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rename file.

This commit is contained in:
Bruce Momjian 1998-10-23 02:56:13 +00:00
parent e7cbcf23c4
commit 1115162c84
1 changed files with 0 additions and 447 deletions
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src/backend/utils/adt/inet.c
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@ -1,447 +0,0 @@
/*
* PostgreSQL type definitions for the INET type. This
* is for IP V4 CIDR notation, but prepared for V6: just
* add the necessary bits where the comments indicate.
*
* $Id: inet.c,v 1.13 1998/10/22 13:50:56 momjian Exp $
* Jon Postel RIP 16 Oct 1998
*/
#include <sys/types.h>
#include <sys/socket.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <postgres.h>
#include <utils/palloc.h>
#include <utils/builtins.h>
#include <utils/inet.h>
static int v4bitncmp(unsigned int a1, unsigned int a2, int bits);
/*
* Access macros. Add IPV6 support.
*/
#define ip_addrsize(inetptr) \
(((inet_struct *)VARDATA(inetptr))->family == AF_INET ? 4 : -1)
#define ip_family(inetptr) \
(((inet_struct *)VARDATA(inetptr))->family)
#define ip_bits(inetptr) \
(((inet_struct *)VARDATA(inetptr))->bits)
#define ip_type(inetptr) \
(((inet_struct *)VARDATA(inetptr))->type)
#define ip_v4addr(inetptr) \
(((inet_struct *)VARDATA(inetptr))->addr.ipv4_addr)
/* Common input routine */
static inet *
inet_common_in(char *src, int type)
{
int bits;
inet *dst;
dst = palloc(VARHDRSZ + sizeof(inet_struct));
if (dst == NULL)
{
elog(ERROR, "unable to allocate memory in inet_in()");
return NULL;
}
/* First, try for an IP V4 address: */
ip_family(dst) = AF_INET;
bits = inet_net_pton(ip_family(dst), src, &ip_v4addr(dst),
type ? ip_addrsize(dst) : -1);
if ((bits < 0) || (bits > 32))
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "could not parse \"%s\"", src);
pfree(dst);
return NULL;
}
VARSIZE(dst) = VARHDRSZ
+ ((char *) &ip_v4addr(dst) - (char *) VARDATA(dst))
+ ip_addrsize(dst);
ip_bits(dst) = bits;
ip_type(dst) = type;
return dst;
}
/* INET address reader. */
inet *
inet_in(char *src)
{
return inet_common_in(src, 0);
}
/* CIDR address reader. */
inet *
cidr_in(char *src)
{
return inet_common_in(src, 1);
}
/*
* INET address output function.
*/
char *
inet_out(inet *src)
{
char *dst,
tmp[sizeof("255.255.255.255/32")];
if (ip_family(src) == AF_INET)
{
/* It's an IP V4 address: */
if (ip_type(src))
dst = inet_cidr_ntop(AF_INET, &ip_v4addr(src), ip_bits(src),
tmp, sizeof(tmp));
else
dst = inet_net_ntop(AF_INET, &ip_v4addr(src), ip_bits(src),
tmp, sizeof(tmp));
if (dst == NULL)
{
elog(ERROR, "unable to print address (%s)", strerror(errno));
return (NULL);
}
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "unknown address family (%d)", ip_family(src));
return NULL;
}
dst = palloc(strlen(tmp) + 1);
if (dst == NULL)
{
elog(ERROR, "unable to allocate memory in inet_out()");
return NULL;
}
strcpy(dst, tmp);
return dst;
}
/* just a stub */
char *
cidr_out(inet *src)
{
return inet_out(src);
}
/*
* Boolean tests for magnitude. Add V4/V6 testing!
*/
bool
inet_lt(inet *a1, inet *a2)
{
if ((ip_family(a1) == AF_INET) && (ip_family(a2) == AF_INET))
{
int order = v4bitncmp(ip_v4addr(a1), ip_v4addr(a2), ip_bits(a2));
return ((order < 0) || ((order == 0) && (ip_bits(a1) < ip_bits(a2))));
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "cannot compare address families %d and %d",
ip_family(a1), ip_family(a2));
return (FALSE);
}
}
bool
inet_le(inet *a1, inet *a2)
{
return (inet_lt(a1, a2) || inet_eq(a1, a2));
}
bool
inet_eq(inet *a1, inet *a2)
{
if ((ip_family(a1) == AF_INET) && (ip_family(a2) == AF_INET))
{
return ((ip_bits(a1) == ip_bits(a2))
&& (v4bitncmp(ip_v4addr(a1), ip_v4addr(a2), ip_bits(a1)) == 0));
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "cannot compare address families %d and %d",
ip_family(a1), ip_family(a2));
return (FALSE);
}
}
bool
inet_ge(inet *a1, inet *a2)
{
return (inet_gt(a1, a2) || inet_eq(a1, a2));
}
bool
inet_gt(inet *a1, inet *a2)
{
if ((ip_family(a1) == AF_INET) && (ip_family(a2) == AF_INET))
{
int order = v4bitncmp(ip_v4addr(a1), ip_v4addr(a2), ip_bits(a2));
return ((order > 0) || ((order == 0) && (ip_bits(a1) > ip_bits(a2))));
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "cannot compare address families %d and %d",
ip_family(a1), ip_family(a2));
return (FALSE);
}
}
bool
inet_ne(inet *a1, inet *a2)
{
return (!inet_eq(a1, a2));
}
bool
inet_sub(inet *a1, inet *a2)
{
if ((ip_family(a1) == AF_INET) && (ip_family(a2) == AF_INET))
{
return ((ip_bits(a1) > ip_bits(a2))
&& (v4bitncmp(ip_v4addr(a1), ip_v4addr(a2), ip_bits(a2)) == 0));
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "cannot compare address families %d and %d",
ip_family(a1), ip_family(a2));
return (FALSE);
}
}
bool
inet_subeq(inet *a1, inet *a2)
{
if ((ip_family(a1) == AF_INET) && (ip_family(a2) == AF_INET))
{
return ((ip_bits(a1) >= ip_bits(a2))
&& (v4bitncmp(ip_v4addr(a1), ip_v4addr(a2), ip_bits(a2)) == 0));
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "cannot compare address families %d and %d",
ip_family(a1), ip_family(a2));
return (FALSE);
}
}
bool
inet_sup(inet *a1, inet *a2)
{
if ((ip_family(a1) == AF_INET) && (ip_family(a2) == AF_INET))
{
return ((ip_bits(a1) < ip_bits(a2))
&& (v4bitncmp(ip_v4addr(a1), ip_v4addr(a2), ip_bits(a1)) == 0));
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "cannot compare address families %d and %d",
ip_family(a1), ip_family(a2));
return (FALSE);
}
}
bool
inet_supeq(inet *a1, inet *a2)
{
if ((ip_family(a1) == AF_INET) && (ip_family(a2) == AF_INET))
{
return ((ip_bits(a1) <= ip_bits(a2))
&& (v4bitncmp(ip_v4addr(a1), ip_v4addr(a2), ip_bits(a1)) == 0));
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "cannot compare address families %d and %d",
ip_family(a1), ip_family(a2));
return (FALSE);
}
}
/*
* Comparison function for sorting. Add V4/V6 testing!
*/
int4
inet_cmp(inet *a1, inet *a2)
{
if (ntohl(ip_v4addr(a1)) < ntohl(ip_v4addr(a2)))
return (-1);
else if (ntohl(ip_v4addr(a1)) > ntohl(ip_v4addr(a2)))
return (1);
return 0;
}
text *
host(inet *ip)
{
text *ret;
int len;
char *ptr,
tmp[sizeof("255.255.255.255/32")];
if (ip_type(ip))
{
elog(ERROR, "CIDR type has no host part");
return NULL;
}
if (ip_family(ip) == AF_INET)
{
/* It's an IP V4 address: */
if (inet_net_ntop(AF_INET, &ip_v4addr(ip), 32, tmp, sizeof(tmp)) < 0)
{
elog(ERROR, "unable to print host (%s)", strerror(errno));
return (NULL);
}
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "unknown address family (%d)", ip_family(ip));
return (NULL);
}
if ((ptr = strchr(tmp, '/')) != NULL)
*ptr = 0;
len = VARHDRSZ + strlen(tmp) + 1;
ret = palloc(len);
if (ret == NULL)
{
elog(ERROR, "unable to allocate memory in host()");
return (NULL);
}
VARSIZE(ret) = len;
strcpy(VARDATA(ret), tmp);
return (ret);
}
int4
masklen(inet *ip)
{
return ip_bits(ip);
}
text *
broadcast(inet *ip)
{
text *ret;
int len;
char *ptr,
tmp[sizeof("255.255.255.255/32")] = "Hello";
if (ip_family(ip) == AF_INET)
{
/* It's an IP V4 address: */
int addr = htonl(ntohl(ip_v4addr(ip)) | (0xffffffff >> ip_bits(ip)));
/* int addr = htonl(ip_v4addr(ip) | (0xffffffff >> ip_bits(ip))); */
if (inet_net_ntop(AF_INET, &addr, 32, tmp, sizeof(tmp)) < 0)
{
elog(ERROR, "unable to print address (%s)", strerror(errno));
return (NULL);
}
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "unknown address family (%d)", ip_family(ip));
return (NULL);
}
if ((ptr = strchr(tmp, '/')) != NULL)
*ptr = 0;
len = VARHDRSZ + strlen(tmp) + 1;
ret = palloc(len);
if (ret == NULL)
{
elog(ERROR, "unable to allocate memory in broadcast()");
return (NULL);
}
VARSIZE(ret) = len;
strcpy(VARDATA(ret), tmp);
return (ret);
}
text *
netmask(inet *ip)
{
text *ret;
int len;
char *ptr,
tmp[sizeof("255.255.255.255/32")];
if (ip_family(ip) == AF_INET)
{
/* It's an IP V4 address: */
int addr = htonl((-1 << (32 - ip_bits(ip))) & 0xffffffff);
if (inet_net_ntop(AF_INET, &addr, 32, tmp, sizeof(tmp)) < 0)
{
elog(ERROR, "unable to print netmask (%s)", strerror(errno));
return (NULL);
}
}
else
{
/* Go for an IPV6 address here, before faulting out: */
elog(ERROR, "unknown address family (%d)", ip_family(ip));
return (NULL);
}
if ((ptr = strchr(tmp, '/')) != NULL)
*ptr = 0;
len = VARHDRSZ + strlen(tmp) + 1;
ret = palloc(len);
if (ret == NULL)
{
elog(ERROR, "unable to allocate memory in netmask()");
return (NULL);
}
VARSIZE(ret) = len;
strcpy(VARDATA(ret), tmp);
return (ret);
}
/*
* Bitwise comparison for V4 addresses. Add V6 implementation!
*/
static int
v4bitncmp(unsigned int a1, unsigned int a2, int bits)
{
unsigned long mask = 0;
int i;
for (i = 0; i < bits; i++)
mask = (mask >> 1) | 0x80000000;
a1 = ntohl(a1);
a2 = ntohl(a2);
if ((a1 & mask) < (a2 & mask))
return (-1);
else if ((a1 & mask) > (a2 & mask))
return (1);
return (0);
}