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// SPDX-License-Identifier: BSD-2-Clause
/*
* Copyright (c) 2014, STMicroelectronics International N.V.
*/
#include "mpa.h"
/*************************************************************
*
* HELPER FUNCTIONS
*
*************************************************************/
/*------------------------------------------------------------
*
* __mpa_divby2
*
*/
static void __mpa_divby2(mpanum op)
{
mpa_word_t i;
/* The bit of the word which will be shifted into another word. */
mpa_word_t rbit;
int msw_became_zero;
if (__mpanum_is_zero(op))
return;
msw_became_zero = ((__mpanum_msw(op) >> 1) == 0) ? 1 : 0;
op->d[0] = op->d[0] >> 1;
for (i = 1; i < __mpanum_size(op); i++) {
rbit = op->d[i] & 0x01;
op->d[i] = op->d[i] >> 1;
op->d[i - 1] ^= (rbit << (WORD_SIZE - 1));
}
/* update the size of dest */
if (__mpanum_sign(op) == MPA_NEG_SIGN)
op->size += msw_became_zero;
else
op->size -= msw_became_zero;
}
/*------------------------------------------------------------
*
* __mpa_mulby2
*
*/
/*
static void __mpa_mulby2(mpanum op)
{
mpa_word_t i;
mpa_word_t rbit;
mpa_word_t need_extra_word;
if (__mpanum_is_zero(op))
return;
need_extra_word = (__mpanum_msw(op) & (1 << (WORD_SIZE - 1)))?1:0;
if (need_extra_word)
i = __mpanum_size(op);
else
i = __mpanum_size(op) - 1;
while (i > 0) {
rbit = op->d[i-1] >> (WORD_SIZE - 1);
op->d[i] = op->d[i] << 1;
op->d[i] ^= rbit;
i--;
}
rbit = op->d[0] >> (WORD_SIZE - 1);
if (__mpanum_sign(op) == MPA_POS_SIGN)
op->size += need_extra_word;
else
op->size -= need_extra_word;
}
*/
/* --------------------------------------------------------------------
* Function: __mpa_egcd
*
* Given non-negative integers x and y where y < x, we compute
* gcd, a and b such that
* a*x + b*y = gcd
*
* gcd must be distrinct and non-zero, that is,
* it cannot point to the same mpanum as x_in or y_in or be a null pointer.
*/
static void __mpa_egcd(mpanum gcd,
mpanum a,
mpanum b,
const mpanum x_in,
const mpanum y_in, mpa_scratch_mem pool)
{
mpanum A;
mpanum B;
mpanum C;
mpanum D;
mpanum x;
mpanum y;
mpanum u;
mpa_word_t k;
/* have y < x from assumption */
if (__mpanum_is_zero(y_in)) {
if (a != 0)
mpa_set_word(a, 1);
if (b != 0)
mpa_set_word(b, 0);
mpa_copy(gcd, x_in);
return;
}
mpa_alloc_static_temp_var(&x, pool);
mpa_copy(x, x_in);
mpa_alloc_static_temp_var(&y, pool);
mpa_copy(y, y_in);
k = 0;
while (mpa_is_even(x) && mpa_is_even(y)) {
k++;
__mpa_divby2(x);
__mpa_divby2(y);
}
mpa_alloc_static_temp_var(&u, pool);
mpa_copy(u, x);
mpa_copy(gcd, y);
mpa_alloc_static_temp_var(&A, pool);
mpa_set_word(A, 1);
mpa_alloc_static_temp_var(&B, pool);
mpa_set_word(B, 0);
mpa_alloc_static_temp_var(&C, pool);
mpa_set_word(C, 0);
mpa_alloc_static_temp_var(&D, pool);
mpa_set_word(D, 1);
while (!__mpanum_is_zero(u)) {
while (mpa_is_even(u)) {
__mpa_divby2(u);
if (mpa_is_odd(A) || mpa_is_odd(B)) {
mpa_add(A, A, y, pool);
mpa_sub(B, B, x, pool);
}
__mpa_divby2(A);
__mpa_divby2(B);
}
while (mpa_is_even(gcd)) {
__mpa_divby2(gcd);
if (mpa_is_odd(C) || mpa_is_odd(D)) {
mpa_add(C, C, y, pool);
mpa_sub(D, D, x, pool);
}
__mpa_divby2(C);
__mpa_divby2(D);
}
if (mpa_cmp(u, gcd) >= 0) {
mpa_sub(u, u, gcd, pool);
mpa_sub(A, A, C, pool);
mpa_sub(B, B, D, pool);
} else {
mpa_sub(gcd, gcd, u, pool);
mpa_sub(C, C, A, pool);
mpa_sub(D, D, B, pool);
}
}
/* copy results */
if (a != 0)
mpa_copy(a, C);
if (b != 0)
mpa_copy(b, D);
mpa_shift_left(gcd, gcd, k);
mpa_free_static_temp_var(&A, pool);
mpa_free_static_temp_var(&B, pool);
mpa_free_static_temp_var(&C, pool);
mpa_free_static_temp_var(&D, pool);
mpa_free_static_temp_var(&x, pool);
mpa_free_static_temp_var(&y, pool);
mpa_free_static_temp_var(&u, pool);
}
/* --------------------------------------------------------------------
* Function: __mpa_gcd
* Computes the gcd of x and y where y <= x.
* Destination variable gcd must be allocated.
*/
static void __mpa_gcd(mpanum gcd,
const mpanum x_in,
const mpanum y_in, mpa_scratch_mem pool)
{
mpanum x;
mpanum y;
mpanum t;
mpa_word_t k;
/* have y < x from assumption */
if (__mpanum_is_zero(y_in)) {
mpa_copy(gcd, x_in);
return;
}
mpa_alloc_static_temp_var(&x, pool);
mpa_copy(x, x_in);
mpa_alloc_static_temp_var(&y, pool);
mpa_copy(y, y_in);
k = 0;
while (mpa_is_even(x) && mpa_is_even(y)) {
k++;
__mpa_divby2(x);
__mpa_divby2(y);
}
mpa_alloc_static_temp_var(&t, pool);
while (!__mpanum_is_zero(x)) {
while (mpa_is_even(x))
__mpa_divby2(x);
while (mpa_is_even(y))
__mpa_divby2(y);
mpa_sub(t, x, y, pool);
/* abs val of t */
__mpanum_set_sign(t, MPA_POS_SIGN);
__mpa_divby2(t);
if (mpa_cmp(x, y) >= 0)
mpa_copy(x, t);
else
mpa_copy(y, t);
}
mpa_shift_left(gcd, y, k);
mpa_free_static_temp_var(&t, pool);
mpa_free_static_temp_var(&x, pool);
mpa_free_static_temp_var(&y, pool);
}
/*************************************************************
*
* LIB FUNCTIONS
*
*************************************************************/
/* --------------------------------------------------------------------
* Function: mpa_gcd
*
* Computes the GCD of src1 and src2
*/
void mpa_gcd(mpanum dest,
const mpanum src1, const mpanum src2, mpa_scratch_mem pool)
{
int cmp;
int sign1;
int sign2;
/* remember sign and take abs value */
sign1 = __mpanum_sign(src1);
sign2 = __mpanum_sign(src2);
__mpanum_set_sign(src1, MPA_POS_SIGN);
__mpanum_set_sign(src2, MPA_POS_SIGN);
cmp = mpa_cmp(src1, src2);
if (cmp == 0) {
mpa_copy(dest, src1);
goto cleanup;
}
if (cmp < 0) { /* src1 < src2, swap data */
__mpa_gcd(dest, src2, src1, pool);
} else {
__mpa_gcd(dest, src1, src2, pool);
}
cleanup:
/* restore sign */
__mpanum_set_sign(src1, sign1);
__mpanum_set_sign(src2, sign2);
}
/* --------------------------------------------------------------------
* Function: mpa_extended_gcd
*
* Computes gcd, dest1 and dest2 such that
* dest1*src1 + dest2*src2 = gcd
*
* May be called with gcd, dest1 and/or dest2 == 0.
*
*/
void mpa_extended_gcd(mpanum gcd,
mpanum dest1,
mpanum dest2,
const mpanum src1,
const mpanum src2, mpa_scratch_mem pool)
{
int cmp;
int sign1;
int sign2;
int mem_marker;
mpanum tmp_gcd;
if (dest1 == 0 && dest2 == 0) {
if (gcd != 0)
mpa_gcd(gcd, src1, src2, pool);
return;
}
/* remember sign and take abs value */
sign1 = __mpanum_sign(src1);
sign2 = __mpanum_sign(src2);
__mpanum_set_sign(src1, MPA_POS_SIGN);
__mpanum_set_sign(src2, MPA_POS_SIGN);
cmp = mpa_cmp(src1, src2);
if (cmp == 0) {
if (gcd != 0)
mpa_copy(gcd, src1);
if (dest1 != 0)
mpa_set_word(dest1, 1);
if (dest2 != 0)
mpa_set_word(dest2, 0);
goto cleanup;
}
mem_marker = (gcd == 0 || gcd == src1 || gcd == src2);
if (mem_marker)
mpa_alloc_static_temp_var(&tmp_gcd, pool);
else
tmp_gcd = gcd;
if (cmp < 0) /* src1 < src2, swap data */
__mpa_egcd(tmp_gcd, dest2, dest1, src2, src1, pool);
else
__mpa_egcd(tmp_gcd, dest1, dest2, src1, src2, pool);
if (gcd != 0)
mpa_copy(gcd, tmp_gcd);
if (mem_marker)
mpa_free_static_temp_var(&tmp_gcd, pool);
cleanup:
/* restore sign */
__mpanum_set_sign(src1, sign1);
__mpanum_set_sign(src2, sign2);
/* change resulting signs if needed */
if (sign1 == MPA_NEG_SIGN && dest1 != 0)
__mpanum_neg(dest1);
if (sign2 == MPA_NEG_SIGN && dest2 != 0)
__mpanum_neg(dest2);
}
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