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kernel / net / netfilter / xt_hashlimit.c
at v4.10-rc7 1163 lines 30 kB view raw
1/* 2 * xt_hashlimit - Netfilter module to limit the number of packets per time 3 * separately for each hashbucket (sourceip/sourceport/dstip/dstport) 4 * 5 * (C) 2003-2004 by Harald Welte <laforge@netfilter.org> 6 * (C) 2006-2012 Patrick McHardy <kaber@trash.net> 7 * Copyright © CC Computer Consultants GmbH, 2007 - 2008 8 * 9 * Development of this code was funded by Astaro AG, http://www.astaro.com/ 10 */ 11#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt 12#include <linux/module.h> 13#include <linux/spinlock.h> 14#include <linux/random.h> 15#include <linux/jhash.h> 16#include <linux/slab.h> 17#include <linux/vmalloc.h> 18#include <linux/proc_fs.h> 19#include <linux/seq_file.h> 20#include <linux/list.h> 21#include <linux/skbuff.h> 22#include <linux/mm.h> 23#include <linux/in.h> 24#include <linux/ip.h> 25#if IS_ENABLED(CONFIG_IP6_NF_IPTABLES) 26#include <linux/ipv6.h> 27#include <net/ipv6.h> 28#endif 29 30#include <net/net_namespace.h> 31#include <net/netns/generic.h> 32 33#include <linux/netfilter/x_tables.h> 34#include <linux/netfilter_ipv4/ip_tables.h> 35#include <linux/netfilter_ipv6/ip6_tables.h> 36#include <linux/netfilter/xt_hashlimit.h> 37#include <linux/mutex.h> 38 39MODULE_LICENSE("GPL"); 40MODULE_AUTHOR("Harald Welte <laforge@netfilter.org>"); 41MODULE_AUTHOR("Jan Engelhardt <jengelh@medozas.de>"); 42MODULE_DESCRIPTION("Xtables: per hash-bucket rate-limit match"); 43MODULE_ALIAS("ipt_hashlimit"); 44MODULE_ALIAS("ip6t_hashlimit"); 45 46struct hashlimit_net { 47 struct hlist_head htables; 48 struct proc_dir_entry *ipt_hashlimit; 49 struct proc_dir_entry *ip6t_hashlimit; 50}; 51 52static unsigned int hashlimit_net_id; 53static inline struct hashlimit_net *hashlimit_pernet(struct net *net) 54{ 55 return net_generic(net, hashlimit_net_id); 56} 57 58/* need to declare this at the top */ 59static const struct file_operations dl_file_ops_v1; 60static const struct file_operations dl_file_ops; 61 62/* hash table crap */ 63struct dsthash_dst { 64 union { 65 struct { 66 __be32 src; 67 __be32 dst; 68 } ip; 69#if IS_ENABLED(CONFIG_IP6_NF_IPTABLES) 70 struct { 71 __be32 src[4]; 72 __be32 dst[4]; 73 } ip6; 74#endif 75 }; 76 __be16 src_port; 77 __be16 dst_port; 78}; 79 80struct dsthash_ent { 81 /* static / read-only parts in the beginning */ 82 struct hlist_node node; 83 struct dsthash_dst dst; 84 85 /* modified structure members in the end */ 86 spinlock_t lock; 87 unsigned long expires; /* precalculated expiry time */ 88 struct { 89 unsigned long prev; /* last modification */ 90 u_int64_t credit; 91 u_int64_t credit_cap, cost; 92 } rateinfo; 93 struct rcu_head rcu; 94}; 95 96struct xt_hashlimit_htable { 97 struct hlist_node node; /* global list of all htables */ 98 int use; 99 u_int8_t family; 100 bool rnd_initialized; 101 102 struct hashlimit_cfg2 cfg; /* config */ 103 104 /* used internally */ 105 spinlock_t lock; /* lock for list_head */ 106 u_int32_t rnd; /* random seed for hash */ 107 unsigned int count; /* number entries in table */ 108 struct delayed_work gc_work; 109 110 /* seq_file stuff */ 111 struct proc_dir_entry *pde; 112 const char *name; 113 struct net *net; 114 115 struct hlist_head hash[0]; /* hashtable itself */ 116}; 117 118static int 119cfg_copy(struct hashlimit_cfg2 *to, void *from, int revision) 120{ 121 if (revision == 1) { 122 struct hashlimit_cfg1 *cfg = (struct hashlimit_cfg1 *)from; 123 124 to->mode = cfg->mode; 125 to->avg = cfg->avg; 126 to->burst = cfg->burst; 127 to->size = cfg->size; 128 to->max = cfg->max; 129 to->gc_interval = cfg->gc_interval; 130 to->expire = cfg->expire; 131 to->srcmask = cfg->srcmask; 132 to->dstmask = cfg->dstmask; 133 } else if (revision == 2) { 134 memcpy(to, from, sizeof(struct hashlimit_cfg2)); 135 } else { 136 return -EINVAL; 137 } 138 139 return 0; 140} 141 142static DEFINE_MUTEX(hashlimit_mutex); /* protects htables list */ 143static struct kmem_cache *hashlimit_cachep __read_mostly; 144 145static inline bool dst_cmp(const struct dsthash_ent *ent, 146 const struct dsthash_dst *b) 147{ 148 return !memcmp(&ent->dst, b, sizeof(ent->dst)); 149} 150 151static u_int32_t 152hash_dst(const struct xt_hashlimit_htable *ht, const struct dsthash_dst *dst) 153{ 154 u_int32_t hash = jhash2((const u32 *)dst, 155 sizeof(*dst)/sizeof(u32), 156 ht->rnd); 157 /* 158 * Instead of returning hash % ht->cfg.size (implying a divide) 159 * we return the high 32 bits of the (hash * ht->cfg.size) that will 160 * give results between [0 and cfg.size-1] and same hash distribution, 161 * but using a multiply, less expensive than a divide 162 */ 163 return reciprocal_scale(hash, ht->cfg.size); 164} 165 166static struct dsthash_ent * 167dsthash_find(const struct xt_hashlimit_htable *ht, 168 const struct dsthash_dst *dst) 169{ 170 struct dsthash_ent *ent; 171 u_int32_t hash = hash_dst(ht, dst); 172 173 if (!hlist_empty(&ht->hash[hash])) { 174 hlist_for_each_entry_rcu(ent, &ht->hash[hash], node) 175 if (dst_cmp(ent, dst)) { 176 spin_lock(&ent->lock); 177 return ent; 178 } 179 } 180 return NULL; 181} 182 183/* allocate dsthash_ent, initialize dst, put in htable and lock it */ 184static struct dsthash_ent * 185dsthash_alloc_init(struct xt_hashlimit_htable *ht, 186 const struct dsthash_dst *dst, bool *race) 187{ 188 struct dsthash_ent *ent; 189 190 spin_lock(&ht->lock); 191 192 /* Two or more packets may race to create the same entry in the 193 * hashtable, double check if this packet lost race. 194 */ 195 ent = dsthash_find(ht, dst); 196 if (ent != NULL) { 197 spin_unlock(&ht->lock); 198 *race = true; 199 return ent; 200 } 201 202 /* initialize hash with random val at the time we allocate 203 * the first hashtable entry */ 204 if (unlikely(!ht->rnd_initialized)) { 205 get_random_bytes(&ht->rnd, sizeof(ht->rnd)); 206 ht->rnd_initialized = true; 207 } 208 209 if (ht->cfg.max && ht->count >= ht->cfg.max) { 210 /* FIXME: do something. question is what.. */ 211 net_err_ratelimited("max count of %u reached\n", ht->cfg.max); 212 ent = NULL; 213 } else 214 ent = kmem_cache_alloc(hashlimit_cachep, GFP_ATOMIC); 215 if (ent) { 216 memcpy(&ent->dst, dst, sizeof(ent->dst)); 217 spin_lock_init(&ent->lock); 218 219 spin_lock(&ent->lock); 220 hlist_add_head_rcu(&ent->node, &ht->hash[hash_dst(ht, dst)]); 221 ht->count++; 222 } 223 spin_unlock(&ht->lock); 224 return ent; 225} 226 227static void dsthash_free_rcu(struct rcu_head *head) 228{ 229 struct dsthash_ent *ent = container_of(head, struct dsthash_ent, rcu); 230 231 kmem_cache_free(hashlimit_cachep, ent); 232} 233 234static inline void 235dsthash_free(struct xt_hashlimit_htable *ht, struct dsthash_ent *ent) 236{ 237 hlist_del_rcu(&ent->node); 238 call_rcu_bh(&ent->rcu, dsthash_free_rcu); 239 ht->count--; 240} 241static void htable_gc(struct work_struct *work); 242 243static int htable_create(struct net *net, struct hashlimit_cfg2 *cfg, 244 const char *name, u_int8_t family, 245 struct xt_hashlimit_htable **out_hinfo, 246 int revision) 247{ 248 struct hashlimit_net *hashlimit_net = hashlimit_pernet(net); 249 struct xt_hashlimit_htable *hinfo; 250 unsigned int size, i; 251 int ret; 252 253 if (cfg->size) { 254 size = cfg->size; 255 } else { 256 size = (totalram_pages << PAGE_SHIFT) / 16384 / 257 sizeof(struct list_head); 258 if (totalram_pages > 1024 * 1024 * 1024 / PAGE_SIZE) 259 size = 8192; 260 if (size < 16) 261 size = 16; 262 } 263 /* FIXME: don't use vmalloc() here or anywhere else -HW */ 264 hinfo = vmalloc(sizeof(struct xt_hashlimit_htable) + 265 sizeof(struct list_head) * size); 266 if (hinfo == NULL) 267 return -ENOMEM; 268 *out_hinfo = hinfo; 269 270 /* copy match config into hashtable config */ 271 ret = cfg_copy(&hinfo->cfg, (void *)cfg, 2); 272 273 if (ret) 274 return ret; 275 276 hinfo->cfg.size = size; 277 if (hinfo->cfg.max == 0) 278 hinfo->cfg.max = 8 * hinfo->cfg.size; 279 else if (hinfo->cfg.max < hinfo->cfg.size) 280 hinfo->cfg.max = hinfo->cfg.size; 281 282 for (i = 0; i < hinfo->cfg.size; i++) 283 INIT_HLIST_HEAD(&hinfo->hash[i]); 284 285 hinfo->use = 1; 286 hinfo->count = 0; 287 hinfo->family = family; 288 hinfo->rnd_initialized = false; 289 hinfo->name = kstrdup(name, GFP_KERNEL); 290 if (!hinfo->name) { 291 vfree(hinfo); 292 return -ENOMEM; 293 } 294 spin_lock_init(&hinfo->lock); 295 296 hinfo->pde = proc_create_data(name, 0, 297 (family == NFPROTO_IPV4) ? 298 hashlimit_net->ipt_hashlimit : hashlimit_net->ip6t_hashlimit, 299 (revision == 1) ? &dl_file_ops_v1 : &dl_file_ops, 300 hinfo); 301 if (hinfo->pde == NULL) { 302 kfree(hinfo->name); 303 vfree(hinfo); 304 return -ENOMEM; 305 } 306 hinfo->net = net; 307 308 INIT_DEFERRABLE_WORK(&hinfo->gc_work, htable_gc); 309 queue_delayed_work(system_power_efficient_wq, &hinfo->gc_work, 310 msecs_to_jiffies(hinfo->cfg.gc_interval)); 311 312 hlist_add_head(&hinfo->node, &hashlimit_net->htables); 313 314 return 0; 315} 316 317static bool select_all(const struct xt_hashlimit_htable *ht, 318 const struct dsthash_ent *he) 319{ 320 return 1; 321} 322 323static bool select_gc(const struct xt_hashlimit_htable *ht, 324 const struct dsthash_ent *he) 325{ 326 return time_after_eq(jiffies, he->expires); 327} 328 329static void htable_selective_cleanup(struct xt_hashlimit_htable *ht, 330 bool (*select)(const struct xt_hashlimit_htable *ht, 331 const struct dsthash_ent *he)) 332{ 333 unsigned int i; 334 335 for (i = 0; i < ht->cfg.size; i++) { 336 struct dsthash_ent *dh; 337 struct hlist_node *n; 338 339 spin_lock_bh(&ht->lock); 340 hlist_for_each_entry_safe(dh, n, &ht->hash[i], node) { 341 if ((*select)(ht, dh)) 342 dsthash_free(ht, dh); 343 } 344 spin_unlock_bh(&ht->lock); 345 cond_resched(); 346 } 347} 348 349static void htable_gc(struct work_struct *work) 350{ 351 struct xt_hashlimit_htable *ht; 352 353 ht = container_of(work, struct xt_hashlimit_htable, gc_work.work); 354 355 htable_selective_cleanup(ht, select_gc); 356 357 queue_delayed_work(system_power_efficient_wq, 358 &ht->gc_work, msecs_to_jiffies(ht->cfg.gc_interval)); 359} 360 361static void htable_remove_proc_entry(struct xt_hashlimit_htable *hinfo) 362{ 363 struct hashlimit_net *hashlimit_net = hashlimit_pernet(hinfo->net); 364 struct proc_dir_entry *parent; 365 366 if (hinfo->family == NFPROTO_IPV4) 367 parent = hashlimit_net->ipt_hashlimit; 368 else 369 parent = hashlimit_net->ip6t_hashlimit; 370 371 if (parent != NULL) 372 remove_proc_entry(hinfo->name, parent); 373} 374 375static void htable_destroy(struct xt_hashlimit_htable *hinfo) 376{ 377 cancel_delayed_work_sync(&hinfo->gc_work); 378 htable_remove_proc_entry(hinfo); 379 htable_selective_cleanup(hinfo, select_all); 380 kfree(hinfo->name); 381 vfree(hinfo); 382} 383 384static struct xt_hashlimit_htable *htable_find_get(struct net *net, 385 const char *name, 386 u_int8_t family) 387{ 388 struct hashlimit_net *hashlimit_net = hashlimit_pernet(net); 389 struct xt_hashlimit_htable *hinfo; 390 391 hlist_for_each_entry(hinfo, &hashlimit_net->htables, node) { 392 if (!strcmp(name, hinfo->name) && 393 hinfo->family == family) { 394 hinfo->use++; 395 return hinfo; 396 } 397 } 398 return NULL; 399} 400 401static void htable_put(struct xt_hashlimit_htable *hinfo) 402{ 403 mutex_lock(&hashlimit_mutex); 404 if (--hinfo->use == 0) { 405 hlist_del(&hinfo->node); 406 htable_destroy(hinfo); 407 } 408 mutex_unlock(&hashlimit_mutex); 409} 410 411/* The algorithm used is the Simple Token Bucket Filter (TBF) 412 * see net/sched/sch_tbf.c in the linux source tree 413 */ 414 415/* Rusty: This is my (non-mathematically-inclined) understanding of 416 this algorithm. The `average rate' in jiffies becomes your initial 417 amount of credit `credit' and the most credit you can ever have 418 `credit_cap'. The `peak rate' becomes the cost of passing the 419 test, `cost'. 420 421 `prev' tracks the last packet hit: you gain one credit per jiffy. 422 If you get credit balance more than this, the extra credit is 423 discarded. Every time the match passes, you lose `cost' credits; 424 if you don't have that many, the test fails. 425 426 See Alexey's formal explanation in net/sched/sch_tbf.c. 427 428 To get the maximum range, we multiply by this factor (ie. you get N 429 credits per jiffy). We want to allow a rate as low as 1 per day 430 (slowest userspace tool allows), which means 431 CREDITS_PER_JIFFY*HZ*60*60*24 < 2^32 ie. 432*/ 433#define MAX_CPJ_v1 (0xFFFFFFFF / (HZ*60*60*24)) 434#define MAX_CPJ (0xFFFFFFFFFFFFFFFFULL / (HZ*60*60*24)) 435 436/* Repeated shift and or gives us all 1s, final shift and add 1 gives 437 * us the power of 2 below the theoretical max, so GCC simply does a 438 * shift. */ 439#define _POW2_BELOW2(x) ((x)|((x)>>1)) 440#define _POW2_BELOW4(x) (_POW2_BELOW2(x)|_POW2_BELOW2((x)>>2)) 441#define _POW2_BELOW8(x) (_POW2_BELOW4(x)|_POW2_BELOW4((x)>>4)) 442#define _POW2_BELOW16(x) (_POW2_BELOW8(x)|_POW2_BELOW8((x)>>8)) 443#define _POW2_BELOW32(x) (_POW2_BELOW16(x)|_POW2_BELOW16((x)>>16)) 444#define _POW2_BELOW64(x) (_POW2_BELOW32(x)|_POW2_BELOW32((x)>>32)) 445#define POW2_BELOW32(x) ((_POW2_BELOW32(x)>>1) + 1) 446#define POW2_BELOW64(x) ((_POW2_BELOW64(x)>>1) + 1) 447 448#define CREDITS_PER_JIFFY POW2_BELOW64(MAX_CPJ) 449#define CREDITS_PER_JIFFY_v1 POW2_BELOW32(MAX_CPJ_v1) 450 451/* in byte mode, the lowest possible rate is one packet/second. 452 * credit_cap is used as a counter that tells us how many times we can 453 * refill the "credits available" counter when it becomes empty. 454 */ 455#define MAX_CPJ_BYTES (0xFFFFFFFF / HZ) 456#define CREDITS_PER_JIFFY_BYTES POW2_BELOW32(MAX_CPJ_BYTES) 457 458static u32 xt_hashlimit_len_to_chunks(u32 len) 459{ 460 return (len >> XT_HASHLIMIT_BYTE_SHIFT) + 1; 461} 462 463/* Precision saver. */ 464static u64 user2credits(u64 user, int revision) 465{ 466 if (revision == 1) { 467 /* If multiplying would overflow... */ 468 if (user > 0xFFFFFFFF / (HZ*CREDITS_PER_JIFFY_v1)) 469 /* Divide first. */ 470 return div64_u64(user, XT_HASHLIMIT_SCALE) 471 * HZ * CREDITS_PER_JIFFY_v1; 472 473 return div64_u64(user * HZ * CREDITS_PER_JIFFY_v1, 474 XT_HASHLIMIT_SCALE); 475 } else { 476 if (user > 0xFFFFFFFFFFFFFFFFULL / (HZ*CREDITS_PER_JIFFY)) 477 return div64_u64(user, XT_HASHLIMIT_SCALE_v2) 478 * HZ * CREDITS_PER_JIFFY; 479 480 return div64_u64(user * HZ * CREDITS_PER_JIFFY, 481 XT_HASHLIMIT_SCALE_v2); 482 } 483} 484 485static u32 user2credits_byte(u32 user) 486{ 487 u64 us = user; 488 us *= HZ * CREDITS_PER_JIFFY_BYTES; 489 return (u32) (us >> 32); 490} 491 492static void rateinfo_recalc(struct dsthash_ent *dh, unsigned long now, 493 u32 mode, int revision) 494{ 495 unsigned long delta = now - dh->rateinfo.prev; 496 u64 cap, cpj; 497 498 if (delta == 0) 499 return; 500 501 dh->rateinfo.prev = now; 502 503 if (mode & XT_HASHLIMIT_BYTES) { 504 u64 tmp = dh->rateinfo.credit; 505 dh->rateinfo.credit += CREDITS_PER_JIFFY_BYTES * delta; 506 cap = CREDITS_PER_JIFFY_BYTES * HZ; 507 if (tmp >= dh->rateinfo.credit) {/* overflow */ 508 dh->rateinfo.credit = cap; 509 return; 510 } 511 } else { 512 cpj = (revision == 1) ? 513 CREDITS_PER_JIFFY_v1 : CREDITS_PER_JIFFY; 514 dh->rateinfo.credit += delta * cpj; 515 cap = dh->rateinfo.credit_cap; 516 } 517 if (dh->rateinfo.credit > cap) 518 dh->rateinfo.credit = cap; 519} 520 521static void rateinfo_init(struct dsthash_ent *dh, 522 struct xt_hashlimit_htable *hinfo, int revision) 523{ 524 dh->rateinfo.prev = jiffies; 525 if (hinfo->cfg.mode & XT_HASHLIMIT_BYTES) { 526 dh->rateinfo.credit = CREDITS_PER_JIFFY_BYTES * HZ; 527 dh->rateinfo.cost = user2credits_byte(hinfo->cfg.avg); 528 dh->rateinfo.credit_cap = hinfo->cfg.burst; 529 } else { 530 dh->rateinfo.credit = user2credits(hinfo->cfg.avg * 531 hinfo->cfg.burst, revision); 532 dh->rateinfo.cost = user2credits(hinfo->cfg.avg, revision); 533 dh->rateinfo.credit_cap = dh->rateinfo.credit; 534 } 535} 536 537static inline __be32 maskl(__be32 a, unsigned int l) 538{ 539 return l ? htonl(ntohl(a) & ~0 << (32 - l)) : 0; 540} 541 542#if IS_ENABLED(CONFIG_IP6_NF_IPTABLES) 543static void hashlimit_ipv6_mask(__be32 *i, unsigned int p) 544{ 545 switch (p) { 546 case 0 ... 31: 547 i[0] = maskl(i[0], p); 548 i[1] = i[2] = i[3] = 0; 549 break; 550 case 32 ... 63: 551 i[1] = maskl(i[1], p - 32); 552 i[2] = i[3] = 0; 553 break; 554 case 64 ... 95: 555 i[2] = maskl(i[2], p - 64); 556 i[3] = 0; 557 break; 558 case 96 ... 127: 559 i[3] = maskl(i[3], p - 96); 560 break; 561 case 128: 562 break; 563 } 564} 565#endif 566 567static int 568hashlimit_init_dst(const struct xt_hashlimit_htable *hinfo, 569 struct dsthash_dst *dst, 570 const struct sk_buff *skb, unsigned int protoff) 571{ 572 __be16 _ports[2], *ports; 573 u8 nexthdr; 574 int poff; 575 576 memset(dst, 0, sizeof(*dst)); 577 578 switch (hinfo->family) { 579 case NFPROTO_IPV4: 580 if (hinfo->cfg.mode & XT_HASHLIMIT_HASH_DIP) 581 dst->ip.dst = maskl(ip_hdr(skb)->daddr, 582 hinfo->cfg.dstmask); 583 if (hinfo->cfg.mode & XT_HASHLIMIT_HASH_SIP) 584 dst->ip.src = maskl(ip_hdr(skb)->saddr, 585 hinfo->cfg.srcmask); 586 587 if (!(hinfo->cfg.mode & 588 (XT_HASHLIMIT_HASH_DPT | XT_HASHLIMIT_HASH_SPT))) 589 return 0; 590 nexthdr = ip_hdr(skb)->protocol; 591 break; 592#if IS_ENABLED(CONFIG_IP6_NF_IPTABLES) 593 case NFPROTO_IPV6: 594 { 595 __be16 frag_off; 596 597 if (hinfo->cfg.mode & XT_HASHLIMIT_HASH_DIP) { 598 memcpy(&dst->ip6.dst, &ipv6_hdr(skb)->daddr, 599 sizeof(dst->ip6.dst)); 600 hashlimit_ipv6_mask(dst->ip6.dst, hinfo->cfg.dstmask); 601 } 602 if (hinfo->cfg.mode & XT_HASHLIMIT_HASH_SIP) { 603 memcpy(&dst->ip6.src, &ipv6_hdr(skb)->saddr, 604 sizeof(dst->ip6.src)); 605 hashlimit_ipv6_mask(dst->ip6.src, hinfo->cfg.srcmask); 606 } 607 608 if (!(hinfo->cfg.mode & 609 (XT_HASHLIMIT_HASH_DPT | XT_HASHLIMIT_HASH_SPT))) 610 return 0; 611 nexthdr = ipv6_hdr(skb)->nexthdr; 612 protoff = ipv6_skip_exthdr(skb, sizeof(struct ipv6hdr), &nexthdr, &frag_off); 613 if ((int)protoff < 0) 614 return -1; 615 break; 616 } 617#endif 618 default: 619 BUG(); 620 return 0; 621 } 622 623 poff = proto_ports_offset(nexthdr); 624 if (poff >= 0) { 625 ports = skb_header_pointer(skb, protoff + poff, sizeof(_ports), 626 &_ports); 627 } else { 628 _ports[0] = _ports[1] = 0; 629 ports = _ports; 630 } 631 if (!ports) 632 return -1; 633 if (hinfo->cfg.mode & XT_HASHLIMIT_HASH_SPT) 634 dst->src_port = ports[0]; 635 if (hinfo->cfg.mode & XT_HASHLIMIT_HASH_DPT) 636 dst->dst_port = ports[1]; 637 return 0; 638} 639 640static u32 hashlimit_byte_cost(unsigned int len, struct dsthash_ent *dh) 641{ 642 u64 tmp = xt_hashlimit_len_to_chunks(len); 643 tmp = tmp * dh->rateinfo.cost; 644 645 if (unlikely(tmp > CREDITS_PER_JIFFY_BYTES * HZ)) 646 tmp = CREDITS_PER_JIFFY_BYTES * HZ; 647 648 if (dh->rateinfo.credit < tmp && dh->rateinfo.credit_cap) { 649 dh->rateinfo.credit_cap--; 650 dh->rateinfo.credit = CREDITS_PER_JIFFY_BYTES * HZ; 651 } 652 return (u32) tmp; 653} 654 655static bool 656hashlimit_mt_common(const struct sk_buff *skb, struct xt_action_param *par, 657 struct xt_hashlimit_htable *hinfo, 658 const struct hashlimit_cfg2 *cfg, int revision) 659{ 660 unsigned long now = jiffies; 661 struct dsthash_ent *dh; 662 struct dsthash_dst dst; 663 bool race = false; 664 u64 cost; 665 666 if (hashlimit_init_dst(hinfo, &dst, skb, par->thoff) < 0) 667 goto hotdrop; 668 669 rcu_read_lock_bh(); 670 dh = dsthash_find(hinfo, &dst); 671 if (dh == NULL) { 672 dh = dsthash_alloc_init(hinfo, &dst, &race); 673 if (dh == NULL) { 674 rcu_read_unlock_bh(); 675 goto hotdrop; 676 } else if (race) { 677 /* Already got an entry, update expiration timeout */ 678 dh->expires = now + msecs_to_jiffies(hinfo->cfg.expire); 679 rateinfo_recalc(dh, now, hinfo->cfg.mode, revision); 680 } else { 681 dh->expires = jiffies + msecs_to_jiffies(hinfo->cfg.expire); 682 rateinfo_init(dh, hinfo, revision); 683 } 684 } else { 685 /* update expiration timeout */ 686 dh->expires = now + msecs_to_jiffies(hinfo->cfg.expire); 687 rateinfo_recalc(dh, now, hinfo->cfg.mode, revision); 688 } 689 690 if (cfg->mode & XT_HASHLIMIT_BYTES) 691 cost = hashlimit_byte_cost(skb->len, dh); 692 else 693 cost = dh->rateinfo.cost; 694 695 if (dh->rateinfo.credit >= cost) { 696 /* below the limit */ 697 dh->rateinfo.credit -= cost; 698 spin_unlock(&dh->lock); 699 rcu_read_unlock_bh(); 700 return !(cfg->mode & XT_HASHLIMIT_INVERT); 701 } 702 703 spin_unlock(&dh->lock); 704 rcu_read_unlock_bh(); 705 /* default match is underlimit - so over the limit, we need to invert */ 706 return cfg->mode & XT_HASHLIMIT_INVERT; 707 708 hotdrop: 709 par->hotdrop = true; 710 return false; 711} 712 713static bool 714hashlimit_mt_v1(const struct sk_buff *skb, struct xt_action_param *par) 715{ 716 const struct xt_hashlimit_mtinfo1 *info = par->matchinfo; 717 struct xt_hashlimit_htable *hinfo = info->hinfo; 718 struct hashlimit_cfg2 cfg = {}; 719 int ret; 720 721 ret = cfg_copy(&cfg, (void *)&info->cfg, 1); 722 723 if (ret) 724 return ret; 725 726 return hashlimit_mt_common(skb, par, hinfo, &cfg, 1); 727} 728 729static bool 730hashlimit_mt(const struct sk_buff *skb, struct xt_action_param *par) 731{ 732 const struct xt_hashlimit_mtinfo2 *info = par->matchinfo; 733 struct xt_hashlimit_htable *hinfo = info->hinfo; 734 735 return hashlimit_mt_common(skb, par, hinfo, &info->cfg, 2); 736} 737 738static int hashlimit_mt_check_common(const struct xt_mtchk_param *par, 739 struct xt_hashlimit_htable **hinfo, 740 struct hashlimit_cfg2 *cfg, 741 const char *name, int revision) 742{ 743 struct net *net = par->net; 744 int ret; 745 746 if (cfg->gc_interval == 0 || cfg->expire == 0) 747 return -EINVAL; 748 if (par->family == NFPROTO_IPV4) { 749 if (cfg->srcmask > 32 || cfg->dstmask > 32) 750 return -EINVAL; 751 } else { 752 if (cfg->srcmask > 128 || cfg->dstmask > 128) 753 return -EINVAL; 754 } 755 756 if (cfg->mode & ~XT_HASHLIMIT_ALL) { 757 pr_info("Unknown mode mask %X, kernel too old?\n", 758 cfg->mode); 759 return -EINVAL; 760 } 761 762 /* Check for overflow. */ 763 if (cfg->mode & XT_HASHLIMIT_BYTES) { 764 if (user2credits_byte(cfg->avg) == 0) { 765 pr_info("overflow, rate too high: %llu\n", cfg->avg); 766 return -EINVAL; 767 } 768 } else if (cfg->burst == 0 || 769 user2credits(cfg->avg * cfg->burst, revision) < 770 user2credits(cfg->avg, revision)) { 771 pr_info("overflow, try lower: %llu/%llu\n", 772 cfg->avg, cfg->burst); 773 return -ERANGE; 774 } 775 776 mutex_lock(&hashlimit_mutex); 777 *hinfo = htable_find_get(net, name, par->family); 778 if (*hinfo == NULL) { 779 ret = htable_create(net, cfg, name, par->family, 780 hinfo, revision); 781 if (ret < 0) { 782 mutex_unlock(&hashlimit_mutex); 783 return ret; 784 } 785 } 786 mutex_unlock(&hashlimit_mutex); 787 788 return 0; 789} 790 791static int hashlimit_mt_check_v1(const struct xt_mtchk_param *par) 792{ 793 struct xt_hashlimit_mtinfo1 *info = par->matchinfo; 794 struct hashlimit_cfg2 cfg = {}; 795 int ret; 796 797 if (info->name[sizeof(info->name) - 1] != '\0') 798 return -EINVAL; 799 800 ret = cfg_copy(&cfg, (void *)&info->cfg, 1); 801 802 if (ret) 803 return ret; 804 805 return hashlimit_mt_check_common(par, &info->hinfo, 806 &cfg, info->name, 1); 807} 808 809static int hashlimit_mt_check(const struct xt_mtchk_param *par) 810{ 811 struct xt_hashlimit_mtinfo2 *info = par->matchinfo; 812 813 if (info->name[sizeof(info->name) - 1] != '\0') 814 return -EINVAL; 815 816 return hashlimit_mt_check_common(par, &info->hinfo, &info->cfg, 817 info->name, 2); 818} 819 820static void hashlimit_mt_destroy_v1(const struct xt_mtdtor_param *par) 821{ 822 const struct xt_hashlimit_mtinfo1 *info = par->matchinfo; 823 824 htable_put(info->hinfo); 825} 826 827static void hashlimit_mt_destroy(const struct xt_mtdtor_param *par) 828{ 829 const struct xt_hashlimit_mtinfo2 *info = par->matchinfo; 830 831 htable_put(info->hinfo); 832} 833 834static struct xt_match hashlimit_mt_reg[] __read_mostly = { 835 { 836 .name = "hashlimit", 837 .revision = 1, 838 .family = NFPROTO_IPV4, 839 .match = hashlimit_mt_v1, 840 .matchsize = sizeof(struct xt_hashlimit_mtinfo1), 841 .checkentry = hashlimit_mt_check_v1, 842 .destroy = hashlimit_mt_destroy_v1, 843 .me = THIS_MODULE, 844 }, 845 { 846 .name = "hashlimit", 847 .revision = 2, 848 .family = NFPROTO_IPV4, 849 .match = hashlimit_mt, 850 .matchsize = sizeof(struct xt_hashlimit_mtinfo2), 851 .checkentry = hashlimit_mt_check, 852 .destroy = hashlimit_mt_destroy, 853 .me = THIS_MODULE, 854 }, 855#if IS_ENABLED(CONFIG_IP6_NF_IPTABLES) 856 { 857 .name = "hashlimit", 858 .revision = 1, 859 .family = NFPROTO_IPV6, 860 .match = hashlimit_mt_v1, 861 .matchsize = sizeof(struct xt_hashlimit_mtinfo1), 862 .checkentry = hashlimit_mt_check_v1, 863 .destroy = hashlimit_mt_destroy_v1, 864 .me = THIS_MODULE, 865 }, 866 { 867 .name = "hashlimit", 868 .revision = 2, 869 .family = NFPROTO_IPV6, 870 .match = hashlimit_mt, 871 .matchsize = sizeof(struct xt_hashlimit_mtinfo2), 872 .checkentry = hashlimit_mt_check, 873 .destroy = hashlimit_mt_destroy, 874 .me = THIS_MODULE, 875 }, 876#endif 877}; 878 879/* PROC stuff */ 880static void *dl_seq_start(struct seq_file *s, loff_t *pos) 881 __acquires(htable->lock) 882{ 883 struct xt_hashlimit_htable *htable = s->private; 884 unsigned int *bucket; 885 886 spin_lock_bh(&htable->lock); 887 if (*pos >= htable->cfg.size) 888 return NULL; 889 890 bucket = kmalloc(sizeof(unsigned int), GFP_ATOMIC); 891 if (!bucket) 892 return ERR_PTR(-ENOMEM); 893 894 *bucket = *pos; 895 return bucket; 896} 897 898static void *dl_seq_next(struct seq_file *s, void *v, loff_t *pos) 899{ 900 struct xt_hashlimit_htable *htable = s->private; 901 unsigned int *bucket = (unsigned int *)v; 902 903 *pos = ++(*bucket); 904 if (*pos >= htable->cfg.size) { 905 kfree(v); 906 return NULL; 907 } 908 return bucket; 909} 910 911static void dl_seq_stop(struct seq_file *s, void *v) 912 __releases(htable->lock) 913{ 914 struct xt_hashlimit_htable *htable = s->private; 915 unsigned int *bucket = (unsigned int *)v; 916 917 if (!IS_ERR(bucket)) 918 kfree(bucket); 919 spin_unlock_bh(&htable->lock); 920} 921 922static void dl_seq_print(struct dsthash_ent *ent, u_int8_t family, 923 struct seq_file *s) 924{ 925 switch (family) { 926 case NFPROTO_IPV4: 927 seq_printf(s, "%ld %pI4:%u->%pI4:%u %llu %llu %llu\n", 928 (long)(ent->expires - jiffies)/HZ, 929 &ent->dst.ip.src, 930 ntohs(ent->dst.src_port), 931 &ent->dst.ip.dst, 932 ntohs(ent->dst.dst_port), 933 ent->rateinfo.credit, ent->rateinfo.credit_cap, 934 ent->rateinfo.cost); 935 break; 936#if IS_ENABLED(CONFIG_IP6_NF_IPTABLES) 937 case NFPROTO_IPV6: 938 seq_printf(s, "%ld %pI6:%u->%pI6:%u %llu %llu %llu\n", 939 (long)(ent->expires - jiffies)/HZ, 940 &ent->dst.ip6.src, 941 ntohs(ent->dst.src_port), 942 &ent->dst.ip6.dst, 943 ntohs(ent->dst.dst_port), 944 ent->rateinfo.credit, ent->rateinfo.credit_cap, 945 ent->rateinfo.cost); 946 break; 947#endif 948 default: 949 BUG(); 950 } 951} 952 953static int dl_seq_real_show_v1(struct dsthash_ent *ent, u_int8_t family, 954 struct seq_file *s) 955{ 956 const struct xt_hashlimit_htable *ht = s->private; 957 958 spin_lock(&ent->lock); 959 /* recalculate to show accurate numbers */ 960 rateinfo_recalc(ent, jiffies, ht->cfg.mode, 1); 961 962 dl_seq_print(ent, family, s); 963 964 spin_unlock(&ent->lock); 965 return seq_has_overflowed(s); 966} 967 968static int dl_seq_real_show(struct dsthash_ent *ent, u_int8_t family, 969 struct seq_file *s) 970{ 971 const struct xt_hashlimit_htable *ht = s->private; 972 973 spin_lock(&ent->lock); 974 /* recalculate to show accurate numbers */ 975 rateinfo_recalc(ent, jiffies, ht->cfg.mode, 2); 976 977 dl_seq_print(ent, family, s); 978 979 spin_unlock(&ent->lock); 980 return seq_has_overflowed(s); 981} 982 983static int dl_seq_show_v1(struct seq_file *s, void *v) 984{ 985 struct xt_hashlimit_htable *htable = s->private; 986 unsigned int *bucket = (unsigned int *)v; 987 struct dsthash_ent *ent; 988 989 if (!hlist_empty(&htable->hash[*bucket])) { 990 hlist_for_each_entry(ent, &htable->hash[*bucket], node) 991 if (dl_seq_real_show_v1(ent, htable->family, s)) 992 return -1; 993 } 994 return 0; 995} 996 997static int dl_seq_show(struct seq_file *s, void *v) 998{ 999 struct xt_hashlimit_htable *htable = s->private; 1000 unsigned int *bucket = (unsigned int *)v; 1001 struct dsthash_ent *ent; 1002 1003 if (!hlist_empty(&htable->hash[*bucket])) { 1004 hlist_for_each_entry(ent, &htable->hash[*bucket], node) 1005 if (dl_seq_real_show(ent, htable->family, s)) 1006 return -1; 1007 } 1008 return 0; 1009} 1010 1011static const struct seq_operations dl_seq_ops_v1 = { 1012 .start = dl_seq_start, 1013 .next = dl_seq_next, 1014 .stop = dl_seq_stop, 1015 .show = dl_seq_show_v1 1016}; 1017 1018static const struct seq_operations dl_seq_ops = { 1019 .start = dl_seq_start, 1020 .next = dl_seq_next, 1021 .stop = dl_seq_stop, 1022 .show = dl_seq_show 1023}; 1024 1025static int dl_proc_open_v1(struct inode *inode, struct file *file) 1026{ 1027 int ret = seq_open(file, &dl_seq_ops_v1); 1028 1029 if (!ret) { 1030 struct seq_file *sf = file->private_data; 1031 sf->private = PDE_DATA(inode); 1032 } 1033 return ret; 1034} 1035 1036static int dl_proc_open(struct inode *inode, struct file *file) 1037{ 1038 int ret = seq_open(file, &dl_seq_ops); 1039 1040 if (!ret) { 1041 struct seq_file *sf = file->private_data; 1042 1043 sf->private = PDE_DATA(inode); 1044 } 1045 return ret; 1046} 1047 1048static const struct file_operations dl_file_ops_v1 = { 1049 .owner = THIS_MODULE, 1050 .open = dl_proc_open_v1, 1051 .read = seq_read, 1052 .llseek = seq_lseek, 1053 .release = seq_release 1054}; 1055 1056static const struct file_operations dl_file_ops = { 1057 .owner = THIS_MODULE, 1058 .open = dl_proc_open, 1059 .read = seq_read, 1060 .llseek = seq_lseek, 1061 .release = seq_release 1062}; 1063 1064static int __net_init hashlimit_proc_net_init(struct net *net) 1065{ 1066 struct hashlimit_net *hashlimit_net = hashlimit_pernet(net); 1067 1068 hashlimit_net->ipt_hashlimit = proc_mkdir("ipt_hashlimit", net->proc_net); 1069 if (!hashlimit_net->ipt_hashlimit) 1070 return -ENOMEM; 1071#if IS_ENABLED(CONFIG_IP6_NF_IPTABLES) 1072 hashlimit_net->ip6t_hashlimit = proc_mkdir("ip6t_hashlimit", net->proc_net); 1073 if (!hashlimit_net->ip6t_hashlimit) { 1074 remove_proc_entry("ipt_hashlimit", net->proc_net); 1075 return -ENOMEM; 1076 } 1077#endif 1078 return 0; 1079} 1080 1081static void __net_exit hashlimit_proc_net_exit(struct net *net) 1082{ 1083 struct xt_hashlimit_htable *hinfo; 1084 struct hashlimit_net *hashlimit_net = hashlimit_pernet(net); 1085 1086 /* hashlimit_net_exit() is called before hashlimit_mt_destroy(). 1087 * Make sure that the parent ipt_hashlimit and ip6t_hashlimit proc 1088 * entries is empty before trying to remove it. 1089 */ 1090 mutex_lock(&hashlimit_mutex); 1091 hlist_for_each_entry(hinfo, &hashlimit_net->htables, node) 1092 htable_remove_proc_entry(hinfo); 1093 hashlimit_net->ipt_hashlimit = NULL; 1094 hashlimit_net->ip6t_hashlimit = NULL; 1095 mutex_unlock(&hashlimit_mutex); 1096 1097 remove_proc_entry("ipt_hashlimit", net->proc_net); 1098#if IS_ENABLED(CONFIG_IP6_NF_IPTABLES) 1099 remove_proc_entry("ip6t_hashlimit", net->proc_net); 1100#endif 1101} 1102 1103static int __net_init hashlimit_net_init(struct net *net) 1104{ 1105 struct hashlimit_net *hashlimit_net = hashlimit_pernet(net); 1106 1107 INIT_HLIST_HEAD(&hashlimit_net->htables); 1108 return hashlimit_proc_net_init(net); 1109} 1110 1111static void __net_exit hashlimit_net_exit(struct net *net) 1112{ 1113 hashlimit_proc_net_exit(net); 1114} 1115 1116static struct pernet_operations hashlimit_net_ops = { 1117 .init = hashlimit_net_init, 1118 .exit = hashlimit_net_exit, 1119 .id = &hashlimit_net_id, 1120 .size = sizeof(struct hashlimit_net), 1121}; 1122 1123static int __init hashlimit_mt_init(void) 1124{ 1125 int err; 1126 1127 err = register_pernet_subsys(&hashlimit_net_ops); 1128 if (err < 0) 1129 return err; 1130 err = xt_register_matches(hashlimit_mt_reg, 1131 ARRAY_SIZE(hashlimit_mt_reg)); 1132 if (err < 0) 1133 goto err1; 1134 1135 err = -ENOMEM; 1136 hashlimit_cachep = kmem_cache_create("xt_hashlimit", 1137 sizeof(struct dsthash_ent), 0, 0, 1138 NULL); 1139 if (!hashlimit_cachep) { 1140 pr_warn("unable to create slab cache\n"); 1141 goto err2; 1142 } 1143 return 0; 1144 1145err2: 1146 xt_unregister_matches(hashlimit_mt_reg, ARRAY_SIZE(hashlimit_mt_reg)); 1147err1: 1148 unregister_pernet_subsys(&hashlimit_net_ops); 1149 return err; 1150 1151} 1152 1153static void __exit hashlimit_mt_exit(void) 1154{ 1155 xt_unregister_matches(hashlimit_mt_reg, ARRAY_SIZE(hashlimit_mt_reg)); 1156 unregister_pernet_subsys(&hashlimit_net_ops); 1157 1158 rcu_barrier_bh(); 1159 kmem_cache_destroy(hashlimit_cachep); 1160} 1161 1162module_init(hashlimit_mt_init); 1163module_exit(hashlimit_mt_exit);