/* * BIRD -- The Resource Public Key Infrastructure (RPKI) to Router Protocol * * (c) 2015 CZ.NIC * (c) 2015 Pavel Tvrdik * * This file was a part of RTRlib: http://rpki.realmv6.org/ * * Can be freely distributed and used under the terms of the GNU GPL. */ #include #include #include #undef LOCAL_DEBUG #include "rpki.h" #include "transport.h" #include "packets.h" #define RPKI_ADD_FLAG 0b00000001 enum rpki_transmit_type { RPKI_RECV = 0, RPKI_SEND = 1, }; enum pdu_error_type { CORRUPT_DATA = 0, INTERNAL_ERROR = 1, NO_DATA_AVAIL = 2, INVALID_REQUEST = 3, UNSUPPORTED_PROTOCOL_VER = 4, UNSUPPORTED_PDU_TYPE = 5, WITHDRAWAL_OF_UNKNOWN_RECORD = 6, DUPLICATE_ANNOUNCEMENT = 7, PDU_TOO_BIG = 32 }; static const char *str_pdu_error_type[] = { [CORRUPT_DATA] = "Corrupt-Data", [INTERNAL_ERROR] = "Internal-Error", [NO_DATA_AVAIL] = "No-Data-Available", [INVALID_REQUEST] = "Invalid-Request", [UNSUPPORTED_PROTOCOL_VER] = "Unsupported-Protocol-Version", [UNSUPPORTED_PDU_TYPE] = "Unsupported-PDU-Type", [WITHDRAWAL_OF_UNKNOWN_RECORD]= "Withdrawal-Of-Unknown-Record", [DUPLICATE_ANNOUNCEMENT] = "Duplicate-Announcement", [PDU_TOO_BIG] = "PDU-Too-Big", }; enum pdu_type { SERIAL_NOTIFY = 0, SERIAL_QUERY = 1, RESET_QUERY = 2, CACHE_RESPONSE = 3, IPV4_PREFIX = 4, RESERVED = 5, IPV6_PREFIX = 6, END_OF_DATA = 7, CACHE_RESET = 8, ROUTER_KEY = 9, ERROR = 10, PDU_TYPE_MAX }; static const char *str_pdu_type_[] = { [SERIAL_NOTIFY] = "Serial Notify", [SERIAL_QUERY] = "Serial Query", [RESET_QUERY] = "Reset Query", [CACHE_RESPONSE] = "Cache Response", [IPV4_PREFIX] = "IPv4 Prefix", [RESERVED] = "Reserved", [IPV6_PREFIX] = "IPv6 Prefix", [END_OF_DATA] = "End of Data", [CACHE_RESET] = "Cache Reset", [ROUTER_KEY] = "Router Key", [ERROR] = "Error" }; static const char *str_pdu_type(uint type) { if (type < PDU_TYPE_MAX) return str_pdu_type_[type]; else return "Undefined packet type"; } /* * 0 8 16 24 31 * .-------------------------------------------. * | Protocol | PDU | | * | Version | Type | reserved = zero | * | 0 or 1 | 0 - 10 | | * +-------------------------------------------+ * | | * | Length >= 8 | * | | * `-------------------------------------------' */ struct pdu_header { u8 ver; u8 type; u16 reserved; u32 len; } PACKED; struct pdu_cache_response { u8 ver; u8 type; u16 session_id; u32 len; } PACKED; struct pdu_serial_notify { u8 ver; u8 type; u16 session_id; u32 len; u32 serial_num; } PACKED; struct pdu_serial_query { u8 ver; u8 type; u16 session_id; u32 len; u32 serial_num; } PACKED; struct pdu_ipv4 { u8 ver; u8 type; u16 reserved; u32 len; u8 flags; u8 prefix_len; u8 max_prefix_len; u8 zero; ip4_addr prefix; u32 asn; } PACKED; struct pdu_ipv6 { u8 ver; u8 type; u16 reserved; u32 len; u8 flags; u8 prefix_len; u8 max_prefix_len; u8 zero; ip6_addr prefix; u32 asn; } PACKED; /* * 0 8 16 24 31 * .-------------------------------------------. * | Protocol | PDU | | * | Version | Type | Error Code | * | 1 | 10 | | * +-------------------------------------------+ * | | * | Length | * | | * +-------------------------------------------+ * | | * | Length of Encapsulated PDU | * | | * +-------------------------------------------+ * | | * ~ Copy of Erroneous PDU ~ * | | * +-------------------------------------------+ * | | * | Length of Error Text | * | | * +-------------------------------------------+ * | | * | Arbitrary Text | * | of | * ~ Error Diagnostic Message ~ * | | * `-------------------------------------------' */ struct pdu_error { u8 ver; u8 type; u16 error_code; u32 len; u32 len_enc_pdu; /* Length of Encapsulated PDU */ byte rest[]; /* Copy of Erroneous PDU * Length of Error Text * Error Diagnostic Message */ } PACKED; struct pdu_reset_query { u8 ver; u8 type; u16 flags; u32 len; } PACKED; struct pdu_end_of_data_v0 { u8 ver; u8 type; u16 session_id; u32 len; u32 serial_num; } PACKED; struct pdu_end_of_data_v1 { u8 ver; u8 type; u16 session_id; u32 len; u32 serial_num; u32 refresh_interval; u32 retry_interval; u32 expire_interval; } PACKED; static const size_t min_pdu_size[] = { [SERIAL_NOTIFY] = sizeof(struct pdu_serial_notify), [SERIAL_QUERY] = sizeof(struct pdu_serial_query), [RESET_QUERY] = sizeof(struct pdu_reset_query), [CACHE_RESPONSE] = sizeof(struct pdu_cache_response), [IPV4_PREFIX] = sizeof(struct pdu_ipv4), [RESERVED] = sizeof(struct pdu_header), [IPV6_PREFIX] = sizeof(struct pdu_ipv6), [END_OF_DATA] = sizeof(struct pdu_end_of_data_v0), [CACHE_RESET] = sizeof(struct pdu_cache_response), [ROUTER_KEY] = sizeof(struct pdu_header), /* FIXME */ [ERROR] = 16, }; static int rpki_send_error_pdu(struct rpki_cache *cache, const enum pdu_error_type error_code, const u32 err_pdu_len, const struct pdu_header *erroneous_pdu, const char *fmt, ...); static void rpki_pdu_to_network_byte_order(struct pdu_header *pdu) { pdu->reserved = htons(pdu->reserved); pdu->len = htonl(pdu->len); switch (pdu->type) { case SERIAL_QUERY: { /* Note that a session_id is converted using converting header->reserved */ struct pdu_serial_query *sq_pdu = (void *) pdu; sq_pdu->serial_num = htonl(sq_pdu->serial_num); break; } case ERROR: { struct pdu_error *err = (void *) pdu; u32 *err_text_len = (u32 *)(err->rest + err->len_enc_pdu); *err_text_len = htonl(*err_text_len); err->len_enc_pdu = htonl(err->len_enc_pdu); break; } case RESET_QUERY: break; default: bug("PDU type %s should not be sent by us", str_pdu_type(pdu->type)); } } static void rpki_pdu_to_host_byte_order(struct pdu_header *pdu) { /* The Router Key PDU has two one-byte fields instead of one two-bytes field. */ if (pdu->type != ROUTER_KEY) pdu->reserved = ntohs(pdu->reserved); pdu->len = ntohl(pdu->len); switch (pdu->type) { case SERIAL_NOTIFY: { /* Note that a session_id is converted using converting header->reserved */ struct pdu_serial_notify *sn_pdu = (void *) pdu; sn_pdu->serial_num = ntohl(sn_pdu->serial_num); break; } case END_OF_DATA: { /* Note that a session_id is converted using converting header->reserved */ struct pdu_end_of_data_v0 *eod0 = (void *) pdu; eod0->serial_num = ntohl(eod0->serial_num); /* Same either for version 1 */ if (pdu->ver == RPKI_VERSION_1) { struct pdu_end_of_data_v1 *eod1 = (void *) pdu; eod1->expire_interval = ntohl(eod1->expire_interval); eod1->refresh_interval = ntohl(eod1->refresh_interval); eod1->retry_interval = ntohl(eod1->retry_interval); } break; } case IPV4_PREFIX: { struct pdu_ipv4 *ipv4 = (void *) pdu; ipv4->prefix = ip4_ntoh(ipv4->prefix); ipv4->asn = ntohl(ipv4->asn); break; } case IPV6_PREFIX: { struct pdu_ipv6 *ipv6 = (void *) pdu; ipv6->prefix = ip6_ntoh(ipv6->prefix); ipv6->asn = ntohl(ipv6->asn); break; } case ERROR: { /* Note that a error_code is converted using converting header->reserved */ struct pdu_error *err = (void *) pdu; err->len_enc_pdu = ntohl(err->len_enc_pdu); u32 *err_text_len = (u32 *)(err->rest + err->len_enc_pdu); *err_text_len = htonl(*err_text_len); break; } case ROUTER_KEY: /* Router Key PDU is not supported yet */ case SERIAL_QUERY: case RESET_QUERY: /* Serial/Reset Query are sent only in direction router to cache. * We don't care here. */ case CACHE_RESPONSE: case CACHE_RESET: /* Converted with pdu->reserved */ break; } } /** * rpki_convert_pdu_back_to_network_byte_order - convert host-byte order PDU back to network-byte order * @out: allocated memory for writing a converted PDU of size @in->len * @in: host-byte order PDU * * Assumed: |A == ntoh(ntoh(A))| */ static struct pdu_header * rpki_pdu_back_to_network_byte_order(struct pdu_header *out, const struct pdu_header *in) { memcpy(out, in, in->len); rpki_pdu_to_host_byte_order(out); return out; } static void rpki_log_packet(struct rpki_cache *cache, const struct pdu_header *pdu, const enum rpki_transmit_type action) { if (!(cache->p->p.debug & D_PACKETS)) return; const char *str_type = str_pdu_type(pdu->type); char detail[256]; #define SAVE(fn) \ do { \ if (fn < 0) \ { \ bsnprintf(detail + sizeof(detail) - 16, 16, "... )"); \ goto detail_finished; \ } \ } while(0) \ switch (pdu->type) { case SERIAL_NOTIFY: case SERIAL_QUERY: SAVE(bsnprintf(detail, sizeof(detail), "(session id: %u, serial number: %u)", pdu->reserved, ((struct pdu_serial_notify *) pdu)->serial_num)); break; case END_OF_DATA: { const struct pdu_end_of_data_v1 *eod = (void *) pdu; if (eod->ver == RPKI_VERSION_1) SAVE(bsnprintf(detail, sizeof(detail), "(session id: %u, serial number: %u, refresh: %us, retry: %us, expire: %us)", eod->session_id, eod->serial_num, eod->refresh_interval, eod->retry_interval, eod->expire_interval)); else SAVE(bsnprintf(detail, sizeof(detail), "(session id: %u, serial number: %u)", eod->session_id, eod->serial_num)); break; } case CACHE_RESPONSE: SAVE(bsnprintf(detail, sizeof(detail), "(session id: %u)", pdu->reserved)); break; case IPV4_PREFIX: { const struct pdu_ipv4 *ipv4 = (void *) pdu; SAVE(bsnprintf(detail, sizeof(detail), "(%I4/%u-%u AS%u)", ipv4->prefix, ipv4->prefix_len, ipv4->max_prefix_len, ipv4->asn)); break; } case IPV6_PREFIX: { const struct pdu_ipv6 *ipv6 = (void *) pdu; SAVE(bsnprintf(detail, sizeof(detail), "(%I6/%u-%u AS%u)", ipv6->prefix, ipv6->prefix_len, ipv6->max_prefix_len, ipv6->asn)); break; } case ROUTER_KEY: /* We don't support saving Router Key PDUs yet */ SAVE(bsnprintf(detail, sizeof(detail), "(ignored)")); break; case ERROR: { const struct pdu_error *err = (void *) pdu; SAVE(bsnprintf(detail, sizeof(detail), "(%s", str_pdu_error_type[err->error_code])); /* Optional description of error */ const u32 len_err_txt = *((u32 *) (err->rest + err->len_enc_pdu)); if (len_err_txt > 0) { size_t expected_len = err->len_enc_pdu + len_err_txt + 16; if (expected_len == err->len) { char txt[len_err_txt + 1]; char *pdu_txt = (char *) err->rest + err->len_enc_pdu + 4; bsnprintf(txt, sizeof(txt), "%s", pdu_txt); /* it's ensured that txt is ended with a null byte */ SAVE(bsnprintf(detail + strlen(detail), sizeof(detail) - strlen(detail), ": '%s'", txt)); } else { SAVE(bsnprintf(detail + strlen(detail), sizeof(detail) - strlen(detail), ", malformed size")); } } /* Optional encapsulated erroneous packet */ if (err->len_enc_pdu) { SAVE(bsnprintf(detail + strlen(detail), sizeof(detail) - strlen(detail), ", %s packet:", str_pdu_type(((struct pdu_header *) err->rest)->type))); if (err->rest + err->len_enc_pdu <= (byte *)err + err->len) { for (const byte *c = err->rest; c != err->rest + err->len_enc_pdu; c++) SAVE(bsnprintf(detail + strlen(detail), sizeof(detail) - strlen(detail), " %02X", *c)); } } SAVE(bsnprintf(detail + strlen(detail), sizeof(detail) - strlen(detail), ")")); break; } default: *detail = '\0'; } #undef SAVE detail_finished: if (action == RPKI_RECV) { CACHE_TRACE(D_PACKETS, cache, "Received %s packet %s", str_type, detail); } else { CACHE_TRACE(D_PACKETS, cache, "Sending %s packet %s", str_type, detail); } #if defined(LOCAL_DEBUG) || defined(GLOBAL_DEBUG) int seq = 0; for(const byte *c = pdu; c != pdu + pdu->len; c++) { if ((seq % 4) == 0) DBG("%2d: ", seq); DBG(" 0x%02X %-3u", *c, *c); if ((++seq % 4) == 0) DBG("\n"); } if ((seq % 4) != 0) DBG("\n"); #endif } static int rpki_send_pdu(struct rpki_cache *cache, const void *pdu, const uint len) { struct rpki_proto *p = cache->p; sock *sk = cache->tr_sock->sk; rpki_log_packet(cache, pdu, RPKI_SEND); if (sk->tbuf != sk->tpos) { RPKI_WARN(p, "Old packet overwritten in TX buffer"); } if (len > sk->tbsize) { RPKI_WARN(p, "%u bytes is too much for send", len); ASSERT(0); return RPKI_ERROR; } memcpy(sk->tbuf, pdu, len); rpki_pdu_to_network_byte_order((void *) sk->tbuf); if (!sk_send(sk, len)) { DBG("Cannot send just the whole data. It will be sent using a call of tx_hook()"); } return RPKI_SUCCESS; } /** * rpki_check_receive_packet - make a basic validation of received RPKI PDU header * @cache: cache connection instance * @pdu: RPKI PDU in network byte order * * This function checks protocol version, PDU type, version and size. If all is all right then * function returns |RPKI_SUCCESS| otherwise sends Error PDU and returns * |RPKI_ERROR|. */ static int rpki_check_receive_packet(struct rpki_cache *cache, const struct pdu_header *pdu) { u32 pdu_len = ntohl(pdu->len); /* * Minimal and maximal allowed PDU size is treated in rpki_rx_hook() function. * @header.len corresponds to number of bytes of @pdu and * it is in range from RPKI_PDU_HEADER_LEN to RPKI_PDU_MAX_LEN bytes. */ /* Do not handle error PDUs here, leave this task to rpki_handle_error_pdu() */ if (pdu->ver != cache->version && pdu->type != ERROR) { /* If this is the first PDU we have received */ if (cache->request_session_id) { if (pdu->type == SERIAL_NOTIFY) { /* * The router MUST ignore any Serial Notify PDUs it might receive from * the cache during this initial start-up period, regardless of the * Protocol Version field in the Serial Notify PDU. * (https://tools.ietf.org/html/draft-ietf-sidr-rpki-rtr-rfc6810-bis-07#section-7) */ } else if (!cache->last_update && (pdu->ver <= RPKI_MAX_VERSION) && (pdu->ver < cache->version)) { CACHE_TRACE(D_EVENTS, cache, "Downgrade session to %s from %u to %u version", rpki_get_cache_ident(cache), cache->version, pdu->ver); cache->version = pdu->ver; } else { /* If this is not the first PDU we have received, something is wrong with * the server implementation -> Error */ rpki_send_error_pdu(cache, UNSUPPORTED_PROTOCOL_VER, pdu_len, pdu, "PDU with unsupported Protocol version received"); return RPKI_ERROR; } } } if ((pdu->type >= PDU_TYPE_MAX) || (pdu->ver == RPKI_VERSION_0 && pdu->type == ROUTER_KEY)) { rpki_send_error_pdu(cache, UNSUPPORTED_PDU_TYPE, pdu_len, pdu, "Unsupported PDU type %u received", pdu->type); return RPKI_ERROR; } if (pdu_len < min_pdu_size[pdu->type]) { rpki_send_error_pdu(cache, CORRUPT_DATA, pdu_len, pdu, "Received %s packet with %d bytes, but expected at least %d bytes", str_pdu_type(pdu->type), pdu_len, min_pdu_size[pdu->type]); return RPKI_ERROR; } return RPKI_SUCCESS; } static int rpki_handle_error_pdu(struct rpki_cache *cache, const struct pdu_error *pdu) { switch (pdu->error_code) { case CORRUPT_DATA: case INTERNAL_ERROR: case INVALID_REQUEST: case UNSUPPORTED_PDU_TYPE: rpki_cache_change_state(cache, RPKI_CS_ERROR_FATAL); break; case NO_DATA_AVAIL: rpki_cache_change_state(cache, RPKI_CS_ERROR_NO_DATA_AVAIL); break; case UNSUPPORTED_PROTOCOL_VER: CACHE_TRACE(D_PACKETS, cache, "Client uses unsupported protocol version"); if (pdu->ver <= RPKI_MAX_VERSION && pdu->ver < cache->version) { CACHE_TRACE(D_EVENTS, cache, "Downgrading from protocol version %d to version %d", cache->version, pdu->ver); cache->version = pdu->ver; rpki_cache_change_state(cache, RPKI_CS_FAST_RECONNECT); } else { CACHE_TRACE(D_PACKETS, cache, "Got UNSUPPORTED_PROTOCOL_VER error PDU with invalid values, " \ "current version: %d, PDU version: %d", cache->version, pdu->ver); rpki_cache_change_state(cache, RPKI_CS_ERROR_FATAL); } break; default: CACHE_TRACE(D_PACKETS, cache, "Error unknown, server sent unsupported error code %u", pdu->error_code); rpki_cache_change_state(cache, RPKI_CS_ERROR_FATAL); break; } return RPKI_SUCCESS; } static void rpki_handle_serial_notify_pdu(struct rpki_cache *cache, const struct pdu_serial_notify *pdu) { /* The router MUST ignore any Serial Notify PDUs it might receive from * the cache during this initial start-up period, regardless of the * Protocol Version field in the Serial Notify PDU. * (https://tools.ietf.org/html/draft-ietf-sidr-rpki-rtr-rfc6810-bis-07#section-7) */ if (cache->request_session_id) { CACHE_TRACE(D_PACKETS, cache, "Ignore a Serial Notify packet during initial start-up period"); return; } /* XXX Serial number should be compared using method RFC 1982 (3.2) */ if (cache->serial_num != pdu->serial_num) rpki_cache_change_state(cache, RPKI_CS_SYNC_START); } static int rpki_handle_cache_response_pdu(struct rpki_cache *cache, const struct pdu_cache_response *pdu) { if (cache->request_session_id) { if (cache->last_update) { /* * This isn't the first sync and we already received records. This point * is after Reset Query and before importing new records from cache * server. We need to load new ones and kick out missing ones. So start * a refresh cycle. */ if (cache->p->roa4_channel) rt_refresh_begin(cache->p->roa4_channel->table, &cache->p->roa4_channel->in_req); if (cache->p->roa6_channel) rt_refresh_begin(cache->p->roa6_channel->table, &cache->p->roa6_channel->in_req); cache->p->refresh_channels = 1; } cache->session_id = pdu->session_id; cache->request_session_id = 0; } else { if (cache->session_id != pdu->session_id) { byte tmp[pdu->len]; const struct pdu_header *hton_pdu = rpki_pdu_back_to_network_byte_order((void *) tmp, (const void *) pdu); rpki_send_error_pdu(cache, CORRUPT_DATA, pdu->len, hton_pdu, "Wrong session_id %u in Cache Response PDU", pdu->session_id); rpki_cache_change_state(cache, RPKI_CS_ERROR_FATAL); return RPKI_ERROR; } } rpki_cache_change_state(cache, RPKI_CS_SYNC_RUNNING); return RPKI_SUCCESS; } /** * rpki_prefix_pdu_2_net_addr - convert IPv4/IPv6 Prefix PDU into net_addr_union * @pdu: host byte order IPv4/IPv6 Prefix PDU * @n: allocated net_addr_union for save ROA * * This function reads ROA data from IPv4/IPv6 Prefix PDU and * write them into net_addr_roa4 or net_addr_roa6 data structure. */ static net_addr_union * rpki_prefix_pdu_2_net_addr(const struct pdu_header *pdu, net_addr_union *n) { /* * Note that sizeof(net_addr_roa6) > sizeof(net_addr) * and thence we must use net_addr_union and not only net_addr */ if (pdu->type == IPV4_PREFIX) { const struct pdu_ipv4 *ipv4 = (void *) pdu; n->roa4.type = NET_ROA4; n->roa4.length = sizeof(net_addr_roa4); n->roa4.prefix = ipv4->prefix; n->roa4.asn = ipv4->asn; n->roa4.pxlen = ipv4->prefix_len; n->roa4.max_pxlen = ipv4->max_prefix_len; } else { const struct pdu_ipv6 *ipv6 = (void *) pdu; n->roa6.type = NET_ROA6; n->roa6.length = sizeof(net_addr_roa6); n->roa6.prefix = ipv6->prefix; n->roa6.asn = ipv6->asn; n->roa6.pxlen = ipv6->prefix_len; n->roa6.max_pxlen = ipv6->max_prefix_len; } return n; } static int rpki_handle_prefix_pdu(struct rpki_cache *cache, const struct pdu_header *pdu) { const struct rpki_config *cf = (void *) cache->p->p.cf; const enum pdu_type type = pdu->type; ASSERT(type == IPV4_PREFIX || type == IPV6_PREFIX); net_addr_union addr = {}; rpki_prefix_pdu_2_net_addr(pdu, &addr); if (cf->ignore_max_length) { if (type == IPV4_PREFIX) addr.roa4.max_pxlen = IP4_MAX_PREFIX_LENGTH; else addr.roa6.max_pxlen = IP6_MAX_PREFIX_LENGTH; } struct channel *channel = NULL; if (type == IPV4_PREFIX) channel = cache->p->roa4_channel; if (type == IPV6_PREFIX) channel = cache->p->roa6_channel; if (!channel) { CACHE_TRACE(D_ROUTES, cache, "Skip %N, missing %s channel", &addr, (type == IPV4_PREFIX ? "roa4" : "roa6"), addr); return RPKI_ERROR; } cache->last_rx_prefix = current_time(); /* A place for 'flags' is same for both data structures pdu_ipv4 or pdu_ipv6 */ struct pdu_ipv4 *pfx = (void *) pdu; if (pfx->flags & RPKI_ADD_FLAG) rpki_table_add_roa(cache, channel, &addr); else rpki_table_remove_roa(cache, channel, &addr); return RPKI_SUCCESS; } static uint rpki_check_interval(struct rpki_cache *cache, const char *(check_fn)(uint), uint interval) { if (check_fn(interval)) { RPKI_WARN(cache->p, "%s, received %u seconds", check_fn(interval), interval); return 0; } return 1; } static void rpki_handle_end_of_data_pdu(struct rpki_cache *cache, const struct pdu_end_of_data_v1 *pdu) { const struct rpki_config *cf = (void *) cache->p->p.cf; if (pdu->session_id != cache->session_id) { byte tmp[pdu->len]; const struct pdu_header *hton_pdu = rpki_pdu_back_to_network_byte_order((void *) tmp, (const void *) pdu); rpki_send_error_pdu(cache, CORRUPT_DATA, pdu->len, hton_pdu, "Received Session ID %u, but expected %u", pdu->session_id, cache->session_id); rpki_cache_change_state(cache, RPKI_CS_ERROR_FATAL); return; } if (pdu->ver == RPKI_VERSION_1) { if (!cf->keep_refresh_interval && rpki_check_interval(cache, rpki_check_refresh_interval, pdu->refresh_interval)) cache->refresh_interval = pdu->refresh_interval; if (!cf->keep_retry_interval && rpki_check_interval(cache, rpki_check_retry_interval, pdu->retry_interval)) cache->retry_interval = pdu->retry_interval; if (!cf->keep_expire_interval && rpki_check_interval(cache, rpki_check_expire_interval, pdu->expire_interval)) cache->expire_interval = pdu->expire_interval; CACHE_TRACE(D_EVENTS, cache, "New interval values: " "refresh: %s%us, " "retry: %s%us, " "expire: %s%us", (cf->keep_refresh_interval ? "keeps " : ""), cache->refresh_interval, (cf->keep_retry_interval ? "keeps " : ""), cache->retry_interval, (cf->keep_expire_interval ? "keeps " : ""), cache->expire_interval); } if (cache->p->refresh_channels) { cache->p->refresh_channels = 0; if (cache->p->roa4_channel) rt_refresh_end(cache->p->roa4_channel->table, &cache->p->roa4_channel->in_req); if (cache->p->roa6_channel) rt_refresh_end(cache->p->roa6_channel->table, &cache->p->roa6_channel->in_req); } cache->last_update = current_time(); cache->serial_num = pdu->serial_num; rpki_cache_change_state(cache, RPKI_CS_ESTABLISHED); } /** * rpki_rx_packet - process a received RPKI PDU * @cache: RPKI connection instance * @pdu: a RPKI PDU in network byte order */ static void rpki_rx_packet(struct rpki_cache *cache, struct pdu_header *pdu) { struct rpki_proto *p = cache->p; if (rpki_check_receive_packet(cache, pdu) == RPKI_ERROR) { rpki_cache_change_state(cache, RPKI_CS_ERROR_FATAL); return; } rpki_pdu_to_host_byte_order(pdu); rpki_log_packet(cache, pdu, RPKI_RECV); switch (pdu->type) { case RESET_QUERY: case SERIAL_QUERY: RPKI_WARN(p, "Received a %s packet that is destined for cache server", str_pdu_type(pdu->type)); break; case SERIAL_NOTIFY: /* This is a signal to synchronize with the cache server just now */ rpki_handle_serial_notify_pdu(cache, (void *) pdu); break; case CACHE_RESPONSE: rpki_handle_cache_response_pdu(cache, (void *) pdu); break; case IPV4_PREFIX: case IPV6_PREFIX: rpki_handle_prefix_pdu(cache, pdu); break; case END_OF_DATA: rpki_handle_end_of_data_pdu(cache, (void *) pdu); break; case CACHE_RESET: /* Cache cannot provide an incremental update. */ rpki_cache_change_state(cache, RPKI_CS_NO_INCR_UPDATE_AVAIL); break; case ERROR: rpki_handle_error_pdu(cache, (void *) pdu); break; case ROUTER_KEY: /* TODO: Implement Router Key PDU handling */ break; default: CACHE_TRACE(D_PACKETS, cache, "Received unsupported type (%u)", pdu->type); }; } int rpki_rx_hook(struct birdsock *sk, uint size) { struct rpki_cache *cache = sk->data; struct rpki_proto *p = cache->p; if ((p->p.proto_state == PS_DOWN) || (p->cache != cache)) return 0; byte *pkt_start = sk->rbuf; byte *end = pkt_start + size; DBG("rx hook got %u bytes \n", size); while (end >= pkt_start + RPKI_PDU_HEADER_LEN) { struct pdu_header *pdu = (void *) pkt_start; u32 pdu_size = ntohl(pdu->len); if (pdu_size < RPKI_PDU_HEADER_LEN || pdu_size > RPKI_PDU_MAX_LEN) { RPKI_WARN(p, "Received invalid packet length %u, purge the whole receiving buffer", pdu_size); return 1; /* Purge recv buffer */ } if (end < pkt_start + pdu_size) break; rpki_rx_packet(cache, pdu); /* It is possible that bird socket was freed/closed */ if (p->p.proto_state == PS_DOWN || sk != cache->tr_sock->sk) return 0; pkt_start += pdu_size; } if (pkt_start != sk->rbuf) { CACHE_DBG(cache, "Move %u bytes of a memory at the start of buffer", end - pkt_start); memmove(sk->rbuf, pkt_start, end - pkt_start); sk->rpos = sk->rbuf + (end - pkt_start); } return 0; /* Not purge sk->rbuf */ } void rpki_err_hook(struct birdsock *sk, int error_num) { struct rpki_cache *cache = sk->data; if (error_num) { /* sk->err may contains a SSH error description */ if (sk->err) CACHE_TRACE(D_EVENTS, cache, "Lost connection: %s", sk->err); else CACHE_TRACE(D_EVENTS, cache, "Lost connection: %M", error_num); } else { CACHE_TRACE(D_EVENTS, cache, "The other side closed a connection"); } if (cache->p->cache != cache) return; rpki_cache_change_state(cache, RPKI_CS_ERROR_TRANSPORT); } static int rpki_fire_tx(struct rpki_cache *cache) { sock *sk = cache->tr_sock->sk; uint bytes_to_send = sk->tpos - sk->tbuf; DBG("Sending %u bytes", bytes_to_send); return sk_send(sk, bytes_to_send); } void rpki_tx_hook(sock *sk) { struct rpki_cache *cache = sk->data; if (cache->p->cache != cache) return; while (rpki_fire_tx(cache) > 0) ; } void rpki_connected_hook(sock *sk) { struct rpki_cache *cache = sk->data; if (cache->p->cache != cache) return; CACHE_TRACE(D_EVENTS, cache, "Connected"); proto_notify_state(&cache->p->p, PS_UP); sk->rx_hook = rpki_rx_hook; sk->tx_hook = rpki_tx_hook; rpki_cache_change_state(cache, RPKI_CS_SYNC_START); } /** * rpki_send_error_pdu - send RPKI Error PDU * @cache: RPKI connection instance * @error_code: PDU Error type * @err_pdu_len: length of @erroneous_pdu * @erroneous_pdu: optional network byte-order PDU that invokes Error by us or NULL * @fmt: optional description text of error or NULL * @args: optional arguments for @fmt * * This function prepares Error PDU and sends it to a cache server. */ static int rpki_send_error_pdu(struct rpki_cache *cache, const enum pdu_error_type error_code, const u32 err_pdu_len, const struct pdu_header *erroneous_pdu, const char *fmt, ...) { va_list args; char msg[128]; /* Size including the terminating null byte ('\0') */ int msg_len = 0; /* Don't send errors for erroneous error PDUs */ if (err_pdu_len >= 2) { if (erroneous_pdu->type == ERROR) return RPKI_SUCCESS; } if (fmt) { va_start(args, fmt); msg_len = bvsnprintf(msg, sizeof(msg), fmt, args) + 1; va_end(args); } u32 pdu_size = 16 + err_pdu_len + msg_len; byte pdu[pdu_size]; memset(pdu, 0, sizeof(pdu)); struct pdu_error *e = (void *) pdu; e->ver = cache->version; e->type = ERROR; e->error_code = error_code; e->len = pdu_size; e->len_enc_pdu = err_pdu_len; if (err_pdu_len > 0) memcpy(e->rest, erroneous_pdu, err_pdu_len); *((u32 *)(e->rest + err_pdu_len)) = msg_len; if (msg_len > 0) memcpy(e->rest + err_pdu_len + 4, msg, msg_len); return rpki_send_pdu(cache, pdu, pdu_size); } int rpki_send_serial_query(struct rpki_cache *cache) { struct pdu_serial_query pdu = { .ver = cache->version, .type = SERIAL_QUERY, .session_id = cache->session_id, .len = sizeof(pdu), .serial_num = cache->serial_num }; if (rpki_send_pdu(cache, &pdu, sizeof(pdu)) != RPKI_SUCCESS) { rpki_cache_change_state(cache, RPKI_CS_ERROR_TRANSPORT); return RPKI_ERROR; } return RPKI_SUCCESS; } int rpki_send_reset_query(struct rpki_cache *cache) { struct pdu_reset_query pdu = { .ver = cache->version, .type = RESET_QUERY, .len = sizeof(pdu), }; if (rpki_send_pdu(cache, &pdu, sizeof(pdu)) != RPKI_SUCCESS) { rpki_cache_change_state(cache, RPKI_CS_ERROR_TRANSPORT); return RPKI_ERROR; } return RPKI_SUCCESS; }