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view libtomcrypt/testprof/ecc_test.c @ 1629:258b57b208ae

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Fix for issue successfull login of disabled user (#78) This commit introduces fix for scenario: 1. Root login disabled on dropbear 2. PAM authentication model enabled While login as root user, after prompt for password user is being notified about login failrue, but after second attempt of prompt for password within same session, login becames succesfull. Signed-off-by: Pawel Rapkiewicz <[email protected]>
author vincentto13 <33652988+vincentto13@users.noreply.github.com>
date Wed, 20 Mar 2019 15:03:40 +0100
parents f849a5ca2efc
children
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#include <tomcrypt_test.h>

#ifdef LTC_MECC

static int sizes[] = {
#ifdef ECC112
14,
#endif
#ifdef ECC128
16,
#endif
#ifdef ECC160
20,
#endif
#ifdef ECC192
24,
#endif
#ifdef ECC224
28,
#endif
#ifdef ECC256
32,
#endif
#ifdef ECC384
48,
#endif
#ifdef ECC521
65
#endif
};

#ifdef LTC_ECC_SHAMIR
int ecc_test_shamir(void)
{
   void *modulus, *mp, *kA, *kB, *rA, *rB;
   ecc_point *G, *A, *B, *C1, *C2;
   int x, y, z;
   unsigned char buf[ECC_BUF_SIZE];

   DO(mp_init_multi(&kA, &kB, &rA, &rB, &modulus, NULL));
   LTC_ARGCHK((G  = ltc_ecc_new_point()) != NULL);
   LTC_ARGCHK((A  = ltc_ecc_new_point()) != NULL);
   LTC_ARGCHK((B  = ltc_ecc_new_point()) != NULL);
   LTC_ARGCHK((C1 = ltc_ecc_new_point()) != NULL);
   LTC_ARGCHK((C2 = ltc_ecc_new_point()) != NULL);

   for (x = 0; x < (int)(sizeof(sizes)/sizeof(sizes[0])); x++) {
       /* get the base point */
       for (z = 0; ltc_ecc_sets[z].name; z++) {
           if (sizes[z] < ltc_ecc_sets[z].size) break;
       }
       LTC_ARGCHK(ltc_ecc_sets[z].name != NULL);

       /* load it */
       DO(mp_read_radix(G->x, ltc_ecc_sets[z].Gx, 16));
       DO(mp_read_radix(G->y, ltc_ecc_sets[z].Gy, 16));
       DO(mp_set(G->z, 1));
       DO(mp_read_radix(modulus, ltc_ecc_sets[z].prime, 16));
       DO(mp_montgomery_setup(modulus, &mp));

       /* do 100 random tests */
       for (y = 0; y < 100; y++) {
          /* pick a random r1, r2 */
          LTC_ARGCHK(yarrow_read(buf, sizes[x], &yarrow_prng) == sizes[x]);
          DO(mp_read_unsigned_bin(rA, buf, sizes[x]));
          LTC_ARGCHK(yarrow_read(buf, sizes[x], &yarrow_prng) == sizes[x]);
          DO(mp_read_unsigned_bin(rB, buf, sizes[x]));

          /* compute rA * G = A */
          DO(ltc_mp.ecc_ptmul(rA, G, A, modulus, 1));
       
          /* compute rB * G = B */
          DO(ltc_mp.ecc_ptmul(rB, G, B, modulus, 1));

          /* pick a random kA, kB */
          LTC_ARGCHK(yarrow_read(buf, sizes[x], &yarrow_prng) == sizes[x]);
          DO(mp_read_unsigned_bin(kA, buf, sizes[x]));
          LTC_ARGCHK(yarrow_read(buf, sizes[x], &yarrow_prng) == sizes[x]);
          DO(mp_read_unsigned_bin(kB, buf, sizes[x]));

          /* now, compute kA*A + kB*B = C1 using the older method */
          DO(ltc_mp.ecc_ptmul(kA, A, C1, modulus, 0));
          DO(ltc_mp.ecc_ptmul(kB, B, C2, modulus, 0));
          DO(ltc_mp.ecc_ptadd(C1, C2, C1, modulus, mp));
          DO(ltc_mp.ecc_map(C1, modulus, mp));

          /* now compute using mul2add */
          DO(ltc_mp.ecc_mul2add(A, kA, B, kB, C2, modulus));

          /* is they the sames?  */
          if ((mp_cmp(C1->x, C2->x) != LTC_MP_EQ) || (mp_cmp(C1->y, C2->y) != LTC_MP_EQ) || (mp_cmp(C1->z, C2->z) != LTC_MP_EQ)) {
             fprintf(stderr, "ECC failed shamir test: size=%d, testno=%d\n", sizes[x], y);
             return 1;
          }
      }
      mp_montgomery_free(mp);
  }
  ltc_ecc_del_point(C2);
  ltc_ecc_del_point(C1);
  ltc_ecc_del_point(B);
  ltc_ecc_del_point(A);
  ltc_ecc_del_point(G);
  mp_clear_multi(kA, kB, rA, rB, modulus, NULL);
  return 0;
}
#endif

int ecc_tests (void)
{
  unsigned char buf[4][4096];
  unsigned long x, y, z, s;
  int           stat, stat2;
  ecc_key usera, userb, pubKey, privKey;
	
  DO(ecc_test ());
  DO(ecc_test ());
  DO(ecc_test ());
  DO(ecc_test ());
  DO(ecc_test ());

  for (s = 0; s < (sizeof(sizes)/sizeof(sizes[0])); s++) {
     /* make up two keys */
     DO(ecc_make_key (&yarrow_prng, find_prng ("yarrow"), sizes[s], &usera));
     DO(ecc_make_key (&yarrow_prng, find_prng ("yarrow"), sizes[s], &userb));

     /* make the shared secret */
     x = sizeof(buf[0]);
     DO(ecc_shared_secret (&usera, &userb, buf[0], &x));

     y = sizeof(buf[1]);
     DO(ecc_shared_secret (&userb, &usera, buf[1], &y));

     if (y != x) {
       fprintf(stderr, "ecc Shared keys are not same size.");
       return 1;
     }

     if (memcmp (buf[0], buf[1], x)) {
       fprintf(stderr, "ecc Shared keys not same contents.");
       return 1;
     }

     /* now export userb */
     y = sizeof(buf[0]);
     DO(ecc_export (buf[1], &y, PK_PUBLIC, &userb));
     ecc_free (&userb);

     /* import and make the shared secret again */
     DO(ecc_import (buf[1], y, &userb));

     z = sizeof(buf[0]);
     DO(ecc_shared_secret (&usera, &userb, buf[2], &z));

     if (z != x) {
       fprintf(stderr, "failed.  Size don't match?");
       return 1;
     }
     if (memcmp (buf[0], buf[2], x)) {
       fprintf(stderr, "Failed.  Contents didn't match.");
       return 1;
     }

     /* export with ANSI X9.63 */
     y = sizeof(buf[1]);
     DO(ecc_ansi_x963_export(&userb, buf[1], &y));
     ecc_free (&userb);

     /* now import the ANSI key */
     DO(ecc_ansi_x963_import(buf[1], y, &userb));

     /* shared secret */
     z = sizeof(buf[0]);
     DO(ecc_shared_secret (&usera, &userb, buf[2], &z));

     if (z != x) {
       fprintf(stderr, "failed.  Size don't match?");
       return 1;
     }
     if (memcmp (buf[0], buf[2], x)) {
       fprintf(stderr, "Failed.  Contents didn't match.");
       return 1;
     }

     ecc_free (&usera);
     ecc_free (&userb);

     /* test encrypt_key */
     DO(ecc_make_key (&yarrow_prng, find_prng ("yarrow"), sizes[s], &usera));

     /* export key */
     x = sizeof(buf[0]);
     DO(ecc_export(buf[0], &x, PK_PUBLIC, &usera));
     DO(ecc_import(buf[0], x, &pubKey));
     x = sizeof(buf[0]);
     DO(ecc_export(buf[0], &x, PK_PRIVATE, &usera));
     DO(ecc_import(buf[0], x, &privKey));

     for (x = 0; x < 32; x++) {
        buf[0][x] = x;
     }
     y = sizeof (buf[1]);
     DO(ecc_encrypt_key (buf[0], 32, buf[1], &y, &yarrow_prng, find_prng ("yarrow"), find_hash ("sha256"), &pubKey));
     zeromem (buf[0], sizeof (buf[0]));
     x = sizeof (buf[0]);
     DO(ecc_decrypt_key (buf[1], y, buf[0], &x, &privKey));
     if (x != 32) {
       fprintf(stderr, "Failed (length)");
       return 1;
     }
     for (x = 0; x < 32; x++) {
        if (buf[0][x] != x) {
           fprintf(stderr, "Failed (contents)");
           return 1;
        }
     }
     /* test sign_hash */
     for (x = 0; x < 16; x++) {
        buf[0][x] = x;
     }
     x = sizeof (buf[1]);
     DO(ecc_sign_hash (buf[0], 16, buf[1], &x, &yarrow_prng, find_prng ("yarrow"), &privKey));
     DO(ecc_verify_hash (buf[1], x, buf[0], 16, &stat, &pubKey));
     buf[0][0] ^= 1;
     DO(ecc_verify_hash (buf[1], x, buf[0], 16, &stat2, &privKey));
     if (!(stat == 1 && stat2 == 0)) { 
        fprintf(stderr, "ecc_verify_hash failed %d, %d, ", stat, stat2);
        return 1;
     }
     ecc_free (&usera); 
     ecc_free (&pubKey);
     ecc_free (&privKey);
  }
#ifdef LTC_ECC_SHAMIR
  return ecc_test_shamir();
#else
  return 0;
#endif
}

#else

int ecc_tests(void)
{
   fprintf(stderr, "NOP");
   return 0;
}

#endif

/* $Source$ */
/* $Revision$ */
/* $Date$ */