freebsd-nq/contrib/opie/libopie/hash.c
Xin LI 9776cb63ad RFC 2289 requires all hashes be stored in little endian format before
folding to 64 bits, while SHA1 code is big endian.  Therefore, a bswap32
is required before using the value.

Without this change, the implementation does not conform to test vector
found in RFC 2289.

PR:		bin/170519
Submitted by:	Arthur Mesh <arthurmesh gmail com> (with changes)
MFC after:	1 week
2012-08-10 04:48:58 +00:00

79 lines
2.0 KiB
C

/* hash.c: The opiehash() library function.
%%% copyright-cmetz-96
This software is Copyright 1996-2001 by Craig Metz, All Rights Reserved.
The Inner Net License Version 3 applies to this software.
You should have received a copy of the license with this software. If
you didn't get a copy, you may request one from <license@inner.net>.
History:
Modified by cmetz for OPIE 2.4. Use struct opie_otpkey for binary arg.
Modified by cmetz for OPIE 2.31. Added SHA support (which may
not be correct). Backed out previous optimizations as
they killed thread-safety.
Created by cmetz for OPIE 2.3 using the old hash.c as a guide.
$FreeBSD$
*/
#include <sys/endian.h>
#include "opie_cfg.h"
#include "opie.h"
#include <sha.h>
#include <md4.h>
#include <md5.h>
VOIDRET opiehash FUNCTION((x, algorithm), struct opie_otpkey *x AND
unsigned algorithm)
{
UINT4 *results = (UINT4 *)x;
switch(algorithm) {
case 3:
{
SHA_CTX sha;
UINT4 digest[5];
SHA1_Init(&sha);
SHA1_Update(&sha, (unsigned char *)x, 8);
SHA1_Final((unsigned char *)digest, &sha);
results[0] = digest[0] ^ digest[2] ^ digest[4];
results[1] = digest[1] ^ digest[3];
/*
* RFC2289 mandates that we convert SHA1 digest from big-endian to little
* see Appendix A.
*/
results[0] = bswap32(results[0]);
results[1] = bswap32(results[1]);
};
break;
case 4:
{
MD4_CTX mdx;
UINT4 mdx_tmp[4];
MD4Init(&mdx);
MD4Update(&mdx, (unsigned char *)x, 8);
MD4Final((unsigned char *)mdx_tmp, &mdx);
results[0] = mdx_tmp[0] ^ mdx_tmp[2];
results[1] = mdx_tmp[1] ^ mdx_tmp[3];
};
break;
case 5:
{
MD5_CTX mdx;
UINT4 mdx_tmp[4];
MD5Init(&mdx);
MD5Update(&mdx, (unsigned char *)x, 8);
MD5Final((unsigned char *)mdx_tmp, &mdx);
results[0] = mdx_tmp[0] ^ mdx_tmp[2];
results[1] = mdx_tmp[1] ^ mdx_tmp[3];
};
break;
}
}