/* * BGPv4 * Used to advertise routes for upstream (l2tp port, rather than gratiutious * arp) and downstream--allowing routers to load-balance both. * * Implementation limitations: * - We never listen for incoming connections (session always initiated by us). * - Any routes advertised by the peer are accepted, but ignored. * - No password support; neither RFC1771 (which no-one seems to do anyway) * nor RFC2385 (which requires a kernel patch on 2.4 kernels). */ #include #include #include #include #include #include #include #include #include #include #include "dhcp6.h" #include "l2tpns.h" #include "bgp.h" #include "util.h" static void bgp_clear(struct bgp_peer *peer); static void bgp_set_retry(struct bgp_peer *peer); static struct bgp_route_list *bgp_insert_route(struct bgp_route_list *head, struct bgp_route_list *new); static struct bgp_route6_list *bgp_insert_route6(struct bgp_route6_list *head, struct bgp_route6_list *new); static void bgp_process_timers(struct bgp_peer *peer); static void bgp_free_routes(struct bgp_route_list *routes); static void bgp_free_routes6(struct bgp_route6_list *routes); static char const *bgp_msg_type_str(uint8_t type); static int bgp_connect(struct bgp_peer *peer); static int bgp_handle_connect(struct bgp_peer *peer); static int bgp_write(struct bgp_peer *peer); static int bgp_read(struct bgp_peer *peer); static int bgp_handle_input(struct bgp_peer *peer); static int bgp_send_open(struct bgp_peer *peer); static int bgp_send_keepalive(struct bgp_peer *peer); static int bgp_send_update(struct bgp_peer *peer); static int bgp_send_update6(struct bgp_peer *peer); static int bgp_send_notification(struct bgp_peer *peer, uint8_t code, uint8_t subcode); static uint16_t our_as; static struct bgp_route_list *bgp_routes = 0; static struct bgp_route6_list *bgp_routes6 = 0; int bgp_configured = 0; struct bgp_peer *bgp_peers = 0; /* prepare peer structure, globals */ int bgp_setup(int as) { int i; struct bgp_peer *peer; for (i = 0; i < BGP_NUM_PEERS; i++) { peer = &bgp_peers[i]; memset(peer, 0, sizeof(*peer)); peer->addr = INADDR_NONE; peer->sock = -1; peer->state = peer->next_state = Disabled; if (!((peer->outbuf = malloc(sizeof(*peer->outbuf))) && (peer->inbuf = malloc(sizeof(*peer->inbuf))))) { LOG(0, 0, 0, "Can't allocate buffers for bgp peer (%s)\n", strerror(errno)); return 0; } peer->edata.type = FD_TYPE_BGP; peer->edata.index = i; peer->events = 0; } if (as < 1) as = 0; if ((our_as = as)) return 0; bgp_routes = 0; bgp_routes6 = 0; bgp_configured = 0; /* set by bgp_start */ return 1; } /* start connection with a peer */ int bgp_start(struct bgp_peer *peer, char *name, int as, int keepalive, int hold, struct in_addr update_source, int enable) { struct hostent *h; int ibgp; int i; struct bgp_path_attr a; char path_attrs[64]; char *p = path_attrs; in_addr_t ip; uint32_t metric = htonl(BGP_METRIC); uint32_t no_export = htonl(BGP_COMMUNITY_NO_EXPORT); if (!our_as) return 0; if (peer->state != Disabled) bgp_halt(peer); snprintf(peer->name, sizeof(peer->name), "%s", name); if (!(h = gethostbyname(name)) || h->h_addrtype != AF_INET) { LOG(0, 0, 0, "Can't get address for BGP peer %s (%s)\n", name, h ? "no address" : hstrerror(h_errno)); return 0; } memcpy(&peer->addr, h->h_addr, sizeof(peer->addr)); peer->source_addr = update_source.s_addr; peer->as = as > 0 ? as : our_as; ibgp = peer->as == our_as; /* set initial timer values */ peer->init_keepalive = keepalive == -1 ? BGP_KEEPALIVE_TIME : keepalive; peer->init_hold = hold == -1 ? BGP_HOLD_TIME : hold; if (peer->init_hold < 3) peer->init_hold = 3; if (peer->init_keepalive * 3 > peer->init_hold) peer->init_keepalive = peer->init_hold / 3; /* clear buffers, go to Idle state */ peer->next_state = Idle; bgp_clear(peer); /* set initial routing state */ peer->routing = enable; /* all our routes use the same attributes, so prepare it in advance */ if (peer->path_attrs) free(peer->path_attrs); peer->path_attr_len = 0; /* ORIGIN */ a.flags = BGP_PATH_ATTR_FLAG_TRANS; a.code = BGP_PATH_ATTR_CODE_ORIGIN; a.data.s.len = 1; a.data.s.value[0] = BGP_PATH_ATTR_CODE_ORIGIN_IGP; #define ADD_ATTRIBUTE() do { \ i = BGP_PATH_ATTR_SIZE(a); \ memcpy(p, &a, i); \ p += i; \ peer->path_attr_len += i; } while (0) ADD_ATTRIBUTE(); /* AS_PATH */ a.flags = BGP_PATH_ATTR_FLAG_TRANS; a.code = BGP_PATH_ATTR_CODE_AS_PATH; if (ibgp) { /* empty path */ a.data.s.len = 0; } else { /* just our AS */ struct { uint8_t type; uint8_t len; uint16_t value; } as_path = { BGP_PATH_ATTR_CODE_AS_PATH_AS_SEQUENCE, 1, htons(our_as), }; a.data.s.len = sizeof(as_path); memcpy(&a.data.s.value, &as_path, sizeof(as_path)); } ADD_ATTRIBUTE(); /* MULTI_EXIT_DISC */ a.flags = BGP_PATH_ATTR_FLAG_OPTIONAL; a.code = BGP_PATH_ATTR_CODE_MULTI_EXIT_DISC; a.data.s.len = sizeof(metric); memcpy(a.data.s.value, &metric, sizeof(metric)); ADD_ATTRIBUTE(); if (ibgp) { uint32_t local_pref = htonl(BGP_LOCAL_PREF); /* LOCAL_PREF */ a.flags = BGP_PATH_ATTR_FLAG_TRANS; a.code = BGP_PATH_ATTR_CODE_LOCAL_PREF; a.data.s.len = sizeof(local_pref); memcpy(a.data.s.value, &local_pref, sizeof(local_pref)); ADD_ATTRIBUTE(); } /* COMMUNITIES */ a.flags = BGP_PATH_ATTR_FLAG_OPTIONAL | BGP_PATH_ATTR_FLAG_TRANS; a.code = BGP_PATH_ATTR_CODE_COMMUNITIES; a.data.s.len = sizeof(no_export); memcpy(a.data.s.value, &no_export, sizeof(no_export)); ADD_ATTRIBUTE(); /* remember the len before adding NEXT_HOP */ peer->path_attr_len_without_nexthop = peer->path_attr_len; /* NEXT_HOP */ a.flags = BGP_PATH_ATTR_FLAG_TRANS; a.code = BGP_PATH_ATTR_CODE_NEXT_HOP; if (config->nexthop_address) { ip = config->nexthop_address; } else { ip = my_address; /* we're it */ } a.data.s.len = sizeof(ip); memcpy(a.data.s.value, &ip, sizeof(ip)); ADD_ATTRIBUTE(); if (!(peer->path_attrs = malloc(peer->path_attr_len))) { LOG(0, 0, 0, "Can't allocate path_attrs for %s (%s)\n", name, strerror(errno)); return 0; } memcpy(peer->path_attrs, path_attrs, peer->path_attr_len); /* multiprotocol attributes initialization */ if (config->ipv6_prefix.s6_addr[0]) { struct bgp_attr_mp_reach_nlri_partial mp_reach_nlri_partial; struct bgp_attr_mp_unreach_nlri_partial mp_unreach_nlri_partial; a.flags = BGP_PATH_ATTR_FLAG_OPTIONAL; a.code = BGP_PATH_ATTR_CODE_MP_REACH_NLRI; a.data.s.len = 0; /* will be set on UPDATE */ mp_reach_nlri_partial.afi = htons(BGP_MP_AFI_IPv6); mp_reach_nlri_partial.safi = BGP_MP_SAFI_UNICAST; mp_reach_nlri_partial.reserved = 0; mp_reach_nlri_partial.next_hop_len = 16; /* use the defined nexthop6, or our address in ipv6_prefix */ if (config->nexthop6_address.s6_addr[0]) memcpy(&mp_reach_nlri_partial.next_hop, &config->nexthop6_address.s6_addr, 16); else { /* our address is ipv6prefix::1 */ memcpy(&mp_reach_nlri_partial.next_hop, &config->ipv6_prefix.s6_addr, 16); mp_reach_nlri_partial.next_hop[15] = 1; } memcpy(&a.data.s.value, &mp_reach_nlri_partial, sizeof(struct bgp_attr_mp_reach_nlri_partial)); memcpy(&peer->mp_reach_nlri_partial, &a, BGP_PATH_ATTR_MP_REACH_NLRI_PARTIAL_SIZE); a.flags = BGP_PATH_ATTR_FLAG_OPTIONAL | BGP_PATH_ATTR_FLAG_EXTLEN; a.code = BGP_PATH_ATTR_CODE_MP_UNREACH_NLRI; a.data.e.len = 0; /* will be set on UPDATE */ mp_unreach_nlri_partial.afi = htons(BGP_MP_AFI_IPv6); mp_unreach_nlri_partial.safi = BGP_MP_SAFI_UNICAST; memcpy(&a.data.e.value, &mp_unreach_nlri_partial, sizeof(struct bgp_attr_mp_unreach_nlri_partial)); memcpy(&peer->mp_unreach_nlri_partial, &a, BGP_PATH_ATTR_MP_UNREACH_NLRI_PARTIAL_SIZE); } peer->mp_handling = HandlingUnknown; LOG(4, 0, 0, "Initiating BGP connection to %s (routing %s)\n", name, enable ? "enabled" : "suspended"); /* we have at least one peer configured */ bgp_configured = 1; /* connect */ return bgp_connect(peer); } /* clear counters, timers, routes and buffers; close socket; move to next_state, which may be Disabled or Idle */ static void bgp_clear(struct bgp_peer *peer) { if (peer->sock != -1) { close(peer->sock); peer->sock = -1; } peer->keepalive_time = 0; peer->expire_time = 0; peer->keepalive = peer->init_keepalive; peer->hold = peer->init_hold; bgp_free_routes(peer->routes); peer->routes = 0; bgp_free_routes6(peer->routes6); peer->routes6 = 0; peer->outbuf->packet.header.len = 0; peer->outbuf->done = 0; peer->inbuf->packet.header.len = 0; peer->inbuf->done = 0; peer->cli_flag = 0; peer->events = 0; if (peer->state != peer->next_state) { peer->state = peer->next_state; peer->state_time = time_now; LOG(4, 0, 0, "BGP peer %s: state %s\n", peer->name, bgp_state_str(peer->next_state)); } } /* initiate a clean shutdown */ void bgp_stop(struct bgp_peer *peer) { LOG(4, 0, 0, "Terminating BGP connection to %s\n", peer->name); bgp_send_notification(peer, BGP_ERR_CEASE, 0); } /* drop connection (if any) and set state to Disabled */ void bgp_halt(struct bgp_peer *peer) { LOG(4, 0, 0, "Aborting BGP connection to %s\n", peer->name); peer->next_state = Disabled; bgp_clear(peer); } /* drop connection (if any) and set to Idle for connection retry */ int bgp_restart(struct bgp_peer *peer) { peer->next_state = Idle; bgp_clear(peer); /* restart now */ peer->retry_time = time_now; peer->retry_count = 0; /* connect */ return bgp_connect(peer); } static void bgp_set_retry(struct bgp_peer *peer) { if (peer->retry_count++ < BGP_MAX_RETRY) { peer->retry_time = time_now + (BGP_RETRY_BACKOFF * peer->retry_count); peer->next_state = Idle; bgp_clear(peer); } else bgp_halt(peer); /* give up */ } /* insert route into list; sorted */ static struct bgp_route_list *bgp_insert_route(struct bgp_route_list *head, struct bgp_route_list *new) { struct bgp_route_list *p = head; struct bgp_route_list *e = 0; while (p && memcmp(&p->dest, &new->dest, sizeof(p->dest)) < 0) { e = p; p = p->next; } if (e) { new->next = e->next; e->next = new; } else { new->next = head; head = new; } return head; } /* insert route6 into list; sorted */ static struct bgp_route6_list *bgp_insert_route6(struct bgp_route6_list *head, struct bgp_route6_list *new) { struct bgp_route6_list *p = head; struct bgp_route6_list *e = 0; while (p && memcmp(&p->dest, &new->dest, sizeof(p->dest)) < 0) { e = p; p = p->next; } if (e) { new->next = e->next; e->next = new; } else { new->next = head; head = new; } return head; } /* add route to list for peers */ /* * Note: this doesn't do route aggregation, nor drop routes if a less * specific match already exists (partly because I'm lazy, but also so * that if that route is later deleted we don't have to be concerned * about adding back the more specific one). */ int bgp_add_route(in_addr_t ip, int prefixlen) { struct bgp_route_list *r = bgp_routes; struct bgp_route_list add; int i; add.dest.prefix = ip; add.dest.len = prefixlen; add.next = 0; /* check for duplicate */ while (r) { i = memcmp(&r->dest, &add.dest, sizeof(r->dest)); if (!i) return 1; /* already covered */ if (i > 0) break; r = r->next; } /* insert into route list; sorted */ if (!(r = malloc(sizeof(*r)))) { LOG(0, 0, 0, "Can't allocate route for %s/%d (%s)\n", fmtaddr(add.dest.prefix, 0), add.dest.len, strerror(errno)); return 0; } memcpy(r, &add, sizeof(*r)); bgp_routes = bgp_insert_route(bgp_routes, r); /* flag established peers for update */ for (i = 0; i < BGP_NUM_PEERS; i++) if (bgp_peers[i].state == Established) bgp_peers[i].update_routes = 1; LOG(4, 0, 0, "Registered BGP route %s/%d\n", fmtaddr(add.dest.prefix, 0), add.dest.len); return 1; } /* add route to list for peers */ /* * Note: same provisions as above */ int bgp_add_route6(struct in6_addr ip, int prefixlen) { struct bgp_route6_list *r = bgp_routes6; struct bgp_route6_list add; int i; char ipv6addr[INET6_ADDRSTRLEN]; memcpy(&add.dest.prefix, &ip.s6_addr, 16); add.dest.len = prefixlen; add.next = 0; /* check for duplicate */ while (r) { i = memcmp(&r->dest, &add.dest, sizeof(r->dest)); if (!i) return 1; /* already covered */ if (i > 0) break; r = r->next; } /* insert into route list; sorted */ if (!(r = malloc(sizeof(*r)))) { LOG(0, 0, 0, "Can't allocate route for %s/%d (%s)\n", inet_ntop(AF_INET6, &ip, ipv6addr, INET6_ADDRSTRLEN), add.dest.len, strerror(errno)); return 0; } memcpy(r, &add, sizeof(*r)); bgp_routes6 = bgp_insert_route6(bgp_routes6, r); /* flag established peers for update */ for (i = 0; i < BGP_NUM_PEERS; i++) if (bgp_peers[i].state == Established && bgp_peers[i].mp_handling == HandleIPv6Routes) bgp_peers[i].update_routes6 = 1; LOG(4, 0, 0, "Registered BGP route %s/%d\n", inet_ntop(AF_INET6, &ip, ipv6addr, INET6_ADDRSTRLEN), add.dest.len); return 1; } /* remove route from list for peers */ int bgp_del_route(in_addr_t ip, int prefixlen) { struct bgp_route_list *r = bgp_routes; struct bgp_route_list *e = 0; struct bgp_route_list del; int i; del.dest.prefix = ip; del.dest.len = prefixlen; del.next = 0; /* find entry in routes list and remove */ while (r) { i = memcmp(&r->dest, &del.dest, sizeof(r->dest)); if (!i) { if (e) e->next = r->next; else bgp_routes = r->next; free(r); break; } e = r; if (i > 0) r = 0; /* stop */ else r = r->next; } /* not found */ if (!r) return 1; /* flag established peers for update */ for (i = 0; i < BGP_NUM_PEERS; i++) if (bgp_peers[i].state == Established) bgp_peers[i].update_routes = 1; LOG(4, 0, 0, "Removed BGP route %s/%d\n", fmtaddr(del.dest.prefix, 0), del.dest.len); return 1; } /* remove route from list for peers */ int bgp_del_route6(struct in6_addr ip, int prefixlen) { struct bgp_route6_list *r = bgp_routes6; struct bgp_route6_list *e = 0; struct bgp_route6_list del; int i; char ipv6addr[INET6_ADDRSTRLEN]; memcpy(&del.dest.prefix, &ip.s6_addr, 16); del.dest.len = prefixlen; del.next = 0; /* find entry in routes list and remove */ while (r) { i = memcmp(&r->dest, &del.dest, sizeof(r->dest)); if (!i) { if (e) e->next = r->next; else bgp_routes6 = r->next; free(r); break; } e = r; if (i > 0) r = 0; /* stop */ else r = r->next; } /* not found */ if (!r) return 1; /* flag established peers for update */ for (i = 0; i < BGP_NUM_PEERS; i++) if (bgp_peers[i].state == Established && bgp_peers[i].mp_handling == HandleIPv6Routes) bgp_peers[i].update_routes6 = 1; LOG(4, 0, 0, "Removed BGP route %s/%d\n", inet_ntop(AF_INET6, &ip, ipv6addr, INET6_ADDRSTRLEN), del.dest.len); return 1; } /* enable or disable routing */ void bgp_enable_routing(int enable) { int i; for (i = 0; i < BGP_NUM_PEERS; i++) { bgp_peers[i].routing = enable; /* flag established peers for update */ if (bgp_peers[i].state == Established) bgp_peers[i].update_routes = 1; } LOG(4, 0, 0, "%s BGP routing\n", enable ? "Enabled" : "Suspended"); } #ifdef HAVE_EPOLL # include #else # include "fake_epoll.h" #endif /* return a bitmask of the events required to poll this peer's fd */ int bgp_set_poll() { int i; if (!bgp_configured) return 0; for (i = 0; i < BGP_NUM_PEERS; i++) { struct bgp_peer *peer = &bgp_peers[i]; int events = 0; if (peer->state == Disabled || peer->state == Idle) continue; if (peer->inbuf->done < BGP_MAX_PACKET_SIZE) events |= EPOLLIN; if (peer->state == Connect || /* connection in progress */ peer->update_routes || /* routing updates */ peer->outbuf->packet.header.len) /* pending output */ events |= EPOLLOUT; if (peer->events != events) { struct epoll_event ev; ev.events = peer->events = events; ev.data.ptr = &peer->edata; epoll_ctl(epollfd, EPOLL_CTL_MOD, peer->sock, &ev); } } return 1; } /* process bgp events/timers */ int bgp_process(uint32_t events[]) { int i; if (!bgp_configured) return 0; for (i = 0; i < BGP_NUM_PEERS; i++) { struct bgp_peer *peer = &bgp_peers[i]; if (*peer->name && peer->cli_flag == BGP_CLI_RESTART) { bgp_restart(peer); continue; } if (peer->state == Disabled) continue; if (peer->cli_flag) { switch (peer->cli_flag) { case BGP_CLI_SUSPEND: if (peer->routing) { peer->routing = 0; if (peer->state == Established) peer->update_routes = 1; } break; case BGP_CLI_ENABLE: if (!peer->routing) { peer->routing = 1; if (peer->state == Established) peer->update_routes = 1; } break; } peer->cli_flag = 0; } /* handle empty/fill of buffers */ if (events[i] & EPOLLOUT) { int r = 1; if (peer->state == Connect) r = bgp_handle_connect(peer); else if (peer->outbuf->packet.header.len) r = bgp_write(peer); if (!r) continue; } if (events[i] & (EPOLLIN|EPOLLHUP)) { if (!bgp_read(peer)) continue; } /* process input buffer contents */ while (peer->inbuf->done >= sizeof(peer->inbuf->packet.header) && !peer->outbuf->packet.header.len) /* may need to queue a response */ { if (bgp_handle_input(peer) < 0) continue; } /* process pending updates */ if (peer->update_routes && !peer->outbuf->packet.header.len) /* ditto */ { if (!bgp_send_update(peer)) continue; } /* process pending IPv6 updates */ if (peer->update_routes6 && !peer->outbuf->packet.header.len) /* ditto */ { if (!bgp_send_update6(peer)) continue; } /* process timers */ bgp_process_timers(peer); } return 1; } /* process bgp timers only */ void bgp_process_peers_timers() { int i; if (!bgp_configured) return; for (i = 0; i < BGP_NUM_PEERS; i++) { struct bgp_peer *peer = &bgp_peers[i]; if (peer->state == Disabled) continue; bgp_process_timers(peer); } } static void bgp_process_timers(struct bgp_peer *peer) { if (peer->state == Established) { if (time_now > peer->expire_time) { LOG(1, 0, 0, "No message from BGP peer %s in %ds\n", peer->name, peer->hold); bgp_send_notification(peer, BGP_ERR_HOLD_TIMER_EXP, 0); return; } if (time_now > peer->keepalive_time && !peer->outbuf->packet.header.len) bgp_send_keepalive(peer); } else if (peer->state == Idle) { if (time_now > peer->retry_time) bgp_connect(peer); } else if (time_now > peer->state_time + BGP_STATE_TIME) { LOG(1, 0, 0, "%s timer expired for BGP peer %s\n", bgp_state_str(peer->state), peer->name); bgp_restart(peer); } } static void bgp_free_routes(struct bgp_route_list *routes) { struct bgp_route_list *tmp; while ((tmp = routes)) { routes = tmp->next; free(tmp); } } static void bgp_free_routes6(struct bgp_route6_list *routes) { struct bgp_route6_list *tmp; while ((tmp = routes)) { routes = tmp->next; free(tmp); } } char const *bgp_state_str(enum bgp_state state) { switch (state) { case Disabled: return "Disabled"; case Idle: return "Idle"; case Connect: return "Connect"; case Active: return "Active"; case OpenSent: return "OpenSent"; case OpenConfirm: return "OpenConfirm"; case Established: return "Established"; } return "?"; } static char const *bgp_msg_type_str(uint8_t type) { switch (type) { case BGP_MSG_OPEN: return "OPEN"; case BGP_MSG_UPDATE: return "UPDATE"; case BGP_MSG_NOTIFICATION: return "NOTIFICATION"; case BGP_MSG_KEEPALIVE: return "KEEPALIVE"; } return "?"; } /* attempt to connect to peer */ static int bgp_connect(struct bgp_peer *peer) { static int bgp_port = 0; struct sockaddr_in addr; struct sockaddr_in source_addr; struct epoll_event ev; if (!bgp_port) { struct servent *serv; if (!(serv = getservbyname("bgp", "tcp"))) { LOG(0, 0, 0, "Can't get bgp service (%s)\n", strerror(errno)); return 0; } bgp_port = serv->s_port; } if ((peer->sock = socket(PF_INET, SOCK_STREAM, IPPROTO_TCP)) < 0) { LOG(0, 0, 0, "Can't create a socket for BGP peer %s (%s)\n", peer->name, strerror(errno)); peer->state = peer->next_state = Disabled; return 0; } /* add to poll set */ ev.events = peer->events = EPOLLOUT; ev.data.ptr = &peer->edata; epoll_ctl(epollfd, EPOLL_CTL_ADD, peer->sock, &ev); /* set to non-blocking */ fcntl(peer->sock, F_SETFL, fcntl(peer->sock, F_GETFL, 0) | O_NONBLOCK); /* set source address */ memset(&source_addr, 0, sizeof(source_addr)); source_addr.sin_family = AF_INET; source_addr.sin_addr.s_addr = peer->source_addr; /* defaults to INADDR_ANY */ if (bind(peer->sock, (struct sockaddr *) &source_addr, sizeof(source_addr)) < 0) { LOG(1, 0, 0, "Can't set source address to %s: %s\n", inet_ntoa(source_addr.sin_addr), strerror(errno)); bgp_set_retry(peer); return 0; } /* try connect */ memset(&addr, 0, sizeof(addr)); addr.sin_family = AF_INET; addr.sin_port = bgp_port; addr.sin_addr.s_addr = peer->addr; while (connect(peer->sock, (struct sockaddr *) &addr, sizeof(addr)) == -1) { if (errno == EINTR) /* SIGALARM handler */ continue; if (errno != EINPROGRESS) { LOG(1, 0, 0, "Can't connect to BGP peer %s (%s)\n", inet_ntoa(addr.sin_addr), strerror(errno)); bgp_set_retry(peer); return 0; } peer->state = Connect; peer->state_time = time_now; LOG(4, 0, 0, "BGP peer %s: state Connect\n", peer->name); return 1; } peer->state = Active; peer->state_time = time_now; peer->retry_time = peer->retry_count = 0; LOG(4, 0, 0, "BGP peer %s: state Active\n", inet_ntoa(addr.sin_addr)); return bgp_send_open(peer); } /* complete partial connection (state = Connect) */ static int bgp_handle_connect(struct bgp_peer *peer) { int err = 0; socklen_t len = sizeof(int); getsockopt(peer->sock, SOL_SOCKET, SO_ERROR, &err, &len); if (err) { LOG(1, 0, 0, "Can't connect to BGP peer %s (%s)\n", peer->name, strerror(err)); bgp_set_retry(peer); return 0; } peer->state = Active; peer->state_time = time_now; LOG(4, 0, 0, "BGP peer %s: state Active\n", peer->name); return bgp_send_open(peer); } /* initiate a write */ static int bgp_write(struct bgp_peer *peer) { int len = htons(peer->outbuf->packet.header.len); int r; while ((r = write(peer->sock, &peer->outbuf->packet + peer->outbuf->done, len - peer->outbuf->done)) == -1) { if (errno == EINTR) continue; if (errno == EAGAIN) return 1; if (errno == EPIPE) LOG(1, 0, 0, "Connection to BGP peer %s closed\n", peer->name); else LOG(1, 0, 0, "Can't write to BGP peer %s (%s)\n", peer->name, strerror(errno)); bgp_set_retry(peer); return 0; } if (r < len) { peer->outbuf->done += r; return 1; } LOG(4, 0, 0, "Sent %s to BGP peer %s\n", bgp_msg_type_str(peer->outbuf->packet.header.type), peer->name); peer->outbuf->packet.header.len = 0; peer->outbuf->done = 0; if (peer->state == Established) peer->keepalive_time = time_now + peer->keepalive; if (peer->state != peer->next_state) { if (peer->next_state == Disabled || peer->next_state == Idle) { bgp_clear(peer); return 0; } peer->state = peer->next_state; peer->state_time = time_now; LOG(4, 0, 0, "BGP peer %s: state %s\n", peer->name, bgp_state_str(peer->state)); } return 1; } /* initiate a read */ static int bgp_read(struct bgp_peer *peer) { int r; while ((r = read(peer->sock, &peer->inbuf->packet + peer->inbuf->done, BGP_MAX_PACKET_SIZE - peer->inbuf->done)) < 1) { if (!r) { LOG(1, 0, 0, "Connection to BGP peer %s closed\n", peer->name); } else { if (errno == EINTR) continue; if (errno == EAGAIN) return 1; LOG(1, 0, 0, "Can't read from BGP peer %s (%s)\n", peer->name, strerror(errno)); } bgp_set_retry(peer); return 0; } peer->inbuf->done += r; return 1; } /* process buffered packets */ static int bgp_handle_input(struct bgp_peer *peer) { struct bgp_packet *p = &peer->inbuf->packet; int len = ntohs(p->header.len); if (len > BGP_MAX_PACKET_SIZE) { LOG(1, 0, 0, "Bad header length from BGP %s\n", peer->name); bgp_send_notification(peer, BGP_ERR_HEADER, BGP_ERR_HDR_BAD_LEN); return 0; } if (peer->inbuf->done < len) return 0; LOG(4, 0, 0, "Received %s from BGP peer %s\n", bgp_msg_type_str(p->header.type), peer->name); switch (p->header.type) { case BGP_MSG_OPEN: { struct bgp_data_open data; int hold; int i; off_t param_offset, capability_offset; struct bgp_opt_param *param; uint8_t capabilities_len; char *capabilities = NULL; struct bgp_capability *capability; struct bgp_mp_cap_param *mp_cap; for (i = 0; i < sizeof(p->header.marker); i++) { if ((unsigned char) p->header.marker[i] != 0xff) { LOG(1, 0, 0, "Invalid marker from BGP peer %s\n", peer->name); bgp_send_notification(peer, BGP_ERR_HEADER, BGP_ERR_HDR_NOT_SYNC); return 0; } } if (peer->state != OpenSent) { LOG(1, 0, 0, "OPEN from BGP peer %s in %s state\n", peer->name, bgp_state_str(peer->state)); bgp_send_notification(peer, BGP_ERR_FSM, 0); return 0; } memcpy(&data, p->data, len - sizeof(p->header)); if (data.version != BGP_VERSION) { LOG(1, 0, 0, "Bad version (%d) sent by BGP peer %s\n", (int) data.version, peer->name); bgp_send_notification(peer, BGP_ERR_OPEN, BGP_ERR_OPN_VERSION); return 0; } if (ntohs(data.as) != peer->as) { LOG(1, 0, 0, "Bad AS sent by BGP peer %s (got %d, " "expected %d)\n", peer->name, (int) htons(data.as), (int) peer->as); bgp_send_notification(peer, BGP_ERR_OPEN, BGP_ERR_OPN_BAD_AS); return 0; } if ((hold = ntohs(data.hold_time)) < 3) { LOG(1, 0, 0, "Bad hold time (%d) from BGP peer %s\n", hold, peer->name); bgp_send_notification(peer, BGP_ERR_OPEN, BGP_ERR_OPN_HOLD_TIME); return 0; } /* pick lowest hold time */ if (hold < peer->hold) peer->hold = hold; /* adjust our keepalive based on negotiated hold value */ if (peer->keepalive * 3 > peer->hold) peer->keepalive = peer->hold / 3; /* check for optional parameters */ /* 2 is for the size of type + len (both uint8_t) */ for (param_offset = 0; param_offset < data.opt_len; param_offset += 2 + param->len) { param = (struct bgp_opt_param *)((char *)&data.opt_params + param_offset); /* sensible check */ if (data.opt_len - param_offset < 2 || param->len > data.opt_len - param_offset - 2) { LOG(1, 0, 0, "Malformed Optional Parameter list from BGP peer %s\n", peer->name); bgp_send_notification(peer, BGP_ERR_OPEN, BGP_ERR_UNSPEC); return 0; } /* we know only one parameter type */ if (param->type != BGP_PARAM_TYPE_CAPABILITY) { LOG(1, 0, 0, "Unsupported Optional Parameter type %d from BGP peer %s\n", param->type, peer->name); bgp_send_notification(peer, BGP_ERR_OPEN, BGP_ERR_OPN_UNSUP_PARAM); return 0; } capabilities_len = param->len; capabilities = (char *)¶m->value; /* look for BGP multiprotocol capability */ for (capability_offset = 0; capability_offset < capabilities_len; capability_offset += 2 + capability->len) { capability = (struct bgp_capability *)(capabilities + capability_offset); /* sensible check */ if (capabilities_len - capability_offset < 2 || capability->len > capabilities_len - capability_offset - 2) { LOG(1, 0, 0, "Malformed Capabilities list from BGP peer %s\n", peer->name); bgp_send_notification(peer, BGP_ERR_OPEN, BGP_ERR_UNSPEC); return 0; } /* we only know one capability code */ if (capability->code != BGP_CAP_CODE_MP && capability->len != sizeof(struct bgp_mp_cap_param)) { LOG(4, 0, 0, "Unsupported Capability code %d from BGP peer %s\n", capability->code, peer->name); /* we don't terminate, still; we just jump to the next one */ continue; } mp_cap = (struct bgp_mp_cap_param *)&capability->value; /* the only tuple we support */ if (ntohs(mp_cap->afi) != BGP_MP_AFI_IPv6 && mp_cap->safi != BGP_MP_SAFI_UNICAST) { LOG(4, 0, 0, "Unsupported multiprotocol AFI %d and SAFI %d from BGP peer %s\n", mp_cap->afi, mp_cap->safi, peer->name); /* we don't terminate, still; we just jump to the next one */ continue; } /* yes it can! */ peer->mp_handling = HandleIPv6Routes; } } if (peer->mp_handling != HandleIPv6Routes) { peer->mp_handling = DoesntHandleIPv6Routes; if (config->ipv6_prefix.s6_addr[0]) LOG(1, 0, 0, "Warning: BGP peer %s doesn't handle IPv6 prefixes updates\n", peer->name); } /* next transition requires an exchange of keepalives */ bgp_send_keepalive(peer); } break; case BGP_MSG_KEEPALIVE: if (peer->state == OpenConfirm) { peer->state = peer->next_state = Established; peer->state_time = time_now; peer->keepalive_time = time_now + peer->keepalive; peer->update_routes = 1; peer->retry_count = 0; peer->retry_time = 0; LOG(4, 0, 0, "BGP peer %s: state Established\n", peer->name); } break; case BGP_MSG_NOTIFICATION: if (len > sizeof(p->header)) { struct bgp_data_notification *notification = (struct bgp_data_notification *) p->data; if (notification->error_code == BGP_ERR_CEASE) { LOG(4, 0, 0, "BGP peer %s sent CEASE\n", peer->name); bgp_set_retry(peer); return 0; } if (notification->error_code == BGP_ERR_OPEN && notification->error_subcode == BGP_ERR_OPN_UNSUP_PARAM) { LOG(4, 0, 0, "BGP peer %s doesn't support BGP Capabilities\n", peer->name); peer->mp_handling = DoesntHandleIPv6Routes; bgp_set_retry(peer); return 0; } if (notification->error_code == BGP_ERR_OPEN && notification->error_subcode == BGP_ERR_OPN_UNSUP_CAP) { /* the only capability we advertise is this one, so upon receiving an "unsupported capability" message, we disable IPv6 routes for this peer */ LOG(4, 0, 0, "BGP peer %s doesn't support IPv6 routes advertisement\n", peer->name); peer->mp_handling = DoesntHandleIPv6Routes; break; } /* FIXME: should handle more notifications */ LOG(4, 0, 0, "BGP peer %s sent unhandled NOTIFICATION %d\n", peer->name, (int) notification->error_code); } break; } /* reset timer */ peer->expire_time = time_now + peer->hold; /* see if there's another message in the same packet/buffer */ if (peer->inbuf->done > len) { peer->inbuf->done -= len; memmove(p, (char *) p + len, peer->inbuf->done); } else { peer->inbuf->packet.header.len = 0; peer->inbuf->done = 0; } return peer->inbuf->done; } /* send/buffer OPEN message */ static int bgp_send_open(struct bgp_peer *peer) { struct bgp_data_open data; struct bgp_mp_cap_param mp_ipv6 = { htons(BGP_MP_AFI_IPv6), 0, BGP_MP_SAFI_UNICAST }; struct bgp_capability cap_mp_ipv6; struct bgp_opt_param param_cap_mp_ipv6; uint16_t len = sizeof(peer->outbuf->packet.header); memset(peer->outbuf->packet.header.marker, 0xff, sizeof(peer->outbuf->packet.header.marker)); peer->outbuf->packet.header.type = BGP_MSG_OPEN; data.version = BGP_VERSION; data.as = htons(our_as); data.hold_time = htons(peer->hold); /* use the source IP we use as identifier, if available */ if (peer->source_addr != INADDR_ANY) data.identifier = peer->source_addr; else data.identifier = my_address; /* if we know peer doesn't support MP (mp_handling == DoesntHandleIPv6Routes) then don't add this parameter */ if (config->ipv6_prefix.s6_addr[0] && (peer->mp_handling == HandlingUnknown || peer->mp_handling == HandleIPv6Routes)) { /* construct the param and capability */ cap_mp_ipv6.code = BGP_CAP_CODE_MP; cap_mp_ipv6.len = sizeof(mp_ipv6); memcpy(&cap_mp_ipv6.value, &mp_ipv6, cap_mp_ipv6.len); param_cap_mp_ipv6.type = BGP_PARAM_TYPE_CAPABILITY; param_cap_mp_ipv6.len = 2 + sizeof(mp_ipv6); memcpy(¶m_cap_mp_ipv6.value, &cap_mp_ipv6, param_cap_mp_ipv6.len); data.opt_len = 2 + param_cap_mp_ipv6.len; memcpy(&data.opt_params, ¶m_cap_mp_ipv6, data.opt_len); } else data.opt_len = 0; memcpy(peer->outbuf->packet.data, &data, BGP_DATA_OPEN_SIZE + data.opt_len); len += BGP_DATA_OPEN_SIZE + data.opt_len; peer->outbuf->packet.header.len = htons(len); peer->outbuf->done = 0; peer->next_state = OpenSent; return bgp_write(peer); } /* send/buffer KEEPALIVE message */ static int bgp_send_keepalive(struct bgp_peer *peer) { memset(peer->outbuf->packet.header.marker, 0xff, sizeof(peer->outbuf->packet.header.marker)); peer->outbuf->packet.header.type = BGP_MSG_KEEPALIVE; peer->outbuf->packet.header.len = htons(sizeof(peer->outbuf->packet.header)); peer->outbuf->done = 0; peer->next_state = (peer->state == OpenSent) ? OpenConfirm : peer->state; return bgp_write(peer); } /* send/buffer UPDATE message */ static int bgp_send_update(struct bgp_peer *peer) { uint16_t unf_len = 0; uint16_t attr_len; uint16_t len = sizeof(peer->outbuf->packet.header); struct bgp_route_list *have = peer->routes; struct bgp_route_list *want = peer->routing ? bgp_routes : 0; struct bgp_route_list *e = 0; struct bgp_route_list *add = 0; int s; char *data = (char *) &peer->outbuf->packet.data; /* need leave room for attr_len, bgp_path_attrs and one prefix */ char *max = (char *) &peer->outbuf->packet.data + sizeof(peer->outbuf->packet.data) - sizeof(attr_len) - peer->path_attr_len - sizeof(struct bgp_ip_prefix); /* skip over unf_len */ data += sizeof(unf_len); len += sizeof(unf_len); memset(peer->outbuf->packet.header.marker, 0xff, sizeof(peer->outbuf->packet.header.marker)); peer->outbuf->packet.header.type = BGP_MSG_UPDATE; peer->update_routes = 0; /* tentatively clear */ /* find differences */ while ((have || want) && data < (max - sizeof(struct bgp_ip_prefix))) { if (have) s = want ? memcmp(&have->dest, &want->dest, sizeof(have->dest)) : -1; else s = 1; if (s < 0) /* found one to delete */ { struct bgp_route_list *tmp = have; have = have->next; s = BGP_IP_PREFIX_SIZE(tmp->dest); memcpy(data, &tmp->dest, s); data += s; unf_len += s; len += s; LOG(5, 0, 0, "Withdrawing route %s/%d from BGP peer %s\n", fmtaddr(tmp->dest.prefix, 0), tmp->dest.len, peer->name); free(tmp); if (e) e->next = have; else peer->routes = have; } else { if (!s) /* same */ { e = have; /* stash the last found to relink above */ have = have->next; want = want->next; } else if (s > 0) /* addition reqd. */ { if (add) { peer->update_routes = 1; /* only one add per packet */ if (!have) break; } else add = want; if (want) want = want->next; } } } if (have || want) peer->update_routes = 1; /* more to do */ /* anything changed? */ if (!(unf_len || add)) return 1; /* go back and insert unf_len */ unf_len = htons(unf_len); memcpy(&peer->outbuf->packet.data, &unf_len, sizeof(unf_len)); if (add) { if (!(e = malloc(sizeof(*e)))) { LOG(0, 0, 0, "Can't allocate route for %s/%d (%s)\n", fmtaddr(add->dest.prefix, 0), add->dest.len, strerror(errno)); return 0; } memcpy(e, add, sizeof(*e)); e->next = 0; peer->routes = bgp_insert_route(peer->routes, e); attr_len = htons(peer->path_attr_len); memcpy(data, &attr_len, sizeof(attr_len)); data += sizeof(attr_len); len += sizeof(attr_len); memcpy(data, peer->path_attrs, peer->path_attr_len); data += peer->path_attr_len; len += peer->path_attr_len; s = BGP_IP_PREFIX_SIZE(add->dest); memcpy(data, &add->dest, s); data += s; len += s; LOG(5, 0, 0, "Advertising route %s/%d to BGP peer %s\n", fmtaddr(add->dest.prefix, 0), add->dest.len, peer->name); } else { attr_len = 0; memcpy(data, &attr_len, sizeof(attr_len)); data += sizeof(attr_len); len += sizeof(attr_len); } peer->outbuf->packet.header.len = htons(len); peer->outbuf->done = 0; return bgp_write(peer); } /* send/buffer UPDATE message for IPv6 routes */ static int bgp_send_update6(struct bgp_peer *peer) { uint16_t attr_len; uint16_t unreach_len = 0; char *unreach_len_pos; uint8_t reach_len; uint16_t len = sizeof(peer->outbuf->packet.header); struct bgp_route6_list *have = peer->routes6; struct bgp_route6_list *want = peer->routing ? bgp_routes6 : 0; struct bgp_route6_list *e = 0; struct bgp_route6_list *add = 0; int s; char ipv6addr[INET6_ADDRSTRLEN]; char *data = (char *) &peer->outbuf->packet.data; /* need leave room for attr_len, bgp_path_attrs and one prefix */ char *max = (char *) &peer->outbuf->packet.data + sizeof(peer->outbuf->packet.data) - sizeof(attr_len) - peer->path_attr_len_without_nexthop - BGP_PATH_ATTR_MP_REACH_NLRI_PARTIAL_SIZE - sizeof(struct bgp_ip6_prefix); memset(peer->outbuf->packet.header.marker, 0xff, sizeof(peer->outbuf->packet.header.marker)); peer->outbuf->packet.header.type = BGP_MSG_UPDATE; /* insert non-MP unfeasible routes length */ memcpy(data, &unreach_len, sizeof(unreach_len)); /* skip over it and attr_len too; it will be filled when known */ data += sizeof(unreach_len) + sizeof(attr_len); len += sizeof(unreach_len) + sizeof(attr_len); /* copy usual attributes */ memcpy(data, peer->path_attrs, peer->path_attr_len_without_nexthop); data += peer->path_attr_len_without_nexthop; attr_len = peer->path_attr_len_without_nexthop; /* copy MP unreachable NLRI heading */ memcpy(data, peer->mp_unreach_nlri_partial, BGP_PATH_ATTR_MP_UNREACH_NLRI_PARTIAL_SIZE); /* remember where to update this attr len */ unreach_len_pos = data + 2; data += BGP_PATH_ATTR_MP_UNREACH_NLRI_PARTIAL_SIZE; attr_len += BGP_PATH_ATTR_MP_UNREACH_NLRI_PARTIAL_SIZE; peer->update_routes6 = 0; /* tentatively clear */ /* find differences */ while ((have || want) && data < (max - sizeof(struct bgp_ip6_prefix))) { if (have) s = want ? memcmp(&have->dest, &want->dest, sizeof(have->dest)) : -1; else s = 1; if (s < 0) /* found one to delete */ { struct bgp_route6_list *tmp = have; have = have->next; s = BGP_IP_PREFIX_SIZE(tmp->dest); memcpy(data, &tmp->dest, s); data += s; unreach_len += s; attr_len += s; LOG(5, 0, 0, "Withdrawing route %s/%d from BGP peer %s\n", inet_ntop(AF_INET6, &tmp->dest.prefix, ipv6addr, INET6_ADDRSTRLEN), tmp->dest.len, peer->name); free(tmp); if (e) e->next = have; else peer->routes6 = have; } else { if (!s) /* same */ { e = have; /* stash the last found to relink above */ have = have->next; want = want->next; } else if (s > 0) /* addition reqd. */ { if (add) { peer->update_routes6 = 1; /* only one add per packet */ if (!have) break; } else add = want; if (want) want = want->next; } } } if (have || want) peer->update_routes6 = 1; /* more to do */ /* anything changed? */ if (!(unreach_len || add)) return 1; if (unreach_len) { /* go back and insert MP unreach_len */ unreach_len += sizeof(struct bgp_attr_mp_unreach_nlri_partial); unreach_len = htons(unreach_len); memcpy(unreach_len_pos, &unreach_len, sizeof(unreach_len)); } else { /* we can remove this attribute, then */ data -= BGP_PATH_ATTR_MP_UNREACH_NLRI_PARTIAL_SIZE; attr_len -= BGP_PATH_ATTR_MP_UNREACH_NLRI_PARTIAL_SIZE; } if (add) { if (!(e = malloc(sizeof(*e)))) { LOG(0, 0, 0, "Can't allocate route for %s/%d (%s)\n", inet_ntop(AF_INET6, &add->dest.prefix, ipv6addr, INET6_ADDRSTRLEN), add->dest.len, strerror(errno)); return 0; } memcpy(e, add, sizeof(*e)); e->next = 0; peer->routes6 = bgp_insert_route6(peer->routes6, e); /* copy MP reachable NLRI heading */ memcpy(data, peer->mp_reach_nlri_partial, BGP_PATH_ATTR_MP_REACH_NLRI_PARTIAL_SIZE); /* with proper len */ reach_len = BGP_IP_PREFIX_SIZE(add->dest); data[2] = sizeof(struct bgp_attr_mp_reach_nlri_partial) + reach_len; data += BGP_PATH_ATTR_MP_REACH_NLRI_PARTIAL_SIZE; attr_len += BGP_PATH_ATTR_MP_REACH_NLRI_PARTIAL_SIZE; memcpy(data, &add->dest, reach_len); data += reach_len; attr_len += reach_len; LOG(5, 0, 0, "Advertising route %s/%d to BGP peer %s\n", inet_ntop(AF_INET6, &add->dest.prefix, ipv6addr, INET6_ADDRSTRLEN), add->dest.len, peer->name); } /* update len with attributes we added */ len += attr_len; /* go back and insert attr_len */ attr_len = htons(attr_len); memcpy((char *)&peer->outbuf->packet.data + 2, &attr_len, sizeof(attr_len)); peer->outbuf->packet.header.len = htons(len); peer->outbuf->done = 0; return bgp_write(peer); } /* send/buffer NOTIFICATION message */ static int bgp_send_notification(struct bgp_peer *peer, uint8_t code, uint8_t subcode) { struct bgp_data_notification data; uint16_t len = 0; data.error_code = code; len += sizeof(data.error_code); data.error_subcode = subcode; len += sizeof(data.error_code); memset(peer->outbuf->packet.header.marker, 0xff, sizeof(peer->outbuf->packet.header.marker)); peer->outbuf->packet.header.type = BGP_MSG_NOTIFICATION; peer->outbuf->packet.header.len = htons(sizeof(peer->outbuf->packet.header) + len); memcpy(peer->outbuf->packet.data, &data, len); peer->outbuf->done = 0; peer->next_state = code == BGP_ERR_CEASE ? Disabled : Idle; /* we're dying; ignore any pending input */ peer->inbuf->packet.header.len = 0; peer->inbuf->done = 0; return bgp_write(peer); }