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netfilter: nf_ct_expect: nf_ct_expect_related_report(): Return zero on success.
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1 /* Expectation handling for nf_conntrack. */
2
3 /* (C) 1999-2001 Paul `Rusty' Russell
4 * (C) 2002-2006 Netfilter Core Team <coreteam@netfilter.org>
5 * (C) 2003,2004 USAGI/WIDE Project <http://www.linux-ipv6.org>
6 * (c) 2005-2012 Patrick McHardy <kaber@trash.net>
7 *
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License version 2 as
10 * published by the Free Software Foundation.
11 */
12
13 #include <linux/types.h>
14 #include <linux/netfilter.h>
15 #include <linux/skbuff.h>
16 #include <linux/proc_fs.h>
17 #include <linux/seq_file.h>
18 #include <linux/stddef.h>
19 #include <linux/slab.h>
20 #include <linux/err.h>
21 #include <linux/percpu.h>
22 #include <linux/kernel.h>
23 #include <linux/jhash.h>
24 #include <linux/moduleparam.h>
25 #include <linux/export.h>
26 #include <net/net_namespace.h>
27 #include <net/netns/hash.h>
28
29 #include <net/netfilter/nf_conntrack.h>
30 #include <net/netfilter/nf_conntrack_core.h>
31 #include <net/netfilter/nf_conntrack_expect.h>
32 #include <net/netfilter/nf_conntrack_helper.h>
33 #include <net/netfilter/nf_conntrack_tuple.h>
34 #include <net/netfilter/nf_conntrack_zones.h>
35
36 unsigned int nf_ct_expect_hsize __read_mostly;
37 EXPORT_SYMBOL_GPL(nf_ct_expect_hsize);
38
39 struct hlist_head *nf_ct_expect_hash __read_mostly;
40 EXPORT_SYMBOL_GPL(nf_ct_expect_hash);
41
42 unsigned int nf_ct_expect_max __read_mostly;
43
44 static struct kmem_cache *nf_ct_expect_cachep __read_mostly;
45 static unsigned int nf_ct_expect_hashrnd __read_mostly;
46
47 /* nf_conntrack_expect helper functions */
48 void nf_ct_unlink_expect_report(struct nf_conntrack_expect *exp,
49 u32 portid, int report)
50 {
51 struct nf_conn_help *master_help = nfct_help(exp->master);
52 struct net *net = nf_ct_exp_net(exp);
53
54 NF_CT_ASSERT(master_help);
55 NF_CT_ASSERT(!timer_pending(&exp->timeout));
56
57 hlist_del_rcu(&exp->hnode);
58 net->ct.expect_count--;
59
60 hlist_del(&exp->lnode);
61 master_help->expecting[exp->class]--;
62
63 nf_ct_expect_event_report(IPEXP_DESTROY, exp, portid, report);
64 nf_ct_expect_put(exp);
65
66 NF_CT_STAT_INC(net, expect_delete);
67 }
68 EXPORT_SYMBOL_GPL(nf_ct_unlink_expect_report);
69
70 static void nf_ct_expectation_timed_out(unsigned long ul_expect)
71 {
72 struct nf_conntrack_expect *exp = (void *)ul_expect;
73
74 spin_lock_bh(&nf_conntrack_expect_lock);
75 nf_ct_unlink_expect(exp);
76 spin_unlock_bh(&nf_conntrack_expect_lock);
77 nf_ct_expect_put(exp);
78 }
79
80 static unsigned int nf_ct_expect_dst_hash(const struct net *n, const struct nf_conntrack_tuple *tuple)
81 {
82 unsigned int hash, seed;
83
84 get_random_once(&nf_ct_expect_hashrnd, sizeof(nf_ct_expect_hashrnd));
85
86 seed = nf_ct_expect_hashrnd ^ net_hash_mix(n);
87
88 hash = jhash2(tuple->dst.u3.all, ARRAY_SIZE(tuple->dst.u3.all),
89 (((tuple->dst.protonum ^ tuple->src.l3num) << 16) |
90 (__force __u16)tuple->dst.u.all) ^ seed);
91
92 return reciprocal_scale(hash, nf_ct_expect_hsize);
93 }
94
95 static bool
96 nf_ct_exp_equal(const struct nf_conntrack_tuple *tuple,
97 const struct nf_conntrack_expect *i,
98 const struct nf_conntrack_zone *zone,
99 const struct net *net)
100 {
101 return nf_ct_tuple_mask_cmp(tuple, &i->tuple, &i->mask) &&
102 net_eq(net, nf_ct_net(i->master)) &&
103 nf_ct_zone_equal_any(i->master, zone);
104 }
105
106 struct nf_conntrack_expect *
107 __nf_ct_expect_find(struct net *net,
108 const struct nf_conntrack_zone *zone,
109 const struct nf_conntrack_tuple *tuple)
110 {
111 struct nf_conntrack_expect *i;
112 unsigned int h;
113
114 if (!net->ct.expect_count)
115 return NULL;
116
117 h = nf_ct_expect_dst_hash(net, tuple);
118 hlist_for_each_entry_rcu(i, &nf_ct_expect_hash[h], hnode) {
119 if (nf_ct_exp_equal(tuple, i, zone, net))
120 return i;
121 }
122 return NULL;
123 }
124 EXPORT_SYMBOL_GPL(__nf_ct_expect_find);
125
126 /* Just find a expectation corresponding to a tuple. */
127 struct nf_conntrack_expect *
128 nf_ct_expect_find_get(struct net *net,
129 const struct nf_conntrack_zone *zone,
130 const struct nf_conntrack_tuple *tuple)
131 {
132 struct nf_conntrack_expect *i;
133
134 rcu_read_lock();
135 i = __nf_ct_expect_find(net, zone, tuple);
136 if (i && !atomic_inc_not_zero(&i->use))
137 i = NULL;
138 rcu_read_unlock();
139
140 return i;
141 }
142 EXPORT_SYMBOL_GPL(nf_ct_expect_find_get);
143
144 /* If an expectation for this connection is found, it gets delete from
145 * global list then returned. */
146 struct nf_conntrack_expect *
147 nf_ct_find_expectation(struct net *net,
148 const struct nf_conntrack_zone *zone,
149 const struct nf_conntrack_tuple *tuple)
150 {
151 struct nf_conntrack_expect *i, *exp = NULL;
152 unsigned int h;
153
154 if (!net->ct.expect_count)
155 return NULL;
156
157 h = nf_ct_expect_dst_hash(net, tuple);
158 hlist_for_each_entry(i, &nf_ct_expect_hash[h], hnode) {
159 if (!(i->flags & NF_CT_EXPECT_INACTIVE) &&
160 nf_ct_exp_equal(tuple, i, zone, net)) {
161 exp = i;
162 break;
163 }
164 }
165 if (!exp)
166 return NULL;
167
168 /* If master is not in hash table yet (ie. packet hasn't left
169 this machine yet), how can other end know about expected?
170 Hence these are not the droids you are looking for (if
171 master ct never got confirmed, we'd hold a reference to it
172 and weird things would happen to future packets). */
173 if (!nf_ct_is_confirmed(exp->master))
174 return NULL;
175
176 /* Avoid race with other CPUs, that for exp->master ct, is
177 * about to invoke ->destroy(), or nf_ct_delete() via timeout
178 * or early_drop().
179 *
180 * The atomic_inc_not_zero() check tells: If that fails, we
181 * know that the ct is being destroyed. If it succeeds, we
182 * can be sure the ct cannot disappear underneath.
183 */
184 if (unlikely(nf_ct_is_dying(exp->master) ||
185 !atomic_inc_not_zero(&exp->master->ct_general.use)))
186 return NULL;
187
188 if (exp->flags & NF_CT_EXPECT_PERMANENT) {
189 atomic_inc(&exp->use);
190 return exp;
191 } else if (del_timer(&exp->timeout)) {
192 nf_ct_unlink_expect(exp);
193 return exp;
194 }
195 /* Undo exp->master refcnt increase, if del_timer() failed */
196 nf_ct_put(exp->master);
197
198 return NULL;
199 }
200
201 /* delete all expectations for this conntrack */
202 void nf_ct_remove_expectations(struct nf_conn *ct)
203 {
204 struct nf_conn_help *help = nfct_help(ct);
205 struct nf_conntrack_expect *exp;
206 struct hlist_node *next;
207
208 /* Optimization: most connection never expect any others. */
209 if (!help)
210 return;
211
212 spin_lock_bh(&nf_conntrack_expect_lock);
213 hlist_for_each_entry_safe(exp, next, &help->expectations, lnode) {
214 if (del_timer(&exp->timeout)) {
215 nf_ct_unlink_expect(exp);
216 nf_ct_expect_put(exp);
217 }
218 }
219 spin_unlock_bh(&nf_conntrack_expect_lock);
220 }
221 EXPORT_SYMBOL_GPL(nf_ct_remove_expectations);
222
223 /* Would two expected things clash? */
224 static inline int expect_clash(const struct nf_conntrack_expect *a,
225 const struct nf_conntrack_expect *b)
226 {
227 /* Part covered by intersection of masks must be unequal,
228 otherwise they clash */
229 struct nf_conntrack_tuple_mask intersect_mask;
230 int count;
231
232 intersect_mask.src.u.all = a->mask.src.u.all & b->mask.src.u.all;
233
234 for (count = 0; count < NF_CT_TUPLE_L3SIZE; count++){
235 intersect_mask.src.u3.all[count] =
236 a->mask.src.u3.all[count] & b->mask.src.u3.all[count];
237 }
238
239 return nf_ct_tuple_mask_cmp(&a->tuple, &b->tuple, &intersect_mask) &&
240 net_eq(nf_ct_net(a->master), nf_ct_net(b->master)) &&
241 nf_ct_zone_equal_any(a->master, nf_ct_zone(b->master));
242 }
243
244 static inline int expect_matches(const struct nf_conntrack_expect *a,
245 const struct nf_conntrack_expect *b)
246 {
247 return a->master == b->master && a->class == b->class &&
248 nf_ct_tuple_equal(&a->tuple, &b->tuple) &&
249 nf_ct_tuple_mask_equal(&a->mask, &b->mask) &&
250 net_eq(nf_ct_net(a->master), nf_ct_net(b->master)) &&
251 nf_ct_zone_equal_any(a->master, nf_ct_zone(b->master));
252 }
253
254 /* Generally a bad idea to call this: could have matched already. */
255 void nf_ct_unexpect_related(struct nf_conntrack_expect *exp)
256 {
257 spin_lock_bh(&nf_conntrack_expect_lock);
258 if (del_timer(&exp->timeout)) {
259 nf_ct_unlink_expect(exp);
260 nf_ct_expect_put(exp);
261 }
262 spin_unlock_bh(&nf_conntrack_expect_lock);
263 }
264 EXPORT_SYMBOL_GPL(nf_ct_unexpect_related);
265
266 /* We don't increase the master conntrack refcount for non-fulfilled
267 * conntracks. During the conntrack destruction, the expectations are
268 * always killed before the conntrack itself */
269 struct nf_conntrack_expect *nf_ct_expect_alloc(struct nf_conn *me)
270 {
271 struct nf_conntrack_expect *new;
272
273 new = kmem_cache_alloc(nf_ct_expect_cachep, GFP_ATOMIC);
274 if (!new)
275 return NULL;
276
277 new->master = me;
278 atomic_set(&new->use, 1);
279 return new;
280 }
281 EXPORT_SYMBOL_GPL(nf_ct_expect_alloc);
282
283 void nf_ct_expect_init(struct nf_conntrack_expect *exp, unsigned int class,
284 u_int8_t family,
285 const union nf_inet_addr *saddr,
286 const union nf_inet_addr *daddr,
287 u_int8_t proto, const __be16 *src, const __be16 *dst)
288 {
289 int len;
290
291 if (family == AF_INET)
292 len = 4;
293 else
294 len = 16;
295
296 exp->flags = 0;
297 exp->class = class;
298 exp->expectfn = NULL;
299 exp->helper = NULL;
300 exp->tuple.src.l3num = family;
301 exp->tuple.dst.protonum = proto;
302
303 if (saddr) {
304 memcpy(&exp->tuple.src.u3, saddr, len);
305 if (sizeof(exp->tuple.src.u3) > len)
306 /* address needs to be cleared for nf_ct_tuple_equal */
307 memset((void *)&exp->tuple.src.u3 + len, 0x00,
308 sizeof(exp->tuple.src.u3) - len);
309 memset(&exp->mask.src.u3, 0xFF, len);
310 if (sizeof(exp->mask.src.u3) > len)
311 memset((void *)&exp->mask.src.u3 + len, 0x00,
312 sizeof(exp->mask.src.u3) - len);
313 } else {
314 memset(&exp->tuple.src.u3, 0x00, sizeof(exp->tuple.src.u3));
315 memset(&exp->mask.src.u3, 0x00, sizeof(exp->mask.src.u3));
316 }
317
318 if (src) {
319 exp->tuple.src.u.all = *src;
320 exp->mask.src.u.all = htons(0xFFFF);
321 } else {
322 exp->tuple.src.u.all = 0;
323 exp->mask.src.u.all = 0;
324 }
325
326 memcpy(&exp->tuple.dst.u3, daddr, len);
327 if (sizeof(exp->tuple.dst.u3) > len)
328 /* address needs to be cleared for nf_ct_tuple_equal */
329 memset((void *)&exp->tuple.dst.u3 + len, 0x00,
330 sizeof(exp->tuple.dst.u3) - len);
331
332 exp->tuple.dst.u.all = *dst;
333
334 #ifdef CONFIG_NF_NAT_NEEDED
335 memset(&exp->saved_addr, 0, sizeof(exp->saved_addr));
336 memset(&exp->saved_proto, 0, sizeof(exp->saved_proto));
337 #endif
338 }
339 EXPORT_SYMBOL_GPL(nf_ct_expect_init);
340
341 static void nf_ct_expect_free_rcu(struct rcu_head *head)
342 {
343 struct nf_conntrack_expect *exp;
344
345 exp = container_of(head, struct nf_conntrack_expect, rcu);
346 kmem_cache_free(nf_ct_expect_cachep, exp);
347 }
348
349 void nf_ct_expect_put(struct nf_conntrack_expect *exp)
350 {
351 if (atomic_dec_and_test(&exp->use))
352 call_rcu(&exp->rcu, nf_ct_expect_free_rcu);
353 }
354 EXPORT_SYMBOL_GPL(nf_ct_expect_put);
355
356 static void nf_ct_expect_insert(struct nf_conntrack_expect *exp)
357 {
358 struct nf_conn_help *master_help = nfct_help(exp->master);
359 struct nf_conntrack_helper *helper;
360 struct net *net = nf_ct_exp_net(exp);
361 unsigned int h = nf_ct_expect_dst_hash(net, &exp->tuple);
362
363 /* two references : one for hash insert, one for the timer */
364 atomic_add(2, &exp->use);
365
366 hlist_add_head(&exp->lnode, &master_help->expectations);
367 master_help->expecting[exp->class]++;
368
369 hlist_add_head_rcu(&exp->hnode, &nf_ct_expect_hash[h]);
370 net->ct.expect_count++;
371
372 setup_timer(&exp->timeout, nf_ct_expectation_timed_out,
373 (unsigned long)exp);
374 helper = rcu_dereference_protected(master_help->helper,
375 lockdep_is_held(&nf_conntrack_expect_lock));
376 if (helper) {
377 exp->timeout.expires = jiffies +
378 helper->expect_policy[exp->class].timeout * HZ;
379 }
380 add_timer(&exp->timeout);
381
382 NF_CT_STAT_INC(net, expect_create);
383 }
384
385 /* Race with expectations being used means we could have none to find; OK. */
386 static void evict_oldest_expect(struct nf_conn *master,
387 struct nf_conntrack_expect *new)
388 {
389 struct nf_conn_help *master_help = nfct_help(master);
390 struct nf_conntrack_expect *exp, *last = NULL;
391
392 hlist_for_each_entry(exp, &master_help->expectations, lnode) {
393 if (exp->class == new->class)
394 last = exp;
395 }
396
397 if (last && del_timer(&last->timeout)) {
398 nf_ct_unlink_expect(last);
399 nf_ct_expect_put(last);
400 }
401 }
402
403 static inline int __nf_ct_expect_check(struct nf_conntrack_expect *expect)
404 {
405 const struct nf_conntrack_expect_policy *p;
406 struct nf_conntrack_expect *i;
407 struct nf_conn *master = expect->master;
408 struct nf_conn_help *master_help = nfct_help(master);
409 struct nf_conntrack_helper *helper;
410 struct net *net = nf_ct_exp_net(expect);
411 struct hlist_node *next;
412 unsigned int h;
413 int ret = 1;
414
415 if (!master_help) {
416 ret = -ESHUTDOWN;
417 goto out;
418 }
419 h = nf_ct_expect_dst_hash(net, &expect->tuple);
420 hlist_for_each_entry_safe(i, next, &nf_ct_expect_hash[h], hnode) {
421 if (expect_matches(i, expect)) {
422 if (del_timer(&i->timeout)) {
423 nf_ct_unlink_expect(i);
424 nf_ct_expect_put(i);
425 break;
426 }
427 } else if (expect_clash(i, expect)) {
428 ret = -EBUSY;
429 goto out;
430 }
431 }
432 /* Will be over limit? */
433 helper = rcu_dereference_protected(master_help->helper,
434 lockdep_is_held(&nf_conntrack_expect_lock));
435 if (helper) {
436 p = &helper->expect_policy[expect->class];
437 if (p->max_expected &&
438 master_help->expecting[expect->class] >= p->max_expected) {
439 evict_oldest_expect(master, expect);
440 if (master_help->expecting[expect->class]
441 >= p->max_expected) {
442 ret = -EMFILE;
443 goto out;
444 }
445 }
446 }
447
448 if (net->ct.expect_count >= nf_ct_expect_max) {
449 net_warn_ratelimited("nf_conntrack: expectation table full\n");
450 ret = -EMFILE;
451 }
452 out:
453 return ret;
454 }
455
456 int nf_ct_expect_related_report(struct nf_conntrack_expect *expect,
457 u32 portid, int report)
458 {
459 int ret;
460
461 spin_lock_bh(&nf_conntrack_expect_lock);
462 ret = __nf_ct_expect_check(expect);
463 if (ret <= 0)
464 goto out;
465
466 nf_ct_expect_insert(expect);
467
468 spin_unlock_bh(&nf_conntrack_expect_lock);
469 nf_ct_expect_event_report(IPEXP_NEW, expect, portid, report);
470 return 0;
471 out:
472 spin_unlock_bh(&nf_conntrack_expect_lock);
473 return ret;
474 }
475 EXPORT_SYMBOL_GPL(nf_ct_expect_related_report);
476
477 #ifdef CONFIG_NF_CONNTRACK_PROCFS
478 struct ct_expect_iter_state {
479 struct seq_net_private p;
480 unsigned int bucket;
481 };
482
483 static struct hlist_node *ct_expect_get_first(struct seq_file *seq)
484 {
485 struct ct_expect_iter_state *st = seq->private;
486 struct hlist_node *n;
487
488 for (st->bucket = 0; st->bucket < nf_ct_expect_hsize; st->bucket++) {
489 n = rcu_dereference(hlist_first_rcu(&nf_ct_expect_hash[st->bucket]));
490 if (n)
491 return n;
492 }
493 return NULL;
494 }
495
496 static struct hlist_node *ct_expect_get_next(struct seq_file *seq,
497 struct hlist_node *head)
498 {
499 struct ct_expect_iter_state *st = seq->private;
500
501 head = rcu_dereference(hlist_next_rcu(head));
502 while (head == NULL) {
503 if (++st->bucket >= nf_ct_expect_hsize)
504 return NULL;
505 head = rcu_dereference(hlist_first_rcu(&nf_ct_expect_hash[st->bucket]));
506 }
507 return head;
508 }
509
510 static struct hlist_node *ct_expect_get_idx(struct seq_file *seq, loff_t pos)
511 {
512 struct hlist_node *head = ct_expect_get_first(seq);
513
514 if (head)
515 while (pos && (head = ct_expect_get_next(seq, head)))
516 pos--;
517 return pos ? NULL : head;
518 }
519
520 static void *exp_seq_start(struct seq_file *seq, loff_t *pos)
521 __acquires(RCU)
522 {
523 rcu_read_lock();
524 return ct_expect_get_idx(seq, *pos);
525 }
526
527 static void *exp_seq_next(struct seq_file *seq, void *v, loff_t *pos)
528 {
529 (*pos)++;
530 return ct_expect_get_next(seq, v);
531 }
532
533 static void exp_seq_stop(struct seq_file *seq, void *v)
534 __releases(RCU)
535 {
536 rcu_read_unlock();
537 }
538
539 static int exp_seq_show(struct seq_file *s, void *v)
540 {
541 struct nf_conntrack_expect *expect;
542 struct nf_conntrack_helper *helper;
543 struct hlist_node *n = v;
544 char *delim = "";
545
546 expect = hlist_entry(n, struct nf_conntrack_expect, hnode);
547
548 if (expect->timeout.function)
549 seq_printf(s, "%ld ", timer_pending(&expect->timeout)
550 ? (long)(expect->timeout.expires - jiffies)/HZ : 0);
551 else
552 seq_printf(s, "- ");
553 seq_printf(s, "l3proto = %u proto=%u ",
554 expect->tuple.src.l3num,
555 expect->tuple.dst.protonum);
556 print_tuple(s, &expect->tuple,
557 __nf_ct_l3proto_find(expect->tuple.src.l3num),
558 __nf_ct_l4proto_find(expect->tuple.src.l3num,
559 expect->tuple.dst.protonum));
560
561 if (expect->flags & NF_CT_EXPECT_PERMANENT) {
562 seq_printf(s, "PERMANENT");
563 delim = ",";
564 }
565 if (expect->flags & NF_CT_EXPECT_INACTIVE) {
566 seq_printf(s, "%sINACTIVE", delim);
567 delim = ",";
568 }
569 if (expect->flags & NF_CT_EXPECT_USERSPACE)
570 seq_printf(s, "%sUSERSPACE", delim);
571
572 helper = rcu_dereference(nfct_help(expect->master)->helper);
573 if (helper) {
574 seq_printf(s, "%s%s", expect->flags ? " " : "", helper->name);
575 if (helper->expect_policy[expect->class].name[0])
576 seq_printf(s, "/%s",
577 helper->expect_policy[expect->class].name);
578 }
579
580 seq_putc(s, '\n');
581
582 return 0;
583 }
584
585 static const struct seq_operations exp_seq_ops = {
586 .start = exp_seq_start,
587 .next = exp_seq_next,
588 .stop = exp_seq_stop,
589 .show = exp_seq_show
590 };
591
592 static int exp_open(struct inode *inode, struct file *file)
593 {
594 return seq_open_net(inode, file, &exp_seq_ops,
595 sizeof(struct ct_expect_iter_state));
596 }
597
598 static const struct file_operations exp_file_ops = {
599 .owner = THIS_MODULE,
600 .open = exp_open,
601 .read = seq_read,
602 .llseek = seq_lseek,
603 .release = seq_release_net,
604 };
605 #endif /* CONFIG_NF_CONNTRACK_PROCFS */
606
607 static int exp_proc_init(struct net *net)
608 {
609 #ifdef CONFIG_NF_CONNTRACK_PROCFS
610 struct proc_dir_entry *proc;
611 kuid_t root_uid;
612 kgid_t root_gid;
613
614 proc = proc_create("nf_conntrack_expect", 0440, net->proc_net,
615 &exp_file_ops);
616 if (!proc)
617 return -ENOMEM;
618
619 root_uid = make_kuid(net->user_ns, 0);
620 root_gid = make_kgid(net->user_ns, 0);
621 if (uid_valid(root_uid) && gid_valid(root_gid))
622 proc_set_user(proc, root_uid, root_gid);
623 #endif /* CONFIG_NF_CONNTRACK_PROCFS */
624 return 0;
625 }
626
627 static void exp_proc_remove(struct net *net)
628 {
629 #ifdef CONFIG_NF_CONNTRACK_PROCFS
630 remove_proc_entry("nf_conntrack_expect", net->proc_net);
631 #endif /* CONFIG_NF_CONNTRACK_PROCFS */
632 }
633
634 module_param_named(expect_hashsize, nf_ct_expect_hsize, uint, 0400);
635
636 int nf_conntrack_expect_pernet_init(struct net *net)
637 {
638 net->ct.expect_count = 0;
639 return exp_proc_init(net);
640 }
641
642 void nf_conntrack_expect_pernet_fini(struct net *net)
643 {
644 exp_proc_remove(net);
645 }
646
647 int nf_conntrack_expect_init(void)
648 {
649 if (!nf_ct_expect_hsize) {
650 nf_ct_expect_hsize = nf_conntrack_htable_size / 256;
651 if (!nf_ct_expect_hsize)
652 nf_ct_expect_hsize = 1;
653 }
654 nf_ct_expect_max = nf_ct_expect_hsize * 4;
655 nf_ct_expect_cachep = kmem_cache_create("nf_conntrack_expect",
656 sizeof(struct nf_conntrack_expect),
657 0, 0, NULL);
658 if (!nf_ct_expect_cachep)
659 return -ENOMEM;
660
661 nf_ct_expect_hash = nf_ct_alloc_hashtable(&nf_ct_expect_hsize, 0);
662 if (!nf_ct_expect_hash) {
663 kmem_cache_destroy(nf_ct_expect_cachep);
664 return -ENOMEM;
665 }
666
667 return 0;
668 }
669
670 void nf_conntrack_expect_fini(void)
671 {
672 rcu_barrier(); /* Wait for call_rcu() before destroy */
673 kmem_cache_destroy(nf_ct_expect_cachep);
674 nf_ct_free_hashtable(nf_ct_expect_hash, nf_ct_expect_hsize);
675 }
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