/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #include #include #include "sd-lldp-rx.h" #include "alloc-util.h" #include "ether-addr-util.h" #include "event-util.h" #include "fd-util.h" #include "lldp-neighbor.h" #include "lldp-network.h" #include "lldp-rx-internal.h" #include "memory-util.h" #include "network-common.h" #include "socket-util.h" #include "sort-util.h" #include "string-table.h" #define LLDP_DEFAULT_NEIGHBORS_MAX 128U static const char * const lldp_rx_event_table[_SD_LLDP_RX_EVENT_MAX] = { [SD_LLDP_RX_EVENT_ADDED] = "added", [SD_LLDP_RX_EVENT_REMOVED] = "removed", [SD_LLDP_RX_EVENT_UPDATED] = "updated", [SD_LLDP_RX_EVENT_REFRESHED] = "refreshed", }; DEFINE_STRING_TABLE_LOOKUP(lldp_rx_event, sd_lldp_rx_event_t); static void lldp_rx_flush_neighbors(sd_lldp_rx *lldp_rx) { assert(lldp_rx); hashmap_clear(lldp_rx->neighbor_by_id); } static void lldp_rx_callback(sd_lldp_rx *lldp_rx, sd_lldp_rx_event_t event, sd_lldp_neighbor *n) { assert(lldp_rx); assert(event >= 0 && event < _SD_LLDP_RX_EVENT_MAX); if (!lldp_rx->callback) return (void) log_lldp_rx(lldp_rx, "Received '%s' event.", lldp_rx_event_to_string(event)); log_lldp_rx(lldp_rx, "Invoking callback for '%s' event.", lldp_rx_event_to_string(event)); lldp_rx->callback(lldp_rx, event, n, lldp_rx->userdata); } static int lldp_rx_make_space(sd_lldp_rx *lldp_rx, size_t extra) { usec_t t = USEC_INFINITY; bool changed = false; assert(lldp_rx); /* Remove all entries that are past their TTL, and more until at least the specified number of extra entries * are free. */ for (;;) { _cleanup_(sd_lldp_neighbor_unrefp) sd_lldp_neighbor *n = NULL; n = prioq_peek(lldp_rx->neighbor_by_expiry); if (!n) break; sd_lldp_neighbor_ref(n); if (hashmap_size(lldp_rx->neighbor_by_id) > LESS_BY(lldp_rx->neighbors_max, extra)) goto remove_one; if (t == USEC_INFINITY) t = now(CLOCK_BOOTTIME); if (n->until > t) break; remove_one: lldp_neighbor_unlink(n); lldp_rx_callback(lldp_rx, SD_LLDP_RX_EVENT_REMOVED, n); changed = true; } return changed; } static bool lldp_rx_keep_neighbor(sd_lldp_rx *lldp_rx, sd_lldp_neighbor *n) { assert(lldp_rx); assert(n); /* Don't keep data with a zero TTL */ if (n->ttl <= 0) return false; /* Filter out data from the filter address */ if (!ether_addr_is_null(&lldp_rx->filter_address) && ether_addr_equal(&lldp_rx->filter_address, &n->source_address)) return false; /* Only add if the neighbor has a capability we are interested in. Note that we also store all neighbors with * no caps field set. */ if (n->has_capabilities && (n->enabled_capabilities & lldp_rx->capability_mask) == 0) return false; /* Keep everything else */ return true; } static int lldp_rx_start_timer(sd_lldp_rx *lldp_rx, sd_lldp_neighbor *neighbor); static int lldp_rx_add_neighbor(sd_lldp_rx *lldp_rx, sd_lldp_neighbor *n) { _cleanup_(sd_lldp_neighbor_unrefp) sd_lldp_neighbor *old = NULL; bool keep; int r; assert(lldp_rx); assert(n); assert(!n->lldp_rx); keep = lldp_rx_keep_neighbor(lldp_rx, n); /* First retrieve the old entry for this MSAP */ old = hashmap_get(lldp_rx->neighbor_by_id, &n->id); if (old) { sd_lldp_neighbor_ref(old); if (!keep) { lldp_neighbor_unlink(old); lldp_rx_callback(lldp_rx, SD_LLDP_RX_EVENT_REMOVED, old); return 0; } if (lldp_neighbor_equal(n, old)) { /* Is this equal, then restart the TTL counter, but don't do anything else. */ old->timestamp = n->timestamp; lldp_rx_start_timer(lldp_rx, old); lldp_rx_callback(lldp_rx, SD_LLDP_RX_EVENT_REFRESHED, old); return 0; } /* Data changed, remove the old entry, and add a new one */ lldp_neighbor_unlink(old); } else if (!keep) return 0; /* Then, make room for at least one new neighbor */ lldp_rx_make_space(lldp_rx, 1); r = hashmap_ensure_put(&lldp_rx->neighbor_by_id, &lldp_neighbor_hash_ops, &n->id, n); if (r < 0) goto finish; r = prioq_ensure_put(&lldp_rx->neighbor_by_expiry, lldp_neighbor_prioq_compare_func, n, &n->prioq_idx); if (r < 0) { assert_se(hashmap_remove(lldp_rx->neighbor_by_id, &n->id) == n); goto finish; } n->lldp_rx = lldp_rx; lldp_rx_start_timer(lldp_rx, n); lldp_rx_callback(lldp_rx, old ? SD_LLDP_RX_EVENT_UPDATED : SD_LLDP_RX_EVENT_ADDED, n); return 1; finish: if (old) lldp_rx_callback(lldp_rx, SD_LLDP_RX_EVENT_REMOVED, old); return r; } static int lldp_rx_handle_datagram(sd_lldp_rx *lldp_rx, sd_lldp_neighbor *n) { int r; assert(lldp_rx); assert(n); r = lldp_neighbor_parse(n); if (r < 0) return r; r = lldp_rx_add_neighbor(lldp_rx, n); if (r < 0) return log_lldp_rx_errno(lldp_rx, r, "Failed to add datagram. Ignoring."); log_lldp_rx(lldp_rx, "Successfully processed LLDP datagram."); return 0; } static int lldp_rx_receive_datagram(sd_event_source *s, int fd, uint32_t revents, void *userdata) { _cleanup_(sd_lldp_neighbor_unrefp) sd_lldp_neighbor *n = NULL; ssize_t space, length; sd_lldp_rx *lldp_rx = ASSERT_PTR(userdata); struct timespec ts; assert(fd >= 0); space = next_datagram_size_fd(fd); if (ERRNO_IS_NEG_TRANSIENT(space) || ERRNO_IS_NEG_DISCONNECT(space)) return 0; if (space < 0) { log_lldp_rx_errno(lldp_rx, space, "Failed to determine datagram size to read, ignoring: %m"); return 0; } n = lldp_neighbor_new(space); if (!n) { log_oom_debug(); return 0; } length = recv(fd, LLDP_NEIGHBOR_RAW(n), n->raw_size, MSG_DONTWAIT); if (length < 0) { if (ERRNO_IS_TRANSIENT(errno) || ERRNO_IS_DISCONNECT(errno)) return 0; log_lldp_rx_errno(lldp_rx, errno, "Failed to read LLDP datagram, ignoring: %m"); return 0; } if ((size_t) length != n->raw_size) { log_lldp_rx(lldp_rx, "Packet size mismatch, ignoring"); return 0; } /* Try to get the timestamp of this packet if it is known */ if (ioctl(fd, SIOCGSTAMPNS, &ts) >= 0) triple_timestamp_from_realtime(&n->timestamp, timespec_load(&ts)); else triple_timestamp_now(&n->timestamp); (void) lldp_rx_handle_datagram(lldp_rx, n); return 0; } static void lldp_rx_reset(sd_lldp_rx *lldp_rx) { assert(lldp_rx); (void) event_source_disable(lldp_rx->timer_event_source); lldp_rx->io_event_source = sd_event_source_disable_unref(lldp_rx->io_event_source); lldp_rx->fd = safe_close(lldp_rx->fd); } int sd_lldp_rx_is_running(sd_lldp_rx *lldp_rx) { if (!lldp_rx) return false; return lldp_rx->fd >= 0; } int sd_lldp_rx_start(sd_lldp_rx *lldp_rx) { int r; assert_return(lldp_rx, -EINVAL); assert_return(lldp_rx->event, -EINVAL); assert_return(lldp_rx->ifindex > 0, -EINVAL); if (sd_lldp_rx_is_running(lldp_rx)) return 0; assert(!lldp_rx->io_event_source); lldp_rx->fd = lldp_network_bind_raw_socket(lldp_rx->ifindex); if (lldp_rx->fd < 0) return lldp_rx->fd; r = sd_event_add_io(lldp_rx->event, &lldp_rx->io_event_source, lldp_rx->fd, EPOLLIN, lldp_rx_receive_datagram, lldp_rx); if (r < 0) goto fail; r = sd_event_source_set_priority(lldp_rx->io_event_source, lldp_rx->event_priority); if (r < 0) goto fail; (void) sd_event_source_set_description(lldp_rx->io_event_source, "lldp-rx-io"); log_lldp_rx(lldp_rx, "Started LLDP client"); return 1; fail: lldp_rx_reset(lldp_rx); return r; } int sd_lldp_rx_stop(sd_lldp_rx *lldp_rx) { if (!sd_lldp_rx_is_running(lldp_rx)) return 0; log_lldp_rx(lldp_rx, "Stopping LLDP client"); lldp_rx_reset(lldp_rx); lldp_rx_flush_neighbors(lldp_rx); return 1; } int sd_lldp_rx_attach_event(sd_lldp_rx *lldp_rx, sd_event *event, int64_t priority) { int r; assert_return(lldp_rx, -EINVAL); assert_return(!sd_lldp_rx_is_running(lldp_rx), -EBUSY); assert_return(!lldp_rx->event, -EBUSY); if (event) lldp_rx->event = sd_event_ref(event); else { r = sd_event_default(&lldp_rx->event); if (r < 0) return r; } lldp_rx->event_priority = priority; return 0; } int sd_lldp_rx_detach_event(sd_lldp_rx *lldp_rx) { assert_return(lldp_rx, -EINVAL); assert_return(!sd_lldp_rx_is_running(lldp_rx), -EBUSY); lldp_rx->io_event_source = sd_event_source_disable_unref(lldp_rx->io_event_source); lldp_rx->timer_event_source = sd_event_source_disable_unref(lldp_rx->timer_event_source); lldp_rx->event = sd_event_unref(lldp_rx->event); return 0; } sd_event* sd_lldp_rx_get_event(sd_lldp_rx *lldp_rx) { assert_return(lldp_rx, NULL); return lldp_rx->event; } int sd_lldp_rx_set_callback(sd_lldp_rx *lldp_rx, sd_lldp_rx_callback_t cb, void *userdata) { assert_return(lldp_rx, -EINVAL); lldp_rx->callback = cb; lldp_rx->userdata = userdata; return 0; } int sd_lldp_rx_set_ifindex(sd_lldp_rx *lldp_rx, int ifindex) { assert_return(lldp_rx, -EINVAL); assert_return(ifindex > 0, -EINVAL); assert_return(!sd_lldp_rx_is_running(lldp_rx), -EBUSY); lldp_rx->ifindex = ifindex; return 0; } int sd_lldp_rx_set_ifname(sd_lldp_rx *lldp_rx, const char *ifname) { assert_return(lldp_rx, -EINVAL); assert_return(ifname, -EINVAL); if (!ifname_valid_full(ifname, IFNAME_VALID_ALTERNATIVE)) return -EINVAL; return free_and_strdup(&lldp_rx->ifname, ifname); } int sd_lldp_rx_get_ifname(sd_lldp_rx *lldp_rx, const char **ret) { int r; assert_return(lldp_rx, -EINVAL); r = get_ifname(lldp_rx->ifindex, &lldp_rx->ifname); if (r < 0) return r; if (ret) *ret = lldp_rx->ifname; return 0; } static sd_lldp_rx *lldp_rx_free(sd_lldp_rx *lldp_rx) { if (!lldp_rx) return NULL; lldp_rx_reset(lldp_rx); sd_lldp_rx_detach_event(lldp_rx); lldp_rx_flush_neighbors(lldp_rx); hashmap_free(lldp_rx->neighbor_by_id); prioq_free(lldp_rx->neighbor_by_expiry); free(lldp_rx->ifname); return mfree(lldp_rx); } DEFINE_PUBLIC_TRIVIAL_REF_UNREF_FUNC(sd_lldp_rx, sd_lldp_rx, lldp_rx_free); int sd_lldp_rx_new(sd_lldp_rx **ret) { _cleanup_(sd_lldp_rx_unrefp) sd_lldp_rx *lldp_rx = NULL; assert_return(ret, -EINVAL); lldp_rx = new(sd_lldp_rx, 1); if (!lldp_rx) return -ENOMEM; *lldp_rx = (sd_lldp_rx) { .n_ref = 1, .fd = -EBADF, .neighbors_max = LLDP_DEFAULT_NEIGHBORS_MAX, .capability_mask = UINT16_MAX, }; *ret = TAKE_PTR(lldp_rx); return 0; } static int on_timer_event(sd_event_source *s, uint64_t usec, void *userdata) { sd_lldp_rx *lldp_rx = userdata; int r; r = lldp_rx_make_space(lldp_rx, 0); if (r < 0) { log_lldp_rx_errno(lldp_rx, r, "Failed to make space, ignoring: %m"); return 0; } r = lldp_rx_start_timer(lldp_rx, NULL); if (r < 0) { log_lldp_rx_errno(lldp_rx, r, "Failed to restart timer, ignoring: %m"); return 0; } return 0; } static int lldp_rx_start_timer(sd_lldp_rx *lldp_rx, sd_lldp_neighbor *neighbor) { sd_lldp_neighbor *n; assert(lldp_rx); assert(lldp_rx->event); if (neighbor) lldp_neighbor_start_ttl(neighbor); n = prioq_peek(lldp_rx->neighbor_by_expiry); if (!n) return event_source_disable(lldp_rx->timer_event_source); return event_reset_time(lldp_rx->event, &lldp_rx->timer_event_source, CLOCK_BOOTTIME, n->until, 0, on_timer_event, lldp_rx, lldp_rx->event_priority, "lldp-rx-timer", true); } static int neighbor_compare_func(sd_lldp_neighbor * const *a, sd_lldp_neighbor * const *b) { assert(a); assert(b); assert(*a); assert(*b); return lldp_neighbor_id_compare_func(&(*a)->id, &(*b)->id); } int sd_lldp_rx_get_neighbors(sd_lldp_rx *lldp_rx, sd_lldp_neighbor ***ret) { _cleanup_free_ sd_lldp_neighbor **l = NULL; sd_lldp_neighbor *n; int k = 0; assert_return(lldp_rx, -EINVAL); assert_return(ret, -EINVAL); if (hashmap_isempty(lldp_rx->neighbor_by_id)) { /* Special shortcut */ *ret = NULL; return 0; } l = new0(sd_lldp_neighbor*, hashmap_size(lldp_rx->neighbor_by_id)); if (!l) return -ENOMEM; HASHMAP_FOREACH(n, lldp_rx->neighbor_by_id) l[k++] = sd_lldp_neighbor_ref(n); assert((size_t) k == hashmap_size(lldp_rx->neighbor_by_id)); /* Return things in a stable order */ typesafe_qsort(l, k, neighbor_compare_func); *ret = TAKE_PTR(l); return k; } int sd_lldp_rx_set_neighbors_max(sd_lldp_rx *lldp_rx, uint64_t m) { assert_return(lldp_rx, -EINVAL); assert_return(m > 0, -EINVAL); lldp_rx->neighbors_max = m; lldp_rx_make_space(lldp_rx, 0); return 0; } int sd_lldp_rx_match_capabilities(sd_lldp_rx *lldp_rx, uint16_t mask) { assert_return(lldp_rx, -EINVAL); assert_return(mask != 0, -EINVAL); lldp_rx->capability_mask = mask; return 0; } int sd_lldp_rx_set_filter_address(sd_lldp_rx *lldp_rx, const struct ether_addr *addr) { assert_return(lldp_rx, -EINVAL); /* In order to deal nicely with bridges that send back our own packets, allow one address to be filtered, so * that our own can be filtered out here. */ if (addr) lldp_rx->filter_address = *addr; else zero(lldp_rx->filter_address); return 0; }