/* $Id: jh.c 255 2011-06-07 19:50:20Z tp $ */ /* * JH 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 */ #ifdef __AVX2__ #include #include #include "jh-hash-4way.h" #ifdef __cplusplus extern "C"{ #endif #if SPH_SMALL_FOOTPRINT && !defined SPH_SMALL_FOOTPRINT_JH #define SPH_SMALL_FOOTPRINT_JH 1 #endif #if !defined SPH_JH_64 && SPH_64_TRUE #define SPH_JH_64 1 #endif #if !SPH_64 #undef SPH_JH_64 #endif #ifdef _MSC_VER #pragma warning (disable: 4146) #endif /* * The internal bitslice representation may use either big-endian or * little-endian (true bitslice operations do not care about the bit * ordering, and the bit-swapping linear operations in JH happen to * be invariant through endianness-swapping). The constants must be * defined according to the chosen endianness; we use some * byte-swapping macros for that. */ #if SPH_LITTLE_ENDIAN #if SPH_64 #define C64e(x) ((SPH_C64(x) >> 56) \ | ((SPH_C64(x) >> 40) & SPH_C64(0x000000000000FF00)) \ | ((SPH_C64(x) >> 24) & SPH_C64(0x0000000000FF0000)) \ | ((SPH_C64(x) >> 8) & SPH_C64(0x00000000FF000000)) \ | ((SPH_C64(x) << 8) & SPH_C64(0x000000FF00000000)) \ | ((SPH_C64(x) << 24) & SPH_C64(0x0000FF0000000000)) \ | ((SPH_C64(x) << 40) & SPH_C64(0x00FF000000000000)) \ | ((SPH_C64(x) << 56) & SPH_C64(0xFF00000000000000))) #define dec64e_aligned sph_dec64le_aligned #define enc64e sph_enc64le #endif #else #if SPH_64 #define C64e(x) SPH_C64(x) #define dec64e_aligned sph_dec64be_aligned #define enc64e sph_enc64be #endif #endif #if defined(__AVX512F__) && defined(__AVX512VL__) && defined(__AVX512DQ__) && defined(__AVX512BW__) #define Sb_8W(x0, x1, x2, x3, c) \ do { \ __m512i cc = _mm512_set1_epi64( c ); \ x3 = mm512_not( x3 ); \ x0 = _mm512_xor_si512( x0, _mm512_andnot_si512( x2, cc ) ); \ tmp = _mm512_xor_si512( cc, _mm512_and_si512( x0, x1 ) ); \ x0 = _mm512_xor_si512( x0, _mm512_and_si512( x2, x3 ) ); \ x3 = _mm512_xor_si512( x3, _mm512_andnot_si512( x1, x2 ) ); \ x1 = _mm512_xor_si512( x1, _mm512_and_si512( x0, x2 ) ); \ x2 = _mm512_xor_si512( x2, _mm512_andnot_si512( x3, x0 ) ); \ x0 = _mm512_xor_si512( x0, _mm512_or_si512( x1, x3 ) ); \ x3 = _mm512_xor_si512( x3, _mm512_and_si512( x1, x2 ) ); \ x1 = _mm512_xor_si512( x1, _mm512_and_si512( tmp, x0 ) ); \ x2 = _mm512_xor_si512( x2, tmp ); \ } while (0) #define Lb_8W(x0, x1, x2, x3, x4, x5, x6, x7) \ do { \ x4 = _mm512_xor_si512( x4, x1 ); \ x5 = _mm512_xor_si512( x5, x2 ); \ x6 = _mm512_xor_si512( x6, _mm512_xor_si512( x3, x0 ) ); \ x7 = _mm512_xor_si512( x7, x0 ); \ x0 = _mm512_xor_si512( x0, x5 ); \ x1 = _mm512_xor_si512( x1, x6 ); \ x2 = _mm512_xor_si512( x2, _mm512_xor_si512( x7, x4 ) ); \ x3 = _mm512_xor_si512( x3, x4 ); \ } while (0) #endif #define Sb(x0, x1, x2, x3, c) \ do { \ __m256i cc = _mm256_set1_epi64x( c ); \ x3 = mm256_not( x3 ); \ x0 = _mm256_xor_si256( x0, _mm256_andnot_si256( x2, cc ) ); \ tmp = _mm256_xor_si256( cc, _mm256_and_si256( x0, x1 ) ); \ x0 = _mm256_xor_si256( x0, _mm256_and_si256( x2, x3 ) ); \ x3 = _mm256_xor_si256( x3, _mm256_andnot_si256( x1, x2 ) ); \ x1 = _mm256_xor_si256( x1, _mm256_and_si256( x0, x2 ) ); \ x2 = _mm256_xor_si256( x2, _mm256_andnot_si256( x3, x0 ) ); \ x0 = _mm256_xor_si256( x0, _mm256_or_si256( x1, x3 ) ); \ x3 = _mm256_xor_si256( x3, _mm256_and_si256( x1, x2 ) ); \ x1 = _mm256_xor_si256( x1, _mm256_and_si256( tmp, x0 ) ); \ x2 = _mm256_xor_si256( x2, tmp ); \ } while (0) #define Lb(x0, x1, x2, x3, x4, x5, x6, x7) \ do { \ x4 = _mm256_xor_si256( x4, x1 ); \ x5 = _mm256_xor_si256( x5, x2 ); \ x6 = _mm256_xor_si256( x6, _mm256_xor_si256( x3, x0 ) ); \ x7 = _mm256_xor_si256( x7, x0 ); \ x0 = _mm256_xor_si256( x0, x5 ); \ x1 = _mm256_xor_si256( x1, x6 ); \ x2 = _mm256_xor_si256( x2, _mm256_xor_si256( x7, x4 ) ); \ x3 = _mm256_xor_si256( x3, x4 ); \ } while (0) #if SPH_JH_64 static const sph_u64 C[] = { C64e(0x72d5dea2df15f867), C64e(0x7b84150ab7231557), C64e(0x81abd6904d5a87f6), C64e(0x4e9f4fc5c3d12b40), C64e(0xea983ae05c45fa9c), C64e(0x03c5d29966b2999a), C64e(0x660296b4f2bb538a), C64e(0xb556141a88dba231), C64e(0x03a35a5c9a190edb), C64e(0x403fb20a87c14410), C64e(0x1c051980849e951d), C64e(0x6f33ebad5ee7cddc), C64e(0x10ba139202bf6b41), C64e(0xdc786515f7bb27d0), C64e(0x0a2c813937aa7850), C64e(0x3f1abfd2410091d3), C64e(0x422d5a0df6cc7e90), C64e(0xdd629f9c92c097ce), C64e(0x185ca70bc72b44ac), C64e(0xd1df65d663c6fc23), C64e(0x976e6c039ee0b81a), C64e(0x2105457e446ceca8), C64e(0xeef103bb5d8e61fa), C64e(0xfd9697b294838197), C64e(0x4a8e8537db03302f), C64e(0x2a678d2dfb9f6a95), C64e(0x8afe7381f8b8696c), C64e(0x8ac77246c07f4214), C64e(0xc5f4158fbdc75ec4), C64e(0x75446fa78f11bb80), C64e(0x52de75b7aee488bc), C64e(0x82b8001e98a6a3f4), C64e(0x8ef48f33a9a36315), C64e(0xaa5f5624d5b7f989), C64e(0xb6f1ed207c5ae0fd), C64e(0x36cae95a06422c36), C64e(0xce2935434efe983d), C64e(0x533af974739a4ba7), C64e(0xd0f51f596f4e8186), C64e(0x0e9dad81afd85a9f), C64e(0xa7050667ee34626a), C64e(0x8b0b28be6eb91727), C64e(0x47740726c680103f), C64e(0xe0a07e6fc67e487b), C64e(0x0d550aa54af8a4c0), C64e(0x91e3e79f978ef19e), C64e(0x8676728150608dd4), C64e(0x7e9e5a41f3e5b062), C64e(0xfc9f1fec4054207a), C64e(0xe3e41a00cef4c984), C64e(0x4fd794f59dfa95d8), C64e(0x552e7e1124c354a5), C64e(0x5bdf7228bdfe6e28), C64e(0x78f57fe20fa5c4b2), C64e(0x05897cefee49d32e), C64e(0x447e9385eb28597f), C64e(0x705f6937b324314a), C64e(0x5e8628f11dd6e465), C64e(0xc71b770451b920e7), C64e(0x74fe43e823d4878a), C64e(0x7d29e8a3927694f2), C64e(0xddcb7a099b30d9c1), C64e(0x1d1b30fb5bdc1be0), C64e(0xda24494ff29c82bf), C64e(0xa4e7ba31b470bfff), C64e(0x0d324405def8bc48), C64e(0x3baefc3253bbd339), C64e(0x459fc3c1e0298ba0), C64e(0xe5c905fdf7ae090f), C64e(0x947034124290f134), C64e(0xa271b701e344ed95), C64e(0xe93b8e364f2f984a), C64e(0x88401d63a06cf615), C64e(0x47c1444b8752afff), C64e(0x7ebb4af1e20ac630), C64e(0x4670b6c5cc6e8ce6), C64e(0xa4d5a456bd4fca00), C64e(0xda9d844bc83e18ae), C64e(0x7357ce453064d1ad), C64e(0xe8a6ce68145c2567), C64e(0xa3da8cf2cb0ee116), C64e(0x33e906589a94999a), C64e(0x1f60b220c26f847b), C64e(0xd1ceac7fa0d18518), C64e(0x32595ba18ddd19d3), C64e(0x509a1cc0aaa5b446), C64e(0x9f3d6367e4046bba), C64e(0xf6ca19ab0b56ee7e), C64e(0x1fb179eaa9282174), C64e(0xe9bdf7353b3651ee), C64e(0x1d57ac5a7550d376), C64e(0x3a46c2fea37d7001), C64e(0xf735c1af98a4d842), C64e(0x78edec209e6b6779), C64e(0x41836315ea3adba8), C64e(0xfac33b4d32832c83), C64e(0xa7403b1f1c2747f3), C64e(0x5940f034b72d769a), C64e(0xe73e4e6cd2214ffd), C64e(0xb8fd8d39dc5759ef), C64e(0x8d9b0c492b49ebda), C64e(0x5ba2d74968f3700d), C64e(0x7d3baed07a8d5584), C64e(0xf5a5e9f0e4f88e65), C64e(0xa0b8a2f436103b53), C64e(0x0ca8079e753eec5a), C64e(0x9168949256e8884f), C64e(0x5bb05c55f8babc4c), C64e(0xe3bb3b99f387947b), C64e(0x75daf4d6726b1c5d), C64e(0x64aeac28dc34b36d), C64e(0x6c34a550b828db71), C64e(0xf861e2f2108d512a), C64e(0xe3db643359dd75fc), C64e(0x1cacbcf143ce3fa2), C64e(0x67bbd13c02e843b0), C64e(0x330a5bca8829a175), C64e(0x7f34194db416535c), C64e(0x923b94c30e794d1e), C64e(0x797475d7b6eeaf3f), C64e(0xeaa8d4f7be1a3921), C64e(0x5cf47e094c232751), C64e(0x26a32453ba323cd2), C64e(0x44a3174a6da6d5ad), C64e(0xb51d3ea6aff2c908), C64e(0x83593d98916b3c56), C64e(0x4cf87ca17286604d), C64e(0x46e23ecc086ec7f6), C64e(0x2f9833b3b1bc765e), C64e(0x2bd666a5efc4e62a), C64e(0x06f4b6e8bec1d436), C64e(0x74ee8215bcef2163), C64e(0xfdc14e0df453c969), C64e(0xa77d5ac406585826), C64e(0x7ec1141606e0fa16), C64e(0x7e90af3d28639d3f), C64e(0xd2c9f2e3009bd20c), C64e(0x5faace30b7d40c30), C64e(0x742a5116f2e03298), C64e(0x0deb30d8e3cef89a), C64e(0x4bc59e7bb5f17992), C64e(0xff51e66e048668d3), C64e(0x9b234d57e6966731), C64e(0xcce6a6f3170a7505), C64e(0xb17681d913326cce), C64e(0x3c175284f805a262), C64e(0xf42bcbb378471547), C64e(0xff46548223936a48), C64e(0x38df58074e5e6565), C64e(0xf2fc7c89fc86508e), C64e(0x31702e44d00bca86), C64e(0xf04009a23078474e), C64e(0x65a0ee39d1f73883), C64e(0xf75ee937e42c3abd), C64e(0x2197b2260113f86f), C64e(0xa344edd1ef9fdee7), C64e(0x8ba0df15762592d9), C64e(0x3c85f7f612dc42be), C64e(0xd8a7ec7cab27b07e), C64e(0x538d7ddaaa3ea8de), C64e(0xaa25ce93bd0269d8), C64e(0x5af643fd1a7308f9), C64e(0xc05fefda174a19a5), C64e(0x974d66334cfd216a), C64e(0x35b49831db411570), C64e(0xea1e0fbbedcd549b), C64e(0x9ad063a151974072), C64e(0xf6759dbf91476fe2) }; #define Ceven_hi(r) (C[((r) << 2) + 0]) #define Ceven_lo(r) (C[((r) << 2) + 1]) #define Codd_hi(r) (C[((r) << 2) + 2]) #define Codd_lo(r) (C[((r) << 2) + 3]) #define S(x0, x1, x2, x3, cb, r) do { \ Sb(x0 ## h, x1 ## h, x2 ## h, x3 ## h, cb ## hi(r)); \ Sb(x0 ## l, x1 ## l, x2 ## l, x3 ## l, cb ## lo(r)); \ } while (0) #define L(x0, x1, x2, x3, x4, x5, x6, x7) do { \ Lb(x0 ## h, x1 ## h, x2 ## h, x3 ## h, \ x4 ## h, x5 ## h, x6 ## h, x7 ## h); \ Lb(x0 ## l, x1 ## l, x2 ## l, x3 ## l, \ x4 ## l, x5 ## l, x6 ## l, x7 ## l); \ } while (0) #if defined(__AVX512F__) && defined(__AVX512VL__) && defined(__AVX512DQ__) && defined(__AVX512BW__) #define S_8W(x0, x1, x2, x3, cb, r) do { \ Sb_8W(x0 ## h, x1 ## h, x2 ## h, x3 ## h, cb ## hi(r)); \ Sb_8W(x0 ## l, x1 ## l, x2 ## l, x3 ## l, cb ## lo(r)); \ } while (0) #define L_8W(x0, x1, x2, x3, x4, x5, x6, x7) do { \ Lb_8W(x0 ## h, x1 ## h, x2 ## h, x3 ## h, \ x4 ## h, x5 ## h, x6 ## h, x7 ## h); \ Lb_8W(x0 ## l, x1 ## l, x2 ## l, x3 ## l, \ x4 ## l, x5 ## l, x6 ## l, x7 ## l); \ } while (0) #define Wz_8W(x, c, n) \ do { \ __m512i t = _mm512_slli_epi64( _mm512_and_si512(x ## h, (c)), (n) ); \ x ## h = _mm512_or_si512( _mm512_and_si512( \ _mm512_srli_epi64(x ## h, (n)), (c)), t ); \ t = _mm512_slli_epi64( _mm512_and_si512(x ## l, (c)), (n) ); \ x ## l = _mm512_or_si512( _mm512_and_si512((x ## l >> (n)), (c)), t ); \ } while (0) #define W80(x) Wz_8W(x, m512_const1_64( 0x5555555555555555 ), 1 ) #define W81(x) Wz_8W(x, m512_const1_64( 0x3333333333333333 ), 2 ) #define W82(x) Wz_8W(x, m512_const1_64( 0x0F0F0F0F0F0F0F0F ), 4 ) #define W83(x) Wz_8W(x, m512_const1_64( 0x00FF00FF00FF00FF ), 8 ) #define W84(x) Wz_8W(x, m512_const1_64( 0x0000FFFF0000FFFF ), 16 ) #define W85(x) Wz_8W(x, m512_const1_64( 0x00000000FFFFFFFF ), 32 ) #define W86(x) \ do { \ __m512i t = x ## h; \ x ## h = x ## l; \ x ## l = t; \ } while (0) #define DECL_STATE_8W \ __m512i h0h, h1h, h2h, h3h, h4h, h5h, h6h, h7h; \ __m512i h0l, h1l, h2l, h3l, h4l, h5l, h6l, h7l; \ __m512i tmp; #endif #define Wz(x, c, n) \ do { \ __m256i t = _mm256_slli_epi64( _mm256_and_si256(x ## h, (c)), (n) ); \ x ## h = _mm256_or_si256( _mm256_and_si256( \ _mm256_srli_epi64(x ## h, (n)), (c)), t ); \ t = _mm256_slli_epi64( _mm256_and_si256(x ## l, (c)), (n) ); \ x ## l = _mm256_or_si256( _mm256_and_si256((x ## l >> (n)), (c)), t ); \ } while (0) #define W0(x) Wz(x, m256_const1_64( 0x5555555555555555 ), 1 ) #define W1(x) Wz(x, m256_const1_64( 0x3333333333333333 ), 2 ) #define W2(x) Wz(x, m256_const1_64( 0x0F0F0F0F0F0F0F0F ), 4 ) #define W3(x) Wz(x, m256_const1_64( 0x00FF00FF00FF00FF ), 8 ) #define W4(x) Wz(x, m256_const1_64( 0x0000FFFF0000FFFF ), 16 ) #define W5(x) Wz(x, m256_const1_64( 0x00000000FFFFFFFF ), 32 ) #define W6(x) \ do { \ __m256i t = x ## h; \ x ## h = x ## l; \ x ## l = t; \ } while (0) #define DECL_STATE \ __m256i h0h, h1h, h2h, h3h, h4h, h5h, h6h, h7h; \ __m256i h0l, h1l, h2l, h3l, h4l, h5l, h6l, h7l; \ __m256i tmp; #define READ_STATE(state) do { \ h0h = (state)->H[ 0]; \ h0l = (state)->H[ 1]; \ h1h = (state)->H[ 2]; \ h1l = (state)->H[ 3]; \ h2h = (state)->H[ 4]; \ h2l = (state)->H[ 5]; \ h3h = (state)->H[ 6]; \ h3l = (state)->H[ 7]; \ h4h = (state)->H[ 8]; \ h4l = (state)->H[ 9]; \ h5h = (state)->H[10]; \ h5l = (state)->H[11]; \ h6h = (state)->H[12]; \ h6l = (state)->H[13]; \ h7h = (state)->H[14]; \ h7l = (state)->H[15]; \ } while (0) #define WRITE_STATE(state) do { \ (state)->H[ 0] = h0h; \ (state)->H[ 1] = h0l; \ (state)->H[ 2] = h1h; \ (state)->H[ 3] = h1l; \ (state)->H[ 4] = h2h; \ (state)->H[ 5] = h2l; \ (state)->H[ 6] = h3h; \ (state)->H[ 7] = h3l; \ (state)->H[ 8] = h4h; \ (state)->H[ 9] = h4l; \ (state)->H[10] = h5h; \ (state)->H[11] = h5l; \ (state)->H[12] = h6h; \ (state)->H[13] = h6l; \ (state)->H[14] = h7h; \ (state)->H[15] = h7l; \ } while (0) #if defined(__AVX512F__) && defined(__AVX512VL__) && defined(__AVX512DQ__) && defined(__AVX512BW__) #define INPUT_BUF1_8W \ __m512i m0h = buf[0]; \ __m512i m0l = buf[1]; \ __m512i m1h = buf[2]; \ __m512i m1l = buf[3]; \ __m512i m2h = buf[4]; \ __m512i m2l = buf[5]; \ __m512i m3h = buf[6]; \ __m512i m3l = buf[7]; \ h0h = _mm512_xor_si512( h0h, m0h ); \ h0l = _mm512_xor_si512( h0l, m0l ); \ h1h = _mm512_xor_si512( h1h, m1h ); \ h1l = _mm512_xor_si512( h1l, m1l ); \ h2h = _mm512_xor_si512( h2h, m2h ); \ h2l = _mm512_xor_si512( h2l, m2l ); \ h3h = _mm512_xor_si512( h3h, m3h ); \ h3l = _mm512_xor_si512( h3l, m3l ); \ #define INPUT_BUF2_8W \ h4h = _mm512_xor_si512( h4h, m0h ); \ h4l = _mm512_xor_si512( h4l, m0l ); \ h5h = _mm512_xor_si512( h5h, m1h ); \ h5l = _mm512_xor_si512( h5l, m1l ); \ h6h = _mm512_xor_si512( h6h, m2h ); \ h6l = _mm512_xor_si512( h6l, m2l ); \ h7h = _mm512_xor_si512( h7h, m3h ); \ h7l = _mm512_xor_si512( h7l, m3l ); \ #endif #define INPUT_BUF1 \ __m256i m0h = buf[0]; \ __m256i m0l = buf[1]; \ __m256i m1h = buf[2]; \ __m256i m1l = buf[3]; \ __m256i m2h = buf[4]; \ __m256i m2l = buf[5]; \ __m256i m3h = buf[6]; \ __m256i m3l = buf[7]; \ h0h = _mm256_xor_si256( h0h, m0h ); \ h0l = _mm256_xor_si256( h0l, m0l ); \ h1h = _mm256_xor_si256( h1h, m1h ); \ h1l = _mm256_xor_si256( h1l, m1l ); \ h2h = _mm256_xor_si256( h2h, m2h ); \ h2l = _mm256_xor_si256( h2l, m2l ); \ h3h = _mm256_xor_si256( h3h, m3h ); \ h3l = _mm256_xor_si256( h3l, m3l ); \ #define INPUT_BUF2 \ h4h = _mm256_xor_si256( h4h, m0h ); \ h4l = _mm256_xor_si256( h4l, m0l ); \ h5h = _mm256_xor_si256( h5h, m1h ); \ h5l = _mm256_xor_si256( h5l, m1l ); \ h6h = _mm256_xor_si256( h6h, m2h ); \ h6l = _mm256_xor_si256( h6l, m2l ); \ h7h = _mm256_xor_si256( h7h, m3h ); \ h7l = _mm256_xor_si256( h7l, m3l ); \ static const sph_u64 IV256[] = { C64e(0xeb98a3412c20d3eb), C64e(0x92cdbe7b9cb245c1), C64e(0x1c93519160d4c7fa), C64e(0x260082d67e508a03), C64e(0xa4239e267726b945), C64e(0xe0fb1a48d41a9477), C64e(0xcdb5ab26026b177a), C64e(0x56f024420fff2fa8), C64e(0x71a396897f2e4d75), C64e(0x1d144908f77de262), C64e(0x277695f776248f94), C64e(0x87d5b6574780296c), C64e(0x5c5e272dac8e0d6c), C64e(0x518450c657057a0f), C64e(0x7be4d367702412ea), C64e(0x89e3ab13d31cd769) }; static const sph_u64 IV512[] = { C64e(0x6fd14b963e00aa17), C64e(0x636a2e057a15d543), C64e(0x8a225e8d0c97ef0b), C64e(0xe9341259f2b3c361), C64e(0x891da0c1536f801e), C64e(0x2aa9056bea2b6d80), C64e(0x588eccdb2075baa6), C64e(0xa90f3a76baf83bf7), C64e(0x0169e60541e34a69), C64e(0x46b58a8e2e6fe65a), C64e(0x1047a7d0c1843c24), C64e(0x3b6e71b12d5ac199), C64e(0xcf57f6ec9db1f856), C64e(0xa706887c5716b156), C64e(0xe3c2fcdfe68517fb), C64e(0x545a4678cc8cdd4b) }; #else #endif #if defined(__AVX512F__) && defined(__AVX512VL__) && defined(__AVX512DQ__) && defined(__AVX512BW__) #define SL_8W(ro) SLu_8W(r + ro, ro) #define SLu_8W(r, ro) do { \ S_8W(h0, h2, h4, h6, Ceven_, r); \ S_8W(h1, h3, h5, h7, Codd_, r); \ L_8W(h0, h2, h4, h6, h1, h3, h5, h7); \ W8 ## ro(h1); \ W8 ## ro(h3); \ W8 ## ro(h5); \ W8 ## ro(h7); \ } while (0) #endif #define SL(ro) SLu(r + ro, ro) #define SLu(r, ro) do { \ S(h0, h2, h4, h6, Ceven_, r); \ S(h1, h3, h5, h7, Codd_, r); \ L(h0, h2, h4, h6, h1, h3, h5, h7); \ W ## ro(h1); \ W ## ro(h3); \ W ## ro(h5); \ W ## ro(h7); \ } while (0) #if SPH_SMALL_FOOTPRINT_JH #if SPH_JH_64 /* * The "small footprint" 64-bit version just uses a partially unrolled * loop. */ #if defined(__AVX512F__) && defined(__AVX512VL__) && defined(__AVX512DQ__) && defined(__AVX512BW__) #define E8_8W do { \ unsigned r; \ for (r = 0; r < 42; r += 7) { \ SL_8W(0); \ SL_8W(1); \ SL_8W(2); \ SL_8W(3); \ SL_8W(4); \ SL_8W(5); \ SL_8W(6); \ } \ } while (0) #endif #define E8 do { \ unsigned r; \ for (r = 0; r < 42; r += 7) { \ SL(0); \ SL(1); \ SL(2); \ SL(3); \ SL(4); \ SL(5); \ SL(6); \ } \ } while (0) #else #endif #else #if SPH_JH_64 /* * On a "true 64-bit" architecture, we can unroll at will. */ #if defined(__AVX512F__) && defined(__AVX512VL__) && defined(__AVX512DQ__) && defined(__AVX512BW__) #define E8_8W do { \ SLu_8W( 0, 0); \ SLu_8W( 1, 1); \ SLu_8W( 2, 2); \ SLu_8W( 3, 3); \ SLu_8W( 4, 4); \ SLu_8W( 5, 5); \ SLu_8W( 6, 6); \ SLu_8W( 7, 0); \ SLu_8W( 8, 1); \ SLu_8W( 9, 2); \ SLu_8W(10, 3); \ SLu_8W(11, 4); \ SLu_8W(12, 5); \ SLu_8W(13, 6); \ SLu_8W(14, 0); \ SLu_8W(15, 1); \ SLu_8W(16, 2); \ SLu_8W(17, 3); \ SLu_8W(18, 4); \ SLu_8W(19, 5); \ SLu_8W(20, 6); \ SLu_8W(21, 0); \ SLu_8W(22, 1); \ SLu_8W(23, 2); \ SLu_8W(24, 3); \ SLu_8W(25, 4); \ SLu_8W(26, 5); \ SLu_8W(27, 6); \ SLu_8W(28, 0); \ SLu_8W(29, 1); \ SLu_8W(30, 2); \ SLu_8W(31, 3); \ SLu_8W(32, 4); \ SLu_8W(33, 5); \ SLu_8W(34, 6); \ SLu_8W(35, 0); \ SLu_8W(36, 1); \ SLu_8W(37, 2); \ SLu_8W(38, 3); \ SLu_8W(39, 4); \ SLu_8W(40, 5); \ SLu_8W(41, 6); \ } while (0) #endif // AVX512 #define E8 do { \ SLu( 0, 0); \ SLu( 1, 1); \ SLu( 2, 2); \ SLu( 3, 3); \ SLu( 4, 4); \ SLu( 5, 5); \ SLu( 6, 6); \ SLu( 7, 0); \ SLu( 8, 1); \ SLu( 9, 2); \ SLu(10, 3); \ SLu(11, 4); \ SLu(12, 5); \ SLu(13, 6); \ SLu(14, 0); \ SLu(15, 1); \ SLu(16, 2); \ SLu(17, 3); \ SLu(18, 4); \ SLu(19, 5); \ SLu(20, 6); \ SLu(21, 0); \ SLu(22, 1); \ SLu(23, 2); \ SLu(24, 3); \ SLu(25, 4); \ SLu(26, 5); \ SLu(27, 6); \ SLu(28, 0); \ SLu(29, 1); \ SLu(30, 2); \ SLu(31, 3); \ SLu(32, 4); \ SLu(33, 5); \ SLu(34, 6); \ SLu(35, 0); \ SLu(36, 1); \ SLu(37, 2); \ SLu(38, 3); \ SLu(39, 4); \ SLu(40, 5); \ SLu(41, 6); \ } while (0) #else #endif #endif #if defined(__AVX512F__) && defined(__AVX512VL__) && defined(__AVX512DQ__) && defined(__AVX512BW__) void jh256_8way_init( jh_8way_context *sc ) { // bswapped IV256 sc->H[ 0] = m512_const1_64( 0xebd3202c41a398eb ); sc->H[ 1] = m512_const1_64( 0xc145b29c7bbecd92 ); sc->H[ 2] = m512_const1_64( 0xfac7d4609151931c ); sc->H[ 3] = m512_const1_64( 0x038a507ed6820026 ); sc->H[ 4] = m512_const1_64( 0x45b92677269e23a4 ); sc->H[ 5] = m512_const1_64( 0x77941ad4481afbe0 ); sc->H[ 6] = m512_const1_64( 0x7a176b0226abb5cd ); sc->H[ 7] = m512_const1_64( 0xa82fff0f4224f056 ); sc->H[ 8] = m512_const1_64( 0x754d2e7f8996a371 ); sc->H[ 9] = m512_const1_64( 0x62e27df70849141d ); sc->H[10] = m512_const1_64( 0x948f2476f7957627 ); sc->H[11] = m512_const1_64( 0x6c29804757b6d587 ); sc->H[12] = m512_const1_64( 0x6c0d8eac2d275e5c ); sc->H[13] = m512_const1_64( 0x0f7a0557c6508451 ); sc->H[14] = m512_const1_64( 0xea12247067d3e47b ); sc->H[15] = m512_const1_64( 0x69d71cd313abe389 ); sc->ptr = 0; sc->block_count = 0; } void jh512_8way_init( jh_8way_context *sc ) { // bswapped IV512 sc->H[ 0] = m512_const1_64( 0x17aa003e964bd16f ); sc->H[ 1] = m512_const1_64( 0x43d5157a052e6a63 ); sc->H[ 2] = m512_const1_64( 0x0bef970c8d5e228a ); sc->H[ 3] = m512_const1_64( 0x61c3b3f2591234e9 ); sc->H[ 4] = m512_const1_64( 0x1e806f53c1a01d89 ); sc->H[ 5] = m512_const1_64( 0x806d2bea6b05a92a ); sc->H[ 6] = m512_const1_64( 0xa6ba7520dbcc8e58 ); sc->H[ 7] = m512_const1_64( 0xf73bf8ba763a0fa9 ); sc->H[ 8] = m512_const1_64( 0x694ae34105e66901 ); sc->H[ 9] = m512_const1_64( 0x5ae66f2e8e8ab546 ); sc->H[10] = m512_const1_64( 0x243c84c1d0a74710 ); sc->H[11] = m512_const1_64( 0x99c15a2db1716e3b ); sc->H[12] = m512_const1_64( 0x56f8b19decf657cf ); sc->H[13] = m512_const1_64( 0x56b116577c8806a7 ); sc->H[14] = m512_const1_64( 0xfb1785e6dffcc2e3 ); sc->H[15] = m512_const1_64( 0x4bdd8ccc78465a54 ); sc->ptr = 0; sc->block_count = 0; } static void jh_8way_core( jh_8way_context *sc, const void *data, size_t len ) { __m512i *buf; __m512i *vdata = (__m512i*)data; const int buf_size = 64; // 64 * _m512i size_t ptr; DECL_STATE_8W buf = sc->buf; ptr = sc->ptr; if ( len < (buf_size - ptr) ) { memcpy_512( buf + (ptr>>3), vdata, len>>3 ); ptr += len; sc->ptr = ptr; return; } READ_STATE(sc); while ( len > 0 ) { size_t clen; clen = buf_size - ptr; if ( clen > len ) clen = len; memcpy_512( buf + (ptr>>3), vdata, clen>>3 ); ptr += clen; vdata += (clen>>3); len -= clen; if ( ptr == buf_size ) { INPUT_BUF1_8W; E8_8W; INPUT_BUF2_8W; sc->block_count ++; ptr = 0; } } WRITE_STATE(sc); sc->ptr = ptr; } static void jh_8way_close( jh_8way_context *sc, unsigned ub, unsigned n, void *dst, size_t out_size_w32, const void *iv ) { __m512i buf[16*4]; __m512i *dst512 = (__m512i*)dst; size_t numz, u; sph_u64 l0, l1, l0e, l1e; buf[0] = m512_const1_64( 0x80ULL ); if ( sc->ptr == 0 ) numz = 48; else numz = 112 - sc->ptr; memset_zero_512( buf+1, (numz>>3) - 1 ); l0 = SPH_T64(sc->block_count << 9) + (sc->ptr << 3); l1 = SPH_T64(sc->block_count >> 55); sph_enc64be( &l0e, l0 ); sph_enc64be( &l1e, l1 ); *(buf + (numz>>3) ) = _mm512_set1_epi64( l1e ); *(buf + (numz>>3) + 1) = _mm512_set1_epi64( l0e ); jh_8way_core( sc, buf, numz + 16 ); for ( u=0; u < 8; u++ ) buf[u] = sc->H[u+8]; memcpy_512( dst512, buf, 8 ); } void jh256_8way_update(void *cc, const void *data, size_t len) { jh_8way_core(cc, data, len); } void jh256_8way_close(void *cc, void *dst) { jh_8way_close(cc, 0, 0, dst, 8, IV256); } void jh512_8way_update(void *cc, const void *data, size_t len) { jh_8way_core(cc, data, len); } void jh512_8way_close(void *cc, void *dst) { jh_8way_close(cc, 0, 0, dst, 16, IV512); } #endif void jh256_4way_init( jh_4way_context *sc ) { // bswapped IV256 sc->H[ 0] = m256_const1_64( 0xebd3202c41a398eb ); sc->H[ 1] = m256_const1_64( 0xc145b29c7bbecd92 ); sc->H[ 2] = m256_const1_64( 0xfac7d4609151931c ); sc->H[ 3] = m256_const1_64( 0x038a507ed6820026 ); sc->H[ 4] = m256_const1_64( 0x45b92677269e23a4 ); sc->H[ 5] = m256_const1_64( 0x77941ad4481afbe0 ); sc->H[ 6] = m256_const1_64( 0x7a176b0226abb5cd ); sc->H[ 7] = m256_const1_64( 0xa82fff0f4224f056 ); sc->H[ 8] = m256_const1_64( 0x754d2e7f8996a371 ); sc->H[ 9] = m256_const1_64( 0x62e27df70849141d ); sc->H[10] = m256_const1_64( 0x948f2476f7957627 ); sc->H[11] = m256_const1_64( 0x6c29804757b6d587 ); sc->H[12] = m256_const1_64( 0x6c0d8eac2d275e5c ); sc->H[13] = m256_const1_64( 0x0f7a0557c6508451 ); sc->H[14] = m256_const1_64( 0xea12247067d3e47b ); sc->H[15] = m256_const1_64( 0x69d71cd313abe389 ); sc->ptr = 0; sc->block_count = 0; } void jh512_4way_init( jh_4way_context *sc ) { // bswapped IV512 sc->H[ 0] = m256_const1_64( 0x17aa003e964bd16f ); sc->H[ 1] = m256_const1_64( 0x43d5157a052e6a63 ); sc->H[ 2] = m256_const1_64( 0x0bef970c8d5e228a ); sc->H[ 3] = m256_const1_64( 0x61c3b3f2591234e9 ); sc->H[ 4] = m256_const1_64( 0x1e806f53c1a01d89 ); sc->H[ 5] = m256_const1_64( 0x806d2bea6b05a92a ); sc->H[ 6] = m256_const1_64( 0xa6ba7520dbcc8e58 ); sc->H[ 7] = m256_const1_64( 0xf73bf8ba763a0fa9 ); sc->H[ 8] = m256_const1_64( 0x694ae34105e66901 ); sc->H[ 9] = m256_const1_64( 0x5ae66f2e8e8ab546 ); sc->H[10] = m256_const1_64( 0x243c84c1d0a74710 ); sc->H[11] = m256_const1_64( 0x99c15a2db1716e3b ); sc->H[12] = m256_const1_64( 0x56f8b19decf657cf ); sc->H[13] = m256_const1_64( 0x56b116577c8806a7 ); sc->H[14] = m256_const1_64( 0xfb1785e6dffcc2e3 ); sc->H[15] = m256_const1_64( 0x4bdd8ccc78465a54 ); sc->ptr = 0; sc->block_count = 0; } static void jh_4way_core( jh_4way_context *sc, const void *data, size_t len ) { __m256i *buf; __m256i *vdata = (__m256i*)data; const int buf_size = 64; // 64 * _m256i size_t ptr; DECL_STATE buf = sc->buf; ptr = sc->ptr; if ( len < (buf_size - ptr) ) { memcpy_256( buf + (ptr>>3), vdata, len>>3 ); ptr += len; sc->ptr = ptr; return; } READ_STATE(sc); while ( len > 0 ) { size_t clen; clen = buf_size - ptr; if ( clen > len ) clen = len; memcpy_256( buf + (ptr>>3), vdata, clen>>3 ); ptr += clen; vdata += (clen>>3); len -= clen; if ( ptr == buf_size ) { INPUT_BUF1; E8; INPUT_BUF2; sc->block_count ++; ptr = 0; } } WRITE_STATE(sc); sc->ptr = ptr; } static void jh_4way_close( jh_4way_context *sc, unsigned ub, unsigned n, void *dst, size_t out_size_w32, const void *iv ) { __m256i buf[16*4]; __m256i *dst256 = (__m256i*)dst; size_t numz, u; sph_u64 l0, l1, l0e, l1e; buf[0] = m256_const1_64( 0x80ULL ); if ( sc->ptr == 0 ) numz = 48; else numz = 112 - sc->ptr; memset_zero_256( buf+1, (numz>>3) - 1 ); l0 = SPH_T64(sc->block_count << 9) + (sc->ptr << 3); l1 = SPH_T64(sc->block_count >> 55); sph_enc64be( &l0e, l0 ); sph_enc64be( &l1e, l1 ); *(buf + (numz>>3) ) = _mm256_set1_epi64x( l1e ); *(buf + (numz>>3) + 1) = _mm256_set1_epi64x( l0e ); jh_4way_core( sc, buf, numz + 16 ); for ( u=0; u < 8; u++ ) buf[u] = sc->H[u+8]; memcpy_256( dst256, buf, 8 ); } void jh256_4way_update(void *cc, const void *data, size_t len) { jh_4way_core(cc, data, len); } void jh256_4way_close(void *cc, void *dst) { jh_4way_close(cc, 0, 0, dst, 8, IV256); } void jh512_4way_update(void *cc, const void *data, size_t len) { jh_4way_core(cc, data, len); } void jh512_4way_close(void *cc, void *dst) { jh_4way_close(cc, 0, 0, dst, 16, IV512); } #ifdef __cplusplus } #endif #endif