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cce974e8ea
Some tokens are both keywords and symbols. For now, we allow only specific keywords to be redefined; in future, more of the keywords may be added to this category. The redefinable keywords must be specified in any .Y file as follows: toksym: THE_KEYWORD ; See proto/bgp/config.Y for an example. Also dropped a lot of unused terminals.
205 lines
7.0 KiB
Plaintext
205 lines
7.0 KiB
Plaintext
/*
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* BIRD -- RIP Configuration
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*
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* (c) 1998--1999 Pavel Machek <pavel@ucw.cz>
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* (c) 2004--2013 Ondrej Filip <feela@network.cz>
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* (c) 2009--2015 Ondrej Zajicek <santiago@crfreenet.org>
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* (c) 2009--2015 CZ.NIC z.s.p.o.
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*
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* Can be freely distributed and used under the terms of the GNU GPL.
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*/
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CF_HDR
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#include "proto/rip/rip.h"
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#include "nest/iface.h"
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CF_DEFINES
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#define RIP_CFG ((struct rip_config *) this_proto)
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#define RIP_IFACE ((struct rip_iface_config *) this_ipatt)
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static inline int rip_cfg_is_v2(void) { return RIP_CFG->rip2; }
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static inline int rip_cfg_is_ng(void) { return ! RIP_CFG->rip2; }
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static inline void
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rip_check_auth(void)
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{
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if (rip_cfg_is_ng())
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cf_error("Authentication not supported in RIPng");
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}
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CF_DECLS
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CF_KEYWORDS(RIP, NG, ECMP, LIMIT, WEIGHT, INFINITY, METRIC, UPDATE, TIMEOUT,
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GARBAGE, RETRANSMIT, PORT, ADDRESS, MODE, BROADCAST, MULTICAST,
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PASSIVE, VERSION, SPLIT, HORIZON, POISON, REVERSE, CHECK, ZERO,
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TIME, BFD, AUTHENTICATION, NONE, PLAINTEXT, CRYPTOGRAPHIC, MD5,
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TTL, SECURITY, RX, TX, BUFFER, LENGTH, PRIORITY, ONLY, LINK,
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DEMAND, CIRCUIT)
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%type <i> rip_variant rip_auth
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CF_GRAMMAR
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proto: rip_proto ;
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rip_variant:
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RIP { $$ = 1; }
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| RIP NG { $$ = 0; }
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;
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rip_proto_start: proto_start rip_variant
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{
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this_proto = proto_config_new(&proto_rip, $1);
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this_proto->net_type = $2 ? NET_IP4 : NET_IP6;
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init_list(&RIP_CFG->patt_list);
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RIP_CFG->rip2 = $2;
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RIP_CFG->ecmp = rt_default_ecmp;
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RIP_CFG->infinity = RIP_DEFAULT_INFINITY;
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RIP_CFG->min_timeout_time = 60 S_;
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RIP_CFG->max_garbage_time = 60 S_;
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};
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rip_proto_item:
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proto_item
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| proto_channel
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| ECMP bool { RIP_CFG->ecmp = $2 ? RIP_DEFAULT_ECMP_LIMIT : 0; }
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| ECMP bool LIMIT expr { RIP_CFG->ecmp = $2 ? $4 : 0; }
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| INFINITY expr { RIP_CFG->infinity = $2; }
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| INTERFACE rip_iface
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;
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rip_proto_opts:
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/* empty */
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| rip_proto_opts rip_proto_item ';'
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;
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rip_proto:
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rip_proto_start proto_name '{' rip_proto_opts '}';
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rip_iface_start:
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{
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this_ipatt = cfg_allocz(sizeof(struct rip_iface_config));
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add_tail(&RIP_CFG->patt_list, NODE this_ipatt);
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init_list(&this_ipatt->ipn_list);
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reset_passwords();
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RIP_IFACE->metric = 1;
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RIP_IFACE->port = rip_cfg_is_v2() ? RIP_PORT : RIP_NG_PORT;
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RIP_IFACE->version = rip_cfg_is_v2() ? RIP_V2 : RIP_V1;
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RIP_IFACE->split_horizon = 1;
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RIP_IFACE->poison_reverse = 1;
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RIP_IFACE->check_zero = 1;
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RIP_IFACE->check_link = 1;
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RIP_IFACE->ttl_security = rip_cfg_is_v2() ? 0 : 1;
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RIP_IFACE->rx_buffer = rip_cfg_is_v2() ? RIP_MAX_PKT_LENGTH : 0;
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RIP_IFACE->tx_length = rip_cfg_is_v2() ? RIP_MAX_PKT_LENGTH : 0;
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RIP_IFACE->tx_tos = IP_PREC_INTERNET_CONTROL;
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RIP_IFACE->tx_priority = sk_priority_control;
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RIP_IFACE->update_time = RIP_DEFAULT_UPDATE_TIME;
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RIP_IFACE->timeout_time = RIP_DEFAULT_TIMEOUT_TIME;
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RIP_IFACE->garbage_time = RIP_DEFAULT_GARBAGE_TIME;
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RIP_IFACE->rxmt_time = RIP_DEFAULT_RXMT_TIME;
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};
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rip_iface_finish:
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{
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/* Default mode is broadcast for RIPv1, multicast for RIPv2 and RIPng */
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if (!RIP_IFACE->mode)
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RIP_IFACE->mode = (rip_cfg_is_v2() && (RIP_IFACE->version == RIP_V1)) ?
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RIP_IM_BROADCAST : RIP_IM_MULTICAST;
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RIP_IFACE->passwords = get_passwords();
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if (!RIP_IFACE->auth_type != !RIP_IFACE->passwords)
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log(L_WARN "Authentication and password options should be used together");
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if (RIP_IFACE->passwords)
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{
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struct password_item *pass;
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WALK_LIST(pass, *RIP_IFACE->passwords)
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{
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if (pass->alg && (RIP_IFACE->auth_type != RIP_AUTH_CRYPTO))
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cf_error("Password algorithm option requires cryptographic authentication");
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/* Set default crypto algorithm (MD5) */
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if (!pass->alg && (RIP_IFACE->auth_type == RIP_AUTH_CRYPTO))
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pass->alg = ALG_MD5;
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}
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}
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RIP_CFG->min_timeout_time = MIN_(RIP_CFG->min_timeout_time, RIP_IFACE->timeout_time);
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RIP_CFG->max_garbage_time = MAX_(RIP_CFG->max_garbage_time, RIP_IFACE->garbage_time);
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};
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rip_iface_item:
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METRIC expr { RIP_IFACE->metric = $2; if (($2<1) || ($2>255)) cf_error("Metric must be in range 1-255"); }
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| MODE MULTICAST { RIP_IFACE->mode = RIP_IM_MULTICAST; }
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| MODE BROADCAST { RIP_IFACE->mode = RIP_IM_BROADCAST; if (rip_cfg_is_ng()) cf_error("Broadcast not supported in RIPng"); }
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| PASSIVE bool { RIP_IFACE->passive = $2; }
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| ADDRESS ipa { RIP_IFACE->address = $2; if (ipa_is_ip4($2) != rip_cfg_is_v2()) cf_error("IP address version mismatch"); }
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| PORT expr { RIP_IFACE->port = $2; if (($2<1) || ($2>65535)) cf_error("Invalid port number"); }
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| VERSION expr { RIP_IFACE->version = $2;
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if (rip_cfg_is_ng()) cf_error("Version not supported in RIPng");
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if (($2 != RIP_V1) && ($2 != RIP_V2)) cf_error("Unsupported version");
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}
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| VERSION ONLY bool { RIP_IFACE->version_only = $3; }
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| SPLIT HORIZON bool { RIP_IFACE->split_horizon = $3; }
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| POISON REVERSE bool { RIP_IFACE->poison_reverse = $3; }
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| CHECK ZERO bool { RIP_IFACE->check_zero = $3; }
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| DEMAND CIRCUIT bool { RIP_IFACE->demand_circuit = $3; }
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| UPDATE TIME expr { RIP_IFACE->update_time = $3 S_; if ($3<=0) cf_error("Update time must be positive"); }
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| TIMEOUT TIME expr { RIP_IFACE->timeout_time = $3 S_; if ($3<=0) cf_error("Timeout time must be positive"); }
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| GARBAGE TIME expr { RIP_IFACE->garbage_time = $3 S_; if ($3<=0) cf_error("Garbage time must be positive"); }
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| RETRANSMIT TIME expr_us { RIP_IFACE->rxmt_time = $3; if ($3<=0) cf_error("Retransmit time must be positive"); }
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| ECMP WEIGHT expr { RIP_IFACE->ecmp_weight = $3 - 1; if (($3<1) || ($3>256)) cf_error("ECMP weight must be in range 1-256"); }
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| RX BUFFER expr { RIP_IFACE->rx_buffer = $3; if (($3<256) || ($3>65535)) cf_error("RX length must be in range 256-65535"); }
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| TX LENGTH expr { RIP_IFACE->tx_length = $3; if (($3<256) || ($3>65535)) cf_error("TX length must be in range 256-65535"); }
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| TX tos { RIP_IFACE->tx_tos = $2; }
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| TX PRIORITY expr { RIP_IFACE->tx_priority = $3; }
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| TTL SECURITY bool { RIP_IFACE->ttl_security = $3; }
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| TTL SECURITY TX ONLY { RIP_IFACE->ttl_security = 2; }
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| CHECK LINK bool { RIP_IFACE->check_link = $3; }
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| BFD bool { RIP_IFACE->bfd = $2; cf_check_bfd($2); }
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| AUTHENTICATION rip_auth { RIP_IFACE->auth_type = $2; if ($2) rip_check_auth(); }
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| password_list { rip_check_auth(); }
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;
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rip_auth:
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NONE { $$ = RIP_AUTH_NONE; }
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| PLAINTEXT { $$ = RIP_AUTH_PLAIN; }
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| CRYPTOGRAPHIC { $$ = RIP_AUTH_CRYPTO; }
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| MD5 { $$ = RIP_AUTH_CRYPTO; } /* For backward compatibility */
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;
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rip_iface_opts:
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/* empty */
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| rip_iface_opts rip_iface_item ';'
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;
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rip_iface_opt_list:
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/* empty */
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| '{' rip_iface_opts '}'
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;
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rip_iface:
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rip_iface_start iface_patt_list_nopx rip_iface_opt_list rip_iface_finish;
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CF_CLI_HELP(SHOW RIP, ..., [[Show information about RIP protocol]]);
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CF_CLI(SHOW RIP INTERFACES, optproto opttext, [<name>] [\"<interface>\"], [[Show information about RIP interfaces]])
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{ PROTO_WALK_CMD($4, &proto_rip, p) rip_show_interfaces(p, $5); };
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CF_CLI(SHOW RIP NEIGHBORS, optproto opttext, [<name>] [\"<interface>\"], [[Show information about RIP neighbors]])
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{ PROTO_WALK_CMD($4, &proto_rip, p) rip_show_neighbors(p, $5); };
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CF_CODE
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CF_END
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