net/bridge/netfilter/ebtables.c at v4.6-rc1

tjh.dev / kernel
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Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
kernel os linux
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kernel / net / bridge / netfilter / ebtables.c
at v4.6-rc1 2437 lines 64 kB view raw
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   1/*
   2 *  ebtables
   3 *
   4 *  Author:
   5 *  Bart De Schuymer		<bdschuym@pandora.be>
   6 *
   7 *  ebtables.c,v 2.0, July, 2002
   8 *
   9 *  This code is strongly inspired by the iptables code which is
  10 *  Copyright (C) 1999 Paul `Rusty' Russell & Michael J. Neuling
  11 *
  12 *  This program is free software; you can redistribute it and/or
  13 *  modify it under the terms of the GNU General Public License
  14 *  as published by the Free Software Foundation; either version
  15 *  2 of the License, or (at your option) any later version.
  16 */
  17#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
  18#include <linux/kmod.h>
  19#include <linux/module.h>
  20#include <linux/vmalloc.h>
  21#include <linux/netfilter/x_tables.h>
  22#include <linux/netfilter_bridge/ebtables.h>
  23#include <linux/spinlock.h>
  24#include <linux/mutex.h>
  25#include <linux/slab.h>
  26#include <asm/uaccess.h>
  27#include <linux/smp.h>
  28#include <linux/cpumask.h>
  29#include <linux/audit.h>
  30#include <net/sock.h>
  31/* needed for logical [in,out]-dev filtering */
  32#include "../br_private.h"
  33
  34#define BUGPRINT(format, args...) printk("kernel msg: ebtables bug: please "\
  35					 "report to author: "format, ## args)
  36/* #define BUGPRINT(format, args...) */
  37
  38/* Each cpu has its own set of counters, so there is no need for write_lock in
  39 * the softirq
  40 * For reading or updating the counters, the user context needs to
  41 * get a write_lock
  42 */
  43
  44/* The size of each set of counters is altered to get cache alignment */
  45#define SMP_ALIGN(x) (((x) + SMP_CACHE_BYTES-1) & ~(SMP_CACHE_BYTES-1))
  46#define COUNTER_OFFSET(n) (SMP_ALIGN(n * sizeof(struct ebt_counter)))
  47#define COUNTER_BASE(c, n, cpu) ((struct ebt_counter *)(((char *)c) + \
  48				 COUNTER_OFFSET(n) * cpu))
  49
  50
  51
  52static DEFINE_MUTEX(ebt_mutex);
  53
  54#ifdef CONFIG_COMPAT
  55static void ebt_standard_compat_from_user(void *dst, const void *src)
  56{
  57	int v = *(compat_int_t *)src;
  58
  59	if (v >= 0)
  60		v += xt_compat_calc_jump(NFPROTO_BRIDGE, v);
  61	memcpy(dst, &v, sizeof(v));
  62}
  63
  64static int ebt_standard_compat_to_user(void __user *dst, const void *src)
  65{
  66	compat_int_t cv = *(int *)src;
  67
  68	if (cv >= 0)
  69		cv -= xt_compat_calc_jump(NFPROTO_BRIDGE, cv);
  70	return copy_to_user(dst, &cv, sizeof(cv)) ? -EFAULT : 0;
  71}
  72#endif
  73
  74
  75static struct xt_target ebt_standard_target = {
  76	.name       = "standard",
  77	.revision   = 0,
  78	.family     = NFPROTO_BRIDGE,
  79	.targetsize = sizeof(int),
  80#ifdef CONFIG_COMPAT
  81	.compatsize = sizeof(compat_int_t),
  82	.compat_from_user = ebt_standard_compat_from_user,
  83	.compat_to_user =  ebt_standard_compat_to_user,
  84#endif
  85};
  86
  87static inline int
  88ebt_do_watcher(const struct ebt_entry_watcher *w, struct sk_buff *skb,
  89	       struct xt_action_param *par)
  90{
  91	par->target   = w->u.watcher;
  92	par->targinfo = w->data;
  93	w->u.watcher->target(skb, par);
  94	/* watchers don't give a verdict */
  95	return 0;
  96}
  97
  98static inline int
  99ebt_do_match(struct ebt_entry_match *m, const struct sk_buff *skb,
 100	     struct xt_action_param *par)
 101{
 102	par->match     = m->u.match;
 103	par->matchinfo = m->data;
 104	return m->u.match->match(skb, par) ? EBT_MATCH : EBT_NOMATCH;
 105}
 106
 107static inline int
 108ebt_dev_check(const char *entry, const struct net_device *device)
 109{
 110	int i = 0;
 111	const char *devname;
 112
 113	if (*entry == '\0')
 114		return 0;
 115	if (!device)
 116		return 1;
 117	devname = device->name;
 118	/* 1 is the wildcard token */
 119	while (entry[i] != '\0' && entry[i] != 1 && entry[i] == devname[i])
 120		i++;
 121	return devname[i] != entry[i] && entry[i] != 1;
 122}
 123
 124#define FWINV2(bool, invflg) ((bool) ^ !!(e->invflags & invflg))
 125/* process standard matches */
 126static inline int
 127ebt_basic_match(const struct ebt_entry *e, const struct sk_buff *skb,
 128		const struct net_device *in, const struct net_device *out)
 129{
 130	const struct ethhdr *h = eth_hdr(skb);
 131	const struct net_bridge_port *p;
 132	__be16 ethproto;
 133	int verdict, i;
 134
 135	if (skb_vlan_tag_present(skb))
 136		ethproto = htons(ETH_P_8021Q);
 137	else
 138		ethproto = h->h_proto;
 139
 140	if (e->bitmask & EBT_802_3) {
 141		if (FWINV2(eth_proto_is_802_3(ethproto), EBT_IPROTO))
 142			return 1;
 143	} else if (!(e->bitmask & EBT_NOPROTO) &&
 144	   FWINV2(e->ethproto != ethproto, EBT_IPROTO))
 145		return 1;
 146
 147	if (FWINV2(ebt_dev_check(e->in, in), EBT_IIN))
 148		return 1;
 149	if (FWINV2(ebt_dev_check(e->out, out), EBT_IOUT))
 150		return 1;
 151	/* rcu_read_lock()ed by nf_hook_slow */
 152	if (in && (p = br_port_get_rcu(in)) != NULL &&
 153	    FWINV2(ebt_dev_check(e->logical_in, p->br->dev), EBT_ILOGICALIN))
 154		return 1;
 155	if (out && (p = br_port_get_rcu(out)) != NULL &&
 156	    FWINV2(ebt_dev_check(e->logical_out, p->br->dev), EBT_ILOGICALOUT))
 157		return 1;
 158
 159	if (e->bitmask & EBT_SOURCEMAC) {
 160		verdict = 0;
 161		for (i = 0; i < 6; i++)
 162			verdict |= (h->h_source[i] ^ e->sourcemac[i]) &
 163			   e->sourcemsk[i];
 164		if (FWINV2(verdict != 0, EBT_ISOURCE))
 165			return 1;
 166	}
 167	if (e->bitmask & EBT_DESTMAC) {
 168		verdict = 0;
 169		for (i = 0; i < 6; i++)
 170			verdict |= (h->h_dest[i] ^ e->destmac[i]) &
 171			   e->destmsk[i];
 172		if (FWINV2(verdict != 0, EBT_IDEST))
 173			return 1;
 174	}
 175	return 0;
 176}
 177
 178static inline
 179struct ebt_entry *ebt_next_entry(const struct ebt_entry *entry)
 180{
 181	return (void *)entry + entry->next_offset;
 182}
 183
 184/* Do some firewalling */
 185unsigned int ebt_do_table(struct sk_buff *skb,
 186			  const struct nf_hook_state *state,
 187			  struct ebt_table *table)
 188{
 189	unsigned int hook = state->hook;
 190	int i, nentries;
 191	struct ebt_entry *point;
 192	struct ebt_counter *counter_base, *cb_base;
 193	const struct ebt_entry_target *t;
 194	int verdict, sp = 0;
 195	struct ebt_chainstack *cs;
 196	struct ebt_entries *chaininfo;
 197	const char *base;
 198	const struct ebt_table_info *private;
 199	struct xt_action_param acpar;
 200
 201	acpar.family  = NFPROTO_BRIDGE;
 202	acpar.net     = state->net;
 203	acpar.in      = state->in;
 204	acpar.out     = state->out;
 205	acpar.hotdrop = false;
 206	acpar.hooknum = hook;
 207
 208	read_lock_bh(&table->lock);
 209	private = table->private;
 210	cb_base = COUNTER_BASE(private->counters, private->nentries,
 211	   smp_processor_id());
 212	if (private->chainstack)
 213		cs = private->chainstack[smp_processor_id()];
 214	else
 215		cs = NULL;
 216	chaininfo = private->hook_entry[hook];
 217	nentries = private->hook_entry[hook]->nentries;
 218	point = (struct ebt_entry *)(private->hook_entry[hook]->data);
 219	counter_base = cb_base + private->hook_entry[hook]->counter_offset;
 220	/* base for chain jumps */
 221	base = private->entries;
 222	i = 0;
 223	while (i < nentries) {
 224		if (ebt_basic_match(point, skb, state->in, state->out))
 225			goto letscontinue;
 226
 227		if (EBT_MATCH_ITERATE(point, ebt_do_match, skb, &acpar) != 0)
 228			goto letscontinue;
 229		if (acpar.hotdrop) {
 230			read_unlock_bh(&table->lock);
 231			return NF_DROP;
 232		}
 233
 234		/* increase counter */
 235		(*(counter_base + i)).pcnt++;
 236		(*(counter_base + i)).bcnt += skb->len;
 237
 238		/* these should only watch: not modify, nor tell us
 239		 * what to do with the packet
 240		 */
 241		EBT_WATCHER_ITERATE(point, ebt_do_watcher, skb, &acpar);
 242
 243		t = (struct ebt_entry_target *)
 244		   (((char *)point) + point->target_offset);
 245		/* standard target */
 246		if (!t->u.target->target)
 247			verdict = ((struct ebt_standard_target *)t)->verdict;
 248		else {
 249			acpar.target   = t->u.target;
 250			acpar.targinfo = t->data;
 251			verdict = t->u.target->target(skb, &acpar);
 252		}
 253		if (verdict == EBT_ACCEPT) {
 254			read_unlock_bh(&table->lock);
 255			return NF_ACCEPT;
 256		}
 257		if (verdict == EBT_DROP) {
 258			read_unlock_bh(&table->lock);
 259			return NF_DROP;
 260		}
 261		if (verdict == EBT_RETURN) {
 262letsreturn:
 263#ifdef CONFIG_NETFILTER_DEBUG
 264			if (sp == 0) {
 265				BUGPRINT("RETURN on base chain");
 266				/* act like this is EBT_CONTINUE */
 267				goto letscontinue;
 268			}
 269#endif
 270			sp--;
 271			/* put all the local variables right */
 272			i = cs[sp].n;
 273			chaininfo = cs[sp].chaininfo;
 274			nentries = chaininfo->nentries;
 275			point = cs[sp].e;
 276			counter_base = cb_base +
 277			   chaininfo->counter_offset;
 278			continue;
 279		}
 280		if (verdict == EBT_CONTINUE)
 281			goto letscontinue;
 282#ifdef CONFIG_NETFILTER_DEBUG
 283		if (verdict < 0) {
 284			BUGPRINT("bogus standard verdict\n");
 285			read_unlock_bh(&table->lock);
 286			return NF_DROP;
 287		}
 288#endif
 289		/* jump to a udc */
 290		cs[sp].n = i + 1;
 291		cs[sp].chaininfo = chaininfo;
 292		cs[sp].e = ebt_next_entry(point);
 293		i = 0;
 294		chaininfo = (struct ebt_entries *) (base + verdict);
 295#ifdef CONFIG_NETFILTER_DEBUG
 296		if (chaininfo->distinguisher) {
 297			BUGPRINT("jump to non-chain\n");
 298			read_unlock_bh(&table->lock);
 299			return NF_DROP;
 300		}
 301#endif
 302		nentries = chaininfo->nentries;
 303		point = (struct ebt_entry *)chaininfo->data;
 304		counter_base = cb_base + chaininfo->counter_offset;
 305		sp++;
 306		continue;
 307letscontinue:
 308		point = ebt_next_entry(point);
 309		i++;
 310	}
 311
 312	/* I actually like this :) */
 313	if (chaininfo->policy == EBT_RETURN)
 314		goto letsreturn;
 315	if (chaininfo->policy == EBT_ACCEPT) {
 316		read_unlock_bh(&table->lock);
 317		return NF_ACCEPT;
 318	}
 319	read_unlock_bh(&table->lock);
 320	return NF_DROP;
 321}
 322
 323/* If it succeeds, returns element and locks mutex */
 324static inline void *
 325find_inlist_lock_noload(struct list_head *head, const char *name, int *error,
 326			struct mutex *mutex)
 327{
 328	struct {
 329		struct list_head list;
 330		char name[EBT_FUNCTION_MAXNAMELEN];
 331	} *e;
 332
 333	mutex_lock(mutex);
 334	list_for_each_entry(e, head, list) {
 335		if (strcmp(e->name, name) == 0)
 336			return e;
 337	}
 338	*error = -ENOENT;
 339	mutex_unlock(mutex);
 340	return NULL;
 341}
 342
 343static void *
 344find_inlist_lock(struct list_head *head, const char *name, const char *prefix,
 345		 int *error, struct mutex *mutex)
 346{
 347	return try_then_request_module(
 348			find_inlist_lock_noload(head, name, error, mutex),
 349			"%s%s", prefix, name);
 350}
 351
 352static inline struct ebt_table *
 353find_table_lock(struct net *net, const char *name, int *error,
 354		struct mutex *mutex)
 355{
 356	return find_inlist_lock(&net->xt.tables[NFPROTO_BRIDGE], name,
 357				"ebtable_", error, mutex);
 358}
 359
 360static inline int
 361ebt_check_match(struct ebt_entry_match *m, struct xt_mtchk_param *par,
 362		unsigned int *cnt)
 363{
 364	const struct ebt_entry *e = par->entryinfo;
 365	struct xt_match *match;
 366	size_t left = ((char *)e + e->watchers_offset) - (char *)m;
 367	int ret;
 368
 369	if (left < sizeof(struct ebt_entry_match) ||
 370	    left - sizeof(struct ebt_entry_match) < m->match_size)
 371		return -EINVAL;
 372
 373	match = xt_request_find_match(NFPROTO_BRIDGE, m->u.name, 0);
 374	if (IS_ERR(match))
 375		return PTR_ERR(match);
 376	m->u.match = match;
 377
 378	par->match     = match;
 379	par->matchinfo = m->data;
 380	ret = xt_check_match(par, m->match_size,
 381	      e->ethproto, e->invflags & EBT_IPROTO);
 382	if (ret < 0) {
 383		module_put(match->me);
 384		return ret;
 385	}
 386
 387	(*cnt)++;
 388	return 0;
 389}
 390
 391static inline int
 392ebt_check_watcher(struct ebt_entry_watcher *w, struct xt_tgchk_param *par,
 393		  unsigned int *cnt)
 394{
 395	const struct ebt_entry *e = par->entryinfo;
 396	struct xt_target *watcher;
 397	size_t left = ((char *)e + e->target_offset) - (char *)w;
 398	int ret;
 399
 400	if (left < sizeof(struct ebt_entry_watcher) ||
 401	   left - sizeof(struct ebt_entry_watcher) < w->watcher_size)
 402		return -EINVAL;
 403
 404	watcher = xt_request_find_target(NFPROTO_BRIDGE, w->u.name, 0);
 405	if (IS_ERR(watcher))
 406		return PTR_ERR(watcher);
 407	w->u.watcher = watcher;
 408
 409	par->target   = watcher;
 410	par->targinfo = w->data;
 411	ret = xt_check_target(par, w->watcher_size,
 412	      e->ethproto, e->invflags & EBT_IPROTO);
 413	if (ret < 0) {
 414		module_put(watcher->me);
 415		return ret;
 416	}
 417
 418	(*cnt)++;
 419	return 0;
 420}
 421
 422static int ebt_verify_pointers(const struct ebt_replace *repl,
 423			       struct ebt_table_info *newinfo)
 424{
 425	unsigned int limit = repl->entries_size;
 426	unsigned int valid_hooks = repl->valid_hooks;
 427	unsigned int offset = 0;
 428	int i;
 429
 430	for (i = 0; i < NF_BR_NUMHOOKS; i++)
 431		newinfo->hook_entry[i] = NULL;
 432
 433	newinfo->entries_size = repl->entries_size;
 434	newinfo->nentries = repl->nentries;
 435
 436	while (offset < limit) {
 437		size_t left = limit - offset;
 438		struct ebt_entry *e = (void *)newinfo->entries + offset;
 439
 440		if (left < sizeof(unsigned int))
 441			break;
 442
 443		for (i = 0; i < NF_BR_NUMHOOKS; i++) {
 444			if ((valid_hooks & (1 << i)) == 0)
 445				continue;
 446			if ((char __user *)repl->hook_entry[i] ==
 447			     repl->entries + offset)
 448				break;
 449		}
 450
 451		if (i != NF_BR_NUMHOOKS || !(e->bitmask & EBT_ENTRY_OR_ENTRIES)) {
 452			if (e->bitmask != 0) {
 453				/* we make userspace set this right,
 454				 * so there is no misunderstanding
 455				 */
 456				BUGPRINT("EBT_ENTRY_OR_ENTRIES shouldn't be set "
 457					 "in distinguisher\n");
 458				return -EINVAL;
 459			}
 460			if (i != NF_BR_NUMHOOKS)
 461				newinfo->hook_entry[i] = (struct ebt_entries *)e;
 462			if (left < sizeof(struct ebt_entries))
 463				break;
 464			offset += sizeof(struct ebt_entries);
 465		} else {
 466			if (left < sizeof(struct ebt_entry))
 467				break;
 468			if (left < e->next_offset)
 469				break;
 470			if (e->next_offset < sizeof(struct ebt_entry))
 471				return -EINVAL;
 472			offset += e->next_offset;
 473		}
 474	}
 475	if (offset != limit) {
 476		BUGPRINT("entries_size too small\n");
 477		return -EINVAL;
 478	}
 479
 480	/* check if all valid hooks have a chain */
 481	for (i = 0; i < NF_BR_NUMHOOKS; i++) {
 482		if (!newinfo->hook_entry[i] &&
 483		   (valid_hooks & (1 << i))) {
 484			BUGPRINT("Valid hook without chain\n");
 485			return -EINVAL;
 486		}
 487	}
 488	return 0;
 489}
 490
 491/* this one is very careful, as it is the first function
 492 * to parse the userspace data
 493 */
 494static inline int
 495ebt_check_entry_size_and_hooks(const struct ebt_entry *e,
 496			       const struct ebt_table_info *newinfo,
 497			       unsigned int *n, unsigned int *cnt,
 498			       unsigned int *totalcnt, unsigned int *udc_cnt)
 499{
 500	int i;
 501
 502	for (i = 0; i < NF_BR_NUMHOOKS; i++) {
 503		if ((void *)e == (void *)newinfo->hook_entry[i])
 504			break;
 505	}
 506	/* beginning of a new chain
 507	 * if i == NF_BR_NUMHOOKS it must be a user defined chain
 508	 */
 509	if (i != NF_BR_NUMHOOKS || !e->bitmask) {
 510		/* this checks if the previous chain has as many entries
 511		 * as it said it has
 512		 */
 513		if (*n != *cnt) {
 514			BUGPRINT("nentries does not equal the nr of entries "
 515				 "in the chain\n");
 516			return -EINVAL;
 517		}
 518		if (((struct ebt_entries *)e)->policy != EBT_DROP &&
 519		   ((struct ebt_entries *)e)->policy != EBT_ACCEPT) {
 520			/* only RETURN from udc */
 521			if (i != NF_BR_NUMHOOKS ||
 522			   ((struct ebt_entries *)e)->policy != EBT_RETURN) {
 523				BUGPRINT("bad policy\n");
 524				return -EINVAL;
 525			}
 526		}
 527		if (i == NF_BR_NUMHOOKS) /* it's a user defined chain */
 528			(*udc_cnt)++;
 529		if (((struct ebt_entries *)e)->counter_offset != *totalcnt) {
 530			BUGPRINT("counter_offset != totalcnt");
 531			return -EINVAL;
 532		}
 533		*n = ((struct ebt_entries *)e)->nentries;
 534		*cnt = 0;
 535		return 0;
 536	}
 537	/* a plain old entry, heh */
 538	if (sizeof(struct ebt_entry) > e->watchers_offset ||
 539	   e->watchers_offset > e->target_offset ||
 540	   e->target_offset >= e->next_offset) {
 541		BUGPRINT("entry offsets not in right order\n");
 542		return -EINVAL;
 543	}
 544	/* this is not checked anywhere else */
 545	if (e->next_offset - e->target_offset < sizeof(struct ebt_entry_target)) {
 546		BUGPRINT("target size too small\n");
 547		return -EINVAL;
 548	}
 549	(*cnt)++;
 550	(*totalcnt)++;
 551	return 0;
 552}
 553
 554struct ebt_cl_stack {
 555	struct ebt_chainstack cs;
 556	int from;
 557	unsigned int hookmask;
 558};
 559
 560/* We need these positions to check that the jumps to a different part of the
 561 * entries is a jump to the beginning of a new chain.
 562 */
 563static inline int
 564ebt_get_udc_positions(struct ebt_entry *e, struct ebt_table_info *newinfo,
 565		      unsigned int *n, struct ebt_cl_stack *udc)
 566{
 567	int i;
 568
 569	/* we're only interested in chain starts */
 570	if (e->bitmask)
 571		return 0;
 572	for (i = 0; i < NF_BR_NUMHOOKS; i++) {
 573		if (newinfo->hook_entry[i] == (struct ebt_entries *)e)
 574			break;
 575	}
 576	/* only care about udc */
 577	if (i != NF_BR_NUMHOOKS)
 578		return 0;
 579
 580	udc[*n].cs.chaininfo = (struct ebt_entries *)e;
 581	/* these initialisations are depended on later in check_chainloops() */
 582	udc[*n].cs.n = 0;
 583	udc[*n].hookmask = 0;
 584
 585	(*n)++;
 586	return 0;
 587}
 588
 589static inline int
 590ebt_cleanup_match(struct ebt_entry_match *m, struct net *net, unsigned int *i)
 591{
 592	struct xt_mtdtor_param par;
 593
 594	if (i && (*i)-- == 0)
 595		return 1;
 596
 597	par.net       = net;
 598	par.match     = m->u.match;
 599	par.matchinfo = m->data;
 600	par.family    = NFPROTO_BRIDGE;
 601	if (par.match->destroy != NULL)
 602		par.match->destroy(&par);
 603	module_put(par.match->me);
 604	return 0;
 605}
 606
 607static inline int
 608ebt_cleanup_watcher(struct ebt_entry_watcher *w, struct net *net, unsigned int *i)
 609{
 610	struct xt_tgdtor_param par;
 611
 612	if (i && (*i)-- == 0)
 613		return 1;
 614
 615	par.net      = net;
 616	par.target   = w->u.watcher;
 617	par.targinfo = w->data;
 618	par.family   = NFPROTO_BRIDGE;
 619	if (par.target->destroy != NULL)
 620		par.target->destroy(&par);
 621	module_put(par.target->me);
 622	return 0;
 623}
 624
 625static inline int
 626ebt_cleanup_entry(struct ebt_entry *e, struct net *net, unsigned int *cnt)
 627{
 628	struct xt_tgdtor_param par;
 629	struct ebt_entry_target *t;
 630
 631	if (e->bitmask == 0)
 632		return 0;
 633	/* we're done */
 634	if (cnt && (*cnt)-- == 0)
 635		return 1;
 636	EBT_WATCHER_ITERATE(e, ebt_cleanup_watcher, net, NULL);
 637	EBT_MATCH_ITERATE(e, ebt_cleanup_match, net, NULL);
 638	t = (struct ebt_entry_target *)(((char *)e) + e->target_offset);
 639
 640	par.net      = net;
 641	par.target   = t->u.target;
 642	par.targinfo = t->data;
 643	par.family   = NFPROTO_BRIDGE;
 644	if (par.target->destroy != NULL)
 645		par.target->destroy(&par);
 646	module_put(par.target->me);
 647	return 0;
 648}
 649
 650static inline int
 651ebt_check_entry(struct ebt_entry *e, struct net *net,
 652		const struct ebt_table_info *newinfo,
 653		const char *name, unsigned int *cnt,
 654		struct ebt_cl_stack *cl_s, unsigned int udc_cnt)
 655{
 656	struct ebt_entry_target *t;
 657	struct xt_target *target;
 658	unsigned int i, j, hook = 0, hookmask = 0;
 659	size_t gap;
 660	int ret;
 661	struct xt_mtchk_param mtpar;
 662	struct xt_tgchk_param tgpar;
 663
 664	/* don't mess with the struct ebt_entries */
 665	if (e->bitmask == 0)
 666		return 0;
 667
 668	if (e->bitmask & ~EBT_F_MASK) {
 669		BUGPRINT("Unknown flag for bitmask\n");
 670		return -EINVAL;
 671	}
 672	if (e->invflags & ~EBT_INV_MASK) {
 673		BUGPRINT("Unknown flag for inv bitmask\n");
 674		return -EINVAL;
 675	}
 676	if ((e->bitmask & EBT_NOPROTO) && (e->bitmask & EBT_802_3)) {
 677		BUGPRINT("NOPROTO & 802_3 not allowed\n");
 678		return -EINVAL;
 679	}
 680	/* what hook do we belong to? */
 681	for (i = 0; i < NF_BR_NUMHOOKS; i++) {
 682		if (!newinfo->hook_entry[i])
 683			continue;
 684		if ((char *)newinfo->hook_entry[i] < (char *)e)
 685			hook = i;
 686		else
 687			break;
 688	}
 689	/* (1 << NF_BR_NUMHOOKS) tells the check functions the rule is on
 690	 * a base chain
 691	 */
 692	if (i < NF_BR_NUMHOOKS)
 693		hookmask = (1 << hook) | (1 << NF_BR_NUMHOOKS);
 694	else {
 695		for (i = 0; i < udc_cnt; i++)
 696			if ((char *)(cl_s[i].cs.chaininfo) > (char *)e)
 697				break;
 698		if (i == 0)
 699			hookmask = (1 << hook) | (1 << NF_BR_NUMHOOKS);
 700		else
 701			hookmask = cl_s[i - 1].hookmask;
 702	}
 703	i = 0;
 704
 705	mtpar.net	= tgpar.net       = net;
 706	mtpar.table     = tgpar.table     = name;
 707	mtpar.entryinfo = tgpar.entryinfo = e;
 708	mtpar.hook_mask = tgpar.hook_mask = hookmask;
 709	mtpar.family    = tgpar.family    = NFPROTO_BRIDGE;
 710	ret = EBT_MATCH_ITERATE(e, ebt_check_match, &mtpar, &i);
 711	if (ret != 0)
 712		goto cleanup_matches;
 713	j = 0;
 714	ret = EBT_WATCHER_ITERATE(e, ebt_check_watcher, &tgpar, &j);
 715	if (ret != 0)
 716		goto cleanup_watchers;
 717	t = (struct ebt_entry_target *)(((char *)e) + e->target_offset);
 718	gap = e->next_offset - e->target_offset;
 719
 720	target = xt_request_find_target(NFPROTO_BRIDGE, t->u.name, 0);
 721	if (IS_ERR(target)) {
 722		ret = PTR_ERR(target);
 723		goto cleanup_watchers;
 724	}
 725
 726	t->u.target = target;
 727	if (t->u.target == &ebt_standard_target) {
 728		if (gap < sizeof(struct ebt_standard_target)) {
 729			BUGPRINT("Standard target size too big\n");
 730			ret = -EFAULT;
 731			goto cleanup_watchers;
 732		}
 733		if (((struct ebt_standard_target *)t)->verdict <
 734		   -NUM_STANDARD_TARGETS) {
 735			BUGPRINT("Invalid standard target\n");
 736			ret = -EFAULT;
 737			goto cleanup_watchers;
 738		}
 739	} else if (t->target_size > gap - sizeof(struct ebt_entry_target)) {
 740		module_put(t->u.target->me);
 741		ret = -EFAULT;
 742		goto cleanup_watchers;
 743	}
 744
 745	tgpar.target   = target;
 746	tgpar.targinfo = t->data;
 747	ret = xt_check_target(&tgpar, t->target_size,
 748	      e->ethproto, e->invflags & EBT_IPROTO);
 749	if (ret < 0) {
 750		module_put(target->me);
 751		goto cleanup_watchers;
 752	}
 753	(*cnt)++;
 754	return 0;
 755cleanup_watchers:
 756	EBT_WATCHER_ITERATE(e, ebt_cleanup_watcher, net, &j);
 757cleanup_matches:
 758	EBT_MATCH_ITERATE(e, ebt_cleanup_match, net, &i);
 759	return ret;
 760}
 761
 762/* checks for loops and sets the hook mask for udc
 763 * the hook mask for udc tells us from which base chains the udc can be
 764 * accessed. This mask is a parameter to the check() functions of the extensions
 765 */
 766static int check_chainloops(const struct ebt_entries *chain, struct ebt_cl_stack *cl_s,
 767			    unsigned int udc_cnt, unsigned int hooknr, char *base)
 768{
 769	int i, chain_nr = -1, pos = 0, nentries = chain->nentries, verdict;
 770	const struct ebt_entry *e = (struct ebt_entry *)chain->data;
 771	const struct ebt_entry_target *t;
 772
 773	while (pos < nentries || chain_nr != -1) {
 774		/* end of udc, go back one 'recursion' step */
 775		if (pos == nentries) {
 776			/* put back values of the time when this chain was called */
 777			e = cl_s[chain_nr].cs.e;
 778			if (cl_s[chain_nr].from != -1)
 779				nentries =
 780				cl_s[cl_s[chain_nr].from].cs.chaininfo->nentries;
 781			else
 782				nentries = chain->nentries;
 783			pos = cl_s[chain_nr].cs.n;
 784			/* make sure we won't see a loop that isn't one */
 785			cl_s[chain_nr].cs.n = 0;
 786			chain_nr = cl_s[chain_nr].from;
 787			if (pos == nentries)
 788				continue;
 789		}
 790		t = (struct ebt_entry_target *)
 791		   (((char *)e) + e->target_offset);
 792		if (strcmp(t->u.name, EBT_STANDARD_TARGET))
 793			goto letscontinue;
 794		if (e->target_offset + sizeof(struct ebt_standard_target) >
 795		   e->next_offset) {
 796			BUGPRINT("Standard target size too big\n");
 797			return -1;
 798		}
 799		verdict = ((struct ebt_standard_target *)t)->verdict;
 800		if (verdict >= 0) { /* jump to another chain */
 801			struct ebt_entries *hlp2 =
 802			   (struct ebt_entries *)(base + verdict);
 803			for (i = 0; i < udc_cnt; i++)
 804				if (hlp2 == cl_s[i].cs.chaininfo)
 805					break;
 806			/* bad destination or loop */
 807			if (i == udc_cnt) {
 808				BUGPRINT("bad destination\n");
 809				return -1;
 810			}
 811			if (cl_s[i].cs.n) {
 812				BUGPRINT("loop\n");
 813				return -1;
 814			}
 815			if (cl_s[i].hookmask & (1 << hooknr))
 816				goto letscontinue;
 817			/* this can't be 0, so the loop test is correct */
 818			cl_s[i].cs.n = pos + 1;
 819			pos = 0;
 820			cl_s[i].cs.e = ebt_next_entry(e);
 821			e = (struct ebt_entry *)(hlp2->data);
 822			nentries = hlp2->nentries;
 823			cl_s[i].from = chain_nr;
 824			chain_nr = i;
 825			/* this udc is accessible from the base chain for hooknr */
 826			cl_s[i].hookmask |= (1 << hooknr);
 827			continue;
 828		}
 829letscontinue:
 830		e = ebt_next_entry(e);
 831		pos++;
 832	}
 833	return 0;
 834}
 835
 836/* do the parsing of the table/chains/entries/matches/watchers/targets, heh */
 837static int translate_table(struct net *net, const char *name,
 838			   struct ebt_table_info *newinfo)
 839{
 840	unsigned int i, j, k, udc_cnt;
 841	int ret;
 842	struct ebt_cl_stack *cl_s = NULL; /* used in the checking for chain loops */
 843
 844	i = 0;
 845	while (i < NF_BR_NUMHOOKS && !newinfo->hook_entry[i])
 846		i++;
 847	if (i == NF_BR_NUMHOOKS) {
 848		BUGPRINT("No valid hooks specified\n");
 849		return -EINVAL;
 850	}
 851	if (newinfo->hook_entry[i] != (struct ebt_entries *)newinfo->entries) {
 852		BUGPRINT("Chains don't start at beginning\n");
 853		return -EINVAL;
 854	}
 855	/* make sure chains are ordered after each other in same order
 856	 * as their corresponding hooks
 857	 */
 858	for (j = i + 1; j < NF_BR_NUMHOOKS; j++) {
 859		if (!newinfo->hook_entry[j])
 860			continue;
 861		if (newinfo->hook_entry[j] <= newinfo->hook_entry[i]) {
 862			BUGPRINT("Hook order must be followed\n");
 863			return -EINVAL;
 864		}
 865		i = j;
 866	}
 867
 868	/* do some early checkings and initialize some things */
 869	i = 0; /* holds the expected nr. of entries for the chain */
 870	j = 0; /* holds the up to now counted entries for the chain */
 871	k = 0; /* holds the total nr. of entries, should equal
 872		* newinfo->nentries afterwards
 873		*/
 874	udc_cnt = 0; /* will hold the nr. of user defined chains (udc) */
 875	ret = EBT_ENTRY_ITERATE(newinfo->entries, newinfo->entries_size,
 876	   ebt_check_entry_size_and_hooks, newinfo,
 877	   &i, &j, &k, &udc_cnt);
 878
 879	if (ret != 0)
 880		return ret;
 881
 882	if (i != j) {
 883		BUGPRINT("nentries does not equal the nr of entries in the "
 884			 "(last) chain\n");
 885		return -EINVAL;
 886	}
 887	if (k != newinfo->nentries) {
 888		BUGPRINT("Total nentries is wrong\n");
 889		return -EINVAL;
 890	}
 891
 892	/* get the location of the udc, put them in an array
 893	 * while we're at it, allocate the chainstack
 894	 */
 895	if (udc_cnt) {
 896		/* this will get free'd in do_replace()/ebt_register_table()
 897		 * if an error occurs
 898		 */
 899		newinfo->chainstack =
 900			vmalloc(nr_cpu_ids * sizeof(*(newinfo->chainstack)));
 901		if (!newinfo->chainstack)
 902			return -ENOMEM;
 903		for_each_possible_cpu(i) {
 904			newinfo->chainstack[i] =
 905			  vmalloc(udc_cnt * sizeof(*(newinfo->chainstack[0])));
 906			if (!newinfo->chainstack[i]) {
 907				while (i)
 908					vfree(newinfo->chainstack[--i]);
 909				vfree(newinfo->chainstack);
 910				newinfo->chainstack = NULL;
 911				return -ENOMEM;
 912			}
 913		}
 914
 915		cl_s = vmalloc(udc_cnt * sizeof(*cl_s));
 916		if (!cl_s)
 917			return -ENOMEM;
 918		i = 0; /* the i'th udc */
 919		EBT_ENTRY_ITERATE(newinfo->entries, newinfo->entries_size,
 920		   ebt_get_udc_positions, newinfo, &i, cl_s);
 921		/* sanity check */
 922		if (i != udc_cnt) {
 923			BUGPRINT("i != udc_cnt\n");
 924			vfree(cl_s);
 925			return -EFAULT;
 926		}
 927	}
 928
 929	/* Check for loops */
 930	for (i = 0; i < NF_BR_NUMHOOKS; i++)
 931		if (newinfo->hook_entry[i])
 932			if (check_chainloops(newinfo->hook_entry[i],
 933			   cl_s, udc_cnt, i, newinfo->entries)) {
 934				vfree(cl_s);
 935				return -EINVAL;
 936			}
 937
 938	/* we now know the following (along with E=mc²):
 939	 *  - the nr of entries in each chain is right
 940	 *  - the size of the allocated space is right
 941	 *  - all valid hooks have a corresponding chain
 942	 *  - there are no loops
 943	 *  - wrong data can still be on the level of a single entry
 944	 *  - could be there are jumps to places that are not the
 945	 *    beginning of a chain. This can only occur in chains that
 946	 *    are not accessible from any base chains, so we don't care.
 947	 */
 948
 949	/* used to know what we need to clean up if something goes wrong */
 950	i = 0;
 951	ret = EBT_ENTRY_ITERATE(newinfo->entries, newinfo->entries_size,
 952	   ebt_check_entry, net, newinfo, name, &i, cl_s, udc_cnt);
 953	if (ret != 0) {
 954		EBT_ENTRY_ITERATE(newinfo->entries, newinfo->entries_size,
 955				  ebt_cleanup_entry, net, &i);
 956	}
 957	vfree(cl_s);
 958	return ret;
 959}
 960
 961/* called under write_lock */
 962static void get_counters(const struct ebt_counter *oldcounters,
 963			 struct ebt_counter *counters, unsigned int nentries)
 964{
 965	int i, cpu;
 966	struct ebt_counter *counter_base;
 967
 968	/* counters of cpu 0 */
 969	memcpy(counters, oldcounters,
 970	       sizeof(struct ebt_counter) * nentries);
 971
 972	/* add other counters to those of cpu 0 */
 973	for_each_possible_cpu(cpu) {
 974		if (cpu == 0)
 975			continue;
 976		counter_base = COUNTER_BASE(oldcounters, nentries, cpu);
 977		for (i = 0; i < nentries; i++) {
 978			counters[i].pcnt += counter_base[i].pcnt;
 979			counters[i].bcnt += counter_base[i].bcnt;
 980		}
 981	}
 982}
 983
 984static int do_replace_finish(struct net *net, struct ebt_replace *repl,
 985			      struct ebt_table_info *newinfo)
 986{
 987	int ret, i;
 988	struct ebt_counter *counterstmp = NULL;
 989	/* used to be able to unlock earlier */
 990	struct ebt_table_info *table;
 991	struct ebt_table *t;
 992
 993	/* the user wants counters back
 994	 * the check on the size is done later, when we have the lock
 995	 */
 996	if (repl->num_counters) {
 997		unsigned long size = repl->num_counters * sizeof(*counterstmp);
 998		counterstmp = vmalloc(size);
 999		if (!counterstmp)
1000			return -ENOMEM;
1001	}
1002
1003	newinfo->chainstack = NULL;
1004	ret = ebt_verify_pointers(repl, newinfo);
1005	if (ret != 0)
1006		goto free_counterstmp;
1007
1008	ret = translate_table(net, repl->name, newinfo);
1009
1010	if (ret != 0)
1011		goto free_counterstmp;
1012
1013	t = find_table_lock(net, repl->name, &ret, &ebt_mutex);
1014	if (!t) {
1015		ret = -ENOENT;
1016		goto free_iterate;
1017	}
1018
1019	/* the table doesn't like it */
1020	if (t->check && (ret = t->check(newinfo, repl->valid_hooks)))
1021		goto free_unlock;
1022
1023	if (repl->num_counters && repl->num_counters != t->private->nentries) {
1024		BUGPRINT("Wrong nr. of counters requested\n");
1025		ret = -EINVAL;
1026		goto free_unlock;
1027	}
1028
1029	/* we have the mutex lock, so no danger in reading this pointer */
1030	table = t->private;
1031	/* make sure the table can only be rmmod'ed if it contains no rules */
1032	if (!table->nentries && newinfo->nentries && !try_module_get(t->me)) {
1033		ret = -ENOENT;
1034		goto free_unlock;
1035	} else if (table->nentries && !newinfo->nentries)
1036		module_put(t->me);
1037	/* we need an atomic snapshot of the counters */
1038	write_lock_bh(&t->lock);
1039	if (repl->num_counters)
1040		get_counters(t->private->counters, counterstmp,
1041		   t->private->nentries);
1042
1043	t->private = newinfo;
1044	write_unlock_bh(&t->lock);
1045	mutex_unlock(&ebt_mutex);
1046	/* so, a user can change the chains while having messed up her counter
1047	 * allocation. Only reason why this is done is because this way the lock
1048	 * is held only once, while this doesn't bring the kernel into a
1049	 * dangerous state.
1050	 */
1051	if (repl->num_counters &&
1052	   copy_to_user(repl->counters, counterstmp,
1053	   repl->num_counters * sizeof(struct ebt_counter))) {
1054		/* Silent error, can't fail, new table is already in place */
1055		net_warn_ratelimited("ebtables: counters copy to user failed while replacing table\n");
1056	}
1057
1058	/* decrease module count and free resources */
1059	EBT_ENTRY_ITERATE(table->entries, table->entries_size,
1060			  ebt_cleanup_entry, net, NULL);
1061
1062	vfree(table->entries);
1063	if (table->chainstack) {
1064		for_each_possible_cpu(i)
1065			vfree(table->chainstack[i]);
1066		vfree(table->chainstack);
1067	}
1068	vfree(table);
1069
1070	vfree(counterstmp);
1071
1072#ifdef CONFIG_AUDIT
1073	if (audit_enabled) {
1074		struct audit_buffer *ab;
1075
1076		ab = audit_log_start(current->audit_context, GFP_KERNEL,
1077				     AUDIT_NETFILTER_CFG);
1078		if (ab) {
1079			audit_log_format(ab, "table=%s family=%u entries=%u",
1080					 repl->name, AF_BRIDGE, repl->nentries);
1081			audit_log_end(ab);
1082		}
1083	}
1084#endif
1085	return ret;
1086
1087free_unlock:
1088	mutex_unlock(&ebt_mutex);
1089free_iterate:
1090	EBT_ENTRY_ITERATE(newinfo->entries, newinfo->entries_size,
1091			  ebt_cleanup_entry, net, NULL);
1092free_counterstmp:
1093	vfree(counterstmp);
1094	/* can be initialized in translate_table() */
1095	if (newinfo->chainstack) {
1096		for_each_possible_cpu(i)
1097			vfree(newinfo->chainstack[i]);
1098		vfree(newinfo->chainstack);
1099	}
1100	return ret;
1101}
1102
1103/* replace the table */
1104static int do_replace(struct net *net, const void __user *user,
1105		      unsigned int len)
1106{
1107	int ret, countersize;
1108	struct ebt_table_info *newinfo;
1109	struct ebt_replace tmp;
1110
1111	if (copy_from_user(&tmp, user, sizeof(tmp)) != 0)
1112		return -EFAULT;
1113
1114	if (len != sizeof(tmp) + tmp.entries_size) {
1115		BUGPRINT("Wrong len argument\n");
1116		return -EINVAL;
1117	}
1118
1119	if (tmp.entries_size == 0) {
1120		BUGPRINT("Entries_size never zero\n");
1121		return -EINVAL;
1122	}
1123	/* overflow check */
1124	if (tmp.nentries >= ((INT_MAX - sizeof(struct ebt_table_info)) /
1125			NR_CPUS - SMP_CACHE_BYTES) / sizeof(struct ebt_counter))
1126		return -ENOMEM;
1127	if (tmp.num_counters >= INT_MAX / sizeof(struct ebt_counter))
1128		return -ENOMEM;
1129
1130	tmp.name[sizeof(tmp.name) - 1] = 0;
1131
1132	countersize = COUNTER_OFFSET(tmp.nentries) * nr_cpu_ids;
1133	newinfo = vmalloc(sizeof(*newinfo) + countersize);
1134	if (!newinfo)
1135		return -ENOMEM;
1136
1137	if (countersize)
1138		memset(newinfo->counters, 0, countersize);
1139
1140	newinfo->entries = vmalloc(tmp.entries_size);
1141	if (!newinfo->entries) {
1142		ret = -ENOMEM;
1143		goto free_newinfo;
1144	}
1145	if (copy_from_user(
1146	   newinfo->entries, tmp.entries, tmp.entries_size) != 0) {
1147		BUGPRINT("Couldn't copy entries from userspace\n");
1148		ret = -EFAULT;
1149		goto free_entries;
1150	}
1151
1152	ret = do_replace_finish(net, &tmp, newinfo);
1153	if (ret == 0)
1154		return ret;
1155free_entries:
1156	vfree(newinfo->entries);
1157free_newinfo:
1158	vfree(newinfo);
1159	return ret;
1160}
1161
1162struct ebt_table *
1163ebt_register_table(struct net *net, const struct ebt_table *input_table)
1164{
1165	struct ebt_table_info *newinfo;
1166	struct ebt_table *t, *table;
1167	struct ebt_replace_kernel *repl;
1168	int ret, i, countersize;
1169	void *p;
1170
1171	if (input_table == NULL || (repl = input_table->table) == NULL ||
1172	    repl->entries == NULL || repl->entries_size == 0 ||
1173	    repl->counters != NULL || input_table->private != NULL) {
1174		BUGPRINT("Bad table data for ebt_register_table!!!\n");
1175		return ERR_PTR(-EINVAL);
1176	}
1177
1178	/* Don't add one table to multiple lists. */
1179	table = kmemdup(input_table, sizeof(struct ebt_table), GFP_KERNEL);
1180	if (!table) {
1181		ret = -ENOMEM;
1182		goto out;
1183	}
1184
1185	countersize = COUNTER_OFFSET(repl->nentries) * nr_cpu_ids;
1186	newinfo = vmalloc(sizeof(*newinfo) + countersize);
1187	ret = -ENOMEM;
1188	if (!newinfo)
1189		goto free_table;
1190
1191	p = vmalloc(repl->entries_size);
1192	if (!p)
1193		goto free_newinfo;
1194
1195	memcpy(p, repl->entries, repl->entries_size);
1196	newinfo->entries = p;
1197
1198	newinfo->entries_size = repl->entries_size;
1199	newinfo->nentries = repl->nentries;
1200
1201	if (countersize)
1202		memset(newinfo->counters, 0, countersize);
1203
1204	/* fill in newinfo and parse the entries */
1205	newinfo->chainstack = NULL;
1206	for (i = 0; i < NF_BR_NUMHOOKS; i++) {
1207		if ((repl->valid_hooks & (1 << i)) == 0)
1208			newinfo->hook_entry[i] = NULL;
1209		else
1210			newinfo->hook_entry[i] = p +
1211				((char *)repl->hook_entry[i] - repl->entries);
1212	}
1213	ret = translate_table(net, repl->name, newinfo);
1214	if (ret != 0) {
1215		BUGPRINT("Translate_table failed\n");
1216		goto free_chainstack;
1217	}
1218
1219	if (table->check && table->check(newinfo, table->valid_hooks)) {
1220		BUGPRINT("The table doesn't like its own initial data, lol\n");
1221		ret = -EINVAL;
1222		goto free_chainstack;
1223	}
1224
1225	table->private = newinfo;
1226	rwlock_init(&table->lock);
1227	mutex_lock(&ebt_mutex);
1228	list_for_each_entry(t, &net->xt.tables[NFPROTO_BRIDGE], list) {
1229		if (strcmp(t->name, table->name) == 0) {
1230			ret = -EEXIST;
1231			BUGPRINT("Table name already exists\n");
1232			goto free_unlock;
1233		}
1234	}
1235
1236	/* Hold a reference count if the chains aren't empty */
1237	if (newinfo->nentries && !try_module_get(table->me)) {
1238		ret = -ENOENT;
1239		goto free_unlock;
1240	}
1241	list_add(&table->list, &net->xt.tables[NFPROTO_BRIDGE]);
1242	mutex_unlock(&ebt_mutex);
1243	return table;
1244free_unlock:
1245	mutex_unlock(&ebt_mutex);
1246free_chainstack:
1247	if (newinfo->chainstack) {
1248		for_each_possible_cpu(i)
1249			vfree(newinfo->chainstack[i]);
1250		vfree(newinfo->chainstack);
1251	}
1252	vfree(newinfo->entries);
1253free_newinfo:
1254	vfree(newinfo);
1255free_table:
1256	kfree(table);
1257out:
1258	return ERR_PTR(ret);
1259}
1260
1261void ebt_unregister_table(struct net *net, struct ebt_table *table)
1262{
1263	int i;
1264
1265	if (!table) {
1266		BUGPRINT("Request to unregister NULL table!!!\n");
1267		return;
1268	}
1269	mutex_lock(&ebt_mutex);
1270	list_del(&table->list);
1271	mutex_unlock(&ebt_mutex);
1272	EBT_ENTRY_ITERATE(table->private->entries, table->private->entries_size,
1273			  ebt_cleanup_entry, net, NULL);
1274	if (table->private->nentries)
1275		module_put(table->me);
1276	vfree(table->private->entries);
1277	if (table->private->chainstack) {
1278		for_each_possible_cpu(i)
1279			vfree(table->private->chainstack[i]);
1280		vfree(table->private->chainstack);
1281	}
1282	vfree(table->private);
1283	kfree(table);
1284}
1285
1286/* userspace just supplied us with counters */
1287static int do_update_counters(struct net *net, const char *name,
1288				struct ebt_counter __user *counters,
1289				unsigned int num_counters,
1290				const void __user *user, unsigned int len)
1291{
1292	int i, ret;
1293	struct ebt_counter *tmp;
1294	struct ebt_table *t;
1295
1296	if (num_counters == 0)
1297		return -EINVAL;
1298
1299	tmp = vmalloc(num_counters * sizeof(*tmp));
1300	if (!tmp)
1301		return -ENOMEM;
1302
1303	t = find_table_lock(net, name, &ret, &ebt_mutex);
1304	if (!t)
1305		goto free_tmp;
1306
1307	if (num_counters != t->private->nentries) {
1308		BUGPRINT("Wrong nr of counters\n");
1309		ret = -EINVAL;
1310		goto unlock_mutex;
1311	}
1312
1313	if (copy_from_user(tmp, counters, num_counters * sizeof(*counters))) {
1314		ret = -EFAULT;
1315		goto unlock_mutex;
1316	}
1317
1318	/* we want an atomic add of the counters */
1319	write_lock_bh(&t->lock);
1320
1321	/* we add to the counters of the first cpu */
1322	for (i = 0; i < num_counters; i++) {
1323		t->private->counters[i].pcnt += tmp[i].pcnt;
1324		t->private->counters[i].bcnt += tmp[i].bcnt;
1325	}
1326
1327	write_unlock_bh(&t->lock);
1328	ret = 0;
1329unlock_mutex:
1330	mutex_unlock(&ebt_mutex);
1331free_tmp:
1332	vfree(tmp);
1333	return ret;
1334}
1335
1336static int update_counters(struct net *net, const void __user *user,
1337			    unsigned int len)
1338{
1339	struct ebt_replace hlp;
1340
1341	if (copy_from_user(&hlp, user, sizeof(hlp)))
1342		return -EFAULT;
1343
1344	if (len != sizeof(hlp) + hlp.num_counters * sizeof(struct ebt_counter))
1345		return -EINVAL;
1346
1347	return do_update_counters(net, hlp.name, hlp.counters,
1348				hlp.num_counters, user, len);
1349}
1350
1351static inline int ebt_make_matchname(const struct ebt_entry_match *m,
1352				     const char *base, char __user *ubase)
1353{
1354	char __user *hlp = ubase + ((char *)m - base);
1355	char name[EBT_FUNCTION_MAXNAMELEN] = {};
1356
1357	/* ebtables expects 32 bytes long names but xt_match names are 29 bytes
1358	 * long. Copy 29 bytes and fill remaining bytes with zeroes.
1359	 */
1360	strlcpy(name, m->u.match->name, sizeof(name));
1361	if (copy_to_user(hlp, name, EBT_FUNCTION_MAXNAMELEN))
1362		return -EFAULT;
1363	return 0;
1364}
1365
1366static inline int ebt_make_watchername(const struct ebt_entry_watcher *w,
1367				       const char *base, char __user *ubase)
1368{
1369	char __user *hlp = ubase + ((char *)w - base);
1370	char name[EBT_FUNCTION_MAXNAMELEN] = {};
1371
1372	strlcpy(name, w->u.watcher->name, sizeof(name));
1373	if (copy_to_user(hlp, name, EBT_FUNCTION_MAXNAMELEN))
1374		return -EFAULT;
1375	return 0;
1376}
1377
1378static inline int ebt_make_names(struct ebt_entry *e, const char *base,
1379				 char __user *ubase)
1380{
1381	int ret;
1382	char __user *hlp;
1383	const struct ebt_entry_target *t;
1384	char name[EBT_FUNCTION_MAXNAMELEN] = {};
1385
1386	if (e->bitmask == 0)
1387		return 0;
1388
1389	hlp = ubase + (((char *)e + e->target_offset) - base);
1390	t = (struct ebt_entry_target *)(((char *)e) + e->target_offset);
1391
1392	ret = EBT_MATCH_ITERATE(e, ebt_make_matchname, base, ubase);
1393	if (ret != 0)
1394		return ret;
1395	ret = EBT_WATCHER_ITERATE(e, ebt_make_watchername, base, ubase);
1396	if (ret != 0)
1397		return ret;
1398	strlcpy(name, t->u.target->name, sizeof(name));
1399	if (copy_to_user(hlp, name, EBT_FUNCTION_MAXNAMELEN))
1400		return -EFAULT;
1401	return 0;
1402}
1403
1404static int copy_counters_to_user(struct ebt_table *t,
1405				 const struct ebt_counter *oldcounters,
1406				 void __user *user, unsigned int num_counters,
1407				 unsigned int nentries)
1408{
1409	struct ebt_counter *counterstmp;
1410	int ret = 0;
1411
1412	/* userspace might not need the counters */
1413	if (num_counters == 0)
1414		return 0;
1415
1416	if (num_counters != nentries) {
1417		BUGPRINT("Num_counters wrong\n");
1418		return -EINVAL;
1419	}
1420
1421	counterstmp = vmalloc(nentries * sizeof(*counterstmp));
1422	if (!counterstmp)
1423		return -ENOMEM;
1424
1425	write_lock_bh(&t->lock);
1426	get_counters(oldcounters, counterstmp, nentries);
1427	write_unlock_bh(&t->lock);
1428
1429	if (copy_to_user(user, counterstmp,
1430	   nentries * sizeof(struct ebt_counter)))
1431		ret = -EFAULT;
1432	vfree(counterstmp);
1433	return ret;
1434}
1435
1436/* called with ebt_mutex locked */
1437static int copy_everything_to_user(struct ebt_table *t, void __user *user,
1438				   const int *len, int cmd)
1439{
1440	struct ebt_replace tmp;
1441	const struct ebt_counter *oldcounters;
1442	unsigned int entries_size, nentries;
1443	int ret;
1444	char *entries;
1445
1446	if (cmd == EBT_SO_GET_ENTRIES) {
1447		entries_size = t->private->entries_size;
1448		nentries = t->private->nentries;
1449		entries = t->private->entries;
1450		oldcounters = t->private->counters;
1451	} else {
1452		entries_size = t->table->entries_size;
1453		nentries = t->table->nentries;
1454		entries = t->table->entries;
1455		oldcounters = t->table->counters;
1456	}
1457
1458	if (copy_from_user(&tmp, user, sizeof(tmp)))
1459		return -EFAULT;
1460
1461	if (*len != sizeof(struct ebt_replace) + entries_size +
1462	   (tmp.num_counters ? nentries * sizeof(struct ebt_counter) : 0))
1463		return -EINVAL;
1464
1465	if (tmp.nentries != nentries) {
1466		BUGPRINT("Nentries wrong\n");
1467		return -EINVAL;
1468	}
1469
1470	if (tmp.entries_size != entries_size) {
1471		BUGPRINT("Wrong size\n");
1472		return -EINVAL;
1473	}
1474
1475	ret = copy_counters_to_user(t, oldcounters, tmp.counters,
1476					tmp.num_counters, nentries);
1477	if (ret)
1478		return ret;
1479
1480	if (copy_to_user(tmp.entries, entries, entries_size)) {
1481		BUGPRINT("Couldn't copy entries to userspace\n");
1482		return -EFAULT;
1483	}
1484	/* set the match/watcher/target names right */
1485	return EBT_ENTRY_ITERATE(entries, entries_size,
1486	   ebt_make_names, entries, tmp.entries);
1487}
1488
1489static int do_ebt_set_ctl(struct sock *sk,
1490	int cmd, void __user *user, unsigned int len)
1491{
1492	int ret;
1493	struct net *net = sock_net(sk);
1494
1495	if (!ns_capable(net->user_ns, CAP_NET_ADMIN))
1496		return -EPERM;
1497
1498	switch (cmd) {
1499	case EBT_SO_SET_ENTRIES:
1500		ret = do_replace(net, user, len);
1501		break;
1502	case EBT_SO_SET_COUNTERS:
1503		ret = update_counters(net, user, len);
1504		break;
1505	default:
1506		ret = -EINVAL;
1507	}
1508	return ret;
1509}
1510
1511static int do_ebt_get_ctl(struct sock *sk, int cmd, void __user *user, int *len)
1512{
1513	int ret;
1514	struct ebt_replace tmp;
1515	struct ebt_table *t;
1516	struct net *net = sock_net(sk);
1517
1518	if (!ns_capable(net->user_ns, CAP_NET_ADMIN))
1519		return -EPERM;
1520
1521	if (copy_from_user(&tmp, user, sizeof(tmp)))
1522		return -EFAULT;
1523
1524	t = find_table_lock(net, tmp.name, &ret, &ebt_mutex);
1525	if (!t)
1526		return ret;
1527
1528	switch (cmd) {
1529	case EBT_SO_GET_INFO:
1530	case EBT_SO_GET_INIT_INFO:
1531		if (*len != sizeof(struct ebt_replace)) {
1532			ret = -EINVAL;
1533			mutex_unlock(&ebt_mutex);
1534			break;
1535		}
1536		if (cmd == EBT_SO_GET_INFO) {
1537			tmp.nentries = t->private->nentries;
1538			tmp.entries_size = t->private->entries_size;
1539			tmp.valid_hooks = t->valid_hooks;
1540		} else {
1541			tmp.nentries = t->table->nentries;
1542			tmp.entries_size = t->table->entries_size;
1543			tmp.valid_hooks = t->table->valid_hooks;
1544		}
1545		mutex_unlock(&ebt_mutex);
1546		if (copy_to_user(user, &tmp, *len) != 0) {
1547			BUGPRINT("c2u Didn't work\n");
1548			ret = -EFAULT;
1549			break;
1550		}
1551		ret = 0;
1552		break;
1553
1554	case EBT_SO_GET_ENTRIES:
1555	case EBT_SO_GET_INIT_ENTRIES:
1556		ret = copy_everything_to_user(t, user, len, cmd);
1557		mutex_unlock(&ebt_mutex);
1558		break;
1559
1560	default:
1561		mutex_unlock(&ebt_mutex);
1562		ret = -EINVAL;
1563	}
1564
1565	return ret;
1566}
1567
1568#ifdef CONFIG_COMPAT
1569/* 32 bit-userspace compatibility definitions. */
1570struct compat_ebt_replace {
1571	char name[EBT_TABLE_MAXNAMELEN];
1572	compat_uint_t valid_hooks;
1573	compat_uint_t nentries;
1574	compat_uint_t entries_size;
1575	/* start of the chains */
1576	compat_uptr_t hook_entry[NF_BR_NUMHOOKS];
1577	/* nr of counters userspace expects back */
1578	compat_uint_t num_counters;
1579	/* where the kernel will put the old counters. */
1580	compat_uptr_t counters;
1581	compat_uptr_t entries;
1582};
1583
1584/* struct ebt_entry_match, _target and _watcher have same layout */
1585struct compat_ebt_entry_mwt {
1586	union {
1587		char name[EBT_FUNCTION_MAXNAMELEN];
1588		compat_uptr_t ptr;
1589	} u;
1590	compat_uint_t match_size;
1591	compat_uint_t data[0];
1592};
1593
1594/* account for possible padding between match_size and ->data */
1595static int ebt_compat_entry_padsize(void)
1596{
1597	BUILD_BUG_ON(XT_ALIGN(sizeof(struct ebt_entry_match)) <
1598			COMPAT_XT_ALIGN(sizeof(struct compat_ebt_entry_mwt)));
1599	return (int) XT_ALIGN(sizeof(struct ebt_entry_match)) -
1600			COMPAT_XT_ALIGN(sizeof(struct compat_ebt_entry_mwt));
1601}
1602
1603static int ebt_compat_match_offset(const struct xt_match *match,
1604				   unsigned int userlen)
1605{
1606	/* ebt_among needs special handling. The kernel .matchsize is
1607	 * set to -1 at registration time; at runtime an EBT_ALIGN()ed
1608	 * value is expected.
1609	 * Example: userspace sends 4500, ebt_among.c wants 4504.
1610	 */
1611	if (unlikely(match->matchsize == -1))
1612		return XT_ALIGN(userlen) - COMPAT_XT_ALIGN(userlen);
1613	return xt_compat_match_offset(match);
1614}
1615
1616static int compat_match_to_user(struct ebt_entry_match *m, void __user **dstptr,
1617				unsigned int *size)
1618{
1619	const struct xt_match *match = m->u.match;
1620	struct compat_ebt_entry_mwt __user *cm = *dstptr;
1621	int off = ebt_compat_match_offset(match, m->match_size);
1622	compat_uint_t msize = m->match_size - off;
1623
1624	BUG_ON(off >= m->match_size);
1625
1626	if (copy_to_user(cm->u.name, match->name,
1627	    strlen(match->name) + 1) || put_user(msize, &cm->match_size))
1628		return -EFAULT;
1629
1630	if (match->compat_to_user) {
1631		if (match->compat_to_user(cm->data, m->data))
1632			return -EFAULT;
1633	} else if (copy_to_user(cm->data, m->data, msize))
1634			return -EFAULT;
1635
1636	*size -= ebt_compat_entry_padsize() + off;
1637	*dstptr = cm->data;
1638	*dstptr += msize;
1639	return 0;
1640}
1641
1642static int compat_target_to_user(struct ebt_entry_target *t,
1643				 void __user **dstptr,
1644				 unsigned int *size)
1645{
1646	const struct xt_target *target = t->u.target;
1647	struct compat_ebt_entry_mwt __user *cm = *dstptr;
1648	int off = xt_compat_target_offset(target);
1649	compat_uint_t tsize = t->target_size - off;
1650
1651	BUG_ON(off >= t->target_size);
1652
1653	if (copy_to_user(cm->u.name, target->name,
1654	    strlen(target->name) + 1) || put_user(tsize, &cm->match_size))
1655		return -EFAULT;
1656
1657	if (target->compat_to_user) {
1658		if (target->compat_to_user(cm->data, t->data))
1659			return -EFAULT;
1660	} else if (copy_to_user(cm->data, t->data, tsize))
1661		return -EFAULT;
1662
1663	*size -= ebt_compat_entry_padsize() + off;
1664	*dstptr = cm->data;
1665	*dstptr += tsize;
1666	return 0;
1667}
1668
1669static int compat_watcher_to_user(struct ebt_entry_watcher *w,
1670				  void __user **dstptr,
1671				  unsigned int *size)
1672{
1673	return compat_target_to_user((struct ebt_entry_target *)w,
1674							dstptr, size);
1675}
1676
1677static int compat_copy_entry_to_user(struct ebt_entry *e, void __user **dstptr,
1678				unsigned int *size)
1679{
1680	struct ebt_entry_target *t;
1681	struct ebt_entry __user *ce;
1682	u32 watchers_offset, target_offset, next_offset;
1683	compat_uint_t origsize;
1684	int ret;
1685
1686	if (e->bitmask == 0) {
1687		if (*size < sizeof(struct ebt_entries))
1688			return -EINVAL;
1689		if (copy_to_user(*dstptr, e, sizeof(struct ebt_entries)))
1690			return -EFAULT;
1691
1692		*dstptr += sizeof(struct ebt_entries);
1693		*size -= sizeof(struct ebt_entries);
1694		return 0;
1695	}
1696
1697	if (*size < sizeof(*ce))
1698		return -EINVAL;
1699
1700	ce = (struct ebt_entry __user *)*dstptr;
1701	if (copy_to_user(ce, e, sizeof(*ce)))
1702		return -EFAULT;
1703
1704	origsize = *size;
1705	*dstptr += sizeof(*ce);
1706
1707	ret = EBT_MATCH_ITERATE(e, compat_match_to_user, dstptr, size);
1708	if (ret)
1709		return ret;
1710	watchers_offset = e->watchers_offset - (origsize - *size);
1711
1712	ret = EBT_WATCHER_ITERATE(e, compat_watcher_to_user, dstptr, size);
1713	if (ret)
1714		return ret;
1715	target_offset = e->target_offset - (origsize - *size);
1716
1717	t = (struct ebt_entry_target *) ((char *) e + e->target_offset);
1718
1719	ret = compat_target_to_user(t, dstptr, size);
1720	if (ret)
1721		return ret;
1722	next_offset = e->next_offset - (origsize - *size);
1723
1724	if (put_user(watchers_offset, &ce->watchers_offset) ||
1725	    put_user(target_offset, &ce->target_offset) ||
1726	    put_user(next_offset, &ce->next_offset))
1727		return -EFAULT;
1728
1729	*size -= sizeof(*ce);
1730	return 0;
1731}
1732
1733static int compat_calc_match(struct ebt_entry_match *m, int *off)
1734{
1735	*off += ebt_compat_match_offset(m->u.match, m->match_size);
1736	*off += ebt_compat_entry_padsize();
1737	return 0;
1738}
1739
1740static int compat_calc_watcher(struct ebt_entry_watcher *w, int *off)
1741{
1742	*off += xt_compat_target_offset(w->u.watcher);
1743	*off += ebt_compat_entry_padsize();
1744	return 0;
1745}
1746
1747static int compat_calc_entry(const struct ebt_entry *e,
1748			     const struct ebt_table_info *info,
1749			     const void *base,
1750			     struct compat_ebt_replace *newinfo)
1751{
1752	const struct ebt_entry_target *t;
1753	unsigned int entry_offset;
1754	int off, ret, i;
1755
1756	if (e->bitmask == 0)
1757		return 0;
1758
1759	off = 0;
1760	entry_offset = (void *)e - base;
1761
1762	EBT_MATCH_ITERATE(e, compat_calc_match, &off);
1763	EBT_WATCHER_ITERATE(e, compat_calc_watcher, &off);
1764
1765	t = (const struct ebt_entry_target *) ((char *) e + e->target_offset);
1766
1767	off += xt_compat_target_offset(t->u.target);
1768	off += ebt_compat_entry_padsize();
1769
1770	newinfo->entries_size -= off;
1771
1772	ret = xt_compat_add_offset(NFPROTO_BRIDGE, entry_offset, off);
1773	if (ret)
1774		return ret;
1775
1776	for (i = 0; i < NF_BR_NUMHOOKS; i++) {
1777		const void *hookptr = info->hook_entry[i];
1778		if (info->hook_entry[i] &&
1779		    (e < (struct ebt_entry *)(base - hookptr))) {
1780			newinfo->hook_entry[i] -= off;
1781			pr_debug("0x%08X -> 0x%08X\n",
1782					newinfo->hook_entry[i] + off,
1783					newinfo->hook_entry[i]);
1784		}
1785	}
1786
1787	return 0;
1788}
1789
1790
1791static int compat_table_info(const struct ebt_table_info *info,
1792			     struct compat_ebt_replace *newinfo)
1793{
1794	unsigned int size = info->entries_size;
1795	const void *entries = info->entries;
1796
1797	newinfo->entries_size = size;
1798
1799	xt_compat_init_offsets(NFPROTO_BRIDGE, info->nentries);
1800	return EBT_ENTRY_ITERATE(entries, size, compat_calc_entry, info,
1801							entries, newinfo);
1802}
1803
1804static int compat_copy_everything_to_user(struct ebt_table *t,
1805					  void __user *user, int *len, int cmd)
1806{
1807	struct compat_ebt_replace repl, tmp;
1808	struct ebt_counter *oldcounters;
1809	struct ebt_table_info tinfo;
1810	int ret;
1811	void __user *pos;
1812
1813	memset(&tinfo, 0, sizeof(tinfo));
1814
1815	if (cmd == EBT_SO_GET_ENTRIES) {
1816		tinfo.entries_size = t->private->entries_size;
1817		tinfo.nentries = t->private->nentries;
1818		tinfo.entries = t->private->entries;
1819		oldcounters = t->private->counters;
1820	} else {
1821		tinfo.entries_size = t->table->entries_size;
1822		tinfo.nentries = t->table->nentries;
1823		tinfo.entries = t->table->entries;
1824		oldcounters = t->table->counters;
1825	}
1826
1827	if (copy_from_user(&tmp, user, sizeof(tmp)))
1828		return -EFAULT;
1829
1830	if (tmp.nentries != tinfo.nentries ||
1831	   (tmp.num_counters && tmp.num_counters != tinfo.nentries))
1832		return -EINVAL;
1833
1834	memcpy(&repl, &tmp, sizeof(repl));
1835	if (cmd == EBT_SO_GET_ENTRIES)
1836		ret = compat_table_info(t->private, &repl);
1837	else
1838		ret = compat_table_info(&tinfo, &repl);
1839	if (ret)
1840		return ret;
1841
1842	if (*len != sizeof(tmp) + repl.entries_size +
1843	   (tmp.num_counters? tinfo.nentries * sizeof(struct ebt_counter): 0)) {
1844		pr_err("wrong size: *len %d, entries_size %u, replsz %d\n",
1845				*len, tinfo.entries_size, repl.entries_size);
1846		return -EINVAL;
1847	}
1848
1849	/* userspace might not need the counters */
1850	ret = copy_counters_to_user(t, oldcounters, compat_ptr(tmp.counters),
1851					tmp.num_counters, tinfo.nentries);
1852	if (ret)
1853		return ret;
1854
1855	pos = compat_ptr(tmp.entries);
1856	return EBT_ENTRY_ITERATE(tinfo.entries, tinfo.entries_size,
1857			compat_copy_entry_to_user, &pos, &tmp.entries_size);
1858}
1859
1860struct ebt_entries_buf_state {
1861	char *buf_kern_start;	/* kernel buffer to copy (translated) data to */
1862	u32 buf_kern_len;	/* total size of kernel buffer */
1863	u32 buf_kern_offset;	/* amount of data copied so far */
1864	u32 buf_user_offset;	/* read position in userspace buffer */
1865};
1866
1867static int ebt_buf_count(struct ebt_entries_buf_state *state, unsigned int sz)
1868{
1869	state->buf_kern_offset += sz;
1870	return state->buf_kern_offset >= sz ? 0 : -EINVAL;
1871}
1872
1873static int ebt_buf_add(struct ebt_entries_buf_state *state,
1874		       void *data, unsigned int sz)
1875{
1876	if (state->buf_kern_start == NULL)
1877		goto count_only;
1878
1879	BUG_ON(state->buf_kern_offset + sz > state->buf_kern_len);
1880
1881	memcpy(state->buf_kern_start + state->buf_kern_offset, data, sz);
1882
1883 count_only:
1884	state->buf_user_offset += sz;
1885	return ebt_buf_count(state, sz);
1886}
1887
1888static int ebt_buf_add_pad(struct ebt_entries_buf_state *state, unsigned int sz)
1889{
1890	char *b = state->buf_kern_start;
1891
1892	BUG_ON(b && state->buf_kern_offset > state->buf_kern_len);
1893
1894	if (b != NULL && sz > 0)
1895		memset(b + state->buf_kern_offset, 0, sz);
1896	/* do not adjust ->buf_user_offset here, we added kernel-side padding */
1897	return ebt_buf_count(state, sz);
1898}
1899
1900enum compat_mwt {
1901	EBT_COMPAT_MATCH,
1902	EBT_COMPAT_WATCHER,
1903	EBT_COMPAT_TARGET,
1904};
1905
1906static int compat_mtw_from_user(struct compat_ebt_entry_mwt *mwt,
1907				enum compat_mwt compat_mwt,
1908				struct ebt_entries_buf_state *state,
1909				const unsigned char *base)
1910{
1911	char name[EBT_FUNCTION_MAXNAMELEN];
1912	struct xt_match *match;
1913	struct xt_target *wt;
1914	void *dst = NULL;
1915	int off, pad = 0;
1916	unsigned int size_kern, match_size = mwt->match_size;
1917
1918	strlcpy(name, mwt->u.name, sizeof(name));
1919
1920	if (state->buf_kern_start)
1921		dst = state->buf_kern_start + state->buf_kern_offset;
1922
1923	switch (compat_mwt) {
1924	case EBT_COMPAT_MATCH:
1925		match = xt_request_find_match(NFPROTO_BRIDGE, name, 0);
1926		if (IS_ERR(match))
1927			return PTR_ERR(match);
1928
1929		off = ebt_compat_match_offset(match, match_size);
1930		if (dst) {
1931			if (match->compat_from_user)
1932				match->compat_from_user(dst, mwt->data);
1933			else
1934				memcpy(dst, mwt->data, match_size);
1935		}
1936
1937		size_kern = match->matchsize;
1938		if (unlikely(size_kern == -1))
1939			size_kern = match_size;
1940		module_put(match->me);
1941		break;
1942	case EBT_COMPAT_WATCHER: /* fallthrough */
1943	case EBT_COMPAT_TARGET:
1944		wt = xt_request_find_target(NFPROTO_BRIDGE, name, 0);
1945		if (IS_ERR(wt))
1946			return PTR_ERR(wt);
1947		off = xt_compat_target_offset(wt);
1948
1949		if (dst) {
1950			if (wt->compat_from_user)
1951				wt->compat_from_user(dst, mwt->data);
1952			else
1953				memcpy(dst, mwt->data, match_size);
1954		}
1955
1956		size_kern = wt->targetsize;
1957		module_put(wt->me);
1958		break;
1959
1960	default:
1961		return -EINVAL;
1962	}
1963
1964	state->buf_kern_offset += match_size + off;
1965	state->buf_user_offset += match_size;
1966	pad = XT_ALIGN(size_kern) - size_kern;
1967
1968	if (pad > 0 && dst) {
1969		BUG_ON(state->buf_kern_len <= pad);
1970		BUG_ON(state->buf_kern_offset - (match_size + off) + size_kern > state->buf_kern_len - pad);
1971		memset(dst + size_kern, 0, pad);
1972	}
1973	return off + match_size;
1974}
1975
1976/* return size of all matches, watchers or target, including necessary
1977 * alignment and padding.
1978 */
1979static int ebt_size_mwt(struct compat_ebt_entry_mwt *match32,
1980			unsigned int size_left, enum compat_mwt type,
1981			struct ebt_entries_buf_state *state, const void *base)
1982{
1983	int growth = 0;
1984	char *buf;
1985
1986	if (size_left == 0)
1987		return 0;
1988
1989	buf = (char *) match32;
1990
1991	while (size_left >= sizeof(*match32)) {
1992		struct ebt_entry_match *match_kern;
1993		int ret;
1994
1995		match_kern = (struct ebt_entry_match *) state->buf_kern_start;
1996		if (match_kern) {
1997			char *tmp;
1998			tmp = state->buf_kern_start + state->buf_kern_offset;
1999			match_kern = (struct ebt_entry_match *) tmp;
2000		}
2001		ret = ebt_buf_add(state, buf, sizeof(*match32));
2002		if (ret < 0)
2003			return ret;
2004		size_left -= sizeof(*match32);
2005
2006		/* add padding before match->data (if any) */
2007		ret = ebt_buf_add_pad(state, ebt_compat_entry_padsize());
2008		if (ret < 0)
2009			return ret;
2010
2011		if (match32->match_size > size_left)
2012			return -EINVAL;
2013
2014		size_left -= match32->match_size;
2015
2016		ret = compat_mtw_from_user(match32, type, state, base);
2017		if (ret < 0)
2018			return ret;
2019
2020		BUG_ON(ret < match32->match_size);
2021		growth += ret - match32->match_size;
2022		growth += ebt_compat_entry_padsize();
2023
2024		buf += sizeof(*match32);
2025		buf += match32->match_size;
2026
2027		if (match_kern)
2028			match_kern->match_size = ret;
2029
2030		WARN_ON(type == EBT_COMPAT_TARGET && size_left);
2031		match32 = (struct compat_ebt_entry_mwt *) buf;
2032	}
2033
2034	return growth;
2035}
2036
2037/* called for all ebt_entry structures. */
2038static int size_entry_mwt(struct ebt_entry *entry, const unsigned char *base,
2039			  unsigned int *total,
2040			  struct ebt_entries_buf_state *state)
2041{
2042	unsigned int i, j, startoff, new_offset = 0;
2043	/* stores match/watchers/targets & offset of next struct ebt_entry: */
2044	unsigned int offsets[4];
2045	unsigned int *offsets_update = NULL;
2046	int ret;
2047	char *buf_start;
2048
2049	if (*total < sizeof(struct ebt_entries))
2050		return -EINVAL;
2051
2052	if (!entry->bitmask) {
2053		*total -= sizeof(struct ebt_entries);
2054		return ebt_buf_add(state, entry, sizeof(struct ebt_entries));
2055	}
2056	if (*total < sizeof(*entry) || entry->next_offset < sizeof(*entry))
2057		return -EINVAL;
2058
2059	startoff = state->buf_user_offset;
2060	/* pull in most part of ebt_entry, it does not need to be changed. */
2061	ret = ebt_buf_add(state, entry,
2062			offsetof(struct ebt_entry, watchers_offset));
2063	if (ret < 0)
2064		return ret;
2065
2066	offsets[0] = sizeof(struct ebt_entry); /* matches come first */
2067	memcpy(&offsets[1], &entry->watchers_offset,
2068			sizeof(offsets) - sizeof(offsets[0]));
2069
2070	if (state->buf_kern_start) {
2071		buf_start = state->buf_kern_start + state->buf_kern_offset;
2072		offsets_update = (unsigned int *) buf_start;
2073	}
2074	ret = ebt_buf_add(state, &offsets[1],
2075			sizeof(offsets) - sizeof(offsets[0]));
2076	if (ret < 0)
2077		return ret;
2078	buf_start = (char *) entry;
2079	/* 0: matches offset, always follows ebt_entry.
2080	 * 1: watchers offset, from ebt_entry structure
2081	 * 2: target offset, from ebt_entry structure
2082	 * 3: next ebt_entry offset, from ebt_entry structure
2083	 *
2084	 * offsets are relative to beginning of struct ebt_entry (i.e., 0).
2085	 */
2086	for (i = 0, j = 1 ; j < 4 ; j++, i++) {
2087		struct compat_ebt_entry_mwt *match32;
2088		unsigned int size;
2089		char *buf = buf_start;
2090
2091		buf = buf_start + offsets[i];
2092		if (offsets[i] > offsets[j])
2093			return -EINVAL;
2094
2095		match32 = (struct compat_ebt_entry_mwt *) buf;
2096		size = offsets[j] - offsets[i];
2097		ret = ebt_size_mwt(match32, size, i, state, base);
2098		if (ret < 0)
2099			return ret;
2100		new_offset += ret;
2101		if (offsets_update && new_offset) {
2102			pr_debug("change offset %d to %d\n",
2103				offsets_update[i], offsets[j] + new_offset);
2104			offsets_update[i] = offsets[j] + new_offset;
2105		}
2106	}
2107
2108	if (state->buf_kern_start == NULL) {
2109		unsigned int offset = buf_start - (char *) base;
2110
2111		ret = xt_compat_add_offset(NFPROTO_BRIDGE, offset, new_offset);
2112		if (ret < 0)
2113			return ret;
2114	}
2115
2116	startoff = state->buf_user_offset - startoff;
2117
2118	BUG_ON(*total < startoff);
2119	*total -= startoff;
2120	return 0;
2121}
2122
2123/* repl->entries_size is the size of the ebt_entry blob in userspace.
2124 * It might need more memory when copied to a 64 bit kernel in case
2125 * userspace is 32-bit. So, first task: find out how much memory is needed.
2126 *
2127 * Called before validation is performed.
2128 */
2129static int compat_copy_entries(unsigned char *data, unsigned int size_user,
2130				struct ebt_entries_buf_state *state)
2131{
2132	unsigned int size_remaining = size_user;
2133	int ret;
2134
2135	ret = EBT_ENTRY_ITERATE(data, size_user, size_entry_mwt, data,
2136					&size_remaining, state);
2137	if (ret < 0)
2138		return ret;
2139
2140	WARN_ON(size_remaining);
2141	return state->buf_kern_offset;
2142}
2143
2144
2145static int compat_copy_ebt_replace_from_user(struct ebt_replace *repl,
2146					    void __user *user, unsigned int len)
2147{
2148	struct compat_ebt_replace tmp;
2149	int i;
2150
2151	if (len < sizeof(tmp))
2152		return -EINVAL;
2153
2154	if (copy_from_user(&tmp, user, sizeof(tmp)))
2155		return -EFAULT;
2156
2157	if (len != sizeof(tmp) + tmp.entries_size)
2158		return -EINVAL;
2159
2160	if (tmp.entries_size == 0)
2161		return -EINVAL;
2162
2163	if (tmp.nentries >= ((INT_MAX - sizeof(struct ebt_table_info)) /
2164			NR_CPUS - SMP_CACHE_BYTES) / sizeof(struct ebt_counter))
2165		return -ENOMEM;
2166	if (tmp.num_counters >= INT_MAX / sizeof(struct ebt_counter))
2167		return -ENOMEM;
2168
2169	memcpy(repl, &tmp, offsetof(struct ebt_replace, hook_entry));
2170
2171	/* starting with hook_entry, 32 vs. 64 bit structures are different */
2172	for (i = 0; i < NF_BR_NUMHOOKS; i++)
2173		repl->hook_entry[i] = compat_ptr(tmp.hook_entry[i]);
2174
2175	repl->num_counters = tmp.num_counters;
2176	repl->counters = compat_ptr(tmp.counters);
2177	repl->entries = compat_ptr(tmp.entries);
2178	return 0;
2179}
2180
2181static int compat_do_replace(struct net *net, void __user *user,
2182			     unsigned int len)
2183{
2184	int ret, i, countersize, size64;
2185	struct ebt_table_info *newinfo;
2186	struct ebt_replace tmp;
2187	struct ebt_entries_buf_state state;
2188	void *entries_tmp;
2189
2190	ret = compat_copy_ebt_replace_from_user(&tmp, user, len);
2191	if (ret) {
2192		/* try real handler in case userland supplied needed padding */
2193		if (ret == -EINVAL && do_replace(net, user, len) == 0)
2194			ret = 0;
2195		return ret;
2196	}
2197
2198	countersize = COUNTER_OFFSET(tmp.nentries) * nr_cpu_ids;
2199	newinfo = vmalloc(sizeof(*newinfo) + countersize);
2200	if (!newinfo)
2201		return -ENOMEM;
2202
2203	if (countersize)
2204		memset(newinfo->counters, 0, countersize);
2205
2206	memset(&state, 0, sizeof(state));
2207
2208	newinfo->entries = vmalloc(tmp.entries_size);
2209	if (!newinfo->entries) {
2210		ret = -ENOMEM;
2211		goto free_newinfo;
2212	}
2213	if (copy_from_user(
2214	   newinfo->entries, tmp.entries, tmp.entries_size) != 0) {
2215		ret = -EFAULT;
2216		goto free_entries;
2217	}
2218
2219	entries_tmp = newinfo->entries;
2220
2221	xt_compat_lock(NFPROTO_BRIDGE);
2222
2223	xt_compat_init_offsets(NFPROTO_BRIDGE, tmp.nentries);
2224	ret = compat_copy_entries(entries_tmp, tmp.entries_size, &state);
2225	if (ret < 0)
2226		goto out_unlock;
2227
2228	pr_debug("tmp.entries_size %d, kern off %d, user off %d delta %d\n",
2229		tmp.entries_size, state.buf_kern_offset, state.buf_user_offset,
2230		xt_compat_calc_jump(NFPROTO_BRIDGE, tmp.entries_size));
2231
2232	size64 = ret;
2233	newinfo->entries = vmalloc(size64);
2234	if (!newinfo->entries) {
2235		vfree(entries_tmp);
2236		ret = -ENOMEM;
2237		goto out_unlock;
2238	}
2239
2240	memset(&state, 0, sizeof(state));
2241	state.buf_kern_start = newinfo->entries;
2242	state.buf_kern_len = size64;
2243
2244	ret = compat_copy_entries(entries_tmp, tmp.entries_size, &state);
2245	BUG_ON(ret < 0);	/* parses same data again */
2246
2247	vfree(entries_tmp);
2248	tmp.entries_size = size64;
2249
2250	for (i = 0; i < NF_BR_NUMHOOKS; i++) {
2251		char __user *usrptr;
2252		if (tmp.hook_entry[i]) {
2253			unsigned int delta;
2254			usrptr = (char __user *) tmp.hook_entry[i];
2255			delta = usrptr - tmp.entries;
2256			usrptr += xt_compat_calc_jump(NFPROTO_BRIDGE, delta);
2257			tmp.hook_entry[i] = (struct ebt_entries __user *)usrptr;
2258		}
2259	}
2260
2261	xt_compat_flush_offsets(NFPROTO_BRIDGE);
2262	xt_compat_unlock(NFPROTO_BRIDGE);
2263
2264	ret = do_replace_finish(net, &tmp, newinfo);
2265	if (ret == 0)
2266		return ret;
2267free_entries:
2268	vfree(newinfo->entries);
2269free_newinfo:
2270	vfree(newinfo);
2271	return ret;
2272out_unlock:
2273	xt_compat_flush_offsets(NFPROTO_BRIDGE);
2274	xt_compat_unlock(NFPROTO_BRIDGE);
2275	goto free_entries;
2276}
2277
2278static int compat_update_counters(struct net *net, void __user *user,
2279				  unsigned int len)
2280{
2281	struct compat_ebt_replace hlp;
2282
2283	if (copy_from_user(&hlp, user, sizeof(hlp)))
2284		return -EFAULT;
2285
2286	/* try real handler in case userland supplied needed padding */
2287	if (len != sizeof(hlp) + hlp.num_counters * sizeof(struct ebt_counter))
2288		return update_counters(net, user, len);
2289
2290	return do_update_counters(net, hlp.name, compat_ptr(hlp.counters),
2291					hlp.num_counters, user, len);
2292}
2293
2294static int compat_do_ebt_set_ctl(struct sock *sk,
2295		int cmd, void __user *user, unsigned int len)
2296{
2297	int ret;
2298	struct net *net = sock_net(sk);
2299
2300	if (!ns_capable(net->user_ns, CAP_NET_ADMIN))
2301		return -EPERM;
2302
2303	switch (cmd) {
2304	case EBT_SO_SET_ENTRIES:
2305		ret = compat_do_replace(net, user, len);
2306		break;
2307	case EBT_SO_SET_COUNTERS:
2308		ret = compat_update_counters(net, user, len);
2309		break;
2310	default:
2311		ret = -EINVAL;
2312	}
2313	return ret;
2314}
2315
2316static int compat_do_ebt_get_ctl(struct sock *sk, int cmd,
2317		void __user *user, int *len)
2318{
2319	int ret;
2320	struct compat_ebt_replace tmp;
2321	struct ebt_table *t;
2322	struct net *net = sock_net(sk);
2323
2324	if (!ns_capable(net->user_ns, CAP_NET_ADMIN))
2325		return -EPERM;
2326
2327	/* try real handler in case userland supplied needed padding */
2328	if ((cmd == EBT_SO_GET_INFO ||
2329	     cmd == EBT_SO_GET_INIT_INFO) && *len != sizeof(tmp))
2330			return do_ebt_get_ctl(sk, cmd, user, len);
2331
2332	if (copy_from_user(&tmp, user, sizeof(tmp)))
2333		return -EFAULT;
2334
2335	t = find_table_lock(net, tmp.name, &ret, &ebt_mutex);
2336	if (!t)
2337		return ret;
2338
2339	xt_compat_lock(NFPROTO_BRIDGE);
2340	switch (cmd) {
2341	case EBT_SO_GET_INFO:
2342		tmp.nentries = t->private->nentries;
2343		ret = compat_table_info(t->private, &tmp);
2344		if (ret)
2345			goto out;
2346		tmp.valid_hooks = t->valid_hooks;
2347
2348		if (copy_to_user(user, &tmp, *len) != 0) {
2349			ret = -EFAULT;
2350			break;
2351		}
2352		ret = 0;
2353		break;
2354	case EBT_SO_GET_INIT_INFO:
2355		tmp.nentries = t->table->nentries;
2356		tmp.entries_size = t->table->entries_size;
2357		tmp.valid_hooks = t->table->valid_hooks;
2358
2359		if (copy_to_user(user, &tmp, *len) != 0) {
2360			ret = -EFAULT;
2361			break;
2362		}
2363		ret = 0;
2364		break;
2365	case EBT_SO_GET_ENTRIES:
2366	case EBT_SO_GET_INIT_ENTRIES:
2367		/* try real handler first in case of userland-side padding.
2368		 * in case we are dealing with an 'ordinary' 32 bit binary
2369		 * without 64bit compatibility padding, this will fail right
2370		 * after copy_from_user when the *len argument is validated.
2371		 *
2372		 * the compat_ variant needs to do one pass over the kernel
2373		 * data set to adjust for size differences before it the check.
2374		 */
2375		if (copy_everything_to_user(t, user, len, cmd) == 0)
2376			ret = 0;
2377		else
2378			ret = compat_copy_everything_to_user(t, user, len, cmd);
2379		break;
2380	default:
2381		ret = -EINVAL;
2382	}
2383 out:
2384	xt_compat_flush_offsets(NFPROTO_BRIDGE);
2385	xt_compat_unlock(NFPROTO_BRIDGE);
2386	mutex_unlock(&ebt_mutex);
2387	return ret;
2388}
2389#endif
2390
2391static struct nf_sockopt_ops ebt_sockopts = {
2392	.pf		= PF_INET,
2393	.set_optmin	= EBT_BASE_CTL,
2394	.set_optmax	= EBT_SO_SET_MAX + 1,
2395	.set		= do_ebt_set_ctl,
2396#ifdef CONFIG_COMPAT
2397	.compat_set	= compat_do_ebt_set_ctl,
2398#endif
2399	.get_optmin	= EBT_BASE_CTL,
2400	.get_optmax	= EBT_SO_GET_MAX + 1,
2401	.get		= do_ebt_get_ctl,
2402#ifdef CONFIG_COMPAT
2403	.compat_get	= compat_do_ebt_get_ctl,
2404#endif
2405	.owner		= THIS_MODULE,
2406};
2407
2408static int __init ebtables_init(void)
2409{
2410	int ret;
2411
2412	ret = xt_register_target(&ebt_standard_target);
2413	if (ret < 0)
2414		return ret;
2415	ret = nf_register_sockopt(&ebt_sockopts);
2416	if (ret < 0) {
2417		xt_unregister_target(&ebt_standard_target);
2418		return ret;
2419	}
2420
2421	printk(KERN_INFO "Ebtables v2.0 registered\n");
2422	return 0;
2423}
2424
2425static void __exit ebtables_fini(void)
2426{
2427	nf_unregister_sockopt(&ebt_sockopts);
2428	xt_unregister_target(&ebt_standard_target);
2429	printk(KERN_INFO "Ebtables v2.0 unregistered\n");
2430}
2431
2432EXPORT_SYMBOL(ebt_register_table);
2433EXPORT_SYMBOL(ebt_unregister_table);
2434EXPORT_SYMBOL(ebt_do_table);
2435module_init(ebtables_init);
2436module_exit(ebtables_fini);
2437MODULE_LICENSE("GPL");
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