1
/* $Id: shabal.c 175 2010-05-07 16:03:20Z tp $ */
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/*
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 * Shabal implementation.
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 *
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 * ==========================(LICENSE BEGIN)============================
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 *
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 * Copyright (c) 2007-2010  Projet RNRT SAPHIR
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 *
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 * Permission is hereby granted, free of charge, to any person obtaining
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 * a copy of this software and associated documentation files (the
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 * "Software"), to deal in the Software without restriction, including
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 * without limitation the rights to use, copy, modify, merge, publish,
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 * distribute, sublicense, and/or sell copies of the Software, and to
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 * permit persons to whom the Software is furnished to do so, subject to
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 * the following conditions:
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 *
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 * The above copyright notice and this permission notice shall be
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 * included in all copies or substantial portions of the Software.
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 *
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 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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 * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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 * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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 * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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 * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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 *
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 * ===========================(LICENSE END)=============================
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 *
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 * @author   Thomas Pornin <[email protected]>
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 */
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33
#include <stddef.h>
34
#include <string.h>
35

36
#include "sph_shabal.h"
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#ifdef __cplusplus
38
extern "C"{
39
#endif
40

41
#ifdef _MSC_VER
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#pragma warning (disable: 4146)
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#endif
44

45
/*
46
 * Part of this code was automatically generated (the part between
47
 * the "BEGIN" and "END" markers).
48
 */
49

50
#define sM    16
51

52
#define C32   SPH_C32
53
#define T32   SPH_T32
54

55
#define O1   13
56
#define O2    9
57
#define O3    6
58

59
/*
60
 * We copy the state into local variables, so that the compiler knows
61
 * that it can optimize them at will.
62
 */
63

64
/* BEGIN -- automatically generated code. */
65

66
#define DECL_STATE   \
67
	sph_u32 A00, A01, A02, A03, A04, A05, A06, A07, \
68
	        A08, A09, A0A, A0B; \
69
	sph_u32 B0, B1, B2, B3, B4, B5, B6, B7, \
70
	        B8, B9, BA, BB, BC, BD, BE, BF; \
71
	sph_u32 C0, C1, C2, C3, C4, C5, C6, C7, \
72
	        C8, C9, CA, CB, CC, CD, CE, CF; \
73
	sph_u32 M0, M1, M2, M3, M4, M5, M6, M7, \
74
	        M8, M9, MA, MB, MC, MD, ME, MF; \
75
	sph_u32 Wlow, Whigh;
76

77
#define READ_STATE(state)   do { \
78
		A00 = (state)->A[0]; \
79
		A01 = (state)->A[1]; \
80
		A02 = (state)->A[2]; \
81
		A03 = (state)->A[3]; \
82
		A04 = (state)->A[4]; \
83
		A05 = (state)->A[5]; \
84
		A06 = (state)->A[6]; \
85
		A07 = (state)->A[7]; \
86
		A08 = (state)->A[8]; \
87
		A09 = (state)->A[9]; \
88
		A0A = (state)->A[10]; \
89
		A0B = (state)->A[11]; \
90
		B0 = (state)->B[0]; \
91
		B1 = (state)->B[1]; \
92
		B2 = (state)->B[2]; \
93
		B3 = (state)->B[3]; \
94
		B4 = (state)->B[4]; \
95
		B5 = (state)->B[5]; \
96
		B6 = (state)->B[6]; \
97
		B7 = (state)->B[7]; \
98
		B8 = (state)->B[8]; \
99
		B9 = (state)->B[9]; \
100
		BA = (state)->B[10]; \
101
		BB = (state)->B[11]; \
102
		BC = (state)->B[12]; \
103
		BD = (state)->B[13]; \
104
		BE = (state)->B[14]; \
105
		BF = (state)->B[15]; \
106
		C0 = (state)->C[0]; \
107
		C1 = (state)->C[1]; \
108
		C2 = (state)->C[2]; \
109
		C3 = (state)->C[3]; \
110
		C4 = (state)->C[4]; \
111
		C5 = (state)->C[5]; \
112
		C6 = (state)->C[6]; \
113
		C7 = (state)->C[7]; \
114
		C8 = (state)->C[8]; \
115
		C9 = (state)->C[9]; \
116
		CA = (state)->C[10]; \
117
		CB = (state)->C[11]; \
118
		CC = (state)->C[12]; \
119
		CD = (state)->C[13]; \
120
		CE = (state)->C[14]; \
121
		CF = (state)->C[15]; \
122
		Wlow = (state)->Wlow; \
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		Whigh = (state)->Whigh; \
124
	} while (0)
125

126
#define WRITE_STATE(state)   do { \
127
		(state)->A[0] = A00; \
128
		(state)->A[1] = A01; \
129
		(state)->A[2] = A02; \
130
		(state)->A[3] = A03; \
131
		(state)->A[4] = A04; \
132
		(state)->A[5] = A05; \
133
		(state)->A[6] = A06; \
134
		(state)->A[7] = A07; \
135
		(state)->A[8] = A08; \
136
		(state)->A[9] = A09; \
137
		(state)->A[10] = A0A; \
138
		(state)->A[11] = A0B; \
139
		(state)->B[0] = B0; \
140
		(state)->B[1] = B1; \
141
		(state)->B[2] = B2; \
142
		(state)->B[3] = B3; \
143
		(state)->B[4] = B4; \
144
		(state)->B[5] = B5; \
145
		(state)->B[6] = B6; \
146
		(state)->B[7] = B7; \
147
		(state)->B[8] = B8; \
148
		(state)->B[9] = B9; \
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		(state)->B[10] = BA; \
150
		(state)->B[11] = BB; \
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		(state)->B[12] = BC; \
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		(state)->B[13] = BD; \
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		(state)->B[14] = BE; \
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		(state)->B[15] = BF; \
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		(state)->C[0] = C0; \
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		(state)->C[1] = C1; \
157
		(state)->C[2] = C2; \
158
		(state)->C[3] = C3; \
159
		(state)->C[4] = C4; \
160
		(state)->C[5] = C5; \
161
		(state)->C[6] = C6; \
162
		(state)->C[7] = C7; \
163
		(state)->C[8] = C8; \
164
		(state)->C[9] = C9; \
165
		(state)->C[10] = CA; \
166
		(state)->C[11] = CB; \
167
		(state)->C[12] = CC; \
168
		(state)->C[13] = CD; \
169
		(state)->C[14] = CE; \
170
		(state)->C[15] = CF; \
171
		(state)->Wlow = Wlow; \
172
		(state)->Whigh = Whigh; \
173
	} while (0)
174

175
#define DECODE_BLOCK   do { \
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		M0 = sph_dec32le_aligned(buf + 0); \
177
		M1 = sph_dec32le_aligned(buf + 4); \
178
		M2 = sph_dec32le_aligned(buf + 8); \
179
		M3 = sph_dec32le_aligned(buf + 12); \
180
		M4 = sph_dec32le_aligned(buf + 16); \
181
		M5 = sph_dec32le_aligned(buf + 20); \
182
		M6 = sph_dec32le_aligned(buf + 24); \
183
		M7 = sph_dec32le_aligned(buf + 28); \
184
		M8 = sph_dec32le_aligned(buf + 32); \
185
		M9 = sph_dec32le_aligned(buf + 36); \
186
		MA = sph_dec32le_aligned(buf + 40); \
187
		MB = sph_dec32le_aligned(buf + 44); \
188
		MC = sph_dec32le_aligned(buf + 48); \
189
		MD = sph_dec32le_aligned(buf + 52); \
190
		ME = sph_dec32le_aligned(buf + 56); \
191
		MF = sph_dec32le_aligned(buf + 60); \
192
	} while (0)
193

194
#define INPUT_BLOCK_ADD   do { \
195
		B0 = T32(B0 + M0); \
196
		B1 = T32(B1 + M1); \
197
		B2 = T32(B2 + M2); \
198
		B3 = T32(B3 + M3); \
199
		B4 = T32(B4 + M4); \
200
		B5 = T32(B5 + M5); \
201
		B6 = T32(B6 + M6); \
202
		B7 = T32(B7 + M7); \
203
		B8 = T32(B8 + M8); \
204
		B9 = T32(B9 + M9); \
205
		BA = T32(BA + MA); \
206
		BB = T32(BB + MB); \
207
		BC = T32(BC + MC); \
208
		BD = T32(BD + MD); \
209
		BE = T32(BE + ME); \
210
		BF = T32(BF + MF); \
211
	} while (0)
212

213
#define INPUT_BLOCK_SUB   do { \
214
		C0 = T32(C0 - M0); \
215
		C1 = T32(C1 - M1); \
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		C2 = T32(C2 - M2); \
217
		C3 = T32(C3 - M3); \
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		C4 = T32(C4 - M4); \
219
		C5 = T32(C5 - M5); \
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		C6 = T32(C6 - M6); \
221
		C7 = T32(C7 - M7); \
222
		C8 = T32(C8 - M8); \
223
		C9 = T32(C9 - M9); \
224
		CA = T32(CA - MA); \
225
		CB = T32(CB - MB); \
226
		CC = T32(CC - MC); \
227
		CD = T32(CD - MD); \
228
		CE = T32(CE - ME); \
229
		CF = T32(CF - MF); \
230
	} while (0)
231

232
#define XOR_W   do { \
233
		A00 ^= Wlow; \
234
		A01 ^= Whigh; \
235
	} while (0)
236

237
#define SWAP(v1, v2)   do { \
238
		sph_u32 tmp = (v1); \
239
		(v1) = (v2); \
240
		(v2) = tmp; \
241
	} while (0)
242

243
#define SWAP_BC   do { \
244
		SWAP(B0, C0); \
245
		SWAP(B1, C1); \
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		SWAP(B2, C2); \
247
		SWAP(B3, C3); \
248
		SWAP(B4, C4); \
249
		SWAP(B5, C5); \
250
		SWAP(B6, C6); \
251
		SWAP(B7, C7); \
252
		SWAP(B8, C8); \
253
		SWAP(B9, C9); \
254
		SWAP(BA, CA); \
255
		SWAP(BB, CB); \
256
		SWAP(BC, CC); \
257
		SWAP(BD, CD); \
258
		SWAP(BE, CE); \
259
		SWAP(BF, CF); \
260
	} while (0)
261

262
#define PERM_ELT(xa0, xa1, xb0, xb1, xb2, xb3, xc, xm)   do { \
263
		xa0 = T32((xa0 \
264
			^ (((xa1 << 15) | (xa1 >> 17)) * 5U) \
265
			^ xc) * 3U) \
266
			^ xb1 ^ (xb2 & ~xb3) ^ xm; \
267
		xb0 = T32(~(((xb0 << 1) | (xb0 >> 31)) ^ xa0)); \
268
	} while (0)
269

270
#define PERM_STEP_0   do { \
271
		PERM_ELT(A00, A0B, B0, BD, B9, B6, C8, M0); \
272
		PERM_ELT(A01, A00, B1, BE, BA, B7, C7, M1); \
273
		PERM_ELT(A02, A01, B2, BF, BB, B8, C6, M2); \
274
		PERM_ELT(A03, A02, B3, B0, BC, B9, C5, M3); \
275
		PERM_ELT(A04, A03, B4, B1, BD, BA, C4, M4); \
276
		PERM_ELT(A05, A04, B5, B2, BE, BB, C3, M5); \
277
		PERM_ELT(A06, A05, B6, B3, BF, BC, C2, M6); \
278
		PERM_ELT(A07, A06, B7, B4, B0, BD, C1, M7); \
279
		PERM_ELT(A08, A07, B8, B5, B1, BE, C0, M8); \
280
		PERM_ELT(A09, A08, B9, B6, B2, BF, CF, M9); \
281
		PERM_ELT(A0A, A09, BA, B7, B3, B0, CE, MA); \
282
		PERM_ELT(A0B, A0A, BB, B8, B4, B1, CD, MB); \
283
		PERM_ELT(A00, A0B, BC, B9, B5, B2, CC, MC); \
284
		PERM_ELT(A01, A00, BD, BA, B6, B3, CB, MD); \
285
		PERM_ELT(A02, A01, BE, BB, B7, B4, CA, ME); \
286
		PERM_ELT(A03, A02, BF, BC, B8, B5, C9, MF); \
287
	} while (0)
288

289
#define PERM_STEP_1   do { \
290
		PERM_ELT(A04, A03, B0, BD, B9, B6, C8, M0); \
291
		PERM_ELT(A05, A04, B1, BE, BA, B7, C7, M1); \
292
		PERM_ELT(A06, A05, B2, BF, BB, B8, C6, M2); \
293
		PERM_ELT(A07, A06, B3, B0, BC, B9, C5, M3); \
294
		PERM_ELT(A08, A07, B4, B1, BD, BA, C4, M4); \
295
		PERM_ELT(A09, A08, B5, B2, BE, BB, C3, M5); \
296
		PERM_ELT(A0A, A09, B6, B3, BF, BC, C2, M6); \
297
		PERM_ELT(A0B, A0A, B7, B4, B0, BD, C1, M7); \
298
		PERM_ELT(A00, A0B, B8, B5, B1, BE, C0, M8); \
299
		PERM_ELT(A01, A00, B9, B6, B2, BF, CF, M9); \
300
		PERM_ELT(A02, A01, BA, B7, B3, B0, CE, MA); \
301
		PERM_ELT(A03, A02, BB, B8, B4, B1, CD, MB); \
302
		PERM_ELT(A04, A03, BC, B9, B5, B2, CC, MC); \
303
		PERM_ELT(A05, A04, BD, BA, B6, B3, CB, MD); \
304
		PERM_ELT(A06, A05, BE, BB, B7, B4, CA, ME); \
305
		PERM_ELT(A07, A06, BF, BC, B8, B5, C9, MF); \
306
	} while (0)
307

308
#define PERM_STEP_2   do { \
309
		PERM_ELT(A08, A07, B0, BD, B9, B6, C8, M0); \
310
		PERM_ELT(A09, A08, B1, BE, BA, B7, C7, M1); \
311
		PERM_ELT(A0A, A09, B2, BF, BB, B8, C6, M2); \
312
		PERM_ELT(A0B, A0A, B3, B0, BC, B9, C5, M3); \
313
		PERM_ELT(A00, A0B, B4, B1, BD, BA, C4, M4); \
314
		PERM_ELT(A01, A00, B5, B2, BE, BB, C3, M5); \
315
		PERM_ELT(A02, A01, B6, B3, BF, BC, C2, M6); \
316
		PERM_ELT(A03, A02, B7, B4, B0, BD, C1, M7); \
317
		PERM_ELT(A04, A03, B8, B5, B1, BE, C0, M8); \
318
		PERM_ELT(A05, A04, B9, B6, B2, BF, CF, M9); \
319
		PERM_ELT(A06, A05, BA, B7, B3, B0, CE, MA); \
320
		PERM_ELT(A07, A06, BB, B8, B4, B1, CD, MB); \
321
		PERM_ELT(A08, A07, BC, B9, B5, B2, CC, MC); \
322
		PERM_ELT(A09, A08, BD, BA, B6, B3, CB, MD); \
323
		PERM_ELT(A0A, A09, BE, BB, B7, B4, CA, ME); \
324
		PERM_ELT(A0B, A0A, BF, BC, B8, B5, C9, MF); \
325
	} while (0)
326

327
#define APPLY_P   do { \
328
		B0 = T32(B0 << 17) | (B0 >> 15); \
329
		B1 = T32(B1 << 17) | (B1 >> 15); \
330
		B2 = T32(B2 << 17) | (B2 >> 15); \
331
		B3 = T32(B3 << 17) | (B3 >> 15); \
332
		B4 = T32(B4 << 17) | (B4 >> 15); \
333
		B5 = T32(B5 << 17) | (B5 >> 15); \
334
		B6 = T32(B6 << 17) | (B6 >> 15); \
335
		B7 = T32(B7 << 17) | (B7 >> 15); \
336
		B8 = T32(B8 << 17) | (B8 >> 15); \
337
		B9 = T32(B9 << 17) | (B9 >> 15); \
338
		BA = T32(BA << 17) | (BA >> 15); \
339
		BB = T32(BB << 17) | (BB >> 15); \
340
		BC = T32(BC << 17) | (BC >> 15); \
341
		BD = T32(BD << 17) | (BD >> 15); \
342
		BE = T32(BE << 17) | (BE >> 15); \
343
		BF = T32(BF << 17) | (BF >> 15); \
344
		PERM_STEP_0; \
345
		PERM_STEP_1; \
346
		PERM_STEP_2; \
347
		A0B = T32(A0B + C6); \
348
		A0A = T32(A0A + C5); \
349
		A09 = T32(A09 + C4); \
350
		A08 = T32(A08 + C3); \
351
		A07 = T32(A07 + C2); \
352
		A06 = T32(A06 + C1); \
353
		A05 = T32(A05 + C0); \
354
		A04 = T32(A04 + CF); \
355
		A03 = T32(A03 + CE); \
356
		A02 = T32(A02 + CD); \
357
		A01 = T32(A01 + CC); \
358
		A00 = T32(A00 + CB); \
359
		A0B = T32(A0B + CA); \
360
		A0A = T32(A0A + C9); \
361
		A09 = T32(A09 + C8); \
362
		A08 = T32(A08 + C7); \
363
		A07 = T32(A07 + C6); \
364
		A06 = T32(A06 + C5); \
365
		A05 = T32(A05 + C4); \
366
		A04 = T32(A04 + C3); \
367
		A03 = T32(A03 + C2); \
368
		A02 = T32(A02 + C1); \
369
		A01 = T32(A01 + C0); \
370
		A00 = T32(A00 + CF); \
371
		A0B = T32(A0B + CE); \
372
		A0A = T32(A0A + CD); \
373
		A09 = T32(A09 + CC); \
374
		A08 = T32(A08 + CB); \
375
		A07 = T32(A07 + CA); \
376
		A06 = T32(A06 + C9); \
377
		A05 = T32(A05 + C8); \
378
		A04 = T32(A04 + C7); \
379
		A03 = T32(A03 + C6); \
380
		A02 = T32(A02 + C5); \
381
		A01 = T32(A01 + C4); \
382
		A00 = T32(A00 + C3); \
383
	} while (0)
384

385
#define INCR_W   do { \
386
		if ((Wlow = T32(Wlow + 1)) == 0) \
387
			Whigh = T32(Whigh + 1); \
388
	} while (0)
389

390
static const sph_u32 A_init_192[] = {
391
	C32(0xFD749ED4), C32(0xB798E530), C32(0x33904B6F), C32(0x46BDA85E),
392
	C32(0x076934B4), C32(0x454B4058), C32(0x77F74527), C32(0xFB4CF465),
393
	C32(0x62931DA9), C32(0xE778C8DB), C32(0x22B3998E), C32(0xAC15CFB9)
394
};
395

396
static const sph_u32 B_init_192[] = {
397
	C32(0x58BCBAC4), C32(0xEC47A08E), C32(0xAEE933B2), C32(0xDFCBC824),
398
	C32(0xA7944804), C32(0xBF65BDB0), C32(0x5A9D4502), C32(0x59979AF7),
399
	C32(0xC5CEA54E), C32(0x4B6B8150), C32(0x16E71909), C32(0x7D632319),
400
	C32(0x930573A0), C32(0xF34C63D1), C32(0xCAF914B4), C32(0xFDD6612C)
401
};
402

403
static const sph_u32 C_init_192[] = {
404
	C32(0x61550878), C32(0x89EF2B75), C32(0xA1660C46), C32(0x7EF3855B),
405
	C32(0x7297B58C), C32(0x1BC67793), C32(0x7FB1C723), C32(0xB66FC640),
406
	C32(0x1A48B71C), C32(0xF0976D17), C32(0x088CE80A), C32(0xA454EDF3),
407
	C32(0x1C096BF4), C32(0xAC76224B), C32(0x5215781C), C32(0xCD5D2669)
408
};
409

410
static const sph_u32 A_init_224[] = {
411
	C32(0xA5201467), C32(0xA9B8D94A), C32(0xD4CED997), C32(0x68379D7B),
412
	C32(0xA7FC73BA), C32(0xF1A2546B), C32(0x606782BF), C32(0xE0BCFD0F),
413
	C32(0x2F25374E), C32(0x069A149F), C32(0x5E2DFF25), C32(0xFAECF061)
414
};
415

416
static const sph_u32 B_init_224[] = {
417
	C32(0xEC9905D8), C32(0xF21850CF), C32(0xC0A746C8), C32(0x21DAD498),
418
	C32(0x35156EEB), C32(0x088C97F2), C32(0x26303E40), C32(0x8A2D4FB5),
419
	C32(0xFEEE44B6), C32(0x8A1E9573), C32(0x7B81111A), C32(0xCBC139F0),
420
	C32(0xA3513861), C32(0x1D2C362E), C32(0x918C580E), C32(0xB58E1B9C)
421
};
422

423
static const sph_u32 C_init_224[] = {
424
	C32(0xE4B573A1), C32(0x4C1A0880), C32(0x1E907C51), C32(0x04807EFD),
425
	C32(0x3AD8CDE5), C32(0x16B21302), C32(0x02512C53), C32(0x2204CB18),
426
	C32(0x99405F2D), C32(0xE5B648A1), C32(0x70AB1D43), C32(0xA10C25C2),
427
	C32(0x16F1AC05), C32(0x38BBEB56), C32(0x9B01DC60), C32(0xB1096D83)
428
};
429

430
static const sph_u32 A_init_256[] = {
431
	C32(0x52F84552), C32(0xE54B7999), C32(0x2D8EE3EC), C32(0xB9645191),
432
	C32(0xE0078B86), C32(0xBB7C44C9), C32(0xD2B5C1CA), C32(0xB0D2EB8C),
433
	C32(0x14CE5A45), C32(0x22AF50DC), C32(0xEFFDBC6B), C32(0xEB21B74A)
434
};
435

436
static const sph_u32 B_init_256[] = {
437
	C32(0xB555C6EE), C32(0x3E710596), C32(0xA72A652F), C32(0x9301515F),
438
	C32(0xDA28C1FA), C32(0x696FD868), C32(0x9CB6BF72), C32(0x0AFE4002),
439
	C32(0xA6E03615), C32(0x5138C1D4), C32(0xBE216306), C32(0xB38B8890),
440
	C32(0x3EA8B96B), C32(0x3299ACE4), C32(0x30924DD4), C32(0x55CB34A5)
441
};
442

443
static const sph_u32 C_init_256[] = {
444
	C32(0xB405F031), C32(0xC4233EBA), C32(0xB3733979), C32(0xC0DD9D55),
445
	C32(0xC51C28AE), C32(0xA327B8E1), C32(0x56C56167), C32(0xED614433),
446
	C32(0x88B59D60), C32(0x60E2CEBA), C32(0x758B4B8B), C32(0x83E82A7F),
447
	C32(0xBC968828), C32(0xE6E00BF7), C32(0xBA839E55), C32(0x9B491C60)
448
};
449

450
static const sph_u32 A_init_384[] = {
451
	C32(0xC8FCA331), C32(0xE55C504E), C32(0x003EBF26), C32(0xBB6B8D83),
452
	C32(0x7B0448C1), C32(0x41B82789), C32(0x0A7C9601), C32(0x8D659CFF),
453
	C32(0xB6E2673E), C32(0xCA54C77B), C32(0x1460FD7E), C32(0x3FCB8F2D)
454
};
455

456
static const sph_u32 B_init_384[] = {
457
	C32(0x527291FC), C32(0x2A16455F), C32(0x78E627E5), C32(0x944F169F),
458
	C32(0x1CA6F016), C32(0xA854EA25), C32(0x8DB98ABE), C32(0xF2C62641),
459
	C32(0x30117DCB), C32(0xCF5C4309), C32(0x93711A25), C32(0xF9F671B8),
460
	C32(0xB01D2116), C32(0x333F4B89), C32(0xB285D165), C32(0x86829B36)
461
};
462

463
static const sph_u32 C_init_384[] = {
464
	C32(0xF764B11A), C32(0x76172146), C32(0xCEF6934D), C32(0xC6D28399),
465
	C32(0xFE095F61), C32(0x5E6018B4), C32(0x5048ECF5), C32(0x51353261),
466
	C32(0x6E6E36DC), C32(0x63130DAD), C32(0xA9C69BD6), C32(0x1E90EA0C),
467
	C32(0x7C35073B), C32(0x28D95E6D), C32(0xAA340E0D), C32(0xCB3DEE70)
468
};
469

470
static const sph_u32 A_init_512[] = {
471
	C32(0x20728DFD), C32(0x46C0BD53), C32(0xE782B699), C32(0x55304632),
472
	C32(0x71B4EF90), C32(0x0EA9E82C), C32(0xDBB930F1), C32(0xFAD06B8B),
473
	C32(0xBE0CAE40), C32(0x8BD14410), C32(0x76D2ADAC), C32(0x28ACAB7F)
474
};
475

476
static const sph_u32 B_init_512[] = {
477
	C32(0xC1099CB7), C32(0x07B385F3), C32(0xE7442C26), C32(0xCC8AD640),
478
	C32(0xEB6F56C7), C32(0x1EA81AA9), C32(0x73B9D314), C32(0x1DE85D08),
479
	C32(0x48910A5A), C32(0x893B22DB), C32(0xC5A0DF44), C32(0xBBC4324E),
480
	C32(0x72D2F240), C32(0x75941D99), C32(0x6D8BDE82), C32(0xA1A7502B)
481
};
482

483
static const sph_u32 C_init_512[] = {
484
	C32(0xD9BF68D1), C32(0x58BAD750), C32(0x56028CB2), C32(0x8134F359),
485
	C32(0xB5D469D8), C32(0x941A8CC2), C32(0x418B2A6E), C32(0x04052780),
486
	C32(0x7F07D787), C32(0x5194358F), C32(0x3C60D665), C32(0xBE97D79A),
487
	C32(0x950C3434), C32(0xAED9A06D), C32(0x2537DC8D), C32(0x7CDB5969)
488
};
489

490
/* END -- automatically generated code. */
491

492
static void
493
shabal_init(void *cc, unsigned size)
494
{
495
	/*
496
	 * We have precomputed initial states for all the supported
497
	 * output bit lengths.
498
	 */
499
	const sph_u32 *A_init, *B_init, *C_init;
500
	sph_shabal_context *sc;
501

502
	switch (size) {
503
	case 192:
504
		A_init = A_init_192;
505
		B_init = B_init_192;
506
		C_init = C_init_192;
507
		break;
508
	case 224:
509
		A_init = A_init_224;
510
		B_init = B_init_224;
511
		C_init = C_init_224;
512
		break;
513
	case 256:
514
		A_init = A_init_256;
515
		B_init = B_init_256;
516
		C_init = C_init_256;
517
		break;
518
	case 384:
519
		A_init = A_init_384;
520
		B_init = B_init_384;
521
		C_init = C_init_384;
522
		break;
523
	case 512:
524
		A_init = A_init_512;
525
		B_init = B_init_512;
526
		C_init = C_init_512;
527
		break;
528
	default:
529
		return;
530
	}
531
	sc = cc;
532
	memcpy(sc->A, A_init, sizeof sc->A);
533
	memcpy(sc->B, B_init, sizeof sc->B);
534
	memcpy(sc->C, C_init, sizeof sc->C);
535
	sc->Wlow = 1;
536
	sc->Whigh = 0;
537
	sc->ptr = 0;
538
}
539

540
static void
541
shabal_core(void *cc, const unsigned char *data, size_t len)
542
{
543
	sph_shabal_context *sc;
544
	unsigned char *buf;
545
	size_t ptr;
546
	DECL_STATE
547

548
	sc = cc;
549
	buf = sc->buf;
550
	ptr = sc->ptr;
551

552
	/*
553
	 * We do not want to copy the state to local variables if the
554
	 * amount of data is less than what is needed to complete the
555
	 * current block. Note that it is anyway suboptimal to call
556
	 * this method many times for small chunks of data.
557
	 */
558
	if (len < (sizeof sc->buf) - ptr) {
559
		memcpy(buf + ptr, data, len);
560
		ptr += len;
561
		sc->ptr = ptr;
562
		return;
563
	}
564

565
	READ_STATE(sc);
566
	while (len > 0) {
567
		size_t clen;
568

569
		clen = (sizeof sc->buf) - ptr;
570
		if (clen > len)
571
			clen = len;
572
		memcpy(buf + ptr, data, clen);
573
		ptr += clen;
574
		data += clen;
575
		len -= clen;
576
		if (ptr == sizeof sc->buf) {
577
			DECODE_BLOCK;
578
			INPUT_BLOCK_ADD;
579
			XOR_W;
580
			APPLY_P;
581
			INPUT_BLOCK_SUB;
582
			SWAP_BC;
583
			INCR_W;
584
			ptr = 0;
585
		}
586
	}
587
	WRITE_STATE(sc);
588
	sc->ptr = ptr;
589
}
590

591
static void
592
shabal_close(void *cc, unsigned ub, unsigned n, void *dst, unsigned size_words)
593
{
594
	sph_shabal_context *sc;
595
	unsigned char *buf;
596
	size_t ptr;
597
	int i;
598
	unsigned z;
599
	union {
600
		unsigned char tmp_out[64];
601
		sph_u32 dummy;
602
	} u;
603
	size_t out_len;
604
	DECL_STATE
605

606
	sc = cc;
607
	buf = sc->buf;
608
	ptr = sc->ptr;
609
	z = 0x80 >> n;
610
	buf[ptr] = ((ub & -z) | z) & 0xFF;
611
	memset(buf + ptr + 1, 0, (sizeof sc->buf) - (ptr + 1));
612
	READ_STATE(sc);
613
	DECODE_BLOCK;
614
	INPUT_BLOCK_ADD;
615
	XOR_W;
616
	APPLY_P;
617
	for (i = 0; i < 3; i ++) {
618
		SWAP_BC;
619
		XOR_W;
620
		APPLY_P;
621
	}
622

623
	/*
624
	 * We just use our local variables; no need to go through
625
	 * the state structure. In order to share some code, we
626
	 * emit the relevant words into a temporary buffer, which
627
	 * we finally copy into the destination array.
628
	 */
629
	switch (size_words) {
630
	case 16:
631
		sph_enc32le_aligned(u.tmp_out +  0, B0);
632
		sph_enc32le_aligned(u.tmp_out +  4, B1);
633
		sph_enc32le_aligned(u.tmp_out +  8, B2);
634
		sph_enc32le_aligned(u.tmp_out + 12, B3);
635
		/* fall through */
636
	case 12:
637
		sph_enc32le_aligned(u.tmp_out + 16, B4);
638
		sph_enc32le_aligned(u.tmp_out + 20, B5);
639
		sph_enc32le_aligned(u.tmp_out + 24, B6);
640
		sph_enc32le_aligned(u.tmp_out + 28, B7);
641
		/* fall through */
642
	case 8:
643
		sph_enc32le_aligned(u.tmp_out + 32, B8);
644
		/* fall through */
645
	case 7:
646
		sph_enc32le_aligned(u.tmp_out + 36, B9);
647
		/* fall through */
648
	case 6:
649
		sph_enc32le_aligned(u.tmp_out + 40, BA);
650
		sph_enc32le_aligned(u.tmp_out + 44, BB);
651
		sph_enc32le_aligned(u.tmp_out + 48, BC);
652
		sph_enc32le_aligned(u.tmp_out + 52, BD);
653
		sph_enc32le_aligned(u.tmp_out + 56, BE);
654
		sph_enc32le_aligned(u.tmp_out + 60, BF);
655
		break;
656
	default:
657
		return;
658
	}
659
	out_len = size_words << 2;
660
	memcpy(dst, u.tmp_out + (sizeof u.tmp_out) - out_len, out_len);
661
	shabal_init(sc, size_words << 5);
662
}
663
#if 0
664
/* see sph_shabal.h */
665
void
666
sph_shabal192_init(void *cc)
667
{
668
	shabal_init(cc, 192);
669
}
670

671
/* see sph_shabal.h */
672
void
673
sph_shabal192(void *cc, const void *data, size_t len)
674
{
675
	shabal_core(cc, data, len);
676
}
677

678
/* see sph_shabal.h */
679
void
680
sph_shabal192_close(void *cc, void *dst)
681
{
682
	shabal_close(cc, 0, 0, dst, 6);
683
}
684

685
/* see sph_shabal.h */
686
void
687
sph_shabal192_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst)
688
{
689
	shabal_close(cc, ub, n, dst, 6);
690
}
691

692
/* see sph_shabal.h */
693
void
694
sph_shabal224_init(void *cc)
695
{
696
	shabal_init(cc, 224);
697
}
698

699
/* see sph_shabal.h */
700
void
701
sph_shabal224(void *cc, const void *data, size_t len)
702
{
703
	shabal_core(cc, data, len);
704
}
705

706
/* see sph_shabal.h */
707
void
708
sph_shabal224_close(void *cc, void *dst)
709
{
710
	shabal_close(cc, 0, 0, dst, 7);
711
}
712

713
/* see sph_shabal.h */
714
void
715
sph_shabal224_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst)
716
{
717
	shabal_close(cc, ub, n, dst, 7);
718
}
719

720
#endif
721
/* see sph_shabal.h */
722
void
723
sph_shabal256_init(void *cc)
724
{
725
	shabal_init(cc, 256);
726
}
727

728
/* see sph_shabal.h */
729
void
730
sph_shabal256(void *cc, const void *data, size_t len)
731
{
732
	shabal_core(cc, data, len);
733
}
734

735
/* see sph_shabal.h */
736
void
737
sph_shabal256_close(void *cc, void *dst)
738
{
739
	shabal_close(cc, 0, 0, dst, 8);
740
}
741

742
/* see sph_shabal.h */
743
void
744
sph_shabal256_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst)
745
{
746
	shabal_close(cc, ub, n, dst, 8);
747
}
748

749
#if 0
750
/* see sph_shabal.h */
751
void
752
sph_shabal384_init(void *cc)
753
{
754
	shabal_init(cc, 384);
755
}
756

757
/* see sph_shabal.h */
758
void
759
sph_shabal384(void *cc, const void *data, size_t len)
760
{
761
	shabal_core(cc, data, len);
762
}
763

764
/* see sph_shabal.h */
765
void
766
sph_shabal384_close(void *cc, void *dst)
767
{
768
	shabal_close(cc, 0, 0, dst, 12);
769
}
770

771
/* see sph_shabal.h */
772
void
773
sph_shabal384_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst)
774
{
775
	shabal_close(cc, ub, n, dst, 12);
776
}
777
#endif
778

779
/* see sph_shabal.h */
780
void
781
sph_shabal512_init(void *cc)
782
{
783
	shabal_init(cc, 512);
784
}
785

786
/* see sph_shabal.h */
787
void
788
sph_shabal512(void *cc, const void *data, size_t len)
789
{
790
	shabal_core(cc, data, len);
791
}
792

793
/* see sph_shabal.h */
794
void
795
sph_shabal512_close(void *cc, void *dst)
796
{
797
	shabal_close(cc, 0, 0, dst, 16);
798
}
799

800
/* see sph_shabal.h */
801
void
802
sph_shabal512_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst)
803
{
804
	shabal_close(cc, ub, n, dst, 16);
805
}
806
#ifdef __cplusplus
807
}
808
#endif
809

810