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routing_table.c
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routing_table.c
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/*****************************************************************************
*
* Copyright (C) 2001 Uppsala University and Ericsson AB.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Authors: Erik Nordström, <erik.nordstrom@it.uu.se>
*
*****************************************************************************/
#include <time.h>
#ifdef NS_PORT
#include "ns-2/aodv-uu.h"
#else
#include "routing_table.h"
#include "aodv_timeout.h"
#include "aodv_rerr.h"
#include "aodv_hello.h"
#include "aodv_socket.h"
#include "aodv_neighbor.h"
#include "timer_queue.h"
#include "defs.h"
#include "debug.h"
#include "params.h"
#include "seek_list.h"
#include "nl.h"
#endif /* NS_PORT */
static unsigned int hashing(struct in_addr *addr, hash_value * hash);
extern int llfeedback;
void NS_CLASS rt_table_init()
{
int i;
rt_tbl.num_entries = 0;
rt_tbl.num_active = 0;
/* We do a for loop here... NS does not like us to use memset() */
for (i = 0; i < RT_TABLESIZE; i++) {
INIT_LIST_HEAD(&rt_tbl.tbl[i]);
}
}
void NS_CLASS rt_table_destroy()
{
int i;
list_t *tmp = NULL, *pos = NULL;
for (i = 0; i < RT_TABLESIZE; i++) {
list_foreach_safe(pos, tmp, &rt_tbl.tbl[i]) {
rt_table_t *rt = (rt_table_t *) pos;
rt_table_delete(rt);
}
}
}
/* Calculate a hash value and table index given a key... */
unsigned int hashing(struct in_addr *addr, hash_value * hash)
{
/* *hash = (*addr & 0x7fffffff); */
*hash = (hash_value) addr->s_addr;
return (*hash & RT_TABLEMASK);
}
rt_table_t *NS_CLASS rt_table_insert(struct in_addr dest_addr,
struct in_addr next,
u_int8_t hops, u_int32_t seqno,
u_int32_t life, u_int8_t state,
u_int16_t flags, unsigned int ifindex)
{
hash_value hash;
unsigned int index;
list_t *pos;
rt_table_t *rt;
struct in_addr nm;
nm.s_addr = 0;
/* Calculate hash key */
index = hashing(&dest_addr, &hash);
/* Check if we already have an entry for dest_addr */
list_foreach(pos, &rt_tbl.tbl[index]) {
rt = (rt_table_t *) pos;
if (memcmp(&rt->dest_addr, &dest_addr, sizeof(struct in_addr))
== 0) {
DEBUG(LOG_INFO, 0, "%s already exist in routing table!",
ip_to_str(dest_addr));
return NULL;
}
}
if ((rt = (rt_table_t *) malloc(sizeof(rt_table_t))) == NULL) {
fprintf(stderr, "Malloc failed!\n");
exit(-1);
}
memset(rt, 0, sizeof(rt_table_t));
rt->dest_addr = dest_addr;
rt->next_hop = next;
rt->dest_seqno = seqno;
rt->flags = flags;
rt->hcnt = hops;
rt->ifindex = ifindex;
rt->hash = hash;
rt->state = state;
timer_init(&rt->rt_timer, &NS_CLASS route_expire_timeout, rt);
timer_init(&rt->ack_timer, &NS_CLASS rrep_ack_timeout, rt);
timer_init(&rt->hello_timer, &NS_CLASS hello_timeout, rt);
rt->last_hello_time.tv_sec = 0;
rt->last_hello_time.tv_usec = 0;
rt->hello_cnt = 0;
rt->nprec = 0;
INIT_LIST_HEAD(&rt->precursors);
/* Insert first in bucket... */
rt_tbl.num_entries++;
DEBUG(LOG_INFO, 0, "Inserting %s (bucket %d) next hop %s",
ip_to_str(dest_addr), index, ip_to_str(next));
list_add(&rt_tbl.tbl[index], &rt->l);
if (state == INVALID) {
if (flags & RT_REPAIR) {
rt->rt_timer.handler = &NS_CLASS local_repair_timeout;
life = ACTIVE_ROUTE_TIMEOUT;
} else {
rt->rt_timer.handler = &NS_CLASS route_delete_timeout;
life = DELETE_PERIOD;
}
} else {
rt_tbl.num_active++;
#ifndef NS_PORT
nl_send_add_route_msg(dest_addr, next, hops, life, flags,
ifindex);
#endif
}
#ifdef CONFIG_GATEWAY_DISABLE
if (rt->flags & RT_GATEWAY)
rt_table_update_inet_rt(rt, life);
#endif
//#ifdef NS_PORT
DEBUG(LOG_INFO, 0, "New timer for %s, life=%d",
ip_to_str(rt->dest_addr), life);
if (life != 0)
timer_set_timeout(&rt->rt_timer, life);
//#endif
/* In case there are buffered packets for this destination, we
* send them on the new route. */
if (rt->state == VALID && seek_list_remove(seek_list_find(dest_addr))) {
#ifdef NS_PORT
if (rt->flags & RT_INET_DEST)
packet_queue_set_verdict(dest_addr, PQ_ENC_SEND);
else
packet_queue_set_verdict(dest_addr, PQ_SEND);
#endif
}
return rt;
}
rt_table_t *NS_CLASS rt_table_update(rt_table_t * rt, struct in_addr next,
u_int8_t hops, u_int32_t seqno,
u_int32_t lifetime, u_int8_t state,
u_int16_t flags)
{
struct in_addr nm;
nm.s_addr = 0;
if (rt->state == INVALID && state == VALID) {
/* If this previously was an expired route, but will now be
active again we must add it to the kernel routing
table... */
rt_tbl.num_active++;
if (rt->flags & RT_REPAIR)
flags &= ~RT_REPAIR;
#ifndef NS_PORT
nl_send_add_route_msg(rt->dest_addr, next, hops, lifetime,
flags, rt->ifindex);
#endif
} else if (rt->next_hop.s_addr != 0 &&
rt->next_hop.s_addr != next.s_addr) {
DEBUG(LOG_INFO, 0, "rt->next_hop=%s, new_next_hop=%s",
ip_to_str(rt->next_hop), ip_to_str(next));
#ifndef NS_PORT
nl_send_add_route_msg(rt->dest_addr, next, hops, lifetime,
flags, rt->ifindex);
#endif
}
if (hops > 1 && rt->hcnt == 1) {
rt->last_hello_time.tv_sec = 0;
rt->last_hello_time.tv_usec = 0;
rt->hello_cnt = 0;
timer_remove(&rt->hello_timer);
/* Must also do a "link break" when updating a 1 hop
neighbor in case another routing entry use this as
next hop... */
neighbor_link_break(rt);
}
rt->flags = flags;
rt->dest_seqno = seqno;
rt->next_hop = next;
rt->hcnt = hops;
#ifdef CONFIG_GATEWAY
if (rt->flags & RT_GATEWAY)
rt_table_update_inet_rt(rt, lifetime);
#endif
//#ifdef NS_PORT
rt->rt_timer.handler = &NS_CLASS route_expire_timeout;
if (!(rt->flags & RT_INET_DEST))
rt_table_update_timeout(rt, lifetime);
//#endif
/* Finally, mark as VALID */
rt->state = state;
/* In case there are buffered packets for this destination, we send
* them on the new route. */
if (rt->state == VALID
&& seek_list_remove(seek_list_find(rt->dest_addr))) {
#ifdef NS_PORT
if (rt->flags & RT_INET_DEST)
packet_queue_set_verdict(rt->dest_addr, PQ_ENC_SEND);
else
packet_queue_set_verdict(rt->dest_addr, PQ_SEND);
#endif
}
return rt;
}
NS_INLINE rt_table_t *NS_CLASS rt_table_update_timeout(rt_table_t * rt,
u_int32_t lifetime)
{
struct timeval new_timeout;
if (!rt)
return NULL;
if (rt->state == VALID) {
/* Check if the current valid timeout is larger than the new
one - in that case keep the old one. */
gettimeofday(&new_timeout, NULL);
timeval_add_msec(&new_timeout, lifetime);
if (timeval_diff(&rt->rt_timer.timeout, &new_timeout) < 0)
timer_set_timeout(&rt->rt_timer, lifetime);
} else
timer_set_timeout(&rt->rt_timer, lifetime);
return rt;
}
/* Update route timeouts in response to an incoming or outgoing data packet. */
void NS_CLASS rt_table_update_route_timeouts(rt_table_t * fwd_rt,
rt_table_t * rev_rt)
{
rt_table_t *next_hop_rt = NULL;
/* When forwarding a packet, we update the lifetime of the
destination's routing table entry, as well as the entry for the
next hop neighbor (if not the same). AODV draft 10, section
6.2. */
if (fwd_rt && fwd_rt->state == VALID) {
if (llfeedback || fwd_rt->flags & RT_INET_DEST ||
fwd_rt->hcnt != 1 || fwd_rt->hello_timer.used)
rt_table_update_timeout(fwd_rt, ACTIVE_ROUTE_TIMEOUT);
next_hop_rt = rt_table_find(fwd_rt->next_hop);
if (next_hop_rt && next_hop_rt->state == VALID &&
next_hop_rt->dest_addr.s_addr != fwd_rt->dest_addr.s_addr &&
(llfeedback || fwd_rt->hello_timer.used))
rt_table_update_timeout(next_hop_rt,
ACTIVE_ROUTE_TIMEOUT);
}
/* Also update the reverse route and reverse next hop along the
path back, since routes between originators and the destination
are expected to be symmetric. */
if (rev_rt && rev_rt->state == VALID) {
if (llfeedback || rev_rt->hcnt != 1 || rev_rt->hello_timer.used)
rt_table_update_timeout(rev_rt, ACTIVE_ROUTE_TIMEOUT);
next_hop_rt = rt_table_find(rev_rt->next_hop);
if (next_hop_rt && next_hop_rt->state == VALID && rev_rt &&
next_hop_rt->dest_addr.s_addr != rev_rt->dest_addr.s_addr &&
(llfeedback || rev_rt->hello_timer.used))
rt_table_update_timeout(next_hop_rt,
ACTIVE_ROUTE_TIMEOUT);
/* Update HELLO timer of next hop neighbor if active */
/* if (!llfeedback && next_hop_rt->hello_timer.used) { */
/* struct timeval now; */
/* gettimeofday(&now, NULL); */
/* hello_update_timeout(next_hop_rt, &now, */
/* ALLOWED_HELLO_LOSS * HELLO_INTERVAL); */
/* } */
}
}
rt_table_t *NS_CLASS rt_table_find(struct in_addr dest_addr)
{
hash_value hash;
unsigned int index;
list_t *pos;
if (rt_tbl.num_entries == 0)
return NULL;
/* Calculate index */
index = hashing(&dest_addr, &hash);
/* Handle collisions: */
list_foreach(pos, &rt_tbl.tbl[index]) {
rt_table_t *rt = (rt_table_t *) pos;
if (rt->hash != hash)
continue;
if (memcmp(&dest_addr, &rt->dest_addr, sizeof(struct in_addr))
== 0)
return rt;
}
return NULL;
}
rt_table_t *NS_CLASS rt_table_find_gateway()
{
rt_table_t *gw = NULL;
int i;
for (i = 0; i < RT_TABLESIZE; i++) {
list_t *pos;
list_foreach(pos, &rt_tbl.tbl[i]) {
rt_table_t *rt = (rt_table_t *) pos;
if (rt->flags & RT_GATEWAY && rt->state == VALID) {
if (!gw || rt->hcnt < gw->hcnt)
gw = rt;
}
}
}
return gw;
}
#ifdef CONFIG_GATEWAY
int NS_CLASS rt_table_update_inet_rt(rt_table_t * gw, u_int32_t life)
{
int n = 0;
int i;
if (!gw)
return -1;
for (i = 0; i < RT_TABLESIZE; i++) {
list_t *pos;
list_foreach(pos, &rt_tbl.tbl[i]) {
rt_table_t *rt = (rt_table_t *) pos;
if (rt->flags & RT_INET_DEST && rt->state == VALID) {
rt_table_update(rt, gw->dest_addr, gw->hcnt, 0,
life, VALID, rt->flags);
n++;
}
}
}
return n;
}
#endif /* CONFIG_GATEWAY_DISABLED */
/* Route expiry and Deletion. */
int NS_CLASS rt_table_invalidate(rt_table_t * rt)
{
struct timeval now;
gettimeofday(&now, NULL);
if (rt == NULL)
return -1;
/* If the route is already invalidated, do nothing... */
if (rt->state == INVALID) {
DEBUG(LOG_DEBUG, 0, "Route %s already invalidated!!!",
ip_to_str(rt->dest_addr));
return -1;
}
if (rt->hello_timer.used) {
DEBUG(LOG_DEBUG, 0, "last HELLO: %ld",
timeval_diff(&now, &rt->last_hello_time));
}
/* Remove any pending, but now obsolete timers. */
timer_remove(&rt->rt_timer);
timer_remove(&rt->hello_timer);
timer_remove(&rt->ack_timer);
/* Mark the route as invalid */
rt->state = INVALID;
rt_tbl.num_active--;
rt->hello_cnt = 0;
/* When the lifetime of a route entry expires, increase the sequence
number for that entry. */
seqno_incr(rt->dest_seqno);
rt->last_hello_time.tv_sec = 0;
rt->last_hello_time.tv_usec = 0;
#ifndef NS_PORT
nl_send_del_route_msg(rt->dest_addr, rt->next_hop, rt->hcnt);
#endif
#ifdef CONFIG_GATEWAY
/* If this was a gateway, check if any Internet destinations were using
* it. In that case update them to use a backup gateway or invalide them
* too. */
if (rt->flags & RT_GATEWAY) {
int i;
rt_table_t *gw = rt_table_find_gateway();
for (i = 0; i < RT_TABLESIZE; i++) {
list_t *pos;
list_foreach(pos, &rt_tbl.tbl[i]) {
rt_table_t *rt2 = (rt_table_t *) pos;
if (rt2->state == VALID
&& (rt2->flags & RT_INET_DEST)
&& (rt2->next_hop.s_addr ==
rt->dest_addr.s_addr)) {
if (0) {
DEBUG(LOG_DEBUG, 0,
"Invalidated GW %s but found new GW %s for %s",
ip_to_str(rt->dest_addr),
ip_to_str(gw->dest_addr),
ip_to_str(rt2->
dest_addr));
rt_table_update(rt2,
gw->dest_addr,
gw->hcnt, 0,
timeval_diff
(&rt->rt_timer.
timeout, &now),
VALID,
rt2->flags);
} else {
rt_table_invalidate(rt2);
precursor_list_destroy(rt2);
}
}
}
}
}
#endif
if (rt->flags & RT_REPAIR) {
/* Set a timeout for the repair */
rt->rt_timer.handler = &NS_CLASS local_repair_timeout;
timer_set_timeout(&rt->rt_timer, ACTIVE_ROUTE_TIMEOUT);
DEBUG(LOG_DEBUG, 0, "%s kept for repairs during %u msecs",
ip_to_str(rt->dest_addr), ACTIVE_ROUTE_TIMEOUT);
} else {
/* Schedule a deletion timer */
rt->rt_timer.handler = &NS_CLASS route_delete_timeout;
timer_set_timeout(&rt->rt_timer, DELETE_PERIOD);
DEBUG(LOG_DEBUG, 0, "%s removed in %u msecs",
ip_to_str(rt->dest_addr), DELETE_PERIOD);
}
return 0;
}
void NS_CLASS rt_table_delete(rt_table_t * rt)
{
if (!rt) {
DEBUG(LOG_ERR, 0, "No route entry to delete");
return;
}
list_detach(&rt->l);
precursor_list_destroy(rt);
if (rt->state == VALID) {
#ifndef NS_PORT
nl_send_del_route_msg(rt->dest_addr, rt->next_hop, rt->hcnt);
#endif
rt_tbl.num_active--;
}
/* Make sure timers are removed... */
timer_remove(&rt->rt_timer);
timer_remove(&rt->hello_timer);
timer_remove(&rt->ack_timer);
rt_tbl.num_entries--;
free(rt);
return;
}
/****************************************************************/
/* Add an neighbor to the active neighbor list. */
void NS_CLASS precursor_add(rt_table_t * rt, struct in_addr addr)
{
precursor_t *pr;
list_t *pos;
/* Sanity check */
if (!rt)
return;
/* Check if the node is already in the precursors list. */
list_foreach(pos, &rt->precursors) {
pr = (precursor_t *) pos;
if (pr->neighbor.s_addr == addr.s_addr)
return;
}
if ((pr = (precursor_t *) malloc(sizeof(precursor_t))) == NULL) {
perror("Could not allocate memory for precursor node!!\n");
exit(-1);
}
DEBUG(LOG_INFO, 0, "Adding precursor %s to rte %s",
ip_to_str(addr), ip_to_str(rt->dest_addr));
pr->neighbor.s_addr = addr.s_addr;
/* Insert in precursors list */
list_add(&rt->precursors, &pr->l);
rt->nprec++;
return;
}
/****************************************************************/
/* Remove a neighbor from the active neighbor list. */
void NS_CLASS precursor_remove(rt_table_t * rt, struct in_addr addr)
{
list_t *pos;
/* Sanity check */
if (!rt)
return;
list_foreach(pos, &rt->precursors) {
precursor_t *pr = (precursor_t *) pos;
if (pr->neighbor.s_addr == addr.s_addr) {
DEBUG(LOG_INFO, 0, "Removing precursor %s from rte %s",
ip_to_str(addr), ip_to_str(rt->dest_addr));
list_detach(pos);
rt->nprec--;
free(pr);
return;
}
}
}
/****************************************************************/
/* Delete all entries from the active neighbor list. */
void precursor_list_destroy(rt_table_t * rt)
{
list_t *pos, *tmp;
/* Sanity check */
if (!rt)
return;
list_foreach_safe(pos, tmp, &rt->precursors) {
precursor_t *pr = (precursor_t *) pos;
list_detach(pos);
rt->nprec--;
free(pr);
}
}