mirror of
https://github.com/rn10950/RetroZilla.git
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187 lines
6.0 KiB
C
187 lines
6.0 KiB
C
/*
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* Simple test driver for MPI library
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*
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* Test GF2m: Binary Polynomial Arithmetic
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*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <ctype.h>
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#include <limits.h>
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#include "mp_gf2m.h"
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int main(int argc, char *argv[])
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{
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int ix;
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mp_int pp, a, b, x, y, order;
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mp_int c, d, e;
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mp_digit r;
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mp_err res;
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unsigned int p[] = {163,7,6,3,0};
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unsigned int ptemp[10];
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printf("Test b: Binary Polynomial Arithmetic\n\n");
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mp_init(&pp);
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mp_init(&a);
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mp_init(&b);
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mp_init(&x);
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mp_init(&y);
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mp_init(&order);
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mp_read_radix(&pp, "0800000000000000000000000000000000000000C9", 16);
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mp_read_radix(&a, "1", 16);
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mp_read_radix(&b, "020A601907B8C953CA1481EB10512F78744A3205FD", 16);
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mp_read_radix(&x, "03F0EBA16286A2D57EA0991168D4994637E8343E36", 16);
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mp_read_radix(&y, "00D51FBC6C71A0094FA2CDD545B11C5C0C797324F1", 16);
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mp_read_radix(&order, "040000000000000000000292FE77E70C12A4234C33", 16);
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printf("pp = "); mp_print(&pp, stdout); fputc('\n', stdout);
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printf("a = "); mp_print(&a, stdout); fputc('\n', stdout);
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printf("b = "); mp_print(&b, stdout); fputc('\n', stdout);
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printf("x = "); mp_print(&x, stdout); fputc('\n', stdout);
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printf("y = "); mp_print(&y, stdout); fputc('\n', stdout);
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printf("order = "); mp_print(&order, stdout); fputc('\n', stdout);
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mp_init(&c);
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mp_init(&d);
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mp_init(&e);
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/* Test polynomial conversion */
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ix = mp_bpoly2arr(&pp, ptemp, 10);
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if (
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(ix != 5) ||
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(ptemp[0] != p[0]) ||
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(ptemp[1] != p[1]) ||
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(ptemp[2] != p[2]) ||
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(ptemp[3] != p[3]) ||
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(ptemp[4] != p[4])
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) {
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printf("Polynomial to array conversion not correct\n");
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return -1;
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}
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printf("Polynomial conversion test #1 successful.\n");
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MP_CHECKOK( mp_barr2poly(p, &c) );
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if (mp_cmp(&pp, &c) != 0) {
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printf("Array to polynomial conversion not correct\n");
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return -1;
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}
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printf("Polynomial conversion test #2 successful.\n");
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/* Test addition */
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MP_CHECKOK( mp_badd(&a, &a, &c) );
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if (mp_cmp_z(&c) != 0) {
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printf("a+a should equal zero\n");
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return -1;
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}
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printf("Addition test #1 successful.\n");
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MP_CHECKOK( mp_badd(&a, &b, &c) );
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MP_CHECKOK( mp_badd(&b, &c, &c) );
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if (mp_cmp(&c, &a) != 0) {
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printf("c = (a + b) + b should equal a\n");
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printf("a = "); mp_print(&a, stdout); fputc('\n', stdout);
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Addition test #2 successful.\n");
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/* Test multiplication */
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mp_set(&c, 2);
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MP_CHECKOK( mp_bmul(&b, &c, &c) );
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MP_CHECKOK( mp_badd(&b, &c, &c) );
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mp_set(&d, 3);
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MP_CHECKOK( mp_bmul(&b, &d, &d) );
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if (mp_cmp(&c, &d) != 0) {
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printf("c = (2 * b) + b should equal c = 3 * b\n");
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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printf("d = "); mp_print(&d, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Multiplication test #1 successful.\n");
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/* Test modular reduction */
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MP_CHECKOK( mp_bmod(&b, p, &c) );
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if (mp_cmp(&b, &c) != 0) {
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printf("c = b mod p should equal b\n");
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printf("b = "); mp_print(&b, stdout); fputc('\n', stdout);
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Modular reduction test #1 successful.\n");
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MP_CHECKOK( mp_badd(&b, &pp, &c) );
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MP_CHECKOK( mp_bmod(&c, p, &c) );
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if (mp_cmp(&b, &c) != 0) {
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printf("c = (b + p) mod p should equal b\n");
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printf("b = "); mp_print(&b, stdout); fputc('\n', stdout);
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Modular reduction test #2 successful.\n");
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MP_CHECKOK( mp_bmul(&b, &pp, &c) );
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MP_CHECKOK( mp_bmod(&c, p, &c) );
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if (mp_cmp_z(&c) != 0) {
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printf("c = (b * p) mod p should equal 0\n");
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Modular reduction test #3 successful.\n");
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/* Test modular multiplication */
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MP_CHECKOK( mp_bmulmod(&b, &pp, p, &c) );
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if (mp_cmp_z(&c) != 0) {
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printf("c = (b * p) mod p should equal 0\n");
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Modular multiplication test #1 successful.\n");
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mp_set(&c, 1);
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MP_CHECKOK( mp_badd(&pp, &c, &c) );
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MP_CHECKOK( mp_bmulmod(&b, &c, p, &c) );
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if (mp_cmp(&b, &c) != 0) {
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printf("c = (b * (p + 1)) mod p should equal b\n");
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printf("b = "); mp_print(&b, stdout); fputc('\n', stdout);
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Modular multiplication test #2 successful.\n");
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/* Test modular squaring */
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MP_CHECKOK( mp_copy(&b, &c) );
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MP_CHECKOK( mp_bmulmod(&b, &c, p, &c) );
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MP_CHECKOK( mp_bsqrmod(&b, p, &d) );
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if (mp_cmp(&c, &d) != 0) {
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printf("c = (b * b) mod p should equal d = b^2 mod p\n");
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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printf("d = "); mp_print(&d, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Modular squaring test #1 successful.\n");
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/* Test modular division */
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MP_CHECKOK( mp_bdivmod(&b, &x, &pp, p, &c) );
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MP_CHECKOK( mp_bmulmod(&c, &x, p, &c) );
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if (mp_cmp(&b, &c) != 0) {
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printf("c = (b / x) * x mod p should equal b\n");
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printf("b = "); mp_print(&b, stdout); fputc('\n', stdout);
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printf("c = "); mp_print(&c, stdout); fputc('\n', stdout);
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return -1;
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}
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printf("Modular division test #1 successful.\n");
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CLEANUP:
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mp_clear(&order);
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mp_clear(&y);
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mp_clear(&x);
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mp_clear(&b);
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mp_clear(&a);
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mp_clear(&pp);
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return 0;
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}
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