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bpf_filter.c
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bpf_filter.c
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/*-
* Copyright (c) 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997
* The Regents of the University of California. All rights reserved.
*
* This code is derived from the Stanford/CMU enet packet filter,
* (net/enet.c) distributed as part of 4.3BSD, and code contributed
* to Berkeley by Steven McCanne and Van Jacobson both of Lawrence
* Berkeley Laboratory.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)bpf.c 7.5 (Berkeley) 7/15/91
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <pcap/pcap-inttypes.h>
#include "pcap-types.h"
#include "extract.h"
#include "diag-control.h"
#define EXTRACT_SHORT EXTRACT_BE_U_2
#define EXTRACT_LONG EXTRACT_BE_U_4
#ifndef _WIN32
#include <sys/param.h>
#include <sys/types.h>
#include <sys/time.h>
#endif /* _WIN32 */
#include <pcap-int.h>
#include <stdlib.h>
#ifdef __linux__
#include <linux/types.h>
#include <linux/if_packet.h>
#include <linux/filter.h>
#endif
enum {
BPF_S_ANC_NONE,
BPF_S_ANC_VLAN_TAG,
BPF_S_ANC_VLAN_TAG_PRESENT,
};
/*
* Execute the filter program starting at pc on the packet p
* wirelen is the length of the original packet
* buflen is the amount of data present
* aux_data is auxiliary data, currently used only when interpreting
* filters intended for the Linux kernel in cases where the kernel
* rejects the filter; it contains VLAN tag information
* For the kernel, p is assumed to be a pointer to an mbuf if buflen is 0,
* in all other cases, p is a pointer to a buffer and buflen is its size.
*
* Thanks to Ani Sinha <[email protected]> for providing initial implementation
*/
#if defined(SKF_AD_VLAN_TAG_PRESENT)
u_int
pcap_filter_with_aux_data(const struct bpf_insn *pc, const u_char *p,
u_int wirelen, u_int buflen, const struct pcap_bpf_aux_data *aux_data)
#else
u_int
pcap_filter_with_aux_data(const struct bpf_insn *pc, const u_char *p,
u_int wirelen, u_int buflen, const struct pcap_bpf_aux_data *aux_data _U_)
#endif
{
register uint32_t A, X;
register bpf_u_int32 k;
uint32_t mem[BPF_MEMWORDS];
if (pc == 0)
/*
* No filter means accept all.
*/
return (u_int)-1;
A = 0;
X = 0;
--pc;
for (;;) {
++pc;
switch (pc->code) {
default:
abort();
case BPF_RET|BPF_K:
return (u_int)pc->k;
case BPF_RET|BPF_A:
return (u_int)A;
case BPF_LD|BPF_W|BPF_ABS:
k = pc->k;
if (k > buflen || sizeof(int32_t) > buflen - k) {
return 0;
}
A = EXTRACT_LONG(&p[k]);
continue;
case BPF_LD|BPF_H|BPF_ABS:
k = pc->k;
if (k > buflen || sizeof(int16_t) > buflen - k) {
return 0;
}
A = EXTRACT_SHORT(&p[k]);
continue;
case BPF_LD|BPF_B|BPF_ABS:
/*
* Yes, we know, this switch doesn't do
* anything unless we're building for
* a Linux kernel with removed VLAN
* tags available as meta-data.
*/
DIAG_OFF_DEFAULT_ONLY_SWITCH
switch (pc->k) {
#if defined(SKF_AD_VLAN_TAG_PRESENT)
case SKF_AD_OFF + SKF_AD_VLAN_TAG:
if (!aux_data)
return 0;
A = aux_data->vlan_tag;
break;
case SKF_AD_OFF + SKF_AD_VLAN_TAG_PRESENT:
if (!aux_data)
return 0;
A = aux_data->vlan_tag_present;
break;
#endif
default:
k = pc->k;
if (k >= buflen) {
return 0;
}
A = p[k];
break;
}
DIAG_ON_DEFAULT_ONLY_SWITCH
continue;
case BPF_LD|BPF_W|BPF_LEN:
A = wirelen;
continue;
case BPF_LDX|BPF_W|BPF_LEN:
X = wirelen;
continue;
case BPF_LD|BPF_W|BPF_IND:
k = X + pc->k;
if (pc->k > buflen || X > buflen - pc->k ||
sizeof(int32_t) > buflen - k) {
return 0;
}
A = EXTRACT_LONG(&p[k]);
continue;
case BPF_LD|BPF_H|BPF_IND:
k = X + pc->k;
if (X > buflen || pc->k > buflen - X ||
sizeof(int16_t) > buflen - k) {
return 0;
}
A = EXTRACT_SHORT(&p[k]);
continue;
case BPF_LD|BPF_B|BPF_IND:
k = X + pc->k;
if (pc->k >= buflen || X >= buflen - pc->k) {
return 0;
}
A = p[k];
continue;
case BPF_LDX|BPF_MSH|BPF_B:
k = pc->k;
if (k >= buflen) {
return 0;
}
X = (p[pc->k] & 0xf) << 2;
continue;
case BPF_LD|BPF_IMM:
A = pc->k;
continue;
case BPF_LDX|BPF_IMM:
X = pc->k;
continue;
case BPF_LD|BPF_MEM:
A = mem[pc->k];
continue;
case BPF_LDX|BPF_MEM:
X = mem[pc->k];
continue;
case BPF_ST:
mem[pc->k] = A;
continue;
case BPF_STX:
mem[pc->k] = X;
continue;
case BPF_JMP|BPF_JA:
/*
* XXX - we currently implement "ip6 protochain"
* with backward jumps, so sign-extend pc->k.
*/
pc += (bpf_int32)pc->k;
continue;
case BPF_JMP|BPF_JGT|BPF_K:
pc += (A > pc->k) ? pc->jt : pc->jf;
continue;
case BPF_JMP|BPF_JGE|BPF_K:
pc += (A >= pc->k) ? pc->jt : pc->jf;
continue;
case BPF_JMP|BPF_JEQ|BPF_K:
pc += (A == pc->k) ? pc->jt : pc->jf;
continue;
case BPF_JMP|BPF_JSET|BPF_K:
pc += (A & pc->k) ? pc->jt : pc->jf;
continue;
case BPF_JMP|BPF_JGT|BPF_X:
pc += (A > X) ? pc->jt : pc->jf;
continue;
case BPF_JMP|BPF_JGE|BPF_X:
pc += (A >= X) ? pc->jt : pc->jf;
continue;
case BPF_JMP|BPF_JEQ|BPF_X:
pc += (A == X) ? pc->jt : pc->jf;
continue;
case BPF_JMP|BPF_JSET|BPF_X:
pc += (A & X) ? pc->jt : pc->jf;
continue;
case BPF_ALU|BPF_ADD|BPF_X:
A += X;
continue;
case BPF_ALU|BPF_SUB|BPF_X:
A -= X;
continue;
case BPF_ALU|BPF_MUL|BPF_X:
A *= X;
continue;
case BPF_ALU|BPF_DIV|BPF_X:
if (X == 0)
return 0;
A /= X;
continue;
case BPF_ALU|BPF_MOD|BPF_X:
if (X == 0)
return 0;
A %= X;
continue;
case BPF_ALU|BPF_AND|BPF_X:
A &= X;
continue;
case BPF_ALU|BPF_OR|BPF_X:
A |= X;
continue;
case BPF_ALU|BPF_XOR|BPF_X:
A ^= X;
continue;
case BPF_ALU|BPF_LSH|BPF_X:
if (X < 32)
A <<= X;
else
A = 0;
continue;
case BPF_ALU|BPF_RSH|BPF_X:
if (X < 32)
A >>= X;
else
A = 0;
continue;
case BPF_ALU|BPF_ADD|BPF_K:
A += pc->k;
continue;
case BPF_ALU|BPF_SUB|BPF_K:
A -= pc->k;
continue;
case BPF_ALU|BPF_MUL|BPF_K:
A *= pc->k;
continue;
case BPF_ALU|BPF_DIV|BPF_K:
A /= pc->k;
continue;
case BPF_ALU|BPF_MOD|BPF_K:
A %= pc->k;
continue;
case BPF_ALU|BPF_AND|BPF_K:
A &= pc->k;
continue;
case BPF_ALU|BPF_OR|BPF_K:
A |= pc->k;
continue;
case BPF_ALU|BPF_XOR|BPF_K:
A ^= pc->k;
continue;
case BPF_ALU|BPF_LSH|BPF_K:
A <<= pc->k;
continue;
case BPF_ALU|BPF_RSH|BPF_K:
A >>= pc->k;
continue;
case BPF_ALU|BPF_NEG:
/*
* Most BPF arithmetic is unsigned, but negation
* can't be unsigned; respecify it as subtracting
* the accumulator from 0U, so that 1) we don't
* get compiler warnings about negating an unsigned
* value and 2) don't get UBSan warnings about
* the result of negating 0x80000000 being undefined.
*/
A = (0U - A);
continue;
case BPF_MISC|BPF_TAX:
X = A;
continue;
case BPF_MISC|BPF_TXA:
A = X;
continue;
}
}
}
u_int
pcap_filter(const struct bpf_insn *pc, const u_char *p, u_int wirelen,
u_int buflen)
{
return pcap_filter_with_aux_data(pc, p, wirelen, buflen, NULL);
}
/*
* Return true if the 'fcode' is a valid filter program.
* The constraints are that each jump be forward and to a valid
* code, that memory accesses are within valid ranges (to the
* extent that this can be checked statically; loads of packet
* data have to be, and are, also checked at run time), and that
* the code terminates with either an accept or reject.
*
* The kernel needs to be able to verify an application's filter code.
* Otherwise, a bogus program could easily crash the system.
*/
int
pcap_validate_filter(const struct bpf_insn *f, int len)
{
u_int i, from;
const struct bpf_insn *p;
if (len < 1)
return 0;
for (i = 0; i < (u_int)len; ++i) {
p = &f[i];
switch (BPF_CLASS(p->code)) {
/*
* Check that memory operations use valid addresses.
*/
case BPF_LD:
case BPF_LDX:
switch (BPF_MODE(p->code)) {
case BPF_IMM:
break;
case BPF_ABS:
case BPF_IND:
case BPF_MSH:
/*
* There's no maximum packet data size
* in userland. The runtime packet length
* check suffices.
*/
break;
case BPF_MEM:
if (p->k >= BPF_MEMWORDS)
return 0;
break;
case BPF_LEN:
break;
default:
return 0;
}
break;
case BPF_ST:
case BPF_STX:
if (p->k >= BPF_MEMWORDS)
return 0;
break;
case BPF_ALU:
switch (BPF_OP(p->code)) {
case BPF_ADD:
case BPF_SUB:
case BPF_MUL:
case BPF_OR:
case BPF_AND:
case BPF_XOR:
case BPF_LSH:
case BPF_RSH:
case BPF_NEG:
break;
case BPF_DIV:
case BPF_MOD:
/*
* Check for constant division or modulus
* by 0.
*/
if (BPF_SRC(p->code) == BPF_K && p->k == 0)
return 0;
break;
default:
return 0;
}
break;
case BPF_JMP:
/*
* Check that jumps are within the code block,
* and that unconditional branches don't go
* backwards as a result of an overflow.
* Unconditional branches have a 32-bit offset,
* so they could overflow; we check to make
* sure they don't. Conditional branches have
* an 8-bit offset, and the from address is <=
* BPF_MAXINSNS, and we assume that BPF_MAXINSNS
* is sufficiently small that adding 255 to it
* won't overflow.
*
* We know that len is <= BPF_MAXINSNS, and we
* assume that BPF_MAXINSNS is < the maximum size
* of a u_int, so that i + 1 doesn't overflow.
*
* For userland, we don't know that the from
* or len are <= BPF_MAXINSNS, but we know that
* from <= len, and, except on a 64-bit system,
* it's unlikely that len, if it truly reflects
* the size of the program we've been handed,
* will be anywhere near the maximum size of
* a u_int. We also don't check for backward
* branches, as we currently support them in
* userland for the protochain operation.
*/
from = i + 1;
switch (BPF_OP(p->code)) {
case BPF_JA:
if (from + p->k >= (u_int)len)
return 0;
break;
case BPF_JEQ:
case BPF_JGT:
case BPF_JGE:
case BPF_JSET:
if (from + p->jt >= (u_int)len || from + p->jf >= (u_int)len)
return 0;
break;
default:
return 0;
}
break;
case BPF_RET:
break;
case BPF_MISC:
break;
default:
return 0;
}
}
return BPF_CLASS(f[len - 1].code) == BPF_RET;
}
/*
* Exported because older versions of libpcap exported them.
*/
u_int
bpf_filter(const struct bpf_insn *pc, const u_char *p, u_int wirelen,
u_int buflen)
{
return pcap_filter(pc, p, wirelen, buflen);
}
int
bpf_validate(const struct bpf_insn *f, int len)
{
return pcap_validate_filter(f, len);
}