/* * Copyright (c) 2017-2021 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 "hicn.h" #include "strategy_dpo_ctx.h" #include "mapme.h" #include "mapme_eventmgr.h" #include "strategies/dpo_mw.h" #include #include #define DEFAULT_TIMEOUT 1.0 /* s */ hicn_mapme_main_t mapme_main; hicn_prefix_t *retx_pool; uword *retx_hash; void hicn_mapme_init (vlib_main_t *vm) { mapme_main.vm = vm; mapme_main.log_class = vlib_log_register_class ("hicn_mapme", 0); } /* borrowed from vnet/fib/ip4_fib.c */ typedef struct ip4_fib_show_walk_ctx_t_ { fib_node_index_t *ifsw_indicies; } ip4_fib_show_walk_ctx_t; static fib_table_walk_rc_t ip4_fib_show_walk_cb (fib_node_index_t fib_entry_index, void *arg) { ip4_fib_show_walk_ctx_t *ctx = arg; vec_add1 (ctx->ifsw_indicies, fib_entry_index); return (FIB_TABLE_WALK_CONTINUE); } /* borrowed from vnet/fib/ip6_fib.c */ typedef struct ip6_fib_show_ctx_t_ { fib_node_index_t *entries; } ip6_fib_show_ctx_t; static fib_table_walk_rc_t ip6_fib_table_show_walk (fib_node_index_t fib_entry_index, void *arg) { ip6_fib_show_ctx_t *ctx = arg; vec_add1 (ctx->entries, fib_entry_index); return (FIB_TABLE_WALK_CONTINUE); } void hicn_mapme_process_fib_entry (vlib_main_t *vm, hicn_face_id_t face, const fib_node_index_t *fib_entry_index) { const dpo_id_t *load_balance_dpo_id; load_balance_t *lb; dpo_id_t *dpo_id; fib_entry_t *fib_entry; load_balance_dpo_id = fib_entry_contribute_ip_forwarding (*fib_entry_index); /* The dpo is not a load balance dpo as expected */ if (load_balance_dpo_id->dpoi_type != DPO_LOAD_BALANCE) return; /* former_dpo_id is a load_balance dpo */ lb = load_balance_get (load_balance_dpo_id->dpoi_index); for (int i = 0; i < lb->lb_n_buckets; i++) { /* un-const */ dpo_id = (dpo_id_t *) load_balance_get_bucket_i (lb, i); if (dpo_is_hicn (dpo_id)) { fib_entry = fib_entry_get (*fib_entry_index); vlib_cli_output (vm, "set face pending %U", format_fib_prefix, &fib_entry->fe_prefix); } } } void hicn_mapme_process_ip4_fib (vlib_main_t *vm, hicn_face_id_t face) { ip4_main_t *im4 = &ip4_main; fib_table_t *fib_table; int table_id = -1, fib_index = ~0; pool_foreach (fib_table, im4->fibs) { ip4_fib_t *fib = pool_elt_at_index (im4->v4_fibs, fib_table->ft_index); if (table_id >= 0 && table_id != (int) fib->table_id) continue; if (fib_index != ~0 && fib_index != (int) fib->index) continue; fib_node_index_t *fib_entry_index; ip4_fib_show_walk_ctx_t ctx = { .ifsw_indicies = NULL, }; ip4_fib_table_walk (fib, ip4_fib_show_walk_cb, &ctx); // vec_sort_with_function(ctx.ifsw_indicies, fib_entry_cmp_for_sort); vec_foreach (fib_entry_index, ctx.ifsw_indicies) { hicn_mapme_process_fib_entry (vm, face, fib_entry_index); } vec_free (ctx.ifsw_indicies); } } void hicn_mapme_process_ip6_fib (vlib_main_t *vm, hicn_face_id_t face) { /* Walk IPv6 FIB */ ip6_main_t *im6 = &ip6_main; fib_table_t *fib_table; ip6_fib_t *fib; int table_id = -1, fib_index = ~0; pool_foreach (fib_table, im6->fibs) { fib = pool_elt_at_index (im6->v6_fibs, fib_table->ft_index); if (table_id >= 0 && table_id != (int) fib->table_id) continue; if (fib_index != ~0 && fib_index != (int) fib->index) continue; if (fib_table->ft_flags & FIB_TABLE_FLAG_IP6_LL) continue; fib_node_index_t *fib_entry_index; ip6_fib_show_ctx_t ctx = { .entries = NULL, }; ip6_fib_table_walk (fib->index, ip6_fib_table_show_walk, &ctx); // vec_sort_with_function(ctx.entries, fib_entry_cmp_for_sort); vec_foreach (fib_entry_index, ctx.entries) { hicn_mapme_process_fib_entry (vm, face, fib_entry_index); } vec_free (ctx.entries); } } /** * Callback called everytime a new face is created (not including app faces) */ void hicn_mapme_on_face_added (vlib_main_t *vm, hicn_face_id_t face) { hicn_mapme_process_ip4_fib (vm, face); hicn_mapme_process_ip6_fib (vm, face); } /* * We need a retransmission pool holding all necessary information for crafting * special interests, thus including both the DPO and the prefix associated to * it. */ #define NUM_RETX_ENTRIES 100 #define NUM_RETX_SLOT 2 #define NEXT_SLOT(cur) (1 - cur) #define CUR retx_array[cur] #define NXT retx_array[NEXT_SLOT (cur)] #define CURLEN retx_len[cur] #define NXTLEN retx_len[NEXT_SLOT (cur)] static_always_inline void * get_packet_buffer (vlib_main_t *vm, u32 node_index, u32 dpoi_index, ip46_address_t *addr, hicn_type_t type) { vlib_frame_t *f; vlib_buffer_t *b; // for newly created packet u32 *to_next; u32 bi; u8 *buffer; if (vlib_buffer_alloc (vm, &bi, 1) != 1) { clib_warning ("buffer allocation failure"); return NULL; } /* Create a new packet from scratch */ b = vlib_get_buffer (vm, bi); ASSERT (b->current_data == 0); /* Face information for next hop node index */ vnet_buffer (b)->ip.adj_index[VLIB_TX] = dpoi_index; hicn_get_buffer (b)->type = type; /* Enqueue the packet right now */ f = vlib_get_frame_to_node (vm, node_index); to_next = vlib_frame_vector_args (f); to_next[0] = bi; f->n_vectors = 1; vlib_put_frame_to_node (vm, node_index, f); // pointer to IP layer ? do we need to prepare for ethernet ??? buffer = vlib_buffer_get_current (b); b->current_length = (type.l1 == IPPROTO_IPV6) ? HICN_MAPME_V6_HDRLEN : HICN_MAPME_V4_HDRLEN; return buffer; } static_always_inline bool hicn_mapme_send_message (vlib_main_t *vm, const hicn_prefix_t *prefix, mapme_params_t *params, hicn_face_id_t face) { size_t n; /* This should be retrieved from face information */ DEBUG ("Retransmission for prefix %U seq=%d", format_ip46_address, &prefix->name, IP46_TYPE_ANY, params->seq); char *node_name = hicn_mapme_get_dpo_face_node (face); if (!node_name) { clib_warning ("Could not determine next node for sending MAP-Me packet"); return false; } vlib_node_t *node = vlib_get_node_by_name (vm, (u8 *) node_name); u32 node_index = node->index; u8 *buffer = get_packet_buffer ( vm, node_index, face, (ip46_address_t *) prefix, (params->protocol == IPPROTO_IPV6) ? HICN_TYPE_IPV6_ICMP : HICN_TYPE_IPV4_ICMP); n = hicn_mapme_create_packet (buffer, prefix, params); if (n <= 0) { clib_warning ("Could not create MAP-Me packet"); return false; } return true; } static_always_inline void hicn_mapme_send_updates (vlib_main_t *vm, hicn_prefix_t *prefix, dpo_id_t dpo, bool send_all) { hicn_mapme_tfib_t *tfib = TFIB (hicn_strategy_dpo_ctx_get (dpo.dpoi_index)); if (!tfib) { DEBUG ("NULL TFIB entry id=%d", dpo.dpoi_index); return; } u8 tfib_last_idx = HICN_PARAM_FIB_ENTRY_NHOPS_MAX - tfib->tfib_entry_count; mapme_params_t params = { .protocol = ip46_address_is_ip4 (&prefix->name) ? IPPROTO_IP : IPPROTO_IPV6, .type = UPDATE, .seq = tfib->seq, }; if (send_all) { for (u8 pos = tfib_last_idx; pos < HICN_PARAM_FIB_ENTRY_NHOPS_MAX; pos++) { hicn_mapme_send_message (vm, prefix, ¶ms, tfib->next_hops[pos]); } } else { hicn_mapme_send_message (vm, prefix, ¶ms, tfib->next_hops[tfib_last_idx]); } } static uword hicn_mapme_eventmgr_process (vlib_main_t *vm, vlib_node_runtime_t *rt, vlib_frame_t *f) { f64 timeout = 0; /* By default, no timer is run */ f64 current_time, due_time; u8 idle = 0; retx_t retx_array[NUM_RETX_SLOT][NUM_RETX_ENTRIES]; memset (retx_array, 0, NUM_RETX_SLOT * NUM_RETX_ENTRIES); u8 retx_len[NUM_RETX_SLOT] = { 0 }; u8 cur = 0; /* current slot */ hicn_mapme_init (vm); for (;;) { /* NOTE: returned timeout seems to always be 0 with get_event_data * instead of get_event, and we thus need to reimplement timeout * management on top, as done elsewhere in VPP code. * * The most probable event. For simplicity, for new faces, we pass the * same retx_t with no prefix */ if (timeout != 0) { /* timeout = */ vlib_process_wait_for_event_or_clock (vm, timeout); current_time = vlib_time_now (vm); /* * As we don't accummulate errors, we allow for simple timer * management with no error correction accounting for elapsed time. * Also, we only run a timer when there are pending retransmissions. */ timeout = (due_time > current_time) ? due_time - current_time : DEFAULT_TIMEOUT; due_time = current_time + timeout; } else { vlib_process_wait_for_event (vm); } uword event_type = ~0; void *event_data = vlib_process_get_event_data (vm, &event_type); switch (event_type) { case HICN_MAPME_EVENT_FACE_ADD: { /* * A face has been added: * - In case of a local app face, we need to advertise a new * prefix * - For another local face type, we need to advertise local * prefixes and schedule retransmissions */ retx_t *retx_events = event_data; for (u8 i = 0; i < vec_len (retx_events); i++) { hicn_mapme_on_face_added (vm, retx_events[i].face_id); } idle = 0; } break; case HICN_MAPME_EVENT_FACE_DEL: idle = 0; break; case HICN_MAPME_EVENT_FACE_NH_SET: { /* * An hICN FIB entry has been modified. All operations so far * have been procedded in the nodes. Here we need to track * retransmissions upon timeout: we mark the FIB entry as pending * in the second-to-next slot */ /* Mark FIB entry as pending for second-to-next slot */ retx_t *retx_events = event_data; for (u8 i = 0; i < vec_len (retx_events); i++) { /* * retx_events[i] corresponds to the dpoi_index of the (T)FIB * structure that has been modified. Multiple successive * events might correspond to the same entry. * * The FIB entry has a new next hop, and its TFIB section has: * - eventually previous prev hops for which a IU with a * lower seqno has been sent * - the prev hops that have just been added. * * We don't distinguish any and just send an updated IU to all * of them. The retransmission of the latest IU to all * facilitates the matching of ACKs to a single seqno which is * the one stored in the FIB. * * Since we retransmit to all prev hops, we can remove this * (T)FIB entry for the check at the end of the current slot. */ retx_t *retx = (retx_t *) &retx_events[i]; retx->rtx_count = 0; /* * Transmit IU for all TFIB entries with latest seqno (we have * at least one for sure!) */ hicn_mapme_send_updates (vm, &retx->prefix, retx->dpo, true); /* Delete entry_id from retransmissions in the current slot (if * present) ... */ for (u8 j = 0; j < CURLEN; j++) if (!dpo_cmp (&(CUR[j].dpo), &retx->dpo)) { CUR[j].dpo.dpoi_index = ~0; /* sufficient */ } /* ... and schedule it for next slot (if not already) */ u8 j; for (j = 0; j < NXTLEN; j++) if (!dpo_cmp (&NXT[j].dpo, &retx->dpo)) break; if (j == NXTLEN) /* not found */ NXT[NXTLEN++] = *retx; } idle = 0; } break; case HICN_MAPME_EVENT_FACE_NH_ADD: /* * As per the description of states, this event should add the face * to the list of next hops, and eventually remove it from TFIB. * This corresponds to the multipath case. * * In all cases, we assume the propagation was already done when the * first interest with the same sequence number was received, so we * stop here No change in TFIB = no IU to send * * No change in timers. */ vlib_cli_output (vm, "[hicn_event_mgr] ADD NEXT HOP IN FIB"); /* Add ingress face as next hop */ idle = 0; break; case HICN_MAPME_EVENT_FACE_PH_ADD: /* Back-propagation, interesting even for IN (desync) */ { retx_t *retx_events = event_data; for (u8 i = 0; i < vec_len (retx_events); i++) { hicn_mapme_send_updates (vm, &retx_events[i].prefix, retx_events[i].dpo, false); } idle = 0; } break; case HICN_MAPME_EVENT_FACE_PH_DEL: /* Ack : remove an element from TFIB */ break; case ~0: /* Timeout occurred, we have to retransmit IUs for all pending * prefixes having entries in TFIB * * timeouts are slotted * | | | | * * ^ * +- event occurred * new face, wait for the second next * (having two arrays and swapping cur and next) * retx : put in next */ idle += 1; for (u8 pos = 0; pos < CURLEN; pos++) { retx_t *retx = &CUR[pos]; if (retx->dpo.dpoi_index == ~0) /* deleted entry */ continue; hicn_mapme_tfib_t *tfib = TFIB (hicn_strategy_dpo_ctx_get (retx->dpo.dpoi_index)); if (!tfib) { DEBUG ("NULL TFIB entry for dpoi_index=%d", retx->dpo.dpoi_index); continue; } hicn_mapme_send_updates (vm, &retx->prefix, retx->dpo, true); retx->rtx_count++; // If we exceed the numver of retransmittion it means that all // tfib entries have seens at least HICN_PARAM_RTX_MAX of // retransmission if (retx->rtx_count < HICN_PARAM_RTX_MAX) { /* * We did some retransmissions, so let's reschedule a check * in the next slot */ NXT[NXTLEN++] = CUR[pos]; idle = 0; } else { hicn_mapme_tfib_clear (tfib); } } /* Reset events in this slot and prepare for next one */ CURLEN = 0; cur = NEXT_SLOT (cur); /* After two empty slots, we disable the timer */ break; } if (event_data) vlib_process_put_event_data (vm, event_data); timeout = (idle > 1) ? 0 : DEFAULT_TIMEOUT; // if (vlib_process_suspend_time_is_zero (timeout)) { ... } } /* NOTREACHED */ return 0; } /* Not static as we need to access it from hicn_face */ VLIB_REGISTER_NODE (hicn_mapme_eventmgr_process_node) = { //,static) = { .function = hicn_mapme_eventmgr_process, .type = VLIB_NODE_TYPE_PROCESS, .name = "mapme-eventmgr-process", .process_log2_n_stack_bytes = 16, }; /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */