1 /*-
2 * SPDX-License-Identifier: BSD-2-Clause
3 *
4 * Copyright (c) 2020 Alexander V. Chernikov
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions
8 * are met:
9 * 1. Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * 2. Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 *
15 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
16 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
17 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
18 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
19 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
20 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
21 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
23 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
24 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
25 * SUCH DAMAGE.
26 */
27 #include "opt_inet.h"
28 #include "opt_route.h"
29
30 #include <sys/cdefs.h>
31 #include <sys/param.h>
32 #include <sys/systm.h>
33 #include <sys/lock.h>
34 #include <sys/rmlock.h>
35 #include <sys/malloc.h>
36 #include <sys/mbuf.h>
37 #include <sys/refcount.h>
38 #include <sys/socket.h>
39 #include <sys/sysctl.h>
40 #include <sys/kernel.h>
41 #include <sys/epoch.h>
42
43 #include <net/if.h>
44 #include <net/if_var.h>
45 #include <net/if_private.h>
46 #include <net/route.h>
47 #include <net/route/route_ctl.h>
48 #include <net/route/route_var.h>
49 #include <net/vnet.h>
50
51 #include <netinet/in.h>
52 #include <netinet/in_var.h>
53 #include <netinet/in_fib.h>
54
55 #include <net/route/nhop_utils.h>
56 #include <net/route/nhop.h>
57 #include <net/route/nhop_var.h>
58 #include <net/route/nhgrp_var.h>
59
60 #define DEBUG_MOD_NAME nhgrp_ctl
61 #define DEBUG_MAX_LEVEL LOG_DEBUG
62 #include <net/route/route_debug.h>
63 _DECLARE_DEBUG(LOG_INFO);
64
65 /*
66 * This file contains the supporting functions for creating multipath groups
67 * and compiling their dataplane parts.
68 */
69
70 /* MPF_MULTIPATH must be the same as NHF_MULTIPATH for nhop selection to work */
71 _Static_assert(MPF_MULTIPATH == NHF_MULTIPATH,
72 "MPF_MULTIPATH must be the same as NHF_MULTIPATH");
73 /* Offset and size of flags field has to be the same for nhop/nhop groups */
74 CHK_STRUCT_FIELD_GENERIC(struct nhop_object, nh_flags, struct nhgrp_object, nhg_flags);
75 /* Cap multipath to 64, as the larger values would break rib_cmd_info bmasks */
76 CTASSERT(RIB_MAX_MPATH_WIDTH <= 64);
77
78 static int wn_cmp_idx(const void *a, const void *b);
79 static void sort_weightened_nhops(struct weightened_nhop *wn, int num_nhops);
80
81 static struct nhgrp_priv *get_nhgrp(struct nh_control *ctl,
82 struct weightened_nhop *wn, int num_nhops, uint32_t uidx, int *perror);
83 static void destroy_nhgrp(struct nhgrp_priv *nhg_priv);
84 static void destroy_nhgrp_epoch(epoch_context_t ctx);
85 static void free_nhgrp_nhops(struct nhgrp_priv *nhg_priv);
86
87 static int
wn_cmp_idx(const void * a,const void * b)88 wn_cmp_idx(const void *a, const void *b)
89 {
90 const struct weightened_nhop *w_a = a;
91 const struct weightened_nhop *w_b = b;
92 uint32_t a_idx = w_a->nh->nh_priv->nh_idx;
93 uint32_t b_idx = w_b->nh->nh_priv->nh_idx;
94
95 if (a_idx < b_idx)
96 return (-1);
97 else if (a_idx > b_idx)
98 return (1);
99 else
100 return (0);
101 }
102
103 /*
104 * Perform in-place sorting for array of nexthops in @wn.
105 * Sort by nexthop index ascending.
106 */
107 static void
sort_weightened_nhops(struct weightened_nhop * wn,int num_nhops)108 sort_weightened_nhops(struct weightened_nhop *wn, int num_nhops)
109 {
110
111 qsort(wn, num_nhops, sizeof(struct weightened_nhop), wn_cmp_idx);
112 }
113
114 /*
115 * In order to determine the minimum weight difference in the array
116 * of weights, create a sorted array of weights, using spare "storage"
117 * field in the `struct weightened_nhop`.
118 * Assume weights to be (mostly) the same and use insertion sort to
119 * make it sorted.
120 */
121 static void
sort_weightened_nhops_weights(struct weightened_nhop * wn,int num_items)122 sort_weightened_nhops_weights(struct weightened_nhop *wn, int num_items)
123 {
124 wn[0].storage = wn[0].weight;
125 for (int i = 1, j = 0; i < num_items; i++) {
126 uint32_t weight = wn[i].weight; // read from 'weight' as it's not reordered
127 /* Move all weights > weight 1 position right */
128 for (j = i - 1; j >= 0 && wn[j].storage > weight; j--)
129 wn[j + 1].storage = wn[j].storage;
130 wn[j + 1].storage = weight;
131 }
132 }
133
134 /*
135 * Calculate minimum number of slots required to fit the existing
136 * set of weights in the common use case where weights are "easily"
137 * comparable.
138 * Assumes @wn is sorted by weight ascending and each weight is > 0.
139 * Returns number of slots or 0 if precise calculation failed.
140 *
141 * Some examples:
142 * note: (i, X) pair means (nhop=i, weight=X):
143 * (1, 1) (2, 2) -> 3 slots [1, 2, 2]
144 * (1, 100), (2, 200) -> 3 slots [1, 2, 2]
145 * (1, 100), (2, 200), (3, 400) -> 7 slots [1, 2, 2, 3, 3, 3]
146 */
147 static uint32_t
calc_min_mpath_slots_fast(struct weightened_nhop * wn,size_t num_items,uint64_t * ptotal)148 calc_min_mpath_slots_fast(struct weightened_nhop *wn, size_t num_items,
149 uint64_t *ptotal)
150 {
151 uint32_t i, last, xmin;
152 uint64_t total = 0;
153
154 // Get sorted array of weights in .storage field
155 sort_weightened_nhops_weights(wn, num_items);
156
157 last = 0;
158 xmin = wn[0].storage;
159 for (i = 0; i < num_items; i++) {
160 total += wn[i].storage;
161 if ((wn[i].storage != last) &&
162 ((wn[i].storage - last < xmin) || xmin == 0)) {
163 xmin = wn[i].storage - last;
164 }
165 last = wn[i].storage;
166 }
167 *ptotal = total;
168 /* xmin is the minimum unit of desired capacity */
169 if ((total % xmin) != 0)
170 return (0);
171 for (i = 0; i < num_items; i++) {
172 if ((wn[i].weight % xmin) != 0)
173 return (0);
174 }
175
176 return ((uint32_t)(total / xmin));
177 }
178
179 /*
180 * Calculate minimum number of slots required to fit the existing
181 * set of weights while maintaining weight coefficients.
182 *
183 * Assume @wn is sorted by weight ascending and each weight is > 0.
184 *
185 * Tries to find simple precise solution first and falls back to
186 * RIB_MAX_MPATH_WIDTH in case of any failure.
187 */
188 static uint32_t
calc_min_mpath_slots(struct weightened_nhop * wn,size_t num_items)189 calc_min_mpath_slots(struct weightened_nhop *wn, size_t num_items)
190 {
191 uint32_t v;
192 uint64_t total;
193
194 v = calc_min_mpath_slots_fast(wn, num_items, &total);
195 if (total == 0)
196 return (0);
197 if ((v == 0) || (v > RIB_MAX_MPATH_WIDTH))
198 v = RIB_MAX_MPATH_WIDTH;
199
200 return (v);
201 }
202
203 /*
204 * Nexthop group data consists of
205 * 1) dataplane part, with nhgrp_object as a header followed by an
206 * arbitrary number of nexthop pointers.
207 * 2) control plane part, with nhgrp_priv as a header, followed by
208 * an arbirtrary number of 'struct weightened_nhop' object.
209 *
210 * Given nexthop groups are (mostly) immutable, allocate all data
211 * in one go.
212 *
213 */
214 __noinline static size_t
get_nhgrp_alloc_size(uint32_t nhg_size,uint32_t num_nhops)215 get_nhgrp_alloc_size(uint32_t nhg_size, uint32_t num_nhops)
216 {
217 size_t sz;
218
219 sz = sizeof(struct nhgrp_object);
220 sz += nhg_size * sizeof(struct nhop_object *);
221 sz += sizeof(struct nhgrp_priv);
222 sz += num_nhops * sizeof(struct weightened_nhop);
223 return (sz);
224 }
225
226 /*
227 * Compile actual list of nexthops to be used by datapath from
228 * the nexthop group @dst.
229 *
230 * For example, compiling control plane list of 2 nexthops
231 * [(200, A), (100, B)] would result in the datapath array
232 * [A, A, B]
233 */
234 static void
compile_nhgrp(struct nhgrp_priv * dst_priv,const struct weightened_nhop * x,uint32_t num_slots)235 compile_nhgrp(struct nhgrp_priv *dst_priv, const struct weightened_nhop *x,
236 uint32_t num_slots)
237 {
238 struct nhgrp_object *dst;
239 int i, slot_idx, remaining_slots;
240 uint64_t remaining_sum, nh_weight, nh_slots;
241
242 slot_idx = 0;
243 dst = dst_priv->nhg;
244 /* Calculate sum of all weights */
245 remaining_sum = 0;
246 for (i = 0; i < dst_priv->nhg_nh_count; i++)
247 remaining_sum += x[i].weight;
248 remaining_slots = num_slots;
249 FIB_NH_LOG(LOG_DEBUG3, x[0].nh, "sum: %lu, slots: %d",
250 remaining_sum, remaining_slots);
251 for (i = 0; i < dst_priv->nhg_nh_count; i++) {
252 /* Calculate number of slots for the current nexthop */
253 if (remaining_sum > 0) {
254 nh_weight = (uint64_t)x[i].weight;
255 nh_slots = (nh_weight * remaining_slots / remaining_sum);
256 } else
257 nh_slots = 0;
258
259 remaining_sum -= x[i].weight;
260 remaining_slots -= nh_slots;
261
262 FIB_NH_LOG(LOG_DEBUG3, x[0].nh,
263 " rem_sum: %lu, rem_slots: %d nh_slots: %d, slot_idx: %d",
264 remaining_sum, remaining_slots, (int)nh_slots, slot_idx);
265
266 KASSERT((slot_idx + nh_slots <= num_slots),
267 ("index overflow during nhg compilation"));
268 while (nh_slots-- > 0)
269 dst->nhops[slot_idx++] = x[i].nh;
270 }
271 }
272
273 /*
274 * Allocates new nexthop group for the list of weightened nexthops.
275 * Assume sorted list.
276 * Does NOT reference any nexthops in the group.
277 * Returns group with refcount=1 or NULL.
278 */
279 static struct nhgrp_priv *
alloc_nhgrp(struct weightened_nhop * wn,int num_nhops)280 alloc_nhgrp(struct weightened_nhop *wn, int num_nhops)
281 {
282 uint32_t nhgrp_size;
283 struct nhgrp_object *nhg;
284 struct nhgrp_priv *nhg_priv;
285
286 nhgrp_size = calc_min_mpath_slots(wn, num_nhops);
287 if (nhgrp_size == 0) {
288 /* Zero weights, abort */
289 return (NULL);
290 }
291
292 size_t sz = get_nhgrp_alloc_size(nhgrp_size, num_nhops);
293 nhg = malloc(sz, M_NHOP, M_NOWAIT | M_ZERO);
294 if (nhg == NULL) {
295 FIB_NH_LOG(LOG_INFO, wn[0].nh,
296 "unable to allocate group with num_nhops %d (compiled %u)",
297 num_nhops, nhgrp_size);
298 return (NULL);
299 }
300
301 /* Has to be the first to make NHGRP_PRIV() work */
302 nhg->nhg_size = nhgrp_size;
303 nhg->nhg_flags = MPF_MULTIPATH;
304
305 nhg_priv = NHGRP_PRIV(nhg);
306 nhg_priv->nhg_nh_count = num_nhops;
307 refcount_init(&nhg_priv->nhg_refcount, 1);
308
309 /* Please see nhgrp_free() comments on the initial value */
310 refcount_init(&nhg_priv->nhg_linked, 2);
311
312 nhg_priv->nhg = nhg;
313 memcpy(&nhg_priv->nhg_nh_weights[0], wn,
314 num_nhops * sizeof(struct weightened_nhop));
315
316 FIB_NH_LOG(LOG_DEBUG, wn[0].nh, "num_nhops: %d, compiled_nhop: %u",
317 num_nhops, nhgrp_size);
318
319 compile_nhgrp(nhg_priv, wn, nhg->nhg_size);
320
321 return (nhg_priv);
322 }
323
324 void
nhgrp_ref_object(struct nhgrp_object * nhg)325 nhgrp_ref_object(struct nhgrp_object *nhg)
326 {
327 struct nhgrp_priv *nhg_priv;
328 u_int old __diagused;
329
330 nhg_priv = NHGRP_PRIV(nhg);
331 old = refcount_acquire(&nhg_priv->nhg_refcount);
332 KASSERT(old > 0, ("%s: nhgrp object %p has 0 refs", __func__, nhg));
333 }
334
335 void
nhgrp_free(struct nhgrp_object * nhg)336 nhgrp_free(struct nhgrp_object *nhg)
337 {
338 struct nhgrp_priv *nhg_priv;
339 struct nh_control *ctl;
340 struct epoch_tracker et;
341
342 nhg_priv = NHGRP_PRIV(nhg);
343
344 if (!refcount_release(&nhg_priv->nhg_refcount))
345 return;
346
347 /*
348 * group objects don't have an explicit lock attached to it.
349 * As groups are reclaimed based on reference count, it is possible
350 * that some groups will persist after vnet destruction callback
351 * called. Given that, handle scenario with nhgrp_free_group() being
352 * called either after or simultaneously with nhgrp_ctl_unlink_all()
353 * by using another reference counter: nhg_linked.
354 *
355 * There are only 2 places, where nhg_linked can be decreased:
356 * rib destroy (nhgrp_ctl_unlink_all) and this function.
357 * nhg_link can never be increased.
358 *
359 * Hence, use initial value of 2 to make use of
360 * refcount_release_if_not_last().
361 *
362 * There can be two scenarious when calling this function:
363 *
364 * 1) nhg_linked value is 2. This means that either
365 * nhgrp_ctl_unlink_all() has not been called OR it is running,
366 * but we are guaranteed that nh_control won't be freed in
367 * this epoch. Hence, nexthop can be safely unlinked.
368 *
369 * 2) nh_linked value is 1. In that case, nhgrp_ctl_unlink_all()
370 * has been called and nhgrp unlink can be skipped.
371 */
372
373 NET_EPOCH_ENTER(et);
374 if (refcount_release_if_not_last(&nhg_priv->nhg_linked)) {
375 ctl = nhg_priv->nh_control;
376 if (unlink_nhgrp(ctl, nhg_priv) == NULL) {
377 /* Do not try to reclaim */
378 RT_LOG(LOG_INFO, "Failed to unlink nexhop group %p",
379 nhg_priv);
380 NET_EPOCH_EXIT(et);
381 return;
382 }
383 MPASS((nhg_priv->nhg_idx == 0));
384 MPASS((nhg_priv->nhg_refcount == 0));
385 }
386 NET_EPOCH_EXIT(et);
387
388 NET_EPOCH_CALL(destroy_nhgrp_epoch, &nhg_priv->nhg_epoch_ctx);
389 }
390
391 /*
392 * Destroys all local resources belonging to @nhg_priv.
393 */
394 __noinline static void
destroy_nhgrp_int(struct nhgrp_priv * nhg_priv)395 destroy_nhgrp_int(struct nhgrp_priv *nhg_priv)
396 {
397
398 free(nhg_priv->nhg, M_NHOP);
399 }
400
401 __noinline static void
destroy_nhgrp(struct nhgrp_priv * nhg_priv)402 destroy_nhgrp(struct nhgrp_priv *nhg_priv)
403 {
404 IF_DEBUG_LEVEL(LOG_DEBUG2) {
405 char nhgbuf[NHOP_PRINT_BUFSIZE] __unused;
406 FIB_NH_LOG(LOG_DEBUG2, nhg_priv->nhg_nh_weights[0].nh,
407 "destroying %s", nhgrp_print_buf(nhg_priv->nhg,
408 nhgbuf, sizeof(nhgbuf)));
409 }
410
411 free_nhgrp_nhops(nhg_priv);
412 destroy_nhgrp_int(nhg_priv);
413 }
414
415 /*
416 * Epoch callback indicating group is safe to destroy
417 */
418 static void
destroy_nhgrp_epoch(epoch_context_t ctx)419 destroy_nhgrp_epoch(epoch_context_t ctx)
420 {
421 struct nhgrp_priv *nhg_priv;
422
423 nhg_priv = __containerof(ctx, struct nhgrp_priv, nhg_epoch_ctx);
424
425 destroy_nhgrp(nhg_priv);
426 }
427
428 static bool
ref_nhgrp_nhops(struct nhgrp_priv * nhg_priv)429 ref_nhgrp_nhops(struct nhgrp_priv *nhg_priv)
430 {
431
432 for (int i = 0; i < nhg_priv->nhg_nh_count; i++) {
433 if (nhop_try_ref_object(nhg_priv->nhg_nh_weights[i].nh) != 0)
434 continue;
435
436 /*
437 * Failed to ref the nexthop, b/c it's deleted.
438 * Need to rollback references back.
439 */
440 for (int j = 0; j < i; j++)
441 nhop_free(nhg_priv->nhg_nh_weights[j].nh);
442 return (false);
443 }
444
445 return (true);
446 }
447
448 static void
free_nhgrp_nhops(struct nhgrp_priv * nhg_priv)449 free_nhgrp_nhops(struct nhgrp_priv *nhg_priv)
450 {
451
452 for (int i = 0; i < nhg_priv->nhg_nh_count; i++)
453 nhop_free(nhg_priv->nhg_nh_weights[i].nh);
454 }
455
456 /*
457 * Allocate nexthop group of size @num_nhops with nexthops specified by
458 * @wn. Nexthops have to be unique and match the fibnum/family of the group.
459 * Returns unlinked nhgrp object on success or NULL and non-zero perror.
460 */
461 struct nhgrp_object *
nhgrp_alloc(uint32_t fibnum,int family,struct weightened_nhop * wn,int num_nhops,int * perror)462 nhgrp_alloc(uint32_t fibnum, int family, struct weightened_nhop *wn, int num_nhops,
463 int *perror)
464 {
465 struct rib_head *rh = rt_tables_get_rnh(fibnum, family);
466 struct nhgrp_priv *nhg_priv;
467 struct nh_control *ctl;
468
469 if (rh == NULL) {
470 *perror = E2BIG;
471 return (NULL);
472 }
473
474 ctl = rh->nh_control;
475
476 if (num_nhops > RIB_MAX_MPATH_WIDTH) {
477 *perror = E2BIG;
478 return (NULL);
479 }
480
481 if (ctl->gr_head.hash_size == 0) {
482 /* First multipath request. Bootstrap mpath datastructures. */
483 if (nhgrp_ctl_alloc_default(ctl, M_NOWAIT) == 0) {
484 *perror = ENOMEM;
485 return (NULL);
486 }
487 }
488
489 /* Sort nexthops & check there are no duplicates */
490 sort_weightened_nhops(wn, num_nhops);
491 uint32_t last_id = 0;
492 for (int i = 0; i < num_nhops; i++) {
493 if (wn[i].nh->nh_priv->nh_control != ctl) {
494 *perror = EINVAL;
495 return (NULL);
496 }
497 if (wn[i].nh->nh_priv->nh_idx == last_id) {
498 *perror = EEXIST;
499 return (NULL);
500 }
501 last_id = wn[i].nh->nh_priv->nh_idx;
502 }
503
504 if ((nhg_priv = alloc_nhgrp(wn, num_nhops)) == NULL) {
505 *perror = ENOMEM;
506 return (NULL);
507 }
508 nhg_priv->nh_control = ctl;
509
510 *perror = 0;
511 return (nhg_priv->nhg);
512 }
513
514 /*
515 * Finds an existing group matching @nhg or links @nhg to the tree.
516 * Returns the referenced group or NULL and non-zero @perror.
517 */
518 struct nhgrp_object *
nhgrp_get_nhgrp(struct nhgrp_object * nhg,int * perror)519 nhgrp_get_nhgrp(struct nhgrp_object *nhg, int *perror)
520 {
521 struct nhgrp_priv *nhg_priv, *key = NHGRP_PRIV(nhg);
522 struct nh_control *ctl = key->nh_control;
523
524 nhg_priv = find_nhgrp(ctl, key);
525 if (nhg_priv != NULL) {
526 /*
527 * Free originally-created group. As it hasn't been linked
528 * and the dependent nexhops haven't been referenced, just free
529 * the group.
530 */
531 destroy_nhgrp_int(key);
532 *perror = 0;
533 return (nhg_priv->nhg);
534 } else {
535 /* No existing group, try to link the new one */
536 if (!ref_nhgrp_nhops(key)) {
537 /*
538 * Some of the nexthops have been scheduled for deletion.
539 * As the group hasn't been linked / no nexhops have been
540 * referenced, call the final destructor immediately.
541 */
542 destroy_nhgrp_int(key);
543 *perror = EAGAIN;
544 return (NULL);
545 }
546 if (link_nhgrp(ctl, key) == 0) {
547 /* Unable to allocate index? */
548 *perror = EAGAIN;
549 free_nhgrp_nhops(key);
550 destroy_nhgrp_int(key);
551 return (NULL);
552 }
553 *perror = 0;
554 return (nhg);
555 }
556
557 /* NOTREACHED */
558 }
559
560 /*
561 * Creates or looks up an existing nexthop group based on @wn and @num_nhops.
562 *
563 * Returns referenced nhop group or NULL, passing error code in @perror.
564 */
565 struct nhgrp_priv *
get_nhgrp(struct nh_control * ctl,struct weightened_nhop * wn,int num_nhops,uint32_t uidx,int * perror)566 get_nhgrp(struct nh_control *ctl, struct weightened_nhop *wn, int num_nhops,
567 uint32_t uidx, int *perror)
568 {
569 struct nhgrp_object *nhg;
570
571 nhg = nhgrp_alloc(ctl->ctl_rh->rib_fibnum, ctl->ctl_rh->rib_family,
572 wn, num_nhops, perror);
573 if (nhg == NULL)
574 return (NULL);
575 nhgrp_set_uidx(nhg, uidx);
576 nhg = nhgrp_get_nhgrp(nhg, perror);
577 if (nhg != NULL)
578 return (NHGRP_PRIV(nhg));
579 return (NULL);
580 }
581
582
583 /*
584 * Appends one or more nexthops denoted by @wm to the nexthop group @gr_orig.
585 *
586 * Returns referenced nexthop group or NULL. In the latter case, @perror is
587 * filled with an error code.
588 * Note that function does NOT care if the next nexthops already exists
589 * in the @gr_orig. As a result, they will be added, resulting in the
590 * same nexthop being present multiple times in the new group.
591 */
592 static struct nhgrp_priv *
append_nhops(struct nh_control * ctl,const struct nhgrp_object * gr_orig,struct weightened_nhop * wn,int num_nhops,int * perror)593 append_nhops(struct nh_control *ctl, const struct nhgrp_object *gr_orig,
594 struct weightened_nhop *wn, int num_nhops, int *perror)
595 {
596 char storage[64];
597 struct weightened_nhop *pnhops;
598 struct nhgrp_priv *nhg_priv;
599 const struct nhgrp_priv *src_priv;
600 size_t sz;
601 int curr_nhops;
602
603 src_priv = NHGRP_PRIV_CONST(gr_orig);
604 curr_nhops = src_priv->nhg_nh_count;
605
606 *perror = 0;
607
608 sz = (src_priv->nhg_nh_count + num_nhops) * (sizeof(struct weightened_nhop));
609 /* optimize for <= 4 paths, each path=16 bytes */
610 if (sz <= sizeof(storage))
611 pnhops = (struct weightened_nhop *)&storage[0];
612 else {
613 pnhops = malloc(sz, M_TEMP, M_NOWAIT);
614 if (pnhops == NULL) {
615 *perror = ENOMEM;
616 return (NULL);
617 }
618 }
619
620 /* Copy nhops from original group first */
621 memcpy(pnhops, src_priv->nhg_nh_weights,
622 curr_nhops * sizeof(struct weightened_nhop));
623 memcpy(&pnhops[curr_nhops], wn, num_nhops * sizeof(struct weightened_nhop));
624 curr_nhops += num_nhops;
625
626 nhg_priv = get_nhgrp(ctl, pnhops, curr_nhops, 0, perror);
627
628 if (pnhops != (struct weightened_nhop *)&storage[0])
629 free(pnhops, M_TEMP);
630
631 if (nhg_priv == NULL)
632 return (NULL);
633
634 return (nhg_priv);
635 }
636
637
638 /*
639 * Creates/finds nexthop group based on @wn and @num_nhops.
640 * Returns 0 on success with referenced group in @rnd, or
641 * errno.
642 *
643 * If the error is EAGAIN, then the operation can be retried.
644 */
645 int
nhgrp_get_group(struct rib_head * rh,struct weightened_nhop * wn,int num_nhops,uint32_t uidx,struct nhgrp_object ** pnhg)646 nhgrp_get_group(struct rib_head *rh, struct weightened_nhop *wn, int num_nhops,
647 uint32_t uidx, struct nhgrp_object **pnhg)
648 {
649 struct nh_control *ctl = rh->nh_control;
650 struct nhgrp_priv *nhg_priv;
651 int error;
652
653 nhg_priv = get_nhgrp(ctl, wn, num_nhops, uidx, &error);
654 if (nhg_priv != NULL)
655 *pnhg = nhg_priv->nhg;
656
657 return (error);
658 }
659
660 /*
661 * Creates new nexthop group based on @src group without the nexthops
662 * chosen by @flt_func.
663 * Returns 0 on success, storring the reference nhop group/object in @rnd.
664 */
665 int
nhgrp_get_filtered_group(struct rib_head * rh,const struct rtentry * rt,const struct nhgrp_object * src,rib_filter_f_t flt_func,void * flt_data,struct route_nhop_data * rnd)666 nhgrp_get_filtered_group(struct rib_head *rh, const struct rtentry *rt,
667 const struct nhgrp_object *src, rib_filter_f_t flt_func, void *flt_data,
668 struct route_nhop_data *rnd)
669 {
670 char storage[64];
671 struct nh_control *ctl = rh->nh_control;
672 struct weightened_nhop *pnhops;
673 const struct nhgrp_priv *mp_priv, *src_priv;
674 size_t sz;
675 int error, i, num_nhops;
676
677 src_priv = NHGRP_PRIV_CONST(src);
678
679 sz = src_priv->nhg_nh_count * (sizeof(struct weightened_nhop));
680 /* optimize for <= 4 paths, each path=16 bytes */
681 if (sz <= sizeof(storage))
682 pnhops = (struct weightened_nhop *)&storage[0];
683 else {
684 if ((pnhops = malloc(sz, M_TEMP, M_NOWAIT)) == NULL)
685 return (ENOMEM);
686 }
687
688 /* Filter nexthops */
689 error = 0;
690 num_nhops = 0;
691 for (i = 0; i < src_priv->nhg_nh_count; i++) {
692 if (flt_func(rt, src_priv->nhg_nh_weights[i].nh, flt_data))
693 continue;
694 memcpy(&pnhops[num_nhops++], &src_priv->nhg_nh_weights[i],
695 sizeof(struct weightened_nhop));
696 }
697
698 if (num_nhops == 0) {
699 rnd->rnd_nhgrp = NULL;
700 rnd->rnd_weight = 0;
701 } else if (num_nhops == 1) {
702 rnd->rnd_nhop = pnhops[0].nh;
703 rnd->rnd_weight = pnhops[0].weight;
704 if (nhop_try_ref_object(rnd->rnd_nhop) == 0)
705 error = EAGAIN;
706 } else {
707 mp_priv = get_nhgrp(ctl, pnhops, num_nhops, 0, &error);
708 if (mp_priv != NULL)
709 rnd->rnd_nhgrp = mp_priv->nhg;
710 rnd->rnd_weight = 0;
711 }
712
713 if (pnhops != (struct weightened_nhop *)&storage[0])
714 free(pnhops, M_TEMP);
715
716 return (error);
717 }
718
719 /*
720 * Creates new multipath group based on existing group/nhop in @rnd_orig and
721 * to-be-added nhop @wn_add.
722 * Returns 0 on success and stores result in @rnd_new.
723 */
724 int
nhgrp_get_addition_group(struct rib_head * rh,struct route_nhop_data * rnd_orig,struct route_nhop_data * rnd_add,struct route_nhop_data * rnd_new)725 nhgrp_get_addition_group(struct rib_head *rh, struct route_nhop_data *rnd_orig,
726 struct route_nhop_data *rnd_add, struct route_nhop_data *rnd_new)
727 {
728 struct nh_control *ctl = rh->nh_control;
729 struct nhgrp_priv *nhg_priv;
730 struct weightened_nhop wn[2] = {};
731 int error;
732
733 if (rnd_orig->rnd_nhop == NULL) {
734 /* No paths to add to, just reference current nhop */
735 *rnd_new = *rnd_add;
736 if (nhop_try_ref_object(rnd_new->rnd_nhop) == 0)
737 return (EAGAIN);
738 return (0);
739 }
740
741 wn[0].nh = rnd_add->rnd_nhop;
742 wn[0].weight = rnd_add->rnd_weight;
743
744 if (!NH_IS_NHGRP(rnd_orig->rnd_nhop)) {
745 /* Simple merge of 2 non-multipath nexthops */
746 wn[1].nh = rnd_orig->rnd_nhop;
747 wn[1].weight = rnd_orig->rnd_weight;
748 nhg_priv = get_nhgrp(ctl, wn, 2, 0, &error);
749 } else {
750 /* Get new nhop group with @rt->rt_nhop as an additional nhop */
751 nhg_priv = append_nhops(ctl, rnd_orig->rnd_nhgrp, &wn[0], 1,
752 &error);
753 }
754
755 if (nhg_priv == NULL)
756 return (error);
757 rnd_new->rnd_nhgrp = nhg_priv->nhg;
758 rnd_new->rnd_weight = 0;
759
760 return (0);
761 }
762
763 /*
764 * Returns pointer to array of nexthops with weights for
765 * given @nhg. Stores number of items in the array into @pnum_nhops.
766 */
767 const struct weightened_nhop *
nhgrp_get_nhops(const struct nhgrp_object * nhg,uint32_t * pnum_nhops)768 nhgrp_get_nhops(const struct nhgrp_object *nhg, uint32_t *pnum_nhops)
769 {
770 const struct nhgrp_priv *nhg_priv;
771
772 KASSERT(((nhg->nhg_flags & MPF_MULTIPATH) != 0), ("nhop is not mpath"));
773
774 nhg_priv = NHGRP_PRIV_CONST(nhg);
775 *pnum_nhops = nhg_priv->nhg_nh_count;
776
777 return (nhg_priv->nhg_nh_weights);
778 }
779
780 void
nhgrp_set_uidx(struct nhgrp_object * nhg,uint32_t uidx)781 nhgrp_set_uidx(struct nhgrp_object *nhg, uint32_t uidx)
782 {
783 struct nhgrp_priv *nhg_priv;
784
785 KASSERT(((nhg->nhg_flags & MPF_MULTIPATH) != 0), ("nhop is not mpath"));
786
787 nhg_priv = NHGRP_PRIV(nhg);
788
789 nhg_priv->nhg_uidx = uidx;
790 }
791
792 uint32_t
nhgrp_get_uidx(const struct nhgrp_object * nhg)793 nhgrp_get_uidx(const struct nhgrp_object *nhg)
794 {
795 const struct nhgrp_priv *nhg_priv;
796
797 KASSERT(((nhg->nhg_flags & MPF_MULTIPATH) != 0), ("nhop is not mpath"));
798
799 nhg_priv = NHGRP_PRIV_CONST(nhg);
800 return (nhg_priv->nhg_uidx);
801 }
802
803 /*
804 * Prints nexhop group @nhg data in the provided @buf.
805 * Example: nhg#33/sz=3:[#1:100,#2:100,#3:100]
806 * Example: nhg#33/sz=5:[#1:100,#2:100,..]
807 */
808 char *
nhgrp_print_buf(const struct nhgrp_object * nhg,char * buf,size_t bufsize)809 nhgrp_print_buf(const struct nhgrp_object *nhg, char *buf, size_t bufsize)
810 {
811 const struct nhgrp_priv *nhg_priv = NHGRP_PRIV_CONST(nhg);
812
813 int off = snprintf(buf, bufsize, "nhg#%u/sz=%u:[", nhg_priv->nhg_idx,
814 nhg_priv->nhg_nh_count);
815
816 for (int i = 0; i < nhg_priv->nhg_nh_count; i++) {
817 const struct weightened_nhop *wn = &nhg_priv->nhg_nh_weights[i];
818 int len = snprintf(&buf[off], bufsize - off, "#%u:%u,",
819 wn->nh->nh_priv->nh_idx, wn->weight);
820 if (len + off + 3 >= bufsize) {
821 int len = snprintf(&buf[off], bufsize - off, "...");
822 off += len;
823 break;
824 }
825 off += len;
826 }
827 if (off > 0)
828 off--; // remove last ","
829 if (off + 1 < bufsize)
830 snprintf(&buf[off], bufsize - off, "]");
831 return buf;
832 }
833
834 __noinline static int
dump_nhgrp_entry(struct rib_head * rh,const struct nhgrp_priv * nhg_priv,char * buffer,size_t buffer_size,struct sysctl_req * w)835 dump_nhgrp_entry(struct rib_head *rh, const struct nhgrp_priv *nhg_priv,
836 char *buffer, size_t buffer_size, struct sysctl_req *w)
837 {
838 struct rt_msghdr *rtm;
839 struct nhgrp_external *nhge;
840 struct nhgrp_container *nhgc;
841 const struct nhgrp_object *nhg;
842 struct nhgrp_nhop_external *ext;
843 int error;
844 size_t sz;
845
846 nhg = nhg_priv->nhg;
847
848 sz = sizeof(struct rt_msghdr) + sizeof(struct nhgrp_external);
849 /* controlplane nexthops */
850 sz += sizeof(struct nhgrp_container);
851 sz += sizeof(struct nhgrp_nhop_external) * nhg_priv->nhg_nh_count;
852 /* dataplane nexthops */
853 sz += sizeof(struct nhgrp_container);
854 sz += sizeof(struct nhgrp_nhop_external) * nhg->nhg_size;
855
856 KASSERT(sz <= buffer_size, ("increase nhgrp buffer size"));
857
858 bzero(buffer, sz);
859
860 rtm = (struct rt_msghdr *)buffer;
861 rtm->rtm_msglen = sz;
862 rtm->rtm_version = RTM_VERSION;
863 rtm->rtm_type = RTM_GET;
864
865 nhge = (struct nhgrp_external *)(rtm + 1);
866
867 nhge->nhg_idx = nhg_priv->nhg_idx;
868 nhge->nhg_refcount = nhg_priv->nhg_refcount;
869
870 /* fill in control plane nexthops firs */
871 nhgc = (struct nhgrp_container *)(nhge + 1);
872 nhgc->nhgc_type = NHG_C_TYPE_CNHOPS;
873 nhgc->nhgc_subtype = 0;
874 nhgc->nhgc_len = sizeof(struct nhgrp_container);
875 nhgc->nhgc_len += sizeof(struct nhgrp_nhop_external) * nhg_priv->nhg_nh_count;
876 nhgc->nhgc_count = nhg_priv->nhg_nh_count;
877
878 ext = (struct nhgrp_nhop_external *)(nhgc + 1);
879 for (int i = 0; i < nhg_priv->nhg_nh_count; i++) {
880 ext[i].nh_idx = nhg_priv->nhg_nh_weights[i].nh->nh_priv->nh_idx;
881 ext[i].nh_weight = nhg_priv->nhg_nh_weights[i].weight;
882 }
883
884 /* fill in dataplane nexthops */
885 nhgc = (struct nhgrp_container *)(&ext[nhg_priv->nhg_nh_count]);
886 nhgc->nhgc_type = NHG_C_TYPE_DNHOPS;
887 nhgc->nhgc_subtype = 0;
888 nhgc->nhgc_len = sizeof(struct nhgrp_container);
889 nhgc->nhgc_len += sizeof(struct nhgrp_nhop_external) * nhg->nhg_size;
890 nhgc->nhgc_count = nhg->nhg_size;
891
892 ext = (struct nhgrp_nhop_external *)(nhgc + 1);
893 for (int i = 0; i < nhg->nhg_size; i++) {
894 ext[i].nh_idx = nhg->nhops[i]->nh_priv->nh_idx;
895 ext[i].nh_weight = 0;
896 }
897
898 error = SYSCTL_OUT(w, buffer, sz);
899
900 return (error);
901 }
902
903 uint32_t
nhgrp_get_idx(const struct nhgrp_object * nhg)904 nhgrp_get_idx(const struct nhgrp_object *nhg)
905 {
906 const struct nhgrp_priv *nhg_priv;
907
908 nhg_priv = NHGRP_PRIV_CONST(nhg);
909 return (nhg_priv->nhg_idx);
910 }
911
912 uint8_t
nhgrp_get_origin(const struct nhgrp_object * nhg)913 nhgrp_get_origin(const struct nhgrp_object *nhg)
914 {
915 return (NHGRP_PRIV_CONST(nhg)->nhg_origin);
916 }
917
918 void
nhgrp_set_origin(struct nhgrp_object * nhg,uint8_t origin)919 nhgrp_set_origin(struct nhgrp_object *nhg, uint8_t origin)
920 {
921 NHGRP_PRIV(nhg)->nhg_origin = origin;
922 }
923
924 uint32_t
nhgrp_get_count(struct rib_head * rh)925 nhgrp_get_count(struct rib_head *rh)
926 {
927 struct nh_control *ctl;
928 uint32_t count;
929
930 ctl = rh->nh_control;
931
932 NHOPS_RLOCK(ctl);
933 count = ctl->gr_head.items_count;
934 NHOPS_RUNLOCK(ctl);
935
936 return (count);
937 }
938
939 int
nhgrp_dump_sysctl(struct rib_head * rh,struct sysctl_req * w)940 nhgrp_dump_sysctl(struct rib_head *rh, struct sysctl_req *w)
941 {
942 struct nh_control *ctl = rh->nh_control;
943 struct epoch_tracker et;
944 struct nhgrp_priv *nhg_priv;
945 char *buffer;
946 size_t sz;
947 int error = 0;
948
949 if (ctl->gr_head.items_count == 0)
950 return (0);
951
952 /* Calculate the maximum nhop group size in bytes */
953 sz = sizeof(struct rt_msghdr) + sizeof(struct nhgrp_external);
954 sz += 2 * sizeof(struct nhgrp_container);
955 sz += 2 * sizeof(struct nhgrp_nhop_external) * RIB_MAX_MPATH_WIDTH;
956 buffer = malloc(sz, M_TEMP, M_NOWAIT);
957 if (buffer == NULL)
958 return (ENOMEM);
959
960 NET_EPOCH_ENTER(et);
961 NHOPS_RLOCK(ctl);
962 CHT_SLIST_FOREACH(&ctl->gr_head, mpath, nhg_priv) {
963 error = dump_nhgrp_entry(rh, nhg_priv, buffer, sz, w);
964 if (error != 0)
965 break;
966 } CHT_SLIST_FOREACH_END;
967 NHOPS_RUNLOCK(ctl);
968 NET_EPOCH_EXIT(et);
969
970 free(buffer, M_TEMP);
971
972 return (error);
973 }
974