Snort_AIPreproc/include_bak/sf_ip.h

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/*
** Copyright (C) 1998-2010 Sourcefire, Inc.
** Adam Keeton
** Kevin Liu <kliu@sourcefire.com>
*
** $ID: $
**
** This program is free software; you can redistribute it and/or modify
** it under the terms of the GNU General Public License Version 2 as
** published by the Free Software Foundation. You may not use, modify or
** distribute this program under any other version of the GNU General
** Public License.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program; if not, write to the Free Software
** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
/*
* Adam Keeton
* sf_ip.h
* 11/17/06
*/
#ifndef SF_IP_H
#define SF_IP_H
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#ifndef WIN32
#include <sys/types.h>
#include <sys/socket.h>
#include <arpa/inet.h>
#endif
#ifdef SF_IP_TEST
#define INLINE inline
#else
#include "debug.h" /* for INLINE definition */
#endif
#include "sf_types.h"
/* define SFIP_ROBUST to check pointers passed into the sfip libs.
* Robustification should not be enabled if the client code is trustworthy.
* Namely, if pointers are checked once in the client, or are pointers to
* data allocated on the stack, there's no need to check them again here.
* The intention is to prevent the same stack-allocated variable from being
* checked a dozen different times. */
#define SFIP_ROBUST
#ifdef SFIP_ROBUST
#define ARG_CHECK1(a, z) if(!a) return z;
#define ARG_CHECK2(a, b, z) if(!a || !b) return z;
#define ARG_CHECK3(a, b, c, z) if(!a || !b || !c) return z;
#elif defined(DEBUG)
#define ARG_CHECK1(a, z) assert(a);
#define ARG_CHECK2(a, b, z) assert(a); assert(b);
#define ARG_CHECK3(a, b, c, z) assert(a); assert(b); assert(c);
#else
#define ARG_CHECK1(a, z)
#define ARG_CHECK2(a, b, z)
#define ARG_CHECK3(a, b, c, z)
#endif
typedef struct _ip {
int family;
int bits;
/* see sfip_size(): these address bytes
* must be the last field in this struct */
union
{
u_int8_t u6_addr8[16];
u_int16_t u6_addr16[8];
u_int32_t u6_addr32[4];
/* u_int64_t u6_addr64[2]; */
} ip;
#define ip8 ip.u6_addr8
#define ip16 ip.u6_addr16
#define ip32 ip.u6_addr32
/* #define ip64 ip.u6_addr64 */
} sfip_t;
typedef enum _return_values {
SFIP_SUCCESS=0,
SFIP_FAILURE,
SFIP_LESSER,
SFIP_GREATER,
SFIP_EQUAL,
SFIP_ARG_ERR,
SFIP_CIDR_ERR,
SFIP_INET_PARSE_ERR,
SFIP_INVALID_MASK,
SFIP_ALLOC_ERR,
SFIP_CONTAINS,
SFIP_NOT_CONTAINS,
SFIP_DUPLICATE, /* Tried to add a duplicate variable name to table */
SFIP_LOOKUP_FAILURE, /* Failed to lookup a variable from the table */
SFIP_UNMATCHED_BRACKET, /* IP lists that are missing a closing bracket */
SFIP_NOT_ANY, /* For !any */
SFIP_CONFLICT /* For IP conflicts in IP lists */
} SFIP_RET;
/* IP allocations and setting ******************************************/
/* Parses "src" and stores results in "dst" */
/* If the conversion is invalid, returns SFIP_FAILURE */
SFIP_RET sfip_pton(const char *src, sfip_t *dst);
/* Allocate IP address from a character array describing the IP */
sfip_t *sfip_alloc(const char *ip, SFIP_RET *status);
/* Frees an sfip_t */
void sfip_free(sfip_t *ip);
/* Allocate IP address from an array of integers. The array better be
* long enough for the given family! */
sfip_t *sfip_alloc_raw(void *ip, int family, SFIP_RET *status);
/* Sets existing IP, "dst", to a raw source IP (4 or 16 bytes,
* according to family) */
SFIP_RET sfip_set_raw(sfip_t *dst, void *src, int src_family);
/* Sets existing IP, "dst", to be source IP, "src" */
SFIP_RET sfip_set_ip(sfip_t *dst, sfip_t *src);
/* Obfuscates an IP */
void sfip_obfuscate(sfip_t *ob, sfip_t *ip);
/* return required size (eg for hashing)
* requires that address bytes be the last field in sfip_t */
static INLINE unsigned int sfip_size(sfip_t* ipt)
{
if ( ipt->family == AF_INET6 ) return sizeof(*ipt);
return (unsigned int)((ipt->ip.u6_addr8+4) - (u_int8_t*)ipt);
}
/* Member-access *******************************************************/
/* Returns the family of "ip", either AF_INET or AF_INET6 */
/* XXX This is a performance critical function,
* need to determine if it's safe to not check these pointers */
/* ARG_CHECK1(ip, 0); */
#define sfip_family(ip) ip->family
/* Returns the number of bits used for masking "ip" */
static INLINE unsigned char sfip_bits(sfip_t *ip) {
ARG_CHECK1(ip, 0);
return (unsigned char)ip->bits;
}
static INLINE void sfip_set_bits(sfip_t *p, int bits) {
if(!p)
return;
if(bits < 0 || bits > 128) return;
p->bits = bits;
}
/* Returns the raw IP address as an in6_addr */
/* inline struct in6_addr sfip_to_raw(sfip_t *); */
/* IP Comparisons ******************************************************/
/* Check if ip is contained within the network specified by net */
/* Returns SFIP_EQUAL if so */
SFIP_RET sfip_contains(sfip_t *net, sfip_t *ip);
/* Returns 1 if the IP is non-zero. 0 otherwise */
/* XXX This is a performance critical function, \
* need to determine if it's safe to not check these pointers */\
static INLINE int sfip_is_set(sfip_t *ip) {
/* ARG_CHECK1(ip, -1); */
return ip->ip32[0] ||
( (ip->family == AF_INET6) &&
(ip->ip32[1] ||
ip->ip32[2] ||
ip->ip32[3] || ip->bits != 128)) || ((ip->family == AF_INET) && ip->bits != 32) ;
}
/* Return 1 if the IP is a loopback IP */
int sfip_is_loopback(sfip_t *ip);
/* Returns 1 if the IPv6 address appears mapped. 0 otherwise. */
int sfip_ismapped(sfip_t *ip);
/* Support function for sfip_compare */
static INLINE SFIP_RET _ip4_cmp(u_int32_t ip1, u_int32_t ip2) {
u_int32_t hip1 = htonl(ip1);
u_int32_t hip2 = htonl(ip2);
if(hip1 < hip2) return SFIP_LESSER;
if(hip1 > hip2) return SFIP_GREATER;
return SFIP_EQUAL;
}
/* Support function for sfip_compare */
static INLINE SFIP_RET _ip6_cmp(sfip_t *ip1, sfip_t *ip2) {
SFIP_RET ret;
u_int32_t *p1, *p2;
/* XXX
* Argument are assumed trusted!
* This function is presently only called by sfip_compare
* on validated pointers.
* XXX */
p1 = ip1->ip32;
p2 = ip2->ip32;
if( (ret = _ip4_cmp(p1[0], p2[0])) != SFIP_EQUAL) return ret;
if( (ret = _ip4_cmp(p1[1], p2[1])) != SFIP_EQUAL) return ret;
if( (ret = _ip4_cmp(p1[2], p2[2])) != SFIP_EQUAL) return ret;
if( (ret = _ip4_cmp(p1[3], p2[3])) != SFIP_EQUAL) return ret;
return ret;
}
/* Compares two IPs
* Returns SFIP_LESSER, SFIP_EQUAL, SFIP_GREATER, if ip1 is less than, equal to,
* or greater than ip2 In the case of mismatched families, the IPv4 address
* is converted to an IPv6 representation. */
/* XXX-IPv6 Should add version of sfip_compare that just tests equality */
static INLINE SFIP_RET sfip_compare(sfip_t *ip1, sfip_t *ip2) {
int f1,f2;
ARG_CHECK2(ip1, ip2, SFIP_ARG_ERR);
/* This is being done because at some points in the existing Snort code,
* an unset IP is considered to match anything. Thus, if either IP is not
* set here, it's considered equal. */
if(!sfip_is_set(ip1) || !sfip_is_set(ip2)) return SFIP_EQUAL;
f1 = sfip_family(ip1);
f2 = sfip_family(ip2);
if(f1 == AF_INET && f2 == AF_INET) {
return _ip4_cmp(*ip1->ip32, *ip2->ip32);
}
/* Mixed families not presently supported */
#if 0
else if(f1 == AF_INET && f2 == AF_INET6) {
conv = sfip_4to6(ip1);
return _ip6_cmp(&conv, ip2);
} else if(f1 == AF_INET6 && f2 == AF_INET) {
conv = sfip_4to6(ip2);
return _ip6_cmp(ip1, &conv);
}
else {
return _ip6_cmp(ip1, ip2);
}
#endif
else if(f1 == AF_INET6 && f2 == AF_INET6) {
return _ip6_cmp(ip1, ip2);
}
return SFIP_FAILURE;
}
/* Compares two IPs
* Returns SFIP_LESSER, SFIP_EQUAL, SFIP_GREATER, if ip1 is less than, equal to,
* or greater than ip2 In the case of mismatched families, the IPv4 address
* is converted to an IPv6 representation. */
/* XXX-IPv6 Should add version of sfip_compare that just tests equality */
static INLINE SFIP_RET sfip_compare_unset(sfip_t *ip1, sfip_t *ip2) {
int f1,f2;
ARG_CHECK2(ip1, ip2, SFIP_ARG_ERR);
/* This is to handle the special case when one of the values being
* unset is considered to match nothing. This is the opposite of
* sfip_compare(), defined above. Thus, if either IP is not
* set here, it's considered not equal. */
if(!sfip_is_set(ip1) || !sfip_is_set(ip2)) return SFIP_FAILURE;
f1 = sfip_family(ip1);
f2 = sfip_family(ip2);
if(f1 == AF_INET && f2 == AF_INET) {
return _ip4_cmp(*ip1->ip32, *ip2->ip32);
}
/* Mixed families not presently supported */
#if 0
else if(f1 == AF_INET && f2 == AF_INET6) {
conv = sfip_4to6(ip1);
return _ip6_cmp(&conv, ip2);
} else if(f1 == AF_INET6 && f2 == AF_INET) {
conv = sfip_4to6(ip2);
return _ip6_cmp(ip1, &conv);
}
else {
return _ip6_cmp(ip1, ip2);
}
#endif
else if(f1 == AF_INET6 && f2 == AF_INET6) {
return _ip6_cmp(ip1, ip2);
}
return SFIP_FAILURE;
}
static INLINE int sfip_fast_lt4(sfip_t *ip1, sfip_t *ip2) {
return *ip1->ip32 < *ip2->ip32;
}
static INLINE int sfip_fast_gt4(sfip_t *ip1, sfip_t *ip2) {
return *ip1->ip32 > *ip2->ip32;
}
static INLINE int sfip_fast_eq4(sfip_t *ip1, sfip_t *ip2) {
return *ip1->ip32 == *ip2->ip32;
}
static INLINE int sfip_fast_lt6(sfip_t *ip1, sfip_t *ip2) {
u_int32_t *p1, *p2;
p1 = ip1->ip32;
p2 = ip2->ip32;
if(*p1 < *p2) return 1;
else if(*p1 > *p2) return 0;
if(p1[1] < p2[1]) return 1;
else if(p1[1] > p2[1]) return 0;
if(p1[2] < p2[2]) return 1;
else if(p1[2] > p2[2]) return 0;
if(p1[3] < p2[3]) return 1;
else if(p1[3] > p2[3]) return 0;
return 0;
}
static INLINE int sfip_fast_gt6(sfip_t *ip1, sfip_t *ip2) {
u_int32_t *p1, *p2;
p1 = ip1->ip32;
p2 = ip2->ip32;
if(*p1 > *p2) return 1;
else if(*p1 < *p2) return 0;
if(p1[1] > p2[1]) return 1;
else if(p1[1] < p2[1]) return 0;
if(p1[2] > p2[2]) return 1;
else if(p1[2] < p2[2]) return 0;
if(p1[3] > p2[3]) return 1;
else if(p1[3] < p2[3]) return 0;
return 0;
}
static INLINE int sfip_fast_eq6(sfip_t *ip1, sfip_t *ip2) {
u_int32_t *p1, *p2;
p1 = ip1->ip32;
p2 = ip2->ip32;
if(*p1 != *p2) return 0;
if(p1[1] != p2[1]) return 0;
if(p1[2] != p2[2]) return 0;
if(p1[3] != p2[3]) return 0;
return 1;
}
/* Checks if ip2 is equal to ip1 or contained within the CIDR ip1 */
static INLINE int sfip_fast_cont4(sfip_t *ip1, sfip_t *ip2) {
u_int32_t shift = 32 - sfip_bits(ip1);
u_int32_t ip = ntohl(*ip2->ip32);
ip >>= shift;
ip <<= shift;
return ntohl(*ip1->ip32) == ip;
}
/* Checks if ip2 is equal to ip1 or contained within the CIDR ip1 */
static INLINE int sfip_fast_cont6(sfip_t *ip1, sfip_t *ip2) {
u_int32_t ip;
int i, bits = sfip_bits(ip1);
int words = bits / 32;
bits = 32 - (bits % 32);
for ( i = 0; i < words; i++ ) {
if ( ip1->ip32[i] != ip2->ip32[i] )
return 0;
}
if ( bits == 32 ) return 1;
ip = ntohl(ip2->ip32[i]);
ip >>= bits;
ip <<= bits;
return ntohl(ip1->ip32[i]) == ip;
}
#define sfip_equals(x,y) (sfip_compare(&x, &y) == SFIP_EQUAL)
#define sfip_not_equals !sfip_equals
#define sfip_clear(x) memset(x, 0, 16)
/* Printing ************************************************************/
/* Uses a static buffer to return a string representation of the IP */
char *sfip_to_str(const sfip_t *ip);
#define sfip_ntoa(x) sfip_to_str(x)
void sfip_raw_ntop(int family, const void *ip_raw, char *buf, int bufsize);
#endif /* SF_IP_H */