tommath/bn_mp_exptmod_fast.c

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/* LibTomMath, multiple-precision integer library -- Tom St Denis
*
* LibTomMath is library that provides for multiple-precision
* integer arithmetic as well as number theoretic functionality.
*
* The library is designed directly after the MPI library by
* Michael Fromberger but has been written from scratch with
* additional optimizations in place.
*
* The library is free for all purposes without any express
* guarantee it works.
*
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* Tom St Denis, tomstdenis@iahu.ca, http://math.libtomcrypt.org
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*/
#include <tommath.h>
/* computes Y == G^X mod P, HAC pp.616, Algorithm 14.85
*
* Uses a left-to-right k-ary sliding window to compute the modular exponentiation.
* The value of k changes based on the size of the exponent.
*
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* Uses Montgomery or Diminished Radix reduction [whichever appropriate]
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*/
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#ifdef MP_LOW_MEM
#define TAB_SIZE 32
#else
#define TAB_SIZE 256
#endif
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int
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mp_exptmod_fast (mp_int * G, mp_int * X, mp_int * P, mp_int * Y, int redmode)
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{
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mp_int M[TAB_SIZE], res;
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mp_digit buf, mp;
int err, bitbuf, bitcpy, bitcnt, mode, digidx, x, y, winsize;
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/* use a pointer to the reduction algorithm. This allows us to use
* one of many reduction algorithms without modding the guts of
* the code with if statements everywhere.
*/
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int (*redux)(mp_int*,mp_int*,mp_digit);
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/* find window size */
x = mp_count_bits (X);
if (x <= 7) {
winsize = 2;
} else if (x <= 36) {
winsize = 3;
} else if (x <= 140) {
winsize = 4;
} else if (x <= 450) {
winsize = 5;
} else if (x <= 1303) {
winsize = 6;
} else if (x <= 3529) {
winsize = 7;
} else {
winsize = 8;
}
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#ifdef MP_LOW_MEM
if (winsize > 5) {
winsize = 5;
}
#endif
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/* init M array */
/* init first cell */
if ((err = mp_init(&M[1])) != MP_OKAY) {
return err;
}
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/* now init the second half of the array */
for (x = 1<<(winsize-1); x < (1 << winsize); x++) {
if ((err = mp_init(&M[x])) != MP_OKAY) {
for (y = 1<<(winsize-1); y < x; y++) {
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mp_clear (&M[y]);
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}
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mp_clear(&M[1]);
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return err;
}
}
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/* determine and setup reduction code */
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if (redmode == 0) {
/* now setup montgomery */
if ((err = mp_montgomery_setup (P, &mp)) != MP_OKAY) {
goto __M;
}
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/* automatically pick the comba one if available (saves quite a few calls/ifs) */
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if (((P->used * 2 + 1) < MP_WARRAY) &&
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P->used < (1 << ((CHAR_BIT * sizeof (mp_word)) - (2 * DIGIT_BIT)))) {
redux = fast_mp_montgomery_reduce;
} else {
/* use slower baselien method */
redux = mp_montgomery_reduce;
}
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} else if (redmode == 1) {
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/* setup DR reduction */
mp_dr_setup(P, &mp);
redux = mp_dr_reduce;
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} else {
/* setup 2k reduction */
if ((err = mp_reduce_2k_setup(P, &mp)) != MP_OKAY) {
goto __M;
}
redux = mp_reduce_2k;
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}
/* setup result */
if ((err = mp_init (&res)) != MP_OKAY) {
goto __RES;
}
/* create M table
*
* The M table contains powers of the input base, e.g. M[x] = G^x mod P
*
* The first half of the table is not computed though accept for M[0] and M[1]
*/
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if (redmode == 0) {
/* now we need R mod m */
if ((err = mp_montgomery_calc_normalization (&res, P)) != MP_OKAY) {
goto __RES;
}
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/* now set M[1] to G * R mod m */
if ((err = mp_mulmod (G, &res, P, &M[1])) != MP_OKAY) {
goto __RES;
}
} else {
mp_set(&res, 1);
if ((err = mp_mod(G, P, &M[1])) != MP_OKAY) {
goto __RES;
}
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}
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/* compute the value at M[1<<(winsize-1)] by squaring M[1] (winsize-1) times */
if ((err = mp_copy (&M[1], &M[1 << (winsize - 1)])) != MP_OKAY) {
goto __RES;
}
for (x = 0; x < (winsize - 1); x++) {
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if ((err = mp_sqr (&M[1 << (winsize - 1)], &M[1 << (winsize - 1)])) != MP_OKAY) {
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goto __RES;
}
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if ((err = redux (&M[1 << (winsize - 1)], P, mp)) != MP_OKAY) {
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goto __RES;
}
}
/* create upper table */
for (x = (1 << (winsize - 1)) + 1; x < (1 << winsize); x++) {
if ((err = mp_mul (&M[x - 1], &M[1], &M[x])) != MP_OKAY) {
goto __RES;
}
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if ((err = redux (&M[x], P, mp)) != MP_OKAY) {
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goto __RES;
}
}
/* set initial mode and bit cnt */
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mode = 0;
bitcnt = 1;
buf = 0;
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digidx = X->used - 1;
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bitcpy = 0;
bitbuf = 0;
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for (;;) {
/* grab next digit as required */
if (--bitcnt == 0) {
if (digidx == -1) {
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break;
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}
buf = X->dp[digidx--];
bitcnt = (int) DIGIT_BIT;
}
/* grab the next msb from the exponent */
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y = (mp_digit)(buf >> (DIGIT_BIT - 1)) & 1;
buf <<= (mp_digit)1;
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/* if the bit is zero and mode == 0 then we ignore it
* These represent the leading zero bits before the first 1 bit
* in the exponent. Technically this opt is not required but it
* does lower the # of trivial squaring/reductions used
*/
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if (mode == 0 && y == 0) {
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continue;
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}
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/* if the bit is zero and mode == 1 then we square */
if (mode == 1 && y == 0) {
if ((err = mp_sqr (&res, &res)) != MP_OKAY) {
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goto __RES;
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}
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if ((err = redux (&res, P, mp)) != MP_OKAY) {
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goto __RES;
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}
continue;
}
/* else we add it to the window */
bitbuf |= (y << (winsize - ++bitcpy));
mode = 2;
if (bitcpy == winsize) {
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/* ok window is filled so square as required and multiply */
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/* square first */
for (x = 0; x < winsize; x++) {
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if ((err = mp_sqr (&res, &res)) != MP_OKAY) {
goto __RES;
}
if ((err = redux (&res, P, mp)) != MP_OKAY) {
goto __RES;
}
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}
/* then multiply */
if ((err = mp_mul (&res, &M[bitbuf], &res)) != MP_OKAY) {
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goto __RES;
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}
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if ((err = redux (&res, P, mp)) != MP_OKAY) {
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goto __RES;
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}
/* empty window and reset */
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bitcpy = 0;
bitbuf = 0;
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mode = 1;
}
}
/* if bits remain then square/multiply */
if (mode == 2 && bitcpy > 0) {
/* square then multiply if the bit is set */
for (x = 0; x < bitcpy; x++) {
if ((err = mp_sqr (&res, &res)) != MP_OKAY) {
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goto __RES;
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}
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if ((err = redux (&res, P, mp)) != MP_OKAY) {
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goto __RES;
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}
bitbuf <<= 1;
if ((bitbuf & (1 << winsize)) != 0) {
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/* then multiply */
if ((err = mp_mul (&res, &M[1], &res)) != MP_OKAY) {
goto __RES;
}
if ((err = redux (&res, P, mp)) != MP_OKAY) {
goto __RES;
}
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}
}
}
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if (redmode == 0) {
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/* fixup result if Montgomery reduction is used */
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if ((err = mp_montgomery_reduce (&res, P, mp)) != MP_OKAY) {
goto __RES;
}
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}
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mp_exch (&res, Y);
err = MP_OKAY;
__RES:mp_clear (&res);
__M:
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mp_clear(&M[1]);
for (x = 1<<(winsize-1); x < (1 << winsize); x++) {
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mp_clear (&M[x]);
}
return err;
}