/* * BIRD -- Routing Information Protocol (RIP) * * (c) 1998--1999 Pavel Machek * (c) 2004--2013 Ondrej Filip * (c) 2009--2015 Ondrej Zajicek * (c) 2009--2015 CZ.NIC z.s.p.o. * * Can be freely distributed and used under the terms of the GNU GPL. */ #undef LOCAL_DEBUG #include "rip.h" #include "lib/mac.h" #define RIP_CMD_REQUEST 1 /* want info */ #define RIP_CMD_RESPONSE 2 /* responding to request */ #define RIP_CMD_UPDATE_REQUEST 9 #define RIP_CMD_UPDATE_RESPONSE 10 #define RIP_CMD_UPDATE_ACK 11 #define RIP_BLOCK_LENGTH 20 #define RIP_PASSWD_LENGTH 16 #define RIP_AF_IPV4 2 #define RIP_AF_AUTH 0xffff #define RIP_UPDATE_VERSION 1 /* RIP packet header */ struct rip_packet { u8 command; u8 version; u16 unused; }; /* Triggered RIP update header (RFC 2091) */ struct rip_update_hdr { u8 version; u8 flush; u16 seqnum; }; /* 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; union { char password[16]; struct { 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[0]; }; /* Internal representation of RTE block data */ struct rip_block { net_addr net; u32 metric; u16 tag; u16 no_af; ip_addr next_hop; }; static int rip_send_ack(struct rip_proto *p, struct rip_iface *ifa, uint flush, uint seqnum); #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->demand_circuit ? sizeof(struct rip_update_hdr) : 0) + (ifa->cf->auth_type ? RIP_BLOCK_LENGTH : 0); } static inline struct rip_update_hdr * rip_get_update_hdr(struct rip_packet *pkt) { return (void *) ((byte *) pkt + sizeof(struct rip_packet)); } static inline struct rip_block_auth * rip_get_auth_block(struct rip_iface *ifa, struct rip_packet *pkt) { return (void *) ((byte *) pkt + sizeof(struct rip_packet) + (ifa->cf->demand_circuit ? sizeof(struct rip_update_hdr) : 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(net4_prefix(&rte->net)); block->netmask = ip4_hton(ip4_mkmask(net4_pxlen(&rte->net))); 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(net6_prefix(&rte->net)); block->tag = htons(rte->tag); block->pxlen = net6_pxlen(&rte->net); block->metric = rte->metric; } } static inline void rip_put_next_hop(struct rip_proto *p UNUSED, 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; uint pxlen = ip4_masklen(ip4_ntoh(block->netmask)); net_fill_ip4(&rte->net, ip4_ntoh(block->network), pxlen); 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; } uint pxlen = (block->pxlen <= IP6_MAX_PREFIX_LENGTH) ? block->pxlen : 255; net_fill_ip6(&rte->net, ip6_ntoh(block->prefix), 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) { u32 now_real = (u32) (current_real_time() TO_S); ifa->csn = (ifa->csn < now_real) ? now_real : ifa->csn + 1; } } static inline void rip_fill_header(struct rip_iface *ifa, struct rip_packet *pkt, uint cmd) { *pkt = (struct rip_packet) { .command = cmd, .version = ifa->cf->version }; } static inline void rip_fill_update_hdr(struct rip_packet *pkt, uint flush, uint seqnum) { struct rip_update_hdr *hdr = rip_get_update_hdr(pkt); *hdr = (struct rip_update_hdr) { .version = RIP_UPDATE_VERSION, .flush = flush, .seqnum = htons(seqnum) }; } static void rip_fill_authentication(struct rip_proto *p, struct rip_iface *ifa, struct rip_packet *pkt, uint *plen) { struct rip_block_auth *auth = rip_get_auth_block(ifa, pkt); 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 = mac_type_length(pass->alg); auth->seq_num = ifa->csn_ready ? htonl(ifa->csn) : 0; auth->unused1 = 0; auth->unused2 = 0; ifa->csn_ready = 1; if (pass->alg < ALG_HMAC) auth->auth_len += sizeof(struct rip_auth_tail); /* * Note that RFC 4822 is unclear whether auth_len should cover whole * authentication trailer or just auth_data length. * * FIXME: We should use just auth_data length by default. Currently we put * the whole auth trailer length in keyed hash case to keep old behavior, * but we put just auth_data length in the new HMAC case. Note that Quagga * has config option for this. * * 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); uint auth_len = mac_type_length(pass->alg); *plen += sizeof(struct rip_auth_tail) + auth_len; /* Append key for keyed hash, append padding for HMAC (RFC 4822 2.5) */ if (pass->alg < ALG_HMAC) strncpy(tail->auth_data, pass->password, auth_len); else memset32(tail->auth_data, HMAC_MAGIC, auth_len / 4); mac_fill(pass->alg, pass->password, pass->length, (byte *) pkt, *plen, tail->auth_data); 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, uint hdr_len, struct rip_neighbor *n) { struct rip_block_auth *auth = (void *) ((byte *) pkt + hdr_len); struct password_item *pass = NULL; const char *err_dsc = NULL; uint err_val = 0; uint auth_type = 0; /* Check for authentication entry */ if ((*plen >= (hdr_len + 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 = mac_type_length(pass->alg); uint auth_len2 = sizeof(struct rip_auth_tail) + auth_len; /* * Ideally, first check should be check for internal consistency: * (data_len + sizeof(struct rip_auth_tail) + auth->auth_len) != *plen * * Second one should check expected code length: * auth->auth_len != auth_len * * But as auth->auth_len has two interpretations, we simplify this */ if (data_len + auth_len2 != *plen) DROP("packet length mismatch", *plen); /* Warning: two interpretations of auth_len field */ if ((auth->auth_len != auth_len) && (auth->auth_len != auth_len2)) DROP("wrong authentication length", 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; } byte *auth_data = alloca(auth_len); memcpy(auth_data, tail->auth_data, auth_len); /* Append key for keyed hash, append padding for HMAC (RFC 4822 2.5) */ if (pass->alg < ALG_HMAC) strncpy(tail->auth_data, pass->password, auth_len); else memset32(tail->auth_data, HMAC_MAGIC, auth_len / 4); if (!mac_verify(pass->alg, pass->password, pass->length, (byte *) pkt, *plen, auth_data)) DROP("wrong authentication code", 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); } static inline void rip_kick_rxmt_timer(struct rip_iface *ifa) { if (! tm_active(ifa->rxmt_timer)) tm_start(ifa->rxmt_timer, ifa->cf->rxmt_time); } void rip_send_request(struct rip_proto *p, struct rip_iface *ifa) { struct rip_packet *pkt = rip_tx_buffer(ifa); byte *pos = (byte *) pkt + rip_pkt_hdrlen(ifa); rip_fill_header(ifa, pkt, RIP_CMD_REQUEST); if (ifa->cf->demand_circuit) { pkt->command = RIP_CMD_UPDATE_REQUEST; rip_fill_update_hdr(pkt, 0, 0); /* Must be acknowledged by update response */ ifa->req_pending = 1; rip_kick_rxmt_timer(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 - infinity metric, for RIPng also zero prefix */ if ((b.metric != p->infinity) || (rip_is_ng(p) && !net_zero_ip6((net_addr_ip6 *) &b.net))) 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; /* In demand circuit mode, we may wait for ACK */ if (ifa->tx_pending) return 0; struct rip_packet *pkt = rip_tx_buffer(ifa); byte *pos = (byte *) pkt + rip_pkt_hdrlen(ifa); byte *max = (byte *) pkt + ifa->tx_plen - (rip_is_v2(p) ? RIP_BLOCK_LENGTH : 2*RIP_BLOCK_LENGTH); ip_addr last_next_hop = IPA_NONE; btime now_ = current_time(); int send = 0; rip_fill_header(ifa, pkt, RIP_CMD_RESPONSE); if (ifa->cf->demand_circuit) { pkt->command = RIP_CMD_UPDATE_RESPONSE; rip_fill_update_hdr(pkt, ifa->tx_flush, ifa->tx_seqnum); } FIB_ITERATE_START(&p->rtable, &ifa->tx_fit, struct rip_entry, en) { /* 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); goto send_pkt; } struct rip_block rte = { .metric = en->metric, .tag = en->tag }; net_copy(&rte.net, en->n.addr); 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(net4_prefix(&rte.net))) != rte.net.pxlen) goto next_entry; rte.tag = 0; rte.net.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, " %N -> %I metric %d", &rte.net, 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; if (send) { FIB_ITERATE_PUT_END(&ifa->tx_fit); goto send_pkt; } /* Do not send empty packet */ ifa->tx_active = 0; /* Unlink second iterator */ FIB_ITERATE_UNLINK(&ifa->tx_done, &p->rtable); return 0; send_pkt: /* Waiting for ack or timeout */ if (ifa->cf->demand_circuit) { ifa->tx_pending = 1; rip_kick_rxmt_timer(ifa); } 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, btime changed) { DBG("RIP: Opening TX session to %I on %s\n", addr, 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); FIB_ITERATE_INIT(&ifa->tx_done, &p->rtable); if (ifa->cf->demand_circuit) ifa->tx_flush = ! changed; 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 + rip_pkt_hdrlen(ifa); byte *end = (byte *) pkt + plen; btime expires = current_time() + ifa->cf->timeout_time; if (pkt->command == RIP_CMD_UPDATE_RESPONSE) { struct rip_update_hdr *hdr = rip_get_update_hdr(pkt); rip_send_ack(p, ifa, hdr->flush, ntohs(hdr->seqnum)); expires = TIME_INFINITY; /* Handle flush bit */ if (hdr->flush) { /* Flush old routes */ rip_flush_table(p, from); /* Acknowledge pending request */ ifa->req_pending = 0; } } for (; pos < end; pos += RIP_BLOCK_LENGTH) { /* Find next regular RTE */ if (!rip_get_block(p, pos, &rte)) continue; if (rip_is_v2(p) && (pkt->version == RIP_V1)) { if (ifa->cf->check_zero && (rte.tag || rte.net.pxlen || ipa_nonzero(rte.next_hop))) SKIP("RIPv1 reserved field is nonzero"); rte.tag = 0; rte.net.pxlen = ip4_masklen(ip4_class_mask(net4_prefix(&rte.net))); rte.next_hop = IPA_NONE; } if (rte.net.pxlen == 255) SKIP("invalid prefix length"); net_normalize(&rte.net); int c = net_classify(&rte.net); if ((c < 0) || !(c & IADDR_HOST) || ((c & IADDR_SCOPE_MASK) <= SCOPE_LINK)) SKIP("invalid prefix"); if (rte.metric > p->infinity) SKIP("invalid metric"); if (ipa_nonzero(rte.next_hop)) { neighbor *nbr = neigh_find(&p->p, rte.next_hop, ifa->iface, 0); if (!nbr || (nbr->scope <= 0)) rte.next_hop = IPA_NONE; } // TRACE(D_PACKETS, " %N -> %I metric %d", &rte.net.n, 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 = expires }; rip_update_rte(p, &rte.net, &new); } else rip_withdraw_rte(p, &rte.net, from); continue; skip: LOG_RTE("Ignoring route %N received from %I - %s", &rte.net, from->nbr->addr, err_dsc); } } int rip_send_flush(struct rip_proto *p, struct rip_iface *ifa) { /* Caller should handle cleanup of pending response */ if (ifa->tx_pending) return 0; struct rip_packet *pkt = rip_tx_buffer(ifa); rip_fill_header(ifa, pkt, RIP_CMD_UPDATE_RESPONSE); rip_fill_update_hdr(pkt, 1, ifa->tx_seqnum); /* We suppose that iface is going down, so we do not expect ACK */ ifa->tx_seqnum++; TRACE(D_PACKETS, "Sending response via %s", ifa->iface->name); return rip_send_to(p, ifa, pkt, rip_pkt_hdrlen(ifa), ifa->tx_addr); } static int rip_send_ack(struct rip_proto *p, struct rip_iface *ifa, uint flush, uint seqnum) { struct rip_packet *pkt = rip_tx_buffer(ifa); rip_fill_header(ifa, pkt, RIP_CMD_UPDATE_ACK); rip_fill_update_hdr(pkt, flush, seqnum); TRACE(D_PACKETS, "Sending acknowledge via %s", ifa->iface->name); return rip_send_to(p, ifa, pkt, rip_pkt_hdrlen(ifa), ifa->tx_addr); } static void rip_receive_ack(struct rip_proto *p, struct rip_iface *ifa, struct rip_packet *pkt, uint plen UNUSED, struct rip_neighbor *from) { TRACE(D_PACKETS, "Acknowledge received from %I on %s", from->nbr->addr, ifa->iface->name); struct rip_update_hdr *hdr = rip_get_update_hdr(pkt); uint seqnum = ntohs(hdr->seqnum); if (! ifa->tx_active || ! ifa->tx_pending) { LOG_PKT("Bad acknowledge packet from %I via %s - no pending response", from->nbr->addr, ifa->iface->name); return; } if (seqnum != ifa->tx_seqnum) { LOG_PKT("Bad acknowledge packet from %I via %s - " "mismatched sequence number (rcv %u, old %u)", from->nbr->addr, ifa->iface->name, seqnum, (uint) ifa->tx_seqnum); return; } /* Move acked position */ FIB_ITERATE_COPY(&ifa->tx_done, &ifa->tx_fit, &p->rtable); /* Packet is no longer pending */ ifa->tx_pending = 0; ifa->tx_seqnum++; /* Next one does not have flush bit */ ifa->tx_flush = 0; rip_send_response(p, ifa); } /** * rip_rxmt_timeout - RIP retransmission timer hook * @t: timer * * In Demand Circuit mode, update packets must be acknowledged to ensure * reliability. If they are not acknowledged, we need to retransmit them. */ void rip_rxmt_timeout(timer *t) { struct rip_iface *ifa = t->data; struct rip_proto *p = ifa->rip; if (ifa->req_pending) rip_send_request(p, ifa); if (ifa->tx_pending) { /* Revert to acked position */ FIB_ITERATE_COPY(&ifa->tx_fit, &ifa->tx_done, &p->rtable); /* Packet is no longer pending */ ifa->tx_pending = 0; ifa->tx_seqnum++; rip_send_response(p, ifa); } } static int rip_rx_hook(sock *sk, uint 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 */ if (ipa_equal(sk->faddr, sk->saddr)) 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 pkt_len = len; uint hdr_len = sizeof(struct rip_packet); uint update_msg = 0; if (!pkt->version || (ifa->cf->version_only && (pkt->version != ifa->cf->version))) DROP("wrong version", pkt->version); /* Update packets (RFC 2091) have additional header even before auth data */ if ((pkt->command == RIP_CMD_UPDATE_REQUEST) || (pkt->command == RIP_CMD_UPDATE_RESPONSE) || (pkt->command == RIP_CMD_UPDATE_ACK)) { hdr_len += sizeof(struct rip_update_hdr); if (len < hdr_len) DROP("too short", len); struct rip_update_hdr *hdr = rip_get_update_hdr(pkt); if (hdr->version != RIP_UPDATE_VERSION) DROP("wrong update header version", hdr->version); if (hdr->flush > 1) DROP("wrong flush value", hdr->flush); update_msg = 1; } /* rip_check_authentication() has its own error logging */ if (rip_is_v2(p) && !rip_check_authentication(p, ifa, pkt, &pkt_len, hdr_len, n)) return 1; if ((pkt_len - hdr_len) % RIP_BLOCK_LENGTH) DROP("invalid length", pkt_len); if (update_msg != ifa->cf->demand_circuit) DROP("demand circuit mode mismatch", update_msg); n->last_seen = current_time(); rip_update_bfd(p, n); switch (pkt->command) { case RIP_CMD_REQUEST: case RIP_CMD_UPDATE_REQUEST: rip_receive_request(p, ifa, pkt, pkt_len, n); break; case RIP_CMD_RESPONSE: case RIP_CMD_UPDATE_RESPONSE: rip_receive_response(p, ifa, pkt, pkt_len, n); break; case RIP_CMD_UPDATE_ACK: rip_receive_ack(p, ifa, pkt, pkt_len, 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->subtype = rip_is_v2(p) ? SK_IPV4 : SK_IPV6; sk->sport = ifa->cf->port; sk->dport = ifa->cf->port; sk->iface = ifa->iface; sk->saddr = rip_is_v2(p) ? ifa->iface->addr4->ip : ifa->iface->llv6->ip; sk->vrf = p->p.vrf; 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, p->p.loop) < 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; }