/* Interface related function for RIP. * Copyright (C) 1997, 98 Kunihiro Ishiguro * * 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 GNU Zebra; see the file COPYING. If not, write to the Free * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA * 02111-1307, USA. */ #include #include "command.h" #include "if.h" #include "sockunion.h" #include "prefix.h" #include "memory.h" #include "network.h" #include "table.h" #include "log.h" #include "stream.h" #include "thread.h" #include "zclient.h" #include "filter.h" #include "sockopt.h" #include "privs.h" #include "zebra/connected.h" #include "ripd/ripd.h" #include "ripd/rip_debug.h" #include "ripd/rip_interface.h" /* static prototypes */ static void rip_enable_apply (struct interface *); static void rip_passive_interface_apply (struct interface *); static int rip_if_down(struct interface *ifp); static int rip_enable_if_lookup (const char *ifname); static int rip_enable_network_lookup2 (struct connected *connected); static void rip_enable_apply_all (void); struct message ri_version_msg[] = { {RI_RIP_VERSION_1, "1"}, {RI_RIP_VERSION_2, "2"}, {RI_RIP_VERSION_1_AND_2, "1 2"}, }; extern struct zebra_privs_t ripd_privs; /* RIP enabled network vector. */ vector rip_enable_interface; /* RIP enabled interface table. */ struct route_table *rip_enable_network; /* Vector to store passive-interface name. */ static int passive_default; /* are we in passive-interface default mode? */ vector Vrip_passive_nondefault; /* Join to the RIP version 2 multicast group. */ static int ipv4_multicast_join (int sock, struct in_addr group, struct in_addr ifa, unsigned int ifindex) { int ret; ret = setsockopt_multicast_ipv4 (sock, IP_ADD_MEMBERSHIP, ifa, group.s_addr, ifindex); if (ret < 0) zlog (NULL, LOG_INFO, "can't setsockopt IP_ADD_MEMBERSHIP %s", safe_strerror (errno)); return ret; } /* Leave from the RIP version 2 multicast group. */ static int ipv4_multicast_leave (int sock, struct in_addr group, struct in_addr ifa, unsigned int ifindex) { int ret; ret = setsockopt_multicast_ipv4 (sock, IP_DROP_MEMBERSHIP, ifa, group.s_addr, ifindex); if (ret < 0) zlog (NULL, LOG_INFO, "can't setsockopt IP_DROP_MEMBERSHIP"); return ret; } /* Allocate new RIP's interface configuration. */ static struct rip_interface * rip_interface_new (void) { struct rip_interface *ri; ri = XCALLOC (MTYPE_RIP_INTERFACE, sizeof (struct rip_interface)); /* Default authentication type is simple password for Cisco compatibility. */ ri->auth_type = RIP_NO_AUTH; ri->md5_auth_len = RIP_AUTH_MD5_COMPAT_SIZE; /* Set default split-horizon behavior. If the interface is Frame Relay or SMDS is enabled, the default value for split-horizon is off. But currently Zebra does detect Frame Relay or SMDS interface. So all interface is set to split horizon. */ ri->split_horizon_default = RIP_SPLIT_HORIZON; ri->split_horizon = ri->split_horizon_default; return ri; } void rip_interface_multicast_set (int sock, struct connected *connected) { struct in_addr addr; assert (connected != NULL); addr = CONNECTED_ID(connected)->u.prefix4; if (setsockopt_multicast_ipv4 (sock, IP_MULTICAST_IF, addr, 0, connected->ifp->ifindex) < 0) { zlog_warn ("Can't setsockopt IP_MULTICAST_IF on fd %d to " "source address %s for interface %s", sock, inet_ntoa(addr), connected->ifp->name); } return; } /* Send RIP request packet to specified interface. */ static void rip_request_interface_send (struct interface *ifp, u_char version) { struct sockaddr_in to; /* RIPv2 support multicast. */ if (version == RIPv2 && if_is_multicast (ifp)) { if (IS_RIP_DEBUG_EVENT) zlog_debug ("multicast request on %s", ifp->name); rip_request_send (NULL, ifp, version, NULL); return; } /* RIPv1 and non multicast interface. */ if (if_is_pointopoint (ifp) || if_is_broadcast (ifp)) { struct listnode *cnode, *cnnode; struct connected *connected; if (IS_RIP_DEBUG_EVENT) zlog_debug ("broadcast request to %s", ifp->name); for (ALL_LIST_ELEMENTS (ifp->connected, cnode, cnnode, connected)) { if (connected->address->family == AF_INET) { memset (&to, 0, sizeof (struct sockaddr_in)); to.sin_port = htons (RIP_PORT_DEFAULT); if (connected->destination) /* use specified broadcast or peer destination addr */ to.sin_addr = connected->destination->u.prefix4; else if (connected->address->prefixlen < IPV4_MAX_PREFIXLEN) /* calculate the appropriate broadcast address */ to.sin_addr.s_addr = ipv4_broadcast_addr(connected->address->u.prefix4.s_addr, connected->address->prefixlen); else /* do not know where to send the packet */ continue; if (IS_RIP_DEBUG_EVENT) zlog_debug ("SEND request to %s", inet_ntoa (to.sin_addr)); rip_request_send (&to, ifp, version, connected); } } } } /* This will be executed when interface goes up. */ static void rip_request_interface (struct interface *ifp) { struct rip_interface *ri; /* In default ripd doesn't send RIP_REQUEST to the loopback interface. */ if (if_is_loopback (ifp)) return; /* If interface is down, don't send RIP packet. */ if (! if_is_operative (ifp)) return; /* Fetch RIP interface information. */ ri = ifp->info; /* If there is no version configuration in the interface, use rip's version setting. */ { int vsend = ((ri->ri_send == RI_RIP_UNSPEC) ? rip->version_send : ri->ri_send); if (vsend & RIPv1) rip_request_interface_send (ifp, RIPv1); if (vsend & RIPv2) rip_request_interface_send (ifp, RIPv2); } } #if 0 /* Send RIP request to the neighbor. */ static void rip_request_neighbor (struct in_addr addr) { struct sockaddr_in to; memset (&to, 0, sizeof (struct sockaddr_in)); to.sin_port = htons (RIP_PORT_DEFAULT); to.sin_addr = addr; rip_request_send (&to, NULL, rip->version_send, NULL); } /* Request routes at all interfaces. */ static void rip_request_neighbor_all (void) { struct route_node *rp; if (! rip) return; if (IS_RIP_DEBUG_EVENT) zlog_debug ("request to the all neighbor"); /* Send request to all neighbor. */ for (rp = route_top (rip->neighbor); rp; rp = route_next (rp)) if (rp->info) rip_request_neighbor (rp->p.u.prefix4); } #endif /* Multicast packet receive socket. */ static int rip_multicast_join (struct interface *ifp, int sock) { struct listnode *cnode; struct connected *ifc; if (if_is_operative (ifp) && if_is_multicast (ifp)) { if (IS_RIP_DEBUG_EVENT) zlog_debug ("multicast join at %s", ifp->name); for (ALL_LIST_ELEMENTS_RO (ifp->connected, cnode, ifc)) { struct prefix_ipv4 *p; struct in_addr group; p = (struct prefix_ipv4 *) ifc->address; if (p->family != AF_INET) continue; group.s_addr = htonl (INADDR_RIP_GROUP); if (ipv4_multicast_join (sock, group, p->prefix, ifp->ifindex) < 0) return -1; else return 0; } } return 0; } /* Leave from multicast group. */ static void rip_multicast_leave (struct interface *ifp, int sock) { struct listnode *cnode; struct connected *connected; if (if_is_up (ifp) && if_is_multicast (ifp)) { if (IS_RIP_DEBUG_EVENT) zlog_debug ("multicast leave from %s", ifp->name); for (ALL_LIST_ELEMENTS_RO (ifp->connected, cnode, connected)) { struct prefix_ipv4 *p; struct in_addr group; p = (struct prefix_ipv4 *) connected->address; if (p->family != AF_INET) continue; group.s_addr = htonl (INADDR_RIP_GROUP); if (ipv4_multicast_leave (sock, group, p->prefix, ifp->ifindex) == 0) return; } } } /* Is there and address on interface that I could use ? */ static int rip_if_ipv4_address_check (struct interface *ifp) { struct listnode *nn; struct connected *connected; int count = 0; for (ALL_LIST_ELEMENTS_RO (ifp->connected, nn, connected)) { struct prefix *p; p = connected->address; if (p->family == AF_INET) count++; } return count; } /* Does this address belongs to me ? */ int if_check_address (struct in_addr addr) { struct listnode *node; struct interface *ifp; for (ALL_LIST_ELEMENTS_RO (iflist, node, ifp)) { struct listnode *cnode; struct connected *connected; for (ALL_LIST_ELEMENTS_RO (ifp->connected, cnode, connected)) { struct prefix_ipv4 *p; p = (struct prefix_ipv4 *) connected->address; if (p->family != AF_INET) continue; if (IPV4_ADDR_CMP (&p->prefix, &addr) == 0) return 1; } } return 0; } /* Inteface link down message processing. */ int rip_interface_down (int command, struct zclient *zclient, zebra_size_t length) { struct interface *ifp; struct stream *s; s = zclient->ibuf; /* zebra_interface_state_read() updates interface structure in iflist. */ ifp = zebra_interface_state_read(s); if (ifp == NULL) return 0; rip_if_down(ifp); if (IS_RIP_DEBUG_ZEBRA) zlog_debug ("interface %s index %d flags %llx metric %d mtu %d is down", ifp->name, ifp->ifindex, (unsigned long long)ifp->flags, ifp->metric, ifp->mtu); return 0; } /* Inteface link up message processing */ int rip_interface_up (int command, struct zclient *zclient, zebra_size_t length) { struct interface *ifp; /* zebra_interface_state_read () updates interface structure in iflist. */ ifp = zebra_interface_state_read (zclient->ibuf); if (ifp == NULL) return 0; if (IS_RIP_DEBUG_ZEBRA) zlog_debug ("interface %s index %d flags %#llx metric %d mtu %d is up", ifp->name, ifp->ifindex, (unsigned long long) ifp->flags, ifp->metric, ifp->mtu); /* Check if this interface is RIP enabled or not.*/ rip_enable_apply (ifp); /* Check for a passive interface */ rip_passive_interface_apply (ifp); /* Apply distribute list to the all interface. */ rip_distribute_update_interface (ifp); return 0; } /* Inteface addition message from zebra. */ int rip_interface_add (int command, struct zclient *zclient, zebra_size_t length) { struct interface *ifp; ifp = zebra_interface_add_read (zclient->ibuf); if (IS_RIP_DEBUG_ZEBRA) zlog_debug ("interface add %s index %d flags %#llx metric %d mtu %d", ifp->name, ifp->ifindex, (unsigned long long) ifp->flags, ifp->metric, ifp->mtu); /* Check if this interface is RIP enabled or not.*/ rip_enable_apply (ifp); /* Check for a passive interface */ rip_passive_interface_apply (ifp); /* Apply distribute list to the all interface. */ rip_distribute_update_interface (ifp); /* rip_request_neighbor_all (); */ /* Check interface routemap. */ rip_if_rmap_update_interface (ifp); return 0; } int rip_interface_delete (int command, struct zclient *zclient, zebra_size_t length) { struct interface *ifp; struct stream *s; s = zclient->ibuf; /* zebra_interface_state_read() updates interface structure in iflist */ ifp = zebra_interface_state_read(s); if (ifp == NULL) return 0; if (if_is_up (ifp)) { rip_if_down(ifp); } zlog_info("interface delete %s index %d flags %#llx metric %d mtu %d", ifp->name, ifp->ifindex, (unsigned long long) ifp->flags, ifp->metric, ifp->mtu); /* To support pseudo interface do not free interface structure. */ /* if_delete(ifp); */ ifp->ifindex = IFINDEX_INTERNAL; return 0; } void rip_interface_clean (void) { struct listnode *node; struct interface *ifp; struct rip_interface *ri; for (ALL_LIST_ELEMENTS_RO (iflist, node, ifp)) { ri = ifp->info; ri->enable_network = 0; ri->enable_interface = 0; ri->running = 0; if (ri->t_wakeup) { thread_cancel (ri->t_wakeup); ri->t_wakeup = NULL; } } } void rip_interface_reset (void) { struct listnode *node; struct interface *ifp; struct rip_interface *ri; for (ALL_LIST_ELEMENTS_RO (iflist, node, ifp)) { ri = ifp->info; ri->enable_network = 0; ri->enable_interface = 0; ri->running = 0; ri->ri_send = RI_RIP_UNSPEC; ri->ri_receive = RI_RIP_UNSPEC; ri->auth_type = RIP_NO_AUTH; if (ri->auth_str) { free (ri->auth_str); ri->auth_str = NULL; } if (ri->key_chain) { free (ri->key_chain); ri->key_chain = NULL; } ri->split_horizon = RIP_NO_SPLIT_HORIZON; ri->split_horizon_default = RIP_NO_SPLIT_HORIZON; ri->list[RIP_FILTER_IN] = NULL; ri->list[RIP_FILTER_OUT] = NULL; ri->prefix[RIP_FILTER_IN] = NULL; ri->prefix[RIP_FILTER_OUT] = NULL; if (ri->t_wakeup) { thread_cancel (ri->t_wakeup); ri->t_wakeup = NULL; } ri->recv_badpackets = 0; ri->recv_badroutes = 0; ri->sent_updates = 0; ri->passive = 0; } } int rip_if_down(struct interface *ifp) { struct route_node *rp; struct rip_info *rinfo; struct rip_interface *ri = NULL; if (rip) { for (rp = route_top (rip->table); rp; rp = route_next (rp)) if ((rinfo = rp->info) != NULL) { /* Routes got through this interface. */ if (rinfo->ifindex == ifp->ifindex && rinfo->type == ZEBRA_ROUTE_RIP && rinfo->sub_type == RIP_ROUTE_RTE) { rip_zebra_ipv4_delete ((struct prefix_ipv4 *) &rp->p, &rinfo->nexthop, rinfo->metric); rip_redistribute_delete (rinfo->type,rinfo->sub_type, (struct prefix_ipv4 *)&rp->p, rinfo->ifindex); } else { /* All redistributed routes but static and system */ if ((rinfo->ifindex == ifp->ifindex) && /* (rinfo->type != ZEBRA_ROUTE_STATIC) && */ (rinfo->type != ZEBRA_ROUTE_SYSTEM)) rip_redistribute_delete (rinfo->type,rinfo->sub_type, (struct prefix_ipv4 *)&rp->p, rinfo->ifindex); } } } ri = ifp->info; if (ri->running) { if (IS_RIP_DEBUG_EVENT) zlog_debug ("turn off %s", ifp->name); /* Leave from multicast group. */ rip_multicast_leave (ifp, rip->sock); ri->running = 0; } return 0; } /* Needed for stop RIP process. */ void rip_if_down_all () { struct interface *ifp; struct listnode *node, *nnode; for (ALL_LIST_ELEMENTS (iflist, node, nnode, ifp)) rip_if_down (ifp); } static void rip_apply_address_add (struct connected *ifc) { struct prefix_ipv4 address; struct prefix *p; if (!rip) return; if (! if_is_up(ifc->ifp)) return; p = ifc->address; memset (&address, 0, sizeof (address)); address.family = p->family; address.prefix = p->u.prefix4; address.prefixlen = p->prefixlen; apply_mask_ipv4(&address); /* Check if this interface is RIP enabled or not or Check if this address's prefix is RIP enabled */ if ((rip_enable_if_lookup(ifc->ifp->name) >= 0) || (rip_enable_network_lookup2(ifc) >= 0)) rip_redistribute_add(ZEBRA_ROUTE_CONNECT, RIP_ROUTE_INTERFACE, &address, ifc->ifp->ifindex, NULL, 0, 0); } int rip_interface_address_add (int command, struct zclient *zclient, zebra_size_t length) { struct connected *ifc; struct prefix *p; ifc = zebra_interface_address_read (ZEBRA_INTERFACE_ADDRESS_ADD, zclient->ibuf); if (ifc == NULL) return 0; p = ifc->address; if (p->family == AF_INET) { if (IS_RIP_DEBUG_ZEBRA) zlog_debug ("connected address %s/%d is added", inet_ntoa (p->u.prefix4), p->prefixlen); rip_enable_apply(ifc->ifp); /* Check if this prefix needs to be redistributed */ rip_apply_address_add(ifc); #ifdef HAVE_SNMP rip_ifaddr_add (ifc->ifp, ifc); #endif /* HAVE_SNMP */ } return 0; } static void rip_apply_address_del (struct connected *ifc) { struct prefix_ipv4 address; struct prefix *p; if (!rip) return; if (! if_is_up(ifc->ifp)) return; p = ifc->address; memset (&address, 0, sizeof (address)); address.family = p->family; address.prefix = p->u.prefix4; address.prefixlen = p->prefixlen; apply_mask_ipv4(&address); rip_redistribute_delete(ZEBRA_ROUTE_CONNECT, RIP_ROUTE_INTERFACE, &address, ifc->ifp->ifindex); } int rip_interface_address_delete (int command, struct zclient *zclient, zebra_size_t length) { struct connected *ifc; struct prefix *p; ifc = zebra_interface_address_read (ZEBRA_INTERFACE_ADDRESS_DELETE, zclient->ibuf); if (ifc) { p = ifc->address; if (p->family == AF_INET) { if (IS_RIP_DEBUG_ZEBRA) zlog_debug ("connected address %s/%d is deleted", inet_ntoa (p->u.prefix4), p->prefixlen); #ifdef HAVE_SNMP rip_ifaddr_delete (ifc->ifp, ifc); #endif /* HAVE_SNMP */ /* Chech wether this prefix needs to be removed */ rip_apply_address_del(ifc); } connected_free (ifc); } return 0; } /* Check interface is enabled by network statement. */ /* Check wether the interface has at least a connected prefix that * is within the ripng_enable_network table. */ static int rip_enable_network_lookup_if (struct interface *ifp) { struct listnode *node, *nnode; struct connected *connected; struct prefix_ipv4 address; for (ALL_LIST_ELEMENTS (ifp->connected, node, nnode, connected)) { struct prefix *p; struct route_node *node; p = connected->address; if (p->family == AF_INET) { address.family = AF_INET; address.prefix = p->u.prefix4; address.prefixlen = IPV4_MAX_BITLEN; node = route_node_match (rip_enable_network, (struct prefix *)&address); if (node) { route_unlock_node (node); return 1; } } } return -1; } /* Check wether connected is within the ripng_enable_network table. */ int rip_enable_network_lookup2 (struct connected *connected) { struct prefix_ipv4 address; struct prefix *p; p = connected->address; if (p->family == AF_INET) { struct route_node *node; address.family = p->family; address.prefix = p->u.prefix4; address.prefixlen = IPV4_MAX_BITLEN; /* LPM on p->family, p->u.prefix4/IPV4_MAX_BITLEN within rip_enable_network */ node = route_node_match (rip_enable_network, (struct prefix *)&address); if (node) { route_unlock_node (node); return 1; } } return -1; } /* Add RIP enable network. */ static int rip_enable_network_add (struct prefix *p) { struct route_node *node; node = route_node_get (rip_enable_network, p); if (node->info) { route_unlock_node (node); return -1; } else node->info = (char *) "enabled"; /* XXX: One should find a better solution than a generic one */ rip_enable_apply_all(); return 1; } /* Delete RIP enable network. */ static int rip_enable_network_delete (struct prefix *p) { struct route_node *node; node = route_node_lookup (rip_enable_network, p); if (node) { node->info = NULL; /* Unlock info lock. */ route_unlock_node (node); /* Unlock lookup lock. */ route_unlock_node (node); /* XXX: One should find a better solution than a generic one */ rip_enable_apply_all (); return 1; } return -1; } /* Check interface is enabled by ifname statement. */ static int rip_enable_if_lookup (const char *ifname) { unsigned int i; char *str; for (i = 0; i < vector_active (rip_enable_interface); i++) if ((str = vector_slot (rip_enable_interface, i)) != NULL) if (strcmp (str, ifname) == 0) return i; return -1; } /* Add interface to rip_enable_if. */ static int rip_enable_if_add (const char *ifname) { int ret; ret = rip_enable_if_lookup (ifname); if (ret >= 0) return -1; vector_set (rip_enable_interface, strdup (ifname)); rip_enable_apply_all(); /* TODOVJ */ return 1; } /* Delete interface from rip_enable_if. */ static int rip_enable_if_delete (const char *ifname) { int index; char *str; index = rip_enable_if_lookup (ifname); if (index < 0) return -1; str = vector_slot (rip_enable_interface, index); free (str); vector_unset (rip_enable_interface, index); rip_enable_apply_all(); /* TODOVJ */ return 1; } /* Join to multicast group and send request to the interface. */ static int rip_interface_wakeup (struct thread *t) { struct interface *ifp; struct rip_interface *ri; /* Get interface. */ ifp = THREAD_ARG (t); ri = ifp->info; ri->t_wakeup = NULL; /* Join to multicast group. */ if (rip_multicast_join (ifp, rip->sock) < 0) { zlog_err ("multicast join failed, interface %s not running", ifp->name); return 0; } /* Set running flag. */ ri->running = 1; /* Send RIP request to the interface. */ rip_request_interface (ifp); return 0; } static void rip_connect_set (struct interface *ifp, int set) { struct listnode *node, *nnode; struct connected *connected; struct prefix_ipv4 address; for (ALL_LIST_ELEMENTS (ifp->connected, node, nnode, connected)) { struct prefix *p; p = connected->address; if (p->family != AF_INET) continue; address.family = AF_INET; address.prefix = p->u.prefix4; address.prefixlen = p->prefixlen; apply_mask_ipv4 (&address); if (set) { /* Check once more wether this prefix is within a "network IF_OR_PREF" one */ if ((rip_enable_if_lookup(connected->ifp->name) >= 0) || (rip_enable_network_lookup2(connected) >= 0)) rip_redistribute_add (ZEBRA_ROUTE_CONNECT, RIP_ROUTE_INTERFACE, &address, connected->ifp->ifindex, NULL, 0, 0); } else { rip_redistribute_delete (ZEBRA_ROUTE_CONNECT, RIP_ROUTE_INTERFACE, &address, connected->ifp->ifindex); if (rip_redistribute_check (ZEBRA_ROUTE_CONNECT)) rip_redistribute_add (ZEBRA_ROUTE_CONNECT, RIP_ROUTE_REDISTRIBUTE, &address, connected->ifp->ifindex, NULL, 0, 0); } } } /* Update interface status. */ void rip_enable_apply (struct interface *ifp) { int ret; struct rip_interface *ri = NULL; /* Check interface. */ if (! if_is_operative (ifp)) return; ri = ifp->info; /* Check network configuration. */ ret = rip_enable_network_lookup_if (ifp); /* If the interface is matched. */ if (ret > 0) ri->enable_network = 1; else ri->enable_network = 0; /* Check interface name configuration. */ ret = rip_enable_if_lookup (ifp->name); if (ret >= 0) ri->enable_interface = 1; else ri->enable_interface = 0; /* any interface MUST have an IPv4 address */ if ( ! rip_if_ipv4_address_check (ifp) ) { ri->enable_network = 0; ri->enable_interface = 0; } /* Update running status of the interface. */ if (ri->enable_network || ri->enable_interface) { { if (IS_RIP_DEBUG_EVENT) zlog_debug ("turn on %s", ifp->name); /* Add interface wake up thread. */ if (! ri->t_wakeup) ri->t_wakeup = thread_add_timer (master, rip_interface_wakeup, ifp, 1); rip_connect_set (ifp, 1); } } else { if (ri->running) { /* Might as well clean up the route table as well * rip_if_down sets to 0 ri->running, and displays "turn off %s" **/ rip_if_down(ifp); rip_connect_set (ifp, 0); } } } /* Apply network configuration to all interface. */ void rip_enable_apply_all () { struct interface *ifp; struct listnode *node, *nnode; /* Check each interface. */ for (ALL_LIST_ELEMENTS (iflist, node, nnode, ifp)) rip_enable_apply (ifp); } int rip_neighbor_lookup (struct sockaddr_in *from) { struct prefix_ipv4 p; struct route_node *node; memset (&p, 0, sizeof (struct prefix_ipv4)); p.family = AF_INET; p.prefix = from->sin_addr; p.prefixlen = IPV4_MAX_BITLEN; node = route_node_lookup (rip->neighbor, (struct prefix *) &p); if (node) { route_unlock_node (node); return 1; } return 0; } /* Add new RIP neighbor to the neighbor tree. */ static int rip_neighbor_add (struct prefix_ipv4 *p) { struct route_node *node; node = route_node_get (rip->neighbor, (struct prefix *) p); if (node->info) return -1; node->info = rip->neighbor; return 0; } /* Delete RIP neighbor from the neighbor tree. */ static int rip_neighbor_delete (struct prefix_ipv4 *p) { struct route_node *node; /* Lock for look up. */ node = route_node_lookup (rip->neighbor, (struct prefix *) p); if (! node) return -1; node->info = NULL; /* Unlock lookup lock. */ route_unlock_node (node); /* Unlock real neighbor information lock. */ route_unlock_node (node); return 0; } /* Clear all network and neighbor configuration. */ void rip_clean_network () { unsigned int i; char *str; struct route_node *rn; /* rip_enable_network. */ for (rn = route_top (rip_enable_network); rn; rn = route_next (rn)) if (rn->info) { rn->info = NULL; route_unlock_node (rn); } /* rip_enable_interface. */ for (i = 0; i < vector_active (rip_enable_interface); i++) if ((str = vector_slot (rip_enable_interface, i)) != NULL) { free (str); vector_slot (rip_enable_interface, i) = NULL; } } /* Utility function for looking up passive interface settings. */ static int rip_passive_nondefault_lookup (const char *ifname) { unsigned int i; char *str; for (i = 0; i < vector_active (Vrip_passive_nondefault); i++) if ((str = vector_slot (Vrip_passive_nondefault, i)) != NULL) if (strcmp (str, ifname) == 0) return i; return -1; } void rip_passive_interface_apply (struct interface *ifp) { struct rip_interface *ri; ri = ifp->info; ri->passive = ((rip_passive_nondefault_lookup (ifp->name) < 0) ? passive_default : !passive_default); if (IS_RIP_DEBUG_ZEBRA) zlog_debug ("interface %s: passive = %d",ifp->name,ri->passive); } static void rip_passive_interface_apply_all (void) { struct interface *ifp; struct listnode *node, *nnode; for (ALL_LIST_ELEMENTS (iflist, node, nnode, ifp)) rip_passive_interface_apply (ifp); } /* Passive interface. */ static int rip_passive_nondefault_set (struct vty *vty, const char *ifname) { if (rip_passive_nondefault_lookup (ifname) >= 0) return CMD_WARNING; vector_set (Vrip_passive_nondefault, strdup (ifname)); rip_passive_interface_apply_all (); return CMD_SUCCESS; } static int rip_passive_nondefault_unset (struct vty *vty, const char *ifname) { int i; char *str; i = rip_passive_nondefault_lookup (ifname); if (i < 0) return CMD_WARNING; str = vector_slot (Vrip_passive_nondefault, i); free (str); vector_unset (Vrip_passive_nondefault, i); rip_passive_interface_apply_all (); return CMD_SUCCESS; } /* Free all configured RIP passive-interface settings. */ void rip_passive_nondefault_clean (void) { unsigned int i; char *str; for (i = 0; i < vector_active (Vrip_passive_nondefault); i++) if ((str = vector_slot (Vrip_passive_nondefault, i)) != NULL) { free (str); vector_slot (Vrip_passive_nondefault, i) = NULL; } rip_passive_interface_apply_all (); } /* RIP enable network or interface configuration. */ DEFUN (rip_network, rip_network_cmd, "network (A.B.C.D/M|WORD)", "Enable routing on an IP network\n" "IP prefix /, e.g., 35.0.0.0/8\n" "Interface name\n") { int ret; struct prefix_ipv4 p; ret = str2prefix_ipv4 (argv[0], &p); if (ret) ret = rip_enable_network_add ((struct prefix *) &p); else ret = rip_enable_if_add (argv[0]); if (ret < 0) { vty_out (vty, "There is a same network configuration %s%s", argv[0], VTY_NEWLINE); return CMD_WARNING; } return CMD_SUCCESS; } /* RIP enable network or interface configuration. */ DEFUN (no_rip_network, no_rip_network_cmd, "no network (A.B.C.D/M|WORD)", NO_STR "Enable routing on an IP network\n" "IP prefix /, e.g., 35.0.0.0/8\n" "Interface name\n") { int ret; struct prefix_ipv4 p; ret = str2prefix_ipv4 (argv[0], &p); if (ret) ret = rip_enable_network_delete ((struct prefix *) &p); else ret = rip_enable_if_delete (argv[0]); if (ret < 0) { vty_out (vty, "Can't find network configuration %s%s", argv[0], VTY_NEWLINE); return CMD_WARNING; } return CMD_SUCCESS; } /* RIP neighbor configuration set. */ DEFUN (rip_neighbor, rip_neighbor_cmd, "neighbor A.B.C.D", "Specify a neighbor router\n" "Neighbor address\n") { int ret; struct prefix_ipv4 p; ret = str2prefix_ipv4 (argv[0], &p); if (ret <= 0) { vty_out (vty, "Please specify address by A.B.C.D%s", VTY_NEWLINE); return CMD_WARNING; } rip_neighbor_add (&p); return CMD_SUCCESS; } /* RIP neighbor configuration unset. */ DEFUN (no_rip_neighbor, no_rip_neighbor_cmd, "no neighbor A.B.C.D", NO_STR "Specify a neighbor router\n" "Neighbor address\n") { int ret; struct prefix_ipv4 p; ret = str2prefix_ipv4 (argv[0], &p); if (ret <= 0) { vty_out (vty, "Please specify address by A.B.C.D%s", VTY_NEWLINE); return CMD_WARNING; } rip_neighbor_delete (&p); return CMD_SUCCESS; } DEFUN (ip_rip_receive_version, ip_rip_receive_version_cmd, "ip rip receive version (1|2)", IP_STR "Routing Information Protocol\n" "Advertisement reception\n" "Version control\n" "RIP version 1\n" "RIP version 2\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; /* Version 1. */ if (atoi (argv[0]) == 1) { ri->ri_receive = RI_RIP_VERSION_1; return CMD_SUCCESS; } if (atoi (argv[0]) == 2) { ri->ri_receive = RI_RIP_VERSION_2; return CMD_SUCCESS; } return CMD_WARNING; } DEFUN (ip_rip_receive_version_1, ip_rip_receive_version_1_cmd, "ip rip receive version 1 2", IP_STR "Routing Information Protocol\n" "Advertisement reception\n" "Version control\n" "RIP version 1\n" "RIP version 2\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; /* Version 1 and 2. */ ri->ri_receive = RI_RIP_VERSION_1_AND_2; return CMD_SUCCESS; } DEFUN (ip_rip_receive_version_2, ip_rip_receive_version_2_cmd, "ip rip receive version 2 1", IP_STR "Routing Information Protocol\n" "Advertisement reception\n" "Version control\n" "RIP version 2\n" "RIP version 1\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; /* Version 1 and 2. */ ri->ri_receive = RI_RIP_VERSION_1_AND_2; return CMD_SUCCESS; } DEFUN (no_ip_rip_receive_version, no_ip_rip_receive_version_cmd, "no ip rip receive version", NO_STR IP_STR "Routing Information Protocol\n" "Advertisement reception\n" "Version control\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; ri->ri_receive = RI_RIP_UNSPEC; return CMD_SUCCESS; } ALIAS (no_ip_rip_receive_version, no_ip_rip_receive_version_num_cmd, "no ip rip receive version (1|2)", NO_STR IP_STR "Routing Information Protocol\n" "Advertisement reception\n" "Version control\n" "Version 1\n" "Version 2\n") DEFUN (ip_rip_send_version, ip_rip_send_version_cmd, "ip rip send version (1|2)", IP_STR "Routing Information Protocol\n" "Advertisement transmission\n" "Version control\n" "RIP version 1\n" "RIP version 2\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; /* Version 1. */ if (atoi (argv[0]) == 1) { ri->ri_send = RI_RIP_VERSION_1; return CMD_SUCCESS; } if (atoi (argv[0]) == 2) { ri->ri_send = RI_RIP_VERSION_2; return CMD_SUCCESS; } return CMD_WARNING; } DEFUN (ip_rip_send_version_1, ip_rip_send_version_1_cmd, "ip rip send version 1 2", IP_STR "Routing Information Protocol\n" "Advertisement transmission\n" "Version control\n" "RIP version 1\n" "RIP version 2\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; /* Version 1 and 2. */ ri->ri_send = RI_RIP_VERSION_1_AND_2; return CMD_SUCCESS; } DEFUN (ip_rip_send_version_2, ip_rip_send_version_2_cmd, "ip rip send version 2 1", IP_STR "Routing Information Protocol\n" "Advertisement transmission\n" "Version control\n" "RIP version 2\n" "RIP version 1\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; /* Version 1 and 2. */ ri->ri_send = RI_RIP_VERSION_1_AND_2; return CMD_SUCCESS; } DEFUN (no_ip_rip_send_version, no_ip_rip_send_version_cmd, "no ip rip send version", NO_STR IP_STR "Routing Information Protocol\n" "Advertisement transmission\n" "Version control\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; ri->ri_send = RI_RIP_UNSPEC; return CMD_SUCCESS; } ALIAS (no_ip_rip_send_version, no_ip_rip_send_version_num_cmd, "no ip rip send version (1|2)", NO_STR IP_STR "Routing Information Protocol\n" "Advertisement transmission\n" "Version control\n" "Version 1\n" "Version 2\n") DEFUN (ip_rip_authentication_mode, ip_rip_authentication_mode_cmd, "ip rip authentication mode (md5|text)", IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication mode\n" "Keyed message digest\n" "Clear text authentication\n") { struct interface *ifp; struct rip_interface *ri; int auth_type; ifp = (struct interface *)vty->index; ri = ifp->info; if ( (argc < 1) || (argc > 2) ) { vty_out (vty, "incorrect argument count%s", VTY_NEWLINE); return CMD_WARNING; } if (strncmp ("md5", argv[0], strlen (argv[0])) == 0) auth_type = RIP_AUTH_MD5; else if (strncmp ("text", argv[0], strlen (argv[0])) == 0) auth_type = RIP_AUTH_SIMPLE_PASSWORD; else { vty_out (vty, "mode should be md5 or text%s", VTY_NEWLINE); return CMD_WARNING; } if (argc == 1) { ri->auth_type = auth_type; return CMD_SUCCESS; } if ( (argc == 2) && (auth_type != RIP_AUTH_MD5) ) { vty_out (vty, "auth length argument only valid for md5%s", VTY_NEWLINE); return CMD_WARNING; } if (strncmp ("r", argv[1], 1) == 0) ri->md5_auth_len = RIP_AUTH_MD5_SIZE; else if (strncmp ("o", argv[1], 1) == 0) ri->md5_auth_len = RIP_AUTH_MD5_COMPAT_SIZE; else return CMD_WARNING; ri->auth_type = auth_type; return CMD_SUCCESS; } ALIAS (ip_rip_authentication_mode, ip_rip_authentication_mode_authlen_cmd, "ip rip authentication mode (md5|text) auth-length (rfc|old-ripd)", IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication mode\n" "Keyed message digest\n" "Clear text authentication\n" "MD5 authentication data length\n" "RFC compatible\n" "Old ripd compatible\n") DEFUN (no_ip_rip_authentication_mode, no_ip_rip_authentication_mode_cmd, "no ip rip authentication mode", NO_STR IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication mode\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; ri->auth_type = RIP_NO_AUTH; ri->md5_auth_len = RIP_AUTH_MD5_COMPAT_SIZE; return CMD_SUCCESS; } ALIAS (no_ip_rip_authentication_mode, no_ip_rip_authentication_mode_type_cmd, "no ip rip authentication mode (md5|text)", NO_STR IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication mode\n" "Keyed message digest\n" "Clear text authentication\n") ALIAS (no_ip_rip_authentication_mode, no_ip_rip_authentication_mode_type_authlen_cmd, "no ip rip authentication mode (md5|text) auth-length (rfc|old-ripd)", NO_STR IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication mode\n" "Keyed message digest\n" "Clear text authentication\n" "MD5 authentication data length\n" "RFC compatible\n" "Old ripd compatible\n") DEFUN (ip_rip_authentication_string, ip_rip_authentication_string_cmd, "ip rip authentication string LINE", IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication string\n" "Authentication string\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; if (strlen (argv[0]) > 16) { vty_out (vty, "%% RIPv2 authentication string must be shorter than 16%s", VTY_NEWLINE); return CMD_WARNING; } if (ri->key_chain) { vty_out (vty, "%% key-chain configuration exists%s", VTY_NEWLINE); return CMD_WARNING; } if (ri->auth_str) free (ri->auth_str); ri->auth_str = strdup (argv[0]); return CMD_SUCCESS; } DEFUN (no_ip_rip_authentication_string, no_ip_rip_authentication_string_cmd, "no ip rip authentication string", NO_STR IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication string\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *)vty->index; ri = ifp->info; if (ri->auth_str) free (ri->auth_str); ri->auth_str = NULL; return CMD_SUCCESS; } ALIAS (no_ip_rip_authentication_string, no_ip_rip_authentication_string2_cmd, "no ip rip authentication string LINE", NO_STR IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication string\n" "Authentication string\n") DEFUN (ip_rip_authentication_key_chain, ip_rip_authentication_key_chain_cmd, "ip rip authentication key-chain LINE", IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication key-chain\n" "name of key-chain\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *) vty->index; ri = ifp->info; if (ri->auth_str) { vty_out (vty, "%% authentication string configuration exists%s", VTY_NEWLINE); return CMD_WARNING; } if (ri->key_chain) free (ri->key_chain); ri->key_chain = strdup (argv[0]); return CMD_SUCCESS; } DEFUN (no_ip_rip_authentication_key_chain, no_ip_rip_authentication_key_chain_cmd, "no ip rip authentication key-chain", NO_STR IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication key-chain\n") { struct interface *ifp; struct rip_interface *ri; ifp = (struct interface *) vty->index; ri = ifp->info; if (ri->key_chain) free (ri->key_chain); ri->key_chain = NULL; return CMD_SUCCESS; } ALIAS (no_ip_rip_authentication_key_chain, no_ip_rip_authentication_key_chain2_cmd, "no ip rip authentication key-chain LINE", NO_STR IP_STR "Routing Information Protocol\n" "Authentication control\n" "Authentication key-chain\n" "name of key-chain\n") /* CHANGED: ip rip split-horizon Cisco and Zebra's command is ip split-horizon */ DEFUN (ip_rip_split_horizon, ip_rip_split_horizon_cmd, "ip rip split-horizon", IP_STR "Routing Information Protocol\n" "Perform split horizon\n") { struct interface *ifp; struct rip_interface *ri; ifp = vty->index; ri = ifp->info; ri->split_horizon = RIP_SPLIT_HORIZON; return CMD_SUCCESS; } DEFUN (ip_rip_split_horizon_poisoned_reverse, ip_rip_split_horizon_poisoned_reverse_cmd, "ip rip split-horizon poisoned-reverse", IP_STR "Routing Information Protocol\n" "Perform split horizon\n" "With poisoned-reverse\n") { struct interface *ifp; struct rip_interface *ri; ifp = vty->index; ri = ifp->info; ri->split_horizon = RIP_SPLIT_HORIZON_POISONED_REVERSE; return CMD_SUCCESS; } /* CHANGED: no ip rip split-horizon Cisco and Zebra's command is no ip split-horizon */ DEFUN (no_ip_rip_split_horizon, no_ip_rip_split_horizon_cmd, "no ip rip split-horizon", NO_STR IP_STR "Routing Information Protocol\n" "Perform split horizon\n") { struct interface *ifp; struct rip_interface *ri; ifp = vty->index; ri = ifp->info; ri->split_horizon = RIP_NO_SPLIT_HORIZON; return CMD_SUCCESS; } DEFUN (no_ip_rip_split_horizon_poisoned_reverse, no_ip_rip_split_horizon_poisoned_reverse_cmd, "no ip rip split-horizon poisoned-reverse", NO_STR IP_STR "Routing Information Protocol\n" "Perform split horizon\n" "With poisoned-reverse\n") { struct interface *ifp; struct rip_interface *ri; ifp = vty->index; ri = ifp->info; switch( ri->split_horizon ) { case RIP_SPLIT_HORIZON_POISONED_REVERSE: ri->split_horizon = RIP_SPLIT_HORIZON; default: break; } return CMD_SUCCESS; } DEFUN (rip_passive_interface, rip_passive_interface_cmd, "passive-interface (IFNAME|default)", "Suppress routing updates on an interface\n" "Interface name\n" "default for all interfaces\n") { const char *ifname = argv[0]; if (!strcmp(ifname,"default")) { passive_default = 1; rip_passive_nondefault_clean(); return CMD_SUCCESS; } if (passive_default) return rip_passive_nondefault_unset (vty, ifname); else return rip_passive_nondefault_set (vty, ifname); } DEFUN (no_rip_passive_interface, no_rip_passive_interface_cmd, "no passive-interface (IFNAME|default)", NO_STR "Suppress routing updates on an interface\n" "Interface name\n" "default for all interfaces\n") { const char *ifname = argv[0]; if (!strcmp(ifname,"default")) { passive_default = 0; rip_passive_nondefault_clean(); return CMD_SUCCESS; } if (passive_default) return rip_passive_nondefault_set (vty, ifname); else return rip_passive_nondefault_unset (vty, ifname); } /* Write rip configuration of each interface. */ static int rip_interface_config_write (struct vty *vty) { struct listnode *node; struct interface *ifp; for (ALL_LIST_ELEMENTS_RO (iflist, node, ifp)) { struct rip_interface *ri; ri = ifp->info; /* Do not display the interface if there is no * configuration about it. **/ if ((!ifp->desc) && (ri->split_horizon == ri->split_horizon_default) && (ri->ri_send == RI_RIP_UNSPEC) && (ri->ri_receive == RI_RIP_UNSPEC) && (ri->auth_type != RIP_AUTH_MD5) && (ri->md5_auth_len != RIP_AUTH_MD5_SIZE) && (!ri->auth_str) && (!ri->key_chain) ) continue; vty_out (vty, "interface %s%s", ifp->name, VTY_NEWLINE); if (ifp->desc) vty_out (vty, " description %s%s", ifp->desc, VTY_NEWLINE); /* Split horizon. */ if (ri->split_horizon != ri->split_horizon_default) { switch (ri->split_horizon) { case RIP_SPLIT_HORIZON: vty_out (vty, " ip rip split-horizon%s", VTY_NEWLINE); break; case RIP_SPLIT_HORIZON_POISONED_REVERSE: vty_out (vty, " ip rip split-horizon poisoned-reverse%s", VTY_NEWLINE); break; case RIP_NO_SPLIT_HORIZON: default: vty_out (vty, " no ip rip split-horizon%s", VTY_NEWLINE); break; } } /* RIP version setting. */ if (ri->ri_send != RI_RIP_UNSPEC) vty_out (vty, " ip rip send version %s%s", lookup (ri_version_msg, ri->ri_send), VTY_NEWLINE); if (ri->ri_receive != RI_RIP_UNSPEC) vty_out (vty, " ip rip receive version %s%s", lookup (ri_version_msg, ri->ri_receive), VTY_NEWLINE); /* RIP authentication. */ if (ri->auth_type == RIP_AUTH_SIMPLE_PASSWORD) vty_out (vty, " ip rip authentication mode text%s", VTY_NEWLINE); if (ri->auth_type == RIP_AUTH_MD5) { vty_out (vty, " ip rip authentication mode md5"); if (ri->md5_auth_len == RIP_AUTH_MD5_COMPAT_SIZE) vty_out (vty, " auth-length old-ripd"); else vty_out (vty, " auth-length rfc"); vty_out (vty, "%s", VTY_NEWLINE); } if (ri->auth_str) vty_out (vty, " ip rip authentication string %s%s", ri->auth_str, VTY_NEWLINE); if (ri->key_chain) vty_out (vty, " ip rip authentication key-chain %s%s", ri->key_chain, VTY_NEWLINE); vty_out (vty, "!%s", VTY_NEWLINE); } return 0; } int config_write_rip_network (struct vty *vty, int config_mode) { unsigned int i; char *ifname; struct route_node *node; /* Network type RIP enable interface statement. */ for (node = route_top (rip_enable_network); node; node = route_next (node)) if (node->info) vty_out (vty, "%s%s/%d%s", config_mode ? " network " : " ", inet_ntoa (node->p.u.prefix4), node->p.prefixlen, VTY_NEWLINE); /* Interface name RIP enable statement. */ for (i = 0; i < vector_active (rip_enable_interface); i++) if ((ifname = vector_slot (rip_enable_interface, i)) != NULL) vty_out (vty, "%s%s%s", config_mode ? " network " : " ", ifname, VTY_NEWLINE); /* RIP neighbors listing. */ for (node = route_top (rip->neighbor); node; node = route_next (node)) if (node->info) vty_out (vty, "%s%s%s", config_mode ? " neighbor " : " ", inet_ntoa (node->p.u.prefix4), VTY_NEWLINE); /* RIP passive interface listing. */ if (config_mode) { if (passive_default) vty_out (vty, " passive-interface default%s", VTY_NEWLINE); for (i = 0; i < vector_active (Vrip_passive_nondefault); i++) if ((ifname = vector_slot (Vrip_passive_nondefault, i)) != NULL) vty_out (vty, " %spassive-interface %s%s", (passive_default ? "no " : ""), ifname, VTY_NEWLINE); } return 0; } static struct cmd_node interface_node = { INTERFACE_NODE, "%s(config-if)# ", 1, }; /* Called when interface structure allocated. */ static int rip_interface_new_hook (struct interface *ifp) { ifp->info = rip_interface_new (); return 0; } /* Called when interface structure deleted. */ static int rip_interface_delete_hook (struct interface *ifp) { XFREE (MTYPE_RIP_INTERFACE, ifp->info); ifp->info = NULL; return 0; } /* Allocate and initialize interface vector. */ void rip_if_init (void) { /* Default initial size of interface vector. */ if_init(); if_add_hook (IF_NEW_HOOK, rip_interface_new_hook); if_add_hook (IF_DELETE_HOOK, rip_interface_delete_hook); /* RIP network init. */ rip_enable_interface = vector_init (1); rip_enable_network = route_table_init (); /* RIP passive interface. */ Vrip_passive_nondefault = vector_init (1); /* Install interface node. */ install_node (&interface_node, rip_interface_config_write); /* Install commands. */ install_element (CONFIG_NODE, &interface_cmd); install_element (CONFIG_NODE, &no_interface_cmd); install_default (INTERFACE_NODE); install_element (INTERFACE_NODE, &interface_desc_cmd); install_element (INTERFACE_NODE, &no_interface_desc_cmd); install_element (RIP_NODE, &rip_network_cmd); install_element (RIP_NODE, &no_rip_network_cmd); install_element (RIP_NODE, &rip_neighbor_cmd); install_element (RIP_NODE, &no_rip_neighbor_cmd); install_element (RIP_NODE, &rip_passive_interface_cmd); install_element (RIP_NODE, &no_rip_passive_interface_cmd); install_element (INTERFACE_NODE, &ip_rip_send_version_cmd); install_element (INTERFACE_NODE, &ip_rip_send_version_1_cmd); install_element (INTERFACE_NODE, &ip_rip_send_version_2_cmd); install_element (INTERFACE_NODE, &no_ip_rip_send_version_cmd); install_element (INTERFACE_NODE, &no_ip_rip_send_version_num_cmd); install_element (INTERFACE_NODE, &ip_rip_receive_version_cmd); install_element (INTERFACE_NODE, &ip_rip_receive_version_1_cmd); install_element (INTERFACE_NODE, &ip_rip_receive_version_2_cmd); install_element (INTERFACE_NODE, &no_ip_rip_receive_version_cmd); install_element (INTERFACE_NODE, &no_ip_rip_receive_version_num_cmd); install_element (INTERFACE_NODE, &ip_rip_authentication_mode_cmd); install_element (INTERFACE_NODE, &ip_rip_authentication_mode_authlen_cmd); install_element (INTERFACE_NODE, &no_ip_rip_authentication_mode_cmd); install_element (INTERFACE_NODE, &no_ip_rip_authentication_mode_type_cmd); install_element (INTERFACE_NODE, &no_ip_rip_authentication_mode_type_authlen_cmd); install_element (INTERFACE_NODE, &ip_rip_authentication_key_chain_cmd); install_element (INTERFACE_NODE, &no_ip_rip_authentication_key_chain_cmd); install_element (INTERFACE_NODE, &no_ip_rip_authentication_key_chain2_cmd); install_element (INTERFACE_NODE, &ip_rip_authentication_string_cmd); install_element (INTERFACE_NODE, &no_ip_rip_authentication_string_cmd); install_element (INTERFACE_NODE, &no_ip_rip_authentication_string2_cmd); install_element (INTERFACE_NODE, &ip_rip_split_horizon_cmd); install_element (INTERFACE_NODE, &ip_rip_split_horizon_poisoned_reverse_cmd); install_element (INTERFACE_NODE, &no_ip_rip_split_horizon_cmd); install_element (INTERFACE_NODE, &no_ip_rip_split_horizon_poisoned_reverse_cmd); }