File: check-hash.c

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/*
 * The IKE Scanner (ike-scan) is Copyright (C) 2003-2007 Roy Hills,
 * NTA Monitor Ltd.
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
 *
 * In addition, as a special exception, the copyright holders give
 * permission to link the code of portions of this program with the
 * OpenSSL library, and distribute linked combinations including the two.
 *
 * You must obey the GNU General Public License in all respects
 * for all of the code used other than OpenSSL.  If you modify
 * file(s) with this exception, you may extend this exception to your
 * version of the file(s), but you are not obligated to do so.  If you
 * do not wish to do so, delete this exception statement from your
 * version.
 *
 * If this license is unacceptable to you, I may be willing to negotiate
 * alternative licenses (contact ike-scan@nta-monitor.com).
 *
 * You are encouraged to send comments, improvements or suggestions to
 * me at ike-scan@nta-monitor.com.
 *
 * $Id$
 *
 * check-hash -- Check message digest (HASH) functions
 *
 * Author:	Roy Hills
 * Date:	25 April 2004
 *
 *	Check the various message digest (HASH) functions using the test
 *	vectors given in the appropriate RFC, and also determine the speeds
 *	of the hash functions.
 *
 *	We perform the following tests:
 *
 *	a) MD5 hash test using seven test vectors from RFC 1321
 *	b) SHA1 hash test using two test vectors from RFC 3174
 *	c) HMAC-MD5 keyed hash test using one test vector from RFC 2104
 *	d) HMAC-SHA1 keyed hash test using one test vector from RFC 2202
 *	e) HMAC-MD5 PSK cracking speed
 *	f) HMAC-SHA1 PSK cracking speed
 *	g) Raw MD5 hash speed using 8-byte input
 *	h) Raw SHA1 hash speed using 8-byte input
 */

#include "ike-scan.h"
#include "hash_functions.h"
#define NUM_HMAC_TESTS 1
#define HMAC_SPEED_ITERATIONS 100000
#define HASH_SPEED_ITERATIONS 500000

int
main(void) {
/*
 *	MD5 test vectors from RFC 1321 "The MD5 Message-Digest Algorithm"
 */
   static const char *md5_tests[] = {
      "",
      "a",
      "abc",
      "message digest",
      "abcdefghijklmnopqrstuvwxyz",
      "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789",
      "12345678901234567890123456789012345678901234567890123456789012345678901234567890",
      NULL
   };
   static const char *md5_results[] = {
      "d41d8cd98f00b204e9800998ecf8427e",
      "0cc175b9c0f1b6a831c399e269772661",
      "900150983cd24fb0d6963f7d28e17f72",
      "f96b697d7cb7938d525a2f31aaf161d0",
      "c3fcd3d76192e4007dfb496cca67e13b",
      "d174ab98d277d9f5a5611c2c9f419d9f",
      "57edf4a22be3c955ac49da2e2107b67a"
   };
/*
 *	SHA1 test vectors from RFC 3174 "US Secure Hash Algorithm 1 (SHA1)"
 */
   static const char *sha1_tests[] = {
      "abc",
      "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq",
      NULL
   };
   static const char *sha1_results[] = {
      "a9993e364706816aba3e25717850c26c9cd0d89d",
      "84983e441c3bd26ebaae4aa1f95129e5e54670f1",
   };
/*
 *	HMAC-MD5 test vectors from RFC 2104
 *	"HMAC: Keyed-Hashing for Message Authentication"
 */
   static const struct hmac_md5_test_struct {
      const unsigned char key[16];
      int key_len;
      const unsigned char data[64];
      int data_len;
      const char *digest;
   } hmac_md5_tests[NUM_HMAC_TESTS] = {
      {"Jefe",
       4,
       "what do ya want for nothing?",
       28,
       "750c783e6ab0b503eaa86e310a5db738"}
   };

/*
 *	HMAC-SHA1 test vectors from RFC 2202
 *	"Test Cases for HMAC-MD5 and HMAC-SHA-1"
 */
   static const struct hmac_sha1_test_struct {
      const unsigned char key[20];
      int key_len;
      const unsigned char data[64];
      int data_len;
      const char *digest;
   } hmac_sha1_tests[NUM_HMAC_TESTS] = {
      {"Jefe",
       4,
       "what do ya want for nothing?",
       28,
       "effcdf6ae5eb2fa2d27416d5f184df9c259a7c79"}
   };

   const char **testp;
   const char **resultp;
   int i;

   int error=0;

#ifdef HAVE_OPENSSL
   printf("\nUsing OpenSSL hash and HMAC functions.\n");
#else
   printf("\nUsing built-in hash and HMAC functions.\n");
#endif

   printf("\nChecking MD5 hash function...\n");
   testp=md5_tests;
   resultp=md5_results;
   while (*testp != NULL) {
      const char *expected;
      char *actual;
      printf("\"%s\"\t", *testp);
      expected=*resultp;
      actual=hexstring(MD5((const unsigned char *) *testp, strlen(*testp),
                       NULL), 16);
      if (strcmp(actual, expected)) {
         error++;
         printf("FAIL (expected %s, got %s)\n", expected, actual);
      } else {
         printf("ok\n");
      }
      testp++;
      resultp++;
   }

   printf("\nChecking SHA1 hash function...\n");
   testp=sha1_tests;
   resultp=sha1_results;
   while (*testp != NULL) {
      const char *expected;
      char *actual;
      printf("\"%s\"\t", *testp);
      expected=*resultp;
      actual=hexstring(SHA1((const unsigned char *) *testp, strlen(*testp),
                       NULL), 20);
      if (strcmp(actual, expected)) {
         error++;
         printf("FAIL (expected %s, got %s)\n", expected, actual);
      } else {
         printf("ok\n");
      }
      testp++;
      resultp++;
   }

   printf("\nChecking HMAC-MD5 keyed hash function...\n");
   for (i=0; i<NUM_HMAC_TESTS; i++) {
      const char *expected;
      char *actual;
      printf("\"%s\" \"%s\"\t", hmac_md5_tests[i].key, hmac_md5_tests[i].data);
      expected=hmac_md5_tests[i].digest;
      actual=hexstring(hmac_md5(hmac_md5_tests[i].data,
                                hmac_md5_tests[i].data_len,
                                hmac_md5_tests[i].key,
                                hmac_md5_tests[i].key_len,
                                NULL), 16);
      if (strcmp(actual, expected)) {
         error++;
         printf("FAIL (expected %s, got %s)\n", expected, actual);
      } else {
         printf("ok\n");
      }
   }

   printf("\nChecking HMAC-SHA1 keyed hash function...\n");
   for (i=0; i<NUM_HMAC_TESTS; i++) {
      const char *expected;
      char *actual;
      printf("\"%s\" \"%s\"\t", hmac_sha1_tests[i].key,
             hmac_sha1_tests[i].data);
      expected=hmac_sha1_tests[i].digest;
      actual=hexstring(hmac_sha1(hmac_sha1_tests[i].data,
                                 hmac_sha1_tests[i].data_len,
                                 hmac_sha1_tests[i].key,
                                 hmac_sha1_tests[i].key_len,
                                 NULL), 20);
      if (strcmp(actual, expected)) {
         error++;
         printf("FAIL (expected %s, got %s)\n", expected, actual);
      } else {
         printf("ok\n");
      }
   }

   printf("\nChecking HMAC-MD5 PSK cracking speed...\n");
   do {
/*
 *	The values below are observed values from a Firewall-1 NG AI R54 system
 *	using IKE Aggressive mode with PSK authentication and MD5 hash.
 *	The ID used was "test", and the valid pre-shared key is "abc123".
 *      The expected hash_r is "f995ec2968f695aeb1d4e4b437f49d26".
 */
      const char *g_xr_hex = "9c1e0e07828af45086a4eb559ad8dafb7d655bab38656609426653565ef7e332bed7212cf24a05048032240256a169a68ee304ca500abe073d150bc50239350446ab568132aebcf34acd25ce23b30d0de9f8e7a89c22ce0dec2dabf0409bc25f0988d5d956916dce220c630d2a1fda846667fdecb20b2dc2d5c5b8273a07095c";
      const char *g_xi_hex = "6f8c74c15bb4dd09b7af8d1c23e7b381a38dddcd4c5afb3b1335ff766f0267df8fdca0ea907ef4482d8164506817d10ba4aed8f108d32c1b082b91772df956bcd5f7a765759bada21c11f28429c48fcd7267be7b3aea96421528b9432110fff607a65b7c41091e5d1a10e143d4701147d7cfc211ba5853cf800d12a11d129724";
      const char *cky_r_hex = "6d08132c8abb6931";
      const char *cky_i_hex = "eac82ea45cbe59e6";
      const char *sai_b_hex = "00000001000000010000002c01010001000000240101000080010001800200018003000180040002800b0001000c000400007080";
      const char *idir_b_hex = "01000000ac100202";
      const char *ni_b_hex = "64745a975dbcd95c2abf7d2eeeb93ac4633a03f1";
      const char *nr_b_hex = "502c0b3872518fa1e7ff8f5a28a3d797f65e2cb1";

      unsigned char *g_xr;
      unsigned char *g_xi;
      unsigned char *cky_r;
      unsigned char *cky_i;
      unsigned char *sai_b;
      unsigned char *idir_b;
      unsigned char *ni_b;
      unsigned char *nr_b;

      size_t g_xr_len;
      size_t g_xi_len;
      size_t cky_r_len;
      size_t cky_i_len;
      size_t sai_b_len;
      size_t idir_b_len;
      size_t ni_b_len;
      size_t nr_b_len;

      unsigned char *skeyid;
      unsigned char *hash_r;

      unsigned char *skeyid_data;
      unsigned char *hash_r_data;

      size_t skeyid_data_len;
      size_t hash_r_data_len;

      unsigned char *cp;

      const unsigned char *psk = (const unsigned char *) "abc123";	/* correct key */
      size_t psk_len = 6;

      struct timeval start_time;
      struct timeval end_time;
      struct timeval elapsed_time;
      double elapsed_seconds;

      g_xr = hex2data(g_xr_hex, &g_xr_len);
      g_xi = hex2data(g_xi_hex, &g_xi_len);
      cky_r = hex2data(cky_r_hex, &cky_r_len);
      cky_i = hex2data(cky_i_hex, &cky_i_len);
      sai_b = hex2data(sai_b_hex, &sai_b_len);
      idir_b = hex2data(idir_b_hex, &idir_b_len);
      ni_b = hex2data(ni_b_hex, &ni_b_len);
      nr_b = hex2data(nr_b_hex, &nr_b_len);

      skeyid_data_len = ni_b_len + nr_b_len;
      skeyid_data = Malloc(skeyid_data_len);
      cp = skeyid_data;
      memcpy(cp, ni_b, ni_b_len);
      cp += ni_b_len;
      memcpy(cp, nr_b, nr_b_len);
      skeyid = Malloc(16);
      hash_r_data_len = g_xr_len + g_xi_len + cky_r_len + cky_i_len +
                        sai_b_len + idir_b_len;
      hash_r_data = Malloc(hash_r_data_len);
      cp = hash_r_data;
      memcpy(cp, g_xr, g_xr_len);
      cp += g_xr_len;
      memcpy(cp, g_xi, g_xi_len);
      cp += g_xi_len;
      memcpy(cp, cky_r, cky_r_len);
      cp += cky_r_len;
      memcpy(cp, cky_i, cky_i_len);
      cp += cky_i_len;
      memcpy(cp, sai_b, sai_b_len);
      cp += sai_b_len;
      memcpy(cp, idir_b, idir_b_len);
      hash_r = Malloc(16);

      Gettimeofday(&start_time);
      for (i=0; i<HMAC_SPEED_ITERATIONS; i++) {
         hmac_md5(skeyid_data, skeyid_data_len, psk, psk_len, skeyid);
         hmac_md5(hash_r_data, hash_r_data_len, skeyid, 16, hash_r);
      }
      Gettimeofday(&end_time);
      timeval_diff(&end_time, &start_time, &elapsed_time);
      elapsed_seconds = elapsed_time.tv_sec +
                        (elapsed_time.tv_usec / 1000000.0);
      printf("%u MD5 HASH_R calculations in %.6f seconds (%.2f per sec)\n",
             HMAC_SPEED_ITERATIONS, elapsed_seconds,
             HMAC_SPEED_ITERATIONS/elapsed_seconds);
   } while (0);

   printf("\nChecking HMAC-SHA1 PSK cracking speed...\n");
   do {
/*
 *	The values below are observed values from a Firewall-1 NG AI R54 system
 *	using IKE Aggressive mode with PSK authentication and SHA1 hash.
 *	The ID used was "test", and the valid pre-shared key is "abc123".
 *      The expected hash_r is "543ea42889c07b17390cc6f0440246c0148422df".
 */
      const char *g_xr_hex = "6c5559243259d5293df34a766561b8ffa78a9f8ee03d8a05916aadeeba9997864e0cd712f2a08104366c5e48f391ee7ce7b0ac08c59b8001c888c9f0343fd7d7d2d1da8e672c4ff05a7dd3c4eb6adc09bec712128ed951f7fcde2c31431643eb04d5ffc0be68e17aa80168e9635cb6f4c80af8ea1432c2b095b25f3d79ac4e55";
      const char *g_xi_hex = "857209de96faf07bad57ff1aba648a2c61a6802e4db3ab54c5593fa8abd9b1304bbb0fe2b5ff5d63565c7d10c1073d22adbd51fb70fc4f35568ede01678f32b24a41940040f263964ee0a70fe8e43295a18390117fdf46d56d24d7d4b40987fe4a1bfe8a0d61205c42c76b2aab9dbf4c20505da02fa4759dc84c717c55f87b9f";
      const char *cky_r_hex = "963c61ef1778b6c5";
      const char *cky_i_hex = "efa6639971a91c08";
      const char *sai_b_hex = "00000001000000010000002c01010001000000240101000080010001800200028003000180040002800b0001000c000400007080";
      const char *idir_b_hex = "01000000ac100202";
      const char *ni_b_hex = "6d62656f72fd1c53cda7337d0612aeebe3529a09";
      const char *nr_b_hex = "8e83c48eb087b8276b4bb2976ea23bf426abde8f";

      unsigned char *g_xr;
      unsigned char *g_xi;
      unsigned char *cky_r;
      unsigned char *cky_i;
      unsigned char *sai_b;
      unsigned char *idir_b;
      unsigned char *ni_b;
      unsigned char *nr_b;

      size_t g_xr_len;
      size_t g_xi_len;
      size_t cky_r_len;
      size_t cky_i_len;
      size_t sai_b_len;
      size_t idir_b_len;
      size_t ni_b_len;
      size_t nr_b_len;

      unsigned char *skeyid;
      unsigned char *hash_r;

      unsigned char *skeyid_data;
      unsigned char *hash_r_data;

      size_t skeyid_data_len;
      size_t hash_r_data_len;

      unsigned char *cp;

      const unsigned char *psk = (const unsigned char *) "abc123";	/* correct key */
      size_t psk_len = 6;

      struct timeval start_time;
      struct timeval end_time;
      struct timeval elapsed_time;
      double elapsed_seconds;

      g_xr = hex2data(g_xr_hex, &g_xr_len);
      g_xi = hex2data(g_xi_hex, &g_xi_len);
      cky_r = hex2data(cky_r_hex, &cky_r_len);
      cky_i = hex2data(cky_i_hex, &cky_i_len);
      sai_b = hex2data(sai_b_hex, &sai_b_len);
      idir_b = hex2data(idir_b_hex, &idir_b_len);
      ni_b = hex2data(ni_b_hex, &ni_b_len);
      nr_b = hex2data(nr_b_hex, &nr_b_len);

      skeyid_data_len = ni_b_len + nr_b_len;
      skeyid_data = Malloc(skeyid_data_len);
      cp = skeyid_data;
      memcpy(cp, ni_b, ni_b_len);
      cp += ni_b_len;
      memcpy(cp, nr_b, nr_b_len);
      skeyid = Malloc(20);
      hash_r_data_len = g_xr_len + g_xi_len + cky_r_len + cky_i_len +
                        sai_b_len + idir_b_len;
      hash_r_data = Malloc(hash_r_data_len);
      cp = hash_r_data;
      memcpy(cp, g_xr, g_xr_len);
      cp += g_xr_len;
      memcpy(cp, g_xi, g_xi_len);
      cp += g_xi_len;
      memcpy(cp, cky_r, cky_r_len);
      cp += cky_r_len;
      memcpy(cp, cky_i, cky_i_len);
      cp += cky_i_len;
      memcpy(cp, sai_b, sai_b_len);
      cp += sai_b_len;
      memcpy(cp, idir_b, idir_b_len);
      hash_r = Malloc(20);

      Gettimeofday(&start_time);
      for (i=0; i<HMAC_SPEED_ITERATIONS; i++) {
         hmac_sha1(skeyid_data, skeyid_data_len, psk, psk_len, skeyid);
         hmac_sha1(hash_r_data, hash_r_data_len, skeyid, 20, hash_r);
      }
      Gettimeofday(&end_time);
      timeval_diff(&end_time, &start_time, &elapsed_time);
      elapsed_seconds = elapsed_time.tv_sec +
                        (elapsed_time.tv_usec / 1000000.0);
      printf("%u SHA1 HASH_R calculations in %.6f seconds (%.2f per sec)\n",
             HMAC_SPEED_ITERATIONS, elapsed_seconds,
             HMAC_SPEED_ITERATIONS/elapsed_seconds);
   } while (0);

   printf("\nChecking MD5 hash speed...\n");
   do {
      size_t hash_data_len;
      unsigned char *hash_result;
      struct timeval start_time;
      struct timeval end_time;
      struct timeval elapsed_time;
      double elapsed_seconds;
      unsigned char hash_speed_data[] = "12345678";
      size_t memcpy_len;

      hash_data_len = strlen((char *) hash_speed_data);
      memcpy_len=hash_data_len>16?16:hash_data_len;
      Gettimeofday(&start_time);
      for (i=0; i<HASH_SPEED_ITERATIONS; i++) {
         hash_result=MD5(hash_speed_data, hash_data_len, NULL);
         memcpy(hash_speed_data, hash_result, memcpy_len);
      }
      Gettimeofday(&end_time);
      timeval_diff(&end_time, &start_time, &elapsed_time);
      elapsed_seconds = elapsed_time.tv_sec +
                        (elapsed_time.tv_usec / 1000000.0);
      printf("%u MD5 calculations in %.6f seconds (%.2f per sec)\n",
             HASH_SPEED_ITERATIONS, elapsed_seconds,
             HASH_SPEED_ITERATIONS/elapsed_seconds);
   } while (0);

   printf("\nChecking SHA1 hash speed...\n");
   do {
      size_t hash_data_len;
      unsigned char *hash_result;
      struct timeval start_time;
      struct timeval end_time;
      struct timeval elapsed_time;
      double elapsed_seconds;
      unsigned char hash_speed_data[] = "12345678";
      size_t memcpy_len;

      hash_data_len = strlen((char *) hash_speed_data);
      memcpy_len=hash_data_len>20?20:hash_data_len;
      Gettimeofday(&start_time);
      for (i=0; i<HASH_SPEED_ITERATIONS; i++) {
         hash_result=SHA1(hash_speed_data, hash_data_len, NULL);
         memcpy(hash_speed_data, hash_result, memcpy_len);
      }
      Gettimeofday(&end_time);
      timeval_diff(&end_time, &start_time, &elapsed_time);
      elapsed_seconds = elapsed_time.tv_sec +
                        (elapsed_time.tv_usec / 1000000.0);
      printf("%u SHA1 calculations in %.6f seconds (%.2f per sec)\n",
             HASH_SPEED_ITERATIONS, elapsed_seconds,
             HASH_SPEED_ITERATIONS/elapsed_seconds);
   } while (0);

   if (error)
      return EXIT_FAILURE;
   else
      return EXIT_SUCCESS;
}