/src/nettle/sha3-permute.c

Line	Count	Source
1		/* sha3-permute.c
2
3		The sha3 permutation function (aka Keccak).
4
5		Copyright (C) 2012 Niels Möller
6
7		This file is part of GNU Nettle.
8
9		GNU Nettle is free software: you can redistribute it and/or
10		modify it under the terms of either:
11
12		* the GNU Lesser General Public License as published by the Free
13		Software Foundation; either version 3 of the License, or (at your
14		option) any later version.
15
16		or
17
18		* the GNU General Public License as published by the Free
19		Software Foundation; either version 2 of the License, or (at your
20		option) any later version.
21
22		or both in parallel, as here.
23
24		GNU Nettle is distributed in the hope that it will be useful,
25		but WITHOUT ANY WARRANTY; without even the implied warranty of
26		MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
27		General Public License for more details.
28
29		You should have received copies of the GNU General Public License and
30		the GNU Lesser General Public License along with this program. If
31		not, see http://www.gnu.org/licenses/.
32		*/
33
34		#if HAVE_CONFIG_H
35		# include "config.h"
36		#endif
37
38		#include "sha3.h"
39		#include "sha3-internal.h"
40
41		#include "macros.h"
42
43	463k	#define SHA3_ROUNDS 24
44
45		/* For fat builds */
46		#if HAVE_NATIVE_sha3_permute
47		void
48		_nettle_sha3_permute_c(struct sha3_state *state);
49		#define nettle_sha3_permute _nettle_sha3_permute_c
50		#endif
51
52		void
53		sha3_permute (struct sha3_state *state)
54	18.5k	{
55	18.5k	static const uint64_t rc[SHA3_ROUNDS] = {
56	18.5k	0x0000000000000001ULL, 0X0000000000008082ULL,
57	18.5k	0X800000000000808AULL, 0X8000000080008000ULL,
58	18.5k	0X000000000000808BULL, 0X0000000080000001ULL,
59	18.5k	0X8000000080008081ULL, 0X8000000000008009ULL,
60	18.5k	0X000000000000008AULL, 0X0000000000000088ULL,
61	18.5k	0X0000000080008009ULL, 0X000000008000000AULL,
62	18.5k	0X000000008000808BULL, 0X800000000000008BULL,
63	18.5k	0X8000000000008089ULL, 0X8000000000008003ULL,
64	18.5k	0X8000000000008002ULL, 0X8000000000000080ULL,
65	18.5k	0X000000000000800AULL, 0X800000008000000AULL,
66	18.5k	0X8000000080008081ULL, 0X8000000000008080ULL,
67	18.5k	0X0000000080000001ULL, 0X8000000080008008ULL,
68	18.5k	};
69
70		/* Original permutation:
71
72		0,10,20, 5,15,
73		16, 1,11,21, 6,
74		7,17, 2,12,22,
75		23, 8,18, 3,13,
76		14,24, 9,19, 4
77
78		Rotation counts:
79
80		0, 1, 62, 28, 27,
81		36, 44, 6, 55, 20,
82		3, 10, 43, 25, 39,
83		41, 45, 15, 21, 8,
84		18, 2, 61, 56, 14,
85		*/
86
87		/* In-place implementation. Permutation done as a long sequence of
88		25 moves "following" the permutation.
89
90		T <-- 1
91		1 <-- 6
92		6 <-- 9
93		9 <-- 22
94		22 <-- 14
95		14 <-- 20
96		20 <-- 2
97		2 <-- 12
98		12 <-- 13
99		13 <-- 19
100		19 <-- 23
101		23 <-- 15
102		15 <-- 4
103		4 <-- 24
104		24 <-- 21
105		21 <-- 8
106		8 <-- 16
107		16 <-- 5
108		5 <-- 3
109		3 <-- 18
110		18 <-- 17
111		17 <-- 11
112		11 <-- 7
113		7 <-- 10
114		10 <-- T
115
116		*/
117	18.5k	uint64_t C[5], D[5], T, X;
118	18.5k	unsigned i, y;
119
120	66.8M	#define A state->a
121
122	18.5k	C[0] = A[0] ^ A[5+0] ^ A[10+0] ^ A[15+0] ^ A[20+0];
123	18.5k	C[1] = A[1] ^ A[5+1] ^ A[10+1] ^ A[15+1] ^ A[20+1];
124	18.5k	C[2] = A[2] ^ A[5+2] ^ A[10+2] ^ A[15+2] ^ A[20+2];
125	18.5k	C[3] = A[3] ^ A[5+3] ^ A[10+3] ^ A[15+3] ^ A[20+3];
126	18.5k	C[4] = A[4] ^ A[5+4] ^ A[10+4] ^ A[15+4] ^ A[20+4];
127
128	463k	for (i = 0; i < SHA3_ROUNDS; i++)
129	445k	{
130	445k	D[0] = C[4] ^ ROTL64(1, C[1]);
131	445k	D[1] = C[0] ^ ROTL64(1, C[2]);
132	445k	D[2] = C[1] ^ ROTL64(1, C[3]);
133	445k	D[3] = C[2] ^ ROTL64(1, C[4]);
134	445k	D[4] = C[3] ^ ROTL64(1, C[0]);
135
136	445k	A[0] ^= D[0];
137	445k	X = A[ 1] ^ D[1]; T = ROTL64(1, X);
138	445k	X = A[ 6] ^ D[1]; A[ 1] = ROTL64 (44, X);
139	445k	X = A[ 9] ^ D[4]; A[ 6] = ROTL64 (20, X);
140	445k	X = A[22] ^ D[2]; A[ 9] = ROTL64 (61, X);
141	445k	X = A[14] ^ D[4]; A[22] = ROTL64 (39, X);
142	445k	X = A[20] ^ D[0]; A[14] = ROTL64 (18, X);
143	445k	X = A[ 2] ^ D[2]; A[20] = ROTL64 (62, X);
144	445k	X = A[12] ^ D[2]; A[ 2] = ROTL64 (43, X);
145	445k	X = A[13] ^ D[3]; A[12] = ROTL64 (25, X);
146	445k	X = A[19] ^ D[4]; A[13] = ROTL64 ( 8, X);
147	445k	X = A[23] ^ D[3]; A[19] = ROTL64 (56, X);
148	445k	X = A[15] ^ D[0]; A[23] = ROTL64 (41, X);
149	445k	X = A[ 4] ^ D[4]; A[15] = ROTL64 (27, X);
150	445k	X = A[24] ^ D[4]; A[ 4] = ROTL64 (14, X);
151	445k	X = A[21] ^ D[1]; A[24] = ROTL64 ( 2, X);
152	445k	X = A[ 8] ^ D[3]; A[21] = ROTL64 (55, X); /* row 4 done */
153	445k	X = A[16] ^ D[1]; A[ 8] = ROTL64 (45, X);
154	445k	X = A[ 5] ^ D[0]; A[16] = ROTL64 (36, X);
155	445k	X = A[ 3] ^ D[3]; A[ 5] = ROTL64 (28, X);
156	445k	X = A[18] ^ D[3]; A[ 3] = ROTL64 (21, X); /* row 0 done */
157	445k	X = A[17] ^ D[2]; A[18] = ROTL64 (15, X);
158	445k	X = A[11] ^ D[1]; A[17] = ROTL64 (10, X); /* row 3 done */
159	445k	X = A[ 7] ^ D[2]; A[11] = ROTL64 ( 6, X); /* row 1 done */
160	445k	X = A[10] ^ D[0]; A[ 7] = ROTL64 ( 3, X);
161	445k	A[10] = T; /* row 2 done */
162
163	445k	D[0] = ~A[1] & A[2];
164	445k	D[1] = ~A[2] & A[3];
165	445k	D[2] = ~A[3] & A[4];
166	445k	D[3] = ~A[4] & A[0];
167	445k	D[4] = ~A[0] & A[1];
168
169	445k	A[0] ^= D[0] ^ rc[i]; C[0] = A[0];
170	445k	A[1] ^= D[1]; C[1] = A[1];
171	445k	A[2] ^= D[2]; C[2] = A[2];
172	445k	A[3] ^= D[3]; C[3] = A[3];
173	445k	A[4] ^= D[4]; C[4] = A[4];
174
175	2.22M	for (y = 5; y < 25; y+= 5)
176	1.78M	{
177	1.78M	D[0] = ~A[y+1] & A[y+2];
178	1.78M	D[1] = ~A[y+2] & A[y+3];
179	1.78M	D[2] = ~A[y+3] & A[y+4];
180	1.78M	D[3] = ~A[y+4] & A[y+0];
181	1.78M	D[4] = ~A[y+0] & A[y+1];
182
183	1.78M	A[y+0] ^= D[0]; C[0] ^= A[y+0];
184	1.78M	A[y+1] ^= D[1]; C[1] ^= A[y+1];
185	1.78M	A[y+2] ^= D[2]; C[2] ^= A[y+2];
186	1.78M	A[y+3] ^= D[3]; C[3] ^= A[y+3];
187	1.78M	A[y+4] ^= D[4]; C[4] ^= A[y+4];
188	1.78M	}
189	445k	}
190	18.5k	#undef A
191	18.5k	}

Coverage Report

Created: 2026-03-31 06:37