/* makes a bignum test harness with NUM tests per operation * * the output is made in the following format [one parameter per line] operation operand1 operand2 [... operandN] result1 result2 [... resultN] So for example "a * b mod n" would be mulmod a b n a*b mod n e.g. if a=3, b=4 n=11 then mulmod 3 4 11 1 */ #ifdef MP_8BIT #define THE_MASK 127 #else #define THE_MASK 32767 #endif #include #include #include #include "mpi.c" FILE *rng; void rand_num(mp_int *a) { int n, size; unsigned char buf[2048]; size = 1 + ((fgetc(rng)<<8) + fgetc(rng)) % 101; buf[0] = (fgetc(rng)&1)?1:0; fread(buf+1, 1, size, rng); while (buf[1] == 0) buf[1] = fgetc(rng); mp_read_raw(a, buf, 1+size); } void rand_num2(mp_int *a) { int n, size; unsigned char buf[2048]; size = 10 + ((fgetc(rng)<<8) + fgetc(rng)) % 101; buf[0] = (fgetc(rng)&1)?1:0; fread(buf+1, 1, size, rng); while (buf[1] == 0) buf[1] = fgetc(rng); mp_read_raw(a, buf, 1+size); } #define mp_to64(a, b) mp_toradix(a, b, 64) int main(void) { int n, tmp; mp_int a, b, c, d, e; clock_t t1; char buf[4096]; mp_init(&a); mp_init(&b); mp_init(&c); mp_init(&d); mp_init(&e); /* initial (2^n - 1)^2 testing, makes sure the comba multiplier works [it has the new carry code] */ /* mp_set(&a, 1); for (n = 1; n < 8192; n++) { mp_mul(&a, &a, &c); printf("mul\n"); mp_to64(&a, buf); printf("%s\n%s\n", buf, buf); mp_to64(&c, buf); printf("%s\n", buf); mp_add_d(&a, 1, &a); mp_mul_2(&a, &a); mp_sub_d(&a, 1, &a); } */ rng = fopen("/dev/urandom", "rb"); if (rng == NULL) { rng = fopen("/dev/random", "rb"); if (rng == NULL) { fprintf(stderr, "\nWarning: stdin used as random source\n\n"); rng = stdin; } } t1 = clock(); for (;;) { #if 0 if (clock() - t1 > CLOCKS_PER_SEC) { sleep(2); t1 = clock(); } #endif n = fgetc(rng) % 15; if (n == 0) { /* add tests */ rand_num(&a); rand_num(&b); mp_add(&a, &b, &c); printf("add\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); mp_to64(&c, buf); printf("%s\n", buf); } else if (n == 1) { /* sub tests */ rand_num(&a); rand_num(&b); mp_sub(&a, &b, &c); printf("sub\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); mp_to64(&c, buf); printf("%s\n", buf); } else if (n == 2) { /* mul tests */ rand_num(&a); rand_num(&b); mp_mul(&a, &b, &c); printf("mul\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); mp_to64(&c, buf); printf("%s\n", buf); } else if (n == 3) { /* div tests */ rand_num(&a); rand_num(&b); mp_div(&a, &b, &c, &d); printf("div\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); mp_to64(&c, buf); printf("%s\n", buf); mp_to64(&d, buf); printf("%s\n", buf); } else if (n == 4) { /* sqr tests */ rand_num(&a); mp_sqr(&a, &b); printf("sqr\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); } else if (n == 5) { /* mul_2d test */ rand_num(&a); mp_copy(&a, &b); n = fgetc(rng) & 63; mp_mul_2d(&b, n, &b); mp_to64(&a, buf); printf("mul2d\n"); printf("%s\n", buf); printf("%d\n", n); mp_to64(&b, buf); printf("%s\n", buf); } else if (n == 6) { /* div_2d test */ rand_num(&a); mp_copy(&a, &b); n = fgetc(rng) & 63; mp_div_2d(&b, n, &b, NULL); mp_to64(&a, buf); printf("div2d\n"); printf("%s\n", buf); printf("%d\n", n); mp_to64(&b, buf); printf("%s\n", buf); } else if (n == 7) { /* gcd test */ rand_num(&a); rand_num(&b); a.sign = MP_ZPOS; b.sign = MP_ZPOS; mp_gcd(&a, &b, &c); printf("gcd\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); mp_to64(&c, buf); printf("%s\n", buf); } else if (n == 8) { /* lcm test */ rand_num(&a); rand_num(&b); a.sign = MP_ZPOS; b.sign = MP_ZPOS; mp_lcm(&a, &b, &c); printf("lcm\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); mp_to64(&c, buf); printf("%s\n", buf); } else if (n == 9) { /* exptmod test */ rand_num2(&a); rand_num2(&b); rand_num2(&c); // if (c.dp[0]&1) mp_add_d(&c, 1, &c); a.sign = b.sign = c.sign = 0; mp_exptmod(&a, &b, &c, &d); printf("expt\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); mp_to64(&c, buf); printf("%s\n", buf); mp_to64(&d, buf); printf("%s\n", buf); } else if (n == 10) { /* invmod test */ rand_num2(&a); rand_num2(&b); b.sign = MP_ZPOS; a.sign = MP_ZPOS; mp_gcd(&a, &b, &c); if (mp_cmp_d(&c, 1) != 0) continue; if (mp_cmp_d(&b, 1) == 0) continue; mp_invmod(&a, &b, &c); printf("invmod\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); mp_to64(&c, buf); printf("%s\n", buf); } else if (n == 11) { rand_num(&a); mp_mul_2(&a, &a); mp_div_2(&a, &b); printf("div2\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); } else if (n == 12) { rand_num2(&a); mp_mul_2(&a, &b); printf("mul2\n"); mp_to64(&a, buf); printf("%s\n", buf); mp_to64(&b, buf); printf("%s\n", buf); } else if (n == 13) { rand_num2(&a); tmp = abs(rand()) & THE_MASK; mp_add_d(&a, tmp, &b); printf("add_d\n"); mp_to64(&a, buf); printf("%s\n%d\n", buf, tmp); mp_to64(&b, buf); printf("%s\n", buf); } else if (n == 14) { rand_num2(&a); tmp = abs(rand()) & THE_MASK; mp_sub_d(&a, tmp, &b); printf("sub_d\n"); mp_to64(&a, buf); printf("%s\n%d\n", buf, tmp); mp_to64(&b, buf); printf("%s\n", buf); } } fclose(rng); return 0; } /* $Source: /cvs/libtom/libtommath/mtest/mtest.c,v $ */ /* $Revision: 1.2 $ */ /* $Date: 2005/05/05 14:38:47 $ */