->int_rip_sock;
flags = MSG_DONTROUTE;
break;
case OUT_BROADCAST:
if (ifp->int_if_flags & IFF_POINTOPOINT) {
msg = "Send";
} else {
msg = "Send bcast";
}
flags = MSG_DONTROUTE;
break;
case OUT_MULTICAST:
if ((ifp->int_if_flags & (IFF_POINTOPOINT|IFF_MULTICAST)) ==
IFF_POINTOPOINT) {
msg = "Send pt-to-pt";
} else if (ifp->int_state & IS_DUP) {
trace_act("abort multicast output via %s"
" with duplicate address",
ifp->int_name);
return 0;
} else {
msg = "Send mcast";
if (rip_sock_mcast != ifp) {
struct ip_mreqn mreqn;
memset(&mreqn, 0, sizeof(struct ip_mreqn));
mreqn.imr_ifindex = ifp->int_index;
if (0 > setsockopt(rip_sock,
IPPROTO_IP,
IP_MULTICAST_IF,
&mreqn,
sizeof(mreqn))) {
serrno = errno;
LOGERR("setsockopt(rip_sock, "
"IP_MULTICAST_IF)");
errno = serrno;
ifp = NULL;
return -1;
}
rip_sock_mcast = ifp;
}
osin.sin_addr.s_addr = htonl(INADDR_RIP_GROUP);
}
break;
case NO_OUT_MULTICAST:
case NO_OUT_RIPV2:
default:
#ifdef DEBUG
abort();
#endif
return -1;
}
trace_rip(msg, "to", &osin, ifp, buf, size);
res = sendto(soc, buf, size, flags,
(struct sockaddr *)&osin, sizeof(osin));
if (res < 0
&& (ifp == NULL || !(ifp->int_state & IS_BROKE))) {
serrno = errno;
msglog("%s sendto(%s%s%s.%d): %s", msg,
ifp != NULL ? ifp->int_name : "",
ifp != NULL ? ", " : "",
inet_ntoa(osin.sin_addr),
ntohs(osin.sin_port),
strerror(errno));
errno = serrno;
}
return res;
}
/* Find the first key for a packet to send.
* Try for a key that is eligible and has not expired, but settle for
* the last key if they have all expired.
* If no key is ready yet, give up.
*/
struct auth *
find_auth(struct interface *ifp)
{
struct auth *ap, *res;
int i;
if (ifp == NULL)
return 0;
res = NULL;
ap = ifp->int_auth;
for (i = 0; i < MAX_AUTH_KEYS; i++, ap++) {
/* stop looking after the last key */
if (ap->type == RIP_AUTH_NONE)
break;
/* ignore keys that are not ready yet */
if ((u_long)ap->start > (u_long)clk.tv_sec)
continue;
if ((u_long)ap->end < (u_long)clk.tv_sec) {
/* note best expired password as a fall-back */
if (res == NULL || (u_long)ap->end > (u_long)res->end)
res = ap;
continue;
}
/* note key with the best future */
if (res == NULL || (u_long)res->end < (u_long)ap->end)
res = ap;
}
return res;
}
void
clr_ws_buf(struct ws_buf *wb,
struct auth *ap)
{
struct netauth *na;
wb->lim = wb->base + NETS_LEN;
wb->n = wb->base;
memset(wb->n, 0, NETS_LEN*sizeof(*wb->n));
/* (start to) install authentication if appropriate
*/
if (ap == NULL)
return;
na = (struct netauth*)wb->n;
if (ap->type == RIP_AUTH_PW) {
na->a_family = RIP_AF_AUTH;
na->a_type = RIP_AUTH_PW;
memcpy(na->au.au_pw, ap->key, sizeof(na->au.au_pw));
wb->n++;
} else if (ap->type == RIP_AUTH_MD5) {
na->a_family = RIP_AF_AUTH;
na->a_type = RIP_AUTH_MD5;
na->au.a_md5.md5_keyid = ap->keyid;
na->au.a_md5.md5_auth_len = RIP_AUTH_MD5_KEY_LEN;
na->au.a_md5.md5_seqno = htonl(clk.tv_sec);
wb->n++;
wb->lim--; /* make room for trailer */
}
}
void
end_md5_auth(struct ws_buf *wb,
struct auth *ap)
{
struct netauth *na, *na2;
MD5_CTX md5_ctx;
int len;
na = (struct netauth*)wb->base;
na2 = (struct netauth*)wb->n;
len = (char *)na2-(char *)wb->buf;
na2->a_family = RIP_AF_AUTH;
na2->a_type = htons(1);
na->au.a_md5.md5_pkt_len = htons(len);
MD5Init(&md5_ctx);
MD5Update(&md5_ctx, (u_char *)wb->buf, len + RIP_AUTH_MD5_HASH_XTRA);
MD5Update(&md5_ctx, ap->key, RIP_AUTH_MD5_KEY_LEN);
MD5Final(na2->au.au_pw, &md5_ctx);
wb->n++;
}
/* Send the buffer
*/
static void
supply_write(struct ws_buf *wb)
{
/* Output multicast only if legal.
* If we would multicast and it would be illegal, then discard the
* packet.
*/
switch (wb->type) {
case NO_OUT_MULTICAST:
trace_pkt("skip multicast to %s because impossible",
naddr_ntoa(ws.to.sin_addr.s_addr));
break;
case NO_OUT_RIPV2:
break;
default:
if (ws.a != NULL && ws.a->type == RIP_AUTH_MD5)
end_md5_auth(wb,ws.a);
if (output(wb->type, &ws.to, ws.ifp, wb->buf,
((char *)wb->n - (char*)wb->buf)) < 0
&& ws.ifp != NULL)
if_sick(ws.ifp);
ws.npackets++;
break;
}
clr_ws_buf(wb,ws.a);
}
/* put an entry into the packet
*/
static void
supply_out(struct ag_info *ag)
{
int i;
naddr mask, v1_mask, dst_h, ddst_h = 0;
struct ws_buf *wb;
/* Skip this route if doing a flash update and it and the routes
* it aggregates have not changed recently.
*/
if (ag->ag_seqno < update_seqno
&& (ws.state & WS_ST_FLASH))
return;
dst_h = ag->ag_dst_h;
mask = ag->ag_mask;
v1_mask = ripv1_mask_host(htonl(dst_h),
(ws.state & WS_ST_TO_ON_NET) ? ws.ifp : 0);
i = 0;
/* If we are sending RIPv2 packets that cannot (or must not) be
* heard by RIPv1 listeners, do not worry about sub- or supernets.
* Subnets (from other networks) can only be sent via multicast.
* A pair of subnet routes might have been promoted so that they
* are legal to send by RIPv1.
* If RIPv1 is off, use the multicast buffer.
*/
if ((ws.state & WS_ST_RIP2_ALL)
|| ((ag->ag_state & AGS_RIPV2) && v1_mask != mask)) {
/* use the RIPv2-only buffer */
wb = &v2buf;
} else {
/* use the RIPv1-or-RIPv2 buffer */
wb = &v12buf;
/* Convert supernet route into corresponding set of network
* routes for RIPv1, but leave non-contiguous netmasks
* to ag_check().
*/
if (v1_mask > mask
&& mask + (mask & -mask) == 0) {
ddst_h = v1_mask & -v1_mask;
i = (v1_mask & ~mask)/ddst_h;
if (i > ws.gen_limit) {
/* Punt if we would have to generate an
* unreasonable number of routes.
*/
if (TRACECONTENTS)
trace_misc("sending %s-->%s as 1"
" instead of %d routes",
addrname(htonl(dst_h), mask,
1),
naddr_ntoa(ws.to.sin_addr
.s_addr),
i+1);
i = 0;
} else {
mask = v1_mask;
ws.gen_limit -= i;
}
}
}
do {
wb->n->n_family = RIP_AF_INET;
wb->n->n_dst = htonl(dst_h);
/* If the route is from router-discovery or we are
* shutting down, admit only a bad metric.
*/
wb->n->n_metric = ((stopint || ag->ag_metric < 1)
? HOPCNT_INFINITY
: ag->ag_metric);
wb->n->n_metric = htonl(wb->n->n_metric);
/* Any non-zero bits in the supposedly unused RIPv1 fields
* cause the old `routed` to ignore the route.
* That means the mask and so forth cannot be sent
* in the hybrid RIPv1/RIPv2 mode.
*/
if (ws.state & WS_ST_RIP2_ALL) {
if (ag->ag_nhop != 0
&& ((ws.state & WS_ST_QUERY)
|| (ag->ag_nhop != ws.ifp->int_addr
&& on_net(ag->ag_nhop,
ws.ifp->int_net,
ws.ifp->int_mask))))
wb->n->n_nhop = ag->ag_nhop;
wb->n->n_mask = htonl(mask);
wb->n->n_tag = ag->ag_tag;
}
dst_h += ddst_h;
if (++wb->n >= wb->lim)
supply_write(wb);
} while (i-- != 0);
}
/* supply one route from the table
*/
/* ARGSUSED */
static int
walk_supply(struct radix_node *rn,
struct walkarg *argp UNUSED)
{
#define RT ((struct rt_entry *)rn)
u_short ags;
char metric, pref;
naddr dst, nhop;
struct rt_spare *rts;
int i;
/* Do not advertise external remote interfaces or passive interfaces.
*/
if ((RT->rt_state & RS_IF)
&& RT->rt_ifp != 0
&& (RT->rt_ifp->int_state & IS_PASSIVE)
&& !(RT->rt_state & RS_MHOME))
return 0;
/* If being quiet about our ability to forward, then
* do not say anything unless responding to a query,
* except about our main interface.
*/
if (!supplier && !(ws.state & WS_ST_QUERY)
&& !(RT->rt_state & RS_MHOME))
return 0;
dst = RT->rt_dst;
/* do not collide with the fake default route */
if (dst == RIP_DEFAULT
&& (ws.state & WS_ST_DEFAULT))
return 0;
if (RT->rt_state & RS_NET_SYN) {
if (RT->rt_state & RS_NET_INT) {
/* Do not send manual synthetic network routes
* into the subnet.
*/
if (on_net(ws.to.sin_addr.s_addr,
ntohl(dst), RT->rt_mask))
return 0;
} else {
/* Do not send automatic synthetic network routes
* if they are not needed because no RIPv1 listeners
* can hear them.
*/
if (ws.state & WS_ST_RIP2_ALL)
return 0;
/* Do not send automatic synthetic network routes to
* the real subnet.
*/
if (on_net(ws.to.sin_addr.s_addr,
ntohl(dst), RT->rt_mask))
return 0;
}
nhop = 0;
} else {
/* Advertise the next hop if this is not a route for one
* of our interfaces and the next hop is on the same
* network as the target.
* The final determination is made by supply_out().
*/
if (!(RT->rt_state & RS_IF)
&& RT->rt_gate != myaddr
&& RT->rt_gate != loopaddr)
nhop = RT->rt_gate;
else
nhop = 0;
}
metric = RT->rt_metric;
ags = 0;
if (RT->rt_state & RS_MHOME) {
/* retain host route of multi-homed servers */
;
} else if (RT_ISHOST(RT)) {
/* We should always suppress (into existing network routes)
* the host routes for the local end of our point-to-point
* links.
* If we are suppressing host routes in general, then do so.
* Avoid advertising host routes onto their own network,
* where they should be handled by proxy-ARP.
*/
if ((RT->rt_state & RS_LOCAL)
|| ridhosts
|| on_net(dst, ws.to_net, ws.to_mask))
ags |= AGS_SUPPRESS;
/* Aggregate stray host routes into network routes if allowed.
* We cannot aggregate host routes into small network routes
* without confusing RIPv1 listeners into thinking the
* network routes are host routes.
*/
if ((ws.state & WS_ST_AG) && (ws.state & WS_ST_RIP2_ALL))
ags |= AGS_AGGREGATE;
} else {
/* Always suppress network routes into other, existing
* network routes
*/
ags |= AGS_SUPPRESS;
/* Generate supernets if allowed.
* If we can be heard by RIPv1 systems, we will
* later convert back to ordinary nets.
* This unifies dealing with received supernets.
*/
if ((ws.state & WS_ST_AG)
&& ((RT->rt_state & RS_SUBNET)
|| (ws.state & WS_ST_SUPER_AG)))
ags |= AGS_AGGREGATE;
}
/* Do not send RIPv1 advertisements of subnets to other
* networks. If possible, multicast them by RIPv2.
*/
if ((RT->rt_state & RS_SUBNET)
&& !(ws.state & WS_ST_RIP2_ALL)
&& !on_net(dst, ws.to_std_net, ws.to_std_mask))
ags |= AGS_RIPV2 | AGS_AGGREGATE;
/* Do not send a route back to where it came from, except in
* response to a query. This is "split-horizon". That means not
* advertising back to the same network and so via the same interface.
*
* We want to suppress routes that might have been fragmented
* from this route by a RIPv1 router and sent back to us, and so we
* cannot forget this route here. Let the split-horizon route
* suppress the fragmented routes and then itself be forgotten.
*
* Include the routes for both ends of point-to-point interfaces
* among those suppressed by split-horizon, since the other side
* should knows them as well as we do.
*
* Notice spare routes with the same metric that we are about to
* advertise, to split the horizon on redundant, inactive paths.
*
* Do not suppress advertisements of interface-related addresses on
* non-point-to-point interfaces. This ensures that we have something
* to say every 30 seconds to help detect broken Ethernets or
* other interfaces where one packet every 30 seconds costs nothing.
*/
if (ws.ifp != NULL
&& !(ws.state & WS_ST_QUERY)
&& (ws.state & WS_ST_TO_ON_NET)
&& (!(RT->rt_state & RS_IF)
|| ws.ifp->int_if_flags & IFF_POINTOPOINT)) {
for (rts = RT->rt_spares, i = NUM_SPARES; i != 0; i--, rts++) {
if (rts->rts_metric > metric
|| rts->rts_ifp != ws.ifp)
continue;
/* If we do not mark the route with AGS_SPLIT_HZ here,
* it will be poisoned-reverse, or advertised back
* toward its source with an infinite metric.
* If we have recently advertised the route with a
* better metric than we now have, then we should
* poison-reverse the route before suppressing it for
* split-horizon.
*
* In almost all cases, if there is no spare for the
* route then it is either old and dead or a brand
* new route. If it is brand new, there is no need
* for poison-reverse. If it is old and dead, it
* is already poisoned.
*/
if (RT->rt_poison_time < now_expire
|| RT->rt_poison_metric >= metric
|| RT->rt_spares[1].rts_gate == 0) {
ags |= AGS_SPLIT_HZ;
ags &= ~AGS_SUPPRESS;
}
metric = HOPCNT_INFINITY;
break;
}
}
/* Keep track of the best metric with which the
* route has been advertised recently.
*/
if (RT->rt_poison_metric >= metric
|| RT->rt_poison_time < now_expire) {
RT->rt_poison_time = now.tv_sec;
RT->rt_poison_metric = metric;
}
/* Adjust the outgoing metric by the cost of the link.
* Avoid aggregation when a route is counting to infinity.
*/
pref = RT->rt_poison_metric + ws.metric;
metric += ws.metric;
/* Do not advertise stable routes that will be ignored,
* unless we are answering a query.
* If the route recently was advertised with a metric that
* would have been less than infinity through this interface,
* we need to continue to advertise it in order to poison it.
*/
if (metric >= HOPCNT_INFINITY) {
if (!(ws.state & WS_ST_QUERY)
&& (pref >= HOPCNT_INFINITY
|| RT->rt_poison_time < now_garbage))
return 0;
metric = HOPCNT_INFINITY;
}
ag_check(dst, RT->rt_mask, 0, nhop, metric, pref,
RT->rt_seqno, RT->rt_tag, ags, supply_out);
return 0;
#undef RT
}
/* Supply dst with the contents of the routing tables.
* If this won't fit in one packet, chop it up into several.
*/
void
supply(struct sockaddr_in *dst,
struct interface *ifp, /* output interface */
enum output_type type,
int flash, /* 1=flash update */
int vers, /* RIP version */
int passwd_ok) /* OK to include cleartext password */
{
struct rt_entry *rt;
int def_metric;
ws.state = 0;
ws.gen_limit = 1024;
ws.to = *dst;
ws.to_std_mask = std_mask(ws.to.sin_addr.s_addr);
ws.to_std_net = ntohl(ws.to.sin_addr.s_addr) & ws.to_std_mask;
if (ifp != NULL) {
ws.to_mask = ifp->int_mask;
ws.to_net = ifp->int_net;
if (on_net(ws.to.sin_addr.s_addr, ws.to_net, ws.to_mask))
ws.state |= WS_ST_TO_ON_NET;
} else {
ws.to_mask = ripv1_mask_net(ws.to.sin_addr.s_addr, 0);
ws.to_net = ntohl(ws.to.sin_addr.s_addr) & ws.to_mask;
rt = rtfind(dst->sin_addr.s_addr);
if (rt)
ifp = rt->rt_ifp;
}
ws.npackets = 0;
if (flash)
ws.state |= WS_ST_FLASH;
if ((ws.ifp = ifp) == NULL) {
ws.metric = 1;
} else {
/* Adjust the advertised metric by the outgoing interface
* metric.
*/
ws.metric = ifp->int_metric + 1 + ifp->int_adj_outmetric;
}
ripv12_buf.rip.rip_vers = vers;
switch (type) {
case OUT_MULTICAST:
if (ifp != NULL && ifp->int_if_flags & IFF_MULTICAST)
v2buf.type = OUT_MULTICAST;
else
v2buf.type = NO_OUT_MULTICAST;
v12buf.type = OUT_BROADCAST;
break;
case OUT_QUERY:
ws.state |= WS_ST_QUERY;
/* FALLTHROUGH */
case OUT_BROADCAST:
case OUT_UNICAST:
v2buf.type = (vers == RIPv2) ? type : NO_OUT_RIPV2;
v12buf.type = type;
break;
case NO_OUT_MULTICAST:
case NO_OUT_RIPV2:
break; /* no output */
}
if (vers == RIPv2) {
/* full RIPv2 only if cannot be heard by RIPv1 listeners */
if (type != OUT_BROADCAST)
ws.state |= WS_ST_RIP2_ALL;
if ((ws.state & WS_ST_QUERY)
|| !(ws.state & WS_ST_TO_ON_NET)) {
ws.state |= (WS_ST_AG | WS_ST_SUPER_AG);
} else if (ifp == NULL || !(ifp->int_state & IS_NO_AG)) {
ws.state |= WS_ST_AG;
if (type != OUT_BROADCAST
&& (ifp == NULL
|| !(ifp->int_state & IS_NO_SUPER_AG)))
ws.state |= WS_ST_SUPER_AG;
}
}
ws.a = (vers == RIPv2) ? find_auth(ifp) : 0;
if (!passwd_ok && ws.a != NULL && ws.a->type == RIP_AUTH_PW)
ws.a = NULL;
clr_ws_buf(&v12buf,ws.a);
clr_ws_buf(&v2buf,ws.a);
/* Fake a default route if asked and if there is not already
* a better, real default route.
*/
if (supplier && ifp && (def_metric = ifp->int_d_metric) != 0) {
if ((rt = rtget(RIP_DEFAULT, 0)) == NULL
|| rt->rt_metric+ws.metric >= def_metric) {
ws.state |= WS_ST_DEFAULT;
ag_check(0, 0, 0, 0, def_metric, def_metric,
0, 0, 0, supply_out);
} else {
def_metric = rt->rt_metric+ws.metric;
}
/* If both RIPv2 and the poor-man's router discovery
* kludge are on, arrange to advertise an extra
* default route via RIPv1.
*/
if ((ws.state & WS_ST_RIP2_ALL)
&& (ifp->int_state & IS_PM_RDISC)) {
ripv12_buf.rip.rip_vers = RIPv1;
v12buf.n->n_family = RIP_AF_INET;
v12buf.n->n_dst = htonl(RIP_DEFAULT);
v12buf.n->n_metric = htonl(def_metric);
v12buf.n++;
}
}
(void)rn_walktree(rhead, walk_supply, 0);
ag_flush(0,0,supply_out);
/* Flush the packet buffers, provided they are not empty and
* do not contain only the password.
*/
if (v12buf.n != v12buf.base
&& (v12buf.n > v12buf.base+1
|| v12buf.base->n_family != RIP_AF_AUTH))
supply_write(&v12buf);
if (v2buf.n != v2buf.base
&& (v2buf.n > v2buf.base+1
|| v2buf.base->n_family != RIP_AF_AUTH))
supply_write(&v2buf);
/* If we sent nothing and this is an answer to a query, send
* an empty buffer.
*/
if (ws.npackets == 0
&& (ws.state & WS_ST_QUERY))
supply_write(&v12buf);
}
/* send all of the routing table or just do a flash update
*/
void
rip_bcast(int flash)
{
#ifdef _HAVE_SIN_LEN
static struct sockaddr_in dst = {sizeof(dst), AF_INET, 0, {0}, {0}};
#else
static struct sockaddr_in dst = {AF_INET};
#endif
struct interface *ifp;
enum output_type type;
int vers;
struct timeval rtime;
need_flash = 0;
intvl_random(&rtime, MIN_WAITTIME, MAX_WAITTIME);
no_flash = rtime;
timevaladd(&no_flash, &now);
if (rip_sock < 0)
return;
trace_act("send %s and inhibit dynamic updates for %.3f sec",
flash ? "dynamic update" : "all routes",
rtime.tv_sec + ((float)rtime.tv_usec)/1000000.0);
LIST_FOREACH(ifp, &ifnet, int_list) {
/* Skip interfaces not doing RIP.
* Do try broken interfaces to see if they have healed.
*/
if (IS_RIP_OUT_OFF(ifp->int_state))
continue;
/* skip turned off interfaces */
if (!iff_up(ifp->int_if_flags))
continue;
vers = (ifp->int_state & IS_NO_RIPV1_OUT) ? RIPv2 : RIPv1;
if (ifp->int_if_flags & IFF_BROADCAST) {
/* ordinary, hardware interface */
dst.sin_addr.s_addr = ifp->int_brdaddr;
if (vers == RIPv2
&& !(ifp->int_state & IS_NO_RIP_MCAST)) {
type = OUT_MULTICAST;
} else {
type = OUT_BROADCAST;
}
} else if (ifp->int_if_flags & IFF_POINTOPOINT) {
/* point-to-point hardware interface */
dst.sin_addr.s_addr = ifp->int_dstaddr;
if (vers == RIPv2 &&
ifp->int_if_flags & IFF_MULTICAST &&
!(ifp->int_state & IS_NO_RIP_MCAST)) {
type = OUT_MULTICAST;
} else {
type = OUT_UNICAST;
}
} else if (ifp->int_state & IS_REMOTE) {
/* remote interface */
dst.sin_addr.s_addr = ifp->int_addr;
type = OUT_UNICAST;
} else {
/* ATM, HIPPI, etc. */
continue;
}
supply(&dst, ifp, type, flash, vers, 1);
}
update_seqno++; /* all routes are up to date */
}
/* Ask for routes
* Do it only once to an interface, and not even after the interface
* was broken and recovered.
*/
void
rip_query(void)
{
#ifdef _HAVE_SIN_LEN
static struct sockaddr_in dst = {sizeof(dst), AF_INET, 0, {0}, {0}};
#else
static struct sockaddr_in dst = {AF_INET};
#endif
struct interface *ifp;
struct rip buf;
enum output_type type;
if (rip_sock < 0)
return;
memset(&buf, 0, sizeof(buf));
LIST_FOREACH(ifp, &ifnet, int_list) {
/* Skip interfaces those already queried.
* Do not ask via interfaces through which we don't
* accept input. Do not ask via interfaces that cannot
* send RIP packets.
* Do try broken interfaces to see if they have healed.
*/
if (IS_RIP_IN_OFF(ifp->int_state)
|| ifp->int_query_time != NEVER)
continue;
/* skip turned off interfaces */
if (!iff_up(ifp->int_if_flags))
continue;
buf.rip_vers = (ifp->int_state&IS_NO_RIPV1_OUT) ? RIPv2:RIPv1;
buf.rip_cmd = RIPCMD_REQUEST;
buf.rip_nets[0].n_family = RIP_AF_UNSPEC;
buf.rip_nets[0].n_metric = htonl(HOPCNT_INFINITY);
/* Send a RIPv1 query only if allowed and if we will
* listen to RIPv1 routers.
*/
if ((ifp->int_state & IS_NO_RIPV1_OUT)
|| (ifp->int_state & IS_NO_RIPV1_IN)) {
buf.rip_vers = RIPv2;
} else {
buf.rip_vers = RIPv1;
}
if (ifp->int_if_flags & IFF_BROADCAST) {
/* ordinary, hardware interface */
dst.sin_addr.s_addr = ifp->int_brdaddr;
/* Broadcast RIPv1 queries and RIPv2 queries
* when the hardware cannot multicast.
*/
if (buf.rip_vers == RIPv2
&& (ifp->int_if_flags & IFF_MULTICAST)
&& !(ifp->int_state & IS_NO_RIP_MCAST)) {
type = OUT_MULTICAST;
} else {
type = OUT_BROADCAST;
}
} else if (ifp->int_if_flags & IFF_POINTOPOINT) {
/* point-to-point hardware interface */
dst.sin_addr.s_addr = ifp->int_dstaddr;
type = OUT_UNICAST;
} else if (ifp->int_state & IS_REMOTE) {
/* remote interface */
dst.sin_addr.s_addr = ifp->int_addr;
type = OUT_UNICAST;
} else {
/* ATM, HIPPI, etc. */
continue;
}
ifp->int_query_time = now.tv_sec+SUPPLY_INTERVAL;
if (output(type, &dst, ifp, &buf, sizeof(buf)) < 0)
if_sick(ifp);
}
}