/***********************************************************************
* *
* This software is part of the ast package *
* Copyright (c) 1996-2011 AT&T Intellectual Property *
* and is licensed under the *
* Eclipse Public License, Version 1.0 *
* by AT&T Intellectual Property *
* *
* A copy of the License is available at *
* http://www.eclipse.org/org/documents/epl-v10.html *
* (with md5 checksum b35adb5213ca9657e911e9befb180842) *
* *
* Information and Software Systems Research *
* AT&T Research *
* Florham Park NJ *
* *
* Glenn Fowler <gsf@research.att.com> *
* *
***********************************************************************/
#pragma prototyped
/*
* sum(3) wrapper for solaris -lmd message digest library
*/
typedef void (*Lmd_init_f)(void*);
typedef void (*Lmd_update_f)(void*, const void*, size_t);
typedef void (*Lmd_final_f)(unsigned char*, void*);
#define _SUM_LMD_ \
_SUM_PUBLIC_ \
_SUM_PRIVATE_ \
Lmd_init_f initf; \
Lmd_update_f updatef; \
Lmd_final_f finalf; \
unsigned int datasize; \
unsigned char total[64]; \
unsigned char data[64];
typedef struct Lmd_s
{
_SUM_LMD_
struct
{
uintmax_t context;
} context;
} Lmd_t;
static int
lmd_init(Sum_t* p)
{
Lmd_t* lmd = (Lmd_t*)p;
(*lmd->initf)(&lmd->context);
return 0;
}
static int
lmd_block(Sum_t* p, const void* s, size_t n)
{
Lmd_t* lmd = (Lmd_t*)p;
(*lmd->updatef)(&lmd->context, s, n);
return 0;
}
static int
lmd_done(Sum_t* p)
{
register Lmd_t* lmd = (Lmd_t*)p;
register int i;
(*lmd->finalf)(lmd->data, &lmd->context);
for (i = 0; i < lmd->datasize; i++)
lmd->total[i] ^= lmd->data[i];
return 0;
}
static int
lmd_print(Sum_t* p, Sfio_t* sp, register int flags, size_t scale)
{
register Lmd_t* lmd = (Lmd_t*)p;
register unsigned char* d;
register int i;
d = (flags & SUM_TOTAL) ? lmd->total : lmd->data;
for (i = 0; i < lmd->datasize; i++)
sfprintf(sp, "%02x", d[i]);
return 0;
}
static int
lmd_data(Sum_t* p, Sumdata_t* data)
{
Lmd_t* lmd = (Lmd_t*)p;
data->size = lmd->datasize;
data->num = 0;
data->buf = lmd->data;
return 0;
}
#if _lib_MD4Init && _hdr_md4
#include <md4.h>
#define md4_description "RFC1320 MD4 message digest. Cryptographically weak. The block count is not printed."
#define md4_options "[+(version)?md4 (solaris -lmd) 2005-07-26]"
#define md4_match "md4|MD4"
#define md4_scale 0
#define md4_init lmd_init
#define md4_block lmd_block
#define md4_done lmd_done
#define md4_print lmd_print
#define md4_data lmd_data
typedef struct Md4_s
{
_SUM_LMD_
MD4_CTX context;
} Md4_t;
static Sum_t*
md4_open(const Method_t* method, const char* name)
{
Md4_t* lmd;
if (lmd = newof(0, Md4_t, 1, 0))
{
lmd->method = (Method_t*)method;
lmd->name = name;
lmd->datasize = 16;
lmd->initf = (Lmd_init_f)MD4Init;
lmd->updatef = (Lmd_update_f)MD4Update;
lmd->finalf = (Lmd_final_f)MD4Final;
md4_init((Sum_t*)lmd);
}
return (Sum_t*)lmd;
}
#endif
#if _lib_MD5Init && _hdr_md5
#include <md5.h>
#define md5_description "RFC1321 MD5 message digest. Cryptographically weak. The block count is not printed."
#define md5_options "[+(version)?md5 (solaris -lmd) 2005-07-26]"
#define md5_match "md5|MD5"
#define md5_scale 0
#define md5_init lmd_init
#define md5_block lmd_block
#define md5_done lmd_done
#define md5_print lmd_print
#define md5_data lmd_data
typedef struct Md5_s
{
_SUM_LMD_
MD5_CTX context;
} Md5_t;
static Sum_t*
md5_open(const Method_t* method, const char* name)
{
Md5_t* lmd;
if (lmd = newof(0, Md5_t, 1, 0))
{
lmd->method = (Method_t*)method;
lmd->name = name;
lmd->datasize = 16;
lmd->initf = (Lmd_init_f)MD5Init;
lmd->updatef = (Lmd_update_f)MD5Update;
lmd->finalf = (Lmd_final_f)MD5Final;
md5_init((Sum_t*)lmd);
}
return (Sum_t*)lmd;
}
#endif
#if _lib_SHA1Init && _hdr_sha1
#include <sha1.h>
#define sha1_description "RFC3174 / FIPS 180-1 SHA-1 secure hash algorithm 1. Cryptographically weak. The block count is not printed."
#define sha1_options "[+(version)?sha1 (solaris -lmd) 2005-07-26]"
#define sha1_match "sha1|SHA1|sha-1|SHA-1"
#define sha1_scale 0
#define sha1_init lmd_init
#define sha1_block lmd_block
#define sha1_done lmd_done
#define sha1_print lmd_print
#define sha1_data lmd_data
typedef struct Sha1_s
{
_SUM_LMD_
SHA1_CTX context;
unsigned char pad[1024]; /* XXX: who's bug is it? */
} Sha1_t;
static Sum_t*
sha1_open(const Method_t* method, const char* name)
{
Sha1_t* lmd;
if (lmd = newof(0, Sha1_t, 1, 0))
{
lmd->method = (Method_t*)method;
lmd->name = name;
lmd->datasize = 20;
lmd->initf = (Lmd_init_f)SHA1Init;
lmd->updatef = (Lmd_update_f)SHA1Update;
lmd->finalf = (Lmd_final_f)SHA1Final;
sha1_init((Sum_t*)lmd);
}
return (Sum_t*)lmd;
}
#endif
#if _lib_SHA2Init && _hdr_sha2
#include <sha2.h>
#define sha256_description "FIPS 180-2 SHA256 secure hash algorithm. The block count is not printed."
#define sha256_options "[+(version)?sha256 (solaris -lmd) 2005-07-26]"
#define sha256_match "sha256|sha-256|SHA256|SHA-256"
#define sha256_scale 0
#define sha256_init lmd_init
#define sha256_block lmd_block
#define sha256_done lmd_done
#define sha256_print lmd_print
#define sha256_data lmd_data
typedef struct Sha256_s
{
_SUM_LMD_
SHA256_CTX context;
} Sha256_t;
static Sum_t*
sha256_open(const Method_t* method, const char* name)
{
Sha256_t* lmd;
if (lmd = newof(0, Sha256_t, 1, 0))
{
lmd->method = (Method_t*)method;
lmd->name = name;
lmd->datasize = 32;
lmd->initf = (Lmd_init_f)SHA256Init;
lmd->updatef = (Lmd_update_f)SHA256Update;
lmd->finalf = (Lmd_final_f)SHA256Final;
sha256_init((Sum_t*)lmd);
}
return (Sum_t*)lmd;
}
#define sha384_description "FIPS 180-2 SHA384 secure hash algorithm. The block count is not printed."
#define sha384_options "[+(version)?sha384 (solaris -lmd) 2005-07-26]"
#define sha384_match "sha384|sha-384|SHA384|SHA-384"
#define sha384_scale 0
#define sha384_init lmd_init
#define sha384_block lmd_block
#define sha384_done lmd_done
#define sha384_print lmd_print
#define sha384_data lmd_data
typedef struct Sha384_s
{
_SUM_LMD_
SHA384_CTX context;
} Sha384_t;
static Sum_t*
sha384_open(const Method_t* method, const char* name)
{
Sha384_t* lmd;
if (lmd = newof(0, Sha384_t, 1, 0))
{
lmd->method = (Method_t*)method;
lmd->name = name;
lmd->datasize = 48;
lmd->initf = (Lmd_init_f)SHA384Init;
lmd->updatef = (Lmd_update_f)SHA384Update;
lmd->finalf = (Lmd_final_f)SHA384Final;
sha384_init((Sum_t*)lmd);
}
return (Sum_t*)lmd;
}
#define sha512_description "FIPS 180-2 SHA512 secure hash algorithm. The block count is not printed."
#define sha512_options "[+(version)?sha512 (solaris -lmd) 2005-07-26]"
#define sha512_match "sha512|sha-512|SHA512|SHA-512"
#define sha512_scale 0
#define sha512_init lmd_init
#define sha512_block lmd_block
#define sha512_done lmd_done
#define sha512_print lmd_print
#define sha512_data lmd_data
typedef struct Sha512_s
{
_SUM_LMD_
SHA512_CTX context;
} Sha512_t;
static Sum_t*
sha512_open(const Method_t* method, const char* name)
{
Sha512_t* lmd;
if (lmd = newof(0, Sha512_t, 1, 0))
{
lmd->method = (Method_t*)method;
lmd->name = name;
lmd->datasize = 64;
lmd->initf = (Lmd_init_f)SHA512Init;
lmd->updatef = (Lmd_update_f)SHA512Update;
lmd->finalf = (Lmd_final_f)SHA512Final;
sha512_init((Sum_t*)lmd);
}
return (Sum_t*)lmd;
}
#endif