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md2.c

md2.c 6.1 KB
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  1. /* LibTomCrypt, modular cryptographic library -- Tom St Denis
    2. 

  2.  *
    3. 

  3.  * LibTomCrypt is a library that provides various cryptographic
    4. 

  4.  * algorithms in a highly modular and flexible manner.
    5. 

  5.  *
    6. 

  6.  * The library is free for all purposes without any express
    7. 

  7.  * guarantee it works.
    8. 

  8.  *
    9. 

  9.  * Tom St Denis, [email protected], http://libtomcrypt.org
    10. 

  10.  */
    11. 

  11. /* MD2 (RFC 1319) hash function implementation by Tom St Denis */
    12. 

  12. #include "mycrypt.h"
    13. 

  13. 

  14. #ifdef MD2
    15. 

  15. 

  16. const struct _hash_descriptor md2_desc =
    17. 

  17. {
    18. 

  18.     "md2",
    19. 

  19.     7,
    20. 

  20.     16,
    21. 

  21.     16,
    22. 

  22. 

  23.     /* DER encoding */
    24. 

  24.     { 0x30, 0x20, 0x30, 0x0C, 0x06, 0x08, 0x2A, 0x86, 
    25. 

  25.       0x48, 0x86, 0xF7, 0x0D, 0x02, 0x02, 0x05, 0x00, 
    26. 

  26.       0x04, 0x10 },
    27. 

  27.     18,
    28. 

  28. 

  29.     &md2_init,
    30. 

  30.     &md2_process,
    31. 

  31.     &md2_done,
    32. 

  32.     &md2_test
    33. 

  33. };
    34. 

  34. 

  35. static const unsigned char PI_SUBST[256] = {
    36. 

  36.   41, 46, 67, 201, 162, 216, 124, 1, 61, 54, 84, 161, 236, 240, 6,
    37. 

  37.   19, 98, 167, 5, 243, 192, 199, 115, 140, 152, 147, 43, 217, 188,
    38. 

  38.   76, 130, 202, 30, 155, 87, 60, 253, 212, 224, 22, 103, 66, 111, 24,
    39. 

  39.   138, 23, 229, 18, 190, 78, 196, 214, 218, 158, 222, 73, 160, 251,
    40. 

  40.   245, 142, 187, 47, 238, 122, 169, 104, 121, 145, 21, 178, 7, 63,
    41. 

  41.   148, 194, 16, 137, 11, 34, 95, 33, 128, 127, 93, 154, 90, 144, 50,
    42. 

  42.   39, 53, 62, 204, 231, 191, 247, 151, 3, 255, 25, 48, 179, 72, 165,
    43. 

  43.   181, 209, 215, 94, 146, 42, 172, 86, 170, 198, 79, 184, 56, 210,
    44. 

  44.   150, 164, 125, 182, 118, 252, 107, 226, 156, 116, 4, 241, 69, 157,
    45. 

  45.   112, 89, 100, 113, 135, 32, 134, 91, 207, 101, 230, 45, 168, 2, 27,
    46. 

  46.   96, 37, 173, 174, 176, 185, 246, 28, 70, 97, 105, 52, 64, 126, 15,
    47. 

  47.   85, 71, 163, 35, 221, 81, 175, 58, 195, 92, 249, 206, 186, 197,
    48. 

  48.   234, 38, 44, 83, 13, 110, 133, 40, 132, 9, 211, 223, 205, 244, 65,
    49. 

  49.   129, 77, 82, 106, 220, 55, 200, 108, 193, 171, 250, 36, 225, 123,
    50. 

  50.   8, 12, 189, 177, 74, 120, 136, 149, 139, 227, 99, 232, 109, 233,
    51. 

  51.   203, 213, 254, 59, 0, 29, 57, 242, 239, 183, 14, 102, 88, 208, 228,
    52. 

  52.   166, 119, 114, 248, 235, 117, 75, 10, 49, 68, 80, 180, 143, 237,
    53. 

  53.   31, 26, 219, 153, 141, 51, 159, 17, 131, 20
    54. 

  54. };
    55. 

  55. 

  56. /* adds 16 bytes to the checksum */
    57. 

  57. static void md2_update_chksum(hash_state *md)
    58. 

  58. {
    59. 

  59.    int j;
    60. 

  60.    unsigned char L;
    61. 

  61.    L = md->md2.chksum[15];
    62. 

  62.    for (j = 0; j < 16; j++) {
    63. 

  63. 

  64. /* caution, the RFC says its "C[j] = S[M[i*16+j] xor L]" but the reference source code [and test vectors] say 
    65. 

  65.    otherwise.
    66. 

  66. */
    67. 

  67.        L = (md->md2.chksum[j] ^= PI_SUBST[(int)(md->md2.buf[j] ^ L)] & 255);
    68. 

  68.    }
    69. 

  69. }
    70. 

  70. 

  71. static void md2_compress(hash_state *md)
    72. 

  72. {
    73. 

  73.    int j, k;
    74. 

  74.    unsigned char t;
    75. 

  75.    
    76. 

  76.    /* copy block */
    77. 

  77.    for (j = 0; j < 16; j++) {
    78. 

  78.        md->md2.X[16+j] = md->md2.buf[j];
    79. 

  79.        md->md2.X[32+j] = md->md2.X[j] ^ md->md2.X[16+j];
    80. 

  80.    }
    81. 

  81. 

  82.    t = (unsigned char)0;
    83. 

  83. 

  84.    /* do 18 rounds */
    85. 

  85.    for (j = 0; j < 18; j++) {
    86. 

  86.        for (k = 0; k < 48; k++) {
    87. 

  87.            t = (md->md2.X[k] ^= PI_SUBST[(int)(t & 255)]);
    88. 

  88.        }
    89. 

  89.        t = (t + (unsigned char)j) & 255;
    90. 

  90.    }
    91. 

  91. }
    92. 

  92. 

  93. int md2_init(hash_state *md)
    94. 

  94. {
    95. 

  95.    _ARGCHK(md != NULL);
    96. 

  96. 

  97.    /* MD2 uses a zero'ed state... */
    98. 

  98.    zeromem(md->md2.X, sizeof(md->md2.X));
    99. 

  99.    zeromem(md->md2.chksum, sizeof(md->md2.chksum));
    100. 

  100.    zeromem(md->md2.buf, sizeof(md->md2.buf));
    101. 

  101.    md->md2.curlen = 0;
    102. 

  102.    return CRYPT_OK;
    103. 

  103. }
    104. 

  104. 

  105. int md2_process(hash_state *md, const unsigned char *buf, unsigned long len)
    106. 

  106. {
    107. 

  107.     unsigned long n;
    108. 

  108.     _ARGCHK(md != NULL);
    109. 

  109.     _ARGCHK(buf != NULL);
    110. 

  110.     if (md-> md2 .curlen > sizeof(md-> md2 .buf)) {                            
    111. 

  111.        return CRYPT_INVALID_ARG;                                                           
    112. 

  112.     }                                                                                       
    113. 

  113.     while (len > 0) {
    114. 

  114.         n = MIN(len, (16 - md->md2.curlen));
    115. 

  115.         XMEMCPY(md->md2.buf + md->md2.curlen, buf, (size_t)n);
    116. 

  116.         md->md2.curlen += n;
    117. 

  117.         buf            += n;
    118. 

  118.         len            -= n;
    119. 

  119. 

  120.         /* is 16 bytes full? */
    121. 

  121.         if (md->md2.curlen == 16) {
    122. 

  122.             md2_compress(md);
    123. 

  123.             md2_update_chksum(md);
    124. 

  124.             md->md2.curlen = 0;
    125. 

  125.         }
    126. 

  126.     }
    127. 

  127.     return CRYPT_OK;
    128. 

  128. }
    129. 

  129. 

  130. int md2_done(hash_state * md, unsigned char *hash)
    131. 

  131. {
    132. 

  132.     unsigned long i, k;
    133. 

  133. 

  134.     _ARGCHK(md != NULL);
    135. 

  135.     _ARGCHK(hash != NULL);
    136. 

  136. 

  137.     if (md->md2.curlen >= sizeof(md->md2.buf)) {
    138. 

  138.        return CRYPT_INVALID_ARG;
    139. 

  139.     }
    140. 

  140. 

  141. 

  142.     /* pad the message */
    143. 

  143.     k = 16 - md->md2.curlen;
    144. 

  144.     for (i = md->md2.curlen; i < 16; i++) {
    145. 

  145.         md->md2.buf[i] = (unsigned char)k;
    146. 

  146.     }
    147. 

  147. 

  148.     /* hash and update */
    149. 

  149.     md2_compress(md);
    150. 

  150.     md2_update_chksum(md);
    151. 

  151. 

  152.     /* hash checksum */
    153. 

  153.     XMEMCPY(md->md2.buf, md->md2.chksum, 16);
    154. 

  154.     md2_compress(md);
    155. 

  155. 

  156.     /* output is lower 16 bytes of X */
    157. 

  157.     XMEMCPY(hash, md->md2.X, 16);
    158. 

  158. 

  159. #ifdef CLEAN_STACK
    160. 

  160.     zeromem(md, sizeof(hash_state));
    161. 

  161. #endif
    162. 

  162.     return CRYPT_OK;
    163. 

  163. }
    164. 

  164. 

  165. int md2_test(void)
    166. 

  166. {
    167. 

  167.  #ifndef LTC_TEST
    168. 

  168.     return CRYPT_NOP;
    169. 

  169.  #else    
    170. 

  170.    static const struct {
    171. 

  171.         char *msg;
    172. 

  172.         unsigned char md[16];
    173. 

  173.    } tests[] = {
    174. 

  174.       { "",
    175. 

  175.         {0x83,0x50,0xe5,0xa3,0xe2,0x4c,0x15,0x3d,
    176. 

  176.          0xf2,0x27,0x5c,0x9f,0x80,0x69,0x27,0x73
    177. 

  177.         }
    178. 

  178.       },
    179. 

  179.       { "a",
    180. 

  180.         {0x32,0xec,0x01,0xec,0x4a,0x6d,0xac,0x72,
    181. 

  181.          0xc0,0xab,0x96,0xfb,0x34,0xc0,0xb5,0xd1
    182. 

  182.         }
    183. 

  183.       },
    184. 

  184.       { "message digest",
    185. 

  185.         {0xab,0x4f,0x49,0x6b,0xfb,0x2a,0x53,0x0b,
    186. 

  186.          0x21,0x9f,0xf3,0x30,0x31,0xfe,0x06,0xb0
    187. 

  187.         }
    188. 

  188.       },
    189. 

  189.       { "abcdefghijklmnopqrstuvwxyz",
    190. 

  190.         {0x4e,0x8d,0xdf,0xf3,0x65,0x02,0x92,0xab,
    191. 

  191.          0x5a,0x41,0x08,0xc3,0xaa,0x47,0x94,0x0b
    192. 

  192.         }
    193. 

  193.       },
    194. 

  194.       { "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789",
    195. 

  195.         {0xda,0x33,0xde,0xf2,0xa4,0x2d,0xf1,0x39,
    196. 

  196.          0x75,0x35,0x28,0x46,0xc3,0x03,0x38,0xcd
    197. 

  197.         }
    198. 

  198.       },
    199. 

  199.       { "12345678901234567890123456789012345678901234567890123456789012345678901234567890",
    200. 

  200.         {0xd5,0x97,0x6f,0x79,0xd8,0x3d,0x3a,0x0d,
    201. 

  201.          0xc9,0x80,0x6c,0x3c,0x66,0xf3,0xef,0xd8
    202. 

  202.         }
    203. 

  203.       }
    204. 

  204.    };
    205. 

  205.    int i;
    206. 

  206.    hash_state md;
    207. 

  207.    unsigned char buf[16];
    208. 

  208. 

  209.    for (i = 0; i < (int)(sizeof(tests) / sizeof(tests[0])); i++) {
    210. 

  210.        md2_init(&md);
    211. 

  211.        md2_process(&md, (unsigned char*)tests[i].msg, (unsigned long)strlen(tests[i].msg));
    212. 

  212.        md2_done(&md, buf);
    213. 

  213.        if (memcmp(buf, tests[i].md, 16) != 0) {
    214. 

  214.           return CRYPT_FAIL_TESTVECTOR;
    215. 

  215.        }
    216. 

  216.    }
    217. 

  217.    return CRYPT_OK;        
    218. 

  218.   #endif
    219. 

  219. }
    220. 

  220. 

  221. #endif
    222. 

  222.