2 * Copyright (c) 2016 Cisco and/or its affiliates.
3 * Licensed under the Apache License, Version 2.0 (the "License");
4 * you may not use this file except in compliance with the License.
5 * You may obtain a copy of the License at:
7 * http://www.apache.org/licenses/LICENSE-2.0
9 * Unless required by applicable law or agreed to in writing, software
10 * distributed under the License is distributed on an "AS IS" BASIS,
11 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 * See the License for the specific language governing permissions and
13 * limitations under the License.
16 #include <vlib/vlib.h>
17 #include <vnet/vnet.h>
18 #include <vnet/ip/format.h>
19 #include <vnet/ip/ip.h>
20 #include <vnet/dpo/drop_dpo.h>
21 #include <vnet/dpo/receive_dpo.h>
22 #include <vnet/dpo/load_balance_map.h>
23 #include <vnet/dpo/lookup_dpo.h>
25 #include <vnet/adj/adj.h>
27 #include <vnet/fib/fib_path.h>
28 #include <vnet/fib/fib_node.h>
29 #include <vnet/fib/fib_table.h>
30 #include <vnet/fib/fib_entry.h>
31 #include <vnet/fib/fib_path_list.h>
32 #include <vnet/fib/fib_internal.h>
33 #include <vnet/fib/fib_urpf_list.h>
36 * Enurmeration of path types
38 typedef enum fib_path_type_t_ {
40 * Marker. Add new types after this one.
42 FIB_PATH_TYPE_FIRST = 0,
44 * Attached-nexthop. An interface and a nexthop are known.
46 FIB_PATH_TYPE_ATTACHED_NEXT_HOP = FIB_PATH_TYPE_FIRST,
48 * attached. Only the interface is known.
50 FIB_PATH_TYPE_ATTACHED,
52 * recursive. Only the next-hop is known.
54 FIB_PATH_TYPE_RECURSIVE,
56 * special. nothing is known. so we drop.
58 FIB_PATH_TYPE_SPECIAL,
60 * exclusive. user provided adj.
62 FIB_PATH_TYPE_EXCLUSIVE,
64 * deag. Link to a lookup adj in the next table
68 * receive. it's for-us.
70 FIB_PATH_TYPE_RECEIVE,
72 * Marker. Add new types before this one, then update it.
74 FIB_PATH_TYPE_LAST = FIB_PATH_TYPE_RECEIVE,
75 } __attribute__ ((packed)) fib_path_type_t;
78 * The maximum number of path_types
80 #define FIB_PATH_TYPE_MAX (FIB_PATH_TYPE_LAST + 1)
82 #define FIB_PATH_TYPES { \
83 [FIB_PATH_TYPE_ATTACHED_NEXT_HOP] = "attached-nexthop", \
84 [FIB_PATH_TYPE_ATTACHED] = "attached", \
85 [FIB_PATH_TYPE_RECURSIVE] = "recursive", \
86 [FIB_PATH_TYPE_SPECIAL] = "special", \
87 [FIB_PATH_TYPE_EXCLUSIVE] = "exclusive", \
88 [FIB_PATH_TYPE_DEAG] = "deag", \
89 [FIB_PATH_TYPE_RECEIVE] = "receive", \
92 #define FOR_EACH_FIB_PATH_TYPE(_item) \
93 for (_item = FIB_PATH_TYPE_FIRST; _item <= FIB_PATH_TYPE_LAST; _item++)
96 * Enurmeration of path operational (i.e. derived) attributes
98 typedef enum fib_path_oper_attribute_t_ {
100 * Marker. Add new types after this one.
102 FIB_PATH_OPER_ATTRIBUTE_FIRST = 0,
104 * The path forms part of a recursive loop.
106 FIB_PATH_OPER_ATTRIBUTE_RECURSIVE_LOOP = FIB_PATH_OPER_ATTRIBUTE_FIRST,
108 * The path is resolved
110 FIB_PATH_OPER_ATTRIBUTE_RESOLVED,
112 * The path has become a permanent drop.
114 FIB_PATH_OPER_ATTRIBUTE_DROP,
116 * Marker. Add new types before this one, then update it.
118 FIB_PATH_OPER_ATTRIBUTE_LAST = FIB_PATH_OPER_ATTRIBUTE_DROP,
119 } __attribute__ ((packed)) fib_path_oper_attribute_t;
122 * The maximum number of path operational attributes
124 #define FIB_PATH_OPER_ATTRIBUTE_MAX (FIB_PATH_OPER_ATTRIBUTE_LAST + 1)
126 #define FIB_PATH_OPER_ATTRIBUTES { \
127 [FIB_PATH_OPER_ATTRIBUTE_RECURSIVE_LOOP] = "recursive-loop", \
128 [FIB_PATH_OPER_ATTRIBUTE_RESOLVED] = "resolved", \
129 [FIB_PATH_OPER_ATTRIBUTE_DROP] = "drop", \
132 #define FOR_EACH_FIB_PATH_OPER_ATTRIBUTE(_item) \
133 for (_item = FIB_PATH_OPER_ATTRIBUTE_FIRST; \
134 _item <= FIB_PATH_OPER_ATTRIBUTE_LAST; \
138 * Path flags from the attributes
140 typedef enum fib_path_oper_flags_t_ {
141 FIB_PATH_OPER_FLAG_NONE = 0,
142 FIB_PATH_OPER_FLAG_RECURSIVE_LOOP = (1 << FIB_PATH_OPER_ATTRIBUTE_RECURSIVE_LOOP),
143 FIB_PATH_OPER_FLAG_DROP = (1 << FIB_PATH_OPER_ATTRIBUTE_DROP),
144 FIB_PATH_OPER_FLAG_RESOLVED = (1 << FIB_PATH_OPER_ATTRIBUTE_RESOLVED),
145 } __attribute__ ((packed)) fib_path_oper_flags_t;
150 typedef struct fib_path_t_ {
152 * A path is a node in the FIB graph.
157 * The index of the path-list to which this path belongs
162 * This marks the start of the memory area used to hash
165 STRUCT_MARK(path_hash_start);
168 * Configuration Flags
170 fib_path_cfg_flags_t fp_cfg_flags;
173 * The type of the path. This is the selector for the union
175 fib_path_type_t fp_type;
178 * The protocol of the next-hop, i.e. the address family of the
179 * next-hop's address. We can't derive this from the address itself
180 * since the address can be all zeros
182 fib_protocol_t fp_nh_proto;
185 * UCMP [unnormalised] weigt
190 * per-type union of the data required to resolve the path
197 ip46_address_t fp_nh;
213 ip46_address_t fp_nh;
215 * The FIB table index in which to find the next-hop.
216 * This needs to be fixed. We should lookup the adjacencies in
217 * a separate table of adjacencies, rather than from the FIB.
218 * Two reasons I can think of:
220 * int ip addr Gig0 10.0.0.1/24
221 * ip route 10.0.0.2/32 via Gig1 192.168.1.2
222 * ip route 1.1.1.1/32 via Gig0 10.0.0.2
223 * this is perfectly valid.
224 * Packets addressed to 10.0.0.2 should be sent via Gig1.
225 * Packets address to 1.1.1.1 should be sent via Gig0.
226 * when we perform the adj resolution from the FIB for the path
227 * "via Gig0 10.0.0.2" the lookup will result in the route via Gig1
228 * and so we will pick up the adj via Gig1 - which was not what the
230 * - we can only return link-type IPv4 and so not the link-type MPLS.
231 * more on this in a later commit.
233 * The table ID should only belong to a recursive path and indicate
234 * which FIB should be used to resolve the next-hop.
236 fib_node_index_t fp_tbl_id;
240 * The FIN index in which to perfom the next lookup
242 fib_node_index_t fp_tbl_id;
248 * The user provided 'exclusive' DPO
254 * The interface on which the local address is configured
260 ip46_address_t fp_addr;
263 STRUCT_MARK(path_hash_end);
266 * Memebers in this last section represent information that is
267 * dervied during resolution. It should not be copied to new paths
274 fib_path_oper_flags_t fp_oper_flags;
277 * the resolving via fib. not part of the union, since it it not part
278 * of the path's hash.
280 fib_node_index_t fp_via_fib;
283 * The Data-path objects through which this path resolves for IP.
288 * the index of this path in the parent's child list.
294 * Array of strings/names for the path types and attributes
296 static const char *fib_path_type_names[] = FIB_PATH_TYPES;
297 static const char *fib_path_oper_attribute_names[] = FIB_PATH_OPER_ATTRIBUTES;
298 static const char *fib_path_cfg_attribute_names[] = FIB_PATH_CFG_ATTRIBUTES;
301 * The memory pool from which we allocate all the paths
303 static fib_path_t *fib_path_pool;
309 #define FIB_PATH_DBG(_p, _fmt, _args...) \
312 _tmp = fib_path_format(fib_path_get_index(_p), _tmp); \
313 clib_warning("path:[%d:%s]:" _fmt, \
314 fib_path_get_index(_p), _tmp, \
319 #define FIB_PATH_DBG(_p, _fmt, _args...)
323 fib_path_get (fib_node_index_t index)
325 return (pool_elt_at_index(fib_path_pool, index));
328 static fib_node_index_t
329 fib_path_get_index (fib_path_t *path)
331 return (path - fib_path_pool);
335 fib_path_get_node (fib_node_index_t index)
337 return ((fib_node_t*)fib_path_get(index));
341 fib_path_from_fib_node (fib_node_t *node)
344 ASSERT(FIB_NODE_TYPE_PATH == node->fn_type);
346 return ((fib_path_t*)node);
350 format_fib_path (u8 * s, va_list * args)
352 fib_path_t *path = va_arg (*args, fib_path_t *);
353 vnet_main_t * vnm = vnet_get_main();
354 fib_path_oper_attribute_t oattr;
355 fib_path_cfg_attribute_t cattr;
357 s = format (s, " index:%d ", fib_path_get_index(path));
358 s = format (s, "pl-index:%d ", path->fp_pl_index);
359 s = format (s, "%U ", format_fib_protocol, path->fp_nh_proto);
360 s = format (s, "weight=%d ", path->fp_weight);
361 s = format (s, "%s: ", fib_path_type_names[path->fp_type]);
362 if (FIB_PATH_OPER_FLAG_NONE != path->fp_oper_flags) {
363 s = format(s, " oper-flags:");
364 FOR_EACH_FIB_PATH_OPER_ATTRIBUTE(oattr) {
365 if ((1<<oattr) & path->fp_oper_flags) {
366 s = format (s, "%s,", fib_path_oper_attribute_names[oattr]);
370 if (FIB_PATH_CFG_FLAG_NONE != path->fp_cfg_flags) {
371 s = format(s, " cfg-flags:");
372 FOR_EACH_FIB_PATH_CFG_ATTRIBUTE(cattr) {
373 if ((1<<cattr) & path->fp_cfg_flags) {
374 s = format (s, "%s,", fib_path_cfg_attribute_names[cattr]);
378 s = format(s, "\n ");
380 switch (path->fp_type)
382 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
383 s = format (s, "%U", format_ip46_address,
384 &path->attached_next_hop.fp_nh,
386 if (path->fp_oper_flags & FIB_PATH_OPER_FLAG_DROP)
388 s = format (s, " if_index:%d", path->attached_next_hop.fp_interface);
392 s = format (s, " %U",
393 format_vnet_sw_interface_name,
395 vnet_get_sw_interface(
397 path->attached_next_hop.fp_interface));
398 if (vnet_sw_interface_is_p2p(vnet_get_main(),
399 path->attached_next_hop.fp_interface))
401 s = format (s, " (p2p)");
404 if (!dpo_id_is_valid(&path->fp_dpo))
406 s = format(s, "\n unresolved");
410 s = format(s, "\n %U",
415 case FIB_PATH_TYPE_ATTACHED:
416 if (path->fp_oper_flags & FIB_PATH_OPER_FLAG_DROP)
418 s = format (s, " if_index:%d", path->attached_next_hop.fp_interface);
422 s = format (s, " %U",
423 format_vnet_sw_interface_name,
425 vnet_get_sw_interface(
427 path->attached.fp_interface));
430 case FIB_PATH_TYPE_RECURSIVE:
431 s = format (s, "via %U",
433 &path->recursive.fp_nh,
435 s = format (s, " in fib:%d", path->recursive.fp_tbl_id, path->fp_via_fib);
436 s = format (s, " via-fib:%d", path->fp_via_fib);
437 s = format (s, " via-dpo:[%U:%d]",
438 format_dpo_type, path->fp_dpo.dpoi_type,
439 path->fp_dpo.dpoi_index);
442 case FIB_PATH_TYPE_RECEIVE:
443 case FIB_PATH_TYPE_SPECIAL:
444 case FIB_PATH_TYPE_DEAG:
445 case FIB_PATH_TYPE_EXCLUSIVE:
446 if (dpo_id_is_valid(&path->fp_dpo))
448 s = format(s, "%U", format_dpo_id,
457 fib_path_format (fib_node_index_t pi, u8 *s)
461 path = fib_path_get(pi);
462 ASSERT(NULL != path);
464 return (format (s, "%U", format_fib_path, path));
468 fib_path_adj_format (fib_node_index_t pi,
474 path = fib_path_get(pi);
475 ASSERT(NULL != path);
477 if (!dpo_id_is_valid(&path->fp_dpo))
479 s = format(s, " unresolved");
483 s = format(s, "%U", format_dpo_id,
491 * fib_path_last_lock_gone
493 * We don't share paths, we share path lists, so the [un]lock functions
497 fib_path_last_lock_gone (fib_node_t *node)
502 static const adj_index_t
503 fib_path_attached_next_hop_get_adj (fib_path_t *path,
506 if (vnet_sw_interface_is_p2p(vnet_get_main(),
507 path->attached_next_hop.fp_interface))
510 * if the interface is p2p then the adj for the specific
511 * neighbour on that link will never exist. on p2p links
512 * the subnet address (the attached route) links to the
513 * auto-adj (see below), we want that adj here too.
515 return (adj_nbr_add_or_lock(path->fp_nh_proto,
518 path->attached_next_hop.fp_interface));
522 return (adj_nbr_add_or_lock(path->fp_nh_proto,
524 &path->attached_next_hop.fp_nh,
525 path->attached_next_hop.fp_interface));
530 fib_path_attached_next_hop_set (fib_path_t *path)
533 * resolve directly via the adjacnecy discribed by the
534 * interface and next-hop
536 if (!vnet_sw_interface_is_admin_up(vnet_get_main(),
537 path->attached_next_hop.fp_interface))
539 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
542 dpo_set(&path->fp_dpo,
544 fib_proto_to_dpo(path->fp_nh_proto),
545 fib_path_attached_next_hop_get_adj(
547 fib_proto_to_link(path->fp_nh_proto)));
550 * become a child of the adjacency so we receive updates
551 * when its rewrite changes
553 path->fp_sibling = adj_child_add(path->fp_dpo.dpoi_index,
555 fib_path_get_index(path));
559 * create of update the paths recursive adj
562 fib_path_recursive_adj_update (fib_path_t *path,
563 fib_forward_chain_type_t fct,
566 dpo_id_t via_dpo = DPO_INVALID;
569 * get the DPO to resolve through from the via-entry
571 fib_entry_contribute_forwarding(path->fp_via_fib,
577 * hope for the best - clear if restrictions apply.
579 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_RESOLVED;
582 * Validate any recursion constraints and over-ride the via
585 if (path->fp_oper_flags & FIB_PATH_OPER_FLAG_RECURSIVE_LOOP)
587 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
588 dpo_copy(&via_dpo, drop_dpo_get(fib_proto_to_dpo(path->fp_nh_proto)));
590 else if (path->fp_cfg_flags & FIB_PATH_CFG_FLAG_RESOLVE_HOST)
593 * the via FIB must be a host route.
594 * note the via FIB just added will always be a host route
595 * since it is an RR source added host route. So what we need to
596 * check is whether the route has other sources. If it does then
597 * some other source has added it as a host route. If it doesn't
598 * then it was added only here and inherits forwarding from a cover.
599 * the cover is not a host route.
600 * The RR source is the lowest priority source, so we check if it
601 * is the best. if it is there are no other sources.
603 if (fib_entry_get_best_source(path->fp_via_fib) >= FIB_SOURCE_RR)
605 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
606 dpo_copy(&via_dpo, drop_dpo_get(fib_proto_to_dpo(path->fp_nh_proto)));
609 * PIC edge trigger. let the load-balance maps know
611 load_balance_map_path_state_change(fib_path_get_index(path));
614 else if (path->fp_cfg_flags & FIB_PATH_CFG_FLAG_RESOLVE_ATTACHED)
617 * RR source entries inherit the flags from the cover, so
618 * we can check the via directly
620 if (!(FIB_ENTRY_FLAG_ATTACHED & fib_entry_get_flags(path->fp_via_fib)))
622 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
623 dpo_copy(&via_dpo, drop_dpo_get(fib_proto_to_dpo(path->fp_nh_proto)));
626 * PIC edge trigger. let the load-balance maps know
628 load_balance_map_path_state_change(fib_path_get_index(path));
633 * update the path's contributed DPO
635 dpo_copy(dpo, &via_dpo);
637 FIB_PATH_DBG(path, "recursive update: %U",
638 fib_get_lookup_main(path->fp_nh_proto),
645 * fib_path_is_permanent_drop
647 * Return !0 if the path is configured to permanently drop,
648 * despite other attributes.
651 fib_path_is_permanent_drop (fib_path_t *path)
653 return ((path->fp_cfg_flags & FIB_PATH_CFG_FLAG_DROP) ||
654 (path->fp_oper_flags & FIB_PATH_OPER_FLAG_DROP));
660 * Remove our dependency on the resolution target
663 fib_path_unresolve (fib_path_t *path)
666 * the forced drop path does not need unresolving
668 if (fib_path_is_permanent_drop(path))
673 switch (path->fp_type)
675 case FIB_PATH_TYPE_RECURSIVE:
676 if (FIB_NODE_INDEX_INVALID != path->fp_via_fib)
680 fib_prefix_from_ip46_addr(&path->recursive.fp_nh, &pfx);
681 fib_entry_child_remove(path->fp_via_fib,
683 fib_table_entry_special_remove(path->recursive.fp_tbl_id,
686 path->fp_via_fib = FIB_NODE_INDEX_INVALID;
689 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
690 case FIB_PATH_TYPE_ATTACHED:
691 adj_child_remove(path->fp_dpo.dpoi_index,
693 adj_unlock(path->fp_dpo.dpoi_index);
695 case FIB_PATH_TYPE_EXCLUSIVE:
696 dpo_reset(&path->exclusive.fp_ex_dpo);
698 case FIB_PATH_TYPE_SPECIAL:
699 case FIB_PATH_TYPE_RECEIVE:
700 case FIB_PATH_TYPE_DEAG:
702 * these hold only the path's DPO, which is reset below.
708 * release the adj we were holding and pick up the
711 dpo_reset(&path->fp_dpo);
712 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
717 static fib_forward_chain_type_t
718 fib_path_proto_to_chain_type (fib_protocol_t proto)
722 case FIB_PROTOCOL_IP4:
723 return (FIB_FORW_CHAIN_TYPE_UNICAST_IP4);
724 case FIB_PROTOCOL_IP6:
725 return (FIB_FORW_CHAIN_TYPE_UNICAST_IP6);
726 case FIB_PROTOCOL_MPLS:
727 return (FIB_FORW_CHAIN_TYPE_MPLS_NON_EOS);
729 return (FIB_FORW_CHAIN_TYPE_UNICAST_IP4);
733 * fib_path_back_walk_notify
735 * A back walk has reach this path.
737 static fib_node_back_walk_rc_t
738 fib_path_back_walk_notify (fib_node_t *node,
739 fib_node_back_walk_ctx_t *ctx)
743 path = fib_path_from_fib_node(node);
745 switch (path->fp_type)
747 case FIB_PATH_TYPE_RECURSIVE:
748 if (FIB_NODE_BW_REASON_FLAG_EVALUATE & ctx->fnbw_reason)
751 * modify the recursive adjacency to use the new forwarding
753 * this update is visible to packets in flight in the DP.
755 fib_path_recursive_adj_update(
757 fib_path_proto_to_chain_type(path->fp_nh_proto),
760 if ((FIB_NODE_BW_REASON_FLAG_ADJ_UPDATE & ctx->fnbw_reason) ||
761 (FIB_NODE_BW_REASON_FLAG_ADJ_DOWN & ctx->fnbw_reason))
764 * ADJ updates (complete<->incomplete) do not need to propagate to
766 * The only reason its needed as far back as here, is that the adj
767 * and the incomplete adj are a different DPO type, so the LBs need
769 * If this walk was quashed in the fib_entry, then any non-fib_path
770 * children (like tunnels that collapse out the LB when they stack)
771 * would not see the update.
773 return (FIB_NODE_BACK_WALK_CONTINUE);
776 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
779 * ADJ_UPDATE backwalk pass silently through here and up to
780 * the path-list when the multipath adj collapse occurs.
781 * The reason we do this is that the assumtption is that VPP
782 * runs in an environment where the Control-Plane is remote
783 * and hence reacts slowly to link up down. In order to remove
784 * this down link from the ECMP set quickly, we back-walk.
785 * VPP also has dedicated CPUs, so we are not stealing resources
786 * from the CP to do so.
788 if (FIB_NODE_BW_REASON_FLAG_INTERFACE_UP & ctx->fnbw_reason)
790 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_RESOLVED;
792 if (FIB_NODE_BW_REASON_FLAG_INTERFACE_DOWN & ctx->fnbw_reason)
794 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
796 if (FIB_NODE_BW_REASON_FLAG_INTERFACE_DELETE & ctx->fnbw_reason)
799 * The interface this path resolves through has been deleted.
800 * This will leave the path in a permanent drop state. The route
801 * needs to be removed and readded (and hence the path-list deleted)
802 * before it can forward again.
804 fib_path_unresolve(path);
805 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_DROP;
807 if (FIB_NODE_BW_REASON_FLAG_ADJ_UPDATE & ctx->fnbw_reason)
810 * restack the DPO to pick up the correct DPO sub-type
814 if (vnet_sw_interface_is_admin_up(vnet_get_main(),
815 path->attached_next_hop.fp_interface))
817 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_RESOLVED;
820 ai = fib_path_attached_next_hop_get_adj(
822 fib_proto_to_link(path->fp_nh_proto));
824 dpo_set(&path->fp_dpo, DPO_ADJACENCY,
825 fib_proto_to_dpo(path->fp_nh_proto),
829 if (FIB_NODE_BW_REASON_FLAG_ADJ_DOWN & ctx->fnbw_reason)
832 * the adj has gone down. the path is no longer resolved.
834 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
837 case FIB_PATH_TYPE_ATTACHED:
839 * FIXME; this could schedule a lower priority walk, since attached
840 * routes are not usually in ECMP configurations so the backwalk to
841 * the FIB entry does not need to be high priority
843 if (FIB_NODE_BW_REASON_FLAG_INTERFACE_UP & ctx->fnbw_reason)
845 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_RESOLVED;
847 if (FIB_NODE_BW_REASON_FLAG_INTERFACE_DOWN & ctx->fnbw_reason)
849 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
851 if (FIB_NODE_BW_REASON_FLAG_INTERFACE_DELETE & ctx->fnbw_reason)
853 fib_path_unresolve(path);
854 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_DROP;
857 case FIB_PATH_TYPE_DEAG:
859 * FIXME When VRF delete is allowed this will need a poke.
861 case FIB_PATH_TYPE_SPECIAL:
862 case FIB_PATH_TYPE_RECEIVE:
863 case FIB_PATH_TYPE_EXCLUSIVE:
865 * these path types have no parents. so to be
866 * walked from one is unexpected.
873 * propagate the backwalk further to the path-list
875 fib_path_list_back_walk(path->fp_pl_index, ctx);
877 return (FIB_NODE_BACK_WALK_CONTINUE);
881 fib_path_memory_show (void)
883 fib_show_memory_usage("Path",
884 pool_elts(fib_path_pool),
885 pool_len(fib_path_pool),
890 * The FIB path's graph node virtual function table
892 static const fib_node_vft_t fib_path_vft = {
893 .fnv_get = fib_path_get_node,
894 .fnv_last_lock = fib_path_last_lock_gone,
895 .fnv_back_walk = fib_path_back_walk_notify,
896 .fnv_mem_show = fib_path_memory_show,
899 static fib_path_cfg_flags_t
900 fib_path_route_flags_to_cfg_flags (const fib_route_path_t *rpath)
902 fib_path_cfg_flags_t cfg_flags = FIB_PATH_CFG_FLAG_NONE;
904 if (rpath->frp_flags & FIB_ROUTE_PATH_RESOLVE_VIA_HOST)
905 cfg_flags |= FIB_PATH_CFG_FLAG_RESOLVE_HOST;
906 if (rpath->frp_flags & FIB_ROUTE_PATH_RESOLVE_VIA_ATTACHED)
907 cfg_flags |= FIB_PATH_CFG_FLAG_RESOLVE_ATTACHED;
915 * Create and initialise a new path object.
916 * return the index of the path.
919 fib_path_create (fib_node_index_t pl_index,
920 fib_protocol_t nh_proto,
921 fib_path_cfg_flags_t flags,
922 const fib_route_path_t *rpath)
926 pool_get(fib_path_pool, path);
927 memset(path, 0, sizeof(*path));
929 fib_node_init(&path->fp_node,
932 dpo_reset(&path->fp_dpo);
933 path->fp_pl_index = pl_index;
934 path->fp_nh_proto = nh_proto;
935 path->fp_via_fib = FIB_NODE_INDEX_INVALID;
936 path->fp_weight = rpath->frp_weight;
937 path->fp_cfg_flags = flags;
938 path->fp_cfg_flags |= fib_path_route_flags_to_cfg_flags(rpath);
941 * deduce the path's tpye from the parementers and save what is needed.
943 if (~0 != rpath->frp_sw_if_index)
945 if (flags & FIB_PATH_CFG_FLAG_LOCAL)
947 path->fp_type = FIB_PATH_TYPE_RECEIVE;
948 path->receive.fp_interface = rpath->frp_sw_if_index;
949 path->receive.fp_addr = rpath->frp_addr;
953 if (ip46_address_is_zero(&rpath->frp_addr))
955 path->fp_type = FIB_PATH_TYPE_ATTACHED;
956 path->attached.fp_interface = rpath->frp_sw_if_index;
960 path->fp_type = FIB_PATH_TYPE_ATTACHED_NEXT_HOP;
961 path->attached_next_hop.fp_interface = rpath->frp_sw_if_index;
962 path->attached_next_hop.fp_nh = rpath->frp_addr;
968 if (ip46_address_is_zero(&rpath->frp_addr))
970 if (~0 == rpath->frp_fib_index)
972 path->fp_type = FIB_PATH_TYPE_SPECIAL;
976 path->fp_type = FIB_PATH_TYPE_DEAG;
977 path->deag.fp_tbl_id = rpath->frp_fib_index;
982 path->fp_type = FIB_PATH_TYPE_RECURSIVE;
983 path->recursive.fp_nh = rpath->frp_addr;
984 path->recursive.fp_tbl_id = rpath->frp_fib_index;
988 FIB_PATH_DBG(path, "create");
990 return (fib_path_get_index(path));
994 * fib_path_create_special
996 * Create and initialise a new path object.
997 * return the index of the path.
1000 fib_path_create_special (fib_node_index_t pl_index,
1001 fib_protocol_t nh_proto,
1002 fib_path_cfg_flags_t flags,
1003 const dpo_id_t *dpo)
1007 pool_get(fib_path_pool, path);
1008 memset(path, 0, sizeof(*path));
1010 fib_node_init(&path->fp_node,
1011 FIB_NODE_TYPE_PATH);
1012 dpo_reset(&path->fp_dpo);
1014 path->fp_pl_index = pl_index;
1015 path->fp_weight = 1;
1016 path->fp_nh_proto = nh_proto;
1017 path->fp_via_fib = FIB_NODE_INDEX_INVALID;
1018 path->fp_cfg_flags = flags;
1020 if (FIB_PATH_CFG_FLAG_DROP & flags)
1022 path->fp_type = FIB_PATH_TYPE_SPECIAL;
1024 else if (FIB_PATH_CFG_FLAG_LOCAL & flags)
1026 path->fp_type = FIB_PATH_TYPE_RECEIVE;
1027 path->attached.fp_interface = FIB_NODE_INDEX_INVALID;
1031 path->fp_type = FIB_PATH_TYPE_EXCLUSIVE;
1032 ASSERT(NULL != dpo);
1033 dpo_copy(&path->exclusive.fp_ex_dpo, dpo);
1036 return (fib_path_get_index(path));
1042 * Copy a path. return index of new path.
1045 fib_path_copy (fib_node_index_t path_index,
1046 fib_node_index_t path_list_index)
1048 fib_path_t *path, *orig_path;
1050 pool_get(fib_path_pool, path);
1052 orig_path = fib_path_get(path_index);
1053 ASSERT(NULL != orig_path);
1055 memcpy(path, orig_path, sizeof(*path));
1057 FIB_PATH_DBG(path, "create-copy:%d", path_index);
1060 * reset the dynamic section
1062 fib_node_init(&path->fp_node, FIB_NODE_TYPE_PATH);
1063 path->fp_oper_flags = FIB_PATH_OPER_FLAG_NONE;
1064 path->fp_pl_index = path_list_index;
1065 path->fp_via_fib = FIB_NODE_INDEX_INVALID;
1066 memset(&path->fp_dpo, 0, sizeof(path->fp_dpo));
1067 dpo_reset(&path->fp_dpo);
1069 return (fib_path_get_index(path));
1075 * destroy a path that is no longer required
1078 fib_path_destroy (fib_node_index_t path_index)
1082 path = fib_path_get(path_index);
1084 ASSERT(NULL != path);
1085 FIB_PATH_DBG(path, "destroy");
1087 fib_path_unresolve(path);
1089 fib_node_deinit(&path->fp_node);
1090 pool_put(fib_path_pool, path);
1096 * destroy a path that is no longer required
1099 fib_path_hash (fib_node_index_t path_index)
1103 path = fib_path_get(path_index);
1105 return (hash_memory(STRUCT_MARK_PTR(path, path_hash_start),
1106 (STRUCT_OFFSET_OF(fib_path_t, path_hash_end) -
1107 STRUCT_OFFSET_OF(fib_path_t, path_hash_start)),
1114 * Compare two paths for equivalence.
1117 fib_path_cmp_i (const fib_path_t *path1,
1118 const fib_path_t *path2)
1125 * paths of different types and protocol are not equal.
1126 * different weights only are the same path.
1128 if (path1->fp_type != path2->fp_type)
1130 res = (path1->fp_type - path2->fp_type);
1132 if (path1->fp_nh_proto != path2->fp_nh_proto)
1134 res = (path1->fp_nh_proto - path2->fp_nh_proto);
1139 * both paths are of the same type.
1140 * consider each type and its attributes in turn.
1142 switch (path1->fp_type)
1144 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
1145 res = ip46_address_cmp(&path1->attached_next_hop.fp_nh,
1146 &path2->attached_next_hop.fp_nh);
1148 res = vnet_sw_interface_compare(
1150 path1->attached_next_hop.fp_interface,
1151 path2->attached_next_hop.fp_interface);
1154 case FIB_PATH_TYPE_ATTACHED:
1155 res = vnet_sw_interface_compare(
1157 path1->attached.fp_interface,
1158 path2->attached.fp_interface);
1160 case FIB_PATH_TYPE_RECURSIVE:
1161 res = ip46_address_cmp(&path1->recursive.fp_nh,
1162 &path2->recursive.fp_nh);
1166 res = (path1->recursive.fp_tbl_id - path2->recursive.fp_tbl_id);
1169 case FIB_PATH_TYPE_DEAG:
1170 res = (path1->deag.fp_tbl_id - path2->deag.fp_tbl_id);
1172 case FIB_PATH_TYPE_SPECIAL:
1173 case FIB_PATH_TYPE_RECEIVE:
1174 case FIB_PATH_TYPE_EXCLUSIVE:
1183 * fib_path_cmp_for_sort
1185 * Compare two paths for equivalence. Used during path sorting.
1186 * As usual 0 means equal.
1189 fib_path_cmp_for_sort (void * v1,
1192 fib_node_index_t *pi1 = v1, *pi2 = v2;
1193 fib_path_t *path1, *path2;
1195 path1 = fib_path_get(*pi1);
1196 path2 = fib_path_get(*pi2);
1198 return (fib_path_cmp_i(path1, path2));
1204 * Compare two paths for equivalence.
1207 fib_path_cmp (fib_node_index_t pi1,
1208 fib_node_index_t pi2)
1210 fib_path_t *path1, *path2;
1212 path1 = fib_path_get(pi1);
1213 path2 = fib_path_get(pi2);
1215 return (fib_path_cmp_i(path1, path2));
1219 fib_path_cmp_w_route_path (fib_node_index_t path_index,
1220 const fib_route_path_t *rpath)
1225 path = fib_path_get(path_index);
1229 if (path->fp_weight != rpath->frp_weight)
1231 res = (path->fp_weight - rpath->frp_weight);
1236 * both paths are of the same type.
1237 * consider each type and its attributes in turn.
1239 switch (path->fp_type)
1241 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
1242 res = ip46_address_cmp(&path->attached_next_hop.fp_nh,
1246 res = vnet_sw_interface_compare(
1248 path->attached_next_hop.fp_interface,
1249 rpath->frp_sw_if_index);
1252 case FIB_PATH_TYPE_ATTACHED:
1253 res = vnet_sw_interface_compare(
1255 path->attached.fp_interface,
1256 rpath->frp_sw_if_index);
1258 case FIB_PATH_TYPE_RECURSIVE:
1259 res = ip46_address_cmp(&path->recursive.fp_nh,
1264 res = (path->recursive.fp_tbl_id - rpath->frp_fib_index);
1267 case FIB_PATH_TYPE_DEAG:
1268 res = (path->deag.fp_tbl_id - rpath->frp_fib_index);
1270 case FIB_PATH_TYPE_SPECIAL:
1271 case FIB_PATH_TYPE_RECEIVE:
1272 case FIB_PATH_TYPE_EXCLUSIVE:
1281 * fib_path_recursive_loop_detect
1283 * A forward walk of the FIB object graph to detect for a cycle/loop. This
1284 * walk is initiated when an entry is linking to a new path list or from an old.
1285 * The entry vector passed contains all the FIB entrys that are children of this
1286 * path (it is all the entries encountered on the walk so far). If this vector
1287 * contains the entry this path resolve via, then a loop is about to form.
1288 * The loop must be allowed to form, since we need the dependencies in place
1289 * so that we can track when the loop breaks.
1290 * However, we MUST not produce a loop in the forwarding graph (else packets
1291 * would loop around the switch path until the loop breaks), so we mark recursive
1292 * paths as looped so that they do not contribute forwarding information.
1293 * By marking the path as looped, an etry such as;
1295 * via a.a.a.a (looped)
1296 * via b.b.b.b (not looped)
1297 * can still forward using the info provided by b.b.b.b only
1300 fib_path_recursive_loop_detect (fib_node_index_t path_index,
1301 fib_node_index_t **entry_indicies)
1305 path = fib_path_get(path_index);
1308 * the forced drop path is never looped, cos it is never resolved.
1310 if (fib_path_is_permanent_drop(path))
1315 switch (path->fp_type)
1317 case FIB_PATH_TYPE_RECURSIVE:
1319 fib_node_index_t *entry_index, *entries;
1321 entries = *entry_indicies;
1323 vec_foreach(entry_index, entries) {
1324 if (*entry_index == path->fp_via_fib)
1327 * the entry that is about to link to this path-list (or
1328 * one of this path-list's children) is the same entry that
1329 * this recursive path resolves through. this is a cycle.
1339 FIB_PATH_DBG(path, "recursive loop formed");
1340 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_RECURSIVE_LOOP;
1342 dpo_copy(&path->fp_dpo,
1343 drop_dpo_get(fib_proto_to_dpo(path->fp_nh_proto)));
1348 * no loop here yet. keep forward walking the graph.
1350 if (fib_entry_recursive_loop_detect(path->fp_via_fib, entry_indicies))
1352 FIB_PATH_DBG(path, "recursive loop formed");
1353 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_RECURSIVE_LOOP;
1357 FIB_PATH_DBG(path, "recursive loop cleared");
1358 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RECURSIVE_LOOP;
1363 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
1364 case FIB_PATH_TYPE_ATTACHED:
1365 case FIB_PATH_TYPE_SPECIAL:
1366 case FIB_PATH_TYPE_DEAG:
1367 case FIB_PATH_TYPE_RECEIVE:
1368 case FIB_PATH_TYPE_EXCLUSIVE:
1370 * these path types cannot be part of a loop, since they are the leaves
1376 return (fib_path_is_looped(path_index));
1380 fib_path_resolve (fib_node_index_t path_index)
1384 path = fib_path_get(path_index);
1387 * hope for the best.
1389 path->fp_oper_flags |= FIB_PATH_OPER_FLAG_RESOLVED;
1392 * the forced drop path resolves via the drop adj
1394 if (fib_path_is_permanent_drop(path))
1396 dpo_copy(&path->fp_dpo,
1397 drop_dpo_get(fib_proto_to_dpo(path->fp_nh_proto)));
1398 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
1399 return (fib_path_is_resolved(path_index));
1402 switch (path->fp_type)
1404 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
1405 fib_path_attached_next_hop_set(path);
1407 case FIB_PATH_TYPE_ATTACHED:
1409 * path->attached.fp_interface
1411 if (!vnet_sw_interface_is_admin_up(vnet_get_main(),
1412 path->attached.fp_interface))
1414 path->fp_oper_flags &= ~FIB_PATH_OPER_FLAG_RESOLVED;
1416 if (vnet_sw_interface_is_p2p(vnet_get_main(),
1417 path->attached.fp_interface))
1420 * point-2-point interfaces do not require a glean, since
1421 * there is nothing to ARP. Install a rewrite/nbr adj instead
1423 dpo_set(&path->fp_dpo,
1425 fib_proto_to_dpo(path->fp_nh_proto),
1426 adj_nbr_add_or_lock(
1428 fib_proto_to_link(path->fp_nh_proto),
1430 path->attached.fp_interface));
1434 dpo_set(&path->fp_dpo,
1435 DPO_ADJACENCY_GLEAN,
1436 fib_proto_to_dpo(path->fp_nh_proto),
1437 adj_glean_add_or_lock(path->fp_nh_proto,
1438 path->attached.fp_interface,
1442 * become a child of the adjacency so we receive updates
1443 * when the interface state changes
1445 path->fp_sibling = adj_child_add(path->fp_dpo.dpoi_index,
1447 fib_path_get_index(path));
1450 case FIB_PATH_TYPE_RECURSIVE:
1453 * Create a RR source entry in the table for the address
1454 * that this path recurses through.
1455 * This resolve action is recursive, hence we may create
1456 * more paths in the process. more creates mean maybe realloc
1459 fib_node_index_t fei;
1462 ASSERT(FIB_NODE_INDEX_INVALID == path->fp_via_fib);
1464 fib_prefix_from_ip46_addr(&path->recursive.fp_nh, &pfx);
1466 fei = fib_table_entry_special_add(path->recursive.fp_tbl_id,
1469 FIB_ENTRY_FLAG_NONE,
1472 path = fib_path_get(path_index);
1473 path->fp_via_fib = fei;
1476 * become a dependent child of the entry so the path is
1477 * informed when the forwarding for the entry changes.
1479 path->fp_sibling = fib_entry_child_add(path->fp_via_fib,
1481 fib_path_get_index(path));
1484 * create and configure the IP DPO
1486 fib_path_recursive_adj_update(
1488 fib_path_proto_to_chain_type(path->fp_nh_proto),
1493 case FIB_PATH_TYPE_SPECIAL:
1495 * Resolve via the drop
1497 dpo_copy(&path->fp_dpo,
1498 drop_dpo_get(fib_proto_to_dpo(path->fp_nh_proto)));
1500 case FIB_PATH_TYPE_DEAG:
1502 * Resolve via a lookup DPO.
1503 * FIXME. control plane should add routes with a table ID
1505 lookup_dpo_add_or_lock_w_fib_index(path->deag.fp_tbl_id,
1506 fib_proto_to_dpo(path->fp_nh_proto),
1507 LOOKUP_INPUT_DST_ADDR,
1508 LOOKUP_TABLE_FROM_CONFIG,
1511 case FIB_PATH_TYPE_RECEIVE:
1513 * Resolve via a receive DPO.
1515 receive_dpo_add_or_lock(fib_proto_to_dpo(path->fp_nh_proto),
1516 path->receive.fp_interface,
1517 &path->receive.fp_addr,
1520 case FIB_PATH_TYPE_EXCLUSIVE:
1522 * Resolve via the user provided DPO
1524 dpo_copy(&path->fp_dpo, &path->exclusive.fp_ex_dpo);
1528 return (fib_path_is_resolved(path_index));
1532 fib_path_get_resolving_interface (fib_node_index_t path_index)
1536 path = fib_path_get(path_index);
1538 switch (path->fp_type)
1540 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
1541 return (path->attached_next_hop.fp_interface);
1542 case FIB_PATH_TYPE_ATTACHED:
1543 return (path->attached.fp_interface);
1544 case FIB_PATH_TYPE_RECEIVE:
1545 return (path->receive.fp_interface);
1546 case FIB_PATH_TYPE_RECURSIVE:
1547 return (fib_entry_get_resolving_interface(path->fp_via_fib));
1548 case FIB_PATH_TYPE_SPECIAL:
1549 case FIB_PATH_TYPE_DEAG:
1550 case FIB_PATH_TYPE_EXCLUSIVE:
1557 fib_path_get_adj (fib_node_index_t path_index)
1561 path = fib_path_get(path_index);
1563 ASSERT(dpo_is_adj(&path->fp_dpo));
1564 if (dpo_is_adj(&path->fp_dpo))
1566 return (path->fp_dpo.dpoi_index);
1568 return (ADJ_INDEX_INVALID);
1572 fib_path_get_weight (fib_node_index_t path_index)
1576 path = fib_path_get(path_index);
1580 return (path->fp_weight);
1584 * @brief Contribute the path's adjacency to the list passed.
1585 * By calling this function over all paths, recursively, a child
1586 * can construct its full set of forwarding adjacencies, and hence its
1590 fib_path_contribute_urpf (fib_node_index_t path_index,
1595 if (!fib_path_is_resolved(path_index))
1598 path = fib_path_get(path_index);
1600 switch (path->fp_type)
1602 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
1603 fib_urpf_list_append(urpf, path->attached_next_hop.fp_interface);
1606 case FIB_PATH_TYPE_ATTACHED:
1607 fib_urpf_list_append(urpf, path->attached.fp_interface);
1610 case FIB_PATH_TYPE_RECURSIVE:
1611 fib_entry_contribute_urpf(path->fp_via_fib, urpf);
1614 case FIB_PATH_TYPE_EXCLUSIVE:
1615 case FIB_PATH_TYPE_SPECIAL:
1617 * these path types may link to an adj, if that's what
1620 if (dpo_is_adj(&path->fp_dpo))
1622 ip_adjacency_t *adj;
1624 adj = adj_get(path->fp_dpo.dpoi_index);
1626 fib_urpf_list_append(urpf, adj->rewrite_header.sw_if_index);
1630 case FIB_PATH_TYPE_DEAG:
1631 case FIB_PATH_TYPE_RECEIVE:
1633 * these path types don't link to an adj
1640 fib_path_contribute_forwarding (fib_node_index_t path_index,
1641 fib_forward_chain_type_t fct,
1646 path = fib_path_get(path_index);
1649 ASSERT(FIB_FORW_CHAIN_TYPE_MPLS_EOS != fct);
1651 FIB_PATH_DBG(path, "contribute");
1654 * The DPO stored in the path was created when the path was resolved.
1655 * This then represents the path's 'native' protocol; IP.
1656 * For all others will need to go find something else.
1658 if (fib_path_proto_to_chain_type(path->fp_nh_proto) == fct)
1660 dpo_copy(dpo, &path->fp_dpo);
1664 switch (path->fp_type)
1666 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
1669 case FIB_FORW_CHAIN_TYPE_UNICAST_IP4:
1670 case FIB_FORW_CHAIN_TYPE_UNICAST_IP6:
1671 case FIB_FORW_CHAIN_TYPE_MPLS_EOS:
1672 case FIB_FORW_CHAIN_TYPE_MPLS_NON_EOS:
1673 case FIB_FORW_CHAIN_TYPE_ETHERNET:
1678 * get a MPLS link type adj.
1680 ai = fib_path_attached_next_hop_get_adj(
1682 fib_forw_chain_type_to_link_type(fct));
1683 dpo_set(dpo, DPO_ADJACENCY,
1684 fib_forw_chain_type_to_dpo_proto(fct), ai);
1691 case FIB_PATH_TYPE_RECURSIVE:
1694 case FIB_FORW_CHAIN_TYPE_MPLS_EOS:
1695 case FIB_FORW_CHAIN_TYPE_UNICAST_IP4:
1696 case FIB_FORW_CHAIN_TYPE_UNICAST_IP6:
1698 * Assume that EOS and IP forwarding is the same.
1701 dpo_copy(dpo, &path->fp_dpo);
1703 case FIB_FORW_CHAIN_TYPE_MPLS_NON_EOS:
1704 fib_path_recursive_adj_update(path, fct, dpo);
1706 case FIB_FORW_CHAIN_TYPE_ETHERNET:
1711 case FIB_PATH_TYPE_DEAG:
1714 case FIB_FORW_CHAIN_TYPE_MPLS_NON_EOS:
1715 lookup_dpo_add_or_lock_w_table_id(MPLS_FIB_DEFAULT_TABLE_ID,
1717 LOOKUP_INPUT_DST_ADDR,
1718 LOOKUP_TABLE_FROM_CONFIG,
1721 case FIB_FORW_CHAIN_TYPE_UNICAST_IP4:
1722 case FIB_FORW_CHAIN_TYPE_UNICAST_IP6:
1723 case FIB_FORW_CHAIN_TYPE_MPLS_EOS:
1724 dpo_copy(dpo, &path->fp_dpo);
1726 case FIB_FORW_CHAIN_TYPE_ETHERNET:
1731 case FIB_PATH_TYPE_EXCLUSIVE:
1732 dpo_copy(dpo, &path->exclusive.fp_ex_dpo);
1734 case FIB_PATH_TYPE_ATTACHED:
1735 case FIB_PATH_TYPE_RECEIVE:
1736 case FIB_PATH_TYPE_SPECIAL:
1744 load_balance_path_t *
1745 fib_path_append_nh_for_multipath_hash (fib_node_index_t path_index,
1746 fib_forward_chain_type_t fct,
1747 load_balance_path_t *hash_key)
1749 load_balance_path_t *mnh;
1752 path = fib_path_get(path_index);
1756 if (fib_path_is_resolved(path_index))
1758 vec_add2(hash_key, mnh, 1);
1760 mnh->path_weight = path->fp_weight;
1761 mnh->path_index = path_index;
1762 fib_path_contribute_forwarding(path_index, fct, &mnh->path_dpo);
1769 fib_path_is_recursive (fib_node_index_t path_index)
1773 path = fib_path_get(path_index);
1775 return (FIB_PATH_TYPE_RECURSIVE == path->fp_type);
1779 fib_path_is_exclusive (fib_node_index_t path_index)
1783 path = fib_path_get(path_index);
1785 return (FIB_PATH_TYPE_EXCLUSIVE == path->fp_type);
1789 fib_path_is_deag (fib_node_index_t path_index)
1793 path = fib_path_get(path_index);
1795 return (FIB_PATH_TYPE_DEAG == path->fp_type);
1799 fib_path_is_resolved (fib_node_index_t path_index)
1803 path = fib_path_get(path_index);
1805 return (dpo_id_is_valid(&path->fp_dpo) &&
1806 (path->fp_oper_flags & FIB_PATH_OPER_FLAG_RESOLVED) &&
1807 !fib_path_is_looped(path_index) &&
1808 !fib_path_is_permanent_drop(path));
1812 fib_path_is_looped (fib_node_index_t path_index)
1816 path = fib_path_get(path_index);
1818 return (path->fp_oper_flags & FIB_PATH_OPER_FLAG_RECURSIVE_LOOP);
1822 fib_path_encode (fib_node_index_t path_list_index,
1823 fib_node_index_t path_index,
1826 fib_route_path_encode_t **api_rpaths = ctx;
1827 fib_route_path_encode_t *api_rpath;
1830 path = fib_path_get(path_index);
1833 vec_add2(*api_rpaths, api_rpath, 1);
1834 api_rpath->rpath.frp_weight = path->fp_weight;
1835 api_rpath->rpath.frp_proto = path->fp_nh_proto;
1836 api_rpath->rpath.frp_sw_if_index = ~0;
1837 api_rpath->dpo = path->exclusive.fp_ex_dpo;
1838 switch (path->fp_type)
1840 case FIB_PATH_TYPE_RECEIVE:
1841 api_rpath->rpath.frp_addr = path->receive.fp_addr;
1842 api_rpath->rpath.frp_sw_if_index = path->receive.fp_interface;
1844 case FIB_PATH_TYPE_ATTACHED:
1845 api_rpath->rpath.frp_sw_if_index = path->attached.fp_interface;
1847 case FIB_PATH_TYPE_ATTACHED_NEXT_HOP:
1848 api_rpath->rpath.frp_sw_if_index = path->attached_next_hop.fp_interface;
1849 api_rpath->rpath.frp_addr = path->attached_next_hop.fp_nh;
1851 case FIB_PATH_TYPE_SPECIAL:
1853 case FIB_PATH_TYPE_DEAG:
1855 case FIB_PATH_TYPE_RECURSIVE:
1856 api_rpath->rpath.frp_addr = path->recursive.fp_nh;
1865 fib_path_module_init (void)
1867 fib_node_register_type (FIB_NODE_TYPE_PATH, &fib_path_vft);
1870 static clib_error_t *
1871 show_fib_path_command (vlib_main_t * vm,
1872 unformat_input_t * input,
1873 vlib_cli_command_t * cmd)
1875 fib_node_index_t pi;
1878 if (unformat (input, "%d", &pi))
1881 * show one in detail
1883 if (!pool_is_free_index(fib_path_pool, pi))
1885 path = fib_path_get(pi);
1886 u8 *s = fib_path_format(pi, NULL);
1887 s = format(s, "children:");
1888 s = fib_node_children_format(path->fp_node.fn_children, s);
1889 vlib_cli_output (vm, "%s", s);
1894 vlib_cli_output (vm, "path %d invalid", pi);
1899 vlib_cli_output (vm, "FIB Paths");
1900 pool_foreach(path, fib_path_pool,
1902 vlib_cli_output (vm, "%U", format_fib_path, path);
1909 VLIB_CLI_COMMAND (show_fib_path, static) = {
1910 .path = "show fib paths",
1911 .function = show_fib_path_command,
1912 .short_help = "show fib paths",