/* * src/vnet/ip/ip_neighboor.c: ip neighbor generic handling * * Copyright (c) 2018 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include ip_neighbor_counters_t ip_neighbor_counters[] = { [AF_IP4] = { .ipnc = { [VLIB_RX] = { [IP_NEIGHBOR_CTR_REPLY] = { .name = "arp-rx-replies", .stat_segment_name = "/net/arp/rx/replies", }, [IP_NEIGHBOR_CTR_REQUEST] = { .name = "arp-rx-requests", .stat_segment_name = "/net/arp/rx/requests", }, [IP_NEIGHBOR_CTR_GRAT] = { .name = "arp-rx-gratuitous", .stat_segment_name = "/net/arp/rx/gratuitous", }, }, [VLIB_TX] = { [IP_NEIGHBOR_CTR_REPLY] = { .name = "arp-tx-replies", .stat_segment_name = "/net/arp/tx/replies", }, [IP_NEIGHBOR_CTR_REQUEST] = { .name = "arp-tx-requests", .stat_segment_name = "/net/arp/tx/requests", }, [IP_NEIGHBOR_CTR_GRAT] = { .name = "arp-tx-gratuitous", .stat_segment_name = "/net/arp/tx/gratuitous", }, }, }, }, [AF_IP6] = { .ipnc = { [VLIB_RX] = { [IP_NEIGHBOR_CTR_REPLY] = { .name = "ip6-nd-rx-replies", .stat_segment_name = "/net/ip6-nd/rx/replies", }, [IP_NEIGHBOR_CTR_REQUEST] = { .name = "ip6-nd-rx-requests", .stat_segment_name = "/net/ip6-nd/rx/requests", }, [IP_NEIGHBOR_CTR_GRAT] = { .name = "ip6-nd-rx-gratuitous", .stat_segment_name = "/net/ip6-nd/rx/gratuitous", }, }, [VLIB_TX] = { [IP_NEIGHBOR_CTR_REPLY] = { .name = "ip6-nd-tx-replies", .stat_segment_name = "/net/ip6-nd/tx/replies", }, [IP_NEIGHBOR_CTR_REQUEST] = { .name = "ip6-nd-tx-requests", .stat_segment_name = "/net/ip6-nd/tx/requests", }, [IP_NEIGHBOR_CTR_GRAT] = { .name = "ip6-nd-tx-gratuitous", .stat_segment_name = "/net/ip6-nd/tx/gratuitous", }, }, }, }, }; /** Pool for All IP neighbors */ static ip_neighbor_t *ip_neighbor_pool; /** protocol specific lists of time sorted neighbors */ index_t ip_neighbor_list_head[N_AF]; typedef struct ip_neighbor_elt_t_ { clib_llist_anchor_t ipne_anchor; index_t ipne_index; } ip_neighbor_elt_t; /** Pool of linked list elemeents */ ip_neighbor_elt_t *ip_neighbor_elt_pool; typedef struct ip_neighbor_db_t_ { /** per interface hash */ uword **ipndb_hash; /** per-protocol limit - max number of neighbors*/ u32 ipndb_limit; /** max age of a neighbor before it's forcibly evicted */ u32 ipndb_age; /** when the limit is reached and new neighbors are created, should * we recycle an old one */ bool ipndb_recycle; /** per-protocol number of elements */ u32 ipndb_n_elts; /** per-protocol number of elements per-fib-index*/ u32 *ipndb_n_elts_per_fib; } ip_neighbor_db_t; static vlib_log_class_t ipn_logger; /* DBs of neighbours one per AF */ /* *INDENT-OFF* */ static ip_neighbor_db_t ip_neighbor_db[N_AF] = { [AF_IP4] = { .ipndb_limit = 50000, /* Default to not aging and not recycling */ .ipndb_age = 0, .ipndb_recycle = false, }, [AF_IP6] = { .ipndb_limit = 50000, /* Default to not aging and not recycling */ .ipndb_age = 0, .ipndb_recycle = false, } }; /* *INDENT-ON* */ #define IP_NEIGHBOR_DBG(...) \ vlib_log_debug (ipn_logger, __VA_ARGS__); #define IP_NEIGHBOR_INFO(...) \ vlib_log_notice (ipn_logger, __VA_ARGS__); ip_neighbor_t * ip_neighbor_get (index_t ipni) { if (pool_is_free_index (ip_neighbor_pool, ipni)) return (NULL); return (pool_elt_at_index (ip_neighbor_pool, ipni)); } static index_t ip_neighbor_get_index (const ip_neighbor_t * ipn) { return (ipn - ip_neighbor_pool); } static void ip_neighbor_touch (ip_neighbor_t * ipn) { ipn->ipn_flags &= ~IP_NEIGHBOR_FLAG_STALE; } static bool ip_neighbor_is_dynamic (const ip_neighbor_t * ipn) { return (ipn->ipn_flags & IP_NEIGHBOR_FLAG_DYNAMIC); } const ip_address_t * ip_neighbor_get_ip (const ip_neighbor_t * ipn) { return (&ipn->ipn_key->ipnk_ip); } ip_address_family_t ip_neighbor_get_af (const ip_neighbor_t * ipn) { return (ip_addr_version (&ipn->ipn_key->ipnk_ip)); } const mac_address_t * ip_neighbor_get_mac (const ip_neighbor_t * ipn) { return (&ipn->ipn_mac); } const u32 ip_neighbor_get_sw_if_index (const ip_neighbor_t * ipn) { return (ipn->ipn_key->ipnk_sw_if_index); } static void ip_neighbor_list_remove (ip_neighbor_t * ipn) { /* new neighbours, are added to the head of the list, since the * list is time sorted, newest first */ ip_neighbor_elt_t *elt; if (~0 != ipn->ipn_elt) { elt = pool_elt_at_index (ip_neighbor_elt_pool, ipn->ipn_elt); clib_llist_remove (ip_neighbor_elt_pool, ipne_anchor, elt); ipn->ipn_elt = ~0; } } static void ip_neighbor_refresh (ip_neighbor_t * ipn) { /* new neighbours, are added to the head of the list, since the * list is time sorted, newest first */ ip_neighbor_elt_t *elt, *head; ip_neighbor_touch (ipn); ipn->ipn_time_last_updated = vlib_time_now (vlib_get_main ()); ipn->ipn_n_probes = 0; if (ip_neighbor_is_dynamic (ipn)) { if (~0 == ipn->ipn_elt) /* first time insertion */ pool_get_zero (ip_neighbor_elt_pool, elt); else { /* already inserted - extract first */ elt = pool_elt_at_index (ip_neighbor_elt_pool, ipn->ipn_elt); clib_llist_remove (ip_neighbor_elt_pool, ipne_anchor, elt); } head = pool_elt_at_index (ip_neighbor_elt_pool, ip_neighbor_list_head[ip_neighbor_get_af (ipn)]); elt->ipne_index = ip_neighbor_get_index (ipn); clib_llist_add (ip_neighbor_elt_pool, ipne_anchor, elt, head); ipn->ipn_elt = elt - ip_neighbor_elt_pool; } } static void ip_neighbor_db_add (const ip_neighbor_t * ipn) { ip_address_family_t af; u32 sw_if_index; af = ip_neighbor_get_af (ipn); sw_if_index = ipn->ipn_key->ipnk_sw_if_index; vec_validate (ip_neighbor_db[af].ipndb_hash, sw_if_index); if (!ip_neighbor_db[af].ipndb_hash[sw_if_index]) ip_neighbor_db[af].ipndb_hash[sw_if_index] = hash_create_mem (0, sizeof (ip_neighbor_key_t), sizeof (index_t)); hash_set_mem (ip_neighbor_db[af].ipndb_hash[sw_if_index], ipn->ipn_key, ip_neighbor_get_index (ipn)); ip_neighbor_db[af].ipndb_n_elts++; } static void ip_neighbor_db_remove (const ip_neighbor_t * ipn) { ip_address_family_t af; u32 sw_if_index; af = ip_neighbor_get_af (ipn); sw_if_index = ipn->ipn_key->ipnk_sw_if_index; vec_validate (ip_neighbor_db[af].ipndb_hash, sw_if_index); hash_unset_mem (ip_neighbor_db[af].ipndb_hash[sw_if_index], ipn->ipn_key); ip_neighbor_db[af].ipndb_n_elts--; } static ip_neighbor_t * ip_neighbor_db_find (const ip_neighbor_key_t * key) { ip_address_family_t af; uword *p; af = ip_addr_version (&key->ipnk_ip); if (key->ipnk_sw_if_index >= vec_len (ip_neighbor_db[af].ipndb_hash)) return NULL; p = hash_get_mem (ip_neighbor_db[af].ipndb_hash [key->ipnk_sw_if_index], key); if (p) return ip_neighbor_get (p[0]); return (NULL); } static u8 ip_af_type_pfx_len (ip_address_family_t type) { return (type == AF_IP4 ? 32 : 128); } static void ip_neighbor_adj_fib_add (ip_neighbor_t * ipn, u32 fib_index) { ip_address_family_t af; af = ip_neighbor_get_af (ipn); if (af == AF_IP6 && ip6_address_is_link_local_unicast (&ip_addr_v6 (&ipn->ipn_key->ipnk_ip))) { ip6_ll_prefix_t pfx = { .ilp_addr = ip_addr_v6 (&ipn->ipn_key->ipnk_ip), .ilp_sw_if_index = ipn->ipn_key->ipnk_sw_if_index, }; ipn->ipn_fib_entry_index = ip6_ll_table_entry_update (&pfx, FIB_ROUTE_PATH_FLAG_NONE); } else { fib_protocol_t fproto; fproto = ip_address_family_to_fib_proto (af); fib_prefix_t pfx = { .fp_len = ip_af_type_pfx_len (af), .fp_proto = fproto, .fp_addr = ip_addr_46 (&ipn->ipn_key->ipnk_ip), }; ipn->ipn_fib_entry_index = fib_table_entry_path_add (fib_index, &pfx, FIB_SOURCE_ADJ, FIB_ENTRY_FLAG_ATTACHED, fib_proto_to_dpo (fproto), &pfx.fp_addr, ipn->ipn_key->ipnk_sw_if_index, ~0, 1, NULL, FIB_ROUTE_PATH_FLAG_NONE); vec_validate (ip_neighbor_db[af].ipndb_n_elts_per_fib, fib_index); ip_neighbor_db[af].ipndb_n_elts_per_fib[fib_index]++; if (1 == ip_neighbor_db[af].ipndb_n_elts_per_fib[fib_index]) fib_table_lock (fib_index, fproto, FIB_SOURCE_ADJ); } } static void ip_neighbor_adj_fib_remove (ip_neighbor_t * ipn, u32 fib_index) { ip_address_family_t af; af = ip_neighbor_get_af (ipn); if (FIB_NODE_INDEX_INVALID != ipn->ipn_fib_entry_index) { if (AF_IP6 == af && ip6_address_is_link_local_unicast (&ip_addr_v6 (&ipn->ipn_key->ipnk_ip))) { ip6_ll_prefix_t pfx = { .ilp_addr = ip_addr_v6 (&ipn->ipn_key->ipnk_ip), .ilp_sw_if_index = ipn->ipn_key->ipnk_sw_if_index, }; ip6_ll_table_entry_delete (&pfx); } else { fib_protocol_t fproto; fproto = ip_address_family_to_fib_proto (af); fib_prefix_t pfx = { .fp_len = ip_af_type_pfx_len (af), .fp_proto = fproto, .fp_addr = ip_addr_46 (&ipn->ipn_key->ipnk_ip), }; fib_table_entry_path_remove (fib_index, &pfx, FIB_SOURCE_ADJ, fib_proto_to_dpo (fproto), &pfx.fp_addr, ipn->ipn_key->ipnk_sw_if_index, ~0, 1, FIB_ROUTE_PATH_FLAG_NONE); ip_neighbor_db[af].ipndb_n_elts_per_fib[fib_index]--; if (0 == ip_neighbor_db[af].ipndb_n_elts_per_fib[fib_index]) fib_table_unlock (fib_index, fproto, FIB_SOURCE_ADJ); } } } static void ip_neighbor_mk_complete (adj_index_t ai, ip_neighbor_t * ipn) { adj_nbr_update_rewrite (ai, ADJ_NBR_REWRITE_FLAG_COMPLETE, ethernet_build_rewrite (vnet_get_main (), ipn-> ipn_key->ipnk_sw_if_index, adj_get_link_type (ai), ipn->ipn_mac.bytes)); } static void ip_neighbor_mk_incomplete (adj_index_t ai) { ip_adjacency_t *adj = adj_get (ai); adj_nbr_update_rewrite (ai, ADJ_NBR_REWRITE_FLAG_INCOMPLETE, ethernet_build_rewrite (vnet_get_main (), adj-> rewrite_header.sw_if_index, VNET_LINK_ARP, VNET_REWRITE_FOR_SW_INTERFACE_ADDRESS_BROADCAST)); } static adj_walk_rc_t ip_neighbor_mk_complete_walk (adj_index_t ai, void *ctx) { ip_neighbor_t *ipn = ctx; ip_neighbor_mk_complete (ai, ipn); return (ADJ_WALK_RC_CONTINUE); } static adj_walk_rc_t ip_neighbor_mk_incomplete_walk (adj_index_t ai, void *ctx) { ip_neighbor_mk_incomplete (ai); return (ADJ_WALK_RC_CONTINUE); } static void ip_neighbor_destroy (ip_neighbor_t * ipn) { ip_address_family_t af; af = ip_neighbor_get_af (ipn); IP_NEIGHBOR_DBG ("free: %U", format_ip_neighbor, ip_neighbor_get_index (ipn)); ip_neighbor_publish (ip_neighbor_get_index (ipn), IP_NEIGHBOR_EVENT_REMOVED); adj_nbr_walk_nh (ipn->ipn_key->ipnk_sw_if_index, ip_address_family_to_fib_proto (af), &ip_addr_46 (&ipn->ipn_key->ipnk_ip), ip_neighbor_mk_incomplete_walk, ipn); ip_neighbor_adj_fib_remove (ipn, fib_table_get_index_for_sw_if_index (ip_address_family_to_fib_proto (af), ipn->ipn_key->ipnk_sw_if_index)); ip_neighbor_list_remove (ipn); ip_neighbor_db_remove (ipn); clib_mem_free (ipn->ipn_key); pool_put (ip_neighbor_pool, ipn); } static bool ip_neighbor_force_reuse (ip_address_family_t af) { if (!ip_neighbor_db[af].ipndb_recycle) return false; /* pluck the oldest entry, which is the one from the end of the list */ ip_neighbor_elt_t *elt, *head; head = pool_elt_at_index (ip_neighbor_elt_pool, ip_neighbor_list_head[af]); if (clib_llist_is_empty (ip_neighbor_elt_pool, ipne_anchor, head)) return (false); elt = clib_llist_prev (ip_neighbor_elt_pool, ipne_anchor, head); ip_neighbor_destroy (ip_neighbor_get (elt->ipne_index)); return (true); } static ip_neighbor_t * ip_neighbor_alloc (const ip_neighbor_key_t * key, const mac_address_t * mac, ip_neighbor_flags_t flags) { ip_address_family_t af; ip_neighbor_t *ipn; af = ip_addr_version (&key->ipnk_ip); if (ip_neighbor_db[af].ipndb_limit && (ip_neighbor_db[af].ipndb_n_elts >= ip_neighbor_db[af].ipndb_limit)) { if (!ip_neighbor_force_reuse (af)) return (NULL); } pool_get_zero (ip_neighbor_pool, ipn); ipn->ipn_key = clib_mem_alloc (sizeof (*ipn->ipn_key)); clib_memcpy (ipn->ipn_key, key, sizeof (*ipn->ipn_key)); ipn->ipn_fib_entry_index = FIB_NODE_INDEX_INVALID; ipn->ipn_flags = flags; ipn->ipn_elt = ~0; mac_address_copy (&ipn->ipn_mac, mac); ip_neighbor_db_add (ipn); /* create the adj-fib. the entry in the FIB table for the peer's interface */ if (!(ipn->ipn_flags & IP_NEIGHBOR_FLAG_NO_FIB_ENTRY)) ip_neighbor_adj_fib_add (ipn, fib_table_get_index_for_sw_if_index (ip_address_family_to_fib_proto (af), ipn->ipn_key->ipnk_sw_if_index)); return (ipn); } int ip_neighbor_add (const ip_address_t * ip, const mac_address_t * mac, u32 sw_if_index, ip_neighbor_flags_t flags, u32 * stats_index) { fib_protocol_t fproto; ip_neighbor_t *ipn; /* main thread only */ ASSERT (0 == vlib_get_thread_index ()); fproto = ip_address_family_to_fib_proto (ip_addr_version (ip)); const ip_neighbor_key_t key = { .ipnk_ip = *ip, .ipnk_sw_if_index = sw_if_index, }; ipn = ip_neighbor_db_find (&key); if (ipn) { IP_NEIGHBOR_DBG ("update: %U, %U", format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, format_ip_address, ip, format_ip_neighbor_flags, flags, format_mac_address_t, mac); ip_neighbor_touch (ipn); /* Refuse to over-write static neighbor entry. */ if (!(flags & IP_NEIGHBOR_FLAG_STATIC) && (ipn->ipn_flags & IP_NEIGHBOR_FLAG_STATIC)) { /* if MAC address match, still check to send event */ if (0 == mac_address_cmp (&ipn->ipn_mac, mac)) goto check_customers; return -2; } /* A dynamic entry can become static, but not vice-versa. * i.e. since if it was programmed by the CP then it must * be removed by the CP */ if ((flags & IP_NEIGHBOR_FLAG_STATIC) && !(ipn->ipn_flags & IP_NEIGHBOR_FLAG_STATIC)) { ip_neighbor_list_remove (ipn); ipn->ipn_flags |= IP_NEIGHBOR_FLAG_STATIC; ipn->ipn_flags &= ~IP_NEIGHBOR_FLAG_DYNAMIC; } /* * prevent a DoS attack from the data-plane that * spams us with no-op updates to the MAC address */ if (0 == mac_address_cmp (&ipn->ipn_mac, mac)) { ip_neighbor_refresh (ipn); goto check_customers; } mac_address_copy (&ipn->ipn_mac, mac); } else { IP_NEIGHBOR_INFO ("add: %U, %U", format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, format_ip_address, ip, format_ip_neighbor_flags, flags, format_mac_address_t, mac); ipn = ip_neighbor_alloc (&key, mac, flags); if (NULL == ipn) return VNET_API_ERROR_LIMIT_EXCEEDED; } /* Update time stamp and flags. */ ip_neighbor_refresh (ipn); adj_nbr_walk_nh (ipn->ipn_key->ipnk_sw_if_index, fproto, &ip_addr_46 (&ipn->ipn_key->ipnk_ip), ip_neighbor_mk_complete_walk, ipn); check_customers: /* Customer(s) requesting event for this address? */ ip_neighbor_publish (ip_neighbor_get_index (ipn), IP_NEIGHBOR_EVENT_ADDED); if (stats_index) *stats_index = adj_nbr_find (fproto, fib_proto_to_link (fproto), &ip_addr_46 (&ipn->ipn_key->ipnk_ip), ipn->ipn_key->ipnk_sw_if_index); return 0; } int ip_neighbor_del (const ip_address_t * ip, u32 sw_if_index) { ip_neighbor_t *ipn; /* main thread only */ ASSERT (0 == vlib_get_thread_index ()); IP_NEIGHBOR_INFO ("delete: %U, %U", format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, format_ip_address, ip); const ip_neighbor_key_t key = { .ipnk_ip = *ip, .ipnk_sw_if_index = sw_if_index, }; ipn = ip_neighbor_db_find (&key); if (NULL == ipn) return (VNET_API_ERROR_NO_SUCH_ENTRY); ip_neighbor_destroy (ipn); return (0); } typedef struct ip_neighbor_del_all_ctx_t_ { index_t *ipn_del; } ip_neighbor_del_all_ctx_t; static walk_rc_t ip_neighbor_del_all_walk_cb (index_t ipni, void *arg) { ip_neighbor_del_all_ctx_t *ctx = arg; vec_add1 (ctx->ipn_del, ipni); return (WALK_CONTINUE); } void ip_neighbor_del_all (ip_address_family_t af, u32 sw_if_index) { IP_NEIGHBOR_INFO ("delete-all: %U, %U", format_ip_address_family, af, format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index); ip_neighbor_del_all_ctx_t ctx = { .ipn_del = NULL, }; index_t *ipni; ip_neighbor_walk (af, sw_if_index, ip_neighbor_del_all_walk_cb, &ctx); vec_foreach (ipni, ctx.ipn_del) ip_neighbor_destroy (ip_neighbor_get (*ipni)); vec_free (ctx.ipn_del); } void ip_neighbor_update (vnet_main_t * vnm, adj_index_t ai) { ip_neighbor_t *ipn; ip_adjacency_t *adj; adj = adj_get (ai); ip_neighbor_key_t key = { .ipnk_sw_if_index = adj->rewrite_header.sw_if_index, }; ip_address_from_46 (&adj->sub_type.nbr.next_hop, adj->ia_nh_proto, &key.ipnk_ip); ipn = ip_neighbor_db_find (&key); switch (adj->lookup_next_index) { case IP_LOOKUP_NEXT_ARP: if (NULL != ipn) { adj_nbr_walk_nh (adj->rewrite_header.sw_if_index, adj->ia_nh_proto, &adj->sub_type.nbr.next_hop, ip_neighbor_mk_complete_walk, ipn); } else { /* * no matching ARP entry. * construct the rewrite required to for an ARP packet, and stick * that in the adj's pipe to smoke. */ adj_nbr_update_rewrite (ai, ADJ_NBR_REWRITE_FLAG_INCOMPLETE, ethernet_build_rewrite (vnm, adj->rewrite_header.sw_if_index, VNET_LINK_ARP, VNET_REWRITE_FOR_SW_INTERFACE_ADDRESS_BROADCAST)); /* * since the FIB has added this adj for a route, it makes sense it * may want to forward traffic sometime soon. Let's send a * speculative ARP. just one. If we were to do periodically that * wouldn't be bad either, but that's more code than i'm prepared to * write at this time for relatively little reward. */ /* * adj_nbr_update_rewrite may actually call fib_walk_sync. * fib_walk_sync may allocate a new adjacency and potentially cause * a realloc for adj_pool. When that happens, adj pointer is no * longer valid here.x We refresh adj pointer accordingly. */ adj = adj_get (ai); ip_neighbor_probe (adj); } break; case IP_LOOKUP_NEXT_REWRITE: /* Update of an existing rewrite adjacency happens e.g. when the * interface's MAC address changes */ if (NULL != ipn) ip_neighbor_mk_complete (ai, ipn); break; case IP_LOOKUP_NEXT_GLEAN: case IP_LOOKUP_NEXT_BCAST: case IP_LOOKUP_NEXT_MCAST: case IP_LOOKUP_NEXT_DROP: case IP_LOOKUP_NEXT_PUNT: case IP_LOOKUP_NEXT_LOCAL: case IP_LOOKUP_NEXT_MCAST_MIDCHAIN: case IP_LOOKUP_NEXT_MIDCHAIN: case IP_LOOKUP_NEXT_ICMP_ERROR: case IP_LOOKUP_N_NEXT: ASSERT (0); break; } } void ip_neighbor_learn (const ip_neighbor_learn_t * l) { ip_neighbor_add (&l->ip, &l->mac, l->sw_if_index, IP_NEIGHBOR_FLAG_DYNAMIC, NULL); } static clib_error_t * ip_neighbor_cmd (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { ip_address_t ip = IP_ADDRESS_V6_ALL_0S; mac_address_t mac = ZERO_MAC_ADDRESS; vnet_main_t *vnm = vnet_get_main (); ip_neighbor_flags_t flags; u32 sw_if_index = ~0; int is_add = 1; int count = 1; flags = IP_NEIGHBOR_FLAG_DYNAMIC; while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { /* set ip arp TenGigE1/1/0/1 1.2.3.4 aa:bb:... or aabb.ccdd... */ if (unformat (input, "%U %U %U", unformat_vnet_sw_interface, vnm, &sw_if_index, unformat_ip_address, &ip, unformat_mac_address_t, &mac)) ; else if (unformat (input, "delete") || unformat (input, "del")) is_add = 0; else if (unformat (input, "static")) { flags |= IP_NEIGHBOR_FLAG_STATIC; flags &= ~IP_NEIGHBOR_FLAG_DYNAMIC; } else if (unformat (input, "no-fib-entry")) flags |= IP_NEIGHBOR_FLAG_NO_FIB_ENTRY; else if (unformat (input, "count %d", &count)) ; else break; } if (sw_if_index == ~0 || ip_address_is_zero (&ip) || mac_address_is_zero (&mac)) return clib_error_return (0, "specify interface, IP address and MAC: `%U'", format_unformat_error, input); while (count) { if (is_add) ip_neighbor_add (&ip, &mac, sw_if_index, flags, NULL); else ip_neighbor_del (&ip, sw_if_index); ip_address_increment (&ip); mac_address_increment (&mac); --count; } return NULL; } /* *INDENT-OFF* */ /*? * Add or delete IPv4 ARP cache entries. * * @note 'set ip neighbor' options (e.g. delete, static, * 'count ', 'interface ip4_addr mac_addr') can be added in * any order and combination. * * @cliexpar * @parblock * Add or delete IPv4 ARP cache entries as follows. MAC Address can be in * either aa:bb:cc:dd:ee:ff format or aabb.ccdd.eeff format. * @cliexcmd{set ip neighbor GigabitEthernet2/0/0 6.0.0.3 dead.beef.babe} * @cliexcmd{set ip neighbor delete GigabitEthernet2/0/0 6.0.0.3 * de:ad:be:ef:ba:be} * * To add or delete an IPv4 ARP cache entry * table: * @cliexcmd{set ip neighbor GigabitEthernet2/0/0 6.0.0.3 dead.beef.babe} * @cliexcmd{set ip neighbor delete GigabitEthernet2/0/0 6.0.0.3 * dead.beef.babe} * * Add or delete IPv4 static ARP cache entries as follows: * @cliexcmd{set ip neighbor static GigabitEthernet2/0/0 6.0.0.3 * dead.beef.babe} * @cliexcmd{set ip neighbor static delete GigabitEthernet2/0/0 6.0.0.3 * dead.beef.babe} * * For testing / debugging purposes, the 'set ip neighbor' command can add or * delete multiple entries. Supply the 'count N' parameter: * @cliexcmd{set ip neighbor count 10 GigabitEthernet2/0/0 6.0.0.3 * dead.beef.babe} * @endparblock ?*/ VLIB_CLI_COMMAND (ip_neighbor_command, static) = { .path = "set ip neighbor", .short_help = "set ip neighbor [del] " "[static] [no-fib-entry] [count ]", .function = ip_neighbor_cmd, }; VLIB_CLI_COMMAND (ip_neighbor_command2, static) = { .path = "ip neighbor", .short_help = "ip neighbor [del] " "[static] [no-fib-entry] [count ]", .function = ip_neighbor_cmd, }; /* *INDENT-ON* */ static int ip_neighbor_sort (void *a1, void *a2) { index_t *ipni1 = a1, *ipni2 = a2; ip_neighbor_t *ipn1, *ipn2; int cmp; ipn1 = ip_neighbor_get (*ipni1); ipn2 = ip_neighbor_get (*ipni2); cmp = vnet_sw_interface_compare (vnet_get_main (), ipn1->ipn_key->ipnk_sw_if_index, ipn2->ipn_key->ipnk_sw_if_index); if (!cmp) cmp = ip_address_cmp (&ipn1->ipn_key->ipnk_ip, &ipn2->ipn_key->ipnk_ip); return cmp; } static index_t * ip_neighbor_entries (u32 sw_if_index, ip_address_family_t af) { index_t *ipnis = NULL; ip_neighbor_t *ipn; /* *INDENT-OFF* */ pool_foreach (ipn, ip_neighbor_pool) { if ((sw_if_index == ~0 || ipn->ipn_key->ipnk_sw_if_index == sw_if_index) && (N_AF == af || ip_neighbor_get_af(ipn) == af)) vec_add1 (ipnis, ip_neighbor_get_index(ipn)); } /* *INDENT-ON* */ if (ipnis) vec_sort_with_function (ipnis, ip_neighbor_sort); return ipnis; } static clib_error_t * ip_neighbor_show_sorted_i (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd, ip_address_family_t af) { ip_neighbor_elt_t *elt, *head; head = pool_elt_at_index (ip_neighbor_elt_pool, ip_neighbor_list_head[af]); vlib_cli_output (vm, "%=12s%=40s%=6s%=20s%=24s", "Time", "IP", "Flags", "Ethernet", "Interface"); /* *INDENT-OFF*/ /* the list is time sorted, newest first, so start from the back * and work forwards. Stop when we get to one that is alive */ clib_llist_foreach_reverse(ip_neighbor_elt_pool, ipne_anchor, head, elt, ({ vlib_cli_output (vm, "%U", format_ip_neighbor, elt->ipne_index); })); /* *INDENT-ON*/ return (NULL); } static clib_error_t * ip_neighbor_show_i (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd, ip_address_family_t af) { index_t *ipni, *ipnis = NULL; u32 sw_if_index; /* Filter entries by interface if given. */ sw_if_index = ~0; (void) unformat_user (input, unformat_vnet_sw_interface, vnet_get_main (), &sw_if_index); ipnis = ip_neighbor_entries (sw_if_index, af); if (ipnis) vlib_cli_output (vm, "%=12s%=40s%=6s%=20s%=24s", "Time", "IP", "Flags", "Ethernet", "Interface"); vec_foreach (ipni, ipnis) { vlib_cli_output (vm, "%U", format_ip_neighbor, *ipni); } vec_free (ipnis); return (NULL); } static clib_error_t * ip_neighbor_show (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { return (ip_neighbor_show_i (vm, input, cmd, N_AF)); } static clib_error_t * ip6_neighbor_show (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { return (ip_neighbor_show_i (vm, input, cmd, AF_IP6)); } static clib_error_t * ip4_neighbor_show (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { return (ip_neighbor_show_i (vm, input, cmd, AF_IP4)); } static clib_error_t * ip6_neighbor_show_sorted (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { return (ip_neighbor_show_sorted_i (vm, input, cmd, AF_IP6)); } static clib_error_t * ip4_neighbor_show_sorted (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { return (ip_neighbor_show_sorted_i (vm, input, cmd, AF_IP4)); } /*? * Display all the IP neighbor entries. * * @cliexpar * Example of how to display the IPv4 ARP table: * @cliexstart{show ip neighbor} * Time FIB IP4 Flags Ethernet Interface * 346.3028 0 6.1.1.3 de:ad:be:ef:ba:be GigabitEthernet2/0/0 * 3077.4271 0 6.1.1.4 S de:ad:be:ef:ff:ff GigabitEthernet2/0/0 * 2998.6409 1 6.2.2.3 de:ad:be:ef:00:01 GigabitEthernet2/0/0 * Proxy arps enabled for: * Fib_index 0 6.0.0.1 - 6.0.0.11 * @cliexend ?*/ /* *INDENT-OFF* */ VLIB_CLI_COMMAND (show_ip_neighbors_cmd_node, static) = { .path = "show ip neighbors", .function = ip_neighbor_show, .short_help = "show ip neighbors [interface]", }; VLIB_CLI_COMMAND (show_ip4_neighbors_cmd_node, static) = { .path = "show ip4 neighbors", .function = ip4_neighbor_show, .short_help = "show ip4 neighbors [interface]", }; VLIB_CLI_COMMAND (show_ip6_neighbors_cmd_node, static) = { .path = "show ip6 neighbors", .function = ip6_neighbor_show, .short_help = "show ip6 neighbors [interface]", }; VLIB_CLI_COMMAND (show_ip_neighbor_cmd_node, static) = { .path = "show ip neighbor", .function = ip_neighbor_show, .short_help = "show ip neighbor [interface]", }; VLIB_CLI_COMMAND (show_ip4_neighbor_cmd_node, static) = { .path = "show ip4 neighbor", .function = ip4_neighbor_show, .short_help = "show ip4 neighbor [interface]", }; VLIB_CLI_COMMAND (show_ip6_neighbor_cmd_node, static) = { .path = "show ip6 neighbor", .function = ip6_neighbor_show, .short_help = "show ip6 neighbor [interface]", }; VLIB_CLI_COMMAND (show_ip4_neighbor_sorted_cmd_node, static) = { .path = "show ip4 neighbor-sorted", .function = ip4_neighbor_show_sorted, .short_help = "show ip4 neighbor-sorted", }; VLIB_CLI_COMMAND (show_ip6_neighbor_sorted_cmd_node, static) = { .path = "show ip6 neighbor-sorted", .function = ip6_neighbor_show_sorted, .short_help = "show ip6 neighbor-sorted", }; /* *INDENT-ON* */ static ip_neighbor_vft_t ip_nbr_vfts[N_AF]; void ip_neighbor_register (ip_address_family_t af, const ip_neighbor_vft_t * vft) { ip_nbr_vfts[af] = *vft; } void ip_neighbor_probe_dst (u32 sw_if_index, u32 thread_index, ip_address_family_t af, const ip46_address_t *dst) { if (!vnet_sw_interface_is_admin_up (vnet_get_main (), sw_if_index)) return; switch (af) { case AF_IP6: ip6_neighbor_probe_dst (sw_if_index, thread_index, &dst->ip6); break; case AF_IP4: ip4_neighbor_probe_dst (sw_if_index, thread_index, &dst->ip4); break; } } void ip_neighbor_probe (const ip_adjacency_t * adj) { ip_neighbor_probe_dst (adj->rewrite_header.sw_if_index, vlib_get_thread_index (), ip_address_family_from_fib_proto (adj->ia_nh_proto), &adj->sub_type.nbr.next_hop); } void ip_neighbor_walk (ip_address_family_t af, u32 sw_if_index, ip_neighbor_walk_cb_t cb, void *ctx) { ip_neighbor_key_t *key; index_t ipni; if (~0 == sw_if_index) { uword **hash; vec_foreach (hash, ip_neighbor_db[af].ipndb_hash) { /* *INDENT-OFF* */ hash_foreach (key, ipni, *hash, ({ if (WALK_STOP == cb (ipni, ctx)) break; })); /* *INDENT-ON* */ } } else { uword *hash; if (vec_len (ip_neighbor_db[af].ipndb_hash) <= sw_if_index) return; hash = ip_neighbor_db[af].ipndb_hash[sw_if_index]; /* *INDENT-OFF* */ hash_foreach (key, ipni, hash, ({ if (WALK_STOP == cb (ipni, ctx)) break; })); /* *INDENT-ON* */ } } int ip4_neighbor_proxy_add (u32 fib_index, const ip4_address_t * start, const ip4_address_t * end) { if (ip_nbr_vfts[AF_IP4].inv_proxy4_add) { return (ip_nbr_vfts[AF_IP4].inv_proxy4_add (fib_index, start, end)); } return (-1); } int ip4_neighbor_proxy_delete (u32 fib_index, const ip4_address_t * start, const ip4_address_t * end) { if (ip_nbr_vfts[AF_IP4].inv_proxy4_del) { return (ip_nbr_vfts[AF_IP4].inv_proxy4_del (fib_index, start, end)); } return -1; } int ip4_neighbor_proxy_enable (u32 sw_if_index) { if (ip_nbr_vfts[AF_IP4].inv_proxy4_enable) { return (ip_nbr_vfts[AF_IP4].inv_proxy4_enable (sw_if_index)); } return -1; } int ip4_neighbor_proxy_disable (u32 sw_if_index) { if (ip_nbr_vfts[AF_IP4].inv_proxy4_disable) { return (ip_nbr_vfts[AF_IP4].inv_proxy4_disable (sw_if_index)); } return -1; } int ip6_neighbor_proxy_add (u32 sw_if_index, const ip6_address_t * addr) { if (ip_nbr_vfts[AF_IP6].inv_proxy6_add) { return (ip_nbr_vfts[AF_IP6].inv_proxy6_add (sw_if_index, addr)); } return -1; } int ip6_neighbor_proxy_del (u32 sw_if_index, const ip6_address_t * addr) { if (ip_nbr_vfts[AF_IP6].inv_proxy6_del) { return (ip_nbr_vfts[AF_IP6].inv_proxy6_del (sw_if_index, addr)); } return -1; } void ip_neighbor_populate (ip_address_family_t af, u32 sw_if_index) { index_t *ipnis = NULL, *ipni; ip_neighbor_t *ipn; IP_NEIGHBOR_DBG ("populate: %U %U", format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, format_ip_address_family, af); /* *INDENT-OFF* */ pool_foreach (ipn, ip_neighbor_pool) { if (ip_neighbor_get_af(ipn) == af && ipn->ipn_key->ipnk_sw_if_index == sw_if_index) vec_add1 (ipnis, ipn - ip_neighbor_pool); } /* *INDENT-ON* */ vec_foreach (ipni, ipnis) { ipn = ip_neighbor_get (*ipni); adj_nbr_walk_nh (ipn->ipn_key->ipnk_sw_if_index, ip_address_family_to_fib_proto (ip_neighbor_get_af (ipn)), &ip_addr_46 (&ipn->ipn_key->ipnk_ip), ip_neighbor_mk_complete_walk, ipn); } vec_free (ipnis); } void ip_neighbor_flush (ip_address_family_t af, u32 sw_if_index) { index_t *ipnis = NULL, *ipni; ip_neighbor_t *ipn; IP_NEIGHBOR_DBG ("flush: %U %U", format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, format_ip_address_family, af); /* *INDENT-OFF* */ pool_foreach (ipn, ip_neighbor_pool) { if (ip_neighbor_get_af(ipn) == af && ipn->ipn_key->ipnk_sw_if_index == sw_if_index && ip_neighbor_is_dynamic (ipn)) vec_add1 (ipnis, ipn - ip_neighbor_pool); } /* *INDENT-ON* */ vec_foreach (ipni, ipnis) ip_neighbor_destroy (ip_neighbor_get (*ipni)); vec_free (ipnis); } walk_rc_t ip_neighbor_mark_one (index_t ipni, void *ctx) { ip_neighbor_t *ipn; ipn = ip_neighbor_get (ipni); ipn->ipn_flags |= IP_NEIGHBOR_FLAG_STALE; return (WALK_CONTINUE); } void ip_neighbor_mark (ip_address_family_t af) { ip_neighbor_walk (af, ~0, ip_neighbor_mark_one, NULL); } typedef struct ip_neighbor_sweep_ctx_t_ { index_t *ipnsc_stale; } ip_neighbor_sweep_ctx_t; static walk_rc_t ip_neighbor_sweep_one (index_t ipni, void *arg) { ip_neighbor_sweep_ctx_t *ctx = arg; ip_neighbor_t *ipn; ipn = ip_neighbor_get (ipni); if (ipn->ipn_flags & IP_NEIGHBOR_FLAG_STALE) { vec_add1 (ctx->ipnsc_stale, ipni); } return (WALK_CONTINUE); } void ip_neighbor_sweep (ip_address_family_t af) { ip_neighbor_sweep_ctx_t ctx = { }; index_t *ipni; ip_neighbor_walk (af, ~0, ip_neighbor_sweep_one, &ctx); vec_foreach (ipni, ctx.ipnsc_stale) { ip_neighbor_destroy (ip_neighbor_get (*ipni)); } vec_free (ctx.ipnsc_stale); } /* * Remove any arp entries associated with the specified interface */ static clib_error_t * ip_neighbor_interface_admin_change (vnet_main_t * vnm, u32 sw_if_index, u32 flags) { ip_address_family_t af; IP_NEIGHBOR_DBG ("interface-admin: %U %s", format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, (flags & VNET_SW_INTERFACE_FLAG_ADMIN_UP ? "up" : "down")); if (flags & VNET_SW_INTERFACE_FLAG_ADMIN_UP) { FOR_EACH_IP_ADDRESS_FAMILY (af) ip_neighbor_populate (af, sw_if_index); } else { /* admin down, flush all neighbours */ FOR_EACH_IP_ADDRESS_FAMILY (af) ip_neighbor_flush (af, sw_if_index); } return (NULL); } VNET_SW_INTERFACE_ADMIN_UP_DOWN_FUNCTION (ip_neighbor_interface_admin_change); /* * Remove any arp entries associated with the specified interface */ static clib_error_t * ip_neighbor_add_del_sw_interface (vnet_main_t *vnm, u32 sw_if_index, u32 is_add) { IP_NEIGHBOR_DBG ("interface-change: %U %s", format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, (is_add ? "add" : "del")); if (!is_add && sw_if_index != ~0) { ip_address_family_t af; FOR_EACH_IP_ADDRESS_FAMILY (af) ip_neighbor_flush (af, sw_if_index); } if (is_add) { ip_neighbor_alloc_ctr (&ip_neighbor_counters[AF_IP4], sw_if_index); ip_neighbor_alloc_ctr (&ip_neighbor_counters[AF_IP6], sw_if_index); } return (NULL); } VNET_SW_INTERFACE_ADD_DEL_FUNCTION (ip_neighbor_add_del_sw_interface); typedef struct ip_neighbor_walk_covered_ctx_t_ { ip_address_t addr; u32 length; index_t *ipnis; } ip_neighbor_walk_covered_ctx_t; static walk_rc_t ip_neighbor_walk_covered (index_t ipni, void *arg) { ip_neighbor_walk_covered_ctx_t *ctx = arg; ip_neighbor_t *ipn; ipn = ip_neighbor_get (ipni); if (AF_IP4 == ip_addr_version (&ctx->addr)) { if (ip4_destination_matches_route (&ip4_main, &ip_addr_v4 (&ipn->ipn_key->ipnk_ip), &ip_addr_v4 (&ctx->addr), ctx->length) && ip_neighbor_is_dynamic (ipn)) { vec_add1 (ctx->ipnis, ip_neighbor_get_index (ipn)); } } else if (AF_IP6 == ip_addr_version (&ctx->addr)) { if (ip6_destination_matches_route (&ip6_main, &ip_addr_v6 (&ipn->ipn_key->ipnk_ip), &ip_addr_v6 (&ctx->addr), ctx->length) && ip_neighbor_is_dynamic (ipn)) { vec_add1 (ctx->ipnis, ip_neighbor_get_index (ipn)); } } return (WALK_CONTINUE); } /* * callback when an interface address is added or deleted */ static void ip_neighbor_add_del_interface_address_v4 (ip4_main_t * im, uword opaque, u32 sw_if_index, ip4_address_t * address, u32 address_length, u32 if_address_index, u32 is_del) { /* * Flush the ARP cache of all entries covered by the address * that is being removed. */ IP_NEIGHBOR_DBG ("addr-%s: %U, %U/%d", (is_del ? "del" : "add"), format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, format_ip4_address, address, address_length); if (is_del) { /* *INDENT-OFF* */ ip_neighbor_walk_covered_ctx_t ctx = { .addr = { .ip.ip4 = *address, .version = AF_IP4, }, .length = address_length, }; /* *INDENT-ON* */ index_t *ipni; ip_neighbor_walk (AF_IP4, sw_if_index, ip_neighbor_walk_covered, &ctx); vec_foreach (ipni, ctx.ipnis) ip_neighbor_destroy (ip_neighbor_get (*ipni)); vec_free (ctx.ipnis); } } /* * callback when an interface address is added or deleted */ static void ip_neighbor_add_del_interface_address_v6 (ip6_main_t * im, uword opaque, u32 sw_if_index, ip6_address_t * address, u32 address_length, u32 if_address_index, u32 is_del) { /* * Flush the ARP cache of all entries covered by the address * that is being removed. */ IP_NEIGHBOR_DBG ("addr-change: %U, %U/%d %s", format_vnet_sw_if_index_name, vnet_get_main (), sw_if_index, format_ip6_address, address, address_length, (is_del ? "del" : "add")); if (is_del) { /* *INDENT-OFF* */ ip_neighbor_walk_covered_ctx_t ctx = { .addr = { .ip.ip6 = *address, .version = AF_IP6, }, .length = address_length, }; /* *INDENT-ON* */ index_t *ipni; ip_neighbor_walk (AF_IP6, sw_if_index, ip_neighbor_walk_covered, &ctx); vec_foreach (ipni, ctx.ipnis) ip_neighbor_destroy (ip_neighbor_get (*ipni)); vec_free (ctx.ipnis); } } typedef struct ip_neighbor_table_bind_ctx_t_ { u32 new_fib_index; u32 old_fib_index; } ip_neighbor_table_bind_ctx_t; static walk_rc_t ip_neighbor_walk_table_bind (index_t ipni, void *arg) { ip_neighbor_table_bind_ctx_t *ctx = arg; ip_neighbor_t *ipn; ipn = ip_neighbor_get (ipni); ip_neighbor_adj_fib_remove (ipn, ctx->old_fib_index); ip_neighbor_adj_fib_add (ipn, ctx->new_fib_index); return (WALK_CONTINUE); } static void ip_neighbor_table_bind_v4 (ip4_main_t * im, uword opaque, u32 sw_if_index, u32 new_fib_index, u32 old_fib_index) { ip_neighbor_table_bind_ctx_t ctx = { .old_fib_index = old_fib_index, .new_fib_index = new_fib_index, }; ip_neighbor_walk (AF_IP4, sw_if_index, ip_neighbor_walk_table_bind, &ctx); } static void ip_neighbor_table_bind_v6 (ip6_main_t * im, uword opaque, u32 sw_if_index, u32 new_fib_index, u32 old_fib_index) { ip_neighbor_table_bind_ctx_t ctx = { .old_fib_index = old_fib_index, .new_fib_index = new_fib_index, }; ip_neighbor_walk (AF_IP6, sw_if_index, ip_neighbor_walk_table_bind, &ctx); } typedef enum ip_neighbor_age_state_t_ { IP_NEIGHBOR_AGE_ALIVE, IP_NEIGHBOR_AGE_PROBE, IP_NEIGHBOR_AGE_DEAD, } ip_neighbor_age_state_t; #define IP_NEIGHBOR_PROCESS_SLEEP_LONG (0) static ip_neighbor_age_state_t ip_neighbour_age_out (index_t ipni, f64 now, f64 * wait) { ip_address_family_t af; ip_neighbor_t *ipn; u32 ipndb_age; u32 ttl; ipn = ip_neighbor_get (ipni); af = ip_neighbor_get_af (ipn); ipndb_age = ip_neighbor_db[af].ipndb_age; ttl = now - ipn->ipn_time_last_updated; *wait = ipndb_age; if (ttl > ipndb_age) { IP_NEIGHBOR_DBG ("aged: %U @%f - %f > %d", format_ip_neighbor, ipni, now, ipn->ipn_time_last_updated, ipndb_age); if (ipn->ipn_n_probes > 2) { /* 3 strikes and yea-re out */ IP_NEIGHBOR_DBG ("dead: %U", format_ip_neighbor, ipni); *wait = 1; return (IP_NEIGHBOR_AGE_DEAD); } else { ip_neighbor_probe_dst (ip_neighbor_get_sw_if_index (ipn), vlib_get_thread_index (), af, &ip_addr_46 (&ipn->ipn_key->ipnk_ip)); ipn->ipn_n_probes++; *wait = 1; } } else { /* here we are sure that ttl <= ipndb_age */ *wait = ipndb_age - ttl + 1; return (IP_NEIGHBOR_AGE_ALIVE); } return (IP_NEIGHBOR_AGE_PROBE); } typedef enum ip_neighbor_process_event_t_ { IP_NEIGHBOR_AGE_PROCESS_WAKEUP, } ip_neighbor_process_event_t; static uword ip_neighbor_age_loop (vlib_main_t * vm, vlib_node_runtime_t * rt, vlib_frame_t * f, ip_address_family_t af) { uword event_type, *event_data = NULL; f64 timeout; /* Set the timeout to an effectively infinite value when the process starts */ timeout = IP_NEIGHBOR_PROCESS_SLEEP_LONG; while (1) { f64 now; if (!timeout) vlib_process_wait_for_event (vm); else vlib_process_wait_for_event_or_clock (vm, timeout); event_type = vlib_process_get_events (vm, &event_data); vec_reset_length (event_data); now = vlib_time_now (vm); switch (event_type) { case ~0: { /* timer expired */ ip_neighbor_elt_t *elt, *head; f64 wait; timeout = ip_neighbor_db[af].ipndb_age; head = pool_elt_at_index (ip_neighbor_elt_pool, ip_neighbor_list_head[af]); /* *INDENT-OFF*/ /* the list is time sorted, newest first, so start from the back * and work forwards. Stop when we get to one that is alive */ restart: clib_llist_foreach_reverse(ip_neighbor_elt_pool, ipne_anchor, head, elt, ({ ip_neighbor_age_state_t res; res = ip_neighbour_age_out(elt->ipne_index, now, &wait); if (IP_NEIGHBOR_AGE_ALIVE == res) { /* the oldest neighbor has not yet expired, go back to sleep */ timeout = clib_min (wait, timeout); break; } else if (IP_NEIGHBOR_AGE_DEAD == res) { /* the oldest neighbor is dead, pop it, then restart the walk * again from the back */ ip_neighbor_destroy (ip_neighbor_get(elt->ipne_index)); goto restart; } timeout = clib_min (wait, timeout); })); /* *INDENT-ON* */ break; } case IP_NEIGHBOR_AGE_PROCESS_WAKEUP: { if (!ip_neighbor_db[af].ipndb_age) { /* aging has been disabled */ timeout = 0; break; } ip_neighbor_elt_t *elt, *head; head = pool_elt_at_index (ip_neighbor_elt_pool, ip_neighbor_list_head[af]); /* no neighbors yet */ if (clib_llist_is_empty (ip_neighbor_elt_pool, ipne_anchor, head)) { timeout = ip_neighbor_db[af].ipndb_age; break; } /* poke the oldset neighbour for aging, which returns how long we sleep for */ elt = clib_llist_prev (ip_neighbor_elt_pool, ipne_anchor, head); ip_neighbour_age_out (elt->ipne_index, now, &timeout); break; } } } return 0; } static uword ip4_neighbor_age_process (vlib_main_t * vm, vlib_node_runtime_t * rt, vlib_frame_t * f) { return (ip_neighbor_age_loop (vm, rt, f, AF_IP4)); } static uword ip6_neighbor_age_process (vlib_main_t * vm, vlib_node_runtime_t * rt, vlib_frame_t * f) { return (ip_neighbor_age_loop (vm, rt, f, AF_IP6)); } /* *INDENT-OFF* */ VLIB_REGISTER_NODE (ip4_neighbor_age_process_node,static) = { .function = ip4_neighbor_age_process, .type = VLIB_NODE_TYPE_PROCESS, .name = "ip4-neighbor-age-process", }; VLIB_REGISTER_NODE (ip6_neighbor_age_process_node,static) = { .function = ip6_neighbor_age_process, .type = VLIB_NODE_TYPE_PROCESS, .name = "ip6-neighbor-age-process", }; /* *INDENT-ON* */ int ip_neighbor_config (ip_address_family_t af, u32 limit, u32 age, bool recycle) { ip_neighbor_db[af].ipndb_limit = limit; ip_neighbor_db[af].ipndb_recycle = recycle; ip_neighbor_db[af].ipndb_age = age; vlib_process_signal_event (vlib_get_main (), (AF_IP4 == af ? ip4_neighbor_age_process_node.index : ip6_neighbor_age_process_node.index), IP_NEIGHBOR_AGE_PROCESS_WAKEUP, 0); return (0); } static clib_error_t * ip_neighbor_config_show (vlib_main_t * vm, unformat_input_t * input, vlib_cli_command_t * cmd) { ip_address_family_t af; /* *INDENT-OFF* */ FOR_EACH_IP_ADDRESS_FAMILY(af) { vlib_cli_output (vm, "%U:", format_ip_address_family, af); vlib_cli_output (vm, " limit:%d, age:%d, recycle:%d", ip_neighbor_db[af].ipndb_limit, ip_neighbor_db[af].ipndb_age, ip_neighbor_db[af].ipndb_recycle); } /* *INDENT-ON* */ return (NULL); } static clib_error_t * ip_neighbor_config_set (vlib_main_t *vm, unformat_input_t *input, vlib_cli_command_t *cmd) { unformat_input_t _line_input, *line_input = &_line_input; clib_error_t *error = NULL; ip_address_family_t af; u32 limit, age; bool recycle; if (!unformat_user (input, unformat_line_input, line_input)) return 0; if (!unformat (line_input, "%U", unformat_ip_address_family, &af)) { error = unformat_parse_error (line_input); goto done; } limit = ip_neighbor_db[af].ipndb_limit; age = ip_neighbor_db[af].ipndb_age; recycle = ip_neighbor_db[af].ipndb_recycle; while (unformat_check_input (line_input) != UNFORMAT_END_OF_INPUT) { if (unformat (line_input, "limit %u", &limit)) ; else if (unformat (line_input, "age %u", &age)) ; else if (unformat (line_input, "recycle")) recycle = true; else if (unformat (line_input, "norecycle")) recycle = false; else { error = unformat_parse_error (line_input); goto done; } } ip_neighbor_config (af, limit, age, recycle); done: unformat_free (line_input); return error; } static void ip_neighbor_stats_show_one (vlib_main_t *vm, vnet_main_t *vnm, u32 sw_if_index) { vlib_cli_output (vm, " %U", format_vnet_sw_if_index_name, vnm, sw_if_index); vlib_cli_output (vm, " arp:%U", format_ip_neighbor_counters, &ip_neighbor_counters[AF_IP4], sw_if_index); vlib_cli_output (vm, " nd: %U", format_ip_neighbor_counters, &ip_neighbor_counters[AF_IP6], sw_if_index); } static walk_rc_t ip_neighbor_stats_show_cb (vnet_main_t *vnm, vnet_sw_interface_t *si, void *ctx) { ip_neighbor_stats_show_one (ctx, vnm, si->sw_if_index); return (WALK_CONTINUE); } static clib_error_t * ip_neighbor_stats_show (vlib_main_t *vm, unformat_input_t *input, vlib_cli_command_t *cmd) { vnet_main_t *vnm; u32 sw_if_index; vnm = vnet_get_main (); sw_if_index = ~0; (void) unformat_user (input, unformat_vnet_sw_interface, vnm, &sw_if_index); if (~0 == sw_if_index) { vnet_sw_interface_walk (vnm, ip_neighbor_stats_show_cb, vm); } else { ip_neighbor_stats_show_one (vm, vnm, sw_if_index); } return (NULL); } /* *INDENT-OFF* */ VLIB_CLI_COMMAND (show_ip_neighbor_cfg_cmd_node, static) = { .path = "show ip neighbor-config", .function = ip_neighbor_config_show, .short_help = "show ip neighbor-config", }; VLIB_CLI_COMMAND (set_ip_neighbor_cfg_cmd_node, static) = { .path = "set ip neighbor-config", .function = ip_neighbor_config_set, .short_help = "set ip neighbor-config ip4|ip6 [limit ] [age ] " "[recycle|norecycle]", }; VLIB_CLI_COMMAND (show_ip_neighbor_stats_cmd_node, static) = { .path = "show ip neighbor-stats", .function = ip_neighbor_stats_show, .short_help = "show ip neighbor-stats [interface]", }; /* *INDENT-ON* */ static clib_error_t * ip_neighbor_init (vlib_main_t * vm) { { ip4_add_del_interface_address_callback_t cb = { .function = ip_neighbor_add_del_interface_address_v4, }; vec_add1 (ip4_main.add_del_interface_address_callbacks, cb); } { ip6_add_del_interface_address_callback_t cb = { .function = ip_neighbor_add_del_interface_address_v6, }; vec_add1 (ip6_main.add_del_interface_address_callbacks, cb); } { ip4_table_bind_callback_t cb = { .function = ip_neighbor_table_bind_v4, }; vec_add1 (ip4_main.table_bind_callbacks, cb); } { ip6_table_bind_callback_t cb = { .function = ip_neighbor_table_bind_v6, }; vec_add1 (ip6_main.table_bind_callbacks, cb); } ipn_logger = vlib_log_register_class ("ip", "neighbor"); ip_address_family_t af; FOR_EACH_IP_ADDRESS_FAMILY (af) ip_neighbor_list_head[af] = clib_llist_make_head (ip_neighbor_elt_pool, ipne_anchor); return (NULL); } /* *INDENT-OFF* */ VLIB_INIT_FUNCTION (ip_neighbor_init) = { .runs_after = VLIB_INITS("ip_main_init"), }; /* *INDENT-ON* */ /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */