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camellia.c

camellia.c 14 KB
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  1. /*
    2. 

  2.  * An implementation of the CAMELLIA algorithm as mentioned in RFC3713
    3. 

  3.  * Copyright (c) 2014 Supraja Meedinti
    4. 

  4.  *
    5. 

  5.  * This file is part of FFmpeg.
    6. 

  6.  *
    7. 

  7.  * FFmpeg is free software; you can redistribute it and/or
    8. 

  8.  * modify it under the terms of the GNU Lesser General Public
    9. 

  9.  * License as published by the Free Software Foundation; either
    10. 

  10.  * version 2.1 of the License, or (at your option) any later version.
    11. 

  11.  *
    12. 

  12.  * FFmpeg is distributed in the hope that it will be useful,
    13. 

  13.  * but WITHOUT ANY WARRANTY; without even the implied warranty of
    14. 

  14.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    15. 

  15.  * Lesser General Public License for more details.
    16. 

  16.  *
    17. 

  17.  * You should have received a copy of the GNU Lesser General Public
    18. 

  18.  * License along with FFmpeg; if not, write to the Free Software
    19. 

  19.  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
    20. 

  20.  */
    21. 

  21. #include "camellia.h"
    22. 

  22. #include "common.h"
    23. 

  23. #include "intreadwrite.h"
    24. 

  24. #include "attributes.h"
    25. 

  25. 

  26. #define LR32(x,c) ((x) << (c) | (x) >> (32 - (c)))
    27. 

  27. #define RR32(x,c) ((x) >> (c) | (x) << (32 - (c)))
    28. 

  28. 

  29. #define MASK8 0xff
    30. 

  30. #define MASK32 0xffffffff
    31. 

  31. #define MASK64 0xffffffffffffffff
    32. 

  32. 

  33. #define Sigma1  0xA09E667F3BCC908B
    34. 

  34. #define Sigma2  0xB67AE8584CAA73B2
    35. 

  35. #define Sigma3  0xC6EF372FE94F82BE
    36. 

  36. #define Sigma4  0x54FF53A5F1D36F1C
    37. 

  37. #define Sigma5  0x10E527FADE682D1D
    38. 

  38. #define Sigma6  0xB05688C2B3E6C1FD
    39. 

  39. 

  40. static uint64_t SP[8][256];
    41. 

  41. 

  42. typedef struct AVCAMELLIA {
    43. 

  43.     uint64_t Kw[4];
    44. 

  44.     uint64_t Ke[6];
    45. 

  45.     uint64_t K[24];
    46. 

  46.     int key_bits;
    47. 

  47. } AVCAMELLIA;
    48. 

  48. 

  49. static const uint8_t SBOX1[256] = {
    50. 

  50. 112, 130,  44, 236, 179,  39, 192, 229, 228, 133,  87,  53, 234,  12, 174,  65,
    51. 

  51.  35, 239, 107, 147,  69,  25, 165,  33, 237,  14,  79,  78,  29, 101, 146, 189,
    52. 

  52. 134, 184, 175, 143, 124, 235,  31, 206,  62,  48, 220,  95,  94, 197,  11,  26,
    53. 

  53. 166, 225,  57, 202, 213,  71,  93,  61, 217,   1,  90, 214,  81,  86, 108,  77,
    54. 

  54. 139,  13, 154, 102, 251, 204, 176,  45, 116,  18,  43,  32, 240, 177, 132, 153,
    55. 

  55. 223,  76, 203, 194,  52, 126, 118,   5, 109, 183, 169,  49, 209,  23,   4, 215,
    56. 

  56.  20,  88,  58,  97, 222,  27,  17,  28,  50,  15, 156,  22,  83,  24, 242,  34,
    57. 

  57. 254,  68, 207, 178, 195, 181, 122, 145,  36,   8, 232, 168,  96, 252, 105,  80,
    58. 

  58. 170, 208, 160, 125, 161, 137,  98, 151,  84,  91,  30, 149, 224, 255, 100, 210,
    59. 

  59.  16, 196,   0,  72, 163, 247, 117, 219, 138,   3, 230, 218,   9,  63, 221, 148,
    60. 

  60. 135,  92, 131,   2, 205,  74, 144,  51, 115, 103, 246, 243, 157, 127, 191, 226,
    61. 

  61.  82, 155, 216,  38, 200,  55, 198,  59, 129, 150, 111,  75,  19, 190,  99,  46,
    62. 

  62. 233, 121, 167, 140, 159, 110, 188, 142,  41, 245, 249, 182,  47, 253, 180,  89,
    63. 

  63. 120, 152,   6, 106, 231,  70, 113, 186, 212,  37, 171,  66, 136, 162, 141, 250,
    64. 

  64. 114,   7, 185,  85, 248, 238, 172,  10,  54,  73,  42, 104,  60,  56, 241, 164,
    65. 

  65.  64,  40, 211, 123, 187, 201,  67, 193,  21, 227, 173, 244, 119, 199, 128, 158
    66. 

  66. };
    67. 

  67. 

  68. static const uint8_t SBOX2[256] = {
    69. 

  69. 224,   5,  88, 217, 103,  78, 129, 203, 201,  11, 174, 106, 213,  24,  93, 130,
    70. 

  70.  70, 223, 214,  39, 138,  50,  75,  66, 219,  28, 158, 156,  58, 202,  37, 123,
    71. 

  71.  13, 113,  95,  31, 248, 215,  62, 157, 124,  96, 185, 190, 188, 139,  22,  52,
    72. 

  72.  77, 195, 114, 149, 171, 142, 186, 122, 179,   2, 180, 173, 162, 172, 216, 154,
    73. 

  73.  23,  26,  53, 204, 247, 153,  97,  90, 232,  36,  86,  64, 225,  99,   9,  51,
    74. 

  74. 191, 152, 151, 133, 104, 252, 236,  10, 218, 111,  83,  98, 163,  46,   8, 175,
    75. 

  75.  40, 176, 116, 194, 189,  54,  34,  56, 100,  30,  57,  44, 166,  48, 229,  68,
    76. 

  76. 253, 136, 159, 101, 135, 107, 244,  35,  72,  16, 209,  81, 192, 249, 210, 160,
    77. 

  77.  85, 161,  65, 250,  67,  19, 196,  47, 168, 182,  60,  43, 193, 255, 200, 165,
    78. 

  78.  32, 137,   0, 144,  71, 239, 234, 183,  21,   6, 205, 181,  18, 126, 187,  41,
    79. 

  79.  15, 184,   7,   4, 155, 148,  33, 102, 230, 206, 237, 231,  59, 254, 127, 197,
    80. 

  80. 164,  55, 177,  76, 145, 110, 141, 118,   3,  45, 222, 150,  38, 125, 198,  92,
    81. 

  81. 211, 242,  79,  25,  63, 220, 121,  29,  82, 235, 243, 109,  94, 251, 105, 178,
    82. 

  82. 240,  49,  12, 212, 207, 140, 226, 117, 169,  74,  87, 132,  17,  69,  27, 245,
    83. 

  83. 228,  14, 115, 170, 241, 221,  89,  20, 108, 146,  84, 208, 120, 112, 227,  73,
    84. 

  84. 128,  80, 167, 246, 119, 147, 134, 131,  42, 199,  91, 233, 238, 143,   1,  61
    85. 

  85. };
    86. 

  86. 

  87. static const uint8_t SBOX3[256] = {
    88. 

  88.  56,  65,  22, 118, 217, 147,  96, 242, 114, 194, 171, 154, 117,   6,  87, 160,
    89. 

  89. 145, 247, 181, 201, 162, 140, 210, 144, 246,   7, 167,  39, 142, 178,  73, 222,
    90. 

  90.  67,  92, 215, 199,  62, 245, 143, 103,  31,  24, 110, 175,  47, 226, 133,  13,
    91. 

  91.  83, 240, 156, 101, 234, 163, 174, 158, 236, 128,  45, 107, 168,  43,  54, 166,
    92. 

  92. 197, 134,  77,  51, 253, 102,  88, 150,  58,   9, 149,  16, 120, 216,  66, 204,
    93. 

  93. 239,  38, 229,  97,  26,  63,  59, 130, 182, 219, 212, 152, 232, 139,   2, 235,
    94. 

  94.  10,  44,  29, 176, 111, 141, 136,  14,  25, 135,  78,  11, 169,  12, 121,  17,
    95. 

  95. 127,  34, 231,  89, 225, 218,  61, 200,  18,   4, 116,  84,  48, 126, 180,  40,
    96. 

  96.  85, 104,  80, 190, 208, 196,  49, 203,  42, 173,  15, 202, 112, 255,  50, 105,
    97. 

  97.   8,  98,   0,  36, 209, 251, 186, 237,  69, 129, 115, 109, 132, 159, 238,  74,
    98. 

  98. 195,  46, 193,   1, 230,  37,  72, 153, 185, 179, 123, 249, 206, 191, 223, 113,
    99. 

  99.  41, 205, 108,  19, 100, 155,  99, 157, 192,  75, 183, 165, 137,  95, 177,  23,
    100. 

  100. 244, 188, 211,  70, 207,  55,  94,  71, 148, 250, 252,  91, 151, 254,  90, 172,
    101. 

  101.  60,  76,   3,  53, 243,  35, 184,  93, 106, 146, 213,  33,  68,  81, 198, 125,
    102. 

  102.  57, 131, 220, 170, 124, 119,  86,   5,  27, 164,  21,  52,  30,  28, 248,  82,
    103. 

  103.  32,  20, 233, 189, 221, 228, 161, 224, 138, 241, 214, 122, 187, 227,  64,  79
    104. 

  104. };
    105. 

  105. 

  106. static const uint8_t SBOX4[256] = {
    107. 

  107. 112,  44, 179, 192, 228,  87, 234, 174,  35, 107,  69, 165, 237,  79,  29, 146,
    108. 

  108. 134, 175, 124,  31,  62, 220,  94,  11, 166,  57, 213,  93, 217,  90,  81, 108,
    109. 

  109. 139, 154, 251, 176, 116,  43, 240, 132, 223, 203,  52, 118, 109, 169, 209,   4,
    110. 

  110.  20,  58, 222,  17,  50, 156,  83, 242, 254, 207, 195, 122,  36, 232,  96, 105,
    111. 

  111. 170, 160, 161,  98,  84,  30, 224, 100,  16,   0, 163, 117, 138, 230,   9, 221,
    112. 

  112. 135, 131, 205, 144, 115, 246, 157, 191,  82, 216, 200, 198, 129, 111,  19,  99,
    113. 

  113. 233, 167, 159, 188,  41, 249,  47, 180, 120,   6, 231, 113, 212, 171, 136, 141,
    114. 

  114. 114, 185, 248, 172,  54,  42,  60, 241,  64, 211, 187,  67,  21, 173, 119, 128,
    115. 

  115. 130, 236,  39, 229, 133,  53,  12,  65, 239, 147,  25,  33,  14,  78, 101, 189,
    116. 

  116. 184, 143, 235, 206,  48,  95, 197,  26, 225, 202,  71,  61,   1, 214,  86,  77,
    117. 

  117.  13, 102, 204,  45,  18,  32, 177, 153,  76, 194, 126,   5, 183,  49,  23, 215,
    118. 

  118.  88,  97,  27,  28,  15,  22,  24,  34,  68, 178, 181, 145,   8, 168, 252,  80,
    119. 

  119. 208, 125, 137, 151,  91, 149, 255, 210, 196,  72, 247, 219,   3, 218,  63, 148,
    120. 

  120.  92,   2,  74,  51, 103, 243, 127, 226, 155,  38,  55,  59, 150,  75, 190,  46,
    121. 

  121. 121, 140, 110, 142, 245, 182, 253,  89, 152, 106,  70, 186,  37,  66, 162, 250,
    122. 

  122.   7,  85, 238,  10,  73, 104,  56, 164,  40, 123, 201, 193, 227, 244, 199, 158
    123. 

  123. };
    124. 

  124. 

  125. const int av_camellia_size = sizeof(AVCAMELLIA);
    126. 

  126. 

  127. static void LR128(uint64_t d[2], const uint64_t K[2], int x)
    128. 

  128. {
    129. 

  129.     int i = 0;
    130. 

  130.     if (64 <= x && x < 128) {
    131. 

  131.         i = 1;
    132. 

  132.         x -= 64;
    133. 

  133.     }
    134. 

  134.     if (x <= 0 || x >= 128) {
    135. 

  135.         d[0] = K[i];
    136. 

  136.         d[1] = K[!i];
    137. 

  137.         return;
    138. 

  138.     }
    139. 

  139.     d[0] = (K[i] << x | K[!i] >> (64 - x));
    140. 

  140.     d[1] = (K[!i] << x | K[i] >> (64 - x));
    141. 

  141. }
    142. 

  142. 

  143. static uint64_t F(uint64_t F_IN, uint64_t KE)
    144. 

  144. {
    145. 

  145.     KE ^= F_IN;
    146. 

  146.     F_IN=SP[0][KE >> 56]^SP[1][(KE >> 48) & MASK8]^SP[2][(KE >> 40) & MASK8]^SP[3][(KE >> 32) & MASK8]^SP[4][(KE >> 24) & MASK8]^SP[5][(KE >> 16) & MASK8]^SP[6][(KE >> 8) & MASK8]^SP[7][KE & MASK8];
    147. 

  147.     return F_IN;
    148. 

  148. }
    149. 

  149. 

  150. static uint64_t FL(uint64_t FL_IN, uint64_t KE)
    151. 

  151. {
    152. 

  152.     uint32_t x1, x2, k1, k2;
    153. 

  153.     x1 = FL_IN >> 32;
    154. 

  154.     x2 = FL_IN & MASK32;
    155. 

  155.     k1 = KE >> 32;
    156. 

  156.     k2 = KE & MASK32;
    157. 

  157.     x2 = x2 ^ LR32((x1 & k1), 1);
    158. 

  158.     x1 = x1 ^ (x2 | k2);
    159. 

  159.     return ((uint64_t)x1 << 32) | (uint64_t)x2;
    160. 

  160. }
    161. 

  161. 

  162. static uint64_t FLINV(uint64_t FLINV_IN, uint64_t KE)
    163. 

  163. {
    164. 

  164.     uint32_t x1, x2, k1, k2;
    165. 

  165.     x1 = FLINV_IN >> 32;
    166. 

  166.     x2 = FLINV_IN & MASK32;
    167. 

  167.     k1 = KE >> 32;
    168. 

  168.     k2 = KE & MASK32;
    169. 

  169.     x1 = x1 ^ (x2 | k2);
    170. 

  170.     x2 = x2 ^ LR32((x1 & k1), 1);
    171. 

  171.     return ((uint64_t)x1 << 32) | (uint64_t)x2;
    172. 

  172. }
    173. 

  173. 

  174. static const uint8_t shifts[2][12] = {
    175. 

  175.     {0, 15, 15, 45, 45, 60, 94, 94, 111},
    176. 

  176.     {0, 15, 15, 30, 45, 45, 60, 60,  77, 94, 94, 111}
    177. 

  177. };
    178. 

  178. 

  179. static const uint8_t vars[2][12] = {
    180. 

  180.     {2, 0, 2, 0, 2, 2, 0, 2, 0},
    181. 

  181.     {3, 1, 2, 3, 0, 2, 1, 3, 0, 1, 2, 0}
    182. 

  182. };
    183. 

  183. 

  184. static void generate_round_keys(AVCAMELLIA *cs, uint64_t Kl[2], uint64_t Kr[2], uint64_t Ka[2], uint64_t Kb[2])
    185. 

  185. {
    186. 

  186.     int i;
    187. 

  187.     uint64_t *Kd[4], d[2];
    188. 

  188.     Kd[0] = Kl;
    189. 

  189.     Kd[1] = Kr;
    190. 

  190.     Kd[2] = Ka;
    191. 

  191.     Kd[3] = Kb;
    192. 

  192.     cs->Kw[0] = Kl[0];
    193. 

  193.     cs->Kw[1] = Kl[1];
    194. 

  194.     if (cs->key_bits == 128) {
    195. 

  195.         for (i = 0; i < 9; i++) {
    196. 

  196.             LR128(d, Kd[vars[0][i]], shifts[0][i]);
    197. 

  197.             cs->K[2*i] = d[0];
    198. 

  198.             cs->K[2*i+1] = d[1];
    199. 

  199.         }
    200. 

  200.         LR128(d, Kd[0], 60);
    201. 

  201.         cs->K[9] = d[1];
    202. 

  202.         LR128(d, Kd[2], 30);
    203. 

  203.         cs->Ke[0] = d[0];
    204. 

  204.         cs->Ke[1] = d[1];
    205. 

  205.         LR128(d, Kd[0], 77);
    206. 

  206.         cs->Ke[2] = d[0];
    207. 

  207.         cs->Ke[3] = d[1];
    208. 

  208.         LR128(d, Kd[2], 111);
    209. 

  209.         cs->Kw[2] = d[0];
    210. 

  210.         cs->Kw[3] = d[1];
    211. 

  211.     } else {
    212. 

  212.         for (i = 0; i < 12; i++) {
    213. 

  213.             LR128(d, Kd[vars[1][i]], shifts[1][i]);
    214. 

  214.             cs->K[2*i] = d[0];
    215. 

  215.             cs->K[2*i+1] = d[1];
    216. 

  216.         }
    217. 

  217.         LR128(d, Kd[1], 30);
    218. 

  218.         cs->Ke[0] = d[0];
    219. 

  219.         cs->Ke[1] = d[1];
    220. 

  220.         LR128(d, Kd[0], 60);
    221. 

  221.         cs->Ke[2] = d[0];
    222. 

  222.         cs->Ke[3] = d[1];
    223. 

  223.         LR128(d, Kd[2], 77);
    224. 

  224.         cs->Ke[4] = d[0];
    225. 

  225.         cs->Ke[5] = d[1];
    226. 

  226.         LR128(d, Kd[3], 111);
    227. 

  227.         cs->Kw[2] = d[0];
    228. 

  228.         cs->Kw[3] = d[1];
    229. 

  229.     }
    230. 

  230. }
    231. 

  231. 

  232. static void camellia_encrypt(AVCAMELLIA *cs, uint8_t *dst, const uint8_t *src)
    233. 

  233. {
    234. 

  234.     uint64_t D1, D2;
    235. 

  235.     D1 = AV_RB64(src);
    236. 

  236.     D2 = AV_RB64(src + 8);
    237. 

  237.     D1 ^= cs->Kw[0];
    238. 

  238.     D2 ^= cs->Kw[1];
    239. 

  239.     D2 ^= F(D1, cs->K[0]);
    240. 

  240.     D1 ^= F(D2, cs->K[1]);
    241. 

  241.     D2 ^= F(D1, cs->K[2]);
    242. 

  242.     D1 ^= F(D2, cs->K[3]);
    243. 

  243.     D2 ^= F(D1, cs->K[4]);
    244. 

  244.     D1 ^= F(D2, cs->K[5]);
    245. 

  245.     D1 = FL(D1, cs->Ke[0]);
    246. 

  246.     D2 = FLINV(D2, cs->Ke[1]);
    247. 

  247.     D2 ^= F(D1, cs->K[6]);
    248. 

  248.     D1 ^= F(D2, cs->K[7]);
    249. 

  249.     D2 ^= F(D1, cs->K[8]);
    250. 

  250.     D1 ^= F(D2, cs->K[9]);
    251. 

  251.     D2 ^= F(D1, cs->K[10]);
    252. 

  252.     D1 ^= F(D2, cs->K[11]);
    253. 

  253.     D1 = FL(D1, cs->Ke[2]);
    254. 

  254.     D2 = FLINV(D2, cs->Ke[3]);
    255. 

  255.     D2 ^= F(D1, cs->K[12]);
    256. 

  256.     D1 ^= F(D2, cs->K[13]);
    257. 

  257.     D2 ^= F(D1, cs->K[14]);
    258. 

  258.     D1 ^= F(D2, cs->K[15]);
    259. 

  259.     D2 ^= F(D1, cs->K[16]);
    260. 

  260.     D1 ^= F(D2, cs->K[17]);
    261. 

  261.     if (cs->key_bits != 128) {
    262. 

  262.         D1 = FL(D1, cs->Ke[4]);
    263. 

  263.         D2 = FLINV(D2, cs->Ke[5]);
    264. 

  264.         D2 ^= F(D1, cs->K[18]);
    265. 

  265.         D1 ^= F(D2, cs->K[19]);
    266. 

  266.         D2 ^= F(D1, cs->K[20]);
    267. 

  267.         D1 ^= F(D2, cs->K[21]);
    268. 

  268.         D2 ^= F(D1, cs->K[22]);
    269. 

  269.         D1 ^= F(D2, cs->K[23]);
    270. 

  270.     }
    271. 

  271.     D2 ^= cs->Kw[2];
    272. 

  272.     D1 ^= cs->Kw[3];
    273. 

  273.     AV_WB64(dst, D2);
    274. 

  274.     AV_WB64(dst + 8, D1);
    275. 

  275. }
    276. 

  276. 

  277. static void camellia_decrypt(AVCAMELLIA *cs, uint8_t *dst, const uint8_t *src, uint8_t *iv)
    278. 

  278. {
    279. 

  279.     uint64_t D1, D2;
    280. 

  280.     D1 = AV_RB64(src);
    281. 

  281.     D2 = AV_RB64(src + 8);
    282. 

  282.     D1 ^= cs->Kw[2];
    283. 

  283.     D2 ^= cs->Kw[3];
    284. 

  284.     if (cs->key_bits != 128) {
    285. 

  285.         D2 ^= F(D1, cs->K[23]);
    286. 

  286.         D1 ^= F(D2, cs->K[22]);
    287. 

  287.         D2 ^= F(D1, cs->K[21]);
    288. 

  288.         D1 ^= F(D2, cs->K[20]);
    289. 

  289.         D2 ^= F(D1, cs->K[19]);
    290. 

  290.         D1 ^= F(D2, cs->K[18]);
    291. 

  291.         D1 = FL(D1, cs->Ke[5]);
    292. 

  292.         D2 = FLINV(D2, cs->Ke[4]);
    293. 

  293.     }
    294. 

  294.     D2 ^= F(D1, cs->K[17]);
    295. 

  295.     D1 ^= F(D2, cs->K[16]);
    296. 

  296.     D2 ^= F(D1, cs->K[15]);
    297. 

  297.     D1 ^= F(D2, cs->K[14]);
    298. 

  298.     D2 ^= F(D1, cs->K[13]);
    299. 

  299.     D1 ^= F(D2, cs->K[12]);
    300. 

  300.     D1 = FL(D1, cs->Ke[3]);
    301. 

  301.     D2 = FLINV(D2, cs->Ke[2]);
    302. 

  302.     D2 ^= F(D1, cs->K[11]);
    303. 

  303.     D1 ^= F(D2, cs->K[10]);
    304. 

  304.     D2 ^= F(D1, cs->K[9]);
    305. 

  305.     D1 ^= F(D2, cs->K[8]);
    306. 

  306.     D2 ^= F(D1, cs->K[7]);
    307. 

  307.     D1 ^= F(D2, cs->K[6]);
    308. 

  308.     D1 = FL(D1, cs->Ke[1]);
    309. 

  309.     D2 = FLINV(D2, cs->Ke[0]);
    310. 

  310.     D2 ^= F(D1, cs->K[5]);
    311. 

  311.     D1 ^= F(D2, cs->K[4]);
    312. 

  312.     D2 ^= F(D1, cs->K[3]);
    313. 

  313.     D1 ^= F(D2, cs->K[2]);
    314. 

  314.     D2 ^= F(D1, cs->K[1]);
    315. 

  315.     D1 ^= F(D2, cs->K[0]);
    316. 

  316.     D2 ^= cs->Kw[0];
    317. 

  317.     D1 ^= cs->Kw[1];
    318. 

  318.     if (iv) {
    319. 

  319.         D2 ^= AV_RB64(iv);
    320. 

  320.         D1 ^= AV_RB64(iv + 8);
    321. 

  321.         memcpy(iv, src, 16);
    322. 

  322.     }
    323. 

  323.     AV_WB64(dst, D2);
    324. 

  324.     AV_WB64(dst + 8, D1);
    325. 

  325. }
    326. 

  326. 

  327. static void computeSP(void)
    328. 

  328. {
    329. 

  329.     uint64_t z;
    330. 

  330.     int i;
    331. 

  331.     for (i = 0; i < 256; i++) {
    332. 

  332.         z = SBOX1[i];
    333. 

  333.         SP[0][i] = (z << 56) ^ (z << 48) ^ (z << 40) ^ (z << 24) ^ z;
    334. 

  334.         SP[7][i] = (z << 56) ^ (z << 48) ^ (z << 40) ^ (z << 24) ^ (z << 16) ^ (z << 8);
    335. 

  335.         z = SBOX2[i];
    336. 

  336.         SP[1][i] = (z << 48) ^ (z << 40) ^ (z << 32) ^ (z << 24) ^ (z << 16);
    337. 

  337.         SP[4][i] = (z << 48) ^ (z << 40) ^ (z << 32) ^ (z << 16) ^ (z << 8) ^ z;
    338. 

  338.         z = SBOX3[i];
    339. 

  339.         SP[2][i] = (z << 56) ^ (z << 40) ^ (z << 32) ^ (z << 16) ^ (z << 8);
    340. 

  340.         SP[5][i] = (z << 56) ^ (z << 40) ^ (z << 32) ^ (z << 24) ^ (z << 8) ^ z;
    341. 

  341.         z = SBOX4[i];
    342. 

  342.         SP[3][i] = (z << 56) ^ (z << 48) ^ (z << 32) ^ (z << 8) ^ z;
    343. 

  343.         SP[6][i] = (z << 56) ^ (z << 48) ^ (z << 32) ^ (z << 24) ^ (z << 16) ^ z;
    344. 

  344.     }
    345. 

  345. }
    346. 

  346. 

  347. struct AVCAMELLIA *av_camellia_alloc(void)
    348. 

  348. {
    349. 

  349.     return av_mallocz(sizeof(struct AVCAMELLIA));
    350. 

  350. }
    351. 

  351. 

  352. av_cold int av_camellia_init(AVCAMELLIA *cs, const uint8_t *key, int key_bits)
    353. 

  353. {
    354. 

  354.     uint64_t Kl[2], Kr[2], Ka[2], Kb[2];
    355. 

  355.     uint64_t D1, D2;
    356. 

  356.     if (key_bits != 128 && key_bits != 192 && key_bits != 256)
    357. 

  357.         return AVERROR(EINVAL);
    358. 

  358.     memset(Kb, 0, sizeof(Kb));
    359. 

  359.     memset(Kr, 0, sizeof(Kr));
    360. 

  360.     cs->key_bits = key_bits;
    361. 

  361.     Kl[0] = AV_RB64(key);
    362. 

  362.     Kl[1] = AV_RB64(key + 8);
    363. 

  363.     if (key_bits == 192) {
    364. 

  364.         Kr[0] = AV_RB64(key + 16);
    365. 

  365.         Kr[1] = ~Kr[0];
    366. 

  366.     } else if (key_bits == 256) {
    367. 

  367.         Kr[0] = AV_RB64(key + 16);
    368. 

  368.         Kr[1] = AV_RB64(key + 24);
    369. 

  369.     }
    370. 

  370.     computeSP();
    371. 

  371.     D1 = Kl[0] ^ Kr[0];
    372. 

  372.     D2 = Kl[1] ^ Kr[1];
    373. 

  373.     D2 ^= F(D1, Sigma1);
    374. 

  374.     D1 ^= F(D2, Sigma2);
    375. 

  375.     D1 ^= Kl[0];
    376. 

  376.     D2 ^= Kl[1];
    377. 

  377.     D2 ^= F(D1, Sigma3);
    378. 

  378.     D1 ^= F(D2, Sigma4);
    379. 

  379.     Ka[0] = D1;
    380. 

  380.     Ka[1] = D2;
    381. 

  381.     if (key_bits != 128) {
    382. 

  382.         D1 = Ka[0] ^ Kr[0];
    383. 

  383.         D2 = Ka[1] ^ Kr[1];
    384. 

  384.         D2 ^= F(D1, Sigma5);
    385. 

  385.         D1 ^= F(D2, Sigma6);
    386. 

  386.         Kb[0] = D1;
    387. 

  387.         Kb[1] = D2;
    388. 

  388.     }
    389. 

  389.     generate_round_keys(cs, Kl, Kr, Ka, Kb);
    390. 

  390.     return 0;
    391. 

  391. }
    392. 

  392. 

  393. void av_camellia_crypt(AVCAMELLIA *cs, uint8_t *dst, const uint8_t *src, int count, uint8_t *iv, int decrypt)
    394. 

  394. {
    395. 

  395.     int i;
    396. 

  396.     while (count--) {
    397. 

  397.         if (decrypt) {
    398. 

  398.             camellia_decrypt(cs, dst, src, iv);
    399. 

  399.         } else {
    400. 

  400.             if (iv) {
    401. 

  401.                 for (i = 0; i < 16; i++)
    402. 

  402.                     dst[i] = src[i] ^ iv[i];
    403. 

  403.                 camellia_encrypt(cs, dst, dst);
    404. 

  404.                 memcpy(iv, dst, 16);
    405. 

  405.             } else {
    406. 

  406.                 camellia_encrypt(cs, dst, src);
    407. 

  407.             }
    408. 

  408.         }
    409. 

  409.         src = src + 16;
    410. 

  410.         dst = dst + 16;
    411. 

  411.     }
    412. 

  412. }
    413.