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Kitware
GitHub Repository: Kitware/CMake
 Path: blob/master/Utilities/cmlibrhash/librhash/sha1.c
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1
/* sha1.c - an implementation of Secure Hash Algorithm 1 (SHA1)

2
 * based on RFC 3174.

3
 *

4
 * Copyright (c) 2008, Aleksey Kravchenko <[email protected]>

5
 *

6
 * Permission to use, copy, modify, and/or distribute this software for any

7
 * purpose with or without fee is hereby granted.

8
 *

9
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH

10
 * REGARD TO THIS SOFTWARE  INCLUDING ALL IMPLIED WARRANTIES OF  MERCHANTABILITY

11
 * AND FITNESS.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,

12
 * INDIRECT,  OR CONSEQUENTIAL DAMAGES  OR ANY DAMAGES WHATSOEVER RESULTING FROM

13
 * LOSS OF USE,  DATA OR PROFITS,  WHETHER IN AN ACTION OF CONTRACT,  NEGLIGENCE

14
 * OR OTHER TORTIOUS ACTION,  ARISING OUT OF  OR IN CONNECTION  WITH THE USE  OR

15
 * PERFORMANCE OF THIS SOFTWARE.

16
 */

17


18
#include <string.h>

19
#include "byte_order.h"

20
#include "sha1.h"

21


22
/**

23
 * Initialize context before calculating hash.

24
 *

25
 * @param ctx context to initialize

26
 */

27
void rhash_sha1_init(sha1_ctx* ctx)

28
{

29
	ctx->length = 0;

30


31
	/* initialize algorithm state */

32
	ctx->hash[0] = 0x67452301;

33
	ctx->hash[1] = 0xefcdab89;

34
	ctx->hash[2] = 0x98badcfe;

35
	ctx->hash[3] = 0x10325476;

36
	ctx->hash[4] = 0xc3d2e1f0;

37
}

38


39
/* constants for SHA1 rounds */

40
static const uint32_t K0 = 0x5a827999;

41
static const uint32_t K1 = 0x6ed9eba1;

42
static const uint32_t K2 = 0x8f1bbcdc;

43
static const uint32_t K3 = 0xca62c1d6;

44


45
/* round functions for SHA1 */

46
#define CHO(X,Y,Z) (((X)&(Y))|((~(X))&(Z)))

47
#define PAR(X,Y,Z) ((X)^(Y)^(Z))

48
#define MAJ(X,Y,Z) (((X)&(Y))|((X)&(Z))|((Y)&(Z)))

49


50
#define ROUND_0(a,b,c,d,e, FF, k, w) e +=              FF(b,       c,           d    )+ROTL32(a,5)+k+w

51
#define ROUND_1(a,b,c,d,e, FF, k, w) e +=              FF(b,ROTL32(c,30),       d    )+ROTL32(a,5)+k+w

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#define ROUND_2(a,b,c,d,e, FF, k, w) e +=              FF(b,ROTL32(c,30),ROTL32(d,30))+ROTL32(a,5)+k+w

53
#define ROUND(a,b,c,d,e, FF, k, w)   e  = ROTL32(e,30)+FF(b,ROTL32(c,30),ROTL32(d,30))+ROTL32(a,5)+k+w

54


55


56
/**

57
 * The core transformation. Process a 512-bit block.

58
 * The function has been taken from RFC 3174 with little changes.

59
 *

60
 * @param hash algorithm state

61
 * @param block the message block to process

62
 */

63
static void rhash_sha1_process_block(unsigned* hash, const unsigned* block)

64
{

65
	uint32_t      W[80];             /* Word sequence */

66
	uint32_t      A, B, C, D, E;     /* Word buffers */

67


68


69
	A = hash[0];

70
	B = hash[1];

71
	C = hash[2];

72
	D = hash[3];

73
	E = hash[4];

74


75
	/* 0..19 */

76
	W[ 0] = be2me_32(block[ 0]);

77
	ROUND_0(A,B,C,D,E, CHO, K0, W[ 0]);

78
	W[ 1] = be2me_32(block[ 1]);

79
	ROUND_1(E,A,B,C,D, CHO, K0, W[ 1]);

80
	W[ 2] = be2me_32(block[ 2]);

81
	ROUND_2(D,E,A,B,C, CHO, K0, W[ 2]);

82
	W[ 3] = be2me_32(block[ 3]);

83
	ROUND(C,D,E,A,B, CHO, K0, W[ 3]);

84
	W[ 4] = be2me_32(block[ 4]);

85
	ROUND(B,C,D,E,A, CHO, K0, W[ 4]);

86


87
	W[ 5] = be2me_32(block[ 5]);

88
	ROUND(A,B,C,D,E, CHO, K0, W[ 5]);

89
	W[ 6] = be2me_32(block[ 6]);

90
	ROUND(E,A,B,C,D, CHO, K0, W[ 6]);

91
	W[ 7] = be2me_32(block[ 7]);

92
	ROUND(D,E,A,B,C, CHO, K0, W[ 7]);

93
	W[ 8] = be2me_32(block[ 8]);

94
	ROUND(C,D,E,A,B, CHO, K0, W[ 8]);

95
	W[ 9] = be2me_32(block[ 9]);

96
	ROUND(B,C,D,E,A, CHO, K0, W[ 9]);

97


98
	W[10] = be2me_32(block[10]);

99
	ROUND(A,B,C,D,E, CHO, K0, W[10]);

100
	W[11] = be2me_32(block[11]);

101
	ROUND(E,A,B,C,D, CHO, K0, W[11]);

102
	W[12] = be2me_32(block[12]);

103
	ROUND(D,E,A,B,C, CHO, K0, W[12]);

104
	W[13] = be2me_32(block[13]);

105
	ROUND(C,D,E,A,B, CHO, K0, W[13]);

106
	W[14] = be2me_32(block[14]);

107
	ROUND(B,C,D,E,A, CHO, K0, W[14]);

108


109
	W[15] = be2me_32(block[15]);

110
	ROUND(A,B,C,D,E, CHO, K0, W[15]);

111
	W[16] = ROTL32(W[13] ^ W[ 8] ^ W[ 2] ^ W[ 0], 1);

112
	ROUND(E,A,B,C,D, CHO, K0, W[16]);

113
	W[17] = ROTL32(W[14] ^ W[ 9] ^ W[ 3] ^ W[ 1], 1);

114
	ROUND(D,E,A,B,C, CHO, K0, W[17]);

115
	W[18] = ROTL32(W[15] ^ W[10] ^ W[ 4] ^ W[ 2], 1);

116
	ROUND(C,D,E,A,B, CHO, K0, W[18]);

117
	W[19] = ROTL32(W[16] ^ W[11] ^ W[ 5] ^ W[ 3], 1);

118
	ROUND(B,C,D,E,A, CHO, K0, W[19]);

119
	/* 20..39 */

120
	W[20] = ROTL32(W[17] ^ W[12] ^ W[ 6] ^ W[ 4], 1);

121
	ROUND(A,B,C,D,E, PAR, K1, W[20]);

122
	W[21] = ROTL32(W[18] ^ W[13] ^ W[ 7] ^ W[ 5], 1);

123
	ROUND(E,A,B,C,D, PAR, K1, W[21]);

124
	W[22] = ROTL32(W[19] ^ W[14] ^ W[ 8] ^ W[ 6], 1);

125
	ROUND(D,E,A,B,C, PAR, K1, W[22]);

126
	W[23] = ROTL32(W[20] ^ W[15] ^ W[ 9] ^ W[ 7], 1);

127
	ROUND(C,D,E,A,B, PAR, K1, W[23]);

128
	W[24] = ROTL32(W[21] ^ W[16] ^ W[10] ^ W[ 8], 1);

129
	ROUND(B,C,D,E,A, PAR, K1, W[24]);

130


131
	W[25] = ROTL32(W[22] ^ W[17] ^ W[11] ^ W[ 9], 1);

132
	ROUND(A,B,C,D,E, PAR, K1, W[25]);

133
	W[26] = ROTL32(W[23] ^ W[18] ^ W[12] ^ W[10], 1);

134
	ROUND(E,A,B,C,D, PAR, K1, W[26]);

135
	W[27] = ROTL32(W[24] ^ W[19] ^ W[13] ^ W[11], 1);

136
	ROUND(D,E,A,B,C, PAR, K1, W[27]);

137
	W[28] = ROTL32(W[25] ^ W[20] ^ W[14] ^ W[12], 1);

138
	ROUND(C,D,E,A,B, PAR, K1, W[28]);

139
	W[29] = ROTL32(W[26] ^ W[21] ^ W[15] ^ W[13], 1);

140
	ROUND(B,C,D,E,A, PAR, K1, W[29]);

141


142
	W[30] = ROTL32(W[27] ^ W[22] ^ W[16] ^ W[14], 1);

143
	ROUND(A,B,C,D,E, PAR, K1, W[30]);

144
	W[31] = ROTL32(W[28] ^ W[23] ^ W[17] ^ W[15], 1);

145
	ROUND(E,A,B,C,D, PAR, K1, W[31]);

146
	W[32] = ROTL32(W[29] ^ W[24] ^ W[18] ^ W[16], 1);

147
	ROUND(D,E,A,B,C, PAR, K1, W[32]);

148
	W[33] = ROTL32(W[30] ^ W[25] ^ W[19] ^ W[17], 1);

149
	ROUND(C,D,E,A,B, PAR, K1, W[33]);

150
	W[34] = ROTL32(W[31] ^ W[26] ^ W[20] ^ W[18], 1);

151
	ROUND(B,C,D,E,A, PAR, K1, W[34]);

152


153
	W[35] = ROTL32(W[32] ^ W[27] ^ W[21] ^ W[19], 1);

154
	ROUND(A,B,C,D,E, PAR, K1, W[35]);

155
	W[36] = ROTL32(W[33] ^ W[28] ^ W[22] ^ W[20], 1);

156
	ROUND(E,A,B,C,D, PAR, K1, W[36]);

157
	W[37] = ROTL32(W[34] ^ W[29] ^ W[23] ^ W[21], 1);

158
	ROUND(D,E,A,B,C, PAR, K1, W[37]);

159
	W[38] = ROTL32(W[35] ^ W[30] ^ W[24] ^ W[22], 1);

160
	ROUND(C,D,E,A,B, PAR, K1, W[38]);

161
	W[39] = ROTL32(W[36] ^ W[31] ^ W[25] ^ W[23], 1);

162
	ROUND(B,C,D,E,A, PAR, K1, W[39]);

163
	/* 40..59 */

164
	W[40] = ROTL32(W[37] ^ W[32] ^ W[26] ^ W[24], 1);

165
	ROUND(A,B,C,D,E, MAJ, K2, W[40]);

166
	W[41] = ROTL32(W[38] ^ W[33] ^ W[27] ^ W[25], 1);

167
	ROUND(E,A,B,C,D, MAJ, K2, W[41]);

168
	W[42] = ROTL32(W[39] ^ W[34] ^ W[28] ^ W[26], 1);

169
	ROUND(D,E,A,B,C, MAJ, K2, W[42]);

170
	W[43] = ROTL32(W[40] ^ W[35] ^ W[29] ^ W[27], 1);

171
	ROUND(C,D,E,A,B, MAJ, K2, W[43]);

172
	W[44] = ROTL32(W[41] ^ W[36] ^ W[30] ^ W[28], 1);

173
	ROUND(B,C,D,E,A, MAJ, K2, W[44]);

174


175
	W[45] = ROTL32(W[42] ^ W[37] ^ W[31] ^ W[29], 1);

176
	ROUND(A,B,C,D,E, MAJ, K2, W[45]);

177
	W[46] = ROTL32(W[43] ^ W[38] ^ W[32] ^ W[30], 1);

178
	ROUND(E,A,B,C,D, MAJ, K2, W[46]);

179
	W[47] = ROTL32(W[44] ^ W[39] ^ W[33] ^ W[31], 1);

180
	ROUND(D,E,A,B,C, MAJ, K2, W[47]);

181
	W[48] = ROTL32(W[45] ^ W[40] ^ W[34] ^ W[32], 1);

182
	ROUND(C,D,E,A,B, MAJ, K2, W[48]);

183
	W[49] = ROTL32(W[46] ^ W[41] ^ W[35] ^ W[33], 1);

184
	ROUND(B,C,D,E,A, MAJ, K2, W[49]);

185


186
	W[50] = ROTL32(W[47] ^ W[42] ^ W[36] ^ W[34], 1);

187
	ROUND(A,B,C,D,E, MAJ, K2, W[50]);

188
	W[51] = ROTL32(W[48] ^ W[43] ^ W[37] ^ W[35], 1);

189
	ROUND(E,A,B,C,D, MAJ, K2, W[51]);

190
	W[52] = ROTL32(W[49] ^ W[44] ^ W[38] ^ W[36], 1);

191
	ROUND(D,E,A,B,C, MAJ, K2, W[52]);

192
	W[53] = ROTL32(W[50] ^ W[45] ^ W[39] ^ W[37], 1);

193
	ROUND(C,D,E,A,B, MAJ, K2, W[53]);

194
	W[54] = ROTL32(W[51] ^ W[46] ^ W[40] ^ W[38], 1);

195
	ROUND(B,C,D,E,A, MAJ, K2, W[54]);

196


197
	W[55] = ROTL32(W[52] ^ W[47] ^ W[41] ^ W[39], 1);

198
	ROUND(A,B,C,D,E, MAJ, K2, W[55]);

199
	W[56] = ROTL32(W[53] ^ W[48] ^ W[42] ^ W[40], 1);

200
	ROUND(E,A,B,C,D, MAJ, K2, W[56]);

201
	W[57] = ROTL32(W[54] ^ W[49] ^ W[43] ^ W[41], 1);

202
	ROUND(D,E,A,B,C, MAJ, K2, W[57]);

203
	W[58] = ROTL32(W[55] ^ W[50] ^ W[44] ^ W[42], 1);

204
	ROUND(C,D,E,A,B, MAJ, K2, W[58]);

205
	W[59] = ROTL32(W[56] ^ W[51] ^ W[45] ^ W[43], 1);

206
	ROUND(B,C,D,E,A, MAJ, K2, W[59]);

207
	/* 60..79 */

208
	W[60] = ROTL32(W[57] ^ W[52] ^ W[46] ^ W[44], 1);

209
	ROUND(A,B,C,D,E, PAR, K3, W[60]);

210
	W[61] = ROTL32(W[58] ^ W[53] ^ W[47] ^ W[45], 1);

211
	ROUND(E,A,B,C,D, PAR, K3, W[61]);

212
	W[62] = ROTL32(W[59] ^ W[54] ^ W[48] ^ W[46], 1);

213
	ROUND(D,E,A,B,C, PAR, K3, W[62]);

214
	W[63] = ROTL32(W[60] ^ W[55] ^ W[49] ^ W[47], 1);

215
	ROUND(C,D,E,A,B, PAR, K3, W[63]);

216
	W[64] = ROTL32(W[61] ^ W[56] ^ W[50] ^ W[48], 1);

217
	ROUND(B,C,D,E,A, PAR, K3, W[64]);

218


219
	W[65] = ROTL32(W[62] ^ W[57] ^ W[51] ^ W[49], 1);

220
	ROUND(A,B,C,D,E, PAR, K3, W[65]);

221
	W[66] = ROTL32(W[63] ^ W[58] ^ W[52] ^ W[50], 1);

222
	ROUND(E,A,B,C,D, PAR, K3, W[66]);

223
	W[67] = ROTL32(W[64] ^ W[59] ^ W[53] ^ W[51], 1);

224
	ROUND(D,E,A,B,C, PAR, K3, W[67]);

225
	W[68] = ROTL32(W[65] ^ W[60] ^ W[54] ^ W[52], 1);

226
	ROUND(C,D,E,A,B, PAR, K3, W[68]);

227
	W[69] = ROTL32(W[66] ^ W[61] ^ W[55] ^ W[53], 1);

228
	ROUND(B,C,D,E,A, PAR, K3, W[69]);

229


230
	W[70] = ROTL32(W[67] ^ W[62] ^ W[56] ^ W[54], 1);

231
	ROUND(A,B,C,D,E, PAR, K3, W[70]);

232
	W[71] = ROTL32(W[68] ^ W[63] ^ W[57] ^ W[55], 1);

233
	ROUND(E,A,B,C,D, PAR, K3, W[71]);

234
	W[72] = ROTL32(W[69] ^ W[64] ^ W[58] ^ W[56], 1);

235
	ROUND(D,E,A,B,C, PAR, K3, W[72]);

236
	W[73] = ROTL32(W[70] ^ W[65] ^ W[59] ^ W[57], 1);

237
	ROUND(C,D,E,A,B, PAR, K3, W[73]);

238
	W[74] = ROTL32(W[71] ^ W[66] ^ W[60] ^ W[58], 1);

239
	ROUND(B,C,D,E,A, PAR, K3, W[74]);

240


241
	W[75] = ROTL32(W[72] ^ W[67] ^ W[61] ^ W[59], 1);

242
	ROUND(A,B,C,D,E, PAR, K3, W[75]);

243
	W[76] = ROTL32(W[73] ^ W[68] ^ W[62] ^ W[60], 1);

244
	ROUND(E,A,B,C,D, PAR, K3, W[76]);

245
	W[77] = ROTL32(W[74] ^ W[69] ^ W[63] ^ W[61], 1);

246
	ROUND(D,E,A,B,C, PAR, K3, W[77]);

247
	W[78] = ROTL32(W[75] ^ W[70] ^ W[64] ^ W[62], 1);

248
	ROUND(C,D,E,A,B, PAR, K3, W[78]);

249
	W[79] = ROTL32(W[76] ^ W[71] ^ W[65] ^ W[63], 1);

250
	ROUND(B,C,D,E,A, PAR, K3, W[79]);

251


252


253
	hash[0] += A;

254
	hash[1] += B;

255
	hash[2] += ROTL32(C,30);

256
	hash[3] += ROTL32(D,30);

257
	hash[4] += ROTL32(E,30);

258
}

259


260
/**

261
 * Calculate message hash.

262
 * Can be called repeatedly with chunks of the message to be hashed.

263
 *

264
 * @param ctx the algorithm context containing current hashing state

265
 * @param msg message chunk

266
 * @param size length of the message chunk

267
 */

268
void rhash_sha1_update(sha1_ctx* ctx, const unsigned char* msg, size_t size)

269
{

270
	unsigned index = (unsigned)ctx->length & 63;

271
	ctx->length += size;

272


273
	/* fill partial block */

274
	if (index) {

275
		unsigned left = sha1_block_size - index;

276
		memcpy(ctx->message + index, msg, (size < left ? size : left));

277
		if (size < left) return;

278


279
		/* process partial block */

280
		rhash_sha1_process_block(ctx->hash, (unsigned*)ctx->message);

281
		msg  += left;

282
		size -= left;

283
	}

284
	while (size >= sha1_block_size) {

285
		unsigned* aligned_message_block;

286
		if (IS_ALIGNED_32(msg)) {

287
			/* the most common case is processing of an already aligned message

288
			without copying it */

289
			aligned_message_block = (unsigned*)msg;

290
		} else {

291
			memcpy(ctx->message, msg, sha1_block_size);

292
			aligned_message_block = (unsigned*)ctx->message;

293
		}

294


295
		rhash_sha1_process_block(ctx->hash, aligned_message_block);

296
		msg  += sha1_block_size;

297
		size -= sha1_block_size;

298
	}

299
	if (size) {

300
		/* save leftovers */

301
		memcpy(ctx->message, msg, size);

302
	}

303
}

304


305
/**

306
 * Store calculated hash into the given array.

307
 *

308
 * @param ctx the algorithm context containing current hashing state

309
 * @param result calculated hash in binary form

310
 */

311
void rhash_sha1_final(sha1_ctx* ctx, unsigned char* result)

312
{

313
	unsigned  index = (unsigned)ctx->length & 63;

314
	unsigned* msg32 = (unsigned*)ctx->message;

315


316
	/* pad message and run for last block */

317
	ctx->message[index++] = 0x80;

318
	while ((index & 3) != 0) {

319
		ctx->message[index++] = 0;

320
	}

321
	index >>= 2;

322


323
	/* if no room left in the message to store 64-bit message length */

324
	if (index > 14) {

325
		/* then fill the rest with zeros and process it */

326
		while (index < 16) {

327
			msg32[index++] = 0;

328
		}

329
		rhash_sha1_process_block(ctx->hash, msg32);

330
		index = 0;

331
	}

332
	while (index < 14) {

333
		msg32[index++] = 0;

334
	}

335
	msg32[14] = be2me_32( (unsigned)(ctx->length >> 29) );

336
	msg32[15] = be2me_32( (unsigned)(ctx->length << 3) );

337
	rhash_sha1_process_block(ctx->hash, msg32);

338


339
	if (result) be32_copy(result, 0, &ctx->hash, sha1_hash_size);

340
}

341


342