FD.io VPP  v19.01.2-3-gf61a1a8
Vector Packet Processing
lisp_gpe_adjacency.c
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1 /*
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:
6  *
7  * http://www.apache.org/licenses/LICENSE-2.0
8  *
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.
14  */
15 /**
16  * @file
17  * @brief Common utility functions for IPv4, IPv6 and L2 LISP-GPE adjacencys.
18  *
19  */
20 
21 #include <vnet/dpo/load_balance.h>
22 #include <vnet/lisp-cp/control.h>
27 #include <vnet/fib/fib_entry.h>
28 #include <vnet/adj/adj_midchain.h>
29 #include <vppinfra/bihash_24_8.h>
31 
32 /**
33  * Memory pool of all adjacencies
34  */
36 
37 /**
38  * Hash table of all adjacencies. key:{nh, itf}
39  * We never have an all zeros address since the interfaces are multi-access,
40  * therefore there is no ambiguity between a v4 and v6 next-hop, so we don't
41  * need to add the protocol to the key.
42  */
43 static
44 BVT (clib_bihash)
46 
47 #define LISP_ADJ_SET_KEY(_key, _itf, _nh) \
48 { \
49  _key.key[0] = (_nh)->ip.v6.as_u64[0]; \
50  _key.key[1] = (_nh)->ip.v6.as_u64[1]; \
51  _key.key[2] = (_itf); \
52 }
53 
55 {
56  BVT (clib_bihash_kv) kv;
57 
58  LISP_ADJ_SET_KEY (kv, sw_if_index, addr);
59 
60  if (BV (clib_bihash_search) (&lisp_adj_db, &kv, &kv) < 0)
61  {
62  return (INDEX_INVALID);
63  }
64  else
65  {
66  return (kv.value);
67  }
68 }
69 
70 static void
72 {
73  BVT (clib_bihash_kv) kv;
74 
75  LISP_ADJ_SET_KEY (kv, sw_if_index, addr);
76  kv.value = ai;
77 
78  BV (clib_bihash_add_del) (&lisp_adj_db, &kv, 1);
79 }
80 
81 static void
83 {
84  BVT (clib_bihash_kv) kv;
85 
86  LISP_ADJ_SET_KEY (kv, sw_if_index, addr);
87 
88  BV (clib_bihash_add_del) (&lisp_adj_db, &kv, 0);
89 }
90 
91 static lisp_gpe_adjacency_t *
93 {
94  return (pool_elt_at_index (lisp_adj_pool, lai));
95 }
96 
99 {
100  switch (ip_addr_version (&ladj->remote_rloc))
101  {
102  case IP4:
104  case IP6:
106  default:
107  ASSERT (0);
108  break;
109  }
111 }
112 
113 static void
114 ip46_address_to_ip_address (const ip46_address_t * a, ip_address_t * b)
115 {
116  if (ip46_address_is_ip4 (a))
117  {
118  clib_memset (b, 0, sizeof (*b));
119  ip_address_set (b, &a->ip4, IP4);
120  }
121  else
122  {
123  ip_address_set (b, &a->ip6, IP6);
124  }
125 }
126 
127 /**
128  * @brief Stack the tunnel's midchain on the IP forwarding chain of the via
129  */
130 static void
132 {
133  const lisp_gpe_tunnel_t *lgt;
134 
135  lgt = lisp_gpe_tunnel_get (ladj->tunnel_index);
136 
138  lgt->fib_entry_index,
140  (ladj));
141 }
142 
143 /**
144  * @brief Call back when restacking all adjacencies on a GRE interface
145  */
146 static adj_walk_rc_t
148 {
149  lisp_gpe_adjacency_t *ladj = ctx;
150 
151  lisp_gpe_adj_stack_one (ladj, ai);
152 
153  return (ADJ_WALK_RC_CONTINUE);
154 }
155 
156 static void
158 {
159  fib_protocol_t nh_proto;
160  ip46_address_t nh;
161 
162  ip_address_to_46 (&ladj->remote_rloc, &nh, &nh_proto);
163 
164  /*
165  * walk all the adjacencies on th lisp interface and restack them
166  */
168  nh_proto, &nh, lisp_gpe_adj_walk_cb, ladj);
169 }
170 
173 {
174  switch (linkt)
175  {
176  case VNET_LINK_IP4:
177  return (LISP_GPE_NEXT_PROTO_IP4);
178  case VNET_LINK_IP6:
179  return (LISP_GPE_NEXT_PROTO_IP6);
180  case VNET_LINK_ETHERNET:
182  case VNET_LINK_NSH:
183  return (LISP_GPE_NEXT_PROTO_NSH);
184  default:
185  ASSERT (0);
186  }
187  return (LISP_GPE_NEXT_PROTO_IP4);
188 }
189 
190 #define is_v4_packet(_h) ((*(u8*) _h) & 0xF0) == 0x40
191 
192 static lisp_afi_e
194 {
195  switch (link)
196  {
197  case VNET_LINK_IP4:
198  return LISP_AFI_IP;
199  case VNET_LINK_IP6:
200  return LISP_AFI_IP6;
201  case VNET_LINK_ETHERNET:
202  return LISP_AFI_MAC;
203  default:
204  return LISP_AFI_NO_ADDR;
205  }
206 }
207 
208 static void
210  vlib_buffer_t * b)
211 {
213  lisp_gpe_adjacency_t *ladj;
214  ip_address_t rloc;
215  index_t lai;
216  u32 si, di;
218  uword *feip;
219 
220  ip46_address_to_ip_address (&adj->sub_type.nbr.next_hop, &rloc);
221  si = vnet_buffer (b)->sw_if_index[VLIB_TX];
222  lai = lisp_adj_find (&rloc, si);
223  ASSERT (INDEX_INVALID != lai);
224 
225  ladj = pool_elt_at_index (lisp_adj_pool, lai);
226 
227  u8 *lisp_data = (u8 *) vlib_buffer_get_current (b);
228 
229  /* skip IP header */
230  if (is_v4_packet (lisp_data))
231  lisp_data += sizeof (ip4_header_t);
232  else
233  lisp_data += sizeof (ip6_header_t);
234 
235  /* skip UDP header */
236  lisp_data += sizeof (udp_header_t);
237  // TODO: skip TCP?
238 
239  /* skip LISP GPE header */
240  lisp_data += sizeof (lisp_gpe_header_t);
241 
242  i16 saved_current_data = b->current_data;
243  b->current_data = lisp_data - b->data;
244 
246  get_src_and_dst_eids_from_buffer (lcm, b, &src, &dst, afi);
247  b->current_data = saved_current_data;
248  di = gid_dictionary_sd_lookup (&lcm->mapping_index_by_gid, &dst, &src);
249  if (PREDICT_FALSE (~0 == di))
250  {
251  clib_warning ("dst mapping not found (%U, %U)", format_gid_address,
252  &src, format_gid_address, &dst);
253  return;
254  }
255 
256  feip = hash_get (lcm->fwd_entry_by_mapping_index, di);
257  if (PREDICT_FALSE (!feip))
258  return;
259 
261  clib_memset (&key, 0, sizeof (key));
262  key.fwd_entry_index = feip[0];
263  key.tunnel_index = ladj->tunnel_index;
264 
265  uword *p = hash_get_mem (lgm->lisp_stats_index_by_key, &key);
266  ASSERT (p);
267 
268  /* compute payload length starting after GPE */
269  u32 bytes = b->current_length - (lisp_data - b->data - b->current_data);
271  p[0], 1, bytes);
272 }
273 
274 static void
276  ip_adjacency_t * adj, vlib_buffer_t * b, const void *data)
277 {
279 
280  if (lcm->flags & LISP_FLAG_STATS_ENABLED)
281  lisp_gpe_increment_stats_counters (lcm, adj, b);
282 
283  /* Fixup the checksum and len fields in the LISP tunnel encap
284  * that was applied at the midchain node */
286 }
287 
288 /**
289  * @brief The LISP-GPE interface registered function to update, i.e.
290  * provide an rewrite string for, an adjacency.
291  */
292 void
294 {
295  const lisp_gpe_tunnel_t *lgt;
296  lisp_gpe_adjacency_t *ladj;
297  ip_adjacency_t *adj;
298  ip_address_t rloc;
299  vnet_link_t linkt;
300  adj_flags_t af;
301  index_t lai;
302 
303  adj = adj_get (ai);
304  ip46_address_to_ip_address (&adj->sub_type.nbr.next_hop, &rloc);
305 
306  /*
307  * find an existing or create a new adj
308  */
309  lai = lisp_adj_find (&rloc, sw_if_index);
310 
311  ASSERT (INDEX_INVALID != lai);
312 
313  ladj = pool_elt_at_index (lisp_adj_pool, lai);
314  lgt = lisp_gpe_tunnel_get (ladj->tunnel_index);
315  linkt = adj_get_link_type (ai);
317  if (VNET_LINK_ETHERNET == linkt)
319 
321  (ai, lisp_gpe_fixup, NULL, af,
324  (linkt)));
325 
326  lisp_gpe_adj_stack_one (ladj, ai);
327 }
328 
329 u8 *
332  vnet_link_t link_type, const void *dst_address)
333 {
334  ASSERT (0);
335  return (NULL);
336 }
337 
338 index_t
340  u32 overlay_table_id, u32 vni)
341 {
342  const lisp_gpe_sub_interface_t *l3s;
343  const lisp_gpe_tunnel_t *lgt;
344  lisp_gpe_adjacency_t *ladj;
345  index_t lai, l3si;
346 
347  /*
348  * first find the L3 sub-interface that corresponds to the loacl-rloc and vni
349  */
351  overlay_table_id,
352  vni);
353  l3s = lisp_gpe_sub_interface_get (l3si);
354 
355  /*
356  * find an existing or create a new adj
357  */
358  lai = lisp_adj_find (&pair->rmt_loc, l3s->sw_if_index);
359 
360  if (INDEX_INVALID == lai)
361  {
362 
363  pool_get (lisp_adj_pool, ladj);
364  clib_memset (ladj, 0, sizeof (*ladj));
365  lai = (ladj - lisp_adj_pool);
366 
367  ip_address_copy (&ladj->remote_rloc, &pair->rmt_loc);
368  ladj->vni = vni;
369  /* transfer the lock to the adj */
370  ladj->lisp_l3_sub_index = l3si;
371  ladj->sw_if_index = l3s->sw_if_index;
372 
373  /* if vni is non-default */
374  if (ladj->vni)
375  ladj->flags = LISP_GPE_FLAGS_I;
376 
377  /* work in lisp-gpe not legacy mode */
378  ladj->flags |= LISP_GPE_FLAGS_P;
379 
380  /*
381  * find the tunnel that will provide the underlying transport
382  * and hence the rewrite.
383  * The RLOC FIB index is default table - always.
384  */
386 
387  lgt = lisp_gpe_tunnel_get (ladj->tunnel_index);
388 
389  /*
390  * become of child of the RLOC FIB entry so we are updated when
391  * its reachability changes, allowing us to re-stack the midcahins
392  */
395  lai);
396 
397  lisp_adj_insert (&ladj->remote_rloc, ladj->sw_if_index, lai);
398  }
399  else
400  {
401  /* unlock the interface from the find. */
403  ladj = lisp_gpe_adjacency_get_i (lai);
404  }
405 
406  ladj->locks++;
407 
408  return (lai);
409 }
410 
411 /**
412  * @brief Get a pointer to a tunnel from a pointer to a FIB node
413  */
414 static lisp_gpe_adjacency_t *
416 {
417  return ((lisp_gpe_adjacency_t *)
418  ((char *) node -
420 }
421 
422 static void
424 {
425  const lisp_gpe_tunnel_t *lgt;
426 
427  /*
428  * no children so we are not counting locks. no-op.
429  * at least not counting
430  */
431  lisp_adj_remove (&ladj->remote_rloc, ladj->sw_if_index);
432 
433  /*
434  * unlock the resources this adj holds
435  */
436  lgt = lisp_gpe_tunnel_get (ladj->tunnel_index);
437 
439 
442 
443  pool_put (lisp_adj_pool, ladj);
444 }
445 
446 void
448 {
449  lisp_gpe_adjacency_t *ladj;
450 
451  ladj = lisp_gpe_adjacency_get_i (lai);
452 
453  ladj->locks--;
454 
455  if (0 == ladj->locks)
456  {
458  }
459 }
460 
461 const lisp_gpe_adjacency_t *
463 {
464  return (lisp_gpe_adjacency_get_i (lai));
465 }
466 
467 
468 /**
469  * @brief LISP GPE tunnel back walk
470  *
471  * The FIB entry through which this tunnel resolves has been updated.
472  * re-stack the midchain on the new forwarding.
473  */
477 {
479 
481 }
482 
483 static fib_node_t *
485 {
486  lisp_gpe_adjacency_t *ladj;
487 
488  ladj = pool_elt_at_index (lisp_adj_pool, index);
489  return (&ladj->fib_node);
490 }
491 
492 static void
494 {
496 }
497 
498 const static fib_node_vft_t lisp_gpe_tuennel_vft = {
500  .fnv_back_walk = lisp_gpe_adjacency_back_walk,
501  .fnv_last_lock = lisp_gpe_adjacency_last_fib_lock_gone,
502 };
503 
504 u8 *
505 format_lisp_gpe_adjacency (u8 * s, va_list * args)
506 {
507  lisp_gpe_adjacency_t *ladj = va_arg (*args, lisp_gpe_adjacency_t *);
509  va_arg (*args, lisp_gpe_adjacency_format_flags_t);
510 
512  {
513  s =
514  format (s, "index %d locks:%d\n", ladj - lisp_adj_pool, ladj->locks);
515  }
516 
517  s = format (s, " vni: %d,", ladj->vni);
518  s = format (s, " remote-RLOC: %U,", format_ip_address, &ladj->remote_rloc);
519 
520  if (flags & LISP_GPE_ADJ_FORMAT_FLAG_DETAIL)
521  {
522  s = format (s, " %U\n",
525  s = format (s, " %U\n",
528  }
529  else
530  {
531  s = format (s, " LISP L3 sub-interface index: %d,",
532  ladj->lisp_l3_sub_index);
533  s = format (s, " LISP tunnel index: %d", ladj->tunnel_index);
534  }
535 
536 
537  return (s);
538 }
539 
540 static clib_error_t *
542  unformat_input_t * input, vlib_cli_command_t * cmd)
543 {
544  lisp_gpe_adjacency_t *ladj;
545  index_t index;
546 
547  if (pool_elts (lisp_adj_pool) == 0)
548  vlib_cli_output (vm, "No lisp-gpe Adjacencies");
549 
550  if (unformat (input, "%d", &index))
551  {
552  ladj = lisp_gpe_adjacency_get_i (index);
555  }
556  else
557  {
558  /* *INDENT-OFF* */
559  pool_foreach (ladj, lisp_adj_pool,
560  ({
561  vlib_cli_output (vm, "[%d] %U\n",
562  ladj - lisp_adj_pool,
565  }));
566  /* *INDENT-ON* */
567  }
568 
569  return 0;
570 }
571 
572 /* *INDENT-OFF* */
573 VLIB_CLI_COMMAND (show_lisp_gpe_tunnel_command, static) =
574 {
575  .path = "show gpe adjacency",
576  .function = lisp_gpe_adjacency_show,
577 };
578 /* *INDENT-ON* */
579 
580 #define LISP_ADJ_NBR_DEFAULT_HASH_NUM_BUCKETS (256)
581 #define LISP_ADJ_NBR_DEFAULT_HASH_MEMORY_SIZE (1<<20)
582 
583 static clib_error_t *
585 {
587  "Adjacency Neighbour table",
590 
591  fib_node_register_type (FIB_NODE_TYPE_LISP_ADJ, &lisp_gpe_tuennel_vft);
592  return (NULL);
593 }
594 
596 /*
597  * fd.io coding-style-patch-verification: ON
598  *
599  * Local Variables:
600  * eval: (c-set-style "gnu")
601  * End:
602  */
const lisp_gpe_tunnel_t * lisp_gpe_tunnel_get(index_t lgti)
static lisp_gpe_adjacency_t * lisp_gpe_adjacency_get_i(index_t lai)
void adj_nbr_walk_nh(u32 sw_if_index, fib_protocol_t adj_nh_proto, const ip46_address_t *nh, adj_walk_cb_t cb, void *ctx)
Walk adjacencies on a link with a given next-hop.
Definition: adj_nbr.c:654
Contribute an object that is to be used to forward IP6 packets.
Definition: fib_types.h:113
u32 flags
Definition: vhost_user.h:115
vl_api_address_t src
Definition: vxlan_gbp.api:32
boost::asio::ip::address ip_address_t
Definition: api_types.hpp:24
enum lisp_gpe_adjacency_format_flags_t_ lisp_gpe_adjacency_format_flags_t
Flags for displaying the adjacency.
a
Definition: bitmap.h:538
static void vlib_increment_combined_counter(vlib_combined_counter_main_t *cm, u32 thread_index, u32 index, u64 n_packets, u64 n_bytes)
Increment a combined counter.
Definition: counter.h:220
#define LISP_ADJ_NBR_DEFAULT_HASH_MEMORY_SIZE
void lisp_gpe_update_adjacency(vnet_main_t *vnm, u32 sw_if_index, adj_index_t ai)
The LISP-GPE interface registered function to update, i.e.
u32 locks
The number of locks/reference counts on the adjacency.
u32 fib_entry_child_add(fib_node_index_t fib_entry_index, fib_node_type_t child_type, fib_node_index_t child_index)
Definition: fib_entry.c:555
vnet_link_t adj_get_link_type(adj_index_t ai)
Return the link type of the adjacency.
Definition: adj.c:468
#define NULL
Definition: clib.h:58
IP unicast adjacency.
Definition: adj.h:221
enum fib_node_back_walk_rc_t_ fib_node_back_walk_rc_t
Return code from a back walk function.
LISP-GPE global state.
Definition: lisp_gpe.h:118
index_t lisp_gpe_tunnel_find_or_create_and_lock(const locator_pair_t *pair, u32 rloc_fib_index)
void fib_entry_child_remove(fib_node_index_t fib_entry_index, u32 sibling_index)
Definition: fib_entry.c:566
static clib_error_t * lisp_gpe_adj_module_init(vlib_main_t *vm)
static void lisp_gpe_adjacency_last_lock_gone(lisp_gpe_adjacency_t *ladj)
u32 index_t
A Data-Path Object is an object that represents actions that are applied to packets are they are swit...
Definition: dpo.h:41
u8 * format_lisp_gpe_tunnel(u8 *s, va_list *args)
Format LISP-GPE tunnel.
lisp_gpe_fwd_entry_key_t * key
The Entry&#39;s key: {lEID,rEID,vni}.
Contribute an object that is to be used to forward IP4 packets.
Definition: fib_types.h:109
static index_t lisp_adj_find(const ip_address_t *addr, u32 sw_if_index)
clib_memset(h->entries, 0, sizeof(h->entries[0])*entries)
#define STRUCT_OFFSET_OF(t, f)
Definition: clib.h:65
static fib_node_t * lisp_gpe_adjacency_get_fib_node(fib_node_index_t index)
u8 * format(u8 *s, const char *fmt,...)
Definition: format.c:419
void ip_address_copy(ip_address_t *dst, const ip_address_t *src)
Definition: lisp_types.c:870
void ip_address_set(ip_address_t *dst, const void *src, u8 version)
Definition: lisp_types.c:892
u8 * format_lisp_gpe_sub_interface(u8 *s, va_list *ap)
#define pool_get(P, E)
Allocate an object E from a pool P (unspecified alignment).
Definition: pool.h:236
vhost_vring_addr_t addr
Definition: vhost_user.h:121
static fib_node_back_walk_rc_t lisp_gpe_adjacency_back_walk(fib_node_t *node, fib_node_back_walk_ctx_t *ctx)
LISP GPE tunnel back walk.
unsigned char u8
Definition: types.h:56
static clib_error_t * lisp_gpe_adjacency_show(vlib_main_t *vm, unformat_input_t *input, vlib_cli_command_t *cmd)
enum fib_protocol_t_ fib_protocol_t
Protocol Type.
void fib_node_register_type(fib_node_type_t type, const fib_node_vft_t *vft)
fib_node_register_type
Definition: fib_node.c:60
vnet_link_t ia_link
link/ether-type 1 bytes
Definition: adj.h:242
static lisp_gpe_next_protocol_e lisp_gpe_adj_proto_from_vnet_link_type(vnet_link_t linkt)
u32 fib_entry_child_index
This adjacency is a child of the FIB entry to reach the RLOC.
static lisp_gpe_main_t * vnet_lisp_gpe_get_main()
Definition: lisp_gpe.h:183
static ip_adjacency_t * adj_get(adj_index_t adj_index)
Get a pointer to an adjacency object from its index.
Definition: adj.h:433
union ip_adjacency_t_::@42 sub_type
i16 current_data
signed offset in data[], pre_data[] that we are currently processing.
Definition: buffer.h:110
fib_node_index_t fib_entry_index
the FIB entry through which the remote rloc is reachable s
#define pool_foreach(VAR, POOL, BODY)
Iterate through pool.
Definition: pool.h:490
int clib_bihash_add_del(clib_bihash *h, clib_bihash_kv *add_v, int is_add)
Add or delete a (key,value) pair from a bi-hash table.
#define VLIB_INIT_FUNCTION(x)
Definition: init.h:163
u32 fwd_entry_index
Definition: lisp_gpe.h:95
fib_node_t fib_node
The LISP adj is a part of the FIB control plane graph.
u32 sw_if_index
Definition: vxlan_gbp.api:37
static BVT(clib_bihash)
Definition: adj_nbr.c:28
vlib_combined_counter_main_t counters
Definition: lisp_gpe.h:164
enum adj_walk_rc_t_ adj_walk_rc_t
return codes from a adjacency walker callback function
static void lisp_gpe_adj_stack(lisp_gpe_adjacency_t *ladj)
void lisp_gpe_tunnel_unlock(index_t lgti)
void di(unformat_input_t *i)
Definition: unformat.c:163
void lisp_gpe_adjacency_unlock(index_t lai)
u32 * fwd_entry_by_mapping_index
Definition: control.h:196
void adj_nbr_midchain_stack_on_fib_entry(adj_index_t ai, fib_node_index_t fei, fib_forward_chain_type_t fct)
[re]stack a midchain.
Definition: adj_midchain.c:584
static void lisp_gpe_increment_stats_counters(lisp_cp_main_t *lcm, ip_adjacency_t *adj, vlib_buffer_t *b)
const lisp_gpe_sub_interface_t * lisp_gpe_sub_interface_get(index_t l3si)
u32 sw_if_index
The SW if index assigned to this sub-interface.
u8 * lisp_gpe_build_rewrite(vnet_main_t *vnm, u32 sw_if_index, vnet_link_t link_type, const void *dst_address)
unsigned int u32
Definition: types.h:88
static lisp_cp_main_t * vnet_lisp_cp_get_main()
Definition: control.h:301
#define ip_addr_version(_a)
Definition: lisp_types.h:56
Common utility functions for IPv4, IPv6 and L2 LISP-GPE adjacencys.
LISP sub-interfaces.
static void ip46_address_to_ip_address(const ip46_address_t *a, ip_address_t *b)
#define hash_get(h, key)
Definition: hash.h:249
#define pool_elt_at_index(p, i)
Returns pointer to element at given index.
Definition: pool.h:511
Common utility functions for IPv4, IPv6 and L2 LISP-GPE tunnels.
u16 current_length
Nbytes between current data and the end of this buffer.
Definition: buffer.h:114
long ctx[MAX_CONNS]
Definition: main.c:144
struct _unformat_input_t unformat_input_t
static lisp_adj_db
Hash table of all adjacencies.
static void * vlib_buffer_get_current(vlib_buffer_t *b)
Get pointer to current data to process.
Definition: buffer.h:214
#define pool_put(P, E)
Free an object E in pool P.
Definition: pool.h:286
#define PREDICT_FALSE(x)
Definition: clib.h:111
u32 sw_if_index
The SW IF index of the sub-interface this adjacency uses.
u8 * format_gid_address(u8 *s, va_list *args)
Definition: lisp_types.c:249
const lisp_gpe_adjacency_t * lisp_gpe_adjacency_get(index_t lai)
#define LISP_ADJ_NBR_DEFAULT_HASH_NUM_BUCKETS
ip_address_t lcl_loc
Definition: lisp_types.h:384
#define is_v4_packet(_h)
An node in the FIB graph.
Definition: fib_node.h:291
void clib_bihash_init(clib_bihash *h, char *name, u32 nbuckets, uword memory_size)
initialize a bounded index extensible hash table
static void lisp_gpe_adjacency_last_fib_lock_gone(fib_node_t *node)
lisp_afi_e
Definition: lisp_types.h:237
void ip_address_to_46(const ip_address_t *addr, ip46_address_t *a, fib_protocol_t *proto)
Definition: lisp_types.c:899
#define ip46_address_is_ip4(ip46)
Definition: ip6_packet.h:88
index_t lisp_gpe_adjacency_find_or_create_and_lock(const locator_pair_t *pair, u32 overlay_table_id, u32 vni)
static void ip_udp_fixup_one(vlib_main_t *vm, vlib_buffer_t *b0, u8 is_ip4)
Definition: udp.h:281
static_always_inline uword vlib_get_thread_index(void)
Definition: threads.h:212
vlib_main_t * vm
Definition: buffer.c:301
vl_api_address_t dst
Definition: vxlan_gbp.api:33
#define LISP_ADJ_SET_KEY(_key, _itf, _nh)
#define clib_warning(format, args...)
Definition: error.h:59
void adj_nbr_midchain_update_rewrite(adj_index_t adj_index, adj_midchain_fixup_t fixup, const void *fixup_data, adj_flags_t flags, u8 *rewrite)
adj_nbr_midchain_update_rewrite
Definition: adj_midchain.c:509
fib_node_get_t fnv_get
Definition: fib_node.h:279
u32 fib_node_index_t
A typedef of a node index.
Definition: fib_types.h:30
u32 adj_index_t
An index for adjacencies.
Definition: adj_types.h:30
LISP-GPE header.
void lisp_gpe_sub_interface_unlock(index_t l3si)
Context passed between object during a back walk.
Definition: fib_node.h:204
#define VLIB_CLI_COMMAND(x,...)
Definition: cli.h:155
struct _gid_address_t gid_address_t
#define ASSERT(truth)
u8 * format_ip_address(u8 *s, va_list *args)
Definition: lisp_types.c:144
static lisp_afi_e lisp_afi_from_vnet_link_type(vnet_link_t link)
enum vnet_link_t_ vnet_link_t
Link Type: A description of the protocol of packets on the link.
gid_dictionary_t mapping_index_by_gid
Definition: control.h:168
u32 gid_dictionary_sd_lookup(gid_dictionary_t *db, gid_address_t *dst, gid_address_t *src)
enum fib_forward_chain_type_t_ fib_forward_chain_type_t
FIB output chain type.
static adj_walk_rc_t lisp_gpe_adj_walk_cb(adj_index_t ai, void *ctx)
Call back when restacking all adjacencies on a GRE interface.
enum adj_flags_t_ adj_flags_t
Flags on an IP adjacency.
Definition: defs.h:47
A LISP GPE Adjacency.
index_t lisp_gpe_sub_interface_find_or_create_and_lock(const ip_address_t *lrloc, u32 overlay_table_id, u32 vni)
A LISP L3 sub-interface.
u32 tunnel_index
The index of the LISP GPE tunnel that provides the transport in the underlay.
#define INDEX_INVALID
Invalid index - used when no index is known blazoned capitals INVALID speak volumes where ~0 does not...
Definition: dpo.h:47
static void lisp_gpe_fixup(vlib_main_t *vm, ip_adjacency_t *adj, vlib_buffer_t *b, const void *data)
u64 uword
Definition: types.h:112
u32 vni
Definition: vxlan_gbp.api:36
u8 * lisp_gpe_tunnel_build_rewrite(const lisp_gpe_tunnel_t *lgt, const lisp_gpe_adjacency_t *ladj, lisp_gpe_next_protocol_e payload_proto)
Compute IP-UDP-GPE sub-tunnel encap/rewrite header.
fib_forward_chain_type_t lisp_gpe_adj_get_fib_chain_type(const lisp_gpe_adjacency_t *ladj)
Definition: lisp_types.h:37
#define hash_get_mem(h, key)
Definition: hash.h:269
static void lisp_adj_remove(const ip_address_t *addr, u32 sw_if_index)
A FIB graph nodes virtual function table.
Definition: fib_node.h:278
u8 * format_lisp_gpe_adjacency(u8 *s, va_list *args)
#define vnet_buffer(b)
Definition: buffer.h:368
static lisp_gpe_adjacency_t * lisp_adj_pool
Memory pool of all adjacencies.
void get_src_and_dst_eids_from_buffer(lisp_cp_main_t *lcm, vlib_buffer_t *b, gid_address_t *src, gid_address_t *dst, u16 type)
Definition: control.c:3269
ip_address_t rmt_loc
Definition: lisp_types.h:385
u8 data[0]
Packet data.
Definition: buffer.h:176
static lisp_gpe_adjacency_t * lisp_gpe_adjacency_from_fib_node(const fib_node_t *node)
Get a pointer to a tunnel from a pointer to a FIB node.
u32 lisp_l3_sub_index
The index of the LISP L3 subinterface.
uword * lisp_stats_index_by_key
Definition: lisp_gpe.h:163
lisp_gpe_next_protocol_e
Definition: lisp_types.h:38
fib_node_t node
This object joins the FIB control plane graph to receive updates to for changes to the graph...
void vlib_cli_output(vlib_main_t *vm, char *fmt,...)
Definition: cli.c:725
u8 flags
LISP header fields in HOST byte order.
struct ip_adjacency_t_::@42::@43 nbr
IP_LOOKUP_NEXT_ARP/IP_LOOKUP_NEXT_REWRITE.
ip_address_t remote_rloc
remote RLOC.
A LISP GPE Tunnel.
static void lisp_adj_insert(const ip_address_t *addr, u32 sw_if_index, index_t ai)
uword unformat(unformat_input_t *i, const char *fmt,...)
Definition: unformat.c:972
static void lisp_gpe_adj_stack_one(lisp_gpe_adjacency_t *ladj, adj_index_t ai)
Stack the tunnel&#39;s midchain on the IP forwarding chain of the via.
signed short i16
Definition: types.h:46
static uword pool_elts(void *v)
Number of active elements in a pool.
Definition: pool.h:128