Major RIP redesign

The new RIP implementation fixes plenty of old bugs and also adds support for many new features: ECMP support, link state support, BFD support, configurable split horizon and more. Most options are now per-interface.
2024-11-08 12:18:42 +00:00 · 2015-10-05 12:14:50 +02:00 · 2015-10-05 12:14:50 +02:00 · 8465dccb06
commit 8465dccb06
parent c7b99a932c
18 changed files with 2428 additions and 1350 deletions
--- a/client/commands.c
+++ b/client/commands.c
@ -67,7 +67,7 @@ cmd_build_tree(void)
 	      new->plastson = &new->son;
 	      new->len = c-d;
 	      memcpy(new->token, d, c-d);
-	      new->prio = (new->len == 3 && !memcmp(new->token, "roa", 3)) ? 0 : 1; /* Hack */
+	      new->prio = (new->len == 3 && (!memcmp(new->token, "roa", 3) || !memcmp(new->token, "rip", 3))) ? 0 : 1; /* Hack */
 	    }
 	  old = new;
 	  while (isspace(*c))
--- a/doc/bird.sgml
+++ b/doc/bird.sgml
@ -2476,7 +2476,7 @@ protocol ospf &lt;name&gt; {
 	This option specifies whether OSPF is allowed to generate ECMP
 	(equal-cost multipath) routes. Such routes are used when there are
 	several directions to the destination, each with the same (computed)
-	cost. This option also allows to specify a limit on maximal number of
+	cost. This option also allows to specify a limit on maximum number of
 	nexthops in one route. By default, ECMP is disabled. If enabled,
 	default	value of the limit is 16.
@ -3244,16 +3244,14 @@ one). After some time, the distance reaches infinity (that's 15 in RIP) and all
 routers know that network is unreachable. RIP tries to minimize situations where
 counting to infinity is necessary, because it is slow. Due to infinity being 16,
 you can't use RIP on networks where maximal distance is higher than 15
-hosts. You can read more about RIP at
+hosts.
-<HTMLURL URL="http://www.ietf.org/html.charters/rip-charter.html"
+
-name="http://www.ietf.org/html.charters/rip-charter.html">. Both IPv4
+<p>BIRD supports RIPv1
-(RFC 1723 <htmlurl url="ftp://ftp.rfc-editor.org/in-notes/rfc1723.txt">) and IPv6
+(RFC 1058<htmlurl url="http://www.rfc-editor.org/rfc/rfc1058.txt">),
-(RFC 2080 <htmlurl url="ftp://ftp.rfc-editor.org/in-notes/rfc2080.txt">) versions
+RIPv2 (RFC 2453<htmlurl url="http://www.rfc-editor.org/rfc/rfc2453.txt">),
-of RIP are supported by BIRD, historical RIPv1
+RIPng (RFC 2080<htmlurl url="http://www.rfc-editor.org/rfc/rfc2080.txt">),
-(RFC 1058 <htmlurl url="ftp://ftp.rfc-editor.org/in-notes/rfc1058.txt">) is not
+and RIP cryptographic authentication (SHA-1 not implemented)
-currently supported. RIPv4 MD5 authentication
+(RFC 4822<htmlurl url="http://www.rfc-editor.org/rfc/rfc4822.txt">).
 (RFC 2082 <htmlurl url="ftp://ftp.rfc-editor.org/in-notes/rfc2082.txt">) is
 supported.
 <p>RIP is a very simple protocol, and it has a lot of shortcomings. Slow
 convergence, big network load and inability to handle larger networks makes it
@ -3261,39 +3259,156 @@ pretty much obsolete. It is still usable on very small networks.
 <sect1>Configuration
-<p>In addition to options common for all to other protocols, RIP supports the
+<p>RIP configuration consists mainly of common protocol options and interface
-following ones:
+definitions, most RIP options are interface specific.
 <code>
 protocol rip [&lt;name&gt;] {
 	infinity &lt;number&gt;;
 	ecmp &lt;switch&gt; [limit &lt;number&gt;];
 	interface &lt;interface pattern&gt; {
 		metric &lt;number&gt;;
 		mode multicast|broadcast;
 		passive &lt;switch&gt;;
 		address &lt;ip&gt;;
 		port &lt;number&gt;;
 		version 1|2;
 		split horizon &lt;switch&gt;;
 		poison reverse &lt;switch&gt;;
 		check zero &lt;switch&gt;;
 		update time &lt;number&gt;;
 		timeout time &lt;number&gt;;
 		garbage time &lt;number&gt;;
 		ecmp weight &lt;number&gt;;
 		ttl security &lt;switch&gt;; | tx only;
 		tx class|dscp &lt;number&gt;;
 		tx priority &lt;number&gt;;
 		rx buffer &lt;number&gt;;
 		tx length &lt;number&gt;;
 		check link &lt;switch&gt;;
 		authentication none|plaintext|cryptographic;
 		password "&lt;text&gt;";
 		password "&lt;text&gt;" {
 			id &lt;num&gt;;
 			generate from "&lt;date&gt;";
 			generate to "&lt;date&gt;";
 			accept from "&lt;date&gt;";
 			accept to "&lt;date&gt;";
 		};
 	};
 }
 </code>
 <descrip>
-	<tag>authentication none|plaintext|md5</tag>
+	<tag>infinity <M>number</M></tag>
-	Selects authentication method to be used. <cf/none/ means that packets
+	Selects the distance of infinity. Bigger values will make
-	are not authenticated at all, <cf/plaintext/ means that a plaintext
+	protocol convergence even slower. The default value is 16.
 	password is embedded into each packet, and <cf/md5/ means that packets
 	are authenticated using a MD5 cryptographic hash. If you set
 	authentication to not-none, it is a good idea to add <cf>password</cf>
 	section. Default: none.
-	<tag>honor always|neighbor|never</tag>
+	<tag>ecmp <M>switch</M> [limit <M>number</M>]</tag>
-	Specifies when should requests for dumping routing table be honored.
+	This option specifies whether RIP is allowed to generate ECMP
-	(Always, when sent from a host on a directly connected network or
+	(equal-cost multipath) routes. Such routes are used when there are
-	never.) Routing table updates are honored only from neighbors, that is
+	several directions to the destination, each with the same (computed)
-	not configurable. Default: never.
+	cost. This option also allows to specify a limit on maximum number of
 	nexthops in one route. By default, ECMP is disabled. If enabled,
 	default	value of the limit is 16.
 	<tag>interface <m/pattern [, ...]/ { <m/options/ }</tag>
 	Interface definitions specify a set of interfaces on which the
 	protocol is activated and contain interface specific options.
 	See <ref id="dsc-iface" name="interface"> common options for
 	detailed description.
 </descrip>
-<p>There are some options that can be specified per-interface:
+<p>Interface specific options:
 <descrip>
 	<tag>metric <m/num/</tag>
-	This option specifies the metric of the interface. Valid
+	This option specifies the metric of the interface. When a route is
 	received from the interface, its metric is increased by this value
 	before further processing. Valid values are 1-255, but values higher
 	than infinity has no further meaning. Default: 1.
-	<tag>mode multicast|broadcast|quiet|nolisten|version1</tag>
+	<tag>mode multicast|broadcast</tag>
-	This option selects the mode for RIP to use on the interface. If nothing
+	This option selects the mode for RIP to use on the interface. The
-	is specified, RIP runs in multicast mode. <cf/version1/ is currently
+	default is multicast mode for RIPv2 and broadcast mode for RIPv1.
-	equivalent to <cf/broadcast/, and it makes RIP talk to a broadcast
+	RIPng always uses the multicast mode.
-	address even through multicast mode is possible. <cf/quiet/ option means
+
-	that RIP will not transmit any periodic messages to this interface and
+	<tag>passive <m/switch/</tag>
-	<cf/nolisten/ means that RIP will send to this interface butnot listen
+	Passive interfaces receive routing updates but do not transmit any
-	to it.
+	messages. Default: no.
 	<tag>address <m/ip/</tag>
 	This option specifies a destination address used for multicast or
 	broadcast messages, the default is the official RIP (224.0.0.9) or RIPng
 	(ff02::9) multicast address, or an appropriate broadcast address in the
 	broadcast mode.
 	<tag>port <m/number/</tag>
 	This option selects an UDP port to operate on, the default is the
 	official RIP (520) or RIPng (521) port.
 	<tag>version 1|2</tag>
 	This option selects the version of RIP used on the interface. For RIPv1,
 	automatic subnet aggregation is not implemented, only classful network
 	routes and host routes are propagated. Note that BIRD allows RIPv1 to be
 	configured with features that are defined for RIPv2 only, like
 	authentication or using multicast sockets. The default is RIPv2 for IPv4
 	RIP, the option is not supported for RIPng, as no further versions are
 	defined.
 	<tag>split horizon <m/switch/</tag>
 	Split horizon is a scheme for preventing routing loops. When split
 	horizon is active, routes are not regularly propagated back to the
 	interface from which they were received. They are either not propagated
 	back at all (plain split horizon) or propagated back with an infinity
 	metric (split horizon with poisoned reverse). Therefore, other routers
 	on the interface will not consider the router as a part of an
 	independent path to the destination of the route. Default: yes.
 	<tag>poison reverse <m/switch/</tag>
 	When split horizon is active, this option specifies whether the poisoned
 	reverse variant (propagating routes back with an infinity metric) is
 	used. The poisoned reverse has some advantages in faster convergence,
 	but uses more network traffic. Default: yes.
 	<tag>check zero <m/switch/</tag>
 	Received RIPv1 packets with non-zero values in reserved fields should
 	be discarded. This option specifies whether the check is performed or
 	such packets are just processed as usual. Default: yes.
 	<tag>update time <m/number/</tag>
 	Specifies the number of seconds between periodic updates. A lower number
 	will mean faster convergence but bigger network load. Default: 30.
 	<tag>timeout time <m/number/</tag>
 	Specifies the time interval (in seconds) between the last received route
 	announcement and the route expiration. After that, the network is
 	considered unreachable, but still is propagated with infinity distance.
 	Default: 180.
 	<tag>garbage time <m/number/</tag>
 	Specifies the time interval (in seconds) between the route expiration
 	and the removal of the unreachable network entry. The garbage interval,
 	when a route with infinity metric is propagated, is used for both
 	internal (after expiration) and external (after withdrawal) routes.
 	Default: 120.
 	<tag>ecmp weight <m/number/</tag>
 	When ECMP (multipath) routes are allowed, this value specifies a
 	relative weight used for nexthops going through the iface. Valid
 	values are 1-256. Default value is 1.
 	<tag>authentication none|plaintext|cryptographic</tag>
 	Selects authentication method to be used. <cf/none/ means that packets
 	are not authenticated at all, <cf/plaintext/ means that a plaintext
 	password is embedded into each packet, and <cf/cryptographic/ means that
 	packets are authenticated using a MD5 cryptographic hash. If you set
 	authentication to not-none, it is a good idea to add <cf>password</cf>
 	section. Default: none.
 	<tag>password "<m/text/"</tag>
 	Specifies a password used for authentication. See <ref id="dsc-pass"
 	name="password"> common option for detailed description.
 	<tag>ttl security [<m/switch/ | tx only]</tag>
 	TTL security is a feature that protects routing protocols from remote
@ -3309,43 +3424,31 @@ following ones:
 	compatibility with neighbors regardless of whether they use ttl
 	security.
-	Note that for RIPng, TTL security is a standard behavior (required by
+	For RIPng, TTL security is a standard behavior (required by RFC 2080)
-	RFC 2080), but BIRD uses <cf/tx only/ by default, for compatibility with
+	and therefore default value is yes. For IPv4 RIP, default value is no.
 	older versions. For IPv4 RIP, default value is no.
-	<tag>tx class|dscp|priority <m/num/</tag>
+	<tag>tx class|dscp|priority <m/number/</tag>
 	These options specify the ToS/DiffServ/Traffic class/Priority of the
 	outgoing RIP packets. See <ref id="dsc-prio" name="tx class"> common
 	option for detailed description.
 </descrip>
-<p>The following options generally override behavior specified in RFC. If you
+	<tag>rx buffer <m/number/</tag>
-use any of these options, BIRD will no longer be RFC-compliant, which means it
+	This option specifies the size of buffers used for packet processing.
-will not be able to talk to anything other than equally configured BIRD. I have
+	The buffer size should be bigger than maximal size of received packets.
-warned you.
+	The default value is 532 for IPv4 RIP and interface MTU value for RIPng.
-<descrip>
+	<tag>tx length <m/number/</tag>
-	<tag>port <M>number</M></tag>
+	This option specifies the maximum length of generated RIP packets. To
-	Selects IP port to operate on, default 520. (This is useful when testing
+	avoid IP fragmentation, it should not exceed the interface MTU value.
-	BIRD, if you set this to an address &gt;1024, you will not need to run
+	The default value is 532 for IPv4 RIP and interface MTU value for RIPng.
 	bird with UID==0).
-	<tag>infinity <M>number</M></tag>
+	<tag>check link <m/switch/</tag>
-	Selects the value of infinity, default is 16. Bigger values will make
+	If set, the hardware link state (as reported by OS) is taken into
-	protocol convergence even slower.
+	consideration. When the link disappears (e.g. an ethernet cable is
-
+	unplugged), neighbors are immediately considered unreachable and all
-	<tag>period <M>number</M></tag>
+	routes received from them are withdrawn. It is possible that some
-	Specifies the number of seconds between periodic updates. Default is 30
+	hardware drivers or platforms do not implement this feature. Default:
-	seconds. A lower number will mean faster convergence but bigger network
+	no.
 	load. Do not use values lower than 12.
 	<tag>timeout time <M>number</M></tag>
 	Specifies how old route has to be to be considered unreachable.
 	Default is 4*<cf/period/.
 	<tag>garbage time <M>number</M></tag>
 	Specifies how old route has to be to be discarded. Default is
 	10*<cf/period/.
 </descrip>
 <sect1>Attributes
@ -3356,27 +3459,26 @@ warned you.
 	<tag>int <cf/rip_metric/</tag>
 	RIP metric of the route (ranging from 0 to <cf/infinity/).  When routes
 	from different RIP instances are available and all of them have the same
-	preference, BIRD prefers the route with lowest <cf/rip_metric/. When
+	preference, BIRD prefers the route with lowest <cf/rip_metric/. When a
-	importing a non-RIP route, the metric defaults to 5.
+	non-RIP route is exported to RIP, the default metric is 1.
 	<tag>int <cf/rip_tag/</tag>
 	RIP route tag: a 16-bit number which can be used to carry additional
 	information with the route (for example, an originating AS number in
-	case of external routes). When importing a non-RIP route, the tag
+	case of external routes). When a non-RIP route is exported to RIP, the
-	defaults to 0.
+	default tag is 0.
 </descrip>
 <sect1>Example
 <p><code>
-protocol rip MyRIP_test {
+protocol rip {
        debug all;
        port 1520;
        period 12;
        garbage time 60;
        interface "eth0" { metric 3; mode multicast; };
 	interface "eth*" { metric 2; mode broadcast; };
        honor neighbor;
        authentication none;
        import filter { print "importing"; accept; };
        export filter { print "exporting"; accept; };
--- a/doc/reply_codes
+++ b/doc/reply_codes
@ -55,6 +55,8 @@ Reply codes of BIRD command-line interface
 1018	Show memory
 1019	Show ROA list
 1020	Show BFD sessions
 1021	Show RIP interface
 1022	Show RIP neighbors
 8000	Reply too long
 8001	Route not found
--- a/lib/ip.c
+++ b/lib/ip.c
@ -364,7 +364,9 @@ ip4_class_mask(ip4_addr ad)
 {
  u32 m, a = _I(ad);
-  if (a < 0x80000000)
+  if (a == 0x00000000)
    m = 0x00000000;
  else if (a < 0x80000000)
    m = 0xff000000;
  else if (a < 0xc0000000)
    m = 0xffff0000;
--- a/lib/ip.h
+++ b/lib/ip.h
@ -15,8 +15,11 @@
 #include "lib/unaligned.h"
 #define IP4_ALL_NODES		ipa_build4(224, 0, 0, 1)
 #define IP4_ALL_ROUTERS		ipa_build4(224, 0, 0, 2)
 #define IP4_OSPF_ALL_ROUTERS	ipa_build4(224, 0, 0, 5)
 #define IP4_OSPF_DES_ROUTERS	ipa_build4(224, 0, 0, 6)
 #define IP4_RIP_ROUTERS		ipa_build4(224, 0, 0, 9)
 #define IP6_ALL_NODES		ipa_build6(0xFF020000, 0, 0, 1)
 #define IP6_ALL_ROUTERS		ipa_build6(0xFF020000, 0, 0, 2)
@ -32,6 +35,10 @@
 #define IP_PREC_INTERNET_CONTROL 0xc0
 #define IP4_HEADER_LENGTH	20
 #define IP6_HEADER_LENGTH	40
 #define UDP_HEADER_LENGTH	8
 #ifdef IPV6
 #define MAX_PREFIX_LENGTH 128
--- a/nest/password.c
+++ b/nest/password.c
@ -51,3 +51,18 @@ password_find_by_id(list *l, int id)
  return NULL;
 }
 struct password_item *
 password_find_by_value(list *l, char *pass, uint size)
 {
  struct password_item *pi;
  if (!l)
    return NULL;
  WALK_LIST(pi, *l)
    if (password_verify(pi, pass, size) && (pi->accfrom <= now_real) && (now_real < pi->accto))
      return pi;
  return NULL;
 }
--- a/nest/password.h
+++ b/nest/password.h
@ -11,8 +11,6 @@
 #define PASSWORD_H
 #include "lib/timer.h"
 #define MD5_AUTH_SIZE 16
 struct password_item {
  node n;
  char *password;
@ -24,6 +22,7 @@ extern struct password_item *last_password_item;
 struct password_item *password_find(list *l, int first_fit);
 struct password_item *password_find_by_id(list *l, int id);
 struct password_item *password_find_by_value(list *l, char *pass, uint size);
 static inline int password_verify(struct password_item *p1, char *p2, uint size)
 {
--- a/nest/route.h
+++ b/nest/route.h
@ -75,6 +75,8 @@ void fib_check(struct fib *);		/* Consistency check for debugging */
 void fit_init(struct fib_iterator *, struct fib *); /* Internal functions, don't call */
 struct fib_node *fit_get(struct fib *, struct fib_iterator *);
 void fit_put(struct fib_iterator *, struct fib_node *);
 void fit_put_next(struct fib *f, struct fib_iterator *i, struct fib_node *n, uint hpos);
 #define FIB_WALK(fib, z) do {					\
 	struct fib_node *z, **ff = (fib)->hash_table;		\
@ -103,6 +105,11 @@ void fit_put(struct fib_iterator *, struct fib_node *);
 #define FIB_ITERATE_PUT(it, z) fit_put(it, z)
 #define FIB_ITERATE_PUT_NEXT(it, fib, z) fit_put_next(fib, it, z, hpos)
 #define FIB_ITERATE_UNLINK(it, fib) fit_get(fib, it)
 /*
 *	Master Routing Tables. Generally speaking, each of them contains a FIB
 *	with each entry pointing to a list of route entries representing routes
@ -196,10 +203,9 @@ typedef struct rte {
  union {				/* Protocol-dependent data (metrics etc.) */
 #ifdef CONFIG_RIP
    struct {
-      node garbage;			/* List for garbage collection */
+      struct iface *from;		/* Incoming iface */
-      byte metric;			/* RIP metric */
+      u8 metric;			/* RIP metric */
      u16 tag;				/* External route tag */
      struct rip_entry *entry;
    } rip;
 #endif
 #ifdef CONFIG_OSPF
--- a/nest/rt-fib.c
+++ b/nest/rt-fib.c
@ -430,6 +430,25 @@ fit_put(struct fib_iterator *i, struct fib_node *n)
  i->prev = (struct fib_iterator *) n;
 }
 void
 fit_put_next(struct fib *f, struct fib_iterator *i, struct fib_node *n, uint hpos)
 {
  if (n = n->next)
    goto found;
  while (++hpos < f->hash_size)
    if (n = f->hash_table[hpos])
      goto found;
  /* We are at the end */
  i->prev = i->next = NULL;
  i->node = NULL;
  return;
 found:
  fit_put(i, n);
 }
 #ifdef DEBUGGING
 /**
--- a/nest/rt-table.c
+++ b/nest/rt-table.c
@ -888,12 +888,6 @@ rte_recalculate(struct announce_hook *ah, net *net, rte *new, struct rte_src *sr
 		}
 	      rte_free_quick(new);
 #ifdef CONFIG_RIP
 	      /* lastmod is used internally by RIP as the last time
 		 when the route was received. */
 	      if (src->proto->proto == &proto_rip)
 		old->lastmod = now;
 #endif
 	      return;
 	    }
 	  *k = old->next;
--- a/proto/ospf/packet.c
+++ b/proto/ospf/packet.c
@ -223,7 +223,7 @@ ospf_rx_hook(sock *sk, int len)
    return 1;
  DBG("OSPF: RX hook called (iface %s, src %I, dst %I)\n",
-      sk->ifname, sk->faddr, sk->laddr);
+      sk->iface->name, sk->faddr, sk->laddr);
  /* Initially, the packet is associated with the 'master' iface */
  struct ospf_iface *ifa = sk->data;
--- a/proto/rip/Doc
+++ b/proto/rip/Doc
@ -1,2 +1,2 @@
 S rip.c
-S auth.c
+S packets.c
--- a/proto/rip/Makefile
+++ b/proto/rip/Makefile
@ -1,4 +1,4 @@
-source=rip.c auth.c
+source=rip.c packets.c
 root-rel=../../
 dir-name=proto/rip
--- a/proto/rip/auth.c
+++ b/proto/rip/auth.c
@ -1,168 +0,0 @@
 /*
 *	Rest in pieces - RIP protocol
 *
 *	Copyright (c) 1999 Pavel Machek <pavel@ucw.cz>
 *	Copyright (c) 2004 Ondrej Filip <feela@network.cz>
 *
 *	Bug fixes by Eric Leblond <eleblond@init-sys.com>, April 2003
 * 
 *	Can be freely distributed and used under the terms of the GNU GPL.
 */
 #undef LOCAL_DEBUG
 #include "nest/bird.h"
 #include "nest/iface.h"
 #include "nest/protocol.h"
 #include "nest/route.h"
 #include "lib/socket.h"
 #include "lib/resource.h"
 #include "lib/lists.h"
 #include "lib/timer.h"
 #include "lib/md5.h"
 #include "lib/string.h"
 #include "rip.h"
 #define P ((struct rip_proto *) p)
 #define P_CF ((struct rip_proto_config *)p->cf)
 #define PACKETLEN(num) (num * sizeof(struct rip_block) + sizeof(struct rip_packet_heading))
 /*
 * rip_incoming_authentication - check authentication of incomming packet and return 1 if there's problem.
 */
 int
 rip_incoming_authentication( struct proto *p, struct rip_block_auth *block, struct rip_packet *packet, int num, ip_addr whotoldme )
 {
  DBG( "Incoming authentication: " );
  switch (ntohs(block->authtype)) {	/* Authentication type */
  case AT_PLAINTEXT: 
    {
      struct password_item *passwd = password_find(P_CF->passwords, 1);
      DBG( "Plaintext passwd" );
      if (!passwd) {
 	log( L_AUTH "No passwords set and password authentication came" );
 	return 1;
      }
      if (strncmp( (char *) (&block->packetlen), passwd->password, 16)) {
 	log( L_AUTH "Passwd authentication failed!" );
 	DBG( "Expected %s, got %.16s\n", passwd->password, &block->packetlen );
 	return 1;
      }
    }
    break;
  case AT_MD5:
    DBG( "md5 password" );
    {
      struct password_item *pass = NULL, *ptmp;
      struct rip_md5_tail *tail;
      struct MD5Context ctxt;
      char md5sum_packet[16];
      char md5sum_computed[16];
      struct neighbor *neigh = neigh_find(p, &whotoldme, 0);
      list *l = P_CF->passwords;
      if (ntohs(block->packetlen) != PACKETLEN(num) - sizeof(struct rip_md5_tail) ) {
 	log( L_ERR "Packet length in MD5 does not match computed value" );
 	return 1;
      }
      tail = (struct rip_md5_tail *) ((char *) packet + (ntohs(block->packetlen) ));
      if ((tail->mustbeFFFF != 0xffff) || (tail->mustbe0001 != 0x0100)) {
 	log( L_ERR "MD5 tail signature is not there" );
 	return 1;
      }
      WALK_LIST(ptmp, *l)
      {
        if (block->keyid != ptmp->id) continue;
        if ((ptmp->genfrom > now_real) || (ptmp->gento < now_real)) continue;
        pass = ptmp;
        break;
      }
      if(!pass) return 1;
      if (!neigh) {
        log( L_AUTH "Non-neighbour MD5 checksummed packet?" );
      } else {
 	if (neigh->aux > block->seq) {
 	  log( L_AUTH "MD5 protected packet with lower numbers" );
 	  return 1;
        }
 	neigh->aux = block->seq;
      }
      memcpy(md5sum_packet, tail->md5, 16);
      strncpy(tail->md5, pass->password, 16);
      MD5Init(&ctxt);
      MD5Update(&ctxt, (char *) packet, ntohs(block->packetlen) +  sizeof(struct rip_block_auth) );
      MD5Final(md5sum_computed, &ctxt);
      if (memcmp(md5sum_packet, md5sum_computed, 16))
        return 1;
    }
  }
  return 0;
 }
 /*
 * rip_outgoing_authentication - append authentication information to the packet.
 * %num: number of rip_blocks already in packets. This function returns size of packet to send.
 */
 int
 rip_outgoing_authentication( struct proto *p, struct rip_block_auth *block, struct rip_packet *packet, int num )
 {
  struct password_item *passwd = password_find(P_CF->passwords, 1);
  if (!P_CF->authtype)
    return PACKETLEN(num);
  DBG( "Outgoing authentication: " );
  if (!passwd) {
    log( L_ERR "No suitable password found for authentication" );
    return PACKETLEN(num);
  }
  block->authtype = htons(P_CF->authtype);
  block->mustbeFFFF = 0xffff;
  switch (P_CF->authtype) {
  case AT_PLAINTEXT:
    strncpy( (char *) (&block->packetlen), passwd->password, 16);
    return PACKETLEN(num);
  case AT_MD5:
    {
      struct rip_md5_tail *tail;
      struct MD5Context ctxt;
      static u32 sequence = 0;
      if (num > PACKET_MD5_MAX)
 	bug(  "We can not add MD5 authentication to this long packet" );
      /* need to preset the sequence number to a sane value */
      if (!sequence)
 	sequence = (u32) time(NULL);
      block->keyid = passwd->id;
      block->authlen = sizeof(struct rip_block_auth);
      block->seq = sequence++;
      block->zero0 = 0;
      block->zero1 = 0;
      block->packetlen = htons(PACKETLEN(num));
      tail = (struct rip_md5_tail *) ((char *) packet + PACKETLEN(num) );
      tail->mustbeFFFF = 0xffff;
      tail->mustbe0001 = 0x0100;
      strncpy(tail->md5, passwd->password, 16);
      MD5Init(&ctxt);
      MD5Update(&ctxt, (char *) packet, PACKETLEN(num) + sizeof(struct  rip_md5_tail));
      MD5Final(tail->md5, &ctxt);
      return PACKETLEN(num) + block->authlen;
    }
  default:
    bug( "Unknown authtype in outgoing authentication?" );
  }
 }
--- a/proto/rip/config.Y
+++ b/proto/rip/config.Y
@ -1,17 +1,14 @@
 /*
 *	BIRD -- RIP Configuration
 *
 *	(c) 1998--1999 Pavel Machek <pavel@ucw.cz>
 *	(c) 2004--2013 Ondrej Filip <feela@network.cz>
 *	(c) 2009--2015 Ondrej Zajicek <santiago@crfreenet.org>
 *	(c) 2009--2015 CZ.NIC z.s.p.o.
 *
 *	Can be freely distributed and used under the terms of the GNU GPL.
 */
 /*
 To add:
 version1 switch
 */
 CF_HDR
 #include "proto/rip/rip.h"
@ -19,76 +16,141 @@ CF_HDR
 CF_DEFINES
-#define RIP_CFG ((struct rip_proto_config *) this_proto)
+#define RIP_CFG ((struct rip_config *) this_proto)
-#define RIP_IPATT ((struct rip_patt *) this_ipatt)
+#define RIP_IFACE ((struct rip_iface_config *) this_ipatt)
 static inline int rip_cfg_is_v2(void) { return RIP_CFG->rip2; }
 static inline int rip_cfg_is_ng(void) { return ! RIP_CFG->rip2; }
 static inline void
 rip_check_auth(void)
 {
  if (rip_cfg_is_ng())
    cf_error("Authentication not supported in RIPng");
 }
 #ifdef IPV6
 #define RIP_DEFAULT_TTL_SECURITY 2
 #else
 #define RIP_DEFAULT_TTL_SECURITY 0
 #endif
 CF_DECLS
-CF_KEYWORDS(RIP, INFINITY, METRIC, PORT, PERIOD, GARBAGE, TIMEOUT,
+CF_KEYWORDS(RIP, ECMP, LIMIT, WEIGHT, INFINITY, METRIC, UPDATE, TIMEOUT,
-	    MODE, BROADCAST, MULTICAST, QUIET, NOLISTEN, VERSION1, 
+	    GARBAGE, PORT, ADDRESS, MODE, BROADCAST, MULTICAST, PASSIVE,
-	    AUTHENTICATION, NONE, PLAINTEXT, MD5, TTL, SECURITY,
+	    VERSION, SPLIT, HORIZON, POISON, REVERSE, CHECK, ZERO, TIME, BFD,
-	    HONOR, NEVER, NEIGHBOR, ALWAYS, TX, PRIORITY, ONLY,
+	    AUTHENTICATION, NONE, PLAINTEXT, CRYPTOGRAPHIC, MD5, TTL, SECURITY,
-	    RIP_METRIC, RIP_TAG)
+	    RX, TX, BUFFER, LENGTH, PRIORITY, ONLY, LINK, RIP_METRIC, RIP_TAG)
-%type <i> rip_mode rip_auth
+%type <i> rip_auth
 CF_GRAMMAR
-CF_ADDTO(proto, rip_cfg '}' { RIP_CFG->passwords = get_passwords(); } )
+CF_ADDTO(proto, rip_proto)
-rip_cfg_start: proto_start RIP {
+rip_proto_start: proto_start RIP
-     this_proto = proto_config_new(&proto_rip, $1);
+{
-     rip_init_config(RIP_CFG);
+  this_proto = proto_config_new(&proto_rip, $1);
-   }
+  init_list(&RIP_CFG->patt_list);
  RIP_CFG->rip2 = RIP_IS_V2;
  RIP_CFG->infinity = RIP_DEFAULT_INFINITY;
  RIP_CFG->min_timeout_time = 60;
  RIP_CFG->max_garbage_time = 60;
 };
 rip_proto_item:
   proto_item
 | ECMP bool		{ RIP_CFG->ecmp = $2 ? RIP_DEFAULT_ECMP_LIMIT : 0; }
 | ECMP bool LIMIT expr	{ RIP_CFG->ecmp = $2 ? $4 : 0; if ($4 < 0) cf_error("ECMP limit cannot be negative"); }
 | INFINITY expr	{ RIP_CFG->infinity = $2; }
 | INTERFACE rip_iface
 ;
-rip_cfg:
+rip_proto_opts:
-   rip_cfg_start proto_name '{'
+   /* empty */
- | rip_cfg proto_item ';'
+ | rip_proto_opts rip_proto_item ';'
 | rip_cfg INFINITY expr ';'	{ RIP_CFG->infinity = $3; }
 | rip_cfg PORT expr ';'	{ RIP_CFG->port = $3; }
 | rip_cfg PERIOD expr ';'	{ RIP_CFG->period = $3; }
 | rip_cfg GARBAGE TIME expr ';' { RIP_CFG->garbage_time = $4; }
 | rip_cfg TIMEOUT TIME expr ';' { RIP_CFG->timeout_time = $4; }
 | rip_cfg AUTHENTICATION rip_auth ';' {RIP_CFG->authtype = $3; }
 | rip_cfg password_list ';'
 | rip_cfg HONOR ALWAYS ';'    { RIP_CFG->honor = HO_ALWAYS; }
 | rip_cfg HONOR NEIGHBOR ';'    { RIP_CFG->honor = HO_NEIGHBOR; }
 | rip_cfg HONOR NEVER ';'    { RIP_CFG->honor = HO_NEVER; }
 | rip_cfg INTERFACE rip_iface ';'
 ;
-rip_auth:
+rip_proto:
-   PLAINTEXT { $$=AT_PLAINTEXT; }
+   rip_proto_start proto_name '{' rip_proto_opts '}';
 | MD5 { $$=AT_MD5; }
 | NONE { $$=AT_NONE; }
 ;
-rip_mode: 
+rip_iface_start:
-    BROADCAST { $$=IM_BROADCAST; }
+{
-  | MULTICAST { $$=0; }
+  this_ipatt = cfg_allocz(sizeof(struct rip_iface_config));
-  | QUIET     { $$=IM_QUIET; }
+  add_tail(&RIP_CFG->patt_list, NODE this_ipatt);
-  | NOLISTEN  { $$=IM_NOLISTEN; }
+  init_list(&this_ipatt->ipn_list);
-  | VERSION1  { $$=IM_VERSION1 | IM_BROADCAST; }
+  reset_passwords();
- ;
+
  RIP_IFACE->metric = 1;
  RIP_IFACE->port = rip_cfg_is_v2() ? RIP_PORT : RIP_NG_PORT;
  RIP_IFACE->version = rip_cfg_is_v2() ? RIP_V2 : RIP_V1;
  RIP_IFACE->split_horizon = 1;
  RIP_IFACE->poison_reverse = 1;
  RIP_IFACE->check_zero = 1;
  RIP_IFACE->ttl_security = rip_cfg_is_v2() ? 0 : 1;
  RIP_IFACE->rx_buffer = rip_cfg_is_v2() ? RIP_MAX_PKT_LENGTH : 0;
  RIP_IFACE->tx_length = rip_cfg_is_v2() ? RIP_MAX_PKT_LENGTH : 0;
  RIP_IFACE->tx_tos = IP_PREC_INTERNET_CONTROL;
  RIP_IFACE->tx_priority = sk_priority_control;
  RIP_IFACE->update_time = RIP_DEFAULT_UPDATE_TIME;
  RIP_IFACE->timeout_time = RIP_DEFAULT_TIMEOUT_TIME;
  RIP_IFACE->garbage_time = RIP_DEFAULT_GARBAGE_TIME;
 };
 rip_iface_finish:
 {
  RIP_IFACE->passwords = get_passwords();
  if (!RIP_IFACE->auth_type != !RIP_IFACE->passwords)
    log(L_WARN "Authentication and password options should be used together");
  /* Default mode is broadcast for RIPv1, multicast for RIPv2 and RIPng */
  if (!RIP_IFACE->mode)
    RIP_IFACE->mode = (rip_cfg_is_v2() && (RIP_IFACE->version == RIP_V1)) ?
      RIP_IM_BROADCAST : RIP_IM_MULTICAST;
  RIP_CFG->min_timeout_time = MIN_(RIP_CFG->min_timeout_time, RIP_IFACE->timeout_time);
  RIP_CFG->max_garbage_time = MAX_(RIP_CFG->max_garbage_time, RIP_IFACE->garbage_time);
 };
 rip_iface_item:
- | METRIC expr { RIP_IPATT->metric = $2; }
+   METRIC expr		{ RIP_IFACE->metric = $2; if (($2<1) || ($2>255)) cf_error("Metric must be in range 1-255"); }
- | MODE rip_mode { RIP_IPATT->mode |= $2; }
+ | MODE MULTICAST	{ RIP_IFACE->mode = RIP_IM_MULTICAST; }
- | TX tos { RIP_IPATT->tx_tos = $2; }
+ | MODE BROADCAST	{ RIP_IFACE->mode = RIP_IM_BROADCAST; if (rip_cfg_is_ng()) cf_error("Broadcast not supported in RIPng"); }
- | TX PRIORITY expr { RIP_IPATT->tx_priority = $3; }
+ | PASSIVE bool		{ RIP_IFACE->passive = $2; }
- | TTL SECURITY bool { RIP_IPATT->ttl_security = $3; }
+ | ADDRESS ipa		{ RIP_IFACE->address = $2; }
- | TTL SECURITY TX ONLY { RIP_IPATT->ttl_security = 2; }
+ | PORT expr		{ RIP_IFACE->port = $2; if (($2<1) || ($2>65535)) cf_error("Invalid port number"); }
 | VERSION expr		{ RIP_IFACE->version = $2;
 			  if (rip_cfg_is_ng()) cf_error("Version not supported in RIPng");
 			  if (($2 != RIP_V1) && ($2 != RIP_V2)) cf_error("Unsupported version");
 			}
 | VERSION ONLY bool	{ RIP_IFACE->version_only = $3; }
 | SPLIT HORIZON bool	{ RIP_IFACE->split_horizon = $3; }
 | POISON REVERSE bool	{ RIP_IFACE->poison_reverse = $3; }
 | CHECK ZERO bool	{ RIP_IFACE->check_zero = $3; }
 | UPDATE TIME expr	{ RIP_IFACE->update_time = $3; if ($3<=0) cf_error("Update time must be positive"); }
 | TIMEOUT TIME expr	{ RIP_IFACE->timeout_time = $3; if ($3<=0) cf_error("Timeout time must be positive"); }
 | GARBAGE TIME expr	{ RIP_IFACE->garbage_time = $3; if ($3<=0) cf_error("Garbage time must be positive"); }
 | ECMP WEIGHT expr	{ RIP_IFACE->ecmp_weight = $3 - 1; if (($3<1) || ($3>256)) cf_error("ECMP weight must be in range 1-256"); }
 | RX BUFFER expr	{ RIP_IFACE->rx_buffer = $3; if (($3<256) || ($3>65535)) cf_error("TX length must be in range 256-65535"); }
 | TX LENGTH expr	{ RIP_IFACE->tx_length = $3; if (($3<256) || ($3>65535)) cf_error("TX length must be in range 256-65535"); }
 | TX tos		{ RIP_IFACE->tx_tos = $2; }
 | TX PRIORITY expr	{ RIP_IFACE->tx_priority = $3; }
 | TTL SECURITY bool	{ RIP_IFACE->ttl_security = $3; }
 | TTL SECURITY TX ONLY	{ RIP_IFACE->ttl_security = 2; }
 | CHECK LINK bool	{ RIP_IFACE->check_link = $3; }
 | BFD bool		{ RIP_IFACE->bfd = $2; cf_check_bfd($2); }
 | AUTHENTICATION rip_auth { RIP_IFACE->auth_type = $2; if ($2) rip_check_auth(); }
 | password_list	{ rip_check_auth(); }
 ;
 rip_auth:
   NONE			{ $$ = RIP_AUTH_NONE; }
 | PLAINTEXT		{ $$ = RIP_AUTH_PLAIN; }
 | CRYPTOGRAPHIC	{ $$ = RIP_AUTH_CRYPTO; }
 | MD5			{ $$ = RIP_AUTH_CRYPTO; }
 ;
-rip_iface_opts: 
+rip_iface_opts:
   /* empty */
 | rip_iface_opts rip_iface_item ';'
 ;
@ -98,25 +160,22 @@ rip_iface_opt_list:
 | '{' rip_iface_opts '}'
 ;
-rip_iface_init:
+rip_iface:
-   /* EMPTY */ {
+  rip_iface_start iface_patt_list_nopx rip_iface_opt_list rip_iface_finish;
     this_ipatt = cfg_allocz(sizeof(struct rip_patt));
     add_tail(&RIP_CFG->iface_list, NODE this_ipatt);
     init_list(&this_ipatt->ipn_list);
     RIP_IPATT->metric = 1;
     RIP_IPATT->tx_tos = IP_PREC_INTERNET_CONTROL;
     RIP_IPATT->tx_priority = sk_priority_control;
     RIP_IPATT->ttl_security = RIP_DEFAULT_TTL_SECURITY;
   }
 ;
 rip_iface:	/* TODO: switch to iface_patt_list_nopx */
   rip_iface_init iface_patt_list rip_iface_opt_list
 ;
 CF_ADDTO(dynamic_attr, RIP_METRIC { $$ = f_new_dynamic_attr(EAF_TYPE_INT | EAF_TEMP, T_INT, EA_RIP_METRIC); })
 CF_ADDTO(dynamic_attr, RIP_TAG { $$ = f_new_dynamic_attr(EAF_TYPE_INT | EAF_TEMP, T_INT, EA_RIP_TAG); })
 CF_CLI_HELP(SHOW RIP, ..., [[Show information about RIP protocol]]);
 CF_CLI(SHOW RIP INTERFACES, optsym opttext, [<name>] [\"<interface>\"], [[Show information about RIP interfaces]])
 { rip_show_interfaces(proto_get_named($4, &proto_rip), $5); };
 CF_CLI(SHOW RIP NEIGHBORS, optsym opttext, [<name>] [\"<interface>\"], [[Show information about RIP neighbors]])
 { rip_show_neighbors(proto_get_named($4, &proto_rip), $5); };
 CF_CODE
 CF_END
--- a/proto/rip/packets.c
+++ b/proto/rip/packets.c
@ -0,0 +1,772 @@
 /*
 *	BIRD -- Routing Information Protocol (RIP)
 *
 *	(c) 1998--1999 Pavel Machek <pavel@ucw.cz>
 *	(c) 2004--2013 Ondrej Filip <feela@network.cz>
 *	(c) 2009--2015 Ondrej Zajicek <santiago@crfreenet.org>
 *	(c) 2009--2015 CZ.NIC z.s.p.o.
 *
 *	Can be freely distributed and used under the terms of the GNU GPL.
 */
 #include "rip.h"
 #include "lib/md5.h"
 #define RIP_CMD_REQUEST		1	/* want info */
 #define RIP_CMD_RESPONSE	2	/* responding to request */
 #define RIP_BLOCK_LENGTH	20
 #define RIP_PASSWD_LENGTH	16
 #define RIP_MD5_LENGTH		16
 #define RIP_AF_IPV4		2
 #define RIP_AF_AUTH		0xffff
 /* RIP packet header */
 struct rip_packet
 {
  u8 command;
  u8 version;
  u16 unused;
 };
 /* RTE block for RIPv2 */
 struct rip_block_v2
 {
  u16 family;
  u16 tag;
  ip4_addr network;
  ip4_addr netmask;
  ip4_addr next_hop;
  u32 metric;
 };
 /* RTE block for RIPng */
 struct rip_block_ng
 {
  ip6_addr prefix;
  u16 tag;
  u8 pxlen;
  u8 metric;
 };
 /* Authentication block for RIPv2 */
 struct rip_block_auth
 {
  u16 must_be_ffff;
  u16 auth_type;
  char password[0];
  u16 packet_len;
  u8 key_id;
  u8 auth_len;
  u32 seq_num;
  u32 unused1;
  u32 unused2;
 };
 /* Authentication tail, RFC 4822 */
 struct rip_auth_tail
 {
  u16 must_be_ffff;
  u16 must_be_0001;
  byte auth_data[];
 };
 /* Internal representation of RTE block data */
 struct rip_block
 {
  ip_addr prefix;
  int pxlen;
  u32 metric;
  u16 tag;
  u16 no_af;
  ip_addr next_hop;
 };
 #define DROP(DSC,VAL) do { err_dsc = DSC; err_val = VAL; goto drop; } while(0)
 #define DROP1(DSC) do { err_dsc = DSC; goto drop; } while(0)
 #define SKIP(DSC) do { err_dsc = DSC; goto skip; } while(0)
 #define LOG_PKT(msg, args...) \
  log_rl(&p->log_pkt_tbf, L_REMOTE "%s: " msg, p->p.name, args)
 #define LOG_PKT_AUTH(msg, args...) \
  log_rl(&p->log_pkt_tbf, L_AUTH "%s: " msg, p->p.name, args)
 #define LOG_RTE(msg, args...) \
  log_rl(&p->log_rte_tbf, L_REMOTE "%s: " msg, p->p.name, args)
 static inline void * rip_tx_buffer(struct rip_iface *ifa)
 { return ifa->sk->tbuf; }
 static inline uint rip_pkt_hdrlen(struct rip_iface *ifa)
 { return sizeof(struct rip_packet) + (ifa->cf->auth_type ? RIP_BLOCK_LENGTH : 0); }
 static inline void
 rip_put_block(struct rip_proto *p, byte *pos, struct rip_block *rte)
 {
  if (rip_is_v2(p))
  {
    struct rip_block_v2 *block = (void *) pos;
    block->family = rte->no_af ? 0 : htons(RIP_AF_IPV4);
    block->tag = htons(rte->tag);
    block->network = ip4_hton(ipa_to_ip4(rte->prefix));
    block->netmask = ip4_hton(ip4_mkmask(rte->pxlen));
    block->next_hop = ip4_hton(ipa_to_ip4(rte->next_hop));
    block->metric = htonl(rte->metric);
  }
  else /* RIPng */
  {
    struct rip_block_ng *block = (void *) pos;
    block->prefix = ip6_hton(ipa_to_ip6(rte->prefix));
    block->tag = htons(rte->tag);
    block->pxlen = rte->pxlen;
    block->metric = rte->metric;
  }
 }
 static inline void
 rip_put_next_hop(struct rip_proto *p, byte *pos, struct rip_block *rte)
 {
  struct rip_block_ng *block = (void *) pos;
  block->prefix = ip6_hton(ipa_to_ip6(rte->next_hop));
  block->tag = 0;
  block->pxlen = 0;
  block->metric = 0xff;
 }
 static inline int
 rip_get_block(struct rip_proto *p, byte *pos, struct rip_block *rte)
 {
  if (rip_is_v2(p))
  {
    struct rip_block_v2 *block = (void *) pos;
    /* Skip blocks with strange AF, including authentication blocks */
    if (block->family != (rte->no_af ? 0 : htons(RIP_AF_IPV4)))
      return 0;
    rte->prefix = ipa_from_ip4(ip4_ntoh(block->network));
    rte->pxlen = ip4_masklen(ip4_ntoh(block->netmask));
    rte->metric = ntohl(block->metric);
    rte->tag = ntohs(block->tag);
    rte->next_hop = ipa_from_ip4(ip4_ntoh(block->next_hop));
    return 1;
  }
  else /* RIPng */
  {
    struct rip_block_ng *block = (void *) pos;
    /* Handle and skip next hop blocks */
    if (block->metric == 0xff)
    {
      rte->next_hop = ipa_from_ip6(ip6_ntoh(block->prefix));
      if (!ipa_is_link_local(rte->next_hop)) rte->next_hop = IPA_NONE;
      return 0;
    }
    rte->prefix = ipa_from_ip6(ip6_ntoh(block->prefix));
    rte->pxlen = block->pxlen;
    rte->metric = block->metric;
    rte->tag = ntohs(block->tag);
    /* rte->next_hop is deliberately kept unmodified */;
    return 1;
  }
 }
 static inline void
 rip_update_csn(struct rip_proto *p UNUSED, struct rip_iface *ifa)
 {
  /*
   * We update crypto sequence numbers at the beginning of update session to
   * avoid issues with packet reordering, so packets inside one update session
   * have the same CSN. We are using real time, but enforcing monotonicity.
   */
  if (ifa->cf->auth_type == RIP_AUTH_CRYPTO)
    ifa->csn = (ifa->csn < (u32) now_real) ? (u32) now_real : ifa->csn + 1;
 }
 static void
 rip_fill_authentication(struct rip_proto *p, struct rip_iface *ifa, struct rip_packet *pkt, uint *plen)
 {
  struct rip_block_auth *auth = (void *) (pkt + 1);
  struct password_item *pass = password_find(ifa->cf->passwords, 0);
  if (!pass)
  {
    /* FIXME: This should not happen */
    log(L_ERR "%s: No suitable password found for authentication", p->p.name);
    memset(auth, 0, sizeof(struct rip_block_auth));
    return;
  }
  switch (ifa->cf->auth_type)
  {
  case RIP_AUTH_PLAIN:
    auth->must_be_ffff = htons(0xffff);
    auth->auth_type = htons(RIP_AUTH_PLAIN);
    strncpy(auth->password, pass->password, RIP_PASSWD_LENGTH);
    return;
  case RIP_AUTH_CRYPTO:
    auth->must_be_ffff = htons(0xffff);
    auth->auth_type = htons(RIP_AUTH_CRYPTO);
    auth->packet_len = htons(*plen);
    auth->key_id = pass->id;
    auth->auth_len = sizeof(struct rip_auth_tail) + RIP_MD5_LENGTH;
    auth->seq_num = ifa->csn_ready ? htonl(ifa->csn) : 0;
    auth->unused1 = 0;
    auth->unused2 = 0;
    ifa->csn_ready = 1;
    /*
     * Note that RFC 4822 is unclear whether auth_len should cover whole
     * authentication trailer or just auth_data length.
     *
     * Crypto sequence numbers are increased by sender in rip_update_csn().
     * First CSN should be zero, this is handled by csn_ready.
     */
    struct rip_auth_tail *tail = (void *) ((byte *) pkt + *plen);
    tail->must_be_ffff = htons(0xffff);
    tail->must_be_0001 = htons(0x0001);
    strncpy(tail->auth_data, pass->password, RIP_MD5_LENGTH);
    *plen += sizeof(struct rip_auth_tail) + RIP_MD5_LENGTH;
    struct MD5Context ctxt;
    MD5Init(&ctxt);
    MD5Update(&ctxt, (byte *) pkt, *plen);
    MD5Final(tail->auth_data, &ctxt);
    return;
  default:
    bug("Unknown authentication type");
  }
 }
 static int
 rip_check_authentication(struct rip_proto *p, struct rip_iface *ifa, struct rip_packet *pkt, uint *plen, struct rip_neighbor *n)
 {
  struct rip_block_auth *auth = (void *) (pkt + 1);
  struct password_item *pass = NULL;
  const char *err_dsc = NULL;
  uint err_val = 0;
  uint auth_type = 0;
  /* Check for authentication entry */
  if ((*plen >= (sizeof(struct rip_packet) + sizeof(struct rip_block_auth))) &&
      (auth->must_be_ffff == htons(0xffff)))
    auth_type = ntohs(auth->auth_type);
  if (auth_type != ifa->cf->auth_type)
    DROP("authentication method mismatch", auth_type);
  switch (auth_type)
  {
  case RIP_AUTH_NONE:
    return 1;
  case RIP_AUTH_PLAIN:
    pass = password_find_by_value(ifa->cf->passwords, auth->password, RIP_PASSWD_LENGTH);
    if (!pass)
      DROP1("wrong password");
    return 1;
  case RIP_AUTH_CRYPTO:
    pass = password_find_by_id(ifa->cf->passwords, auth->key_id);
    if (!pass)
      DROP("no suitable password found", auth->key_id);
    uint data_len = ntohs(auth->packet_len);
    uint auth_len = sizeof(struct rip_auth_tail) + RIP_MD5_LENGTH;
    if (data_len + auth_len != *plen)
      DROP("packet length mismatch", data_len);
    if ((auth->auth_len != RIP_MD5_LENGTH) && (auth->auth_len != auth_len))
      DROP("authentication data length mismatch", auth->auth_len);
    struct rip_auth_tail *tail = (void *) ((byte *) pkt + data_len);
    if ((tail->must_be_ffff != htons(0xffff)) || (tail->must_be_0001 != htons(0x0001)))
      DROP1("authentication trailer is missing");
    /* Accept higher sequence number, or zero if connectivity is lost */
    /* FIXME: sequence number must be password/SA specific */
    u32 rcv_csn = ntohl(auth->seq_num);
    if ((rcv_csn < n->csn) && (rcv_csn || n->uc))
    {
      /* We want to report both new and old CSN */
      LOG_PKT_AUTH("Authentication failed for %I on %s - "
 		   "lower sequence number (rcv %u, old %u)",
 		   n->nbr->addr, ifa->iface->name, rcv_csn, n->csn);
      return 0;
    }
    char received[RIP_MD5_LENGTH];
    char computed[RIP_MD5_LENGTH];
    memcpy(received, tail->auth_data, RIP_MD5_LENGTH);
    strncpy(tail->auth_data, pass->password, RIP_MD5_LENGTH);
    struct MD5Context ctxt;
    MD5Init(&ctxt);
    MD5Update(&ctxt, (byte *) pkt, *plen);
    MD5Final(computed, &ctxt);
    if (memcmp(received, computed, RIP_MD5_LENGTH))
      DROP("wrong MD5 digest", pass->id);
    *plen = data_len;
    n->csn = rcv_csn;
    return 1;
  }
 drop:
  LOG_PKT_AUTH("Authentication failed for %I on %s - %s (%u)",
 	       n->nbr->addr, ifa->iface->name, err_dsc, err_val);
  return 0;
 }
 static inline int
 rip_send_to(struct rip_proto *p, struct rip_iface *ifa, struct rip_packet *pkt, uint plen, ip_addr dst)
 {
  if (ifa->cf->auth_type)
    rip_fill_authentication(p, ifa, pkt, &plen);
  return sk_send_to(ifa->sk, plen, dst, 0);
 }
 void
 rip_send_request(struct rip_proto *p, struct rip_iface *ifa)
 {
  byte *pos = rip_tx_buffer(ifa);
  struct rip_packet *pkt = (void *) pos;
  pkt->command = RIP_CMD_REQUEST;
  pkt->version = ifa->cf->version;
  pkt->unused = 0;
  pos += rip_pkt_hdrlen(ifa);
  struct rip_block b = { .no_af = 1, .metric = p->infinity };
  rip_put_block(p, pos, &b);
  pos += RIP_BLOCK_LENGTH;
  rip_update_csn(p, ifa);
  TRACE(D_PACKETS, "Sending request via %s", ifa->iface->name);
  rip_send_to(p, ifa, pkt, pos - (byte *) pkt, ifa->addr);
 }
 static void
 rip_receive_request(struct rip_proto *p, struct rip_iface *ifa, struct rip_packet *pkt, uint plen, struct rip_neighbor *from)
 {
  TRACE(D_PACKETS, "Request received from %I on %s", from->nbr->addr, ifa->iface->name);
  byte *pos = (byte *) pkt + rip_pkt_hdrlen(ifa);
  /* We expect one regular block */
  if (plen != (rip_pkt_hdrlen(ifa) + RIP_BLOCK_LENGTH))
    return;
  struct rip_block b = { .no_af = 1 };
  if (!rip_get_block(p, pos, &b))
    return;
  /* Special case - zero prefix, infinity metric */
  if (ipa_nonzero(b.prefix) || b.pxlen || (b.metric != p->infinity))
    return;
  /* We do nothing if TX is already active */
  if (ifa->tx_active)
  {
    TRACE(D_EVENTS, "Skipping request from %I on %s, TX is busy", from->nbr->addr, ifa->iface->name);
    return;
  }
  if (!ifa->cf->passive)
    rip_send_table(p, ifa, from->nbr->addr, 0);
 }
 static int
 rip_send_response(struct rip_proto *p, struct rip_iface *ifa)
 {
  if (! ifa->tx_active)
    return 0;
  byte *pos = rip_tx_buffer(ifa);
  byte *max = rip_tx_buffer(ifa) + ifa->tx_plen -
    (rip_is_v2(p) ? RIP_BLOCK_LENGTH : 2*RIP_BLOCK_LENGTH);
  ip_addr last_next_hop = IPA_NONE;
  int send = 0;
  struct rip_packet *pkt = (void *) pos;
  pkt->command = RIP_CMD_RESPONSE;
  pkt->version = ifa->cf->version;
  pkt->unused = 0;
  pos += rip_pkt_hdrlen(ifa);
  FIB_ITERATE_START(&p->rtable, &ifa->tx_fit, z)
  {
    struct rip_entry *en = (struct rip_entry *) z;
    /* Dummy entries */
    if (!en->valid)
      goto next_entry;
    /* Stale entries that should be removed */
    if ((en->valid == RIP_ENTRY_STALE) &&
 	((en->changed + ifa->cf->garbage_time) <= now))
      goto next_entry;
    /* Triggered updates */
    if (en->changed < ifa->tx_changed)
      goto next_entry;
    /* Not enough space for current entry */
    if (pos > max)
    {
      FIB_ITERATE_PUT(&ifa->tx_fit, z);
      goto break_loop;
    }
    struct rip_block rte = {
      .prefix = en->n.prefix,
      .pxlen = en->n.pxlen,
      .metric = en->metric,
      .tag = en->tag
    };
    if (en->iface == ifa->iface)
      rte.next_hop = en->next_hop;
    if (rip_is_v2(p) && (ifa->cf->version == RIP_V1))
    {
      /* Skipping subnets (i.e. not hosts, classful networks or default route) */
      if (ip4_masklen(ip4_class_mask(ipa_to_ip4(en->n.prefix))) != en->n.pxlen)
 	goto next_entry;
      rte.tag = 0;
      rte.pxlen = 0;
      rte.next_hop = IPA_NONE;
    }
    /* Split horizon */
    if (en->from == ifa->iface && ifa->cf->split_horizon)
    {
      if (ifa->cf->poison_reverse)
      {
 	rte.metric = p->infinity;
 	rte.next_hop = IPA_NONE;
      }
      else
 	goto next_entry;
    }
    // TRACE(D_PACKETS, "    %I/%d -> %I metric %d", rte.prefix, rte.pxlen, rte.next_hop, rte.metric);
    /* RIPng next hop entry */
    if (rip_is_ng(p) && !ipa_equal(rte.next_hop, last_next_hop))
    {
      last_next_hop = rte.next_hop;
      rip_put_next_hop(p, pos, &rte);
      pos += RIP_BLOCK_LENGTH;
    }
    rip_put_block(p, pos, &rte);
    pos += RIP_BLOCK_LENGTH;
    send = 1;
  next_entry: ;
  }
  FIB_ITERATE_END(z);
  ifa->tx_active = 0;
  /* Do not send empty packet */
  if (!send)
    return 0;
 break_loop:
  TRACE(D_PACKETS, "Sending response via %s", ifa->iface->name);
  return rip_send_to(p, ifa, pkt, pos - (byte *) pkt, ifa->tx_addr);
 }
 /**
 * rip_send_table - RIP interface timer hook
 * @p: RIP instance
 * @ifa: RIP interface
 * @addr: destination IP address
 * @changed: time limit for triggered updates
 *
 * The function activates an update session and starts sending routing update
 * packets (using rip_send_response()). The session may be finished during the
 * call or may continue in rip_tx_hook() until all appropriate routes are
 * transmitted. Note that there may be at most one active update session per
 * interface, the function will terminate the old active session before
 * activating the new one.
 */
 void
 rip_send_table(struct rip_proto *p, struct rip_iface *ifa, ip_addr addr, bird_clock_t changed)
 {
  DBG("RIP: Opening TX session to %I on %s\n", dst, ifa->iface->name);
  rip_reset_tx_session(p, ifa);
  ifa->tx_active = 1;
  ifa->tx_addr = addr;
  ifa->tx_changed = changed;
  FIB_ITERATE_INIT(&ifa->tx_fit, &p->rtable);
  rip_update_csn(p, ifa);
  while (rip_send_response(p, ifa) > 0)
    ;
 }
 static void
 rip_tx_hook(sock *sk)
 {
  struct rip_iface *ifa = sk->data;
  struct rip_proto *p = ifa->rip;
  DBG("RIP: TX hook called (iface %s, src %I, dst %I)\n",
      sk->iface->name, sk->saddr, sk->daddr);
  while (rip_send_response(p, ifa) > 0)
    ;
 }
 static void
 rip_err_hook(sock *sk, int err)
 {
  struct rip_iface *ifa = sk->data;
  struct rip_proto *p = ifa->rip;
  log(L_ERR "%s: Socket error on %s: %M", p->p.name, ifa->iface->name, err);
  rip_reset_tx_session(p, ifa);
 }
 static void
 rip_receive_response(struct rip_proto *p, struct rip_iface *ifa, struct rip_packet *pkt, uint plen, struct rip_neighbor *from)
 {
  struct rip_block rte = {};
  const char *err_dsc = NULL;
  TRACE(D_PACKETS, "Response received from %I on %s", from->nbr->addr, ifa->iface->name);
  byte *pos = (byte *) pkt + sizeof(struct rip_packet);
  byte *end = (byte *) pkt + plen;
  for (; pos < end; pos += RIP_BLOCK_LENGTH)
  {
    /* Find next regular RTE */
    if (!rip_get_block(p, pos, &rte))
      continue;
    int c = ipa_classify_net(rte.prefix);
    if ((c < 0) || !(c & IADDR_HOST) || ((c & IADDR_SCOPE_MASK) <= SCOPE_LINK))
      SKIP("invalid prefix");
    if (rip_is_v2(p) && (pkt->version == RIP_V1))
    {
      if (ifa->cf->check_zero && (rte.tag || rte.pxlen || ipa_nonzero(rte.next_hop)))
 	SKIP("RIPv1 reserved field is nonzero");
      rte.tag = 0;
      rte.pxlen = ip4_masklen(ip4_class_mask(ipa_to_ip4(rte.prefix)));
      rte.next_hop = IPA_NONE;
    }
    if ((rte.pxlen < 0) || (rte.pxlen > MAX_PREFIX_LENGTH))
      SKIP("invalid prefix length");
    if (rte.metric > p->infinity)
      SKIP("invalid metric");
    if (ipa_nonzero(rte.next_hop))
    {
      neighbor *nbr = neigh_find2(&p->p, &rte.next_hop, ifa->iface, 0);
      if (!nbr || (nbr->scope <= 0))
 	rte.next_hop = IPA_NONE;
    }
    // TRACE(D_PACKETS, "    %I/%d -> %I metric %d", rte.prefix, rte.pxlen, rte.next_hop, rte.metric);
    rte.metric += ifa->cf->metric;
    if (rte.metric < p->infinity)
    {
      struct rip_rte new = {
 	.from = from,
 	.next_hop = ipa_nonzero(rte.next_hop) ? rte.next_hop : from->nbr->addr,
 	.metric = rte.metric,
 	.tag = rte.tag,
 	.expires = now + ifa->cf->timeout_time
      };
      rip_update_rte(p, &rte.prefix, rte.pxlen, &new);
    }
    else
      rip_withdraw_rte(p, &rte.prefix, rte.pxlen, from);
    continue;
  skip:
    LOG_RTE("Ignoring route %I/%d received from %I - %s",
 	    rte.prefix, rte.pxlen, from->nbr->addr, err_dsc);
  }
 }
 static int
 rip_rx_hook(sock *sk, int len)
 {
  struct rip_iface *ifa = sk->data;
  struct rip_proto *p = ifa->rip;
  const char *err_dsc = NULL;
  uint err_val = 0;
  if (sk->lifindex != sk->iface->index)
    return 1;
  DBG("RIP: RX hook called (iface %s, src %I, dst %I)\n",
      sk->iface->name, sk->faddr, sk->laddr);
  /* Silently ignore my own packets */
  /* FIXME: Better local address check */
  if (ipa_equal(ifa->iface->addr->ip, sk->faddr))
    return 1;
  if (rip_is_ng(p) && !ipa_is_link_local(sk->faddr))
    DROP1("wrong src address");
  struct rip_neighbor *n = rip_get_neighbor(p, &sk->faddr, ifa);
  if (!n)
    DROP1("not from neighbor");
  if ((ifa->cf->ttl_security == 1) && (sk->rcv_ttl < 255))
    DROP("wrong TTL", sk->rcv_ttl);
  if (sk->fport != sk->dport)
    DROP("wrong src port", sk->fport);
  if (len < sizeof(struct rip_packet))
    DROP("too short", len);
  if (sk->flags & SKF_TRUNCATED)
    DROP("truncated", len);
  struct rip_packet *pkt = (struct rip_packet *) sk->rbuf;
  uint plen = len;
  if (!pkt->version || (ifa->cf->version_only && (pkt->version != ifa->cf->version)))
    DROP("wrong version", pkt->version);
  /* rip_check_authentication() has its own error logging */
  if (rip_is_v2(p) && !rip_check_authentication(p, ifa, pkt, &plen, n))
    return 1;
  if ((plen - sizeof(struct rip_packet)) % RIP_BLOCK_LENGTH)
    DROP("invalid length", plen);
  n->last_seen = now;
  rip_update_bfd(p, n);
  switch (pkt->command)
  {
  case RIP_CMD_REQUEST:
    rip_receive_request(p, ifa, pkt, plen, n);
    break;
  case RIP_CMD_RESPONSE:
    rip_receive_response(p, ifa, pkt, plen, n);
    break;
  default:
    DROP("unknown command", pkt->command);
  }
  return 1;
 drop:
  LOG_PKT("Bad packet from %I via %s - %s (%u)",
 	  sk->faddr, sk->iface->name, err_dsc, err_val);
  return 1;
 }
 int
 rip_open_socket(struct rip_iface *ifa)
 {
  struct rip_proto *p = ifa->rip;
  sock *sk = sk_new(p->p.pool);
  sk->type = SK_UDP;
  sk->sport = ifa->cf->port;
  sk->dport = ifa->cf->port;
  sk->iface = ifa->iface;
  /*
   * For RIPv2, we explicitly choose a primary address, mainly to ensure that
   * RIP and BFD uses the same one. For RIPng, we left it to kernel, which
   * should choose some link-local address based on the same scope rule.
   */
  if (rip_is_v2(p))
    sk->saddr = ifa->iface->addr->ip;
  sk->rx_hook = rip_rx_hook;
  sk->tx_hook = rip_tx_hook;
  sk->err_hook = rip_err_hook;
  sk->data = ifa;
  sk->tos = ifa->cf->tx_tos;
  sk->priority = ifa->cf->tx_priority;
  sk->ttl = ifa->cf->ttl_security ? 255 : 1;
  sk->flags = SKF_LADDR_RX | ((ifa->cf->ttl_security == 1) ? SKF_TTL_RX : 0);
  /* sk->rbsize and sk->tbsize are handled in rip_iface_update_buffers() */
  if (sk_open(sk) < 0)
    goto err;
  if (ifa->cf->mode == RIP_IM_MULTICAST)
  {
    if (sk_setup_multicast(sk) < 0)
      goto err;
    if (sk_join_group(sk, ifa->addr) < 0)
      goto err;
  }
  else /* Broadcast */
  {
    if (sk_setup_broadcast(sk) < 0)
      goto err;
    if (ipa_zero(ifa->addr))
    {
      sk->err = "Missing broadcast address";
      goto err;
    }
  }
  ifa->sk = sk;
  return 1;
 err:
  sk_log_error(sk, p->p.name);
  rfree(sk);
  return 0;
 }
--- a/proto/rip/rip.c
+++ b/proto/rip/rip.c
--- a/proto/rip/rip.h
+++ b/proto/rip/rip.h
@ -1,185 +1,227 @@
 /*
- * Structures for RIP protocol
+ *	BIRD -- Routing Information Protocol (RIP)
 *
-   FIXME: in V6, they insert additional entry whenever next hop differs. Such entry is identified by 0xff in metric.
+ *	(c) 1998--1999 Pavel Machek <pavel@ucw.cz>
 *	(c) 2004--2013 Ondrej Filip <feela@network.cz>
 *	(c) 2009--2015 Ondrej Zajicek <santiago@crfreenet.org>
 *	(c) 2009--2015 CZ.NIC z.s.p.o.
 *
 *	Can be freely distributed and used under the terms of the GNU GPL.
 */
 #ifndef _BIRD_RIP_H_
 #define _BIRD_RIP_H_
 #include "nest/bird.h"
 #include "nest/cli.h"
 #include "nest/iface.h"
 #include "nest/protocol.h"
 #include "nest/route.h"
 #include "nest/password.h"
 #include "nest/locks.h"
-
+#include "nest/bfd.h"
-#define EA_RIP_TAG	EA_CODE(EAP_RIP, 0)
+#include "lib/lists.h"
-#define EA_RIP_METRIC	EA_CODE(EAP_RIP, 1)
+#include "lib/resource.h"
-
+#include "lib/socket.h"
-#define PACKET_MAX	25
+#include "lib/string.h"
-#define PACKET_MD5_MAX	18	/* FIXME */
+#include "lib/timer.h"
-#define RIP_V1		1
+#ifdef IPV6
-#define RIP_V2		2
+#define RIP_IS_V2 0
 #define RIP_NG		1	/* A new version numbering */
 #ifndef IPV6
 #define RIP_PORT	520	/* RIP for IPv4 */
 #else
-#define RIP_PORT	521	/* RIPng */
+#define RIP_IS_V2 1
 #endif
 struct rip_connection {
  node n;
  int num;
  struct proto *proto;
  ip_addr addr;
  sock *send;
  struct rip_interface *rif;
  struct fib_iterator iter;
  ip_addr daddr;
  int dport;
  int done;
 };
 struct rip_packet_heading {		/* 4 bytes */
  u8 command;
 #define RIPCMD_REQUEST          1       /* want info */
 #define RIPCMD_RESPONSE         2       /* responding to request */
 #define RIPCMD_TRACEON          3       /* turn tracing on */
 #define RIPCMD_TRACEOFF         4       /* turn it off */
 #define RIPCMD_MAX              5
  u8 version;
 #define RIP_V1			1
 #define RIP_V2			2
-#define RIP_NG 			1	/* this is verion 1 of RIPng */
+
-  u16 unused;
+#define RIP_PORT		520	/* RIP for IPv4 */
 #define RIP_NG_PORT		521	/* RIPng */
 #define RIP_MAX_PKT_LENGTH	532	/* 512 + IP4_HEADER_LENGTH */
 #define RIP_AUTH_TAIL_LENGTH	20	/* 4 + MD5 length */
 #define RIP_DEFAULT_ECMP_LIMIT	16
 #define RIP_DEFAULT_INFINITY	16
 #define RIP_DEFAULT_UPDATE_TIME	30
 #define RIP_DEFAULT_TIMEOUT_TIME 180
 #define RIP_DEFAULT_GARBAGE_TIME 120
 struct rip_config
 {
  struct proto_config c;
  list patt_list;			/* List of iface configs (struct rip_iface_config) */
  u8 rip2;				/* RIPv2 (IPv4) or RIPng (IPv6) */
  u8 ecmp;				/* Maximum number of nexthops in ECMP route, or 0 */
  u8 infinity;				/* Maximum metric value, representing infinity */
  u32 min_timeout_time;			/* Minimum of interface timeout_time */
  u32 max_garbage_time;			/* Maximum of interface garbage_time */
 };
-#ifndef IPV6
+struct rip_iface_config
-struct rip_block {	/* 20 bytes */
+{
  u16 family;	/* 0xffff on first message means this is authentication */
  u16 tag;
  ip_addr network;
  ip_addr netmask;
  ip_addr nexthop;
  u32 metric;
 };
 #else
 struct rip_block { /* IPv6 version!, 20 bytes, too */
  ip_addr network;
  u16 tag;
  u8 pxlen;
  u8 metric;
 };
 #endif
 struct rip_block_auth { /* 20 bytes */
  u16 mustbeFFFF;
  u16 authtype;
  u16 packetlen;
  u8 keyid;
  u8 authlen;
  u32 seq;
  u32 zero0;
  u32 zero1;
 };
 struct rip_md5_tail {	/* 20 bytes */
  u16 mustbeFFFF;
  u16 mustbe0001;
  char md5[16];
 };
 struct rip_entry {
  struct fib_node n;
  ip_addr whotoldme;
  ip_addr nexthop;
  int metric;
  u16 tag;
  bird_clock_t updated, changed;
  int flags;
 };
 struct rip_packet {
  struct rip_packet_heading heading;
  struct rip_block block[PACKET_MAX];
 };
 struct rip_interface {
  node n;
  struct proto *proto;
  struct iface *iface;
  sock *sock;
  struct rip_connection *busy;
  int metric;			/* You don't want to put struct rip_patt *patt here -- think about reconfigure */
  int mode;
  int check_ttl;		/* Check incoming packets for TTL 255 */
  int triggered;
  struct object_lock *lock;
  int multicast;
 };
 struct rip_patt {
  struct iface_patt i;
-
+  ip_addr address;			/* Configured dst address */
-  int metric;		/* If you add entries here, don't forget to modify patt_compare! */
+  u16 port;				/* Src+dst port */
-  int mode;
+  u8 metric;				/* Incoming metric */
-#define IM_BROADCAST 2
+  u8 mode;				/* Interface mode (RIP_IM_*) */
-#define IM_QUIET 4
+  u8 passive;				/* Passive iface - no packets are sent */
-#define IM_NOLISTEN 8
+  u8 version;				/* RIP version used for outgoing packets */
-#define IM_VERSION1 16
+  u8 version_only;	/* FIXXX */
  u8 split_horizon;			/* Split horizon is used in route updates */
  u8 poison_reverse;			/* Poisoned reverse is used in route updates */
  u8 check_zero;			/* Validation of RIPv1 reserved fields */
  u8 ecmp_weight;			/* Weight for ECMP routes*/
  u8 auth_type;				/* Authentication type (RIP_AUTH_*) */
  u8 ttl_security;			/* bool + 2 for TX only (send, but do not check on RX) */
  u8 check_link;			/* Whether iface link change is used */
  u8 bfd;				/* Use BFD on iface */
  u16 rx_buffer;			/* RX buffer size, 0 for MTU */
  u16 tx_length;			/* TX packet length limit (including headers), 0 for MTU */
  int tx_tos;
  int tx_priority;
-  int ttl_security;	/* bool + 2 for TX only (send, but do not check on RX) */
+  u32 update_time;			/* Periodic update interval */
  u32 timeout_time;			/* Route expiration timeout */
  u32 garbage_time;			/* Unreachable entry GC timeout */
  list *passwords;			/* Passwords for authentication */
 };
-struct rip_proto_config {
+struct rip_proto
-  struct proto_config c;
+{
-  list iface_list;	/* Patterns configured -- keep it first; see rip_reconfigure why */
+  struct proto p;
-  list *passwords;	/* Passwords, keep second */
+  struct fib rtable;			/* Internal routing table */
  list iface_list;			/* List of interfaces (struct rip_iface) */
  slab *rte_slab;			/* Slab for internal routes (struct rip_rte) */
  timer *timer;				/* Main protocol timer */
-  int infinity;		/* User configurable data; must be comparable with memcmp */
+  u8 ecmp;				/* Maximum number of nexthops in ECMP route, or 0 */
-  int port;
+  u8 infinity;				/* Maximum metric value, representing infinity */
-  int period;
+  u8 triggered;				/* Logical AND of interface want_triggered values */
-  int garbage_time;
+  u8 rt_reload;				/* Route reload is scheduled */
  int timeout_time;
-  int authtype;
+  struct tbf log_pkt_tbf;		/* TBF for packet messages */
-#define AT_NONE 0
+  struct tbf log_rte_tbf;		/* TBF for RTE messages */
 #define AT_PLAINTEXT 2
 #define AT_MD5 3
  int honor;
 #define HO_NEVER 0
 #define HO_NEIGHBOR 1
 #define HO_ALWAYS 2
 };
-struct rip_proto {
+struct rip_iface
-  struct proto inherited;
+{
-  timer *timer;
+  node n;
-  list connections;
+  struct rip_proto *rip;
-  struct fib rtable;
+  struct iface *iface;			/* Underyling core interface */
-  list garbage;
+  struct rip_iface_config *cf;		/* Related config, must be updated in reconfigure */
-  list interfaces;	/* Interfaces we really know about */
+  struct object_lock *lock;		/* Interface lock */
-#ifdef LOCAL_DEBUG
+  timer *timer;				/* Interface timer */
-  int magic;
+  sock *sk;				/* UDP socket */
  u8 up;				/* Interface is active */
  u8 csn_ready;				/* Nonzero CSN can be used */
  u16 tx_plen;				/* Max TX packet data length */
  u32 csn;				/* Last used crypto sequence number */
  ip_addr addr;				/* Destination multicast/broadcast address */
  list neigh_list;			/* List of iface neighbors (struct rip_neighbor) */
  /* Update scheduling */
  bird_clock_t next_regular;		/* Next time when regular update should be called */
  bird_clock_t next_triggered;		/* Next time when triggerd update may be called */
  bird_clock_t want_triggered;		/* Nonzero if triggered update is scheduled */
  /* Active update */
  int tx_active;			/* Update session is active */
  ip_addr tx_addr;			/* Update session destination address */
  bird_clock_t tx_changed;		/* Minimal changed time for triggered update */
  struct fib_iterator tx_fit;		/* FIB iterator in RIP routing table (p.rtable) */
 };
 struct rip_neighbor
 {
  node n;
  struct rip_iface *ifa;		/* Associated interface, may be NULL if stale */
  struct neighbor *nbr;			/* Associaded core neighbor, may be NULL if stale */
  struct bfd_request *bfd_req;		/* BFD request, if BFD is used */
  bird_clock_t last_seen;		/* Time of last received and accepted message */
  u32 uc;				/* Use count, number of routes linking the neighbor */
  u32 csn;				/* Last received crypto sequence number */
 };
 struct rip_entry
 {
  struct fib_node n;
  struct rip_rte *routes;		/* List of incoming routes */
  u8 valid;				/* Entry validity state (RIP_ENTRY_*) */
  u8 metric;				/* Outgoing route metric */
  u16 tag;				/* Outgoing route tag */
  struct iface *from;			/* Outgoing route from, NULL if from  proto */
  struct iface *iface;			/* Outgoing route iface (for next hop) */
  ip_addr next_hop;			/* Outgoing route next hop */
  bird_clock_t changed;			/* Last time when the outgoing route metric changed */
 };
 struct rip_rte
 {
  struct rip_rte *next;
  struct rip_neighbor *from;		/* Advertising router */
  ip_addr next_hop;			/* Route next hop (iface is from->nbr->iface) */
  u16 metric;				/* Route metric (after increase) */
  u16 tag;				/* Route tag */
  bird_clock_t expires;			/* Time of route expiration */
 };
 #define RIP_AUTH_NONE		0
 #define RIP_AUTH_PLAIN		2
 #define RIP_AUTH_CRYPTO		3
 #define RIP_IM_MULTICAST	1
 #define RIP_IM_BROADCAST	2
 #define RIP_ENTRY_DUMMY		0	/* Only used to store list of incoming routes */
 #define RIP_ENTRY_VALID		1	/* Valid outgoing route */
 #define RIP_ENTRY_STALE		2	/* Stale outgoing route, waiting for GC */
 #define EA_RIP_METRIC		EA_CODE(EAP_RIP, 0)
 #define EA_RIP_TAG		EA_CODE(EAP_RIP, 1)
 #define rip_is_v2(X) RIP_IS_V2
 #define rip_is_ng(X) (!RIP_IS_V2)
 /*
 static inline int rip_is_v2(struct rip_proto *p)
 { return p->rip2; }
 static inline int rip_is_ng(struct rip_proto *p)
 { return ! p->rip2; }
 */
 static inline void
 rip_reset_tx_session(struct rip_proto *p, struct rip_iface *ifa)
 {
  if (ifa->tx_active)
  {
    FIB_ITERATE_UNLINK(&ifa->tx_fit, &p->rtable);
    ifa->tx_active = 0;
  }
 }
 /* rip.c */
 void rip_update_rte(struct rip_proto *p, ip_addr *prefix, int pxlen, struct rip_rte *new);
 void rip_withdraw_rte(struct rip_proto *p, ip_addr *prefix, int pxlen, struct rip_neighbor *from);
 struct rip_neighbor * rip_get_neighbor(struct rip_proto *p, ip_addr *a, struct rip_iface *ifa);
 void rip_update_bfd(struct rip_proto *p, struct rip_neighbor *n);
 void rip_show_interfaces(struct proto *P, char *iff);
 void rip_show_neighbors(struct proto *P, char *iff);
 /* packets.c */
 void rip_send_request(struct rip_proto *p, struct rip_iface *ifa);
 void rip_send_table(struct rip_proto *p, struct rip_iface *ifa, ip_addr addr, bird_clock_t changed);
 int rip_open_socket(struct rip_iface *ifa);
 #endif
  int tx_count;		/* Do one regular update once in a while */
  int rnd_count;	/* Randomize sending time */
 };
 #ifdef LOCAL_DEBUG
 #define RIP_MAGIC 81861253
 #define CHK_MAGIC do { if (P->magic != RIP_MAGIC) bug( "Not enough magic" ); } while (0)
 #else
 #define CHK_MAGIC do { } while (0)
 #endif
 void rip_init_config(struct rip_proto_config *c);
 /* Authentication functions */
 int rip_incoming_authentication( struct proto *p, struct rip_block_auth *block, struct rip_packet *packet, int num, ip_addr whotoldme );
 int rip_outgoing_authentication( struct proto *p, struct rip_block_auth *block, struct rip_packet *packet, int num );