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/*
* EIGRP Network Related Functions.
* Copyright (C) 2013-2014
* Authors:
* Donnie Savage
* Jan Janovic
* Matej Perina
* Peter Orsag
* Peter Paluch
*
* This file is part of GNU Zebra.
*
* GNU Zebra 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, or (at your option) any
* later version.
*
* GNU Zebra 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; see the file COPYING; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <zebra.h>
#include "thread.h"
#include "linklist.h"
#include "prefix.h"
#include "if.h"
#include "sockunion.h"
#include "log.h"
#include "sockopt.h"
#include "privs.h"
#include "table.h"
#include "vty.h"
#include "lib_errors.h"
#include "eigrpd/eigrp_structs.h"
#include "eigrpd/eigrpd.h"
#include "eigrpd/eigrp_interface.h"
#include "eigrpd/eigrp_neighbor.h"
#include "eigrpd/eigrp_packet.h"
#include "eigrpd/eigrp_zebra.h"
#include "eigrpd/eigrp_vty.h"
#include "eigrpd/eigrp_network.h"
static int eigrp_network_match_iface(const struct prefix *connected_prefix,
const struct prefix *prefix);
static void eigrp_network_run_interface(struct eigrp *, struct prefix *,
struct interface *);
int eigrp_sock_init(struct vrf *vrf)
{
int eigrp_sock = -1;
int ret;
#ifdef IP_HDRINCL
int hincl = 1;
#endif
if (!vrf)
return eigrp_sock;
frr_with_privs(&eigrpd_privs) {
eigrp_sock = vrf_socket(
AF_INET, SOCK_RAW, IPPROTO_EIGRPIGP, vrf->vrf_id,
vrf->vrf_id != VRF_DEFAULT ? vrf->name : NULL);
if (eigrp_sock < 0) {
zlog_err("eigrp_read_sock_init: socket: %s",
safe_strerror(errno));
exit(1);
}
#ifdef IP_HDRINCL
/* we will include IP header with packet */
ret = setsockopt(eigrp_sock, IPPROTO_IP, IP_HDRINCL, &hincl,
sizeof(hincl));
if (ret < 0) {
zlog_warn("Can't set IP_HDRINCL option for fd %d: %s",
eigrp_sock, safe_strerror(errno));
}
#elif defined(IPTOS_PREC_INTERNETCONTROL)
#warning "IP_HDRINCL not available on this system"
#warning "using IPTOS_PREC_INTERNETCONTROL"
ret = setsockopt_ipv4_tos(eigrp_sock,
IPTOS_PREC_INTERNETCONTROL);
if (ret < 0) {
zlog_warn("can't set sockopt IP_TOS %d to socket %d: %s",
tos, eigrp_sock, safe_strerror(errno));
close(eigrp_sock); /* Prevent sd leak. */
return ret;
}
#else /* !IPTOS_PREC_INTERNETCONTROL */
#warning "IP_HDRINCL not available, nor is IPTOS_PREC_INTERNETCONTROL"
zlog_warn("IP_HDRINCL option not available");
#endif /* IP_HDRINCL */
ret = setsockopt_ifindex(AF_INET, eigrp_sock, 1);
if (ret < 0)
zlog_warn("Can't set pktinfo option for fd %d",
eigrp_sock);
}
return eigrp_sock;
}
void eigrp_adjust_sndbuflen(struct eigrp *eigrp, unsigned int buflen)
{
int newbuflen;
/* Check if any work has to be done at all. */
if (eigrp->maxsndbuflen >= buflen)
return;
/* Now we try to set SO_SNDBUF to what our caller has requested
* (the MTU of a newly added interface). However, if the OS has
* truncated the actual buffer size to somewhat less size, try
* to detect it and update our records appropriately. The OS
* may allocate more buffer space, than requested, this isn't
* a error.
*/
setsockopt_so_sendbuf(eigrp->fd, buflen);
newbuflen = getsockopt_so_sendbuf(eigrp->fd);
if (newbuflen < 0 || newbuflen < (int)buflen)
zlog_warn("%s: tried to set SO_SNDBUF to %u, but got %d",
__func__, buflen, newbuflen);
if (newbuflen >= 0)
eigrp->maxsndbuflen = (unsigned int)newbuflen;
else
zlog_warn("%s: failed to get SO_SNDBUF", __func__);
}
int eigrp_if_ipmulticast(struct eigrp *top, struct prefix *p,
unsigned int ifindex)
{
uint8_t val;
int ret, len;
val = 0;
len = sizeof(val);
/* Prevent receiving self-origined multicast packets. */
ret = setsockopt(top->fd, IPPROTO_IP, IP_MULTICAST_LOOP, (void *)&val,
len);
if (ret < 0)
zlog_warn(
"can't setsockopt IP_MULTICAST_LOOP (0) for fd %d: %s",
top->fd, safe_strerror(errno));
/* Explicitly set multicast ttl to 1 -- endo. */
val = 1;
ret = setsockopt(top->fd, IPPROTO_IP, IP_MULTICAST_TTL, (void *)&val,
len);
if (ret < 0)
zlog_warn("can't setsockopt IP_MULTICAST_TTL (1) for fd %d: %s",
top->fd, safe_strerror(errno));
ret = setsockopt_ipv4_multicast_if(top->fd, p->u.prefix4, ifindex);
if (ret < 0)
zlog_warn(
"can't setsockopt IP_MULTICAST_IF (fd %d, addr %s, ifindex %u): %s",
top->fd, inet_ntoa(p->u.prefix4), ifindex,
safe_strerror(errno));
return ret;
}
/* Join to the EIGRP multicast group. */
int eigrp_if_add_allspfrouters(struct eigrp *top, struct prefix *p,
unsigned int ifindex)
{
int ret;
ret = setsockopt_ipv4_multicast(
top->fd, IP_ADD_MEMBERSHIP, p->u.prefix4,
htonl(EIGRP_MULTICAST_ADDRESS), ifindex);
if (ret < 0)
zlog_warn(
"can't setsockopt IP_ADD_MEMBERSHIP (fd %d, addr %s, ifindex %u, AllSPFRouters): %s; perhaps a kernel limit on # of multicast group memberships has been exceeded?",
top->fd, inet_ntoa(p->u.prefix4), ifindex,
safe_strerror(errno));
else
zlog_debug("interface %s [%u] join EIGRP Multicast group.",
inet_ntoa(p->u.prefix4), ifindex);
return ret;
}
int eigrp_if_drop_allspfrouters(struct eigrp *top, struct prefix *p,
unsigned int ifindex)
{
int ret;
ret = setsockopt_ipv4_multicast(
top->fd, IP_DROP_MEMBERSHIP, p->u.prefix4,
htonl(EIGRP_MULTICAST_ADDRESS), ifindex);
if (ret < 0)
zlog_warn(
"can't setsockopt IP_DROP_MEMBERSHIP (fd %d, addr %s, ifindex %u, AllSPFRouters): %s",
top->fd, inet_ntoa(p->u.prefix4), ifindex,
safe_strerror(errno));
else
zlog_debug("interface %s [%u] leave EIGRP Multicast group.",
inet_ntoa(p->u.prefix4), ifindex);
return ret;
}
int eigrp_network_set(struct eigrp *eigrp, struct prefix *p)
{
struct vrf *vrf = vrf_lookup_by_id(eigrp->vrf_id);
struct route_node *rn;
struct interface *ifp;
rn = route_node_get(eigrp->networks, p);
if (rn->info) {
/* There is already same network statement. */
route_unlock_node(rn);
return 0;
}
struct prefix *pref = prefix_new();
PREFIX_COPY_IPV4(pref, p);
rn->info = (void *)pref;
/* Schedule Router ID Update. */
if (eigrp->router_id.s_addr == INADDR_ANY)
eigrp_router_id_update(eigrp);
/* Run network config now. */
/* Get target interface. */
FOR_ALL_INTERFACES (vrf, ifp) {
zlog_debug("Setting up %s", ifp->name);
eigrp_network_run_interface(eigrp, p, ifp);
}
return 1;
}
/* Check whether interface matches given network
* returns: 1, true. 0, false
*/
static int eigrp_network_match_iface(const struct prefix *co_prefix,
const struct prefix *net)
{
/* new approach: more elegant and conceptually clean */
return prefix_match_network_statement(net, co_prefix);
}
static void eigrp_network_run_interface(struct eigrp *eigrp, struct prefix *p,
struct interface *ifp)
{
struct eigrp_interface *ei;
struct listnode *cnode;
struct connected *co;
/* if interface prefix is match specified prefix,
then create socket and join multicast group. */
for (ALL_LIST_ELEMENTS_RO(ifp->connected, cnode, co)) {
if (CHECK_FLAG(co->flags, ZEBRA_IFA_SECONDARY))
continue;
if (p->family == co->address->family && !ifp->info
&& eigrp_network_match_iface(co->address, p)) {
ei = eigrp_if_new(eigrp, ifp, co->address);
/* Relate eigrp interface to eigrp instance. */
ei->eigrp = eigrp;
/* if router_id is not configured, dont bring up
* interfaces.
* eigrp_router_id_update() will call eigrp_if_update
* whenever r-id is configured instead.
*/
if (if_is_operative(ifp))
eigrp_if_up(ei);
}
}
}
void eigrp_if_update(struct interface *ifp)
{
struct listnode *node, *nnode;
struct route_node *rn;
struct eigrp *eigrp;
/*
* In the event there are multiple eigrp autonymnous systems running,
* we need to check eac one and add the interface as approperate
*/
for (ALL_LIST_ELEMENTS(eigrp_om->eigrp, node, nnode, eigrp)) {
if (ifp->vrf_id != eigrp->vrf_id)
continue;
/* EIGRP must be on and Router-ID must be configured. */
if (eigrp->router_id.s_addr == 0)
continue;
/* Run each network for this interface. */
for (rn = route_top(eigrp->networks); rn; rn = route_next(rn))
if (rn->info != NULL) {
eigrp_network_run_interface(eigrp, &rn->p, ifp);
}
}
}
int eigrp_network_unset(struct eigrp *eigrp, struct prefix *p)
{
struct route_node *rn;
struct listnode *node, *nnode;
struct eigrp_interface *ei;
struct prefix *pref;
rn = route_node_lookup(eigrp->networks, p);
if (rn == NULL)
return 0;
pref = rn->info;
route_unlock_node(rn);
if (!IPV4_ADDR_SAME(&pref->u.prefix4, &p->u.prefix4))
return 0;
prefix_ipv4_free((struct prefix_ipv4 **)&rn->info);
route_unlock_node(rn); /* initial reference */
/* Find interfaces that not configured already. */
for (ALL_LIST_ELEMENTS(eigrp->eiflist, node, nnode, ei)) {
bool found = false;
for (rn = route_top(eigrp->networks); rn; rn = route_next(rn)) {
if (rn->info == NULL)
continue;
if (eigrp_network_match_iface(&ei->address, &rn->p)) {
found = true;
route_unlock_node(rn);
break;
}
}
if (!found) {
eigrp_if_free(ei, INTERFACE_DOWN_BY_VTY);
}
}
return 1;
}
uint32_t eigrp_calculate_metrics(struct eigrp *eigrp,
struct eigrp_metrics metric)
{
uint64_t temp_metric;
temp_metric = 0;
if (metric.delay == EIGRP_MAX_METRIC)
return EIGRP_MAX_METRIC;
// EIGRP Metric =
// {K1*BW+[(K2*BW)/(256-load)]+(K3*delay)}*{K5/(reliability+K4)}
if (eigrp->k_values[0])
temp_metric += (eigrp->k_values[0] * metric.bandwidth);
if (eigrp->k_values[1])
temp_metric += ((eigrp->k_values[1] * metric.bandwidth)
/ (256 - metric.load));
if (eigrp->k_values[2])
temp_metric += (eigrp->k_values[2] * metric.delay);
if (eigrp->k_values[3] && !eigrp->k_values[4])
temp_metric *= eigrp->k_values[3];
if (!eigrp->k_values[3] && eigrp->k_values[4])
temp_metric *= (eigrp->k_values[4] / metric.reliability);
if (eigrp->k_values[3] && eigrp->k_values[4])
temp_metric *= ((eigrp->k_values[4] / metric.reliability)
+ eigrp->k_values[3]);
if (temp_metric <= EIGRP_MAX_METRIC)
return (uint32_t)temp_metric;
else
return EIGRP_MAX_METRIC;
}
uint32_t eigrp_calculate_total_metrics(struct eigrp *eigrp,
struct eigrp_nexthop_entry *entry)
{
struct eigrp_interface *ei = entry->ei;
entry->total_metric = entry->reported_metric;
uint64_t temp_delay =
(uint64_t)entry->total_metric.delay
+ (uint64_t)eigrp_delay_to_scaled(ei->params.delay);
entry->total_metric.delay = temp_delay > EIGRP_MAX_METRIC
? EIGRP_MAX_METRIC
: (uint32_t)temp_delay;
uint32_t bw = eigrp_bandwidth_to_scaled(ei->params.bandwidth);
entry->total_metric.bandwidth = entry->total_metric.bandwidth > bw
? bw
: entry->total_metric.bandwidth;
return eigrp_calculate_metrics(eigrp, entry->total_metric);
}
uint8_t eigrp_metrics_is_same(struct eigrp_metrics metric1,
struct eigrp_metrics metric2)
{
if ((metric1.bandwidth == metric2.bandwidth)
&& (metric1.delay == metric2.delay)
&& (metric1.hop_count == metric2.hop_count)
&& (metric1.load == metric2.load)
&& (metric1.reliability == metric2.reliability)
&& (metric1.mtu[0] == metric2.mtu[0])
&& (metric1.mtu[1] == metric2.mtu[1])
&& (metric1.mtu[2] == metric2.mtu[2]))
return 1;
return 0; // if different
}
void eigrp_external_routes_refresh(struct eigrp *eigrp, int type)
{
}
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