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-rw-r--r--ripd/ripd.c3657
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diff --git a/ripd/ripd.c b/ripd/ripd.c
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--- /dev/null
+++ b/ripd/ripd.c
@@ -0,0 +1,3657 @@
+/* RIP version 1 and 2.
+ * Copyright (C) 2005 6WIND <alain.ritoux@6wind.com>
+ * Copyright (C) 1997, 98, 99 Kunihiro Ishiguro <kunihiro@zebra.org>
+ *
+ * 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 "vrf.h"
+#include "if.h"
+#include "command.h"
+#include "prefix.h"
+#include "table.h"
+#include "thread.h"
+#include "memory.h"
+#include "log.h"
+#include "stream.h"
+#include "filter.h"
+#include "sockunion.h"
+#include "sockopt.h"
+#include "routemap.h"
+#include "if_rmap.h"
+#include "plist.h"
+#include "distribute.h"
+#ifdef CRYPTO_INTERNAL
+#include "md5.h"
+#endif
+#include "keychain.h"
+#include "privs.h"
+#include "lib_errors.h"
+#include "northbound_cli.h"
+#include "network.h"
+#include "lib/printfrr.h"
+
+#include "ripd/ripd.h"
+#include "ripd/rip_nb.h"
+#include "ripd/rip_debug.h"
+#include "ripd/rip_errors.h"
+#include "ripd/rip_interface.h"
+
+/* UDP receive buffer size */
+#define RIP_UDP_RCV_BUF 41600
+
+DEFINE_MGROUP(RIPD, "ripd");
+DEFINE_MTYPE_STATIC(RIPD, RIP, "RIP structure");
+DEFINE_MTYPE_STATIC(RIPD, RIP_VRF_NAME, "RIP VRF name");
+DEFINE_MTYPE_STATIC(RIPD, RIP_INFO, "RIP route info");
+DEFINE_MTYPE_STATIC(RIPD, RIP_DISTANCE, "RIP distance");
+
+/* Prototypes. */
+static void rip_output_process(struct connected *, struct sockaddr_in *, int,
+ uint8_t);
+static void rip_triggered_update(struct thread *);
+static int rip_update_jitter(unsigned long);
+static void rip_distance_table_node_cleanup(struct route_table *table,
+ struct route_node *node);
+static void rip_instance_enable(struct rip *rip, struct vrf *vrf, int sock);
+static void rip_instance_disable(struct rip *rip);
+
+static void rip_distribute_update(struct distribute_ctx *ctx,
+ struct distribute *dist);
+
+static void rip_if_rmap_update(struct if_rmap_ctx *ctx,
+ struct if_rmap *if_rmap);
+
+/* RIP output routes type. */
+enum { rip_all_route, rip_changed_route };
+
+/* RIP command strings. */
+static const struct message rip_msg[] = {{RIP_REQUEST, "REQUEST"},
+ {RIP_RESPONSE, "RESPONSE"},
+ {RIP_TRACEON, "TRACEON"},
+ {RIP_TRACEOFF, "TRACEOFF"},
+ {RIP_POLL, "POLL"},
+ {RIP_POLL_ENTRY, "POLL ENTRY"},
+ {0}};
+
+/* Generate rb-tree of RIP instances. */
+static inline int rip_instance_compare(const struct rip *a, const struct rip *b)
+{
+ return strcmp(a->vrf_name, b->vrf_name);
+}
+RB_GENERATE(rip_instance_head, rip, entry, rip_instance_compare)
+
+struct rip_instance_head rip_instances = RB_INITIALIZER(&rip_instances);
+
+/* Utility function to set broadcast option to the socket. */
+static int sockopt_broadcast(int sock)
+{
+ int ret;
+ int on = 1;
+
+ ret = setsockopt(sock, SOL_SOCKET, SO_BROADCAST, (char *)&on,
+ sizeof(on));
+ if (ret < 0) {
+ zlog_warn("can't set sockopt SO_BROADCAST to socket %d", sock);
+ return -1;
+ }
+ return 0;
+}
+
+int rip_route_rte(struct rip_info *rinfo)
+{
+ return (rinfo->type == ZEBRA_ROUTE_RIP
+ && rinfo->sub_type == RIP_ROUTE_RTE);
+}
+
+static struct rip_info *rip_info_new(void)
+{
+ return XCALLOC(MTYPE_RIP_INFO, sizeof(struct rip_info));
+}
+
+void rip_info_free(struct rip_info *rinfo)
+{
+ XFREE(MTYPE_RIP_INFO, rinfo);
+}
+
+struct rip *rip_info_get_instance(const struct rip_info *rinfo)
+{
+ return route_table_get_info(rinfo->rp->table);
+}
+
+/* RIP route garbage collect timer. */
+static void rip_garbage_collect(struct thread *t)
+{
+ struct rip_info *rinfo;
+ struct route_node *rp;
+
+ rinfo = THREAD_ARG(t);
+
+ /* Off timeout timer. */
+ THREAD_OFF(rinfo->t_timeout);
+
+ /* Get route_node pointer. */
+ rp = rinfo->rp;
+
+ /* Unlock route_node. */
+ listnode_delete(rp->info, rinfo);
+ if (list_isempty((struct list *)rp->info)) {
+ list_delete((struct list **)&rp->info);
+ route_unlock_node(rp);
+ }
+
+ /* Free RIP routing information. */
+ rip_info_free(rinfo);
+}
+
+static void rip_timeout_update(struct rip *rip, struct rip_info *rinfo);
+
+/* Add new route to the ECMP list.
+ * RETURN: the new entry added in the list, or NULL if it is not the first
+ * entry and ECMP is not allowed.
+ */
+struct rip_info *rip_ecmp_add(struct rip *rip, struct rip_info *rinfo_new)
+{
+ struct route_node *rp = rinfo_new->rp;
+ struct rip_info *rinfo = NULL;
+ struct list *list = NULL;
+
+ if (rp->info == NULL)
+ rp->info = list_new();
+ list = (struct list *)rp->info;
+
+ /* If ECMP is not allowed and some entry already exists in the list,
+ * do nothing. */
+ if (listcount(list) && !rip->ecmp)
+ return NULL;
+
+ rinfo = rip_info_new();
+ memcpy(rinfo, rinfo_new, sizeof(struct rip_info));
+ listnode_add(list, rinfo);
+
+ if (rip_route_rte(rinfo)) {
+ rip_timeout_update(rip, rinfo);
+ rip_zebra_ipv4_add(rip, rp);
+ }
+
+ /* Set the route change flag on the first entry. */
+ rinfo = listgetdata(listhead(list));
+ SET_FLAG(rinfo->flags, RIP_RTF_CHANGED);
+
+ /* Signal the output process to trigger an update (see section 2.5). */
+ rip_event(rip, RIP_TRIGGERED_UPDATE, 0);
+
+ return rinfo;
+}
+
+/* Replace the ECMP list with the new route.
+ * RETURN: the new entry added in the list
+ */
+struct rip_info *rip_ecmp_replace(struct rip *rip, struct rip_info *rinfo_new)
+{
+ struct route_node *rp = rinfo_new->rp;
+ struct list *list = (struct list *)rp->info;
+ struct rip_info *rinfo = NULL, *tmp_rinfo = NULL;
+ struct listnode *node = NULL, *nextnode = NULL;
+
+ if (list == NULL || listcount(list) == 0)
+ return rip_ecmp_add(rip, rinfo_new);
+
+ /* Get the first entry */
+ rinfo = listgetdata(listhead(list));
+
+ /* Learnt route replaced by a local one. Delete it from zebra. */
+ if (rip_route_rte(rinfo) && !rip_route_rte(rinfo_new))
+ if (CHECK_FLAG(rinfo->flags, RIP_RTF_FIB))
+ rip_zebra_ipv4_delete(rip, rp);
+
+ /* Re-use the first entry, and delete the others. */
+ for (ALL_LIST_ELEMENTS(list, node, nextnode, tmp_rinfo)) {
+ if (tmp_rinfo == rinfo)
+ continue;
+
+ THREAD_OFF(tmp_rinfo->t_timeout);
+ THREAD_OFF(tmp_rinfo->t_garbage_collect);
+ list_delete_node(list, node);
+ rip_info_free(tmp_rinfo);
+ }
+
+ THREAD_OFF(rinfo->t_timeout);
+ THREAD_OFF(rinfo->t_garbage_collect);
+ memcpy(rinfo, rinfo_new, sizeof(struct rip_info));
+
+ if (rip_route_rte(rinfo)) {
+ rip_timeout_update(rip, rinfo);
+ /* The ADD message implies an update. */
+ rip_zebra_ipv4_add(rip, rp);
+ }
+
+ /* Set the route change flag. */
+ SET_FLAG(rinfo->flags, RIP_RTF_CHANGED);
+
+ /* Signal the output process to trigger an update (see section 2.5). */
+ rip_event(rip, RIP_TRIGGERED_UPDATE, 0);
+
+ return rinfo;
+}
+
+/* Delete one route from the ECMP list.
+ * RETURN:
+ * null - the entry is freed, and other entries exist in the list
+ * the entry - the entry is the last one in the list; its metric is set
+ * to INFINITY, and the garbage collector is started for it
+ */
+struct rip_info *rip_ecmp_delete(struct rip *rip, struct rip_info *rinfo)
+{
+ struct route_node *rp = rinfo->rp;
+ struct list *list = (struct list *)rp->info;
+
+ THREAD_OFF(rinfo->t_timeout);
+
+ if (listcount(list) > 1) {
+ /* Some other ECMP entries still exist. Just delete this entry.
+ */
+ THREAD_OFF(rinfo->t_garbage_collect);
+ listnode_delete(list, rinfo);
+ if (rip_route_rte(rinfo)
+ && CHECK_FLAG(rinfo->flags, RIP_RTF_FIB))
+ /* The ADD message implies the update. */
+ rip_zebra_ipv4_add(rip, rp);
+ rip_info_free(rinfo);
+ rinfo = NULL;
+ } else {
+ assert(rinfo == listgetdata(listhead(list)));
+
+ /* This is the only entry left in the list. We must keep it in
+ * the list for garbage collection time, with INFINITY metric.
+ */
+
+ rinfo->metric = RIP_METRIC_INFINITY;
+ RIP_TIMER_ON(rinfo->t_garbage_collect, rip_garbage_collect,
+ rip->garbage_time);
+
+ if (rip_route_rte(rinfo)
+ && CHECK_FLAG(rinfo->flags, RIP_RTF_FIB))
+ rip_zebra_ipv4_delete(rip, rp);
+ }
+
+ /* Set the route change flag on the first entry. */
+ rinfo = listgetdata(listhead(list));
+ SET_FLAG(rinfo->flags, RIP_RTF_CHANGED);
+
+ /* Signal the output process to trigger an update (see section 2.5). */
+ rip_event(rip, RIP_TRIGGERED_UPDATE, 0);
+
+ return rinfo;
+}
+
+/* Timeout RIP routes. */
+static void rip_timeout(struct thread *t)
+{
+ struct rip_info *rinfo = THREAD_ARG(t);
+ struct rip *rip = rip_info_get_instance(rinfo);
+
+ rip_ecmp_delete(rip, rinfo);
+}
+
+static void rip_timeout_update(struct rip *rip, struct rip_info *rinfo)
+{
+ if (rinfo->metric != RIP_METRIC_INFINITY) {
+ THREAD_OFF(rinfo->t_timeout);
+ thread_add_timer(master, rip_timeout, rinfo, rip->timeout_time,
+ &rinfo->t_timeout);
+ }
+}
+
+static int rip_filter(int rip_distribute, struct prefix_ipv4 *p,
+ struct rip_interface *ri)
+{
+ struct distribute *dist;
+ struct access_list *alist;
+ struct prefix_list *plist;
+ int distribute = rip_distribute == RIP_FILTER_OUT ? DISTRIBUTE_V4_OUT
+ : DISTRIBUTE_V4_IN;
+ const char *inout = rip_distribute == RIP_FILTER_OUT ? "out" : "in";
+
+ /* Input distribute-list filtering. */
+ if (ri->list[rip_distribute] &&
+ access_list_apply(ri->list[rip_distribute], (struct prefix *)p) ==
+ FILTER_DENY) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug("%pFX filtered by distribute %s", p, inout);
+ return -1;
+ }
+
+ if (ri->prefix[rip_distribute] &&
+ prefix_list_apply(ri->prefix[rip_distribute], (struct prefix *)p) ==
+ PREFIX_DENY) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug("%pFX filtered by prefix-list %s", p, inout);
+ return -1;
+ }
+
+ /* All interface filter check. */
+ dist = distribute_lookup(ri->rip->distribute_ctx, NULL);
+ if (!dist)
+ return 0;
+
+ if (dist->list[distribute]) {
+ alist = access_list_lookup(AFI_IP, dist->list[distribute]);
+
+ if (alist) {
+ if (access_list_apply(alist, (struct prefix *)p) ==
+ FILTER_DENY) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "%pFX filtered by distribute %s",
+ p, inout);
+ return -1;
+ }
+ }
+ }
+ if (dist->prefix[distribute]) {
+ plist = prefix_list_lookup(AFI_IP, dist->prefix[distribute]);
+
+ if (plist) {
+ if (prefix_list_apply(plist, (struct prefix *)p) ==
+ PREFIX_DENY) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "%pFX filtered by prefix-list %s",
+ p, inout);
+ return -1;
+ }
+ }
+ }
+
+ return 0;
+}
+
+/* Check nexthop address validity. */
+static int rip_nexthop_check(struct rip *rip, struct in_addr *addr)
+{
+ struct interface *ifp;
+ struct listnode *cnode;
+ struct connected *ifc;
+ struct prefix *p;
+
+ /* If nexthop address matches local configured address then it is
+ invalid nexthop. */
+
+ FOR_ALL_INTERFACES (rip->vrf, ifp) {
+ for (ALL_LIST_ELEMENTS_RO(ifp->connected, cnode, ifc)) {
+ p = ifc->address;
+
+ if (p->family == AF_INET
+ && IPV4_ADDR_SAME(&p->u.prefix4, addr))
+ return -1;
+ }
+ }
+ return 0;
+}
+
+/* RIP add route to routing table. */
+static void rip_rte_process(struct rte *rte, struct sockaddr_in *from,
+ struct interface *ifp)
+{
+ struct rip *rip;
+ int ret;
+ struct prefix_ipv4 p;
+ struct route_node *rp;
+ struct rip_info *rinfo = NULL, newinfo;
+ struct rip_interface *ri;
+ struct in_addr *nexthop;
+ int same = 0;
+ unsigned char old_dist, new_dist;
+ struct list *list = NULL;
+ struct listnode *node = NULL;
+
+ /* Make prefix structure. */
+ memset(&p, 0, sizeof(struct prefix_ipv4));
+ p.family = AF_INET;
+ p.prefix = rte->prefix;
+ p.prefixlen = ip_masklen(rte->mask);
+
+ /* Make sure mask is applied. */
+ apply_mask_ipv4(&p);
+
+ ri = ifp->info;
+ rip = ri->rip;
+
+ /* Apply input filters. */
+ ret = rip_filter(RIP_FILTER_IN, &p, ri);
+ if (ret < 0)
+ return;
+
+ memset(&newinfo, 0, sizeof(newinfo));
+ newinfo.type = ZEBRA_ROUTE_RIP;
+ newinfo.sub_type = RIP_ROUTE_RTE;
+ newinfo.nh.gate.ipv4 = rte->nexthop;
+ newinfo.from = from->sin_addr;
+ newinfo.nh.ifindex = ifp->ifindex;
+ newinfo.nh.type = NEXTHOP_TYPE_IPV4_IFINDEX;
+ newinfo.metric = rte->metric;
+ newinfo.metric_out = rte->metric; /* XXX */
+ newinfo.tag = ntohs(rte->tag); /* XXX */
+
+ /* Modify entry according to the interface routemap. */
+ if (ri->routemap[RIP_FILTER_IN]) {
+ /* The object should be of the type of rip_info */
+ ret = route_map_apply(ri->routemap[RIP_FILTER_IN],
+ (struct prefix *)&p, &newinfo);
+
+ if (ret == RMAP_DENYMATCH) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "RIP %pFX is filtered by route-map in",
+ &p);
+ return;
+ }
+
+ /* Get back the object */
+ rte->nexthop = newinfo.nexthop_out;
+ rte->tag = htons(newinfo.tag_out); /* XXX */
+ rte->metric = newinfo.metric_out; /* XXX: the routemap uses the
+ metric_out field */
+ }
+
+ /* Once the entry has been validated, update the metric by
+ adding the cost of the network on which the message
+ arrived. If the result is greater than infinity, use infinity
+ (RFC2453 Sec. 3.9.2) */
+ /* Zebra ripd can handle offset-list in. */
+ ret = rip_offset_list_apply_in(&p, ifp, &rte->metric);
+
+ /* If offset-list does not modify the metric use interface's
+ metric. */
+ if (!ret)
+ rte->metric += ifp->metric ? ifp->metric : 1;
+
+ if (rte->metric > RIP_METRIC_INFINITY)
+ rte->metric = RIP_METRIC_INFINITY;
+
+ /* Set nexthop pointer. */
+ if (rte->nexthop.s_addr == INADDR_ANY)
+ nexthop = &from->sin_addr;
+ else
+ nexthop = &rte->nexthop;
+
+ /* Check if nexthop address is myself, then do nothing. */
+ if (rip_nexthop_check(rip, nexthop) < 0) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug("Nexthop address %pI4 is myself",
+ nexthop);
+ return;
+ }
+
+ /* Get index for the prefix. */
+ rp = route_node_get(rip->table, (struct prefix *)&p);
+
+ newinfo.rp = rp;
+ newinfo.nh.gate.ipv4 = *nexthop;
+ newinfo.nh.type = NEXTHOP_TYPE_IPV4;
+ newinfo.metric = rte->metric;
+ newinfo.tag = ntohs(rte->tag);
+ newinfo.distance = rip_distance_apply(rip, &newinfo);
+
+ new_dist = newinfo.distance ? newinfo.distance
+ : ZEBRA_RIP_DISTANCE_DEFAULT;
+
+ /* Check to see whether there is already RIP route on the table. */
+ if ((list = rp->info) != NULL)
+ for (ALL_LIST_ELEMENTS_RO(list, node, rinfo)) {
+ /* Need to compare with redistributed entry or local
+ * entry */
+ if (!rip_route_rte(rinfo))
+ break;
+
+ if (IPV4_ADDR_SAME(&rinfo->from, &from->sin_addr)
+ && IPV4_ADDR_SAME(&rinfo->nh.gate.ipv4, nexthop))
+ break;
+
+ if (listnextnode(node))
+ continue;
+
+ /* Not found in the list */
+
+ if (rte->metric > rinfo->metric) {
+ /* New route has a greater metric.
+ * Discard it. */
+ route_unlock_node(rp);
+ return;
+ }
+
+ if (rte->metric < rinfo->metric)
+ /* New route has a smaller metric.
+ * Replace the ECMP list
+ * with the new one in below. */
+ break;
+
+ /* Metrics are same. We compare the distances.
+ */
+ old_dist = rinfo->distance ? rinfo->distance
+ : ZEBRA_RIP_DISTANCE_DEFAULT;
+
+ if (new_dist > old_dist) {
+ /* New route has a greater distance.
+ * Discard it. */
+ route_unlock_node(rp);
+ return;
+ }
+
+ if (new_dist < old_dist)
+ /* New route has a smaller distance.
+ * Replace the ECMP list
+ * with the new one in below. */
+ break;
+
+ /* Metrics and distances are both same. Keep
+ * "rinfo" null and
+ * the new route is added in the ECMP list in
+ * below. */
+ }
+
+ if (rinfo) {
+ /* Local static route. */
+ if (rinfo->type == ZEBRA_ROUTE_RIP
+ && ((rinfo->sub_type == RIP_ROUTE_STATIC)
+ || (rinfo->sub_type == RIP_ROUTE_DEFAULT))
+ && rinfo->metric != RIP_METRIC_INFINITY) {
+ route_unlock_node(rp);
+ return;
+ }
+
+ /* Redistributed route check. */
+ if (rinfo->type != ZEBRA_ROUTE_RIP
+ && rinfo->metric != RIP_METRIC_INFINITY) {
+ old_dist = rinfo->distance;
+ /* Only routes directly connected to an interface
+ * (nexthop == 0)
+ * may have a valid NULL distance */
+ if (rinfo->nh.gate.ipv4.s_addr != INADDR_ANY)
+ old_dist = old_dist
+ ? old_dist
+ : ZEBRA_RIP_DISTANCE_DEFAULT;
+ /* If imported route does not have STRICT precedence,
+ mark it as a ghost */
+ if (new_dist <= old_dist
+ && rte->metric != RIP_METRIC_INFINITY)
+ rip_ecmp_replace(rip, &newinfo);
+
+ route_unlock_node(rp);
+ return;
+ }
+ }
+
+ if (!rinfo) {
+ if (rp->info)
+ route_unlock_node(rp);
+
+ /* Now, check to see whether there is already an explicit route
+ for the destination prefix. If there is no such route, add
+ this route to the routing table, unless the metric is
+ infinity (there is no point in adding a route which
+ unusable). */
+ if (rte->metric != RIP_METRIC_INFINITY)
+ rip_ecmp_add(rip, &newinfo);
+ } else {
+ /* Route is there but we are not sure the route is RIP or not.
+ */
+
+ /* If there is an existing route, compare the next hop address
+ to the address of the router from which the datagram came.
+ If this datagram is from the same router as the existing
+ route, reinitialize the timeout. */
+ same = (IPV4_ADDR_SAME(&rinfo->from, &from->sin_addr)
+ && (rinfo->nh.ifindex == ifp->ifindex));
+
+ old_dist = rinfo->distance ? rinfo->distance
+ : ZEBRA_RIP_DISTANCE_DEFAULT;
+
+ /* Next, compare the metrics. If the datagram is from the same
+ router as the existing route, and the new metric is different
+ than the old one; or, if the new metric is lower than the old
+ one, or if the tag has been changed; or if there is a route
+ with a lower administrave distance; or an update of the
+ distance on the actual route; do the following actions: */
+ if ((same && rinfo->metric != rte->metric)
+ || (rte->metric < rinfo->metric)
+ || ((same) && (rinfo->metric == rte->metric)
+ && (newinfo.tag != rinfo->tag))
+ || (old_dist > new_dist)
+ || ((old_dist != new_dist) && same)) {
+ if (listcount(list) == 1) {
+ if (newinfo.metric != RIP_METRIC_INFINITY)
+ rip_ecmp_replace(rip, &newinfo);
+ else
+ rip_ecmp_delete(rip, rinfo);
+ } else {
+ if (newinfo.metric < rinfo->metric)
+ rip_ecmp_replace(rip, &newinfo);
+ else if (newinfo.metric > rinfo->metric)
+ rip_ecmp_delete(rip, rinfo);
+ else if (new_dist < old_dist)
+ rip_ecmp_replace(rip, &newinfo);
+ else if (new_dist > old_dist)
+ rip_ecmp_delete(rip, rinfo);
+ else {
+ int update = CHECK_FLAG(rinfo->flags,
+ RIP_RTF_FIB)
+ ? 1
+ : 0;
+
+ assert(newinfo.metric
+ != RIP_METRIC_INFINITY);
+
+ THREAD_OFF(rinfo->t_timeout);
+ THREAD_OFF(rinfo->t_garbage_collect);
+ memcpy(rinfo, &newinfo,
+ sizeof(struct rip_info));
+ rip_timeout_update(rip, rinfo);
+
+ if (update)
+ rip_zebra_ipv4_add(rip, rp);
+
+ /* - Set the route change flag on the
+ * first entry. */
+ rinfo = listgetdata(listhead(list));
+ SET_FLAG(rinfo->flags, RIP_RTF_CHANGED);
+ rip_event(rip, RIP_TRIGGERED_UPDATE, 0);
+ }
+ }
+ } else /* same & no change */
+ rip_timeout_update(rip, rinfo);
+
+ /* Unlock tempolary lock of the route. */
+ route_unlock_node(rp);
+ }
+}
+
+/* Dump RIP packet */
+static void rip_packet_dump(struct rip_packet *packet, int size,
+ const char *sndrcv)
+{
+ caddr_t lim;
+ struct rte *rte;
+ const char *command_str;
+ uint8_t netmask = 0;
+ uint8_t *p;
+
+ /* Set command string. */
+ if (packet->command > 0 && packet->command < RIP_COMMAND_MAX)
+ command_str = lookup_msg(rip_msg, packet->command, NULL);
+ else
+ command_str = "unknown";
+
+ /* Dump packet header. */
+ zlog_debug("%s %s version %d packet size %d", sndrcv, command_str,
+ packet->version, size);
+
+ /* Dump each routing table entry. */
+ rte = packet->rte;
+
+ for (lim = (caddr_t)packet + size; (caddr_t)rte < lim; rte++) {
+ if (packet->version == RIPv2) {
+ netmask = ip_masklen(rte->mask);
+
+ if (rte->family == htons(RIP_FAMILY_AUTH)) {
+ if (rte->tag
+ == htons(RIP_AUTH_SIMPLE_PASSWORD)) {
+ p = (uint8_t *)&rte->prefix;
+
+ zlog_debug(
+ " family 0x%X type %d auth string: %s",
+ ntohs(rte->family),
+ ntohs(rte->tag), p);
+ } else if (rte->tag == htons(RIP_AUTH_MD5)) {
+ struct rip_md5_info *md5;
+
+ md5 = (struct rip_md5_info *)&packet
+ ->rte;
+
+ zlog_debug(
+ " family 0x%X type %d (MD5 authentication)",
+ ntohs(md5->family),
+ ntohs(md5->type));
+ zlog_debug(
+ " RIP-2 packet len %d Key ID %d Auth Data len %d",
+ ntohs(md5->packet_len),
+ md5->keyid, md5->auth_len);
+ zlog_debug(" Sequence Number %ld",
+ (unsigned long)ntohl(
+ md5->sequence));
+ } else if (rte->tag == htons(RIP_AUTH_DATA)) {
+ p = (uint8_t *)&rte->prefix;
+
+ zlog_debug(
+ " family 0x%X type %d (MD5 data)",
+ ntohs(rte->family),
+ ntohs(rte->tag));
+ zlog_debug(
+ " MD5: %02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X",
+ p[0], p[1], p[2], p[3], p[4],
+ p[5], p[6], p[7], p[8], p[9],
+ p[10], p[11], p[12], p[13],
+ p[14], p[15]);
+ } else {
+ zlog_debug(
+ " family 0x%X type %d (Unknown auth type)",
+ ntohs(rte->family),
+ ntohs(rte->tag));
+ }
+ } else
+ zlog_debug(
+ " %pI4/%d -> %pI4 family %d tag %" ROUTE_TAG_PRI
+ " metric %ld",
+ &rte->prefix, netmask, &rte->nexthop,
+ ntohs(rte->family),
+ (route_tag_t)ntohs(rte->tag),
+ (unsigned long)ntohl(rte->metric));
+ } else {
+ zlog_debug(" %pI4 family %d tag %" ROUTE_TAG_PRI
+ " metric %ld",
+ &rte->prefix, ntohs(rte->family),
+ (route_tag_t)ntohs(rte->tag),
+ (unsigned long)ntohl(rte->metric));
+ }
+ }
+}
+
+/* Check if the destination address is valid (unicast; not net 0
+ or 127) (RFC2453 Section 3.9.2 - Page 26). But we don't
+ check net 0 because we accept default route. */
+static int rip_destination_check(struct in_addr addr)
+{
+ uint32_t destination;
+
+ /* Convert to host byte order. */
+ destination = ntohl(addr.s_addr);
+
+ if (IPV4_NET127(destination))
+ return 0;
+
+ /* Net 0 may match to the default route. */
+ if (IPV4_NET0(destination) && destination != 0)
+ return 0;
+
+ /* Unicast address must belong to class A, B, C. */
+ if (IN_CLASSA(destination))
+ return 1;
+ if (IN_CLASSB(destination))
+ return 1;
+ if (IN_CLASSC(destination))
+ return 1;
+
+ return 0;
+}
+
+/* RIP version 2 authentication. */
+static int rip_auth_simple_password(struct rte *rte, struct sockaddr_in *from,
+ struct interface *ifp)
+{
+ struct rip_interface *ri;
+ char *auth_str = (char *)rte + offsetof(struct rte, prefix);
+ int i;
+
+ /* reject passwords with zeros in the middle of the string */
+ for (i = strnlen(auth_str, 16); i < 16; i++) {
+ if (auth_str[i] != '\0')
+ return 0;
+ }
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("RIPv2 simple password authentication from %pI4",
+ &from->sin_addr);
+
+ ri = ifp->info;
+
+ if (ri->auth_type != RIP_AUTH_SIMPLE_PASSWORD
+ || rte->tag != htons(RIP_AUTH_SIMPLE_PASSWORD))
+ return 0;
+
+ /* Simple password authentication. */
+ if (ri->auth_str) {
+ if (strncmp(auth_str, ri->auth_str, 16) == 0)
+ return 1;
+ }
+ if (ri->key_chain) {
+ struct keychain *keychain;
+ struct key *key;
+
+ keychain = keychain_lookup(ri->key_chain);
+ if (keychain == NULL || keychain->key == NULL)
+ return 0;
+
+ key = key_match_for_accept(keychain, auth_str);
+ if (key)
+ return 1;
+ }
+ return 0;
+}
+
+/* RIP version 2 authentication with MD5. */
+static int rip_auth_md5(struct rip_packet *packet, struct sockaddr_in *from,
+ int length, struct interface *ifp)
+{
+ struct rip_interface *ri;
+ struct rip_md5_info *md5;
+ struct rip_md5_data *md5data;
+ struct keychain *keychain;
+ struct key *key;
+#ifdef CRYPTO_OPENSSL
+ EVP_MD_CTX *ctx;
+#elif CRYPTO_INTERNAL
+ MD5_CTX ctx;
+#endif
+ uint8_t digest[RIP_AUTH_MD5_SIZE];
+ uint16_t packet_len;
+ char auth_str[RIP_AUTH_MD5_SIZE] = {};
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("RIPv2 MD5 authentication from %pI4",
+ &from->sin_addr);
+
+ ri = ifp->info;
+ md5 = (struct rip_md5_info *)&packet->rte;
+
+ /* Check auth type. */
+ if (ri->auth_type != RIP_AUTH_MD5 || md5->type != htons(RIP_AUTH_MD5))
+ return 0;
+
+ /* If the authentication length is less than 16, then it must be wrong
+ * for
+ * any interpretation of rfc2082. Some implementations also interpret
+ * this as RIP_HEADER_SIZE+ RIP_AUTH_MD5_SIZE, aka
+ * RIP_AUTH_MD5_COMPAT_SIZE.
+ */
+ if (!((md5->auth_len == RIP_AUTH_MD5_SIZE)
+ || (md5->auth_len == RIP_AUTH_MD5_COMPAT_SIZE))) {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug(
+ "RIPv2 MD5 authentication, strange authentication length field %d",
+ md5->auth_len);
+ return 0;
+ }
+
+ /* grab and verify check packet length */
+ packet_len = ntohs(md5->packet_len);
+
+ if (packet_len > (length - RIP_HEADER_SIZE - RIP_AUTH_MD5_SIZE)) {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug(
+ "RIPv2 MD5 authentication, packet length field %d greater than received length %d!",
+ md5->packet_len, length);
+ return 0;
+ }
+
+ /* retrieve authentication data */
+ md5data = (struct rip_md5_data *)(((uint8_t *)packet) + packet_len);
+
+ if (ri->key_chain) {
+ keychain = keychain_lookup(ri->key_chain);
+ if (keychain == NULL)
+ return 0;
+
+ key = key_lookup_for_accept(keychain, md5->keyid);
+ if (key == NULL || key->string == NULL)
+ return 0;
+
+ memcpy(auth_str, key->string,
+ MIN(sizeof(auth_str), strlen(key->string)));
+ } else if (ri->auth_str)
+ memcpy(auth_str, ri->auth_str,
+ MIN(sizeof(auth_str), strlen(ri->auth_str)));
+
+ if (auth_str[0] == 0)
+ return 0;
+
+ /* MD5 digest authentication. */
+#ifdef CRYPTO_OPENSSL
+ unsigned int md5_size = RIP_AUTH_MD5_SIZE;
+ ctx = EVP_MD_CTX_new();
+ EVP_DigestInit(ctx, EVP_md5());
+ EVP_DigestUpdate(ctx, packet, packet_len + RIP_HEADER_SIZE);
+ EVP_DigestUpdate(ctx, auth_str, RIP_AUTH_MD5_SIZE);
+ EVP_DigestFinal(ctx, digest, &md5_size);
+ EVP_MD_CTX_free(ctx);
+#elif CRYPTO_INTERNAL
+ memset(&ctx, 0, sizeof(ctx));
+ MD5Init(&ctx);
+ MD5Update(&ctx, packet, packet_len + RIP_HEADER_SIZE);
+ MD5Update(&ctx, auth_str, RIP_AUTH_MD5_SIZE);
+ MD5Final(digest, &ctx);
+#endif
+
+ if (memcmp(md5data->digest, digest, RIP_AUTH_MD5_SIZE) == 0)
+ return packet_len;
+ else
+ return 0;
+}
+
+/* Pick correct auth string for sends, prepare auth_str buffer for use.
+ * (left justified and padded).
+ *
+ * presumes one of ri or key is valid, and that the auth strings they point
+ * to are nul terminated. If neither are present, auth_str will be fully
+ * zero padded.
+ *
+ */
+static void rip_auth_prepare_str_send(struct rip_interface *ri, struct key *key,
+ char *auth_str, int len)
+{
+ assert(ri || key);
+
+ memset(auth_str, 0, len);
+ if (key && key->string)
+ memcpy(auth_str, key->string,
+ MIN((size_t)len, strlen(key->string)));
+ else if (ri->auth_str)
+ memcpy(auth_str, ri->auth_str,
+ MIN((size_t)len, strlen(ri->auth_str)));
+
+ return;
+}
+
+/* Write RIPv2 simple password authentication information
+ *
+ * auth_str is presumed to be 2 bytes and correctly prepared
+ * (left justified and zero padded).
+ */
+static void rip_auth_simple_write(struct stream *s, char *auth_str, int len)
+{
+ assert(s && len == RIP_AUTH_SIMPLE_SIZE);
+
+ stream_putw(s, RIP_FAMILY_AUTH);
+ stream_putw(s, RIP_AUTH_SIMPLE_PASSWORD);
+ stream_put(s, auth_str, RIP_AUTH_SIMPLE_SIZE);
+
+ return;
+}
+
+/* write RIPv2 MD5 "authentication header"
+ * (uses the auth key data field)
+ *
+ * Digest offset field is set to 0.
+ *
+ * returns: offset of the digest offset field, which must be set when
+ * length to the auth-data MD5 digest is known.
+ */
+static size_t rip_auth_md5_ah_write(struct stream *s, struct rip_interface *ri,
+ struct key *key)
+{
+ size_t doff = 0;
+ static uint32_t seq = 0;
+
+ assert(s && ri && ri->auth_type == RIP_AUTH_MD5);
+
+ /* MD5 authentication. */
+ stream_putw(s, RIP_FAMILY_AUTH);
+ stream_putw(s, RIP_AUTH_MD5);
+
+ /* MD5 AH digest offset field.
+ *
+ * Set to placeholder value here, to true value when RIP-2 Packet length
+ * is known. Actual value is set in .....().
+ */
+ doff = stream_get_endp(s);
+ stream_putw(s, 0);
+
+ /* Key ID. */
+ if (key)
+ stream_putc(s, key->index % 256);
+ else
+ stream_putc(s, 1);
+
+ /* Auth Data Len. Set 16 for MD5 authentication data. Older ripds
+ * however expect RIP_HEADER_SIZE + RIP_AUTH_MD5_SIZE so we allow for
+ * this
+ * to be configurable.
+ */
+ stream_putc(s, ri->md5_auth_len);
+
+ /* Sequence Number (non-decreasing). */
+ /* RFC2080: The value used in the sequence number is
+ arbitrary, but two suggestions are the time of the
+ message's creation or a simple message counter. */
+ stream_putl(s, ++seq);
+
+ /* Reserved field must be zero. */
+ stream_putl(s, 0);
+ stream_putl(s, 0);
+
+ return doff;
+}
+
+/* If authentication is in used, write the appropriate header
+ * returns stream offset to which length must later be written
+ * or 0 if this is not required
+ */
+static size_t rip_auth_header_write(struct stream *s, struct rip_interface *ri,
+ struct key *key, char *auth_str, int len)
+{
+ assert(ri->auth_type != RIP_NO_AUTH);
+
+ switch (ri->auth_type) {
+ case RIP_AUTH_SIMPLE_PASSWORD:
+ rip_auth_prepare_str_send(ri, key, auth_str, len);
+ rip_auth_simple_write(s, auth_str, len);
+ return 0;
+ case RIP_AUTH_MD5:
+ return rip_auth_md5_ah_write(s, ri, key);
+ }
+ assert(1);
+ return 0;
+}
+
+/* Write RIPv2 MD5 authentication data trailer */
+static void rip_auth_md5_set(struct stream *s, struct rip_interface *ri,
+ size_t doff, char *auth_str, int authlen)
+{
+ unsigned long len;
+#ifdef CRYPTO_OPENSSL
+ EVP_MD_CTX *ctx;
+#elif CRYPTO_INTERNAL
+ MD5_CTX ctx;
+#endif
+ unsigned char digest[RIP_AUTH_MD5_SIZE];
+
+ /* Make it sure this interface is configured as MD5
+ authentication. */
+ assert((ri->auth_type == RIP_AUTH_MD5)
+ && (authlen == RIP_AUTH_MD5_SIZE));
+ assert(doff > 0);
+
+ /* Get packet length. */
+ len = stream_get_endp(s);
+
+ /* Check packet length. */
+ if (len < (RIP_HEADER_SIZE + RIP_RTE_SIZE)) {
+ flog_err(EC_RIP_PACKET,
+ "%s: packet length %ld is less than minimum length.",
+ __func__, len);
+ return;
+ }
+
+ /* Set the digest offset length in the header */
+ stream_putw_at(s, doff, len);
+
+ /* Set authentication data. */
+ stream_putw(s, RIP_FAMILY_AUTH);
+ stream_putw(s, RIP_AUTH_DATA);
+
+ /* Generate a digest for the RIP packet. */
+#ifdef CRYPTO_OPENSSL
+ unsigned int md5_size = RIP_AUTH_MD5_SIZE;
+ ctx = EVP_MD_CTX_new();
+ EVP_DigestInit(ctx, EVP_md5());
+ EVP_DigestUpdate(ctx, STREAM_DATA(s), stream_get_endp(s));
+ EVP_DigestUpdate(ctx, auth_str, RIP_AUTH_MD5_SIZE);
+ EVP_DigestFinal(ctx, digest, &md5_size);
+ EVP_MD_CTX_free(ctx);
+#elif CRYPTO_INTERNAL
+ memset(&ctx, 0, sizeof(ctx));
+ MD5Init(&ctx);
+ MD5Update(&ctx, STREAM_DATA(s), stream_get_endp(s));
+ MD5Update(&ctx, auth_str, RIP_AUTH_MD5_SIZE);
+ MD5Final(digest, &ctx);
+#endif
+
+ /* Copy the digest to the packet. */
+ stream_write(s, digest, RIP_AUTH_MD5_SIZE);
+}
+
+/* RIP routing information. */
+static void rip_response_process(struct rip_packet *packet, int size,
+ struct sockaddr_in *from,
+ struct connected *ifc)
+{
+ struct rip_interface *ri = ifc->ifp->info;
+ struct rip *rip = ri->rip;
+ caddr_t lim;
+ struct rte *rte;
+ struct prefix_ipv4 ifaddr;
+ struct prefix_ipv4 ifaddrclass;
+ int subnetted;
+
+ memset(&ifaddr, 0, sizeof(ifaddr));
+ /* We don't know yet. */
+ subnetted = -1;
+
+ /* The Response must be ignored if it is not from the RIP
+ port. (RFC2453 - Sec. 3.9.2)*/
+ if (from->sin_port != htons(RIP_PORT_DEFAULT)) {
+ zlog_info("response doesn't come from RIP port: %d",
+ from->sin_port);
+ rip_peer_bad_packet(rip, from);
+ return;
+ }
+
+ /* The datagram's IPv4 source address should be checked to see
+ whether the datagram is from a valid neighbor; the source of the
+ datagram must be on a directly connected network (RFC2453 - Sec.
+ 3.9.2) */
+ if (if_lookup_address((void *)&from->sin_addr, AF_INET,
+ rip->vrf->vrf_id)
+ == NULL) {
+ zlog_info(
+ "This datagram doesn't come from a valid neighbor: %pI4",
+ &from->sin_addr);
+ rip_peer_bad_packet(rip, from);
+ return;
+ }
+
+ /* It is also worth checking to see whether the response is from one
+ of the router's own addresses. */
+
+ ; /* Alredy done in rip_read () */
+
+ /* Update RIP peer. */
+ rip_peer_update(rip, from, packet->version);
+
+ /* Set RTE pointer. */
+ rte = packet->rte;
+
+ for (lim = (caddr_t)packet + size; (caddr_t)rte < lim; rte++) {
+ /* RIPv2 authentication check. */
+ /* If the Address Family Identifier of the first (and only the
+ first) entry in the message is 0xFFFF, then the remainder of
+ the entry contains the authentication. */
+ /* If the packet gets here it means authentication enabled */
+ /* Check is done in rip_read(). So, just skipping it */
+ if (packet->version == RIPv2 && rte == packet->rte
+ && rte->family == htons(RIP_FAMILY_AUTH))
+ continue;
+
+ if (rte->family != htons(AF_INET)) {
+ /* Address family check. RIP only supports AF_INET. */
+ zlog_info("Unsupported family %d from %pI4",
+ ntohs(rte->family),
+ &from->sin_addr);
+ continue;
+ }
+
+ /* - is the destination address valid (e.g., unicast; not net 0
+ or 127) */
+ if (!rip_destination_check(rte->prefix)) {
+ zlog_info(
+ "Network is net 0 or net 127 or it is not unicast network");
+ rip_peer_bad_route(rip, from);
+ continue;
+ }
+
+ /* Convert metric value to host byte order. */
+ rte->metric = ntohl(rte->metric);
+
+ /* - is the metric valid (i.e., between 1 and 16, inclusive) */
+ if (!(rte->metric >= 1 && rte->metric <= 16)) {
+ zlog_info("Route's metric is not in the 1-16 range.");
+ rip_peer_bad_route(rip, from);
+ continue;
+ }
+
+ /* RIPv1 does not have nexthop value. */
+ if (packet->version == RIPv1
+ && rte->nexthop.s_addr != INADDR_ANY) {
+ zlog_info("RIPv1 packet with nexthop value %pI4",
+ &rte->nexthop);
+ rip_peer_bad_route(rip, from);
+ continue;
+ }
+
+ /* That is, if the provided information is ignored, a possibly
+ sub-optimal, but absolutely valid, route may be taken. If
+ the received Next Hop is not directly reachable, it should be
+ treated as 0.0.0.0. */
+ if (packet->version == RIPv2
+ && rte->nexthop.s_addr != INADDR_ANY) {
+ uint32_t addrval;
+
+ /* Multicast address check. */
+ addrval = ntohl(rte->nexthop.s_addr);
+ if (IN_CLASSD(addrval)) {
+ zlog_info(
+ "Nexthop %pI4 is multicast address, skip this rte",
+ &rte->nexthop);
+ continue;
+ }
+
+ if (!if_lookup_address((void *)&rte->nexthop, AF_INET,
+ rip->vrf->vrf_id)) {
+ struct route_node *rn;
+ struct rip_info *rinfo;
+
+ rn = route_node_match_ipv4(rip->table,
+ &rte->nexthop);
+
+ if (rn) {
+ rinfo = rn->info;
+
+ if (rinfo->type == ZEBRA_ROUTE_RIP
+ && rinfo->sub_type
+ == RIP_ROUTE_RTE) {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug(
+ "Next hop %pI4 is on RIP network. Set nexthop to the packet's originator",
+ &rte->nexthop);
+ rte->nexthop = rinfo->from;
+ } else {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug(
+ "Next hop %pI4 is not directly reachable. Treat it as 0.0.0.0",
+ &rte->nexthop);
+ rte->nexthop.s_addr =
+ INADDR_ANY;
+ }
+
+ route_unlock_node(rn);
+ } else {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug(
+ "Next hop %pI4 is not directly reachable. Treat it as 0.0.0.0",
+ &rte->nexthop);
+ rte->nexthop.s_addr = INADDR_ANY;
+ }
+ }
+ }
+
+ /* For RIPv1, there won't be a valid netmask.
+ * This is a best guess at the masks. If everyone was using old
+ * Ciscos before the 'ip subnet zero' option, it would be almost
+ * right too :-)
+ *
+ * Cisco summarize ripv1 advertisements to the classful boundary
+ * (/16 for class B's) except when the RIP packet does to inside
+ * the classful network in question.
+ */
+ if ((packet->version == RIPv1
+ && rte->prefix.s_addr != INADDR_ANY)
+ || (packet->version == RIPv2
+ && (rte->prefix.s_addr != INADDR_ANY
+ && rte->mask.s_addr == INADDR_ANY))) {
+ uint32_t destination;
+
+ if (subnetted == -1) {
+ memcpy(&ifaddr, ifc->address, sizeof(ifaddr));
+ memcpy(&ifaddrclass, &ifaddr,
+ sizeof(ifaddrclass));
+ apply_classful_mask_ipv4(&ifaddrclass);
+ subnetted = 0;
+ if (ifaddr.prefixlen > ifaddrclass.prefixlen)
+ subnetted = 1;
+ }
+
+ destination = ntohl(rte->prefix.s_addr);
+
+ if (IN_CLASSA(destination))
+ masklen2ip(8, &rte->mask);
+ else if (IN_CLASSB(destination))
+ masklen2ip(16, &rte->mask);
+ else if (IN_CLASSC(destination))
+ masklen2ip(24, &rte->mask);
+
+ if (subnetted == 1)
+ masklen2ip(ifaddrclass.prefixlen,
+ (struct in_addr *)&destination);
+ if ((subnetted == 1)
+ && ((rte->prefix.s_addr & destination)
+ == ifaddrclass.prefix.s_addr)) {
+ masklen2ip(ifaddr.prefixlen, &rte->mask);
+ if ((rte->prefix.s_addr & rte->mask.s_addr)
+ != rte->prefix.s_addr)
+ masklen2ip(32, &rte->mask);
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("Subnetted route %pI4",
+ &rte->prefix);
+ } else {
+ if ((rte->prefix.s_addr & rte->mask.s_addr)
+ != rte->prefix.s_addr)
+ continue;
+ }
+
+ if (IS_RIP_DEBUG_EVENT) {
+ zlog_debug("Resultant route %pI4",
+ &rte->prefix);
+ zlog_debug("Resultant mask %pI4",
+ &rte->mask);
+ }
+ }
+
+ /* In case of RIPv2, if prefix in RTE is not netmask applied one
+ ignore the entry. */
+ if ((packet->version == RIPv2)
+ && (rte->mask.s_addr != INADDR_ANY)
+ && ((rte->prefix.s_addr & rte->mask.s_addr)
+ != rte->prefix.s_addr)) {
+ zlog_warn(
+ "RIPv2 address %pI4 is not mask /%d applied one",
+ &rte->prefix, ip_masklen(rte->mask));
+ rip_peer_bad_route(rip, from);
+ continue;
+ }
+
+ /* Default route's netmask is ignored. */
+ if (packet->version == RIPv2
+ && (rte->prefix.s_addr == INADDR_ANY)
+ && (rte->mask.s_addr != INADDR_ANY)) {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug(
+ "Default route with non-zero netmask. Set zero to netmask");
+ rte->mask.s_addr = INADDR_ANY;
+ }
+
+ /* Routing table updates. */
+ rip_rte_process(rte, from, ifc->ifp);
+ }
+}
+
+/* Make socket for RIP protocol. */
+int rip_create_socket(struct vrf *vrf)
+{
+ int ret;
+ int sock;
+ struct sockaddr_in addr;
+ const char *vrf_dev = NULL;
+
+ memset(&addr, 0, sizeof(struct sockaddr_in));
+ addr.sin_family = AF_INET;
+ addr.sin_addr.s_addr = INADDR_ANY;
+#ifdef HAVE_STRUCT_SOCKADDR_IN_SIN_LEN
+ addr.sin_len = sizeof(struct sockaddr_in);
+#endif /* HAVE_STRUCT_SOCKADDR_IN_SIN_LEN */
+ /* sending port must always be the RIP port */
+ addr.sin_port = htons(RIP_PORT_DEFAULT);
+
+ /* Make datagram socket. */
+ if (vrf->vrf_id != VRF_DEFAULT)
+ vrf_dev = vrf->name;
+ frr_with_privs(&ripd_privs) {
+ sock = vrf_socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP, vrf->vrf_id,
+ vrf_dev);
+ if (sock < 0) {
+ flog_err_sys(EC_LIB_SOCKET,
+ "Cannot create UDP socket: %s",
+ safe_strerror(errno));
+ return -1;
+ }
+ }
+
+ sockopt_broadcast(sock);
+ sockopt_reuseaddr(sock);
+ sockopt_reuseport(sock);
+ setsockopt_ipv4_multicast_loop(sock, 0);
+#ifdef IPTOS_PREC_INTERNETCONTROL
+ setsockopt_ipv4_tos(sock, IPTOS_PREC_INTERNETCONTROL);
+#endif
+ setsockopt_so_recvbuf(sock, RIP_UDP_RCV_BUF);
+
+ frr_with_privs(&ripd_privs) {
+ if ((ret = bind(sock, (struct sockaddr *)&addr, sizeof(addr)))
+ < 0) {
+ zlog_err("%s: Can't bind socket %d to %pI4 port %d: %s",
+ __func__, sock, &addr.sin_addr,
+ (int)ntohs(addr.sin_port),
+ safe_strerror(errno));
+
+ close(sock);
+ return ret;
+ }
+ }
+
+ return sock;
+}
+
+/* RIP packet send to destination address, on interface denoted by
+ * by connected argument. NULL to argument denotes destination should be
+ * should be RIP multicast group
+ */
+static int rip_send_packet(uint8_t *buf, int size, struct sockaddr_in *to,
+ struct connected *ifc)
+{
+ struct rip_interface *ri;
+ struct rip *rip;
+ int ret;
+ struct sockaddr_in sin;
+ struct msghdr msg;
+ struct iovec iov;
+#ifdef GNU_LINUX
+ struct cmsghdr *cmsgptr;
+ char adata[256] = {};
+ struct in_pktinfo *pkt;
+#endif /* GNU_LINUX */
+
+ assert(ifc != NULL);
+ ri = ifc->ifp->info;
+ rip = ri->rip;
+
+ if (IS_RIP_DEBUG_PACKET) {
+#define ADDRESS_SIZE 20
+ char dst[ADDRESS_SIZE];
+
+ if (to) {
+ inet_ntop(AF_INET, &to->sin_addr, dst, sizeof(dst));
+ } else {
+ sin.sin_addr.s_addr = htonl(INADDR_RIP_GROUP);
+ inet_ntop(AF_INET, &sin.sin_addr, dst, sizeof(dst));
+ }
+#undef ADDRESS_SIZE
+ zlog_debug("%s %pI4 > %s (%s)", __func__,
+ &ifc->address->u.prefix4, dst, ifc->ifp->name);
+ }
+
+ if (CHECK_FLAG(ifc->flags, ZEBRA_IFA_SECONDARY)) {
+ /*
+ * ZEBRA_IFA_SECONDARY is set on linux when an interface is
+ * configured with multiple addresses on the same
+ * subnet: the first address on the subnet is configured
+ * "primary", and all subsequent addresses on that subnet
+ * are treated as "secondary" addresses. In order to avoid
+ * routing-table bloat on other rip listeners, we do not send
+ * out RIP packets with ZEBRA_IFA_SECONDARY source addrs.
+ * XXX Since Linux is the only system for which the
+ * ZEBRA_IFA_SECONDARY flag is set, we would end up
+ * sending a packet for a "secondary" source address on
+ * non-linux systems.
+ */
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug("duplicate dropped");
+ return 0;
+ }
+
+ /* Make destination address. */
+ memset(&sin, 0, sizeof(sin));
+ sin.sin_family = AF_INET;
+#ifdef HAVE_STRUCT_SOCKADDR_IN_SIN_LEN
+ sin.sin_len = sizeof(struct sockaddr_in);
+#endif /* HAVE_STRUCT_SOCKADDR_IN_SIN_LEN */
+
+ /* When destination is specified, use it's port and address. */
+ if (to) {
+ sin.sin_port = to->sin_port;
+ sin.sin_addr = to->sin_addr;
+ } else {
+ sin.sin_port = htons(RIP_PORT_DEFAULT);
+ sin.sin_addr.s_addr = htonl(INADDR_RIP_GROUP);
+
+ rip_interface_multicast_set(rip->sock, ifc);
+ }
+
+ memset(&msg, 0, sizeof(msg));
+ msg.msg_name = (void *)&sin;
+ msg.msg_namelen = sizeof(struct sockaddr_in);
+ msg.msg_iov = &iov;
+ msg.msg_iovlen = 1;
+ iov.iov_base = buf;
+ iov.iov_len = size;
+
+#ifdef GNU_LINUX
+ msg.msg_control = (void *)adata;
+ msg.msg_controllen = CMSG_SPACE(sizeof(struct in_pktinfo));
+
+ cmsgptr = (struct cmsghdr *)adata;
+ cmsgptr->cmsg_len = CMSG_LEN(sizeof(struct in_pktinfo));
+ cmsgptr->cmsg_level = IPPROTO_IP;
+ cmsgptr->cmsg_type = IP_PKTINFO;
+ pkt = (struct in_pktinfo *)CMSG_DATA(cmsgptr);
+ pkt->ipi_ifindex = ifc->ifp->ifindex;
+ pkt->ipi_spec_dst.s_addr = ifc->address->u.prefix4.s_addr;
+#endif /* GNU_LINUX */
+
+ ret = sendmsg(rip->sock, &msg, 0);
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("SEND to %pI4%d", &sin.sin_addr,
+ ntohs(sin.sin_port));
+
+ if (ret < 0)
+ zlog_warn("can't send packet : %s", safe_strerror(errno));
+
+ return ret;
+}
+
+/* Add redistributed route to RIP table. */
+void rip_redistribute_add(struct rip *rip, int type, int sub_type,
+ struct prefix_ipv4 *p, struct nexthop *nh,
+ unsigned int metric, unsigned char distance,
+ route_tag_t tag)
+{
+ int ret;
+ struct route_node *rp = NULL;
+ struct rip_info *rinfo = NULL, newinfo;
+ struct list *list = NULL;
+
+ /* Redistribute route */
+ ret = rip_destination_check(p->prefix);
+ if (!ret)
+ return;
+
+ rp = route_node_get(rip->table, (struct prefix *)p);
+
+ memset(&newinfo, 0, sizeof(newinfo));
+ newinfo.type = type;
+ newinfo.sub_type = sub_type;
+ newinfo.metric = 1;
+ newinfo.external_metric = metric;
+ newinfo.distance = distance;
+ if (tag <= UINT16_MAX) /* RIP only supports 16 bit tags */
+ newinfo.tag = tag;
+ newinfo.rp = rp;
+ newinfo.nh = *nh;
+
+ if ((list = rp->info) != NULL && listcount(list) != 0) {
+ rinfo = listgetdata(listhead(list));
+
+ if (rinfo->type == ZEBRA_ROUTE_CONNECT
+ && rinfo->sub_type == RIP_ROUTE_INTERFACE
+ && rinfo->metric != RIP_METRIC_INFINITY) {
+ route_unlock_node(rp);
+ return;
+ }
+
+ /* Manually configured RIP route check. */
+ if (rinfo->type == ZEBRA_ROUTE_RIP
+ && ((rinfo->sub_type == RIP_ROUTE_STATIC)
+ || (rinfo->sub_type == RIP_ROUTE_DEFAULT))) {
+ if (type != ZEBRA_ROUTE_RIP
+ || ((sub_type != RIP_ROUTE_STATIC)
+ && (sub_type != RIP_ROUTE_DEFAULT))) {
+ route_unlock_node(rp);
+ return;
+ }
+ }
+
+ (void)rip_ecmp_replace(rip, &newinfo);
+ route_unlock_node(rp);
+ } else
+ (void)rip_ecmp_add(rip, &newinfo);
+
+ if (IS_RIP_DEBUG_EVENT) {
+ zlog_debug("Redistribute new prefix %pFX", p);
+ }
+
+ rip_event(rip, RIP_TRIGGERED_UPDATE, 0);
+}
+
+/* Delete redistributed route from RIP table. */
+void rip_redistribute_delete(struct rip *rip, int type, int sub_type,
+ struct prefix_ipv4 *p, ifindex_t ifindex)
+{
+ int ret;
+ struct route_node *rp;
+ struct rip_info *rinfo;
+
+ ret = rip_destination_check(p->prefix);
+ if (!ret)
+ return;
+
+ rp = route_node_lookup(rip->table, (struct prefix *)p);
+ if (rp) {
+ struct list *list = rp->info;
+
+ if (list != NULL && listcount(list) != 0) {
+ rinfo = listgetdata(listhead(list));
+ if (rinfo != NULL && rinfo->type == type
+ && rinfo->sub_type == sub_type
+ && rinfo->nh.ifindex == ifindex) {
+ /* Perform poisoned reverse. */
+ rinfo->metric = RIP_METRIC_INFINITY;
+ RIP_TIMER_ON(rinfo->t_garbage_collect,
+ rip_garbage_collect,
+ rip->garbage_time);
+ THREAD_OFF(rinfo->t_timeout);
+ rinfo->flags |= RIP_RTF_CHANGED;
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug(
+ "Poison %pFX on the interface %s with an infinity metric [delete]",
+ p,
+ ifindex2ifname(
+ ifindex,
+ rip->vrf->vrf_id));
+
+ rip_event(rip, RIP_TRIGGERED_UPDATE, 0);
+ }
+ }
+ route_unlock_node(rp);
+ }
+}
+
+/* Response to request called from rip_read ().*/
+static void rip_request_process(struct rip_packet *packet, int size,
+ struct sockaddr_in *from, struct connected *ifc)
+{
+ struct rip *rip;
+ caddr_t lim;
+ struct rte *rte;
+ struct prefix_ipv4 p;
+ struct route_node *rp;
+ struct rip_info *rinfo;
+ struct rip_interface *ri;
+
+ /* Does not reponse to the requests on the loopback interfaces */
+ if (if_is_loopback(ifc->ifp))
+ return;
+
+ /* Check RIP process is enabled on this interface. */
+ ri = ifc->ifp->info;
+ if (!ri->running)
+ return;
+ rip = ri->rip;
+
+ /* When passive interface is specified, suppress responses */
+ if (ri->passive)
+ return;
+
+ /* RIP peer update. */
+ rip_peer_update(rip, from, packet->version);
+
+ lim = ((caddr_t)packet) + size;
+ rte = packet->rte;
+
+ /* The Request is processed entry by entry. If there are no
+ entries, no response is given. */
+ if (lim == (caddr_t)rte)
+ return;
+
+ /* There is one special case. If there is exactly one entry in the
+ request, and it has an address family identifier of zero and a
+ metric of infinity (i.e., 16), then this is a request to send the
+ entire routing table. */
+ if (lim == ((caddr_t)(rte + 1)) && ntohs(rte->family) == 0
+ && ntohl(rte->metric) == RIP_METRIC_INFINITY) {
+ /* All route with split horizon */
+ rip_output_process(ifc, from, rip_all_route, packet->version);
+ } else {
+ if (ntohs(rte->family) != AF_INET)
+ return;
+
+ /* Examine the list of RTEs in the Request one by one. For each
+ entry, look up the destination in the router's routing
+ database and, if there is a route, put that route's metric in
+ the metric field of the RTE. If there is no explicit route
+ to the specified destination, put infinity in the metric
+ field. Once all the entries have been filled in, change the
+ command from Request to Response and send the datagram back
+ to the requestor. */
+ p.family = AF_INET;
+
+ for (; ((caddr_t)rte) < lim; rte++) {
+ p.prefix = rte->prefix;
+ p.prefixlen = ip_masklen(rte->mask);
+ apply_mask_ipv4(&p);
+
+ rp = route_node_lookup(rip->table, (struct prefix *)&p);
+ if (rp) {
+ rinfo = listgetdata(
+ listhead((struct list *)rp->info));
+ rte->metric = htonl(rinfo->metric);
+ route_unlock_node(rp);
+ } else
+ rte->metric = htonl(RIP_METRIC_INFINITY);
+ }
+ packet->command = RIP_RESPONSE;
+
+ (void)rip_send_packet((uint8_t *)packet, size, from, ifc);
+ }
+ rip->counters.queries++;
+}
+
+/* First entry point of RIP packet. */
+static void rip_read(struct thread *t)
+{
+ struct rip *rip = THREAD_ARG(t);
+ int sock;
+ int ret;
+ int rtenum;
+ union rip_buf rip_buf;
+ struct rip_packet *packet;
+ struct sockaddr_in from;
+ int len;
+ int vrecv;
+ socklen_t fromlen;
+ struct interface *ifp = NULL;
+ struct connected *ifc;
+ struct rip_interface *ri;
+ struct prefix p;
+
+ /* Fetch socket then register myself. */
+ sock = THREAD_FD(t);
+
+ /* Add myself to tne next event */
+ rip_event(rip, RIP_READ, sock);
+
+ /* RIPd manages only IPv4. */
+ memset(&from, 0, sizeof(from));
+ fromlen = sizeof(struct sockaddr_in);
+
+ len = recvfrom(sock, (char *)&rip_buf.buf, sizeof(rip_buf.buf), 0,
+ (struct sockaddr *)&from, &fromlen);
+ if (len < 0) {
+ zlog_info("recvfrom failed (VRF %s): %s", rip->vrf_name,
+ safe_strerror(errno));
+ return;
+ }
+
+ /* Check is this packet comming from myself? */
+ if (if_check_address(rip, from.sin_addr)) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug("ignore packet comes from myself (VRF %s)",
+ rip->vrf_name);
+ return;
+ }
+
+ /* Which interface is this packet comes from. */
+ ifc = if_lookup_address((void *)&from.sin_addr, AF_INET,
+ rip->vrf->vrf_id);
+ if (ifc)
+ ifp = ifc->ifp;
+
+ /* RIP packet received */
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("RECV packet from %pI4 port %d on %s (VRF %s)",
+ &from.sin_addr, ntohs(from.sin_port),
+ ifp ? ifp->name : "unknown", rip->vrf_name);
+
+ /* If this packet come from unknown interface, ignore it. */
+ if (ifp == NULL) {
+ zlog_info(
+ "%s: cannot find interface for packet from %pI4 port %d (VRF %s)",
+ __func__, &from.sin_addr, ntohs(from.sin_port),
+ rip->vrf_name);
+ return;
+ }
+
+ p.family = AF_INET;
+ p.u.prefix4 = from.sin_addr;
+ p.prefixlen = IPV4_MAX_BITLEN;
+
+ ifc = connected_lookup_prefix(ifp, &p);
+
+ if (ifc == NULL) {
+ zlog_info(
+ "%s: cannot find connected address for packet from %pI4 port %d on interface %s (VRF %s)",
+ __func__, &from.sin_addr, ntohs(from.sin_port),
+ ifp->name, rip->vrf_name);
+ return;
+ }
+
+ /* Packet length check. */
+ if (len < RIP_PACKET_MINSIZ) {
+ zlog_warn("packet size %d is smaller than minimum size %d", len,
+ RIP_PACKET_MINSIZ);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+ if (len > RIP_PACKET_MAXSIZ) {
+ zlog_warn("packet size %d is larger than max size %d", len,
+ RIP_PACKET_MAXSIZ);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+
+ /* Packet alignment check. */
+ if ((len - RIP_PACKET_MINSIZ) % 20) {
+ zlog_warn("packet size %d is wrong for RIP packet alignment",
+ len);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+
+ /* Set RTE number. */
+ rtenum = ((len - RIP_PACKET_MINSIZ) / 20);
+
+ /* For easy to handle. */
+ packet = &rip_buf.rip_packet;
+
+ /* RIP version check. */
+ if (packet->version == 0) {
+ zlog_info("version 0 with command %d received.",
+ packet->command);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+
+ /* Dump RIP packet. */
+ if (IS_RIP_DEBUG_RECV)
+ rip_packet_dump(packet, len, "RECV");
+
+ /* RIP version adjust. This code should rethink now. RFC1058 says
+ that "Version 1 implementations are to ignore this extra data and
+ process only the fields specified in this document.". So RIPv3
+ packet should be treated as RIPv1 ignoring must be zero field. */
+ if (packet->version > RIPv2)
+ packet->version = RIPv2;
+
+ /* Is RIP running or is this RIP neighbor ?*/
+ ri = ifp->info;
+ if (!ri->running && !rip_neighbor_lookup(rip, &from)) {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("RIP is not enabled on interface %s.",
+ ifp->name);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+
+ /* RIP Version check. RFC2453, 4.6 and 5.1 */
+ vrecv = ((ri->ri_receive == RI_RIP_UNSPEC) ? rip->version_recv
+ : ri->ri_receive);
+ if (vrecv == RI_RIP_VERSION_NONE
+ || ((packet->version == RIPv1) && !(vrecv & RIPv1))
+ || ((packet->version == RIPv2) && !(vrecv & RIPv2))) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ " packet's v%d doesn't fit to if version spec",
+ packet->version);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+
+ /* RFC2453 5.2 If the router is not configured to authenticate RIP-2
+ messages, then RIP-1 and unauthenticated RIP-2 messages will be
+ accepted; authenticated RIP-2 messages shall be discarded. */
+ if ((ri->auth_type == RIP_NO_AUTH) && rtenum
+ && (packet->version == RIPv2)
+ && (packet->rte->family == htons(RIP_FAMILY_AUTH))) {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug(
+ "packet RIPv%d is dropped because authentication disabled",
+ packet->version);
+ ripd_notif_send_auth_type_failure(ifp->name);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+
+ /* RFC:
+ If the router is configured to authenticate RIP-2 messages, then
+ RIP-1 messages and RIP-2 messages which pass authentication
+ testing shall be accepted; unauthenticated and failed
+ authentication RIP-2 messages shall be discarded. For maximum
+ security, RIP-1 messages should be ignored when authentication is
+ in use (see section 4.1); otherwise, the routing information from
+ authenticated messages will be propagated by RIP-1 routers in an
+ unauthenticated manner.
+ */
+ /* We make an exception for RIPv1 REQUEST packets, to which we'll
+ * always reply regardless of authentication settings, because:
+ *
+ * - if there other authorised routers on-link, the REQUESTor can
+ * passively obtain the routing updates anyway
+ * - if there are no other authorised routers on-link, RIP can
+ * easily be disabled for the link to prevent giving out information
+ * on state of this routers RIP routing table..
+ *
+ * I.e. if RIPv1 has any place anymore these days, it's as a very
+ * simple way to distribute routing information (e.g. to embedded
+ * hosts / appliances) and the ability to give out RIPv1
+ * routing-information freely, while still requiring RIPv2
+ * authentication for any RESPONSEs might be vaguely useful.
+ */
+ if (ri->auth_type != RIP_NO_AUTH && packet->version == RIPv1) {
+ /* Discard RIPv1 messages other than REQUESTs */
+ if (packet->command != RIP_REQUEST) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "RIPv1 dropped because authentication enabled");
+ ripd_notif_send_auth_type_failure(ifp->name);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+ } else if (ri->auth_type != RIP_NO_AUTH) {
+ const char *auth_desc;
+
+ if (rtenum == 0) {
+ /* There definitely is no authentication in the packet.
+ */
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "RIPv2 authentication failed: no auth RTE in packet");
+ ripd_notif_send_auth_type_failure(ifp->name);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+
+ /* First RTE must be an Authentication Family RTE */
+ if (packet->rte->family != htons(RIP_FAMILY_AUTH)) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "RIPv2 dropped because authentication enabled");
+ ripd_notif_send_auth_type_failure(ifp->name);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+
+ /* Check RIPv2 authentication. */
+ switch (ntohs(packet->rte->tag)) {
+ case RIP_AUTH_SIMPLE_PASSWORD:
+ auth_desc = "simple";
+ ret = rip_auth_simple_password(packet->rte, &from, ifp);
+ break;
+
+ case RIP_AUTH_MD5:
+ auth_desc = "MD5";
+ ret = rip_auth_md5(packet, &from, len, ifp);
+ /* Reset RIP packet length to trim MD5 data. */
+ len = ret;
+ break;
+
+ default:
+ ret = 0;
+ auth_desc = "unknown type";
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "RIPv2 Unknown authentication type %d",
+ ntohs(packet->rte->tag));
+ }
+
+ if (ret) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug("RIPv2 %s authentication success",
+ auth_desc);
+ } else {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug("RIPv2 %s authentication failure",
+ auth_desc);
+ ripd_notif_send_auth_failure(ifp->name);
+ rip_peer_bad_packet(rip, &from);
+ return;
+ }
+ }
+
+ /* Process each command. */
+ switch (packet->command) {
+ case RIP_RESPONSE:
+ rip_response_process(packet, len, &from, ifc);
+ break;
+ case RIP_REQUEST:
+ case RIP_POLL:
+ rip_request_process(packet, len, &from, ifc);
+ break;
+ case RIP_TRACEON:
+ case RIP_TRACEOFF:
+ zlog_info(
+ "Obsolete command %s received, please sent it to routed",
+ lookup_msg(rip_msg, packet->command, NULL));
+ rip_peer_bad_packet(rip, &from);
+ break;
+ case RIP_POLL_ENTRY:
+ zlog_info("Obsolete command %s received",
+ lookup_msg(rip_msg, packet->command, NULL));
+ rip_peer_bad_packet(rip, &from);
+ break;
+ default:
+ zlog_info("Unknown RIP command %d received", packet->command);
+ rip_peer_bad_packet(rip, &from);
+ break;
+ }
+}
+
+/* Write routing table entry to the stream and return next index of
+ the routing table entry in the stream. */
+static int rip_write_rte(int num, struct stream *s, struct prefix_ipv4 *p,
+ uint8_t version, struct rip_info *rinfo)
+{
+ struct in_addr mask;
+
+ /* Write routing table entry. */
+ if (version == RIPv1) {
+ stream_putw(s, AF_INET);
+ stream_putw(s, 0);
+ stream_put_ipv4(s, p->prefix.s_addr);
+ stream_put_ipv4(s, 0);
+ stream_put_ipv4(s, 0);
+ stream_putl(s, rinfo->metric_out);
+ } else {
+ masklen2ip(p->prefixlen, &mask);
+
+ stream_putw(s, AF_INET);
+ stream_putw(s, rinfo->tag_out);
+ stream_put_ipv4(s, p->prefix.s_addr);
+ stream_put_ipv4(s, mask.s_addr);
+ stream_put_ipv4(s, rinfo->nexthop_out.s_addr);
+ stream_putl(s, rinfo->metric_out);
+ }
+
+ return ++num;
+}
+
+/* Send update to the ifp or spcified neighbor. */
+void rip_output_process(struct connected *ifc, struct sockaddr_in *to,
+ int route_type, uint8_t version)
+{
+ struct rip *rip;
+ int ret;
+ struct stream *s;
+ struct route_node *rp;
+ struct rip_info *rinfo;
+ struct rip_interface *ri;
+ struct prefix_ipv4 *p;
+ struct prefix_ipv4 classfull;
+ struct prefix_ipv4 ifaddrclass;
+ struct key *key = NULL;
+ /* this might need to made dynamic if RIP ever supported auth methods
+ with larger key string sizes */
+ char auth_str[RIP_AUTH_SIMPLE_SIZE];
+ size_t doff = 0; /* offset of digest offset field */
+ int num = 0;
+ int rtemax;
+ int subnetted = 0;
+ struct list *list = NULL;
+ struct listnode *listnode = NULL;
+
+ /* Logging output event. */
+ if (IS_RIP_DEBUG_EVENT) {
+ if (to)
+ zlog_debug("update routes to neighbor %pI4",
+ &to->sin_addr);
+ else
+ zlog_debug("update routes on interface %s ifindex %d",
+ ifc->ifp->name, ifc->ifp->ifindex);
+ }
+
+ /* Get RIP interface. */
+ ri = ifc->ifp->info;
+ rip = ri->rip;
+
+ /* Set output stream. */
+ s = rip->obuf;
+
+ /* Reset stream and RTE counter. */
+ stream_reset(s);
+ rtemax = RIP_MAX_RTE;
+
+ /* If output interface is in simple password authentication mode, we
+ need space for authentication data. */
+ if (ri->auth_type == RIP_AUTH_SIMPLE_PASSWORD)
+ rtemax -= 1;
+
+ /* If output interface is in MD5 authentication mode, we need space
+ for authentication header and data. */
+ if (ri->auth_type == RIP_AUTH_MD5)
+ rtemax -= 2;
+
+ /* If output interface is in simple password authentication mode
+ and string or keychain is specified we need space for auth. data */
+ if (ri->auth_type != RIP_NO_AUTH) {
+ if (ri->key_chain) {
+ struct keychain *keychain;
+
+ keychain = keychain_lookup(ri->key_chain);
+ if (keychain)
+ key = key_lookup_for_send(keychain);
+ }
+ /* to be passed to auth functions later */
+ rip_auth_prepare_str_send(ri, key, auth_str, sizeof(auth_str));
+ if (strlen(auth_str) == 0)
+ return;
+ }
+
+ if (version == RIPv1) {
+ memcpy(&ifaddrclass, ifc->address, sizeof(ifaddrclass));
+ apply_classful_mask_ipv4(&ifaddrclass);
+ subnetted = 0;
+ if (ifc->address->prefixlen > ifaddrclass.prefixlen)
+ subnetted = 1;
+ }
+
+ for (rp = route_top(rip->table); rp; rp = route_next(rp)) {
+ list = rp->info;
+
+ if (list == NULL)
+ continue;
+
+ if (listcount(list) == 0)
+ continue;
+
+ rinfo = listgetdata(listhead(list));
+ /*
+ * For RIPv1, if we are subnetted, output subnets in our
+ * network that have the same mask as the output "interface".
+ * For other networks, only the classfull version is output.
+ */
+ if (version == RIPv1) {
+ p = (struct prefix_ipv4 *)&rp->p;
+
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "RIPv1 mask check, %pFX considered for output",
+ &rp->p);
+
+ if (subnetted &&
+ prefix_match((struct prefix *)&ifaddrclass,
+ &rp->p)) {
+ if ((ifc->address->prefixlen !=
+ rp->p.prefixlen) &&
+ (rp->p.prefixlen != IPV4_MAX_BITLEN))
+ continue;
+ } else {
+ memcpy(&classfull, &rp->p,
+ sizeof(struct prefix_ipv4));
+ apply_classful_mask_ipv4(&classfull);
+ if (rp->p.u.prefix4.s_addr != INADDR_ANY &&
+ classfull.prefixlen != rp->p.prefixlen)
+ continue;
+ }
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "RIPv1 mask check, %pFX made it through",
+ &rp->p);
+ } else
+ p = (struct prefix_ipv4 *)&rp->p;
+
+ /* Apply output filters. */
+ ret = rip_filter(RIP_FILTER_OUT, p, ri);
+ if (ret < 0)
+ continue;
+
+ /* Changed route only output. */
+ if (route_type == rip_changed_route &&
+ (!(rinfo->flags & RIP_RTF_CHANGED)))
+ continue;
+
+ /* Split horizon. */
+ if (ri->split_horizon == RIP_SPLIT_HORIZON) {
+ /*
+ * We perform split horizon for RIP and connected
+ * route. For rip routes, we want to suppress the
+ * route if we would end up sending the route back on
+ * the interface that we learned it from, with a
+ * higher metric. For connected routes, we suppress
+ * the route if the prefix is a subset of the source
+ * address that we are going to use for the packet
+ * (in order to handle the case when multiple subnets
+ * are configured on the same interface).
+ */
+ int suppress = 0;
+ struct rip_info *tmp_rinfo = NULL;
+ struct connected *tmp_ifc = NULL;
+
+ for (ALL_LIST_ELEMENTS_RO(list, listnode, tmp_rinfo))
+ if (tmp_rinfo->type == ZEBRA_ROUTE_RIP &&
+ tmp_rinfo->nh.ifindex ==
+ ifc->ifp->ifindex) {
+ suppress = 1;
+ break;
+ }
+
+ if (!suppress && rinfo->type == ZEBRA_ROUTE_CONNECT) {
+ for (ALL_LIST_ELEMENTS_RO(ifc->ifp->connected,
+ listnode, tmp_ifc))
+ if (prefix_match((struct prefix *)p,
+ tmp_ifc->address)) {
+ suppress = 1;
+ break;
+ }
+ }
+
+ if (suppress)
+ continue;
+ }
+
+ /* Preparation for route-map. */
+ rinfo->metric_set = 0;
+ rinfo->nexthop_out.s_addr = 0;
+ rinfo->metric_out = rinfo->metric;
+ rinfo->tag_out = rinfo->tag;
+ rinfo->ifindex_out = ifc->ifp->ifindex;
+
+ /* In order to avoid some local loops, if the RIP route has
+ * a nexthop via this interface, keep the nexthop, otherwise
+ * set it to 0. The nexthop should not be propagated beyond
+ * the local broadcast/multicast area in order to avoid an
+ * IGP multi-level recursive look-up. see (4.4)
+ */
+ if (rinfo->nh.ifindex == ifc->ifp->ifindex)
+ rinfo->nexthop_out = rinfo->nh.gate.ipv4;
+
+ /* Interface route-map */
+ if (ri->routemap[RIP_FILTER_OUT]) {
+ ret = route_map_apply(ri->routemap[RIP_FILTER_OUT],
+ (struct prefix *)p, rinfo);
+
+ if (ret == RMAP_DENYMATCH) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "RIP %pFX is filtered by route-map out",
+ p);
+ continue;
+ }
+ }
+
+ /* Apply redistribute route map - continue, if deny */
+ if (rip->redist[rinfo->type].route_map.name &&
+ rinfo->sub_type != RIP_ROUTE_INTERFACE) {
+ ret = route_map_apply(
+ rip->redist[rinfo->type].route_map.map,
+ (struct prefix *)p, rinfo);
+
+ if (ret == RMAP_DENYMATCH) {
+ if (IS_RIP_DEBUG_PACKET)
+ zlog_debug(
+ "%pFX is filtered by route-map",
+ p);
+ continue;
+ }
+ }
+
+ /* When route-map does not set metric. */
+ if (!rinfo->metric_set) {
+ /* If redistribute metric is set. */
+ if (rip->redist[rinfo->type].metric_config &&
+ rinfo->metric != RIP_METRIC_INFINITY) {
+ rinfo->metric_out =
+ rip->redist[rinfo->type].metric;
+ } else {
+ /* If the route is not connected or localy
+ * generated one, use default-metric value
+ */
+ if (rinfo->type != ZEBRA_ROUTE_RIP &&
+ rinfo->type != ZEBRA_ROUTE_CONNECT &&
+ rinfo->metric != RIP_METRIC_INFINITY)
+ rinfo->metric_out = rip->default_metric;
+ }
+ }
+
+ /* Apply offset-list */
+ if (rinfo->metric != RIP_METRIC_INFINITY)
+ rip_offset_list_apply_out(p, ifc->ifp,
+ &rinfo->metric_out);
+
+ if (rinfo->metric_out > RIP_METRIC_INFINITY)
+ rinfo->metric_out = RIP_METRIC_INFINITY;
+
+ /* Perform split-horizon with poisoned reverse
+ * for RIP and connected routes.
+ **/
+ if (ri->split_horizon == RIP_SPLIT_HORIZON_POISONED_REVERSE) {
+ /*
+ * We perform split horizon for RIP and connected
+ * route. For rip routes, we want to suppress the
+ * route if we would end up sending the route back
+ * on the interface that we learned it from, with a
+ * higher metric. For connected routes, we suppress
+ * the route if the prefix is a subset of the source
+ * address that we are going to use for the packet
+ * (in order to handle the case when multiple
+ * subnets are configured on the same interface).
+ */
+ struct rip_info *tmp_rinfo = NULL;
+ struct connected *tmp_ifc = NULL;
+
+ for (ALL_LIST_ELEMENTS_RO(list, listnode, tmp_rinfo))
+ if (tmp_rinfo->type == ZEBRA_ROUTE_RIP &&
+ tmp_rinfo->nh.ifindex == ifc->ifp->ifindex)
+ rinfo->metric_out = RIP_METRIC_INFINITY;
+
+ if (rinfo->metric_out != RIP_METRIC_INFINITY &&
+ rinfo->type == ZEBRA_ROUTE_CONNECT) {
+ for (ALL_LIST_ELEMENTS_RO(ifc->ifp->connected,
+ listnode, tmp_ifc))
+ if (prefix_match((struct prefix *)p,
+ tmp_ifc->address)) {
+ rinfo->metric_out =
+ RIP_METRIC_INFINITY;
+ break;
+ }
+ }
+ }
+
+ /* Prepare preamble, auth headers, if needs be */
+ if (num == 0) {
+ stream_putc(s, RIP_RESPONSE);
+ stream_putc(s, version);
+ stream_putw(s, 0);
+
+ /* auth header for !v1 && !no_auth */
+ if ((ri->auth_type != RIP_NO_AUTH) &&
+ (version != RIPv1))
+ doff = rip_auth_header_write(
+ s, ri, key, auth_str,
+ RIP_AUTH_SIMPLE_SIZE);
+ }
+
+ /* Write RTE to the stream. */
+ num = rip_write_rte(num, s, p, version, rinfo);
+ if (num == rtemax) {
+ if (version == RIPv2 && ri->auth_type == RIP_AUTH_MD5)
+ rip_auth_md5_set(s, ri, doff, auth_str,
+ RIP_AUTH_SIMPLE_SIZE);
+
+ ret = rip_send_packet(STREAM_DATA(s),
+ stream_get_endp(s), to, ifc);
+
+ if (ret >= 0 && IS_RIP_DEBUG_SEND)
+ rip_packet_dump(
+ (struct rip_packet *)STREAM_DATA(s),
+ stream_get_endp(s), "SEND");
+ num = 0;
+ stream_reset(s);
+ }
+ }
+
+ /* Flush unwritten RTE. */
+ if (num != 0) {
+ if (version == RIPv2 && ri->auth_type == RIP_AUTH_MD5)
+ rip_auth_md5_set(s, ri, doff, auth_str,
+ RIP_AUTH_SIMPLE_SIZE);
+
+ ret = rip_send_packet(STREAM_DATA(s), stream_get_endp(s), to,
+ ifc);
+
+ if (ret >= 0 && IS_RIP_DEBUG_SEND)
+ rip_packet_dump((struct rip_packet *)STREAM_DATA(s),
+ stream_get_endp(s), "SEND");
+ stream_reset(s);
+ }
+
+ /* Statistics updates. */
+ ri->sent_updates++;
+}
+
+/* Send RIP packet to the interface. */
+static void rip_update_interface(struct connected *ifc, uint8_t version,
+ int route_type)
+{
+ struct interface *ifp = ifc->ifp;
+ struct rip_interface *ri = ifp->info;
+ struct sockaddr_in to;
+
+ /* When RIP version is 2 and multicast enable interface. */
+ if (version == RIPv2 && !ri->v2_broadcast && if_is_multicast(ifp)) {
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("multicast announce on %s ", ifp->name);
+
+ rip_output_process(ifc, NULL, route_type, version);
+ return;
+ }
+
+ /* If we can't send multicast packet, send it with unicast. */
+ if (if_is_broadcast(ifp) || if_is_pointopoint(ifp)) {
+ if (ifc->address->family == AF_INET) {
+ /* Destination address and port setting. */
+ memset(&to, 0, sizeof(to));
+ if (ifc->destination)
+ /* use specified broadcast or peer destination
+ * addr */
+ to.sin_addr = ifc->destination->u.prefix4;
+ else if (ifc->address->prefixlen < IPV4_MAX_BITLEN)
+ /* calculate the appropriate broadcast address
+ */
+ to.sin_addr.s_addr = ipv4_broadcast_addr(
+ ifc->address->u.prefix4.s_addr,
+ ifc->address->prefixlen);
+ else
+ /* do not know where to send the packet */
+ return;
+ to.sin_port = htons(RIP_PORT_DEFAULT);
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("%s announce to %pI4 on %s",
+ CONNECTED_PEER(ifc) ? "unicast"
+ : "broadcast",
+ &to.sin_addr, ifp->name);
+
+ rip_output_process(ifc, &to, route_type, version);
+ }
+ }
+}
+
+/* Update send to all interface and neighbor. */
+static void rip_update_process(struct rip *rip, int route_type)
+{
+ struct listnode *ifnode, *ifnnode;
+ struct connected *connected;
+ struct interface *ifp;
+ struct rip_interface *ri;
+ struct route_node *rp;
+ struct sockaddr_in to;
+ struct prefix *p;
+
+ /* Send RIP update to each interface. */
+ FOR_ALL_INTERFACES (rip->vrf, ifp) {
+ if (if_is_loopback(ifp))
+ continue;
+
+ if (!if_is_operative(ifp))
+ continue;
+
+ /* Fetch RIP interface information. */
+ ri = ifp->info;
+
+ /* When passive interface is specified, suppress announce to the
+ interface. */
+ if (ri->passive)
+ continue;
+
+ if (!ri->running)
+ continue;
+
+ /*
+ * 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 (IS_RIP_DEBUG_EVENT)
+ zlog_debug("SEND UPDATE to %s ifindex %d", ifp->name,
+ ifp->ifindex);
+
+ /* send update on each connected network */
+ for (ALL_LIST_ELEMENTS(ifp->connected, ifnode, ifnnode,
+ connected)) {
+ if (connected->address->family == AF_INET) {
+ if (vsend & RIPv1)
+ rip_update_interface(connected, RIPv1,
+ route_type);
+ if ((vsend & RIPv2) && if_is_multicast(ifp))
+ rip_update_interface(connected, RIPv2,
+ route_type);
+ }
+ }
+ }
+
+ /* RIP send updates to each neighbor. */
+ for (rp = route_top(rip->neighbor); rp; rp = route_next(rp)) {
+ if (rp->info == NULL)
+ continue;
+
+ p = &rp->p;
+
+ connected = if_lookup_address(&p->u.prefix4, AF_INET,
+ rip->vrf->vrf_id);
+ if (!connected) {
+ zlog_warn(
+ "Neighbor %pI4 doesn't have connected interface!",
+ &p->u.prefix4);
+ continue;
+ }
+
+ /* Set destination address and port */
+ memset(&to, 0, sizeof(struct sockaddr_in));
+ to.sin_addr = p->u.prefix4;
+ to.sin_port = htons(RIP_PORT_DEFAULT);
+
+ /* RIP version is rip's configuration. */
+ rip_output_process(connected, &to, route_type,
+ rip->version_send);
+ }
+}
+
+/* RIP's periodical timer. */
+static void rip_update(struct thread *t)
+{
+ struct rip *rip = THREAD_ARG(t);
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("update timer fire!");
+
+ /* Process update output. */
+ rip_update_process(rip, rip_all_route);
+
+ /* Triggered updates may be suppressed if a regular update is due by
+ the time the triggered update would be sent. */
+ THREAD_OFF(rip->t_triggered_interval);
+ rip->trigger = 0;
+
+ /* Register myself. */
+ rip_event(rip, RIP_UPDATE_EVENT, 0);
+}
+
+/* Walk down the RIP routing table then clear changed flag. */
+static void rip_clear_changed_flag(struct rip *rip)
+{
+ struct route_node *rp;
+ struct rip_info *rinfo = NULL;
+ struct list *list = NULL;
+ struct listnode *listnode = NULL;
+
+ for (rp = route_top(rip->table); rp; rp = route_next(rp)) {
+ list = rp->info;
+
+ if (list == NULL)
+ continue;
+
+ for (ALL_LIST_ELEMENTS_RO(list, listnode, rinfo)) {
+ UNSET_FLAG(rinfo->flags, RIP_RTF_CHANGED);
+ /* This flag can be set only on the first entry. */
+ break;
+ }
+ }
+}
+
+/* Triggered update interval timer. */
+static void rip_triggered_interval(struct thread *t)
+{
+ struct rip *rip = THREAD_ARG(t);
+
+ if (rip->trigger) {
+ rip->trigger = 0;
+ rip_triggered_update(t);
+ }
+}
+
+/* Execute triggered update. */
+static void rip_triggered_update(struct thread *t)
+{
+ struct rip *rip = THREAD_ARG(t);
+ int interval;
+
+ /* Cancel interval timer. */
+ THREAD_OFF(rip->t_triggered_interval);
+ rip->trigger = 0;
+
+ /* Logging triggered update. */
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("triggered update!");
+
+ /* Split Horizon processing is done when generating triggered
+ updates as well as normal updates (see section 2.6). */
+ rip_update_process(rip, rip_changed_route);
+
+ /* Once all of the triggered updates have been generated, the route
+ change flags should be cleared. */
+ rip_clear_changed_flag(rip);
+
+ /* After a triggered update is sent, a timer should be set for a
+ random interval between 1 and 5 seconds. If other changes that
+ would trigger updates occur before the timer expires, a single
+ update is triggered when the timer expires. */
+ interval = (frr_weak_random() % 5) + 1;
+
+ thread_add_timer(master, rip_triggered_interval, rip, interval,
+ &rip->t_triggered_interval);
+}
+
+/* Withdraw redistributed route. */
+void rip_redistribute_withdraw(struct rip *rip, int type)
+{
+ struct route_node *rp;
+ struct rip_info *rinfo = NULL;
+ struct list *list = NULL;
+
+ for (rp = route_top(rip->table); rp; rp = route_next(rp)) {
+ list = rp->info;
+
+ if (list == NULL)
+ continue;
+
+ rinfo = listgetdata(listhead(list));
+
+ if (rinfo->type != type)
+ continue;
+
+ if (rinfo->sub_type == RIP_ROUTE_INTERFACE)
+ continue;
+
+ /* Perform poisoned reverse. */
+ rinfo->metric = RIP_METRIC_INFINITY;
+ RIP_TIMER_ON(rinfo->t_garbage_collect, rip_garbage_collect,
+ rip->garbage_time);
+ THREAD_OFF(rinfo->t_timeout);
+ rinfo->flags |= RIP_RTF_CHANGED;
+
+ if (IS_RIP_DEBUG_EVENT) {
+ struct prefix_ipv4 *p = (struct prefix_ipv4 *)&rp->p;
+
+ zlog_debug(
+ "Poisone %pFX on the interface %s with an infinity metric [withdraw]",
+ p,
+ ifindex2ifname(rinfo->nh.ifindex,
+ rip->vrf->vrf_id));
+ }
+
+ rip_event(rip, RIP_TRIGGERED_UPDATE, 0);
+ }
+}
+
+struct rip *rip_lookup_by_vrf_id(vrf_id_t vrf_id)
+{
+ struct vrf *vrf;
+
+ vrf = vrf_lookup_by_id(vrf_id);
+ if (!vrf)
+ return NULL;
+
+ return vrf->info;
+}
+
+struct rip *rip_lookup_by_vrf_name(const char *vrf_name)
+{
+ struct rip rip;
+
+ rip.vrf_name = (char *)vrf_name;
+
+ return RB_FIND(rip_instance_head, &rip_instances, &rip);
+}
+
+/* Create new RIP instance and set it to global variable. */
+struct rip *rip_create(const char *vrf_name, struct vrf *vrf, int socket)
+{
+ struct rip *rip;
+
+ rip = XCALLOC(MTYPE_RIP, sizeof(struct rip));
+ rip->vrf_name = XSTRDUP(MTYPE_RIP_VRF_NAME, vrf_name);
+
+ /* Set initial value. */
+ rip->ecmp = yang_get_default_bool("%s/allow-ecmp", RIP_INSTANCE);
+ rip->default_metric =
+ yang_get_default_uint8("%s/default-metric", RIP_INSTANCE);
+ rip->distance =
+ yang_get_default_uint8("%s/distance/default", RIP_INSTANCE);
+ rip->passive_default =
+ yang_get_default_bool("%s/passive-default", RIP_INSTANCE);
+ rip->garbage_time = yang_get_default_uint32("%s/timers/flush-interval",
+ RIP_INSTANCE);
+ rip->timeout_time = yang_get_default_uint32(
+ "%s/timers/holddown-interval", RIP_INSTANCE);
+ rip->update_time = yang_get_default_uint32("%s/timers/update-interval",
+ RIP_INSTANCE);
+ rip->version_send =
+ yang_get_default_enum("%s/version/send", RIP_INSTANCE);
+ rip->version_recv =
+ yang_get_default_enum("%s/version/receive", RIP_INSTANCE);
+
+ /* Initialize RIP data structures. */
+ rip->table = route_table_init();
+ route_table_set_info(rip->table, rip);
+ rip->neighbor = route_table_init();
+ rip->peer_list = list_new();
+ rip->peer_list->cmp = (int (*)(void *, void *))rip_peer_list_cmp;
+ rip->peer_list->del = rip_peer_list_del;
+ rip->distance_table = route_table_init();
+ rip->distance_table->cleanup = rip_distance_table_node_cleanup;
+ rip->enable_interface = vector_init(1);
+ rip->enable_network = route_table_init();
+ rip->passive_nondefault = vector_init(1);
+ rip->offset_list_master = list_new();
+ rip->offset_list_master->cmp = (int (*)(void *, void *))offset_list_cmp;
+ rip->offset_list_master->del = (void (*)(void *))offset_list_free;
+
+ /* Distribute list install. */
+ rip->distribute_ctx = distribute_list_ctx_create(vrf);
+ distribute_list_add_hook(rip->distribute_ctx, rip_distribute_update);
+ distribute_list_delete_hook(rip->distribute_ctx, rip_distribute_update);
+
+ /* if rmap install. */
+ rip->if_rmap_ctx = if_rmap_ctx_create(vrf_name);
+ if_rmap_hook_add(rip->if_rmap_ctx, rip_if_rmap_update);
+ if_rmap_hook_delete(rip->if_rmap_ctx, rip_if_rmap_update);
+
+ /* Make output stream. */
+ rip->obuf = stream_new(1500);
+
+ /* Enable the routing instance if possible. */
+ if (vrf && vrf_is_enabled(vrf))
+ rip_instance_enable(rip, vrf, socket);
+ else {
+ rip->vrf = NULL;
+ rip->sock = -1;
+ }
+
+ RB_INSERT(rip_instance_head, &rip_instances, rip);
+
+ return rip;
+}
+
+/* Sned RIP request to the destination. */
+int rip_request_send(struct sockaddr_in *to, struct interface *ifp,
+ uint8_t version, struct connected *connected)
+{
+ struct rte *rte;
+ struct rip_packet rip_packet;
+ struct listnode *node, *nnode;
+
+ memset(&rip_packet, 0, sizeof(rip_packet));
+
+ rip_packet.command = RIP_REQUEST;
+ rip_packet.version = version;
+ rte = rip_packet.rte;
+ rte->metric = htonl(RIP_METRIC_INFINITY);
+
+ if (connected) {
+ /*
+ * connected is only sent for ripv1 case, or when
+ * interface does not support multicast. Caller loops
+ * over each connected address for this case.
+ */
+ if (rip_send_packet((uint8_t *)&rip_packet, sizeof(rip_packet),
+ to, connected)
+ != sizeof(rip_packet))
+ return -1;
+ else
+ return sizeof(rip_packet);
+ }
+
+ /* send request on each connected network */
+ for (ALL_LIST_ELEMENTS(ifp->connected, node, nnode, connected)) {
+ struct prefix_ipv4 *p;
+
+ p = (struct prefix_ipv4 *)connected->address;
+
+ if (p->family != AF_INET)
+ continue;
+
+ if (rip_send_packet((uint8_t *)&rip_packet, sizeof(rip_packet),
+ to, connected)
+ != sizeof(rip_packet))
+ return -1;
+ }
+ return sizeof(rip_packet);
+}
+
+static int rip_update_jitter(unsigned long time)
+{
+#define JITTER_BOUND 4
+ /* We want to get the jitter to +/- 1/JITTER_BOUND the interval.
+ Given that, we cannot let time be less than JITTER_BOUND seconds.
+ The RIPv2 RFC says jitter should be small compared to
+ update_time. We consider 1/JITTER_BOUND to be small.
+ */
+
+ int jitter_input = time;
+ int jitter;
+
+ if (jitter_input < JITTER_BOUND)
+ jitter_input = JITTER_BOUND;
+
+ jitter = (((frr_weak_random() % ((jitter_input * 2) + 1))
+ - jitter_input));
+
+ return jitter / JITTER_BOUND;
+}
+
+void rip_event(struct rip *rip, enum rip_event event, int sock)
+{
+ int jitter = 0;
+
+ switch (event) {
+ case RIP_READ:
+ thread_add_read(master, rip_read, rip, sock, &rip->t_read);
+ break;
+ case RIP_UPDATE_EVENT:
+ THREAD_OFF(rip->t_update);
+ jitter = rip_update_jitter(rip->update_time);
+ thread_add_timer(master, rip_update, rip,
+ sock ? 2 : rip->update_time + jitter,
+ &rip->t_update);
+ break;
+ case RIP_TRIGGERED_UPDATE:
+ if (rip->t_triggered_interval)
+ rip->trigger = 1;
+ else
+ thread_add_event(master, rip_triggered_update, rip, 0,
+ &rip->t_triggered_update);
+ break;
+ default:
+ break;
+ }
+}
+
+struct rip_distance *rip_distance_new(void)
+{
+ return XCALLOC(MTYPE_RIP_DISTANCE, sizeof(struct rip_distance));
+}
+
+void rip_distance_free(struct rip_distance *rdistance)
+{
+ if (rdistance->access_list)
+ free(rdistance->access_list);
+ XFREE(MTYPE_RIP_DISTANCE, rdistance);
+}
+
+static void rip_distance_table_node_cleanup(struct route_table *table,
+ struct route_node *node)
+{
+ struct rip_distance *rdistance;
+
+ rdistance = node->info;
+ if (rdistance)
+ rip_distance_free(rdistance);
+}
+
+/* Apply RIP information to distance method. */
+uint8_t rip_distance_apply(struct rip *rip, struct rip_info *rinfo)
+{
+ struct route_node *rn;
+ struct prefix_ipv4 p;
+ struct rip_distance *rdistance;
+ struct access_list *alist;
+
+ memset(&p, 0, sizeof(p));
+ p.family = AF_INET;
+ p.prefix = rinfo->from;
+ p.prefixlen = IPV4_MAX_BITLEN;
+
+ /* Check source address. */
+ rn = route_node_match(rip->distance_table, (struct prefix *)&p);
+ if (rn) {
+ rdistance = rn->info;
+ route_unlock_node(rn);
+
+ if (rdistance->access_list) {
+ alist = access_list_lookup(AFI_IP,
+ rdistance->access_list);
+ if (alist == NULL)
+ return 0;
+ if (access_list_apply(alist, &rinfo->rp->p)
+ == FILTER_DENY)
+ return 0;
+
+ return rdistance->distance;
+ } else
+ return rdistance->distance;
+ }
+
+ if (rip->distance)
+ return rip->distance;
+
+ return 0;
+}
+
+static void rip_distance_show(struct vty *vty, struct rip *rip)
+{
+ struct route_node *rn;
+ struct rip_distance *rdistance;
+ int header = 1;
+ char buf[BUFSIZ];
+
+ vty_out(vty, " Distance: (default is %u)\n",
+ rip->distance ? rip->distance : ZEBRA_RIP_DISTANCE_DEFAULT);
+
+ for (rn = route_top(rip->distance_table); rn; rn = route_next(rn)) {
+ rdistance = rn->info;
+
+ if (rdistance == NULL)
+ continue;
+
+ if (header) {
+ vty_out(vty, " Address Distance List\n");
+ header = 0;
+ }
+ snprintfrr(buf, sizeof(buf), "%pFX", &rn->p);
+ vty_out(vty, " %-20s %4d %s\n", buf, rdistance->distance,
+ rdistance->access_list ? rdistance->access_list : "");
+ }
+}
+
+/* Update ECMP routes to zebra when ECMP is disabled. */
+void rip_ecmp_disable(struct rip *rip)
+{
+ struct route_node *rp;
+ struct rip_info *rinfo, *tmp_rinfo;
+ struct list *list;
+ struct listnode *node, *nextnode;
+
+ for (rp = route_top(rip->table); rp; rp = route_next(rp)) {
+ list = rp->info;
+
+ if (!list)
+ continue;
+ if (listcount(list) == 0)
+ continue;
+
+ rinfo = listgetdata(listhead(list));
+ if (!rip_route_rte(rinfo))
+ continue;
+
+ /* Drop all other entries, except the first one. */
+ for (ALL_LIST_ELEMENTS(list, node, nextnode, tmp_rinfo)) {
+ if (tmp_rinfo == rinfo)
+ continue;
+
+ THREAD_OFF(tmp_rinfo->t_timeout);
+ THREAD_OFF(tmp_rinfo->t_garbage_collect);
+ list_delete_node(list, node);
+ rip_info_free(tmp_rinfo);
+ }
+
+ /* Update zebra. */
+ rip_zebra_ipv4_add(rip, rp);
+
+ /* Set the route change flag. */
+ SET_FLAG(rinfo->flags, RIP_RTF_CHANGED);
+
+ /* Signal the output process to trigger an update. */
+ rip_event(rip, RIP_TRIGGERED_UPDATE, 0);
+ }
+}
+
+/* Print out routes update time. */
+static void rip_vty_out_uptime(struct vty *vty, struct rip_info *rinfo)
+{
+ time_t clock;
+ struct tm tm;
+#define TIME_BUF 25
+ char timebuf[TIME_BUF];
+ struct thread *thread;
+
+ if ((thread = rinfo->t_timeout) != NULL) {
+ clock = thread_timer_remain_second(thread);
+ gmtime_r(&clock, &tm);
+ strftime(timebuf, TIME_BUF, "%M:%S", &tm);
+ vty_out(vty, "%5s", timebuf);
+ } else if ((thread = rinfo->t_garbage_collect) != NULL) {
+ clock = thread_timer_remain_second(thread);
+ gmtime_r(&clock, &tm);
+ strftime(timebuf, TIME_BUF, "%M:%S", &tm);
+ vty_out(vty, "%5s", timebuf);
+ }
+}
+
+static const char *rip_route_type_print(int sub_type)
+{
+ switch (sub_type) {
+ case RIP_ROUTE_RTE:
+ return "n";
+ case RIP_ROUTE_STATIC:
+ return "s";
+ case RIP_ROUTE_DEFAULT:
+ return "d";
+ case RIP_ROUTE_REDISTRIBUTE:
+ return "r";
+ case RIP_ROUTE_INTERFACE:
+ return "i";
+ default:
+ return "?";
+ }
+}
+
+DEFUN (show_ip_rip,
+ show_ip_rip_cmd,
+ "show ip rip [vrf NAME]",
+ SHOW_STR
+ IP_STR
+ "Show RIP routes\n"
+ VRF_CMD_HELP_STR)
+{
+ struct rip *rip;
+ struct route_node *np;
+ struct rip_info *rinfo = NULL;
+ struct list *list = NULL;
+ struct listnode *listnode = NULL;
+ const char *vrf_name;
+ int idx = 0;
+
+ if (argv_find(argv, argc, "vrf", &idx))
+ vrf_name = argv[idx + 1]->arg;
+ else
+ vrf_name = VRF_DEFAULT_NAME;
+
+ rip = rip_lookup_by_vrf_name(vrf_name);
+ if (!rip) {
+ vty_out(vty, "%% RIP instance not found\n");
+ return CMD_SUCCESS;
+ }
+ if (!rip->enabled) {
+ vty_out(vty, "%% RIP instance is disabled\n");
+ return CMD_SUCCESS;
+ }
+
+ vty_out(vty,
+ "Codes: R - RIP, C - connected, S - Static, O - OSPF, B - BGP\n"
+ "Sub-codes:\n"
+ " (n) - normal, (s) - static, (d) - default, (r) - redistribute,\n"
+ " (i) - interface\n\n"
+ " Network Next Hop Metric From Tag Time\n");
+
+ for (np = route_top(rip->table); np; np = route_next(np)) {
+ list = np->info;
+
+ if (!list)
+ continue;
+
+ for (ALL_LIST_ELEMENTS_RO(list, listnode, rinfo)) {
+ int len;
+
+ len = vty_out(vty, "%c(%s) %pFX",
+ /* np->lock, For debugging. */
+ zebra_route_char(rinfo->type),
+ rip_route_type_print(rinfo->sub_type),
+ &np->p);
+
+ len = 24 - len;
+
+ if (len > 0)
+ vty_out(vty, "%*s", len, " ");
+
+ switch (rinfo->nh.type) {
+ case NEXTHOP_TYPE_IPV4:
+ case NEXTHOP_TYPE_IPV4_IFINDEX:
+ vty_out(vty, "%-20pI4 %2d ",
+ &rinfo->nh.gate.ipv4, rinfo->metric);
+ break;
+ case NEXTHOP_TYPE_IFINDEX:
+ vty_out(vty, "0.0.0.0 %2d ",
+ rinfo->metric);
+ break;
+ case NEXTHOP_TYPE_BLACKHOLE:
+ vty_out(vty, "blackhole %2d ",
+ rinfo->metric);
+ break;
+ case NEXTHOP_TYPE_IPV6:
+ case NEXTHOP_TYPE_IPV6_IFINDEX:
+ vty_out(vty, "V6 Address Hidden %2d ",
+ rinfo->metric);
+ break;
+ }
+
+ /* Route which exist in kernel routing table. */
+ if ((rinfo->type == ZEBRA_ROUTE_RIP) &&
+ (rinfo->sub_type == RIP_ROUTE_RTE)) {
+ vty_out(vty, "%-15pI4 ", &rinfo->from);
+ vty_out(vty, "%3" ROUTE_TAG_PRI " ",
+ (route_tag_t)rinfo->tag);
+ rip_vty_out_uptime(vty, rinfo);
+ } else if (rinfo->metric == RIP_METRIC_INFINITY) {
+ vty_out(vty, "self ");
+ vty_out(vty, "%3" ROUTE_TAG_PRI " ",
+ (route_tag_t)rinfo->tag);
+ rip_vty_out_uptime(vty, rinfo);
+ } else {
+ if (rinfo->external_metric) {
+ len = vty_out(
+ vty, "self (%s:%d)",
+ zebra_route_string(rinfo->type),
+ rinfo->external_metric);
+ len = 16 - len;
+ if (len > 0)
+ vty_out(vty, "%*s", len, " ");
+ } else
+ vty_out(vty, "self ");
+ vty_out(vty, "%3" ROUTE_TAG_PRI,
+ (route_tag_t)rinfo->tag);
+ }
+
+ vty_out(vty, "\n");
+ }
+ }
+ return CMD_SUCCESS;
+}
+
+/* Vincent: formerly, it was show_ip_protocols_rip: "show ip protocols" */
+DEFUN (show_ip_rip_status,
+ show_ip_rip_status_cmd,
+ "show ip rip [vrf NAME] status",
+ SHOW_STR
+ IP_STR
+ "Show RIP routes\n"
+ VRF_CMD_HELP_STR
+ "IP routing protocol process parameters and statistics\n")
+{
+ struct rip *rip;
+ struct interface *ifp;
+ struct rip_interface *ri;
+ extern const struct message ri_version_msg[];
+ const char *send_version;
+ const char *receive_version;
+ const char *vrf_name;
+ int idx = 0;
+
+ if (argv_find(argv, argc, "vrf", &idx))
+ vrf_name = argv[idx + 1]->arg;
+ else
+ vrf_name = VRF_DEFAULT_NAME;
+
+ rip = rip_lookup_by_vrf_name(vrf_name);
+ if (!rip) {
+ vty_out(vty, "%% RIP instance not found\n");
+ return CMD_SUCCESS;
+ }
+ if (!rip->enabled) {
+ vty_out(vty, "%% RIP instance is disabled\n");
+ return CMD_SUCCESS;
+ }
+
+ vty_out(vty, "Routing Protocol is \"rip\"\n");
+ vty_out(vty, " Sending updates every %u seconds with +/-50%%,",
+ rip->update_time);
+ vty_out(vty, " next due in %lu seconds\n",
+ thread_timer_remain_second(rip->t_update));
+ vty_out(vty, " Timeout after %u seconds,", rip->timeout_time);
+ vty_out(vty, " garbage collect after %u seconds\n", rip->garbage_time);
+
+ /* Filtering status show. */
+ config_show_distribute(vty, rip->distribute_ctx);
+
+ /* Default metric information. */
+ vty_out(vty, " Default redistribution metric is %u\n",
+ rip->default_metric);
+
+ /* Redistribute information. */
+ vty_out(vty, " Redistributing:");
+ rip_show_redistribute_config(vty, rip);
+ vty_out(vty, "\n");
+
+ vty_out(vty, " Default version control: send version %s,",
+ lookup_msg(ri_version_msg, rip->version_send, NULL));
+ if (rip->version_recv == RI_RIP_VERSION_1_AND_2)
+ vty_out(vty, " receive any version \n");
+ else
+ vty_out(vty, " receive version %s \n",
+ lookup_msg(ri_version_msg, rip->version_recv, NULL));
+
+ vty_out(vty, " Interface Send Recv Key-chain\n");
+
+ FOR_ALL_INTERFACES (rip->vrf, ifp) {
+ ri = ifp->info;
+
+ if (!ri->running)
+ continue;
+
+ if (ri->enable_network || ri->enable_interface) {
+ if (ri->ri_send == RI_RIP_UNSPEC)
+ send_version =
+ lookup_msg(ri_version_msg,
+ rip->version_send, NULL);
+ else
+ send_version = lookup_msg(ri_version_msg,
+ ri->ri_send, NULL);
+
+ if (ri->ri_receive == RI_RIP_UNSPEC)
+ receive_version =
+ lookup_msg(ri_version_msg,
+ rip->version_recv, NULL);
+ else
+ receive_version = lookup_msg(
+ ri_version_msg, ri->ri_receive, NULL);
+
+ vty_out(vty, " %-17s%-3s %-3s %s\n", ifp->name,
+ send_version, receive_version,
+ ri->key_chain ? ri->key_chain : "");
+ }
+ }
+
+ vty_out(vty, " Routing for Networks:\n");
+ rip_show_network_config(vty, rip);
+
+ int found_passive = 0;
+ FOR_ALL_INTERFACES (rip->vrf, ifp) {
+ ri = ifp->info;
+
+ if ((ri->enable_network || ri->enable_interface) &&
+ ri->passive) {
+ if (!found_passive) {
+ vty_out(vty, " Passive Interface(s):\n");
+ found_passive = 1;
+ }
+ vty_out(vty, " %s\n", ifp->name);
+ }
+ }
+
+ vty_out(vty, " Routing Information Sources:\n");
+ vty_out(vty,
+ " Gateway BadPackets BadRoutes Distance Last Update\n");
+ rip_peer_display(vty, rip);
+
+ rip_distance_show(vty, rip);
+
+ return CMD_SUCCESS;
+}
+
+/* RIP configuration write function. */
+static int config_write_rip(struct vty *vty)
+{
+ struct rip *rip;
+ int write = 0;
+
+ RB_FOREACH(rip, rip_instance_head, &rip_instances) {
+ char xpath[XPATH_MAXLEN];
+ struct lyd_node *dnode;
+
+ snprintf(xpath, sizeof(xpath),
+ "/frr-ripd:ripd/instance[vrf='%s']", rip->vrf_name);
+
+ dnode = yang_dnode_get(running_config->dnode, xpath);
+ assert(dnode);
+
+ nb_cli_show_dnode_cmds(vty, dnode, false);
+
+ /* Distribute configuration. */
+ config_write_distribute(vty, rip->distribute_ctx);
+
+ /* Interface routemap configuration */
+ config_write_if_rmap(vty, rip->if_rmap_ctx);
+
+ vty_out(vty, "exit\n");
+
+ write = 1;
+ }
+
+ return write;
+}
+
+static int config_write_rip(struct vty *vty);
+/* RIP node structure. */
+static struct cmd_node rip_node = {
+ .name = "rip",
+ .node = RIP_NODE,
+ .parent_node = CONFIG_NODE,
+ .prompt = "%s(config-router)# ",
+ .config_write = config_write_rip,
+};
+
+/* Distribute-list update functions. */
+static void rip_distribute_update(struct distribute_ctx *ctx,
+ struct distribute *dist)
+{
+ struct interface *ifp;
+ struct rip_interface *ri;
+ struct access_list *alist;
+ struct prefix_list *plist;
+
+ if (!ctx->vrf || !dist->ifname)
+ return;
+
+ ifp = if_lookup_by_name(dist->ifname, ctx->vrf->vrf_id);
+ if (ifp == NULL)
+ return;
+
+ ri = ifp->info;
+
+ if (dist->list[DISTRIBUTE_V4_IN]) {
+ alist = access_list_lookup(AFI_IP,
+ dist->list[DISTRIBUTE_V4_IN]);
+ if (alist)
+ ri->list[RIP_FILTER_IN] = alist;
+ else
+ ri->list[RIP_FILTER_IN] = NULL;
+ } else
+ ri->list[RIP_FILTER_IN] = NULL;
+
+ if (dist->list[DISTRIBUTE_V4_OUT]) {
+ alist = access_list_lookup(AFI_IP,
+ dist->list[DISTRIBUTE_V4_OUT]);
+ if (alist)
+ ri->list[RIP_FILTER_OUT] = alist;
+ else
+ ri->list[RIP_FILTER_OUT] = NULL;
+ } else
+ ri->list[RIP_FILTER_OUT] = NULL;
+
+ if (dist->prefix[DISTRIBUTE_V4_IN]) {
+ plist = prefix_list_lookup(AFI_IP,
+ dist->prefix[DISTRIBUTE_V4_IN]);
+ if (plist)
+ ri->prefix[RIP_FILTER_IN] = plist;
+ else
+ ri->prefix[RIP_FILTER_IN] = NULL;
+ } else
+ ri->prefix[RIP_FILTER_IN] = NULL;
+
+ if (dist->prefix[DISTRIBUTE_V4_OUT]) {
+ plist = prefix_list_lookup(AFI_IP,
+ dist->prefix[DISTRIBUTE_V4_OUT]);
+ if (plist)
+ ri->prefix[RIP_FILTER_OUT] = plist;
+ else
+ ri->prefix[RIP_FILTER_OUT] = NULL;
+ } else
+ ri->prefix[RIP_FILTER_OUT] = NULL;
+}
+
+void rip_distribute_update_interface(struct interface *ifp)
+{
+ struct rip_interface *ri = ifp->info;
+ struct rip *rip = ri->rip;
+ struct distribute *dist;
+
+ if (!rip)
+ return;
+ dist = distribute_lookup(rip->distribute_ctx, ifp->name);
+ if (dist)
+ rip_distribute_update(rip->distribute_ctx, dist);
+}
+
+/* Update all interface's distribute list. */
+/* ARGSUSED */
+static void rip_distribute_update_all(struct prefix_list *notused)
+{
+ struct vrf *vrf = vrf_lookup_by_id(VRF_DEFAULT);
+ struct interface *ifp;
+
+ FOR_ALL_INTERFACES (vrf, ifp)
+ rip_distribute_update_interface(ifp);
+}
+/* ARGSUSED */
+static void rip_distribute_update_all_wrapper(struct access_list *notused)
+{
+ rip_distribute_update_all(NULL);
+}
+
+/* Delete all added rip route. */
+void rip_clean(struct rip *rip)
+{
+ rip_interfaces_clean(rip);
+
+ if (rip->enabled)
+ rip_instance_disable(rip);
+
+ stream_free(rip->obuf);
+
+ for (int i = 0; i < ZEBRA_ROUTE_MAX; i++)
+ if (rip->redist[i].route_map.name)
+ free(rip->redist[i].route_map.name);
+
+ route_table_finish(rip->table);
+ route_table_finish(rip->neighbor);
+ list_delete(&rip->peer_list);
+ distribute_list_delete(&rip->distribute_ctx);
+ if_rmap_ctx_delete(rip->if_rmap_ctx);
+
+ rip_clean_network(rip);
+ rip_passive_nondefault_clean(rip);
+ vector_free(rip->enable_interface);
+ route_table_finish(rip->enable_network);
+ vector_free(rip->passive_nondefault);
+ list_delete(&rip->offset_list_master);
+ route_table_finish(rip->distance_table);
+
+ RB_REMOVE(rip_instance_head, &rip_instances, rip);
+ XFREE(MTYPE_RIP_VRF_NAME, rip->vrf_name);
+ XFREE(MTYPE_RIP, rip);
+}
+
+static void rip_if_rmap_update(struct if_rmap_ctx *ctx,
+ struct if_rmap *if_rmap)
+{
+ struct interface *ifp = NULL;
+ struct rip_interface *ri;
+ struct route_map *rmap;
+ struct vrf *vrf = NULL;
+
+ if (ctx->name)
+ vrf = vrf_lookup_by_name(ctx->name);
+ if (vrf)
+ ifp = if_lookup_by_name(if_rmap->ifname, vrf->vrf_id);
+ if (ifp == NULL)
+ return;
+
+ ri = ifp->info;
+ if (if_rmap->routemap[IF_RMAP_IN]) {
+ rmap = route_map_lookup_by_name(if_rmap->routemap[IF_RMAP_IN]);
+ if (rmap)
+ ri->routemap[IF_RMAP_IN] = rmap;
+ else
+ ri->routemap[IF_RMAP_IN] = NULL;
+ } else
+ ri->routemap[RIP_FILTER_IN] = NULL;
+
+ if (if_rmap->routemap[IF_RMAP_OUT]) {
+ rmap = route_map_lookup_by_name(if_rmap->routemap[IF_RMAP_OUT]);
+ if (rmap)
+ ri->routemap[IF_RMAP_OUT] = rmap;
+ else
+ ri->routemap[IF_RMAP_OUT] = NULL;
+ } else
+ ri->routemap[RIP_FILTER_OUT] = NULL;
+}
+
+void rip_if_rmap_update_interface(struct interface *ifp)
+{
+ struct rip_interface *ri = ifp->info;
+ struct rip *rip = ri->rip;
+ struct if_rmap *if_rmap;
+ struct if_rmap_ctx *ctx;
+
+ if (!rip)
+ return;
+ ctx = rip->if_rmap_ctx;
+ if (!ctx)
+ return;
+ if_rmap = if_rmap_lookup(ctx, ifp->name);
+ if (if_rmap)
+ rip_if_rmap_update(ctx, if_rmap);
+}
+
+static void rip_routemap_update_redistribute(struct rip *rip)
+{
+ for (int i = 0; i < ZEBRA_ROUTE_MAX; i++) {
+ if (rip->redist[i].route_map.name) {
+ rip->redist[i].route_map.map = route_map_lookup_by_name(
+ rip->redist[i].route_map.name);
+ route_map_counter_increment(
+ rip->redist[i].route_map.map);
+ }
+ }
+}
+
+/* ARGSUSED */
+static void rip_routemap_update(const char *notused)
+{
+ struct vrf *vrf = vrf_lookup_by_id(VRF_DEFAULT);
+ struct rip *rip;
+ struct interface *ifp;
+
+ FOR_ALL_INTERFACES (vrf, ifp)
+ rip_if_rmap_update_interface(ifp);
+
+ rip = vrf->info;
+ if (rip)
+ rip_routemap_update_redistribute(rip);
+}
+
+/* Link RIP instance to VRF. */
+static void rip_vrf_link(struct rip *rip, struct vrf *vrf)
+{
+ struct interface *ifp;
+
+ rip->vrf = vrf;
+ rip->distribute_ctx->vrf = vrf;
+ vrf->info = rip;
+
+ FOR_ALL_INTERFACES (vrf, ifp)
+ rip_interface_sync(ifp);
+}
+
+/* Unlink RIP instance from VRF. */
+static void rip_vrf_unlink(struct rip *rip, struct vrf *vrf)
+{
+ struct interface *ifp;
+
+ rip->vrf = NULL;
+ rip->distribute_ctx->vrf = NULL;
+ vrf->info = NULL;
+
+ FOR_ALL_INTERFACES (vrf, ifp)
+ rip_interface_sync(ifp);
+}
+
+static void rip_instance_enable(struct rip *rip, struct vrf *vrf, int sock)
+{
+ rip->sock = sock;
+
+ rip_vrf_link(rip, vrf);
+ rip->enabled = true;
+
+ /* Resend all redistribute requests. */
+ rip_redistribute_enable(rip);
+
+ /* Create read and timer thread. */
+ rip_event(rip, RIP_READ, rip->sock);
+ rip_event(rip, RIP_UPDATE_EVENT, 1);
+
+ rip_zebra_vrf_register(vrf);
+}
+
+static void rip_instance_disable(struct rip *rip)
+{
+ struct vrf *vrf = rip->vrf;
+ struct route_node *rp;
+
+ /* Clear RIP routes */
+ for (rp = route_top(rip->table); rp; rp = route_next(rp)) {
+ struct rip_info *rinfo;
+ struct list *list;
+ struct listnode *listnode;
+
+ if ((list = rp->info) == NULL)
+ continue;
+
+ rinfo = listgetdata(listhead(list));
+ if (rip_route_rte(rinfo))
+ rip_zebra_ipv4_delete(rip, rp);
+
+ for (ALL_LIST_ELEMENTS_RO(list, listnode, rinfo)) {
+ THREAD_OFF(rinfo->t_timeout);
+ THREAD_OFF(rinfo->t_garbage_collect);
+ rip_info_free(rinfo);
+ }
+ list_delete(&list);
+ rp->info = NULL;
+ route_unlock_node(rp);
+ }
+
+ /* Flush all redistribute requests. */
+ rip_redistribute_disable(rip);
+
+ /* Cancel RIP related timers. */
+ THREAD_OFF(rip->t_update);
+ THREAD_OFF(rip->t_triggered_update);
+ THREAD_OFF(rip->t_triggered_interval);
+
+ /* Cancel read thread. */
+ THREAD_OFF(rip->t_read);
+
+ /* Close RIP socket. */
+ close(rip->sock);
+ rip->sock = -1;
+
+ /* Clear existing peers. */
+ list_delete_all_node(rip->peer_list);
+
+ rip_zebra_vrf_deregister(vrf);
+
+ rip_vrf_unlink(rip, vrf);
+ rip->enabled = false;
+}
+
+static int rip_vrf_new(struct vrf *vrf)
+{
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("%s: VRF created: %s(%u)", __func__, vrf->name,
+ vrf->vrf_id);
+
+ return 0;
+}
+
+static int rip_vrf_delete(struct vrf *vrf)
+{
+ struct rip *rip;
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("%s: VRF deleted: %s(%u)", __func__, vrf->name,
+ vrf->vrf_id);
+
+ rip = rip_lookup_by_vrf_name(vrf->name);
+ if (!rip)
+ return 0;
+
+ rip_clean(rip);
+
+ return 0;
+}
+
+static int rip_vrf_enable(struct vrf *vrf)
+{
+ struct rip *rip;
+ int socket;
+
+ rip = rip_lookup_by_vrf_name(vrf->name);
+ if (!rip || rip->enabled)
+ return 0;
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("%s: VRF %s(%u) enabled", __func__, vrf->name,
+ vrf->vrf_id);
+
+ /* Activate the VRF RIP instance. */
+ if (!rip->enabled) {
+ socket = rip_create_socket(vrf);
+ if (socket < 0)
+ return -1;
+
+ rip_instance_enable(rip, vrf, socket);
+ }
+
+ return 0;
+}
+
+static int rip_vrf_disable(struct vrf *vrf)
+{
+ struct rip *rip;
+
+ rip = rip_lookup_by_vrf_name(vrf->name);
+ if (!rip || !rip->enabled)
+ return 0;
+
+ if (IS_RIP_DEBUG_EVENT)
+ zlog_debug("%s: VRF %s(%u) disabled", __func__, vrf->name,
+ vrf->vrf_id);
+
+ /* Deactivate the VRF RIP instance. */
+ if (rip->enabled)
+ rip_instance_disable(rip);
+
+ return 0;
+}
+
+void rip_vrf_init(void)
+{
+ vrf_init(rip_vrf_new, rip_vrf_enable, rip_vrf_disable, rip_vrf_delete);
+
+ vrf_cmd_init(NULL);
+}
+
+void rip_vrf_terminate(void)
+{
+ vrf_terminate();
+}
+
+/* Allocate new rip structure and set default value. */
+void rip_init(void)
+{
+ /* Install top nodes. */
+ install_node(&rip_node);
+
+ /* Install rip commands. */
+ install_element(VIEW_NODE, &show_ip_rip_cmd);
+ install_element(VIEW_NODE, &show_ip_rip_status_cmd);
+
+ install_default(RIP_NODE);
+
+ /* Debug related init. */
+ rip_debug_init();
+
+ /* Access list install. */
+ access_list_init();
+ access_list_add_hook(rip_distribute_update_all_wrapper);
+ access_list_delete_hook(rip_distribute_update_all_wrapper);
+
+ /* Prefix list initialize.*/
+ prefix_list_init();
+ prefix_list_add_hook(rip_distribute_update_all);
+ prefix_list_delete_hook(rip_distribute_update_all);
+
+ /* Route-map */
+ rip_route_map_init();
+
+ route_map_add_hook(rip_routemap_update);
+ route_map_delete_hook(rip_routemap_update);
+
+ if_rmap_init(RIP_NODE);
+}