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/*
* The mrouted program is covered by the license in the accompanying file
* named "LICENSE". Use of the mrouted program represents acceptance of
* the terms and conditions listed in that file.
*
* The mrouted program is COPYRIGHT 1989 by The Board of Trustees of
* Leland Stanford Junior University.
*
*
* $Id: inet.c,v 3.8.1.1 1995/12/01 22:20:26 fenner Exp $
*/
#include "defs.h"
/*
* Exported variables.
*/
char s1[19]; /* buffers to hold the string representations */
char s2[19]; /* of IP addresses, to be passed to inet_fmt() */
char s3[19]; /* or inet_fmts(). */
char s4[19];
/*
* Verify that a given IP address is credible as a host address.
* (Without a mask, cannot detect addresses of the form {subnet,0} or
* {subnet,-1}.)
*/
int
inet_valid_host(naddr)
u_int32 naddr;
{
register u_int32 addr;
addr = ntohl(naddr);
return (!(IN_MULTICAST(addr) ||
IN_BADCLASS (addr) ||
(addr & 0xff000000) == 0));
}
/*
* Verify that a given netmask is plausible;
* make sure that it is a series of 1's followed by
* a series of 0's with no discontiguous 1's.
*/
int
inet_valid_mask(mask)
u_int32 mask;
{
if (~(((mask & -mask) - 1) | mask) != 0) {
/* Mask is not contiguous */
return (FALSE);
}
return (TRUE);
}
/*
* Verify that a given subnet number and mask pair are credible.
*
* With CIDR, almost any subnet and mask are credible. mrouted still
* can't handle aggregated class A's, so we still check that, but
* otherwise the only requirements are that the subnet address is
* within the [ABC] range and that the host bits of the subnet
* are all 0.
*/
int
inet_valid_subnet(nsubnet, nmask)
u_int32 nsubnet, nmask;
{
register u_int32 subnet, mask;
subnet = ntohl(nsubnet);
mask = ntohl(nmask);
if ((subnet & mask) != subnet) return (FALSE);
if (subnet == 0)
return (mask == 0);
if (IN_CLASSA(subnet)) {
if (mask < 0xff000000 ||
(subnet & 0xff000000) == 0x7f000000 ||
(subnet & 0xff000000) == 0x00000000) return (FALSE);
}
else if (IN_CLASSD(subnet) || IN_BADCLASS(subnet)) {
/* Above Class C address space */
return (FALSE);
}
if (subnet & ~mask) {
/* Host bits are set in the subnet */
return (FALSE);
}
if (!inet_valid_mask(mask)) {
/* Netmask is not contiguous */
return (FALSE);
}
return (TRUE);
}
/*
* Convert an IP address in u_long (network) format into a printable string.
*/
char *
inet_fmt(addr, s)
u_int32 addr;
char *s;
{
register u_char *a;
a = (u_char *)&addr;
sprintf(s, "%u.%u.%u.%u", a[0], a[1], a[2], a[3]);
return (s);
}
/*
* Convert an IP subnet number in u_long (network) format into a printable
* string including the netmask as a number of bits.
*/
char *
inet_fmts(addr, mask, s)
u_int32 addr, mask;
char *s;
{
register u_char *a, *m;
int bits;
if ((addr == 0) && (mask == 0)) {
sprintf(s, "default");
return (s);
}
a = (u_char *)&addr;
m = (u_char *)&mask;
bits = 33 - ffs(ntohl(mask));
if (m[3] != 0) sprintf(s, "%u.%u.%u.%u/%d", a[0], a[1], a[2], a[3],
bits);
else if (m[2] != 0) sprintf(s, "%u.%u.%u/%d", a[0], a[1], a[2], bits);
else if (m[1] != 0) sprintf(s, "%u.%u/%d", a[0], a[1], bits);
else sprintf(s, "%u/%d", a[0], bits);
return (s);
}
/*
* Convert the printable string representation of an IP address into the
* u_long (network) format. Return 0xffffffff on error. (To detect the
* legal address with that value, you must explicitly compare the string
* with "255.255.255.255".)
*/
u_int32
inet_parse(s,n)
char *s;
int n;
{
u_int32 a = 0;
u_int a0 = 0, a1 = 0, a2 = 0, a3 = 0;
int i;
char c;
i = sscanf(s, "%u.%u.%u.%u%c", &a0, &a1, &a2, &a3, &c);
if (i < n || i > 4 || a0 > 255 || a1 > 255 || a2 > 255 || a3 > 255)
return (0xffffffff);
((u_char *)&a)[0] = a0;
((u_char *)&a)[1] = a1;
((u_char *)&a)[2] = a2;
((u_char *)&a)[3] = a3;
return (a);
}
/*
* inet_cksum extracted from:
* P I N G . C
*
* Author -
* Mike Muuss
* U. S. Army Ballistic Research Laboratory
* December, 1983
* Modified at Uc Berkeley
*
* (ping.c) Status -
* Public Domain. Distribution Unlimited.
*
* I N _ C K S U M
*
* Checksum routine for Internet Protocol family headers (C Version)
*
*/
int
inet_cksum(addr, len)
u_short *addr;
u_int len;
{
register int nleft = (int)len;
register u_short *w = addr;
u_short answer = 0;
register int sum = 0;
/*
* Our algorithm is simple, using a 32 bit accumulator (sum),
* we add sequential 16 bit words to it, and at the end, fold
* back all the carry bits from the top 16 bits into the lower
* 16 bits.
*/
while (nleft > 1) {
sum += *w++;
nleft -= 2;
}
/* mop up an odd byte, if necessary */
if (nleft == 1) {
*(u_char *) (&answer) = *(u_char *)w ;
sum += answer;
}
/*
* add back carry outs from top 16 bits to low 16 bits
*/
sum = (sum >> 16) + (sum & 0xffff); /* add hi 16 to low 16 */
sum += (sum >> 16); /* add carry */
answer = ~sum; /* truncate to 16 bits */
return (answer);
}
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