kc3-lang/libtommath/mp_prime_frobenius_underwood.c

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• Hash : bf9507a9
  Author :
  Date : 2019-10-24T22:02:29
  

  replace mp_bool by stdbool * This gives the advantage that static analysis **understands** bool, but complains about using an enum type instead of bool. * If stdbool.h is not desired, true/false/bool can be replaced using sed as in the no-stdint-h branch. * We already include stdint.h and stdbool.h is not more harmful than this header

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• mp_prime_frobenius_underwood.c

• #include "tommath_private.h"
  #ifdef MP_PRIME_FROBENIUS_UNDERWOOD_C
  
  /* LibTomMath, multiple-precision integer library -- Tom St Denis */
  /* SPDX-License-Identifier: Unlicense */
  
  /*
   *  See file mp_prime_is_prime.c or the documentation in doc/bn.tex for the details
   */
  #ifndef LTM_USE_ONLY_MR
  
  /*
   * floor of positive solution of
   * (2^16)-1 = (a+4)*(2*a+5)
   * TODO: Both values are smaller than N^(1/4), would have to use a bigint
   *       for a instead but any a biger than about 120 are already so rare that
   *       it is possible to ignore them and still get enough pseudoprimes.
   *       But it is still a restriction of the set of available pseudoprimes
   *       which makes this implementation less secure if used stand-alone.
   */
  #define LTM_FROBENIUS_UNDERWOOD_A 32764
  
  mp_err mp_prime_frobenius_underwood(const mp_int *N, bool *result)
  {
     mp_int T1z, T2z, Np1z, sz, tz;
  
     int a, ap2, length, i, j;
     mp_err err;
  
     *result = false;
  
     if ((err = mp_init_multi(&T1z, &T2z, &Np1z, &sz, &tz, NULL)) != MP_OKAY) {
        return err;
     }
  
     for (a = 0; a < LTM_FROBENIUS_UNDERWOOD_A; a++) {
        /* TODO: That's ugly! No, really, it is! */
        if ((a==2) || (a==4) || (a==7) || (a==8) || (a==10) ||
            (a==14) || (a==18) || (a==23) || (a==26) || (a==28)) {
           continue;
        }
  
        mp_set_i32(&T1z, (int32_t)((a * a) - 4));
  
        if ((err = mp_kronecker(&T1z, N, &j)) != MP_OKAY)           goto LBL_FU_ERR;
  
        if (j == -1) {
           break;
        }
  
        if (j == 0) {
           /* composite */
           goto LBL_FU_ERR;
        }
     }
     /* Tell it a composite and set return value accordingly */
     if (a >= LTM_FROBENIUS_UNDERWOOD_A) {
        err = MP_ITER;
        goto LBL_FU_ERR;
     }
     /* Composite if N and (a+4)*(2*a+5) are not coprime */
     mp_set_u32(&T1z, (uint32_t)((a+4)*((2*a)+5)));
  
     if ((err = mp_gcd(N, &T1z, &T1z)) != MP_OKAY)                  goto LBL_FU_ERR;
  
     if (!((T1z.used == 1) && (T1z.dp[0] == 1u)))                   goto LBL_FU_ERR;
  
     ap2 = a + 2;
     if ((err = mp_add_d(N, 1uL, &Np1z)) != MP_OKAY)                goto LBL_FU_ERR;
  
     mp_set(&sz, 1uL);
     mp_set(&tz, 2uL);
     length = mp_count_bits(&Np1z);
  
     for (i = length - 2; i >= 0; i--) {
        /*
         * temp = (sz*(a*sz+2*tz))%N;
         * tz   = ((tz-sz)*(tz+sz))%N;
         * sz   = temp;
         */
        if ((err = mp_mul_2(&tz, &T2z)) != MP_OKAY)                 goto LBL_FU_ERR;
  
        /* a = 0 at about 50% of the cases (non-square and odd input) */
        if (a != 0) {
           if ((err = mp_mul_d(&sz, (mp_digit)a, &T1z)) != MP_OKAY) goto LBL_FU_ERR;
           if ((err = mp_add(&T1z, &T2z, &T2z)) != MP_OKAY)         goto LBL_FU_ERR;
        }
  
        if ((err = mp_mul(&T2z, &sz, &T1z)) != MP_OKAY)             goto LBL_FU_ERR;
        if ((err = mp_sub(&tz, &sz, &T2z)) != MP_OKAY)              goto LBL_FU_ERR;
        if ((err = mp_add(&sz, &tz, &sz)) != MP_OKAY)               goto LBL_FU_ERR;
        if ((err = mp_mul(&sz, &T2z, &tz)) != MP_OKAY)              goto LBL_FU_ERR;
        if ((err = mp_mod(&tz, N, &tz)) != MP_OKAY)                 goto LBL_FU_ERR;
        if ((err = mp_mod(&T1z, N, &sz)) != MP_OKAY)                goto LBL_FU_ERR;
        if (s_mp_get_bit(&Np1z, (unsigned int)i)) {
           /*
            *  temp = (a+2) * sz + tz
            *  tz   = 2 * tz - sz
            *  sz   = temp
            */
           if (a == 0) {
              if ((err = mp_mul_2(&sz, &T1z)) != MP_OKAY)           goto LBL_FU_ERR;
           } else {
              if ((err = mp_mul_d(&sz, (mp_digit)ap2, &T1z)) != MP_OKAY) goto LBL_FU_ERR;
           }
           if ((err = mp_add(&T1z, &tz, &T1z)) != MP_OKAY)          goto LBL_FU_ERR;
           if ((err = mp_mul_2(&tz, &T2z)) != MP_OKAY)              goto LBL_FU_ERR;
           if ((err = mp_sub(&T2z, &sz, &tz)) != MP_OKAY)           goto LBL_FU_ERR;
           mp_exch(&sz, &T1z);
        }
     }
  
     mp_set_u32(&T1z, (uint32_t)((2 * a) + 5));
     if ((err = mp_mod(&T1z, N, &T1z)) != MP_OKAY)                  goto LBL_FU_ERR;
     if (mp_iszero(&sz) && (mp_cmp(&tz, &T1z) == MP_EQ)) {
        *result = true;
     }
  
  LBL_FU_ERR:
     mp_clear_multi(&tz, &sz, &Np1z, &T2z, &T1z, NULL);
     return err;
  }
  
  #endif
  #endif
  

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