tomcrypt/sha1.c

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C
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#include "mycrypt.h"
#ifdef SHA1
const struct _hash_descriptor sha1_desc =
{
"sha1",
2,
20,
64,
&sha1_init,
&sha1_process,
&sha1_done,
&sha1_test
};
#define F0(x,y,z) ( (x&y) | ((~x)&z) )
#define F1(x,y,z) (x ^ y ^ z)
#define F2(x,y,z) ((x & y) | (z & (x | y)))
#define F3(x,y,z) (x ^ y ^ z)
#ifdef CLEAN_STACK
static void _sha1_compress(hash_state *md)
#else
static void sha1_compress(hash_state *md)
#endif
{
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unsigned long a,b,c,d,e,W[80],i,j,j2,j3;
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_ARGCHK(md != NULL);
/* copy the state into 512-bits into W[0..15] */
for (i = 0; i < 16; i++) {
LOAD32H(W[i], md->sha1.buf + (4*i));
}
/* copy state */
a = md->sha1.state[0];
b = md->sha1.state[1];
c = md->sha1.state[2];
d = md->sha1.state[3];
e = md->sha1.state[4];
/* expand it */
for (i = 16; i < 80; i++) {
j = W[i-3] ^ W[i-8] ^ W[i-14] ^ W[i-16];
W[i] = ROL(j, 1);
}
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/* compress */
/* round one */
for (i = 0; i < 20; i++) {
j = (ROL(a, 5) + F0(b,c,d) + e + W[i] + 0x5a827999UL);
e = d;
d = c;
c = ROL(b, 30);
b = a;
a = j;
}
/* round two */
for (i = 20; i < 40; i++) {
j = (ROL(a, 5) + F1(b,c,d) + e + W[i] + 0x6ed9eba1UL);
e = d;
d = c;
c = ROL(b, 30);
b = a;
a = j;
}
/* round three */
for (i = 40; i < 60; i++) {
j = (ROL(a, 5) + F2(b,c,d) + e + W[i] + 0x8f1bbcdcUL);
e = d;
d = c;
c = ROL(b, 30);
b = a;
a = j;
}
/* round four */
for (i = 60; i < 80; i++) {
j = (ROL(a, 5) + F3(b,c,d) + e + W[i] + 0xca62c1d6UL);
e = d;
d = c;
c = ROL(b, 30);
b = a;
a = j;
}
/* store */
md->sha1.state[0] = md->sha1.state[0] + a;
md->sha1.state[1] = md->sha1.state[1] + b;
md->sha1.state[2] = md->sha1.state[2] + c;
md->sha1.state[3] = md->sha1.state[3] + d;
md->sha1.state[4] = md->sha1.state[4] + e;
}
#ifdef CLEAN_STACK
static void sha1_compress(hash_state *md)
{
_sha1_compress(md);
burn_stack(sizeof(unsigned long) * 87);
}
#endif
void sha1_init(hash_state * md)
{
_ARGCHK(md != NULL);
md->sha1.state[0] = 0x67452301UL;
md->sha1.state[1] = 0xefcdab89UL;
md->sha1.state[2] = 0x98badcfeUL;
md->sha1.state[3] = 0x10325476UL;
md->sha1.state[4] = 0xc3d2e1f0UL;
md->sha1.curlen = 0;
md->sha1.length = 0;
}
void sha1_process(hash_state * md, const unsigned char *buf, unsigned long len)
{
unsigned long n;
_ARGCHK(md != NULL);
_ARGCHK(buf != NULL);
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while (len > 0) {
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n = MIN(len, (64 - md->sha1.curlen));
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memcpy(md->sha1.buf + md->sha1.curlen, buf, (size_t)n);
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md->sha1.curlen += n;
buf += n;
len -= n;
/* is 64 bytes full? */
if (md->sha1.curlen == 64) {
sha1_compress(md);
md->sha1.length += 512;
md->sha1.curlen = 0;
}
}
}
void sha1_done(hash_state * md, unsigned char *hash)
{
int i;
_ARGCHK(md != NULL);
_ARGCHK(hash != NULL);
/* increase the length of the message */
md->sha1.length += md->sha1.curlen * 8;
/* append the '1' bit */
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md->sha1.buf[md->sha1.curlen++] = (unsigned char)0x80;
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/* if the length is currently above 56 bytes we append zeros
* then compress. Then we can fall back to padding zeros and length
* encoding like normal.
*/
if (md->sha1.curlen > 56) {
while (md->sha1.curlen < 64) {
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md->sha1.buf[md->sha1.curlen++] = (unsigned char)0;
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}
sha1_compress(md);
md->sha1.curlen = 0;
}
/* pad upto 56 bytes of zeroes */
while (md->sha1.curlen < 56) {
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md->sha1.buf[md->sha1.curlen++] = (unsigned char)0;
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}
/* store length */
STORE64H(md->sha1.length, md->sha1.buf+56);
sha1_compress(md);
/* copy output */
for (i = 0; i < 5; i++) {
STORE32H(md->sha1.state[i], hash+(4*i));
}
#ifdef CLEAN_STACK
zeromem(md, sizeof(hash_state));
#endif
}
int sha1_test(void)
{
static const struct {
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char *msg;
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unsigned char hash[20];
} tests[] = {
{ "abc",
{ 0xa9, 0x99, 0x3e, 0x36, 0x47, 0x06, 0x81, 0x6a,
0xba, 0x3e, 0x25, 0x71, 0x78, 0x50, 0xc2, 0x6c,
0x9c, 0xd0, 0xd8, 0x9d }
},
{ "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq",
{ 0x84, 0x98, 0x3E, 0x44, 0x1C, 0x3B, 0xD2, 0x6E,
0xBA, 0xAE, 0x4A, 0xA1, 0xF9, 0x51, 0x29, 0xE5,
0xE5, 0x46, 0x70, 0xF1 }
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}
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};
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int i;
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unsigned char tmp[20];
hash_state md;
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for (i = 0; i < (int)(sizeof(tests) / sizeof(tests[0])); i++) {
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sha1_init(&md);
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sha1_process(&md, (unsigned char*)tests[i].msg, (unsigned long)strlen(tests[i].msg));
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sha1_done(&md, tmp);
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if (memcmp(tmp, tests[i].hash, 20) != 0) {
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return CRYPT_FAIL_TESTVECTOR;
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}
}
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return CRYPT_OK;
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}
#endif