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view libtomcrypt/testprof/katja_test.c @ 1861:2b3a8026a6ce

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Add re-exec for server This allows ASLR to re-randomize the address space for every connection, preventing some vulnerabilities from being exploitable by repeated probing. Overhead (memory and time) is yet to be confirmed. At present this is only enabled on Linux. Other BSD platforms with fexecve() would probably also work though have not been tested.
author Matt Johnston <matt@ucc.asn.au>
date Sun, 30 Jan 2022 10:14:56 +0800
parents f849a5ca2efc
children
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line source

#include <tomcrypt_test.h>

#ifdef MKAT

int katja_test(void)
{
   unsigned char in[1024], out[1024], tmp[1024];
   katja_key     key, privKey, pubKey;
   int           hash_idx, prng_idx, stat, stat2, size;
   unsigned long kat_msgsize, len, len2, cnt;
   static unsigned char lparam[] = { 0x01, 0x02, 0x03, 0x04 };

   hash_idx = find_hash("sha1");
   prng_idx = find_prng("yarrow");
   if (hash_idx == -1 || prng_idx == -1) {
      fprintf(stderr, "katja_test requires LTC_SHA1 and yarrow");
      return 1;
   }

for (size = 1024; size <= 2048; size += 256) {
  
   /* make 10 random key */
   for (cnt = 0; cnt < 10; cnt++) {
      DO(katja_make_key(&yarrow_prng, prng_idx, size/8, &key));
      if (mp_count_bits(key.N) < size - 7) {
         fprintf(stderr, "katja_%d key modulus has %d bits\n", size, mp_count_bits(key.N));

len = mp_unsigned_bin_size(key.N);
mp_to_unsigned_bin(key.N, tmp);
 fprintf(stderr, "N == \n");
for (cnt = 0; cnt < len; ) {
   fprintf(stderr, "%02x ", tmp[cnt]);
   if (!(++cnt & 15)) fprintf(stderr, "\n");
}

len = mp_unsigned_bin_size(key.p);
mp_to_unsigned_bin(key.p, tmp);
 fprintf(stderr, "p == \n");
for (cnt = 0; cnt < len; ) {
   fprintf(stderr, "%02x ", tmp[cnt]);
   if (!(++cnt & 15)) fprintf(stderr, "\n");
}

len = mp_unsigned_bin_size(key.q);
mp_to_unsigned_bin(key.q, tmp);
 fprintf(stderr, "\nq == \n");
for (cnt = 0; cnt < len; ) {
   fprintf(stderr, "%02x ", tmp[cnt]);
   if (!(++cnt & 15)) fprintf(stderr, "\n");
}
 fprintf(stderr, "\n");


         return 1;
      }
      if (cnt != 9) {
         katja_free(&key);
      }
   }
   /* encrypt the key (without lparam) */
   for (cnt = 0; cnt < 4; cnt++) {
   for (kat_msgsize = 1; kat_msgsize <= 42; kat_msgsize++) {
      /* make a random key/msg */
      yarrow_read(in, kat_msgsize, &yarrow_prng);

      len  = sizeof(out);
      len2 = kat_msgsize;
   
      DO(katja_encrypt_key(in, kat_msgsize, out, &len, NULL, 0, &yarrow_prng, prng_idx, hash_idx, &key));
      /* change a byte */
      out[8] ^= 1;
      DO(katja_decrypt_key(out, len, tmp, &len2, NULL, 0, hash_idx, &stat2, &key));
      /* change a byte back */
      out[8] ^= 1;
      if (len2 != kat_msgsize) {
         fprintf(stderr, "\nkatja_decrypt_key mismatch len %lu (first decrypt)", len2);
         return 1;
      }

      len2 = kat_msgsize;
      DO(katja_decrypt_key(out, len, tmp, &len2, NULL, 0, hash_idx, &stat, &key));
      if (!(stat == 1 && stat2 == 0)) {
         fprintf(stderr, "katja_decrypt_key failed");
         return 1;
      }
      if (len2 != kat_msgsize || memcmp(tmp, in, kat_msgsize)) {
         unsigned long x;
         fprintf(stderr, "\nkatja_decrypt_key mismatch, len %lu (second decrypt)\n", len2);
         fprintf(stderr, "Original contents: \n"); 
         for (x = 0; x < kat_msgsize; ) {
             fprintf(stderr, "%02x ", in[x]);
             if (!(++x % 16)) {
                fprintf(stderr, "\n");
             }
         }
         fprintf(stderr, "\n");
         fprintf(stderr, "Output contents: \n"); 
         for (x = 0; x < kat_msgsize; ) {
             fprintf(stderr, "%02x ", out[x]);
             if (!(++x % 16)) {
                fprintf(stderr, "\n");
             }
         }     
         fprintf(stderr, "\n");
         return 1;
      }
   }
   }

   /* encrypt the key (with lparam) */
   for (kat_msgsize = 1; kat_msgsize <= 42; kat_msgsize++) {
      len  = sizeof(out);
      len2 = kat_msgsize;
      DO(katja_encrypt_key(in, kat_msgsize, out, &len, lparam, sizeof(lparam), &yarrow_prng, prng_idx, hash_idx, &key));
      /* change a byte */
      out[8] ^= 1;
      DO(katja_decrypt_key(out, len, tmp, &len2, lparam, sizeof(lparam), hash_idx, &stat2, &key));
      if (len2 != kat_msgsize) {
         fprintf(stderr, "\nkatja_decrypt_key mismatch len %lu (first decrypt)", len2);
         return 1;
      }
      /* change a byte back */
      out[8] ^= 1;

      len2 = kat_msgsize;
      DO(katja_decrypt_key(out, len, tmp, &len2, lparam, sizeof(lparam), hash_idx, &stat, &key));
      if (!(stat == 1 && stat2 == 0)) {
         fprintf(stderr, "katja_decrypt_key failed");
         return 1;
      }
      if (len2 != kat_msgsize || memcmp(tmp, in, kat_msgsize)) {
         fprintf(stderr, "katja_decrypt_key mismatch len %lu", len2);
         return 1;
      }
   }

#if 0

   /* sign a message (unsalted, lower cholestorol and Atkins approved) now */
   len = sizeof(out);
   DO(katja_sign_hash(in, 20, out, &len, &yarrow_prng, prng_idx, hash_idx, 0, &key));

/* export key and import as both private and public */
   len2 = sizeof(tmp);
   DO(katja_export(tmp, &len2, PK_PRIVATE, &key)); 
   DO(katja_import(tmp, len2, &privKey)); 
   len2 = sizeof(tmp);
   DO(katja_export(tmp, &len2, PK_PUBLIC, &key));
   DO(katja_import(tmp, len2, &pubKey));

   /* verify with original */
   DO(katja_verify_hash(out, len, in, 20, hash_idx, 0, &stat, &key));
   /* change a byte */
   in[0] ^= 1;
   DO(katja_verify_hash(out, len, in, 20, hash_idx, 0, &stat2, &key));
   
   if (!(stat == 1 && stat2 == 0)) {
      fprintf(stderr, "katja_verify_hash (unsalted, origKey) failed, %d, %d", stat, stat2);
      katja_free(&key);
      katja_free(&pubKey);
      katja_free(&privKey);
      return 1;
   }

   /* verify with privKey */
   /* change a byte */
   in[0] ^= 1;
   DO(katja_verify_hash(out, len, in, 20, hash_idx, 0, &stat, &privKey));
   /* change a byte */
   in[0] ^= 1;
   DO(katja_verify_hash(out, len, in, 20, hash_idx, 0, &stat2, &privKey));
   
   if (!(stat == 1 && stat2 == 0)) {
      fprintf(stderr, "katja_verify_hash (unsalted, privKey) failed, %d, %d", stat, stat2);
      katja_free(&key);
      katja_free(&pubKey);
      katja_free(&privKey);
      return 1;
   }

   /* verify with pubKey */
   /* change a byte */
   in[0] ^= 1;
   DO(katja_verify_hash(out, len, in, 20, hash_idx, 0, &stat, &pubKey));
   /* change a byte */
   in[0] ^= 1;
   DO(katja_verify_hash(out, len, in, 20, hash_idx, 0, &stat2, &pubKey));
   
   if (!(stat == 1 && stat2 == 0)) {
      fprintf(stderr, "katja_verify_hash (unsalted, pubkey) failed, %d, %d", stat, stat2);
      katja_free(&key);
      katja_free(&pubKey);
      katja_free(&privKey);
      return 1;
   }

   /* sign a message (salted) now (use privKey to make, pubKey to verify) */
   len = sizeof(out);
   DO(katja_sign_hash(in, 20, out, &len, &yarrow_prng, prng_idx, hash_idx, 8, &privKey));
   DO(katja_verify_hash(out, len, in, 20, hash_idx, 8, &stat, &pubKey));
   /* change a byte */
   in[0] ^= 1;
   DO(katja_verify_hash(out, len, in, 20, hash_idx, 8, &stat2, &pubKey));
   
   if (!(stat == 1 && stat2 == 0)) {
      fprintf(stderr, "katja_verify_hash (salted) failed, %d, %d", stat, stat2);
      katja_free(&key);
      katja_free(&pubKey);
      katja_free(&privKey);
      return 1;
   }
#endif

   katja_free(&key);
   katja_free(&pubKey);
   katja_free(&privKey);
}
   
   /* free the key and return */
   return 0;
}

#else

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

#endif