/* $Id: keccak.c 259 2011-07-19 22:11:27Z tp $ */ /* * Keccak implementation. * * ==========================(LICENSE BEGIN)============================ * * Copyright (c) 2007-2010 Projet RNRT SAPHIR * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * ===========================(LICENSE END)============================= * * @author Thomas Pornin */ #include #include #include "sph_keccak.h" #ifdef __cplusplus extern "C"{ #endif /* * Parameters: * * SPH_KECCAK_64 use a 64-bit type * SPH_KECCAK_UNROLL number of loops to unroll (0/undef for full unroll) * SPH_KECCAK_INTERLEAVE use bit-interleaving (32-bit type only) * SPH_KECCAK_NOCOPY do not copy the state into local variables * * If there is no usable 64-bit type, the code automatically switches * back to the 32-bit implementation. * * Some tests on an Intel Core2 Q6600 (both 64-bit and 32-bit, 32 kB L1 * code cache), a PowerPC (G3, 32 kB L1 code cache), an ARM920T core * (16 kB L1 code cache), and a small MIPS-compatible CPU (Broadcom BCM3302, * 8 kB L1 code cache), seem to show that the following are optimal: * * -- x86, 64-bit: use the 64-bit implementation, unroll 8 rounds, * do not copy the state; unrolling 2, 6 or all rounds also provides * near-optimal performance. * -- x86, 32-bit: use the 32-bit implementation, unroll 6 rounds, * interleave, do not copy the state. Unrolling 1, 2, 4 or 8 rounds * also provides near-optimal performance. * -- PowerPC: use the 64-bit implementation, unroll 8 rounds, * copy the state. Unrolling 4 or 6 rounds is near-optimal. * -- ARM: use the 64-bit implementation, unroll 2 or 4 rounds, * copy the state. * -- MIPS: use the 64-bit implementation, unroll 2 rounds, copy * the state. Unrolling only 1 round is also near-optimal. * * Also, interleaving does not always yield actual improvements when * using a 32-bit implementation; in particular when the architecture * does not offer a native rotation opcode (interleaving replaces one * 64-bit rotation with two 32-bit rotations, which is a gain only if * there is a native 32-bit rotation opcode and not a native 64-bit * rotation opcode; also, interleaving implies a small overhead when * processing input words). * * To sum up: * -- when possible, use the 64-bit code * -- exception: on 32-bit x86, use 32-bit code * -- when using 32-bit code, use interleaving * -- copy the state, except on x86 * -- unroll 8 rounds on "big" machine, 2 rounds on "small" machines */ #if SPH_SMALL_FOOTPRINT && !defined SPH_SMALL_FOOTPRINT_KECCAK #define SPH_SMALL_FOOTPRINT_KECCAK 1 #endif /* * By default, we select the 64-bit implementation if a 64-bit type * is available, unless a 32-bit x86 is detected. */ #if !defined SPH_KECCAK_64 && SPH_64 \ && !(defined __i386__ || SPH_I386_GCC || SPH_I386_MSVC) #define SPH_KECCAK_64 1 #endif /* * If using a 32-bit implementation, we prefer to interleave. */ #if !SPH_KECCAK_64 && !defined SPH_KECCAK_INTERLEAVE #define SPH_KECCAK_INTERLEAVE 1 #endif /* * Unroll 8 rounds on big systems, 2 rounds on small systems. */ #ifndef SPH_KECCAK_UNROLL #if SPH_SMALL_FOOTPRINT_KECCAK #define SPH_KECCAK_UNROLL 2 #else #define SPH_KECCAK_UNROLL 8 #endif #endif /* * We do not want to copy the state to local variables on x86 (32-bit * and 64-bit alike). */ #ifndef SPH_KECCAK_NOCOPY #if defined __i386__ || defined __x86_64 || SPH_I386_MSVC || SPH_I386_GCC #define SPH_KECCAK_NOCOPY 1 #else #define SPH_KECCAK_NOCOPY 0 #endif #endif #ifdef _MSC_VER #pragma warning (disable: 4146) #endif #if SPH_KECCAK_64 static const sph_u64 RC[] = { SPH_C64(0x0000000000000001), SPH_C64(0x0000000000008082), SPH_C64(0x800000000000808A), SPH_C64(0x8000000080008000), SPH_C64(0x000000000000808B), SPH_C64(0x0000000080000001), SPH_C64(0x8000000080008081), SPH_C64(0x8000000000008009), SPH_C64(0x000000000000008A), SPH_C64(0x0000000000000088), SPH_C64(0x0000000080008009), SPH_C64(0x000000008000000A), SPH_C64(0x000000008000808B), SPH_C64(0x800000000000008B), SPH_C64(0x8000000000008089), SPH_C64(0x8000000000008003), SPH_C64(0x8000000000008002), SPH_C64(0x8000000000000080), SPH_C64(0x000000000000800A), SPH_C64(0x800000008000000A), SPH_C64(0x8000000080008081), SPH_C64(0x8000000000008080), SPH_C64(0x0000000080000001), SPH_C64(0x8000000080008008) }; #if SPH_KECCAK_NOCOPY #define a00 (kc->u.wide[ 0]) #define a10 (kc->u.wide[ 1]) #define a20 (kc->u.wide[ 2]) #define a30 (kc->u.wide[ 3]) #define a40 (kc->u.wide[ 4]) #define a01 (kc->u.wide[ 5]) #define a11 (kc->u.wide[ 6]) #define a21 (kc->u.wide[ 7]) #define a31 (kc->u.wide[ 8]) #define a41 (kc->u.wide[ 9]) #define a02 (kc->u.wide[10]) #define a12 (kc->u.wide[11]) #define a22 (kc->u.wide[12]) #define a32 (kc->u.wide[13]) #define a42 (kc->u.wide[14]) #define a03 (kc->u.wide[15]) #define a13 (kc->u.wide[16]) #define a23 (kc->u.wide[17]) #define a33 (kc->u.wide[18]) #define a43 (kc->u.wide[19]) #define a04 (kc->u.wide[20]) #define a14 (kc->u.wide[21]) #define a24 (kc->u.wide[22]) #define a34 (kc->u.wide[23]) #define a44 (kc->u.wide[24]) #define DECL_STATE #define READ_STATE(sc) #define WRITE_STATE(sc) #define INPUT_BUF(size) do { \ size_t j; \ for (j = 0; j < (size); j += 8) { \ kc->u.wide[j >> 3] ^= sph_dec64le_aligned(buf + j); \ } \ } while (0) #define INPUT_BUF144 INPUT_BUF(144) #define INPUT_BUF136 INPUT_BUF(136) #define INPUT_BUF104 INPUT_BUF(104) #define INPUT_BUF72 INPUT_BUF(72) #else #define DECL_STATE \ sph_u64 a00, a01, a02, a03, a04; \ sph_u64 a10, a11, a12, a13, a14; \ sph_u64 a20, a21, a22, a23, a24; \ sph_u64 a30, a31, a32, a33, a34; \ sph_u64 a40, a41, a42, a43, a44; #define READ_STATE(state) do { \ a00 = (state)->u.wide[ 0]; \ a10 = (state)->u.wide[ 1]; \ a20 = (state)->u.wide[ 2]; \ a30 = (state)->u.wide[ 3]; \ a40 = (state)->u.wide[ 4]; \ a01 = (state)->u.wide[ 5]; \ a11 = (state)->u.wide[ 6]; \ a21 = (state)->u.wide[ 7]; \ a31 = (state)->u.wide[ 8]; \ a41 = (state)->u.wide[ 9]; \ a02 = (state)->u.wide[10]; \ a12 = (state)->u.wide[11]; \ a22 = (state)->u.wide[12]; \ a32 = (state)->u.wide[13]; \ a42 = (state)->u.wide[14]; \ a03 = (state)->u.wide[15]; \ a13 = (state)->u.wide[16]; \ a23 = (state)->u.wide[17]; \ a33 = (state)->u.wide[18]; \ a43 = (state)->u.wide[19]; \ a04 = (state)->u.wide[20]; \ a14 = (state)->u.wide[21]; \ a24 = (state)->u.wide[22]; \ a34 = (state)->u.wide[23]; \ a44 = (state)->u.wide[24]; \ } while (0) #define WRITE_STATE(state) do { \ (state)->u.wide[ 0] = a00; \ (state)->u.wide[ 1] = a10; \ (state)->u.wide[ 2] = a20; \ (state)->u.wide[ 3] = a30; \ (state)->u.wide[ 4] = a40; \ (state)->u.wide[ 5] = a01; \ (state)->u.wide[ 6] = a11; \ (state)->u.wide[ 7] = a21; \ (state)->u.wide[ 8] = a31; \ (state)->u.wide[ 9] = a41; \ (state)->u.wide[10] = a02; \ (state)->u.wide[11] = a12; \ (state)->u.wide[12] = a22; \ (state)->u.wide[13] = a32; \ (state)->u.wide[14] = a42; \ (state)->u.wide[15] = a03; \ (state)->u.wide[16] = a13; \ (state)->u.wide[17] = a23; \ (state)->u.wide[18] = a33; \ (state)->u.wide[19] = a43; \ (state)->u.wide[20] = a04; \ (state)->u.wide[21] = a14; \ (state)->u.wide[22] = a24; \ (state)->u.wide[23] = a34; \ (state)->u.wide[24] = a44; \ } while (0) #define INPUT_BUF144 do { \ a00 ^= sph_dec64le_aligned(buf + 0); \ a10 ^= sph_dec64le_aligned(buf + 8); \ a20 ^= sph_dec64le_aligned(buf + 16); \ a30 ^= sph_dec64le_aligned(buf + 24); \ a40 ^= sph_dec64le_aligned(buf + 32); \ a01 ^= sph_dec64le_aligned(buf + 40); \ a11 ^= sph_dec64le_aligned(buf + 48); \ a21 ^= sph_dec64le_aligned(buf + 56); \ a31 ^= sph_dec64le_aligned(buf + 64); \ a41 ^= sph_dec64le_aligned(buf + 72); \ a02 ^= sph_dec64le_aligned(buf + 80); \ a12 ^= sph_dec64le_aligned(buf + 88); \ a22 ^= sph_dec64le_aligned(buf + 96); \ a32 ^= sph_dec64le_aligned(buf + 104); \ a42 ^= sph_dec64le_aligned(buf + 112); \ a03 ^= sph_dec64le_aligned(buf + 120); \ a13 ^= sph_dec64le_aligned(buf + 128); \ a23 ^= sph_dec64le_aligned(buf + 136); \ } while (0) #define INPUT_BUF136 do { \ a00 ^= sph_dec64le_aligned(buf + 0); \ a10 ^= sph_dec64le_aligned(buf + 8); \ a20 ^= sph_dec64le_aligned(buf + 16); \ a30 ^= sph_dec64le_aligned(buf + 24); \ a40 ^= sph_dec64le_aligned(buf + 32); \ a01 ^= sph_dec64le_aligned(buf + 40); \ a11 ^= sph_dec64le_aligned(buf + 48); \ a21 ^= sph_dec64le_aligned(buf + 56); \ a31 ^= sph_dec64le_aligned(buf + 64); \ a41 ^= sph_dec64le_aligned(buf + 72); \ a02 ^= sph_dec64le_aligned(buf + 80); \ a12 ^= sph_dec64le_aligned(buf + 88); \ a22 ^= sph_dec64le_aligned(buf + 96); \ a32 ^= sph_dec64le_aligned(buf + 104); \ a42 ^= sph_dec64le_aligned(buf + 112); \ a03 ^= sph_dec64le_aligned(buf + 120); \ a13 ^= sph_dec64le_aligned(buf + 128); \ } while (0) #define INPUT_BUF104 do { \ a00 ^= sph_dec64le_aligned(buf + 0); \ a10 ^= sph_dec64le_aligned(buf + 8); \ a20 ^= sph_dec64le_aligned(buf + 16); \ a30 ^= sph_dec64le_aligned(buf + 24); \ a40 ^= sph_dec64le_aligned(buf + 32); \ a01 ^= sph_dec64le_aligned(buf + 40); \ a11 ^= sph_dec64le_aligned(buf + 48); \ a21 ^= sph_dec64le_aligned(buf + 56); \ a31 ^= sph_dec64le_aligned(buf + 64); \ a41 ^= sph_dec64le_aligned(buf + 72); \ a02 ^= sph_dec64le_aligned(buf + 80); \ a12 ^= sph_dec64le_aligned(buf + 88); \ a22 ^= sph_dec64le_aligned(buf + 96); \ } while (0) #define INPUT_BUF72 do { \ a00 ^= sph_dec64le_aligned(buf + 0); \ a10 ^= sph_dec64le_aligned(buf + 8); \ a20 ^= sph_dec64le_aligned(buf + 16); \ a30 ^= sph_dec64le_aligned(buf + 24); \ a40 ^= sph_dec64le_aligned(buf + 32); \ a01 ^= sph_dec64le_aligned(buf + 40); \ a11 ^= sph_dec64le_aligned(buf + 48); \ a21 ^= sph_dec64le_aligned(buf + 56); \ a31 ^= sph_dec64le_aligned(buf + 64); \ } while (0) #define INPUT_BUF(lim) do { \ a00 ^= sph_dec64le_aligned(buf + 0); \ a10 ^= sph_dec64le_aligned(buf + 8); \ a20 ^= sph_dec64le_aligned(buf + 16); \ a30 ^= sph_dec64le_aligned(buf + 24); \ a40 ^= sph_dec64le_aligned(buf + 32); \ a01 ^= sph_dec64le_aligned(buf + 40); \ a11 ^= sph_dec64le_aligned(buf + 48); \ a21 ^= sph_dec64le_aligned(buf + 56); \ a31 ^= sph_dec64le_aligned(buf + 64); \ if ((lim) == 72) \ break; \ a41 ^= sph_dec64le_aligned(buf + 72); \ a02 ^= sph_dec64le_aligned(buf + 80); \ a12 ^= sph_dec64le_aligned(buf + 88); \ a22 ^= sph_dec64le_aligned(buf + 96); \ if ((lim) == 104) \ break; \ a32 ^= sph_dec64le_aligned(buf + 104); \ a42 ^= sph_dec64le_aligned(buf + 112); \ a03 ^= sph_dec64le_aligned(buf + 120); \ a13 ^= sph_dec64le_aligned(buf + 128); \ if ((lim) == 136) \ break; \ a23 ^= sph_dec64le_aligned(buf + 136); \ } while (0) #endif #define DECL64(x) sph_u64 x #define MOV64(d, s) (d = s) #define XOR64(d, a, b) (d = a ^ b) #define AND64(d, a, b) (d = a & b) #define OR64(d, a, b) (d = a | b) #define NOT64(d, s) (d = SPH_T64(~s)) #define ROL64(d, v, n) (d = SPH_ROTL64(v, n)) #define XOR64_IOTA XOR64 #else static const struct { sph_u32 high, low; } RC[] = { #if SPH_KECCAK_INTERLEAVE { SPH_C32(0x00000000), SPH_C32(0x00000001) }, { SPH_C32(0x00000089), SPH_C32(0x00000000) }, { SPH_C32(0x8000008B), SPH_C32(0x00000000) }, { SPH_C32(0x80008080), SPH_C32(0x00000000) }, { SPH_C32(0x0000008B), SPH_C32(0x00000001) }, { SPH_C32(0x00008000), SPH_C32(0x00000001) }, { SPH_C32(0x80008088), SPH_C32(0x00000001) }, { SPH_C32(0x80000082), SPH_C32(0x00000001) }, { SPH_C32(0x0000000B), SPH_C32(0x00000000) }, { SPH_C32(0x0000000A), SPH_C32(0x00000000) }, { SPH_C32(0x00008082), SPH_C32(0x00000001) }, { SPH_C32(0x00008003), SPH_C32(0x00000000) }, { SPH_C32(0x0000808B), SPH_C32(0x00000001) }, { SPH_C32(0x8000000B), SPH_C32(0x00000001) }, { SPH_C32(0x8000008A), SPH_C32(0x00000001) }, { SPH_C32(0x80000081), SPH_C32(0x00000001) }, { SPH_C32(0x80000081), SPH_C32(0x00000000) }, { SPH_C32(0x80000008), SPH_C32(0x00000000) }, { SPH_C32(0x00000083), SPH_C32(0x00000000) }, { SPH_C32(0x80008003), SPH_C32(0x00000000) }, { SPH_C32(0x80008088), SPH_C32(0x00000001) }, { SPH_C32(0x80000088), SPH_C32(0x00000000) }, { SPH_C32(0x00008000), SPH_C32(0x00000001) }, { SPH_C32(0x80008082), SPH_C32(0x00000000) } #else { SPH_C32(0x00000000), SPH_C32(0x00000001) }, { SPH_C32(0x00000000), SPH_C32(0x00008082) }, { SPH_C32(0x80000000), SPH_C32(0x0000808A) }, { SPH_C32(0x80000000), SPH_C32(0x80008000) }, { SPH_C32(0x00000000), SPH_C32(0x0000808B) }, { SPH_C32(0x00000000), SPH_C32(0x80000001) }, { SPH_C32(0x80000000), SPH_C32(0x80008081) }, { SPH_C32(0x80000000), SPH_C32(0x00008009) }, { SPH_C32(0x00000000), SPH_C32(0x0000008A) }, { SPH_C32(0x00000000), SPH_C32(0x00000088) }, { SPH_C32(0x00000000), SPH_C32(0x80008009) }, { SPH_C32(0x00000000), SPH_C32(0x8000000A) }, { SPH_C32(0x00000000), SPH_C32(0x8000808B) }, { SPH_C32(0x80000000), SPH_C32(0x0000008B) }, { SPH_C32(0x80000000), SPH_C32(0x00008089) }, { SPH_C32(0x80000000), SPH_C32(0x00008003) }, { SPH_C32(0x80000000), SPH_C32(0x00008002) }, { SPH_C32(0x80000000), SPH_C32(0x00000080) }, { SPH_C32(0x00000000), SPH_C32(0x0000800A) }, { SPH_C32(0x80000000), SPH_C32(0x8000000A) }, { SPH_C32(0x80000000), SPH_C32(0x80008081) }, { SPH_C32(0x80000000), SPH_C32(0x00008080) }, { SPH_C32(0x00000000), SPH_C32(0x80000001) }, { SPH_C32(0x80000000), SPH_C32(0x80008008) } #endif }; #if SPH_KECCAK_INTERLEAVE #define INTERLEAVE(xl, xh) do { \ sph_u32 l, h, t; \ l = (xl); h = (xh); \ t = (l ^ (l >> 1)) & SPH_C32(0x22222222); l ^= t ^ (t << 1); \ t = (h ^ (h >> 1)) & SPH_C32(0x22222222); h ^= t ^ (t << 1); \ t = (l ^ (l >> 2)) & SPH_C32(0x0C0C0C0C); l ^= t ^ (t << 2); \ t = (h ^ (h >> 2)) & SPH_C32(0x0C0C0C0C); h ^= t ^ (t << 2); \ t = (l ^ (l >> 4)) & SPH_C32(0x00F000F0); l ^= t ^ (t << 4); \ t = (h ^ (h >> 4)) & SPH_C32(0x00F000F0); h ^= t ^ (t << 4); \ t = (l ^ (l >> 8)) & SPH_C32(0x0000FF00); l ^= t ^ (t << 8); \ t = (h ^ (h >> 8)) & SPH_C32(0x0000FF00); h ^= t ^ (t << 8); \ t = (l ^ SPH_T32(h << 16)) & SPH_C32(0xFFFF0000); \ l ^= t; h ^= t >> 16; \ (xl) = l; (xh) = h; \ } while (0) #define UNINTERLEAVE(xl, xh) do { \ sph_u32 l, h, t; \ l = (xl); h = (xh); \ t = (l ^ SPH_T32(h << 16)) & SPH_C32(0xFFFF0000); \ l ^= t; h ^= t >> 16; \ t = (l ^ (l >> 8)) & SPH_C32(0x0000FF00); l ^= t ^ (t << 8); \ t = (h ^ (h >> 8)) & SPH_C32(0x0000FF00); h ^= t ^ (t << 8); \ t = (l ^ (l >> 4)) & SPH_C32(0x00F000F0); l ^= t ^ (t << 4); \ t = (h ^ (h >> 4)) & SPH_C32(0x00F000F0); h ^= t ^ (t << 4); \ t = (l ^ (l >> 2)) & SPH_C32(0x0C0C0C0C); l ^= t ^ (t << 2); \ t = (h ^ (h >> 2)) & SPH_C32(0x0C0C0C0C); h ^= t ^ (t << 2); \ t = (l ^ (l >> 1)) & SPH_C32(0x22222222); l ^= t ^ (t << 1); \ t = (h ^ (h >> 1)) & SPH_C32(0x22222222); h ^= t ^ (t << 1); \ (xl) = l; (xh) = h; \ } while (0) #else #define INTERLEAVE(l, h) #define UNINTERLEAVE(l, h) #endif #if SPH_KECCAK_NOCOPY #define a00l (kc->u.narrow[2 * 0 + 0]) #define a00h (kc->u.narrow[2 * 0 + 1]) #define a10l (kc->u.narrow[2 * 1 + 0]) #define a10h (kc->u.narrow[2 * 1 + 1]) #define a20l (kc->u.narrow[2 * 2 + 0]) #define a20h (kc->u.narrow[2 * 2 + 1]) #define a30l (kc->u.narrow[2 * 3 + 0]) #define a30h (kc->u.narrow[2 * 3 + 1]) #define a40l (kc->u.narrow[2 * 4 + 0]) #define a40h (kc->u.narrow[2 * 4 + 1]) #define a01l (kc->u.narrow[2 * 5 + 0]) #define a01h (kc->u.narrow[2 * 5 + 1]) #define a11l (kc->u.narrow[2 * 6 + 0]) #define a11h (kc->u.narrow[2 * 6 + 1]) #define a21l (kc->u.narrow[2 * 7 + 0]) #define a21h (kc->u.narrow[2 * 7 + 1]) #define a31l (kc->u.narrow[2 * 8 + 0]) #define a31h (kc->u.narrow[2 * 8 + 1]) #define a41l (kc->u.narrow[2 * 9 + 0]) #define a41h (kc->u.narrow[2 * 9 + 1]) #define a02l (kc->u.narrow[2 * 10 + 0]) #define a02h (kc->u.narrow[2 * 10 + 1]) #define a12l (kc->u.narrow[2 * 11 + 0]) #define a12h (kc->u.narrow[2 * 11 + 1]) #define a22l (kc->u.narrow[2 * 12 + 0]) #define a22h (kc->u.narrow[2 * 12 + 1]) #define a32l (kc->u.narrow[2 * 13 + 0]) #define a32h (kc->u.narrow[2 * 13 + 1]) #define a42l (kc->u.narrow[2 * 14 + 0]) #define a42h (kc->u.narrow[2 * 14 + 1]) #define a03l (kc->u.narrow[2 * 15 + 0]) #define a03h (kc->u.narrow[2 * 15 + 1]) #define a13l (kc->u.narrow[2 * 16 + 0]) #define a13h (kc->u.narrow[2 * 16 + 1]) #define a23l (kc->u.narrow[2 * 17 + 0]) #define a23h (kc->u.narrow[2 * 17 + 1]) #define a33l (kc->u.narrow[2 * 18 + 0]) #define a33h (kc->u.narrow[2 * 18 + 1]) #define a43l (kc->u.narrow[2 * 19 + 0]) #define a43h (kc->u.narrow[2 * 19 + 1]) #define a04l (kc->u.narrow[2 * 20 + 0]) #define a04h (kc->u.narrow[2 * 20 + 1]) #define a14l (kc->u.narrow[2 * 21 + 0]) #define a14h (kc->u.narrow[2 * 21 + 1]) #define a24l (kc->u.narrow[2 * 22 + 0]) #define a24h (kc->u.narrow[2 * 22 + 1]) #define a34l (kc->u.narrow[2 * 23 + 0]) #define a34h (kc->u.narrow[2 * 23 + 1]) #define a44l (kc->u.narrow[2 * 24 + 0]) #define a44h (kc->u.narrow[2 * 24 + 1]) #define DECL_STATE #define READ_STATE(state) #define WRITE_STATE(state) #define INPUT_BUF(size) do { \ size_t j; \ for (j = 0; j < (size); j += 8) { \ sph_u32 tl, th; \ tl = sph_dec32le_aligned(buf + j + 0); \ th = sph_dec32le_aligned(buf + j + 4); \ INTERLEAVE(tl, th); \ kc->u.narrow[(j >> 2) + 0] ^= tl; \ kc->u.narrow[(j >> 2) + 1] ^= th; \ } \ } while (0) #define INPUT_BUF144 INPUT_BUF(144) #define INPUT_BUF136 INPUT_BUF(136) #define INPUT_BUF104 INPUT_BUF(104) #define INPUT_BUF72 INPUT_BUF(72) #else #define DECL_STATE \ sph_u32 a00l, a00h, a01l, a01h, a02l, a02h, a03l, a03h, a04l, a04h; \ sph_u32 a10l, a10h, a11l, a11h, a12l, a12h, a13l, a13h, a14l, a14h; \ sph_u32 a20l, a20h, a21l, a21h, a22l, a22h, a23l, a23h, a24l, a24h; \ sph_u32 a30l, a30h, a31l, a31h, a32l, a32h, a33l, a33h, a34l, a34h; \ sph_u32 a40l, a40h, a41l, a41h, a42l, a42h, a43l, a43h, a44l, a44h; #define READ_STATE(state) do { \ a00l = (state)->u.narrow[2 * 0 + 0]; \ a00h = (state)->u.narrow[2 * 0 + 1]; \ a10l = (state)->u.narrow[2 * 1 + 0]; \ a10h = (state)->u.narrow[2 * 1 + 1]; \ a20l = (state)->u.narrow[2 * 2 + 0]; \ a20h = (state)->u.narrow[2 * 2 + 1]; \ a30l = (state)->u.narrow[2 * 3 + 0]; \ a30h = (state)->u.narrow[2 * 3 + 1]; \ a40l = (state)->u.narrow[2 * 4 + 0]; \ a40h = (state)->u.narrow[2 * 4 + 1]; \ a01l = (state)->u.narrow[2 * 5 + 0]; \ a01h = (state)->u.narrow[2 * 5 + 1]; \ a11l = (state)->u.narrow[2 * 6 + 0]; \ a11h = (state)->u.narrow[2 * 6 + 1]; \ a21l = (state)->u.narrow[2 * 7 + 0]; \ a21h = (state)->u.narrow[2 * 7 + 1]; \ a31l = (state)->u.narrow[2 * 8 + 0]; \ a31h = (state)->u.narrow[2 * 8 + 1]; \ a41l = (state)->u.narrow[2 * 9 + 0]; \ a41h = (state)->u.narrow[2 * 9 + 1]; \ a02l = (state)->u.narrow[2 * 10 + 0]; \ a02h = (state)->u.narrow[2 * 10 + 1]; \ a12l = (state)->u.narrow[2 * 11 + 0]; \ a12h = (state)->u.narrow[2 * 11 + 1]; \ a22l = (state)->u.narrow[2 * 12 + 0]; \ a22h = (state)->u.narrow[2 * 12 + 1]; \ a32l = (state)->u.narrow[2 * 13 + 0]; \ a32h = (state)->u.narrow[2 * 13 + 1]; \ a42l = (state)->u.narrow[2 * 14 + 0]; \ a42h = (state)->u.narrow[2 * 14 + 1]; \ a03l = (state)->u.narrow[2 * 15 + 0]; \ a03h = (state)->u.narrow[2 * 15 + 1]; \ a13l = (state)->u.narrow[2 * 16 + 0]; \ a13h = (state)->u.narrow[2 * 16 + 1]; \ a23l = (state)->u.narrow[2 * 17 + 0]; \ a23h = (state)->u.narrow[2 * 17 + 1]; \ a33l = (state)->u.narrow[2 * 18 + 0]; \ a33h = (state)->u.narrow[2 * 18 + 1]; \ a43l = (state)->u.narrow[2 * 19 + 0]; \ a43h = (state)->u.narrow[2 * 19 + 1]; \ a04l = (state)->u.narrow[2 * 20 + 0]; \ a04h = (state)->u.narrow[2 * 20 + 1]; \ a14l = (state)->u.narrow[2 * 21 + 0]; \ a14h = (state)->u.narrow[2 * 21 + 1]; \ a24l = (state)->u.narrow[2 * 22 + 0]; \ a24h = (state)->u.narrow[2 * 22 + 1]; \ a34l = (state)->u.narrow[2 * 23 + 0]; \ a34h = (state)->u.narrow[2 * 23 + 1]; \ a44l = (state)->u.narrow[2 * 24 + 0]; \ a44h = (state)->u.narrow[2 * 24 + 1]; \ } while (0) #define WRITE_STATE(state) do { \ (state)->u.narrow[2 * 0 + 0] = a00l; \ (state)->u.narrow[2 * 0 + 1] = a00h; \ (state)->u.narrow[2 * 1 + 0] = a10l; \ (state)->u.narrow[2 * 1 + 1] = a10h; \ (state)->u.narrow[2 * 2 + 0] = a20l; \ (state)->u.narrow[2 * 2 + 1] = a20h; \ (state)->u.narrow[2 * 3 + 0] = a30l; \ (state)->u.narrow[2 * 3 + 1] = a30h; \ (state)->u.narrow[2 * 4 + 0] = a40l; \ (state)->u.narrow[2 * 4 + 1] = a40h; \ (state)->u.narrow[2 * 5 + 0] = a01l; \ (state)->u.narrow[2 * 5 + 1] = a01h; \ (state)->u.narrow[2 * 6 + 0] = a11l; \ (state)->u.narrow[2 * 6 + 1] = a11h; \ (state)->u.narrow[2 * 7 + 0] = a21l; \ (state)->u.narrow[2 * 7 + 1] = a21h; \ (state)->u.narrow[2 * 8 + 0] = a31l; \ (state)->u.narrow[2 * 8 + 1] = a31h; \ (state)->u.narrow[2 * 9 + 0] = a41l; \ (state)->u.narrow[2 * 9 + 1] = a41h; \ (state)->u.narrow[2 * 10 + 0] = a02l; \ (state)->u.narrow[2 * 10 + 1] = a02h; \ (state)->u.narrow[2 * 11 + 0] = a12l; \ (state)->u.narrow[2 * 11 + 1] = a12h; \ (state)->u.narrow[2 * 12 + 0] = a22l; \ (state)->u.narrow[2 * 12 + 1] = a22h; \ (state)->u.narrow[2 * 13 + 0] = a32l; \ (state)->u.narrow[2 * 13 + 1] = a32h; \ (state)->u.narrow[2 * 14 + 0] = a42l; \ (state)->u.narrow[2 * 14 + 1] = a42h; \ (state)->u.narrow[2 * 15 + 0] = a03l; \ (state)->u.narrow[2 * 15 + 1] = a03h; \ (state)->u.narrow[2 * 16 + 0] = a13l; \ (state)->u.narrow[2 * 16 + 1] = a13h; \ (state)->u.narrow[2 * 17 + 0] = a23l; \ (state)->u.narrow[2 * 17 + 1] = a23h; \ (state)->u.narrow[2 * 18 + 0] = a33l; \ (state)->u.narrow[2 * 18 + 1] = a33h; \ (state)->u.narrow[2 * 19 + 0] = a43l; \ (state)->u.narrow[2 * 19 + 1] = a43h; \ (state)->u.narrow[2 * 20 + 0] = a04l; \ (state)->u.narrow[2 * 20 + 1] = a04h; \ (state)->u.narrow[2 * 21 + 0] = a14l; \ (state)->u.narrow[2 * 21 + 1] = a14h; \ (state)->u.narrow[2 * 22 + 0] = a24l; \ (state)->u.narrow[2 * 22 + 1] = a24h; \ (state)->u.narrow[2 * 23 + 0] = a34l; \ (state)->u.narrow[2 * 23 + 1] = a34h; \ (state)->u.narrow[2 * 24 + 0] = a44l; \ (state)->u.narrow[2 * 24 + 1] = a44h; \ } while (0) #define READ64(d, off) do { \ sph_u32 tl, th; \ tl = sph_dec32le_aligned(buf + (off)); \ th = sph_dec32le_aligned(buf + (off) + 4); \ INTERLEAVE(tl, th); \ d ## l ^= tl; \ d ## h ^= th; \ } while (0) #define INPUT_BUF144 do { \ READ64(a00, 0); \ READ64(a10, 8); \ READ64(a20, 16); \ READ64(a30, 24); \ READ64(a40, 32); \ READ64(a01, 40); \ READ64(a11, 48); \ READ64(a21, 56); \ READ64(a31, 64); \ READ64(a41, 72); \ READ64(a02, 80); \ READ64(a12, 88); \ READ64(a22, 96); \ READ64(a32, 104); \ READ64(a42, 112); \ READ64(a03, 120); \ READ64(a13, 128); \ READ64(a23, 136); \ } while (0) #define INPUT_BUF136 do { \ READ64(a00, 0); \ READ64(a10, 8); \ READ64(a20, 16); \ READ64(a30, 24); \ READ64(a40, 32); \ READ64(a01, 40); \ READ64(a11, 48); \ READ64(a21, 56); \ READ64(a31, 64); \ READ64(a41, 72); \ READ64(a02, 80); \ READ64(a12, 88); \ READ64(a22, 96); \ READ64(a32, 104); \ READ64(a42, 112); \ READ64(a03, 120); \ READ64(a13, 128); \ } while (0) #define INPUT_BUF104 do { \ READ64(a00, 0); \ READ64(a10, 8); \ READ64(a20, 16); \ READ64(a30, 24); \ READ64(a40, 32); \ READ64(a01, 40); \ READ64(a11, 48); \ READ64(a21, 56); \ READ64(a31, 64); \ READ64(a41, 72); \ READ64(a02, 80); \ READ64(a12, 88); \ READ64(a22, 96); \ } while (0) #define INPUT_BUF72 do { \ READ64(a00, 0); \ READ64(a10, 8); \ READ64(a20, 16); \ READ64(a30, 24); \ READ64(a40, 32); \ READ64(a01, 40); \ READ64(a11, 48); \ READ64(a21, 56); \ READ64(a31, 64); \ } while (0) #define INPUT_BUF(lim) do { \ READ64(a00, 0); \ READ64(a10, 8); \ READ64(a20, 16); \ READ64(a30, 24); \ READ64(a40, 32); \ READ64(a01, 40); \ READ64(a11, 48); \ READ64(a21, 56); \ READ64(a31, 64); \ if ((lim) == 72) \ break; \ READ64(a41, 72); \ READ64(a02, 80); \ READ64(a12, 88); \ READ64(a22, 96); \ if ((lim) == 104) \ break; \ READ64(a32, 104); \ READ64(a42, 112); \ READ64(a03, 120); \ READ64(a13, 128); \ if ((lim) == 136) \ break; \ READ64(a23, 136); \ } while (0) #endif #define DECL64(x) sph_u64 x ## l, x ## h #define MOV64(d, s) (d ## l = s ## l, d ## h = s ## h) #define XOR64(d, a, b) (d ## l = a ## l ^ b ## l, d ## h = a ## h ^ b ## h) #define AND64(d, a, b) (d ## l = a ## l & b ## l, d ## h = a ## h & b ## h) #define OR64(d, a, b) (d ## l = a ## l | b ## l, d ## h = a ## h | b ## h) #define NOT64(d, s) (d ## l = SPH_T32(~s ## l), d ## h = SPH_T32(~s ## h)) #define ROL64(d, v, n) ROL64_ ## n(d, v) #if SPH_KECCAK_INTERLEAVE #define ROL64_odd1(d, v) do { \ sph_u32 tmp; \ tmp = v ## l; \ d ## l = SPH_T32(v ## h << 1) | (v ## h >> 31); \ d ## h = tmp; \ } while (0) #define ROL64_odd63(d, v) do { \ sph_u32 tmp; \ tmp = SPH_T32(v ## l << 31) | (v ## l >> 1); \ d ## l = v ## h; \ d ## h = tmp; \ } while (0) #define ROL64_odd(d, v, n) do { \ sph_u32 tmp; \ tmp = SPH_T32(v ## l << (n - 1)) | (v ## l >> (33 - n)); \ d ## l = SPH_T32(v ## h << n) | (v ## h >> (32 - n)); \ d ## h = tmp; \ } while (0) #define ROL64_even(d, v, n) do { \ d ## l = SPH_T32(v ## l << n) | (v ## l >> (32 - n)); \ d ## h = SPH_T32(v ## h << n) | (v ## h >> (32 - n)); \ } while (0) #define ROL64_0(d, v) #define ROL64_1(d, v) ROL64_odd1(d, v) #define ROL64_2(d, v) ROL64_even(d, v, 1) #define ROL64_3(d, v) ROL64_odd( d, v, 2) #define ROL64_4(d, v) ROL64_even(d, v, 2) #define ROL64_5(d, v) ROL64_odd( d, v, 3) #define ROL64_6(d, v) ROL64_even(d, v, 3) #define ROL64_7(d, v) ROL64_odd( d, v, 4) #define ROL64_8(d, v) ROL64_even(d, v, 4) #define ROL64_9(d, v) ROL64_odd( d, v, 5) #define ROL64_10(d, v) ROL64_even(d, v, 5) #define ROL64_11(d, v) ROL64_odd( d, v, 6) #define ROL64_12(d, v) ROL64_even(d, v, 6) #define ROL64_13(d, v) ROL64_odd( d, v, 7) #define ROL64_14(d, v) ROL64_even(d, v, 7) #define ROL64_15(d, v) ROL64_odd( d, v, 8) #define ROL64_16(d, v) ROL64_even(d, v, 8) #define ROL64_17(d, v) ROL64_odd( d, v, 9) #define ROL64_18(d, v) ROL64_even(d, v, 9) #define ROL64_19(d, v) ROL64_odd( d, v, 10) #define ROL64_20(d, v) ROL64_even(d, v, 10) #define ROL64_21(d, v) ROL64_odd( d, v, 11) #define ROL64_22(d, v) ROL64_even(d, v, 11) #define ROL64_23(d, v) ROL64_odd( d, v, 12) #define ROL64_24(d, v) ROL64_even(d, v, 12) #define ROL64_25(d, v) ROL64_odd( d, v, 13) #define ROL64_26(d, v) ROL64_even(d, v, 13) #define ROL64_27(d, v) ROL64_odd( d, v, 14) #define ROL64_28(d, v) ROL64_even(d, v, 14) #define ROL64_29(d, v) ROL64_odd( d, v, 15) #define ROL64_30(d, v) ROL64_even(d, v, 15) #define ROL64_31(d, v) ROL64_odd( d, v, 16) #define ROL64_32(d, v) ROL64_even(d, v, 16) #define ROL64_33(d, v) ROL64_odd( d, v, 17) #define ROL64_34(d, v) ROL64_even(d, v, 17) #define ROL64_35(d, v) ROL64_odd( d, v, 18) #define ROL64_36(d, v) ROL64_even(d, v, 18) #define ROL64_37(d, v) ROL64_odd( d, v, 19) #define ROL64_38(d, v) ROL64_even(d, v, 19) #define ROL64_39(d, v) ROL64_odd( d, v, 20) #define ROL64_40(d, v) ROL64_even(d, v, 20) #define ROL64_41(d, v) ROL64_odd( d, v, 21) #define ROL64_42(d, v) ROL64_even(d, v, 21) #define ROL64_43(d, v) ROL64_odd( d, v, 22) #define ROL64_44(d, v) ROL64_even(d, v, 22) #define ROL64_45(d, v) ROL64_odd( d, v, 23) #define ROL64_46(d, v) ROL64_even(d, v, 23) #define ROL64_47(d, v) ROL64_odd( d, v, 24) #define ROL64_48(d, v) ROL64_even(d, v, 24) #define ROL64_49(d, v) ROL64_odd( d, v, 25) #define ROL64_50(d, v) ROL64_even(d, v, 25) #define ROL64_51(d, v) ROL64_odd( d, v, 26) #define ROL64_52(d, v) ROL64_even(d, v, 26) #define ROL64_53(d, v) ROL64_odd( d, v, 27) #define ROL64_54(d, v) ROL64_even(d, v, 27) #define ROL64_55(d, v) ROL64_odd( d, v, 28) #define ROL64_56(d, v) ROL64_even(d, v, 28) #define ROL64_57(d, v) ROL64_odd( d, v, 29) #define ROL64_58(d, v) ROL64_even(d, v, 29) #define ROL64_59(d, v) ROL64_odd( d, v, 30) #define ROL64_60(d, v) ROL64_even(d, v, 30) #define ROL64_61(d, v) ROL64_odd( d, v, 31) #define ROL64_62(d, v) ROL64_even(d, v, 31) #define ROL64_63(d, v) ROL64_odd63(d, v) #else #define ROL64_small(d, v, n) do { \ sph_u32 tmp; \ tmp = SPH_T32(v ## l << n) | (v ## h >> (32 - n)); \ d ## h = SPH_T32(v ## h << n) | (v ## l >> (32 - n)); \ d ## l = tmp; \ } while (0) #define ROL64_0(d, v) 0 #define ROL64_1(d, v) ROL64_small(d, v, 1) #define ROL64_2(d, v) ROL64_small(d, v, 2) #define ROL64_3(d, v) ROL64_small(d, v, 3) #define ROL64_4(d, v) ROL64_small(d, v, 4) #define ROL64_5(d, v) ROL64_small(d, v, 5) #define ROL64_6(d, v) ROL64_small(d, v, 6) #define ROL64_7(d, v) ROL64_small(d, v, 7) #define ROL64_8(d, v) ROL64_small(d, v, 8) #define ROL64_9(d, v) ROL64_small(d, v, 9) #define ROL64_10(d, v) ROL64_small(d, v, 10) #define ROL64_11(d, v) ROL64_small(d, v, 11) #define ROL64_12(d, v) ROL64_small(d, v, 12) #define ROL64_13(d, v) ROL64_small(d, v, 13) #define ROL64_14(d, v) ROL64_small(d, v, 14) #define ROL64_15(d, v) ROL64_small(d, v, 15) #define ROL64_16(d, v) ROL64_small(d, v, 16) #define ROL64_17(d, v) ROL64_small(d, v, 17) #define ROL64_18(d, v) ROL64_small(d, v, 18) #define ROL64_19(d, v) ROL64_small(d, v, 19) #define ROL64_20(d, v) ROL64_small(d, v, 20) #define ROL64_21(d, v) ROL64_small(d, v, 21) #define ROL64_22(d, v) ROL64_small(d, v, 22) #define ROL64_23(d, v) ROL64_small(d, v, 23) #define ROL64_24(d, v) ROL64_small(d, v, 24) #define ROL64_25(d, v) ROL64_small(d, v, 25) #define ROL64_26(d, v) ROL64_small(d, v, 26) #define ROL64_27(d, v) ROL64_small(d, v, 27) #define ROL64_28(d, v) ROL64_small(d, v, 28) #define ROL64_29(d, v) ROL64_small(d, v, 29) #define ROL64_30(d, v) ROL64_small(d, v, 30) #define ROL64_31(d, v) ROL64_small(d, v, 31) #define ROL64_32(d, v) do { \ sph_u32 tmp; \ tmp = v ## l; \ d ## l = v ## h; \ d ## h = tmp; \ } while (0) #define ROL64_big(d, v, n) do { \ sph_u32 trl, trh; \ ROL64_small(tr, v, n); \ d ## h = trl; \ d ## l = trh; \ } while (0) #define ROL64_33(d, v) ROL64_big(d, v, 1) #define ROL64_34(d, v) ROL64_big(d, v, 2) #define ROL64_35(d, v) ROL64_big(d, v, 3) #define ROL64_36(d, v) ROL64_big(d, v, 4) #define ROL64_37(d, v) ROL64_big(d, v, 5) #define ROL64_38(d, v) ROL64_big(d, v, 6) #define ROL64_39(d, v) ROL64_big(d, v, 7) #define ROL64_40(d, v) ROL64_big(d, v, 8) #define ROL64_41(d, v) ROL64_big(d, v, 9) #define ROL64_42(d, v) ROL64_big(d, v, 10) #define ROL64_43(d, v) ROL64_big(d, v, 11) #define ROL64_44(d, v) ROL64_big(d, v, 12) #define ROL64_45(d, v) ROL64_big(d, v, 13) #define ROL64_46(d, v) ROL64_big(d, v, 14) #define ROL64_47(d, v) ROL64_big(d, v, 15) #define ROL64_48(d, v) ROL64_big(d, v, 16) #define ROL64_49(d, v) ROL64_big(d, v, 17) #define ROL64_50(d, v) ROL64_big(d, v, 18) #define ROL64_51(d, v) ROL64_big(d, v, 19) #define ROL64_52(d, v) ROL64_big(d, v, 20) #define ROL64_53(d, v) ROL64_big(d, v, 21) #define ROL64_54(d, v) ROL64_big(d, v, 22) #define ROL64_55(d, v) ROL64_big(d, v, 23) #define ROL64_56(d, v) ROL64_big(d, v, 24) #define ROL64_57(d, v) ROL64_big(d, v, 25) #define ROL64_58(d, v) ROL64_big(d, v, 26) #define ROL64_59(d, v) ROL64_big(d, v, 27) #define ROL64_60(d, v) ROL64_big(d, v, 28) #define ROL64_61(d, v) ROL64_big(d, v, 29) #define ROL64_62(d, v) ROL64_big(d, v, 30) #define ROL64_63(d, v) ROL64_big(d, v, 31) #endif #define XOR64_IOTA(d, s, k) \ (d ## l = s ## l ^ k.low, d ## h = s ## h ^ k.high) #endif #define TH_ELT(t, c0, c1, c2, c3, c4, d0, d1, d2, d3, d4) do { \ DECL64(tt0); \ DECL64(tt1); \ DECL64(tt2); \ DECL64(tt3); \ XOR64(tt0, d0, d1); \ XOR64(tt1, d2, d3); \ XOR64(tt0, tt0, d4); \ XOR64(tt0, tt0, tt1); \ ROL64(tt0, tt0, 1); \ XOR64(tt2, c0, c1); \ XOR64(tt3, c2, c3); \ XOR64(tt0, tt0, c4); \ XOR64(tt2, tt2, tt3); \ XOR64(t, tt0, tt2); \ } while (0) #define THETA(b00, b01, b02, b03, b04, b10, b11, b12, b13, b14, \ b20, b21, b22, b23, b24, b30, b31, b32, b33, b34, \ b40, b41, b42, b43, b44) \ do { \ DECL64(t0); \ DECL64(t1); \ DECL64(t2); \ DECL64(t3); \ DECL64(t4); \ TH_ELT(t0, b40, b41, b42, b43, b44, b10, b11, b12, b13, b14); \ TH_ELT(t1, b00, b01, b02, b03, b04, b20, b21, b22, b23, b24); \ TH_ELT(t2, b10, b11, b12, b13, b14, b30, b31, b32, b33, b34); \ TH_ELT(t3, b20, b21, b22, b23, b24, b40, b41, b42, b43, b44); \ TH_ELT(t4, b30, b31, b32, b33, b34, b00, b01, b02, b03, b04); \ XOR64(b00, b00, t0); \ XOR64(b01, b01, t0); \ XOR64(b02, b02, t0); \ XOR64(b03, b03, t0); \ XOR64(b04, b04, t0); \ XOR64(b10, b10, t1); \ XOR64(b11, b11, t1); \ XOR64(b12, b12, t1); \ XOR64(b13, b13, t1); \ XOR64(b14, b14, t1); \ XOR64(b20, b20, t2); \ XOR64(b21, b21, t2); \ XOR64(b22, b22, t2); \ XOR64(b23, b23, t2); \ XOR64(b24, b24, t2); \ XOR64(b30, b30, t3); \ XOR64(b31, b31, t3); \ XOR64(b32, b32, t3); \ XOR64(b33, b33, t3); \ XOR64(b34, b34, t3); \ XOR64(b40, b40, t4); \ XOR64(b41, b41, t4); \ XOR64(b42, b42, t4); \ XOR64(b43, b43, t4); \ XOR64(b44, b44, t4); \ } while (0) #define RHO(b00, b01, b02, b03, b04, b10, b11, b12, b13, b14, \ b20, b21, b22, b23, b24, b30, b31, b32, b33, b34, \ b40, b41, b42, b43, b44) \ do { \ /* ROL64(b00, b00, 0); */ \ ROL64(b01, b01, 36); \ ROL64(b02, b02, 3); \ ROL64(b03, b03, 41); \ ROL64(b04, b04, 18); \ ROL64(b10, b10, 1); \ ROL64(b11, b11, 44); \ ROL64(b12, b12, 10); \ ROL64(b13, b13, 45); \ ROL64(b14, b14, 2); \ ROL64(b20, b20, 62); \ ROL64(b21, b21, 6); \ ROL64(b22, b22, 43); \ ROL64(b23, b23, 15); \ ROL64(b24, b24, 61); \ ROL64(b30, b30, 28); \ ROL64(b31, b31, 55); \ ROL64(b32, b32, 25); \ ROL64(b33, b33, 21); \ ROL64(b34, b34, 56); \ ROL64(b40, b40, 27); \ ROL64(b41, b41, 20); \ ROL64(b42, b42, 39); \ ROL64(b43, b43, 8); \ ROL64(b44, b44, 14); \ } while (0) /* * The KHI macro integrates the "lane complement" optimization. On input, * some words are complemented: * a00 a01 a02 a04 a13 a20 a21 a22 a30 a33 a34 a43 * On output, the following words are complemented: * a04 a10 a20 a22 a23 a31 * * The (implicit) permutation and the theta expansion will bring back * the input mask for the next round. */ #define KHI_XO(d, a, b, c) do { \ DECL64(kt); \ OR64(kt, b, c); \ XOR64(d, a, kt); \ } while (0) #define KHI_XA(d, a, b, c) do { \ DECL64(kt); \ AND64(kt, b, c); \ XOR64(d, a, kt); \ } while (0) #define KHI(b00, b01, b02, b03, b04, b10, b11, b12, b13, b14, \ b20, b21, b22, b23, b24, b30, b31, b32, b33, b34, \ b40, b41, b42, b43, b44) \ do { \ DECL64(c0); \ DECL64(c1); \ DECL64(c2); \ DECL64(c3); \ DECL64(c4); \ DECL64(bnn); \ NOT64(bnn, b20); \ KHI_XO(c0, b00, b10, b20); \ KHI_XO(c1, b10, bnn, b30); \ KHI_XA(c2, b20, b30, b40); \ KHI_XO(c3, b30, b40, b00); \ KHI_XA(c4, b40, b00, b10); \ MOV64(b00, c0); \ MOV64(b10, c1); \ MOV64(b20, c2); \ MOV64(b30, c3); \ MOV64(b40, c4); \ NOT64(bnn, b41); \ KHI_XO(c0, b01, b11, b21); \ KHI_XA(c1, b11, b21, b31); \ KHI_XO(c2, b21, b31, bnn); \ KHI_XO(c3, b31, b41, b01); \ KHI_XA(c4, b41, b01, b11); \ MOV64(b01, c0); \ MOV64(b11, c1); \ MOV64(b21, c2); \ MOV64(b31, c3); \ MOV64(b41, c4); \ NOT64(bnn, b32); \ KHI_XO(c0, b02, b12, b22); \ KHI_XA(c1, b12, b22, b32); \ KHI_XA(c2, b22, bnn, b42); \ KHI_XO(c3, bnn, b42, b02); \ KHI_XA(c4, b42, b02, b12); \ MOV64(b02, c0); \ MOV64(b12, c1); \ MOV64(b22, c2); \ MOV64(b32, c3); \ MOV64(b42, c4); \ NOT64(bnn, b33); \ KHI_XA(c0, b03, b13, b23); \ KHI_XO(c1, b13, b23, b33); \ KHI_XO(c2, b23, bnn, b43); \ KHI_XA(c3, bnn, b43, b03); \ KHI_XO(c4, b43, b03, b13); \ MOV64(b03, c0); \ MOV64(b13, c1); \ MOV64(b23, c2); \ MOV64(b33, c3); \ MOV64(b43, c4); \ NOT64(bnn, b14); \ KHI_XA(c0, b04, bnn, b24); \ KHI_XO(c1, bnn, b24, b34); \ KHI_XA(c2, b24, b34, b44); \ KHI_XO(c3, b34, b44, b04); \ KHI_XA(c4, b44, b04, b14); \ MOV64(b04, c0); \ MOV64(b14, c1); \ MOV64(b24, c2); \ MOV64(b34, c3); \ MOV64(b44, c4); \ } while (0) #define IOTA(r) XOR64_IOTA(a00, a00, r) #define P0 a00, a01, a02, a03, a04, a10, a11, a12, a13, a14, a20, a21, \ a22, a23, a24, a30, a31, a32, a33, a34, a40, a41, a42, a43, a44 #define P1 a00, a30, a10, a40, a20, a11, a41, a21, a01, a31, a22, a02, \ a32, a12, a42, a33, a13, a43, a23, a03, a44, a24, a04, a34, a14 #define P2 a00, a33, a11, a44, a22, a41, a24, a02, a30, a13, a32, a10, \ a43, a21, a04, a23, a01, a34, a12, a40, a14, a42, a20, a03, a31 #define P3 a00, a23, a41, a14, a32, a24, a42, a10, a33, a01, a43, a11, \ a34, a02, a20, a12, a30, a03, a21, a44, a31, a04, a22, a40, a13 #define P4 a00, a12, a24, a31, a43, a42, a04, a11, a23, a30, a34, a41, \ a03, a10, a22, a21, a33, a40, a02, a14, a13, a20, a32, a44, a01 #define P5 a00, a21, a42, a13, a34, a04, a20, a41, a12, a33, a03, a24, \ a40, a11, a32, a02, a23, a44, a10, a31, a01, a22, a43, a14, a30 #define P6 a00, a02, a04, a01, a03, a20, a22, a24, a21, a23, a40, a42, \ a44, a41, a43, a10, a12, a14, a11, a13, a30, a32, a34, a31, a33 #define P7 a00, a10, a20, a30, a40, a22, a32, a42, a02, a12, a44, a04, \ a14, a24, a34, a11, a21, a31, a41, a01, a33, a43, a03, a13, a23 #define P8 a00, a11, a22, a33, a44, a32, a43, a04, a10, a21, a14, a20, \ a31, a42, a03, a41, a02, a13, a24, a30, a23, a34, a40, a01, a12 #define P9 a00, a41, a32, a23, a14, a43, a34, a20, a11, a02, a31, a22, \ a13, a04, a40, a24, a10, a01, a42, a33, a12, a03, a44, a30, a21 #define P10 a00, a24, a43, a12, a31, a34, a03, a22, a41, a10, a13, a32, \ a01, a20, a44, a42, a11, a30, a04, a23, a21, a40, a14, a33, a02 #define P11 a00, a42, a34, a21, a13, a03, a40, a32, a24, a11, a01, a43, \ a30, a22, a14, a04, a41, a33, a20, a12, a02, a44, a31, a23, a10 #define P12 a00, a04, a03, a02, a01, a40, a44, a43, a42, a41, a30, a34, \ a33, a32, a31, a20, a24, a23, a22, a21, a10, a14, a13, a12, a11 #define P13 a00, a20, a40, a10, a30, a44, a14, a34, a04, a24, a33, a03, \ a23, a43, a13, a22, a42, a12, a32, a02, a11, a31, a01, a21, a41 #define P14 a00, a22, a44, a11, a33, a14, a31, a03, a20, a42, a23, a40, \ a12, a34, a01, a32, a04, a21, a43, a10, a41, a13, a30, a02, a24 #define P15 a00, a32, a14, a41, a23, a31, a13, a40, a22, a04, a12, a44, \ a21, a03, a30, a43, a20, a02, a34, a11, a24, a01, a33, a10, a42 #define P16 a00, a43, a31, a24, a12, a13, a01, a44, a32, a20, a21, a14, \ a02, a40, a33, a34, a22, a10, a03, a41, a42, a30, a23, a11, a04 #define P17 a00, a34, a13, a42, a21, a01, a30, a14, a43, a22, a02, a31, \ a10, a44, a23, a03, a32, a11, a40, a24, a04, a33, a12, a41, a20 #define P18 a00, a03, a01, a04, a02, a30, a33, a31, a34, a32, a10, a13, \ a11, a14, a12, a40, a43, a41, a44, a42, a20, a23, a21, a24, a22 #define P19 a00, a40, a30, a20, a10, a33, a23, a13, a03, a43, a11, a01, \ a41, a31, a21, a44, a34, a24, a14, a04, a22, a12, a02, a42, a32 #define P20 a00, a44, a33, a22, a11, a23, a12, a01, a40, a34, a41, a30, \ a24, a13, a02, a14, a03, a42, a31, a20, a32, a21, a10, a04, a43 #define P21 a00, a14, a23, a32, a41, a12, a21, a30, a44, a03, a24, a33, \ a42, a01, a10, a31, a40, a04, a13, a22, a43, a02, a11, a20, a34 #define P22 a00, a31, a12, a43, a24, a21, a02, a33, a14, a40, a42, a23, \ a04, a30, a11, a13, a44, a20, a01, a32, a34, a10, a41, a22, a03 #define P23 a00, a13, a21, a34, a42, a02, a10, a23, a31, a44, a04, a12, \ a20, a33, a41, a01, a14, a22, a30, a43, a03, a11, a24, a32, a40 #define P1_TO_P0 do { \ DECL64(t); \ MOV64(t, a01); \ MOV64(a01, a30); \ MOV64(a30, a33); \ MOV64(a33, a23); \ MOV64(a23, a12); \ MOV64(a12, a21); \ MOV64(a21, a02); \ MOV64(a02, a10); \ MOV64(a10, a11); \ MOV64(a11, a41); \ MOV64(a41, a24); \ MOV64(a24, a42); \ MOV64(a42, a04); \ MOV64(a04, a20); \ MOV64(a20, a22); \ MOV64(a22, a32); \ MOV64(a32, a43); \ MOV64(a43, a34); \ MOV64(a34, a03); \ MOV64(a03, a40); \ MOV64(a40, a44); \ MOV64(a44, a14); \ MOV64(a14, a31); \ MOV64(a31, a13); \ MOV64(a13, t); \ } while (0) #define P2_TO_P0 do { \ DECL64(t); \ MOV64(t, a01); \ MOV64(a01, a33); \ MOV64(a33, a12); \ MOV64(a12, a02); \ MOV64(a02, a11); \ MOV64(a11, a24); \ MOV64(a24, a04); \ MOV64(a04, a22); \ MOV64(a22, a43); \ MOV64(a43, a03); \ MOV64(a03, a44); \ MOV64(a44, a31); \ MOV64(a31, t); \ MOV64(t, a10); \ MOV64(a10, a41); \ MOV64(a41, a42); \ MOV64(a42, a20); \ MOV64(a20, a32); \ MOV64(a32, a34); \ MOV64(a34, a40); \ MOV64(a40, a14); \ MOV64(a14, a13); \ MOV64(a13, a30); \ MOV64(a30, a23); \ MOV64(a23, a21); \ MOV64(a21, t); \ } while (0) #define P4_TO_P0 do { \ DECL64(t); \ MOV64(t, a01); \ MOV64(a01, a12); \ MOV64(a12, a11); \ MOV64(a11, a04); \ MOV64(a04, a43); \ MOV64(a43, a44); \ MOV64(a44, t); \ MOV64(t, a02); \ MOV64(a02, a24); \ MOV64(a24, a22); \ MOV64(a22, a03); \ MOV64(a03, a31); \ MOV64(a31, a33); \ MOV64(a33, t); \ MOV64(t, a10); \ MOV64(a10, a42); \ MOV64(a42, a32); \ MOV64(a32, a40); \ MOV64(a40, a13); \ MOV64(a13, a23); \ MOV64(a23, t); \ MOV64(t, a14); \ MOV64(a14, a30); \ MOV64(a30, a21); \ MOV64(a21, a41); \ MOV64(a41, a20); \ MOV64(a20, a34); \ MOV64(a34, t); \ } while (0) #define P6_TO_P0 do { \ DECL64(t); \ MOV64(t, a01); \ MOV64(a01, a02); \ MOV64(a02, a04); \ MOV64(a04, a03); \ MOV64(a03, t); \ MOV64(t, a10); \ MOV64(a10, a20); \ MOV64(a20, a40); \ MOV64(a40, a30); \ MOV64(a30, t); \ MOV64(t, a11); \ MOV64(a11, a22); \ MOV64(a22, a44); \ MOV64(a44, a33); \ MOV64(a33, t); \ MOV64(t, a12); \ MOV64(a12, a24); \ MOV64(a24, a43); \ MOV64(a43, a31); \ MOV64(a31, t); \ MOV64(t, a13); \ MOV64(a13, a21); \ MOV64(a21, a42); \ MOV64(a42, a34); \ MOV64(a34, t); \ MOV64(t, a14); \ MOV64(a14, a23); \ MOV64(a23, a41); \ MOV64(a41, a32); \ MOV64(a32, t); \ } while (0) #define P8_TO_P0 do { \ DECL64(t); \ MOV64(t, a01); \ MOV64(a01, a11); \ MOV64(a11, a43); \ MOV64(a43, t); \ MOV64(t, a02); \ MOV64(a02, a22); \ MOV64(a22, a31); \ MOV64(a31, t); \ MOV64(t, a03); \ MOV64(a03, a33); \ MOV64(a33, a24); \ MOV64(a24, t); \ MOV64(t, a04); \ MOV64(a04, a44); \ MOV64(a44, a12); \ MOV64(a12, t); \ MOV64(t, a10); \ MOV64(a10, a32); \ MOV64(a32, a13); \ MOV64(a13, t); \ MOV64(t, a14); \ MOV64(a14, a21); \ MOV64(a21, a20); \ MOV64(a20, t); \ MOV64(t, a23); \ MOV64(a23, a42); \ MOV64(a42, a40); \ MOV64(a40, t); \ MOV64(t, a30); \ MOV64(a30, a41); \ MOV64(a41, a34); \ MOV64(a34, t); \ } while (0) #define P12_TO_P0 do { \ DECL64(t); \ MOV64(t, a01); \ MOV64(a01, a04); \ MOV64(a04, t); \ MOV64(t, a02); \ MOV64(a02, a03); \ MOV64(a03, t); \ MOV64(t, a10); \ MOV64(a10, a40); \ MOV64(a40, t); \ MOV64(t, a11); \ MOV64(a11, a44); \ MOV64(a44, t); \ MOV64(t, a12); \ MOV64(a12, a43); \ MOV64(a43, t); \ MOV64(t, a13); \ MOV64(a13, a42); \ MOV64(a42, t); \ MOV64(t, a14); \ MOV64(a14, a41); \ MOV64(a41, t); \ MOV64(t, a20); \ MOV64(a20, a30); \ MOV64(a30, t); \ MOV64(t, a21); \ MOV64(a21, a34); \ MOV64(a34, t); \ MOV64(t, a22); \ MOV64(a22, a33); \ MOV64(a33, t); \ MOV64(t, a23); \ MOV64(a23, a32); \ MOV64(a32, t); \ MOV64(t, a24); \ MOV64(a24, a31); \ MOV64(a31, t); \ } while (0) #define LPAR ( #define RPAR ) #define KF_ELT(r, s, k) do { \ THETA LPAR P ## r RPAR; \ RHO LPAR P ## r RPAR; \ KHI LPAR P ## s RPAR; \ IOTA(k); \ } while (0) #define DO(x) x #define KECCAK_F_1600 DO(KECCAK_F_1600_) #if SPH_KECCAK_UNROLL == 1 #define KECCAK_F_1600_ do { \ int j; \ for (j = 0; j < 24; j ++) { \ KF_ELT( 0, 1, RC[j + 0]); \ P1_TO_P0; \ } \ } while (0) #elif SPH_KECCAK_UNROLL == 2 #define KECCAK_F_1600_ do { \ int j; \ for (j = 0; j < 24; j += 2) { \ KF_ELT( 0, 1, RC[j + 0]); \ KF_ELT( 1, 2, RC[j + 1]); \ P2_TO_P0; \ } \ } while (0) #elif SPH_KECCAK_UNROLL == 4 #define KECCAK_F_1600_ do { \ int j; \ for (j = 0; j < 24; j += 4) { \ KF_ELT( 0, 1, RC[j + 0]); \ KF_ELT( 1, 2, RC[j + 1]); \ KF_ELT( 2, 3, RC[j + 2]); \ KF_ELT( 3, 4, RC[j + 3]); \ P4_TO_P0; \ } \ } while (0) #elif SPH_KECCAK_UNROLL == 6 #define KECCAK_F_1600_ do { \ int j; \ for (j = 0; j < 24; j += 6) { \ KF_ELT( 0, 1, RC[j + 0]); \ KF_ELT( 1, 2, RC[j + 1]); \ KF_ELT( 2, 3, RC[j + 2]); \ KF_ELT( 3, 4, RC[j + 3]); \ KF_ELT( 4, 5, RC[j + 4]); \ KF_ELT( 5, 6, RC[j + 5]); \ P6_TO_P0; \ } \ } while (0) #elif SPH_KECCAK_UNROLL == 8 #define KECCAK_F_1600_ do { \ int j; \ for (j = 0; j < 24; j += 8) { \ KF_ELT( 0, 1, RC[j + 0]); \ KF_ELT( 1, 2, RC[j + 1]); \ KF_ELT( 2, 3, RC[j + 2]); \ KF_ELT( 3, 4, RC[j + 3]); \ KF_ELT( 4, 5, RC[j + 4]); \ KF_ELT( 5, 6, RC[j + 5]); \ KF_ELT( 6, 7, RC[j + 6]); \ KF_ELT( 7, 8, RC[j + 7]); \ P8_TO_P0; \ } \ } while (0) #elif SPH_KECCAK_UNROLL == 12 #define KECCAK_F_1600_ do { \ int j; \ for (j = 0; j < 24; j += 12) { \ KF_ELT( 0, 1, RC[j + 0]); \ KF_ELT( 1, 2, RC[j + 1]); \ KF_ELT( 2, 3, RC[j + 2]); \ KF_ELT( 3, 4, RC[j + 3]); \ KF_ELT( 4, 5, RC[j + 4]); \ KF_ELT( 5, 6, RC[j + 5]); \ KF_ELT( 6, 7, RC[j + 6]); \ KF_ELT( 7, 8, RC[j + 7]); \ KF_ELT( 8, 9, RC[j + 8]); \ KF_ELT( 9, 10, RC[j + 9]); \ KF_ELT(10, 11, RC[j + 10]); \ KF_ELT(11, 12, RC[j + 11]); \ P12_TO_P0; \ } \ } while (0) #elif SPH_KECCAK_UNROLL == 0 #define KECCAK_F_1600_ do { \ KF_ELT( 0, 1, RC[ 0]); \ KF_ELT( 1, 2, RC[ 1]); \ KF_ELT( 2, 3, RC[ 2]); \ KF_ELT( 3, 4, RC[ 3]); \ KF_ELT( 4, 5, RC[ 4]); \ KF_ELT( 5, 6, RC[ 5]); \ KF_ELT( 6, 7, RC[ 6]); \ KF_ELT( 7, 8, RC[ 7]); \ KF_ELT( 8, 9, RC[ 8]); \ KF_ELT( 9, 10, RC[ 9]); \ KF_ELT(10, 11, RC[10]); \ KF_ELT(11, 12, RC[11]); \ KF_ELT(12, 13, RC[12]); \ KF_ELT(13, 14, RC[13]); \ KF_ELT(14, 15, RC[14]); \ KF_ELT(15, 16, RC[15]); \ KF_ELT(16, 17, RC[16]); \ KF_ELT(17, 18, RC[17]); \ KF_ELT(18, 19, RC[18]); \ KF_ELT(19, 20, RC[19]); \ KF_ELT(20, 21, RC[20]); \ KF_ELT(21, 22, RC[21]); \ KF_ELT(22, 23, RC[22]); \ KF_ELT(23, 0, RC[23]); \ } while (0) #else #error Unimplemented unroll count for Keccak. #endif static void keccak_init(sph_keccak_context *kc, unsigned out_size) { int i; #if SPH_KECCAK_64 for (i = 0; i < 25; i ++) kc->u.wide[i] = 0; /* * Initialization for the "lane complement". */ kc->u.wide[ 1] = SPH_C64(0xFFFFFFFFFFFFFFFF); kc->u.wide[ 2] = SPH_C64(0xFFFFFFFFFFFFFFFF); kc->u.wide[ 8] = SPH_C64(0xFFFFFFFFFFFFFFFF); kc->u.wide[12] = SPH_C64(0xFFFFFFFFFFFFFFFF); kc->u.wide[17] = SPH_C64(0xFFFFFFFFFFFFFFFF); kc->u.wide[20] = SPH_C64(0xFFFFFFFFFFFFFFFF); #else for (i = 0; i < 50; i ++) kc->u.narrow[i] = 0; /* * Initialization for the "lane complement". * Note: since we set to all-one full 64-bit words, * interleaving (if applicable) is a no-op. */ kc->u.narrow[ 2] = SPH_C32(0xFFFFFFFF); kc->u.narrow[ 3] = SPH_C32(0xFFFFFFFF); kc->u.narrow[ 4] = SPH_C32(0xFFFFFFFF); kc->u.narrow[ 5] = SPH_C32(0xFFFFFFFF); kc->u.narrow[16] = SPH_C32(0xFFFFFFFF); kc->u.narrow[17] = SPH_C32(0xFFFFFFFF); kc->u.narrow[24] = SPH_C32(0xFFFFFFFF); kc->u.narrow[25] = SPH_C32(0xFFFFFFFF); kc->u.narrow[34] = SPH_C32(0xFFFFFFFF); kc->u.narrow[35] = SPH_C32(0xFFFFFFFF); kc->u.narrow[40] = SPH_C32(0xFFFFFFFF); kc->u.narrow[41] = SPH_C32(0xFFFFFFFF); #endif kc->ptr = 0; kc->lim = 200 - (out_size >> 2); } static void keccak_core(sph_keccak_context *kc, const void *data, size_t len, size_t lim) { unsigned char *buf; size_t ptr; DECL_STATE buf = kc->buf; ptr = kc->ptr; if (len < (lim - ptr)) { memcpy(buf + ptr, data, len); kc->ptr = ptr + len; return; } READ_STATE(kc); while (len > 0) { size_t clen; clen = (lim - ptr); if (clen > len) clen = len; memcpy(buf + ptr, data, clen); ptr += clen; data = (const unsigned char *)data + clen; len -= clen; if (ptr == lim) { INPUT_BUF(lim); KECCAK_F_1600; ptr = 0; } } WRITE_STATE(kc); kc->ptr = ptr; } #if SPH_KECCAK_64 #define DEFCLOSE(d, lim) \ static void keccak_close ## d( \ sph_keccak_context *kc, unsigned ub, unsigned n, void *dst) \ { \ unsigned eb; \ union { \ unsigned char tmp[lim + 1]; \ sph_u64 dummy; /* for alignment */ \ } u; \ size_t j; \ \ eb = (0x100 | (ub & 0xFF)) >> (8 - n); \ if (kc->ptr == (lim - 1)) { \ if (n == 7) { \ u.tmp[0] = eb; \ memset(u.tmp + 1, 0, lim - 1); \ u.tmp[lim] = 0x80; \ j = 1 + lim; \ } else { \ u.tmp[0] = eb | 0x80; \ j = 1; \ } \ } else { \ j = lim - kc->ptr; \ u.tmp[0] = eb; \ memset(u.tmp + 1, 0, j - 2); \ u.tmp[j - 1] = 0x80; \ } \ keccak_core(kc, u.tmp, j, lim); \ /* Finalize the "lane complement" */ \ kc->u.wide[ 1] = ~kc->u.wide[ 1]; \ kc->u.wide[ 2] = ~kc->u.wide[ 2]; \ kc->u.wide[ 8] = ~kc->u.wide[ 8]; \ kc->u.wide[12] = ~kc->u.wide[12]; \ kc->u.wide[17] = ~kc->u.wide[17]; \ kc->u.wide[20] = ~kc->u.wide[20]; \ for (j = 0; j < d; j += 8) \ sph_enc64le_aligned(u.tmp + j, kc->u.wide[j >> 3]); \ memcpy(dst, u.tmp, d); \ keccak_init(kc, (unsigned)d << 3); \ } \ #else #define DEFCLOSE(d, lim) \ static void keccak_close ## d( \ sph_keccak_context *kc, unsigned ub, unsigned n, void *dst) \ { \ unsigned eb; \ union { \ unsigned char tmp[lim + 1]; \ sph_u64 dummy; /* for alignment */ \ } u; \ size_t j; \ \ eb = (0x100 | (ub & 0xFF)) >> (8 - n); \ if (kc->ptr == (lim - 1)) { \ if (n == 7) { \ u.tmp[0] = eb; \ memset(u.tmp + 1, 0, lim - 1); \ u.tmp[lim] = 0x80; \ j = 1 + lim; \ } else { \ u.tmp[0] = eb | 0x80; \ j = 1; \ } \ } else { \ j = lim - kc->ptr; \ u.tmp[0] = eb; \ memset(u.tmp + 1, 0, j - 2); \ u.tmp[j - 1] = 0x80; \ } \ keccak_core(kc, u.tmp, j, lim); \ /* Finalize the "lane complement" */ \ kc->u.narrow[ 2] = ~kc->u.narrow[ 2]; \ kc->u.narrow[ 3] = ~kc->u.narrow[ 3]; \ kc->u.narrow[ 4] = ~kc->u.narrow[ 4]; \ kc->u.narrow[ 5] = ~kc->u.narrow[ 5]; \ kc->u.narrow[16] = ~kc->u.narrow[16]; \ kc->u.narrow[17] = ~kc->u.narrow[17]; \ kc->u.narrow[24] = ~kc->u.narrow[24]; \ kc->u.narrow[25] = ~kc->u.narrow[25]; \ kc->u.narrow[34] = ~kc->u.narrow[34]; \ kc->u.narrow[35] = ~kc->u.narrow[35]; \ kc->u.narrow[40] = ~kc->u.narrow[40]; \ kc->u.narrow[41] = ~kc->u.narrow[41]; \ /* un-interleave */ \ for (j = 0; j < 50; j += 2) \ UNINTERLEAVE(kc->u.narrow[j], kc->u.narrow[j + 1]); \ for (j = 0; j < d; j += 4) \ sph_enc32le_aligned(u.tmp + j, kc->u.narrow[j >> 2]); \ memcpy(dst, u.tmp, d); \ keccak_init(kc, (unsigned)d << 3); \ } \ #endif DEFCLOSE(28, 144) DEFCLOSE(32, 136) DEFCLOSE(48, 104) DEFCLOSE(64, 72) /* see sph_keccak.h */ void sph_keccak224_init(void *cc) { keccak_init(cc, 224); } /* see sph_keccak.h */ void sph_keccak224(void *cc, const void *data, size_t len) { keccak_core(cc, data, len, 144); } /* see sph_keccak.h */ void sph_keccak224_close(void *cc, void *dst) { sph_keccak224_addbits_and_close(cc, 0, 0, dst); } /* see sph_keccak.h */ void sph_keccak224_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst) { keccak_close28(cc, ub, n, dst); } /* see sph_keccak.h */ void sph_keccak256_init(void *cc) { keccak_init(cc, 256); } /* see sph_keccak.h */ void sph_keccak256(void *cc, const void *data, size_t len) { keccak_core(cc, data, len, 136); } /* see sph_keccak.h */ void sph_keccak256_close(void *cc, void *dst) { sph_keccak256_addbits_and_close(cc, 0, 0, dst); } /* see sph_keccak.h */ void sph_keccak256_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst) { keccak_close32(cc, ub, n, dst); } /* see sph_keccak.h */ void sph_keccak384_init(void *cc) { keccak_init(cc, 384); } /* see sph_keccak.h */ void sph_keccak384(void *cc, const void *data, size_t len) { keccak_core(cc, data, len, 104); } /* see sph_keccak.h */ void sph_keccak384_close(void *cc, void *dst) { sph_keccak384_addbits_and_close(cc, 0, 0, dst); } /* see sph_keccak.h */ void sph_keccak384_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst) { keccak_close48(cc, ub, n, dst); } /* see sph_keccak.h */ void sph_keccak512_init(void *cc) { keccak_init(cc, 512); } /* see sph_keccak.h */ void sph_keccak512(void *cc, const void *data, size_t len) { keccak_core(cc, data, len, 72); } /* see sph_keccak.h */ void sph_keccak512_close(void *cc, void *dst) { sph_keccak512_addbits_and_close(cc, 0, 0, dst); } /* see sph_keccak.h */ void sph_keccak512_addbits_and_close(void *cc, unsigned ub, unsigned n, void *dst) { keccak_close64(cc, ub, n, dst); } #ifdef __cplusplus } #endif