diff --git a/kernel/lyra2rev2.cl b/kernel/lyra2rev2.cl deleted file mode 100644 index a165a7517..000000000 --- a/kernel/lyra2rev2.cl +++ /dev/null @@ -1,525 +0,0 @@ -/* - * Lyra2RE kernel implementation. - * - * ==========================(LICENSE BEGIN)============================ - * Copyright (c) 2014 djm34 - * Copyright (c) 2014 James Lovejoy - * - * 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 djm34 - */ -// typedef unsigned int uint; -#pragma OPENCL EXTENSION cl_amd_printf : enable - -#ifndef LYRA2REV2_CL -#define LYRA2REV2_CL - -#if __ENDIAN_LITTLE__ -#define SPH_LITTLE_ENDIAN 1 -#else -#define SPH_BIG_ENDIAN 1 -#endif - -#define SPH_UPTR sph_u64 - -typedef unsigned int sph_u32; -typedef int sph_s32; -#ifndef __OPENCL_VERSION__ -typedef unsigned long sph_u64; -typedef long sph_s64; -#else -typedef unsigned long sph_u64; -typedef long sph_s64; -#endif - - -#define SPH_64 1 -#define SPH_64_TRUE 1 - -#define SPH_C32(x) ((sph_u32)(x ## U)) -#define SPH_T32(x) ((x) & SPH_C32(0xFFFFFFFF)) - -#define SPH_C64(x) ((sph_u64)(x ## UL)) -#define SPH_T64(x) ((x) & SPH_C64(0xFFFFFFFFFFFFFFFF)) - -//#define SPH_ROTL32(x, n) (((x) << (n)) | ((x) >> (32 - (n)))) -//#define SPH_ROTR32(x, n) (((x) >> (n)) | ((x) << (32 - (n)))) -//#define SPH_ROTL64(x, n) (((x) << (n)) | ((x) >> (64 - (n)))) -//#define SPH_ROTR64(x, n) (((x) >> (n)) | ((x) << (64 - (n)))) - -#define SPH_ROTL32(x,n) rotate(x,(uint)n) //faster with driver 14.6 -#define SPH_ROTR32(x,n) rotate(x,(uint)(32-n)) -#define SPH_ROTL64(x,n) rotate(x,(ulong)n) -#define SPH_ROTR64(x,n) rotate(x,(ulong)(64-n)) -static inline sph_u64 ror64(sph_u64 vw, unsigned a) { - uint2 result; - uint2 v = as_uint2(vw); - unsigned n = (unsigned)(64 - a); - if (n == 32) { return as_ulong((uint2)(v.y, v.x)); } - if (n < 32) { - result.y = ((v.y << (n)) | (v.x >> (32 - n))); - result.x = ((v.x << (n)) | (v.y >> (32 - n))); - } - else { - result.y = ((v.x << (n - 32)) | (v.y >> (64 - n))); - result.x = ((v.y << (n - 32)) | (v.x >> (64 - n))); - } - return as_ulong(result); -} - -//#define SPH_ROTR64(l,n) ror64(l,n) -#define memshift 3 -#include "blake256.cl" -#include "lyra2v2.cl" -#include "keccak1600.cl" -#include "skein256.cl" -#include "cubehash.cl" -#include "bmw256.cl" - -#define SWAP4(x) as_uint(as_uchar4(x).wzyx) -#define SWAP8(x) as_ulong(as_uchar8(x).s76543210) -//#define SWAP8(x) as_ulong(as_uchar8(x).s32107654) -#if SPH_BIG_ENDIAN - #define DEC64E(x) (x) - #define DEC64BE(x) (*(const __global sph_u64 *) (x)); - #define DEC64LE(x) SWAP8(*(const __global sph_u64 *) (x)); - #define DEC32LE(x) (*(const __global sph_u32 *) (x)); -#else - #define DEC64E(x) SWAP8(x) - #define DEC64BE(x) SWAP8(*(const __global sph_u64 *) (x)); - #define DEC64LE(x) (*(const __global sph_u64 *) (x)); -#define DEC32LE(x) SWAP4(*(const __global sph_u32 *) (x)); -#endif - -typedef union { - unsigned char h1[32]; - uint h4[8]; - ulong h8[4]; -} hash_t; - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search( - __global uchar* hashes, - // precalc hash from fisrt part of message - const uint h0, - const uint h1, - const uint h2, - const uint h3, - const uint h4, - const uint h5, - const uint h6, - const uint h7, - // last 12 bytes of original message - const uint in16, - const uint in17, - const uint in18 -) -{ - uint gid = get_global_id(0); - __global hash_t *hash = (__global hash_t *)(hashes + (4 * sizeof(ulong)* (get_global_id(0) % MAX_GLOBAL_THREADS))); - - -// __global hash_t *hash = &(hashes[gid-get_global_offset(0)]); - - unsigned int h[8]; - unsigned int m[16]; - unsigned int v[16]; - - -h[0]=h0; -h[1]=h1; -h[2]=h2; -h[3]=h3; -h[4]=h4; -h[5]=h5; -h[6]=h6; -h[7]=h7; -// compress 2nd round - m[0] = in16; - m[1] = in17; - m[2] = in18; - m[3] = SWAP4(gid); - - for (int i = 4; i < 16; i++) {m[i] = c_Padding[i];} - - for (int i = 0; i < 8; i++) {v[i] = h[i];} - - v[8] = c_u256[0]; - v[9] = c_u256[1]; - v[10] = c_u256[2]; - v[11] = c_u256[3]; - v[12] = c_u256[4] ^ 640; - v[13] = c_u256[5] ^ 640; - v[14] = c_u256[6]; - v[15] = c_u256[7]; - - for (int r = 0; r < 14; r++) { - GS(0, 4, 0x8, 0xC, 0x0); - GS(1, 5, 0x9, 0xD, 0x2); - GS(2, 6, 0xA, 0xE, 0x4); - GS(3, 7, 0xB, 0xF, 0x6); - GS(0, 5, 0xA, 0xF, 0x8); - GS(1, 6, 0xB, 0xC, 0xA); - GS(2, 7, 0x8, 0xD, 0xC); - GS(3, 4, 0x9, 0xE, 0xE); - } - - for (int i = 0; i < 16; i++) { - int j = i & 7; - h[j] ^= v[i];} - -for (int i=0;i<8;i++) {hash->h4[i]=SWAP4(h[i]);} - -barrier(CLK_LOCAL_MEM_FENCE); - -} - -// keccak256 - - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search1(__global uchar* hashes) -{ - uint gid = get_global_id(0); - // __global hash_t *hash = &(hashes[gid-get_global_offset(0)]); - - __global hash_t *hash = (__global hash_t *)(hashes + (4 * sizeof(ulong)* (get_global_id(0) % MAX_GLOBAL_THREADS))); - - sph_u64 keccak_gpu_state[25]; - - for (int i = 0; i<25; i++) { - if (i<4) { keccak_gpu_state[i] = hash->h8[i]; } - else { keccak_gpu_state[i] = 0; } - } - keccak_gpu_state[4] = 0x0000000000000001; - keccak_gpu_state[16] = 0x8000000000000000; - - keccak_block(keccak_gpu_state); - for (int i = 0; i<4; i++) { hash->h8[i] = keccak_gpu_state[i]; } -barrier(CLK_LOCAL_MEM_FENCE); - - - -} - -// cubehash256 - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search2(__global uchar* hashes) -{ - uint gid = get_global_id(0); - __global hash_t *hash = (__global hash_t *)(hashes + (4 * sizeof(ulong)* (get_global_id(0) % MAX_GLOBAL_THREADS))); - - - sph_u32 x0 = 0xEA2BD4B4; sph_u32 x1 = 0xCCD6F29F; sph_u32 x2 = 0x63117E71; - sph_u32 x3 = 0x35481EAE; sph_u32 x4 = 0x22512D5B; sph_u32 x5 = 0xE5D94E63; - sph_u32 x6 = 0x7E624131; sph_u32 x7 = 0xF4CC12BE; sph_u32 x8 = 0xC2D0B696; - sph_u32 x9 = 0x42AF2070; sph_u32 xa = 0xD0720C35; sph_u32 xb = 0x3361DA8C; - sph_u32 xc = 0x28CCECA4; sph_u32 xd = 0x8EF8AD83; sph_u32 xe = 0x4680AC00; - sph_u32 xf = 0x40E5FBAB; - - sph_u32 xg = 0xD89041C3; sph_u32 xh = 0x6107FBD5; - sph_u32 xi = 0x6C859D41; sph_u32 xj = 0xF0B26679; sph_u32 xk = 0x09392549; - sph_u32 xl = 0x5FA25603; sph_u32 xm = 0x65C892FD; sph_u32 xn = 0x93CB6285; - sph_u32 xo = 0x2AF2B5AE; sph_u32 xp = 0x9E4B4E60; sph_u32 xq = 0x774ABFDD; - sph_u32 xr = 0x85254725; sph_u32 xs = 0x15815AEB; sph_u32 xt = 0x4AB6AAD6; - sph_u32 xu = 0x9CDAF8AF; sph_u32 xv = 0xD6032C0A; - - x0 ^= (hash->h4[0]); - x1 ^= (hash->h4[1]); - x2 ^= (hash->h4[2]); - x3 ^= (hash->h4[3]); - x4 ^= (hash->h4[4]); - x5 ^= (hash->h4[5]); - x6 ^= (hash->h4[6]); - x7 ^= (hash->h4[7]); - - - SIXTEEN_ROUNDS; - x0 ^= 0x80; - SIXTEEN_ROUNDS; - xv ^= 0x01; - for (int i = 0; i < 10; ++i) SIXTEEN_ROUNDS; - - hash->h4[0] = x0; - hash->h4[1] = x1; - hash->h4[2] = x2; - hash->h4[3] = x3; - hash->h4[4] = x4; - hash->h4[5] = x5; - hash->h4[6] = x6; - hash->h4[7] = x7; - - - barrier(CLK_GLOBAL_MEM_FENCE); - -} - - -/// lyra2 algo - - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search3(__global uchar* hashes,__global uchar* matrix ) -{ - uint gid = get_global_id(0); - // __global hash_t *hash = &(hashes[gid-get_global_offset(0)]); - __global hash_t *hash = (__global hash_t *)(hashes + (4 * sizeof(ulong)* (get_global_id(0) % MAX_GLOBAL_THREADS))); - __global ulong4 *DMatrix = (__global ulong4 *)(matrix + (4 * memshift * 4 * 4 * 8 * (get_global_id(0) % MAX_GLOBAL_THREADS))); - -// uint offset = (4 * memshift * 4 * 4 * sizeof(ulong)* (get_global_id(0) % MAX_GLOBAL_THREADS))/32; - ulong4 state[4]; - - state[0].x = hash->h8[0]; //password - state[0].y = hash->h8[1]; //password - state[0].z = hash->h8[2]; //password - state[0].w = hash->h8[3]; //password - state[1] = state[0]; - state[2] = (ulong4)(0x6a09e667f3bcc908UL, 0xbb67ae8584caa73bUL, 0x3c6ef372fe94f82bUL, 0xa54ff53a5f1d36f1UL); - state[3] = (ulong4)(0x510e527fade682d1UL, 0x9b05688c2b3e6c1fUL, 0x1f83d9abfb41bd6bUL, 0x5be0cd19137e2179UL); - for (int i = 0; i<12; i++) { round_lyra(state); } - - state[0] ^= (ulong4)(0x20,0x20,0x20,0x01); - state[1] ^= (ulong4)(0x04,0x04,0x80,0x0100000000000000); - - for (int i = 0; i<12; i++) { round_lyra(state); } - - - uint ps1 = (memshift * 3); -//#pragma unroll 4 - for (int i = 0; i < 4; i++) - { - uint s1 = ps1 - memshift * i; - for (int j = 0; j < 3; j++) - (DMatrix)[j+s1] = state[j]; - - round_lyra(state); - } - - reduceDuplexf(state,DMatrix); - - reduceDuplexRowSetupf(1, 0, 2,state, DMatrix); - reduceDuplexRowSetupf(2, 1, 3, state,DMatrix); - - - uint rowa; - uint prev = 3; - for (uint i = 0; i<4; i++) { - rowa = state[0].x & 3; - reduceDuplexRowf(prev, rowa, i, state, DMatrix); - prev = i; - } - - - - uint shift = (memshift * 4 * rowa); - - for (int j = 0; j < 3; j++) - state[j] ^= (DMatrix)[j+shift]; - - for (int i = 0; i < 12; i++) - round_lyra(state); -////////////////////////////////////// - - - for (int i = 0; i<4; i++) {hash->h8[i] = ((ulong*)state)[i];} -barrier(CLK_LOCAL_MEM_FENCE); - - - -} - -//skein256 - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search4(__global uchar* hashes) -{ - uint gid = get_global_id(0); - // __global hash_t *hash = &(hashes[gid-get_global_offset(0)]); - __global hash_t *hash = (__global hash_t *)(hashes + (4 * sizeof(ulong)* (get_global_id(0) % MAX_GLOBAL_THREADS))); - - - sph_u64 h[9]; - sph_u64 t[3]; - sph_u64 dt0,dt1,dt2,dt3; - sph_u64 p0, p1, p2, p3, p4, p5, p6, p7; - h[8] = skein_ks_parity; - - for (int i = 0; i<8; i++) { - h[i] = SKEIN_IV512_256[i]; - h[8] ^= h[i];} - - t[0]=t12[0]; - t[1]=t12[1]; - t[2]=t12[2]; - - dt0=hash->h8[0]; - dt1=hash->h8[1]; - dt2=hash->h8[2]; - dt3=hash->h8[3]; - - p0 = h[0] + dt0; - p1 = h[1] + dt1; - p2 = h[2] + dt2; - p3 = h[3] + dt3; - p4 = h[4]; - p5 = h[5] + t[0]; - p6 = h[6] + t[1]; - p7 = h[7]; - - #pragma unroll - for (int i = 1; i<19; i+=2) {Round_8_512(p0,p1,p2,p3,p4,p5,p6,p7,i);} - p0 ^= dt0; - p1 ^= dt1; - p2 ^= dt2; - p3 ^= dt3; - - h[0] = p0; - h[1] = p1; - h[2] = p2; - h[3] = p3; - h[4] = p4; - h[5] = p5; - h[6] = p6; - h[7] = p7; - h[8] = skein_ks_parity; - - for (int i = 0; i<8; i++) { h[8] ^= h[i]; } - - t[0] = t12[3]; - t[1] = t12[4]; - t[2] = t12[5]; - p5 += t[0]; //p5 already equal h[5] - p6 += t[1]; - - #pragma unroll - for (int i = 1; i<19; i+=2) { Round_8_512(p0, p1, p2, p3, p4, p5, p6, p7, i); } - - hash->h8[0] = p0; - hash->h8[1] = p1; - hash->h8[2] = p2; - hash->h8[3] = p3; - barrier(CLK_LOCAL_MEM_FENCE); - -} - -//cubehash - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search5(__global uchar* hashes) -{ - uint gid = get_global_id(0); - __global hash_t *hash = (__global hash_t *)(hashes + (4 * sizeof(ulong)* (get_global_id(0) % MAX_GLOBAL_THREADS))); - - sph_u32 x0 = 0xEA2BD4B4; sph_u32 x1 = 0xCCD6F29F; sph_u32 x2 = 0x63117E71; - sph_u32 x3 = 0x35481EAE; sph_u32 x4 = 0x22512D5B; sph_u32 x5 = 0xE5D94E63; - sph_u32 x6 = 0x7E624131; sph_u32 x7 = 0xF4CC12BE; sph_u32 x8 = 0xC2D0B696; - sph_u32 x9 = 0x42AF2070; sph_u32 xa = 0xD0720C35; sph_u32 xb = 0x3361DA8C; - sph_u32 xc = 0x28CCECA4; sph_u32 xd = 0x8EF8AD83; sph_u32 xe = 0x4680AC00; - sph_u32 xf = 0x40E5FBAB; - - sph_u32 xg = 0xD89041C3; sph_u32 xh = 0x6107FBD5; - sph_u32 xi = 0x6C859D41; sph_u32 xj = 0xF0B26679; sph_u32 xk = 0x09392549; - sph_u32 xl = 0x5FA25603; sph_u32 xm = 0x65C892FD; sph_u32 xn = 0x93CB6285; - sph_u32 xo = 0x2AF2B5AE; sph_u32 xp = 0x9E4B4E60; sph_u32 xq = 0x774ABFDD; - sph_u32 xr = 0x85254725; sph_u32 xs = 0x15815AEB; sph_u32 xt = 0x4AB6AAD6; - sph_u32 xu = 0x9CDAF8AF; sph_u32 xv = 0xD6032C0A; - - x0 ^= (hash->h4[0]); - x1 ^= (hash->h4[1]); - x2 ^= (hash->h4[2]); - x3 ^= (hash->h4[3]); - x4 ^= (hash->h4[4]); - x5 ^= (hash->h4[5]); - x6 ^= (hash->h4[6]); - x7 ^= (hash->h4[7]); - - - SIXTEEN_ROUNDS; - x0 ^= 0x80; - SIXTEEN_ROUNDS; - xv ^= 0x01; - for (int i = 0; i < 10; ++i) SIXTEEN_ROUNDS; - - hash->h4[0] = x0; - hash->h4[1] = x1; - hash->h4[2] = x2; - hash->h4[3] = x3; - hash->h4[4] = x4; - hash->h4[5] = x5; - hash->h4[6] = x6; - hash->h4[7] = x7; - - - barrier(CLK_GLOBAL_MEM_FENCE); - -} - - - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search6(__global uchar* hashes, __global uint* output, const ulong target) -{ - uint gid = get_global_id(0); - __global hash_t *hash = (__global hash_t *)(hashes + (4 * sizeof(ulong)* (get_global_id(0) % MAX_GLOBAL_THREADS))); - - uint dh[16] = { - 0x40414243, 0x44454647, - 0x48494A4B, 0x4C4D4E4F, - 0x50515253, 0x54555657, - 0x58595A5B, 0x5C5D5E5F, - 0x60616263, 0x64656667, - 0x68696A6B, 0x6C6D6E6F, - 0x70717273, 0x74757677, - 0x78797A7B, 0x7C7D7E7F - }; - uint final_s[16] = { - 0xaaaaaaa0, 0xaaaaaaa1, 0xaaaaaaa2, - 0xaaaaaaa3, 0xaaaaaaa4, 0xaaaaaaa5, - 0xaaaaaaa6, 0xaaaaaaa7, 0xaaaaaaa8, - 0xaaaaaaa9, 0xaaaaaaaa, 0xaaaaaaab, - 0xaaaaaaac, 0xaaaaaaad, 0xaaaaaaae, - 0xaaaaaaaf - }; - - uint message[16]; - for (int i = 0; i<8; i++) message[i] = hash->h4[i]; - for (int i = 9; i<14; i++) message[i] = 0; - message[8]= 0x80; - message[14]=0x100; - message[15]=0; - - Compression256(message, dh); - Compression256(dh, final_s); - barrier(CLK_LOCAL_MEM_FENCE); - - - bool result = ( ((ulong*)final_s)[7] <= target); - if (result) { - output[atomic_inc(output + 0xFF)] = SWAP4(gid); - } - -} - - -#endif // LYRA2REV2_CL \ No newline at end of file diff --git a/kernel/quarkcoin.cl b/kernel/quarkcoin.cl deleted file mode 100644 index 7d405b758..000000000 --- a/kernel/quarkcoin.cl +++ /dev/null @@ -1,1099 +0,0 @@ -/* - * QuarkCoin kernel implementation. - * - * ==========================(LICENSE BEGIN)============================ - * - * Copyright (c) 2014 phm - * - * 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 phm - */ - -#ifndef QUARKCOIN_CL -#define QUARKCOIN_CL - -#if __ENDIAN_LITTLE__ -#define SPH_LITTLE_ENDIAN 1 -#else -#define SPH_BIG_ENDIAN 1 -#endif - -#define SPH_UPTR sph_u64 - -typedef unsigned int sph_u32; -typedef int sph_s32; -#ifndef __OPENCL_VERSION__ -typedef unsigned long long sph_u64; -typedef long long sph_s64; -#else -typedef unsigned long sph_u64; -typedef long sph_s64; -#endif - -#define SPH_64 1 -#define SPH_64_TRUE 1 - -#define SPH_C32(x) ((sph_u32)(x ## U)) -#define SPH_T32(x) (as_uint(x)) -#define SPH_ROTL32(x, n) rotate(as_uint(x), as_uint(n)) -#define SPH_ROTR32(x, n) SPH_ROTL32(x, (32 - (n))) - -#define SPH_C64(x) ((sph_u64)(x ## UL)) -#define SPH_T64(x) (as_ulong(x)) -#define SPH_ROTL64(x, n) rotate(as_ulong(x), (n) & 0xFFFFFFFFFFFFFFFFUL) -#define SPH_ROTR64(x, n) SPH_ROTL64(x, (64 - (n))) - -#define SPH_ECHO_64 1 -#define SPH_KECCAK_64 1 -#define SPH_JH_64 1 -#define SPH_SIMD_NOCOPY 0 -#define SPH_KECCAK_NOCOPY 0 -#define SPH_SMALL_FOOTPRINT_GROESTL 0 -#define SPH_GROESTL_BIG_ENDIAN 0 -#define SPH_CUBEHASH_UNROLL 0 - -#ifndef SPH_COMPACT_BLAKE_64 - #define SPH_COMPACT_BLAKE_64 0 -#endif -#ifndef SPH_KECCAK_UNROLL - #define SPH_KECCAK_UNROLL 0 -#endif - -#include "blake.cl" -#include "bmw.cl" -#include "groestl.cl" -#include "jh.cl" -#include "keccak.cl" -#include "skein.cl" - -#define SWAP4(x) as_uint(as_uchar4(x).wzyx) -#define SWAP8(x) as_ulong(as_uchar8(x).s76543210) - -#define SHL(x, n) ((x) << (n)) -#define SHR(x, n) ((x) >> (n)) - -#define CONST_EXP2 q[i+0] + SPH_ROTL64(q[i+1], 5) + q[i+2] + SPH_ROTL64(q[i+3], 11) + \ - q[i+4] + SPH_ROTL64(q[i+5], 27) + q[i+6] + SPH_ROTL64(q[i+7], 32) + \ - q[i+8] + SPH_ROTL64(q[i+9], 37) + q[i+10] + SPH_ROTL64(q[i+11], 43) + \ - q[i+12] + SPH_ROTL64(q[i+13], 53) + (SHR(q[i+14],1) ^ q[i+14]) + (SHR(q[i+15],2) ^ q[i+15]) - -#if SPH_BIG_ENDIAN - #define DEC64E(x) (x) - #define DEC64BE(x) (*(const __global sph_u64 *) (x)); -#else - #define DEC64E(x) SWAP8(x) - #define DEC64BE(x) SWAP8(*(const __global sph_u64 *) (x)); -#endif - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search(__global unsigned char* block, volatile __global uint* output, const ulong target) -{ - uint gid = get_global_id(0); - union { - unsigned char h1[64]; - uint h4[16]; - ulong h8[8]; - } hash; - - // blake -{ - sph_u64 H0 = SPH_C64(0x6A09E667F3BCC908), H1 = SPH_C64(0xBB67AE8584CAA73B); - sph_u64 H2 = SPH_C64(0x3C6EF372FE94F82B), H3 = SPH_C64(0xA54FF53A5F1D36F1); - sph_u64 H4 = SPH_C64(0x510E527FADE682D1), H5 = SPH_C64(0x9B05688C2B3E6C1F); - sph_u64 H6 = SPH_C64(0x1F83D9ABFB41BD6B), H7 = SPH_C64(0x5BE0CD19137E2179); - sph_u64 S0 = 0, S1 = 0, S2 = 0, S3 = 0; - sph_u64 T0 = SPH_C64(0xFFFFFFFFFFFFFC00) + (80 << 3), T1 = 0xFFFFFFFFFFFFFFFF;; - - if ((T0 = SPH_T64(T0 + 1024)) < 1024) - { - T1 = SPH_T64(T1 + 1); - } - sph_u64 M0, M1, M2, M3, M4, M5, M6, M7; - sph_u64 M8, M9, MA, MB, MC, MD, ME, MF; - sph_u64 V0, V1, V2, V3, V4, V5, V6, V7; - sph_u64 V8, V9, VA, VB, VC, VD, VE, VF; - M0 = DEC64BE(block + 0); - M1 = DEC64BE(block + 8); - M2 = DEC64BE(block + 16); - M3 = DEC64BE(block + 24); - M4 = DEC64BE(block + 32); - M5 = DEC64BE(block + 40); - M6 = DEC64BE(block + 48); - M7 = DEC64BE(block + 56); - M8 = DEC64BE(block + 64); - M9 = DEC64BE(block + 72); - M9 &= 0xFFFFFFFF00000000; - M9 ^= SWAP4(gid); - MA = 0x8000000000000000; - MB = 0; - MC = 0; - MD = 1; - ME = 0; - MF = 0x280; - - COMPRESS64; - - hash.h8[0] = H0; - hash.h8[1] = H1; - hash.h8[2] = H2; - hash.h8[3] = H3; - hash.h8[4] = H4; - hash.h8[5] = H5; - hash.h8[6] = H6; - hash.h8[7] = H7; -} - // bmw - - - sph_u64 BMW_H[16]; -#pragma unroll 16 - for(unsigned u = 0; u < 16; u++) - BMW_H[u] = BMW_IV512[u]; - - sph_u64 mv[16],q[32]; - sph_u64 tmp; - - mv[ 0] = SWAP8(hash.h8[0]); - mv[ 1] = SWAP8(hash.h8[1]); - mv[ 2] = SWAP8(hash.h8[2]); - mv[ 3] = SWAP8(hash.h8[3]); - mv[ 4] = SWAP8(hash.h8[4]); - mv[ 5] = SWAP8(hash.h8[5]); - mv[ 6] = SWAP8(hash.h8[6]); - mv[ 7] = SWAP8(hash.h8[7]); - mv[ 8] = 0x80; - mv[ 9] = 0; - mv[10] = 0; - mv[11] = 0; - mv[12] = 0; - mv[13] = 0; - mv[14] = 0; - mv[15] = SPH_C64(512); - - tmp = (mv[ 5] ^ BMW_H[ 5]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[10] ^ BMW_H[10]) + (mv[13] ^ BMW_H[13]) + (mv[14] ^ BMW_H[14]); - q[0] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[1]; - tmp = (mv[ 6] ^ BMW_H[ 6]) - (mv[ 8] ^ BMW_H[ 8]) + (mv[11] ^ BMW_H[11]) + (mv[14] ^ BMW_H[14]) - (mv[15] ^ BMW_H[15]); - q[1] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[2]; - tmp = (mv[ 0] ^ BMW_H[ 0]) + (mv[ 7] ^ BMW_H[ 7]) + (mv[ 9] ^ BMW_H[ 9]) - (mv[12] ^ BMW_H[12]) + (mv[15] ^ BMW_H[15]); - q[2] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[3]; - tmp = (mv[ 0] ^ BMW_H[ 0]) - (mv[ 1] ^ BMW_H[ 1]) + (mv[ 8] ^ BMW_H[ 8]) - (mv[10] ^ BMW_H[10]) + (mv[13] ^ BMW_H[13]); - q[3] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[4]; - tmp = (mv[ 1] ^ BMW_H[ 1]) + (mv[ 2] ^ BMW_H[ 2]) + (mv[ 9] ^ BMW_H[ 9]) - (mv[11] ^ BMW_H[11]) - (mv[14] ^ BMW_H[14]); - q[4] = (SHR(tmp, 1) ^ tmp) + BMW_H[5]; - tmp = (mv[ 3] ^ BMW_H[ 3]) - (mv[ 2] ^ BMW_H[ 2]) + (mv[10] ^ BMW_H[10]) - (mv[12] ^ BMW_H[12]) + (mv[15] ^ BMW_H[15]); - q[5] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[6]; - tmp = (mv[ 4] ^ BMW_H[ 4]) - (mv[ 0] ^ BMW_H[ 0]) - (mv[ 3] ^ BMW_H[ 3]) - (mv[11] ^ BMW_H[11]) + (mv[13] ^ BMW_H[13]); - q[6] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[7]; - tmp = (mv[ 1] ^ BMW_H[ 1]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 5] ^ BMW_H[ 5]) - (mv[12] ^ BMW_H[12]) - (mv[14] ^ BMW_H[14]); - q[7] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[8]; - tmp = (mv[ 2] ^ BMW_H[ 2]) - (mv[ 5] ^ BMW_H[ 5]) - (mv[ 6] ^ BMW_H[ 6]) + (mv[13] ^ BMW_H[13]) - (mv[15] ^ BMW_H[15]); - q[8] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[9]; - tmp = (mv[ 0] ^ BMW_H[ 0]) - (mv[ 3] ^ BMW_H[ 3]) + (mv[ 6] ^ BMW_H[ 6]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[14] ^ BMW_H[14]); - q[9] = (SHR(tmp, 1) ^ tmp) + BMW_H[10]; - tmp = (mv[ 8] ^ BMW_H[ 8]) - (mv[ 1] ^ BMW_H[ 1]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[15] ^ BMW_H[15]); - q[10] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[11]; - tmp = (mv[ 8] ^ BMW_H[ 8]) - (mv[ 0] ^ BMW_H[ 0]) - (mv[ 2] ^ BMW_H[ 2]) - (mv[ 5] ^ BMW_H[ 5]) + (mv[ 9] ^ BMW_H[ 9]); - q[11] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[12]; - tmp = (mv[ 1] ^ BMW_H[ 1]) + (mv[ 3] ^ BMW_H[ 3]) - (mv[ 6] ^ BMW_H[ 6]) - (mv[ 9] ^ BMW_H[ 9]) + (mv[10] ^ BMW_H[10]); - q[12] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[13]; - tmp = (mv[ 2] ^ BMW_H[ 2]) + (mv[ 4] ^ BMW_H[ 4]) + (mv[ 7] ^ BMW_H[ 7]) + (mv[10] ^ BMW_H[10]) + (mv[11] ^ BMW_H[11]); - q[13] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[14]; - tmp = (mv[ 3] ^ BMW_H[ 3]) - (mv[ 5] ^ BMW_H[ 5]) + (mv[ 8] ^ BMW_H[ 8]) - (mv[11] ^ BMW_H[11]) - (mv[12] ^ BMW_H[12]); - q[14] = (SHR(tmp, 1) ^ tmp) + BMW_H[15]; - tmp = (mv[12] ^ BMW_H[12]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 6] ^ BMW_H[ 6]) - (mv[ 9] ^ BMW_H[ 9]) + (mv[13] ^ BMW_H[13]); - q[15] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[0]; - -#pragma unroll 2 - for(int i=0;i<2;i++) - { - q[i+16] = - (SHR(q[i], 1) ^ SHL(q[i], 2) ^ SPH_ROTL64(q[i], 13) ^ SPH_ROTL64(q[i], 43)) + - (SHR(q[i+1], 2) ^ SHL(q[i+1], 1) ^ SPH_ROTL64(q[i+1], 19) ^ SPH_ROTL64(q[i+1], 53)) + - (SHR(q[i+2], 2) ^ SHL(q[i+2], 2) ^ SPH_ROTL64(q[i+2], 28) ^ SPH_ROTL64(q[i+2], 59)) + - (SHR(q[i+3], 1) ^ SHL(q[i+3], 3) ^ SPH_ROTL64(q[i+3], 4) ^ SPH_ROTL64(q[i+3], 37)) + - (SHR(q[i+4], 1) ^ SHL(q[i+4], 2) ^ SPH_ROTL64(q[i+4], 13) ^ SPH_ROTL64(q[i+4], 43)) + - (SHR(q[i+5], 2) ^ SHL(q[i+5], 1) ^ SPH_ROTL64(q[i+5], 19) ^ SPH_ROTL64(q[i+5], 53)) + - (SHR(q[i+6], 2) ^ SHL(q[i+6], 2) ^ SPH_ROTL64(q[i+6], 28) ^ SPH_ROTL64(q[i+6], 59)) + - (SHR(q[i+7], 1) ^ SHL(q[i+7], 3) ^ SPH_ROTL64(q[i+7], 4) ^ SPH_ROTL64(q[i+7], 37)) + - (SHR(q[i+8], 1) ^ SHL(q[i+8], 2) ^ SPH_ROTL64(q[i+8], 13) ^ SPH_ROTL64(q[i+8], 43)) + - (SHR(q[i+9], 2) ^ SHL(q[i+9], 1) ^ SPH_ROTL64(q[i+9], 19) ^ SPH_ROTL64(q[i+9], 53)) + - (SHR(q[i+10], 2) ^ SHL(q[i+10], 2) ^ SPH_ROTL64(q[i+10], 28) ^ SPH_ROTL64(q[i+10], 59)) + - (SHR(q[i+11], 1) ^ SHL(q[i+11], 3) ^ SPH_ROTL64(q[i+11], 4) ^ SPH_ROTL64(q[i+11], 37)) + - (SHR(q[i+12], 1) ^ SHL(q[i+12], 2) ^ SPH_ROTL64(q[i+12], 13) ^ SPH_ROTL64(q[i+12], 43)) + - (SHR(q[i+13], 2) ^ SHL(q[i+13], 1) ^ SPH_ROTL64(q[i+13], 19) ^ SPH_ROTL64(q[i+13], 53)) + - (SHR(q[i+14], 2) ^ SHL(q[i+14], 2) ^ SPH_ROTL64(q[i+14], 28) ^ SPH_ROTL64(q[i+14], 59)) + - (SHR(q[i+15], 1) ^ SHL(q[i+15], 3) ^ SPH_ROTL64(q[i+15], 4) ^ SPH_ROTL64(q[i+15], 37)) + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i+10], i+11) ) ^ BMW_H[i+7]); - } - -#pragma unroll 4 - for(int i=2;i<6;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i+10], i+11) ) ^ BMW_H[i+7]); - } -#pragma unroll 3 - for(int i=6;i<9;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i+7]); - } -#pragma unroll 4 - for(int i=9;i<13;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i-9]); - } -#pragma unroll 3 - for(int i=13;i<16;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i-13], (i-13)+1) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i-9]); - } - -sph_u64 XL64 = q[16]^q[17]^q[18]^q[19]^q[20]^q[21]^q[22]^q[23]; -sph_u64 XH64 = XL64^q[24]^q[25]^q[26]^q[27]^q[28]^q[29]^q[30]^q[31]; - - BMW_H[0] = (SHL(XH64, 5) ^ SHR(q[16],5) ^ mv[ 0]) + ( XL64 ^ q[24] ^ q[ 0]); - BMW_H[1] = (SHR(XH64, 7) ^ SHL(q[17],8) ^ mv[ 1]) + ( XL64 ^ q[25] ^ q[ 1]); - BMW_H[2] = (SHR(XH64, 5) ^ SHL(q[18],5) ^ mv[ 2]) + ( XL64 ^ q[26] ^ q[ 2]); - BMW_H[3] = (SHR(XH64, 1) ^ SHL(q[19],5) ^ mv[ 3]) + ( XL64 ^ q[27] ^ q[ 3]); - BMW_H[4] = (SHR(XH64, 3) ^ q[20] ^ mv[ 4]) + ( XL64 ^ q[28] ^ q[ 4]); - BMW_H[5] = (SHL(XH64, 6) ^ SHR(q[21],6) ^ mv[ 5]) + ( XL64 ^ q[29] ^ q[ 5]); - BMW_H[6] = (SHR(XH64, 4) ^ SHL(q[22],6) ^ mv[ 6]) + ( XL64 ^ q[30] ^ q[ 6]); - BMW_H[7] = (SHR(XH64,11) ^ SHL(q[23],2) ^ mv[ 7]) + ( XL64 ^ q[31] ^ q[ 7]); - - BMW_H[ 8] = SPH_ROTL64(BMW_H[4], 9) + ( XH64 ^ q[24] ^ mv[ 8]) + (SHL(XL64,8) ^ q[23] ^ q[ 8]); - BMW_H[ 9] = SPH_ROTL64(BMW_H[5],10) + ( XH64 ^ q[25] ^ mv[ 9]) + (SHR(XL64,6) ^ q[16] ^ q[ 9]); - BMW_H[10] = SPH_ROTL64(BMW_H[6],11) + ( XH64 ^ q[26] ^ mv[10]) + (SHL(XL64,6) ^ q[17] ^ q[10]); - BMW_H[11] = SPH_ROTL64(BMW_H[7],12) + ( XH64 ^ q[27] ^ mv[11]) + (SHL(XL64,4) ^ q[18] ^ q[11]); - BMW_H[12] = SPH_ROTL64(BMW_H[0],13) + ( XH64 ^ q[28] ^ mv[12]) + (SHR(XL64,3) ^ q[19] ^ q[12]); - BMW_H[13] = SPH_ROTL64(BMW_H[1],14) + ( XH64 ^ q[29] ^ mv[13]) + (SHR(XL64,4) ^ q[20] ^ q[13]); - BMW_H[14] = SPH_ROTL64(BMW_H[2],15) + ( XH64 ^ q[30] ^ mv[14]) + (SHR(XL64,7) ^ q[21] ^ q[14]); - BMW_H[15] = SPH_ROTL64(BMW_H[3],16) + ( XH64 ^ q[31] ^ mv[15]) + (SHR(XL64,2) ^ q[22] ^ q[15]); - -#pragma unroll 16 - for(int i=0;i<16;i++) { - mv[i] = BMW_H[i]; - BMW_H[i] = 0xaaaaaaaaaaaaaaa0ull + (sph_u64)i; - } - - tmp = (mv[ 5] ^ BMW_H[ 5]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[10] ^ BMW_H[10]) + (mv[13] ^ BMW_H[13]) + (mv[14] ^ BMW_H[14]); - q[0] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[1]; - tmp = (mv[ 6] ^ BMW_H[ 6]) - (mv[ 8] ^ BMW_H[ 8]) + (mv[11] ^ BMW_H[11]) + (mv[14] ^ BMW_H[14]) - (mv[15] ^ BMW_H[15]); - q[1] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[2]; - tmp = (mv[ 0] ^ BMW_H[ 0]) + (mv[ 7] ^ BMW_H[ 7]) + (mv[ 9] ^ BMW_H[ 9]) - (mv[12] ^ BMW_H[12]) + (mv[15] ^ BMW_H[15]); - q[2] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[3]; - tmp = (mv[ 0] ^ BMW_H[ 0]) - (mv[ 1] ^ BMW_H[ 1]) + (mv[ 8] ^ BMW_H[ 8]) - (mv[10] ^ BMW_H[10]) + (mv[13] ^ BMW_H[13]); - q[3] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[4]; - tmp = (mv[ 1] ^ BMW_H[ 1]) + (mv[ 2] ^ BMW_H[ 2]) + (mv[ 9] ^ BMW_H[ 9]) - (mv[11] ^ BMW_H[11]) - (mv[14] ^ BMW_H[14]); - q[4] = (SHR(tmp, 1) ^ tmp) + BMW_H[5]; - tmp = (mv[ 3] ^ BMW_H[ 3]) - (mv[ 2] ^ BMW_H[ 2]) + (mv[10] ^ BMW_H[10]) - (mv[12] ^ BMW_H[12]) + (mv[15] ^ BMW_H[15]); - q[5] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[6]; - tmp = (mv[ 4] ^ BMW_H[ 4]) - (mv[ 0] ^ BMW_H[ 0]) - (mv[ 3] ^ BMW_H[ 3]) - (mv[11] ^ BMW_H[11]) + (mv[13] ^ BMW_H[13]); - q[6] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[7]; - tmp = (mv[ 1] ^ BMW_H[ 1]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 5] ^ BMW_H[ 5]) - (mv[12] ^ BMW_H[12]) - (mv[14] ^ BMW_H[14]); - q[7] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[8]; - tmp = (mv[ 2] ^ BMW_H[ 2]) - (mv[ 5] ^ BMW_H[ 5]) - (mv[ 6] ^ BMW_H[ 6]) + (mv[13] ^ BMW_H[13]) - (mv[15] ^ BMW_H[15]); - q[8] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[9]; - tmp = (mv[ 0] ^ BMW_H[ 0]) - (mv[ 3] ^ BMW_H[ 3]) + (mv[ 6] ^ BMW_H[ 6]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[14] ^ BMW_H[14]); - q[9] = (SHR(tmp, 1) ^ tmp) + BMW_H[10]; - tmp = (mv[ 8] ^ BMW_H[ 8]) - (mv[ 1] ^ BMW_H[ 1]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[15] ^ BMW_H[15]); - q[10] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[11]; - tmp = (mv[ 8] ^ BMW_H[ 8]) - (mv[ 0] ^ BMW_H[ 0]) - (mv[ 2] ^ BMW_H[ 2]) - (mv[ 5] ^ BMW_H[ 5]) + (mv[ 9] ^ BMW_H[ 9]); - q[11] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[12]; - tmp = (mv[ 1] ^ BMW_H[ 1]) + (mv[ 3] ^ BMW_H[ 3]) - (mv[ 6] ^ BMW_H[ 6]) - (mv[ 9] ^ BMW_H[ 9]) + (mv[10] ^ BMW_H[10]); - q[12] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[13]; - tmp = (mv[ 2] ^ BMW_H[ 2]) + (mv[ 4] ^ BMW_H[ 4]) + (mv[ 7] ^ BMW_H[ 7]) + (mv[10] ^ BMW_H[10]) + (mv[11] ^ BMW_H[11]); - q[13] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[14]; - tmp = (mv[ 3] ^ BMW_H[ 3]) - (mv[ 5] ^ BMW_H[ 5]) + (mv[ 8] ^ BMW_H[ 8]) - (mv[11] ^ BMW_H[11]) - (mv[12] ^ BMW_H[12]); - q[14] = (SHR(tmp, 1) ^ tmp) + BMW_H[15]; - tmp = (mv[12] ^ BMW_H[12]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 6] ^ BMW_H[ 6]) - (mv[ 9] ^ BMW_H[ 9]) + (mv[13] ^ BMW_H[13]); - q[15] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[0]; - - -#pragma unroll 2 - for(int i=0;i<2;i++) - { - q[i+16] = - (SHR(q[i], 1) ^ SHL(q[i], 2) ^ SPH_ROTL64(q[i], 13) ^ SPH_ROTL64(q[i], 43)) + - (SHR(q[i+1], 2) ^ SHL(q[i+1], 1) ^ SPH_ROTL64(q[i+1], 19) ^ SPH_ROTL64(q[i+1], 53)) + - (SHR(q[i+2], 2) ^ SHL(q[i+2], 2) ^ SPH_ROTL64(q[i+2], 28) ^ SPH_ROTL64(q[i+2], 59)) + - (SHR(q[i+3], 1) ^ SHL(q[i+3], 3) ^ SPH_ROTL64(q[i+3], 4) ^ SPH_ROTL64(q[i+3], 37)) + - (SHR(q[i+4], 1) ^ SHL(q[i+4], 2) ^ SPH_ROTL64(q[i+4], 13) ^ SPH_ROTL64(q[i+4], 43)) + - (SHR(q[i+5], 2) ^ SHL(q[i+5], 1) ^ SPH_ROTL64(q[i+5], 19) ^ SPH_ROTL64(q[i+5], 53)) + - (SHR(q[i+6], 2) ^ SHL(q[i+6], 2) ^ SPH_ROTL64(q[i+6], 28) ^ SPH_ROTL64(q[i+6], 59)) + - (SHR(q[i+7], 1) ^ SHL(q[i+7], 3) ^ SPH_ROTL64(q[i+7], 4) ^ SPH_ROTL64(q[i+7], 37)) + - (SHR(q[i+8], 1) ^ SHL(q[i+8], 2) ^ SPH_ROTL64(q[i+8], 13) ^ SPH_ROTL64(q[i+8], 43)) + - (SHR(q[i+9], 2) ^ SHL(q[i+9], 1) ^ SPH_ROTL64(q[i+9], 19) ^ SPH_ROTL64(q[i+9], 53)) + - (SHR(q[i+10], 2) ^ SHL(q[i+10], 2) ^ SPH_ROTL64(q[i+10], 28) ^ SPH_ROTL64(q[i+10], 59)) + - (SHR(q[i+11], 1) ^ SHL(q[i+11], 3) ^ SPH_ROTL64(q[i+11], 4) ^ SPH_ROTL64(q[i+11], 37)) + - (SHR(q[i+12], 1) ^ SHL(q[i+12], 2) ^ SPH_ROTL64(q[i+12], 13) ^ SPH_ROTL64(q[i+12], 43)) + - (SHR(q[i+13], 2) ^ SHL(q[i+13], 1) ^ SPH_ROTL64(q[i+13], 19) ^ SPH_ROTL64(q[i+13], 53)) + - (SHR(q[i+14], 2) ^ SHL(q[i+14], 2) ^ SPH_ROTL64(q[i+14], 28) ^ SPH_ROTL64(q[i+14], 59)) + - (SHR(q[i+15], 1) ^ SHL(q[i+15], 3) ^ SPH_ROTL64(q[i+15], 4) ^ SPH_ROTL64(q[i+15], 37)) + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i+10], i+11) ) ^ BMW_H[i+7]); - } - -#pragma unroll 4 - for(int i=2;i<6;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i+10], i+11) ) ^ BMW_H[i+7]); - } -#pragma unroll 3 - for(int i=6;i<9;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i+7]); - } -#pragma unroll 4 - for(int i=9;i<13;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i-9]); - } -#pragma unroll 3 - for(int i=13;i<16;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i-13], (i-13)+1) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i-9]); - } - -XL64 = q[16]^q[17]^q[18]^q[19]^q[20]^q[21]^q[22]^q[23]; -XH64 = XL64^q[24]^q[25]^q[26]^q[27]^q[28]^q[29]^q[30]^q[31]; - BMW_H[0] = (SHL(XH64, 5) ^ SHR(q[16],5) ^ mv[ 0]) + ( XL64 ^ q[24] ^ q[ 0]); - BMW_H[1] = (SHR(XH64, 7) ^ SHL(q[17],8) ^ mv[ 1]) + ( XL64 ^ q[25] ^ q[ 1]); - BMW_H[2] = (SHR(XH64, 5) ^ SHL(q[18],5) ^ mv[ 2]) + ( XL64 ^ q[26] ^ q[ 2]); - BMW_H[3] = (SHR(XH64, 1) ^ SHL(q[19],5) ^ mv[ 3]) + ( XL64 ^ q[27] ^ q[ 3]); - BMW_H[4] = (SHR(XH64, 3) ^ q[20] ^ mv[ 4]) + ( XL64 ^ q[28] ^ q[ 4]); - BMW_H[5] = (SHL(XH64, 6) ^ SHR(q[21],6) ^ mv[ 5]) + ( XL64 ^ q[29] ^ q[ 5]); - BMW_H[6] = (SHR(XH64, 4) ^ SHL(q[22],6) ^ mv[ 6]) + ( XL64 ^ q[30] ^ q[ 6]); - BMW_H[7] = (SHR(XH64,11) ^ SHL(q[23],2) ^ mv[ 7]) + ( XL64 ^ q[31] ^ q[ 7]); - - BMW_H[ 8] = SPH_ROTL64(BMW_H[4], 9) + ( XH64 ^ q[24] ^ mv[ 8]) + (SHL(XL64,8) ^ q[23] ^ q[ 8]); - BMW_H[ 9] = SPH_ROTL64(BMW_H[5],10) + ( XH64 ^ q[25] ^ mv[ 9]) + (SHR(XL64,6) ^ q[16] ^ q[ 9]); - BMW_H[10] = SPH_ROTL64(BMW_H[6],11) + ( XH64 ^ q[26] ^ mv[10]) + (SHL(XL64,6) ^ q[17] ^ q[10]); - BMW_H[11] = SPH_ROTL64(BMW_H[7],12) + ( XH64 ^ q[27] ^ mv[11]) + (SHL(XL64,4) ^ q[18] ^ q[11]); - BMW_H[12] = SPH_ROTL64(BMW_H[0],13) + ( XH64 ^ q[28] ^ mv[12]) + (SHR(XL64,3) ^ q[19] ^ q[12]); - BMW_H[13] = SPH_ROTL64(BMW_H[1],14) + ( XH64 ^ q[29] ^ mv[13]) + (SHR(XL64,4) ^ q[20] ^ q[13]); - BMW_H[14] = SPH_ROTL64(BMW_H[2],15) + ( XH64 ^ q[30] ^ mv[14]) + (SHR(XL64,7) ^ q[21] ^ q[14]); - BMW_H[15] = SPH_ROTL64(BMW_H[3],16) + ( XH64 ^ q[31] ^ mv[15]) + (SHR(XL64,2) ^ q[22] ^ q[15]); - - hash.h8[0] = SWAP8(BMW_H[8]); - hash.h8[1] = SWAP8(BMW_H[9]); - hash.h8[2] = SWAP8(BMW_H[10]); - hash.h8[3] = SWAP8(BMW_H[11]); - hash.h8[4] = SWAP8(BMW_H[12]); - hash.h8[5] = SWAP8(BMW_H[13]); - hash.h8[6] = SWAP8(BMW_H[14]); - hash.h8[7] = SWAP8(BMW_H[15]); - - bool dec = ((hash.h1[7] & 0x8) != 0); - { - - // groestl -#if !SPH_SMALL_FOOTPRINT_GROESTL - __local sph_u64 T0_C[256], T1_C[256], T2_C[256], T3_C[256]; - __local sph_u64 T4_C[256], T5_C[256], T6_C[256], T7_C[256]; -#else - __local sph_u64 T0_C[256], T4_C[256]; -#endif - int init = get_local_id(0); - int step = get_local_size(0); - - for (int i = init; i < 256; i += step) - { - T0_C[i] = T0[i]; - T4_C[i] = T4[i]; -#if !SPH_SMALL_FOOTPRINT_GROESTL - T1_C[i] = T1[i]; - T2_C[i] = T2[i]; - T3_C[i] = T3[i]; - T5_C[i] = T5[i]; - T6_C[i] = T6[i]; - T7_C[i] = T7[i]; -#endif - } - barrier(CLK_LOCAL_MEM_FENCE); // groestl -#define T0 T0_C -#define T1 T1_C -#define T2 T2_C -#define T3 T3_C -#define T4 T4_C -#define T5 T5_C -#define T6 T6_C -#define T7 T7_C - sph_u64 H[16]; - for (unsigned int u = 0; u < 15; u ++) - H[u] = 0; - #if USE_LE - H[15] = ((sph_u64)(512 & 0xFF) << 56) | ((sph_u64)(512 & 0xFF00) << 40); - #else - H[15] = (sph_u64)512; - #endif - - sph_u64 g[16], m[16]; - m[0] = DEC64E(hash.h8[0]); - m[1] = DEC64E(hash.h8[1]); - m[2] = DEC64E(hash.h8[2]); - m[3] = DEC64E(hash.h8[3]); - m[4] = DEC64E(hash.h8[4]); - m[5] = DEC64E(hash.h8[5]); - m[6] = DEC64E(hash.h8[6]); - m[7] = DEC64E(hash.h8[7]); - for (unsigned int u = 0; u < 16; u ++) - g[u] = m[u] ^ H[u]; - m[8] = 0x80; g[8] = m[8] ^ H[8]; - m[9] = 0; g[9] = m[9] ^ H[9]; - m[10] = 0; g[10] = m[10] ^ H[10]; - m[11] = 0; g[11] = m[11] ^ H[11]; - m[12] = 0; g[12] = m[12] ^ H[12]; - m[13] = 0; g[13] = m[13] ^ H[13]; - m[14] = 0; g[14] = m[14] ^ H[14]; - m[15] = 0x100000000000000; g[15] = m[15] ^ H[15]; - PERM_BIG_P(g); - PERM_BIG_Q(m); - for (unsigned int u = 0; u < 16; u ++) - H[u] ^= g[u] ^ m[u]; - sph_u64 xH[16]; - for (unsigned int u = 0; u < 16; u ++) - xH[u] = H[u]; - PERM_BIG_P(xH); - for (unsigned int u = 0; u < 16; u ++) - H[u] ^= xH[u]; - for (unsigned int u = 0; u < 8; u ++) - hash.h8[u] = (dec ? DEC64E(H[u + 8]) : hash.h8[u]); - - } - { - - // skein - - sph_u64 h0 = SPH_C64(0x4903ADFF749C51CE), h1 = SPH_C64(0x0D95DE399746DF03), h2 = SPH_C64(0x8FD1934127C79BCE), h3 = SPH_C64(0x9A255629FF352CB1), h4 = SPH_C64(0x5DB62599DF6CA7B0), h5 = SPH_C64(0xEABE394CA9D5C3F4), h6 = SPH_C64(0x991112C71A75B523), h7 = SPH_C64(0xAE18A40B660FCC33); - sph_u64 m0, m1, m2, m3, m4, m5, m6, m7; - sph_u64 bcount = 0; - - m0 = SWAP8(hash.h8[0]); - m1 = SWAP8(hash.h8[1]); - m2 = SWAP8(hash.h8[2]); - m3 = SWAP8(hash.h8[3]); - m4 = SWAP8(hash.h8[4]); - m5 = SWAP8(hash.h8[5]); - m6 = SWAP8(hash.h8[6]); - m7 = SWAP8(hash.h8[7]); - UBI_BIG(480, 64); - bcount = 0; - m0 = m1 = m2 = m3 = m4 = m5 = m6 = m7 = 0; - UBI_BIG(510, 8); - hash.h8[0] = (!dec ? SWAP8(h0) : hash.h8[0]); - hash.h8[1] = (!dec ? SWAP8(h1) : hash.h8[1]); - hash.h8[2] = (!dec ? SWAP8(h2) : hash.h8[2]); - hash.h8[3] = (!dec ? SWAP8(h3) : hash.h8[3]); - hash.h8[4] = (!dec ? SWAP8(h4) : hash.h8[4]); - hash.h8[5] = (!dec ? SWAP8(h5) : hash.h8[5]); - hash.h8[6] = (!dec ? SWAP8(h6) : hash.h8[6]); - hash.h8[7] = (!dec ? SWAP8(h7) : hash.h8[7]); - } - - // groestl -#if !SPH_SMALL_FOOTPRINT_GROESTL - __local sph_u64 T0_C[256], T1_C[256], T2_C[256], T3_C[256]; - __local sph_u64 T4_C[256], T5_C[256], T6_C[256], T7_C[256]; -#else - __local sph_u64 T0_C[256], T4_C[256]; -#endif - int init = get_local_id(0); - int step = get_local_size(0); - - for (int i = init; i < 256; i += step) - { - T0_C[i] = T0[i]; - T4_C[i] = T4[i]; -#if !SPH_SMALL_FOOTPRINT_GROESTL - T1_C[i] = T1[i]; - T2_C[i] = T2[i]; - T3_C[i] = T3[i]; - T5_C[i] = T5[i]; - T6_C[i] = T6[i]; - T7_C[i] = T7[i]; -#endif - } - barrier(CLK_LOCAL_MEM_FENCE); // groestl -#define T0 T0_C -#define T1 T1_C -#define T2 T2_C -#define T3 T3_C -#define T4 T4_C -#define T5 T5_C -#define T6 T6_C -#define T7 T7_C - sph_u64 H[16]; - for (unsigned int u = 0; u < 15; u ++) - H[u] = 0; -#if USE_LE - H[15] = ((sph_u64)(512 & 0xFF) << 56) | ((sph_u64)(512 & 0xFF00) << 40); -#else - H[15] = (sph_u64)512; -#endif - - sph_u64 g[16], m[16]; - m[0] = DEC64E(hash.h8[0]); - m[1] = DEC64E(hash.h8[1]); - m[2] = DEC64E(hash.h8[2]); - m[3] = DEC64E(hash.h8[3]); - m[4] = DEC64E(hash.h8[4]); - m[5] = DEC64E(hash.h8[5]); - m[6] = DEC64E(hash.h8[6]); - m[7] = DEC64E(hash.h8[7]); - for (unsigned int u = 0; u < 16; u ++) - g[u] = m[u] ^ H[u]; - m[8] = 0x80; g[8] = m[8] ^ H[8]; - m[9] = 0; g[9] = m[9] ^ H[9]; - m[10] = 0; g[10] = m[10] ^ H[10]; - m[11] = 0; g[11] = m[11] ^ H[11]; - m[12] = 0; g[12] = m[12] ^ H[12]; - m[13] = 0; g[13] = m[13] ^ H[13]; - m[14] = 0; g[14] = m[14] ^ H[14]; - m[15] = 0x100000000000000; g[15] = m[15] ^ H[15]; - PERM_BIG_P(g); - PERM_BIG_Q(m); - for (unsigned int u = 0; u < 16; u ++) - H[u] ^= g[u] ^ m[u]; - sph_u64 xH[16]; - for (unsigned int u = 0; u < 16; u ++) - xH[u] = H[u]; - PERM_BIG_P(xH); - for (unsigned int u = 0; u < 16; u ++) - H[u] ^= xH[u]; - for (unsigned int u = 0; u < 8; u ++) - hash.h8[u] = DEC64E(H[u + 8]); - - // jh - - sph_u64 h0h = C64e(0x6fd14b963e00aa17), h0l = C64e(0x636a2e057a15d543), h1h = C64e(0x8a225e8d0c97ef0b), h1l = C64e(0xe9341259f2b3c361), h2h = C64e(0x891da0c1536f801e), h2l = C64e(0x2aa9056bea2b6d80), h3h = C64e(0x588eccdb2075baa6), h3l = C64e(0xa90f3a76baf83bf7); - sph_u64 h4h = C64e(0x0169e60541e34a69), h4l = C64e(0x46b58a8e2e6fe65a), h5h = C64e(0x1047a7d0c1843c24), h5l = C64e(0x3b6e71b12d5ac199), h6h = C64e(0xcf57f6ec9db1f856), h6l = C64e(0xa706887c5716b156), h7h = C64e(0xe3c2fcdfe68517fb), h7l = C64e(0x545a4678cc8cdd4b); -// tmp; - - for(int i = 0; i < 2; i++) - { - if (i == 0) { - h0h ^= DEC64E(hash.h8[0]); - h0l ^= DEC64E(hash.h8[1]); - h1h ^= DEC64E(hash.h8[2]); - h1l ^= DEC64E(hash.h8[3]); - h2h ^= DEC64E(hash.h8[4]); - h2l ^= DEC64E(hash.h8[5]); - h3h ^= DEC64E(hash.h8[6]); - h3l ^= DEC64E(hash.h8[7]); - } else if(i == 1) { - h4h ^= DEC64E(hash.h8[0]); - h4l ^= DEC64E(hash.h8[1]); - h5h ^= DEC64E(hash.h8[2]); - h5l ^= DEC64E(hash.h8[3]); - h6h ^= DEC64E(hash.h8[4]); - h6l ^= DEC64E(hash.h8[5]); - h7h ^= DEC64E(hash.h8[6]); - h7l ^= DEC64E(hash.h8[7]); - - h0h ^= 0x80; - h3l ^= 0x2000000000000; - } - E8; - } - h4h ^= 0x80; - h7l ^= 0x2000000000000; - - hash.h8[0] = DEC64E(h4h); - hash.h8[1] = DEC64E(h4l); - hash.h8[2] = DEC64E(h5h); - hash.h8[3] = DEC64E(h5l); - hash.h8[4] = DEC64E(h6h); - hash.h8[5] = DEC64E(h6l); - hash.h8[6] = DEC64E(h7h); - hash.h8[7] = DEC64E(h7l); - - dec = ((hash.h1[7] & 0x8) != 0); - { - - // blake - - sph_u64 H0 = SPH_C64(0x6A09E667F3BCC908), H1 = SPH_C64(0xBB67AE8584CAA73B); - sph_u64 H2 = SPH_C64(0x3C6EF372FE94F82B), H3 = SPH_C64(0xA54FF53A5F1D36F1); - sph_u64 H4 = SPH_C64(0x510E527FADE682D1), H5 = SPH_C64(0x9B05688C2B3E6C1F); - sph_u64 H6 = SPH_C64(0x1F83D9ABFB41BD6B), H7 = SPH_C64(0x5BE0CD19137E2179); - sph_u64 S0 = 0, S1 = 0, S2 = 0, S3 = 0; - sph_u64 T0 = SPH_C64(0xFFFFFFFFFFFFFC00) + (64 << 3), T1 = 0xFFFFFFFFFFFFFFFF;; - - if ((T0 = SPH_T64(T0 + 1024)) < 1024) - { - T1 = SPH_T64(T1 + 1); - } - sph_u64 M0, M1, M2, M3, M4, M5, M6, M7; - sph_u64 M8, M9, MA, MB, MC, MD, ME, MF; - sph_u64 V0, V1, V2, V3, V4, V5, V6, V7; - sph_u64 V8, V9, VA, VB, VC, VD, VE, VF; - M0 = hash.h8[0]; - M1 = hash.h8[1]; - M2 = hash.h8[2]; - M3 = hash.h8[3]; - M4 = hash.h8[4]; - M5 = hash.h8[5]; - M6 = hash.h8[6]; - M7 = hash.h8[7]; - M8 = 0x8000000000000000; - M9 = 0; - MA = 0; - MB = 0; - MC = 0; - MD = 1; - ME = 0; - MF = 0x200; - - COMPRESS64; - - hash.h8[0] = (dec ? H0 : hash.h8[0]); - hash.h8[1] = (dec ? H1 : hash.h8[1]); - hash.h8[2] = (dec ? H2 : hash.h8[2]); - hash.h8[3] = (dec ? H3 : hash.h8[3]); - hash.h8[4] = (dec ? H4 : hash.h8[4]); - hash.h8[5] = (dec ? H5 : hash.h8[5]); - hash.h8[6] = (dec ? H6 : hash.h8[6]); - hash.h8[7] = (dec ? H7 : hash.h8[7]); - - } - { - - // bmw - sph_u64 BMW_H[16]; -#pragma unroll 16 - for(unsigned u = 0; u < 16; u++) - BMW_H[u] = BMW_IV512[u]; - - sph_u64 mv[16],q[32]; -// sph_u64 tmp; - - mv[ 0] = SWAP8(hash.h8[0]); - mv[ 1] = SWAP8(hash.h8[1]); - mv[ 2] = SWAP8(hash.h8[2]); - mv[ 3] = SWAP8(hash.h8[3]); - mv[ 4] = SWAP8(hash.h8[4]); - mv[ 5] = SWAP8(hash.h8[5]); - mv[ 6] = SWAP8(hash.h8[6]); - mv[ 7] = SWAP8(hash.h8[7]); - mv[ 8] = 0x80; - mv[ 9] = 0; - mv[10] = 0; - mv[11] = 0; - mv[12] = 0; - mv[13] = 0; - mv[14] = 0; - mv[15] = SPH_C64(512); - - tmp = (mv[ 5] ^ BMW_H[ 5]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[10] ^ BMW_H[10]) + (mv[13] ^ BMW_H[13]) + (mv[14] ^ BMW_H[14]); - q[0] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[1]; - tmp = (mv[ 6] ^ BMW_H[ 6]) - (mv[ 8] ^ BMW_H[ 8]) + (mv[11] ^ BMW_H[11]) + (mv[14] ^ BMW_H[14]) - (mv[15] ^ BMW_H[15]); - q[1] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[2]; - tmp = (mv[ 0] ^ BMW_H[ 0]) + (mv[ 7] ^ BMW_H[ 7]) + (mv[ 9] ^ BMW_H[ 9]) - (mv[12] ^ BMW_H[12]) + (mv[15] ^ BMW_H[15]); - q[2] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[3]; - tmp = (mv[ 0] ^ BMW_H[ 0]) - (mv[ 1] ^ BMW_H[ 1]) + (mv[ 8] ^ BMW_H[ 8]) - (mv[10] ^ BMW_H[10]) + (mv[13] ^ BMW_H[13]); - q[3] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[4]; - tmp = (mv[ 1] ^ BMW_H[ 1]) + (mv[ 2] ^ BMW_H[ 2]) + (mv[ 9] ^ BMW_H[ 9]) - (mv[11] ^ BMW_H[11]) - (mv[14] ^ BMW_H[14]); - q[4] = (SHR(tmp, 1) ^ tmp) + BMW_H[5]; - tmp = (mv[ 3] ^ BMW_H[ 3]) - (mv[ 2] ^ BMW_H[ 2]) + (mv[10] ^ BMW_H[10]) - (mv[12] ^ BMW_H[12]) + (mv[15] ^ BMW_H[15]); - q[5] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[6]; - tmp = (mv[ 4] ^ BMW_H[ 4]) - (mv[ 0] ^ BMW_H[ 0]) - (mv[ 3] ^ BMW_H[ 3]) - (mv[11] ^ BMW_H[11]) + (mv[13] ^ BMW_H[13]); - q[6] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[7]; - tmp = (mv[ 1] ^ BMW_H[ 1]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 5] ^ BMW_H[ 5]) - (mv[12] ^ BMW_H[12]) - (mv[14] ^ BMW_H[14]); - q[7] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[8]; - tmp = (mv[ 2] ^ BMW_H[ 2]) - (mv[ 5] ^ BMW_H[ 5]) - (mv[ 6] ^ BMW_H[ 6]) + (mv[13] ^ BMW_H[13]) - (mv[15] ^ BMW_H[15]); - q[8] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[9]; - tmp = (mv[ 0] ^ BMW_H[ 0]) - (mv[ 3] ^ BMW_H[ 3]) + (mv[ 6] ^ BMW_H[ 6]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[14] ^ BMW_H[14]); - q[9] = (SHR(tmp, 1) ^ tmp) + BMW_H[10]; - tmp = (mv[ 8] ^ BMW_H[ 8]) - (mv[ 1] ^ BMW_H[ 1]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[15] ^ BMW_H[15]); - q[10] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[11]; - tmp = (mv[ 8] ^ BMW_H[ 8]) - (mv[ 0] ^ BMW_H[ 0]) - (mv[ 2] ^ BMW_H[ 2]) - (mv[ 5] ^ BMW_H[ 5]) + (mv[ 9] ^ BMW_H[ 9]); - q[11] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[12]; - tmp = (mv[ 1] ^ BMW_H[ 1]) + (mv[ 3] ^ BMW_H[ 3]) - (mv[ 6] ^ BMW_H[ 6]) - (mv[ 9] ^ BMW_H[ 9]) + (mv[10] ^ BMW_H[10]); - q[12] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[13]; - tmp = (mv[ 2] ^ BMW_H[ 2]) + (mv[ 4] ^ BMW_H[ 4]) + (mv[ 7] ^ BMW_H[ 7]) + (mv[10] ^ BMW_H[10]) + (mv[11] ^ BMW_H[11]); - q[13] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[14]; - tmp = (mv[ 3] ^ BMW_H[ 3]) - (mv[ 5] ^ BMW_H[ 5]) + (mv[ 8] ^ BMW_H[ 8]) - (mv[11] ^ BMW_H[11]) - (mv[12] ^ BMW_H[12]); - q[14] = (SHR(tmp, 1) ^ tmp) + BMW_H[15]; - tmp = (mv[12] ^ BMW_H[12]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 6] ^ BMW_H[ 6]) - (mv[ 9] ^ BMW_H[ 9]) + (mv[13] ^ BMW_H[13]); - q[15] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[0]; - -#pragma unroll 2 - for(int i=0;i<2;i++) - { - q[i+16] = - (SHR(q[i], 1) ^ SHL(q[i], 2) ^ SPH_ROTL64(q[i], 13) ^ SPH_ROTL64(q[i], 43)) + - (SHR(q[i+1], 2) ^ SHL(q[i+1], 1) ^ SPH_ROTL64(q[i+1], 19) ^ SPH_ROTL64(q[i+1], 53)) + - (SHR(q[i+2], 2) ^ SHL(q[i+2], 2) ^ SPH_ROTL64(q[i+2], 28) ^ SPH_ROTL64(q[i+2], 59)) + - (SHR(q[i+3], 1) ^ SHL(q[i+3], 3) ^ SPH_ROTL64(q[i+3], 4) ^ SPH_ROTL64(q[i+3], 37)) + - (SHR(q[i+4], 1) ^ SHL(q[i+4], 2) ^ SPH_ROTL64(q[i+4], 13) ^ SPH_ROTL64(q[i+4], 43)) + - (SHR(q[i+5], 2) ^ SHL(q[i+5], 1) ^ SPH_ROTL64(q[i+5], 19) ^ SPH_ROTL64(q[i+5], 53)) + - (SHR(q[i+6], 2) ^ SHL(q[i+6], 2) ^ SPH_ROTL64(q[i+6], 28) ^ SPH_ROTL64(q[i+6], 59)) + - (SHR(q[i+7], 1) ^ SHL(q[i+7], 3) ^ SPH_ROTL64(q[i+7], 4) ^ SPH_ROTL64(q[i+7], 37)) + - (SHR(q[i+8], 1) ^ SHL(q[i+8], 2) ^ SPH_ROTL64(q[i+8], 13) ^ SPH_ROTL64(q[i+8], 43)) + - (SHR(q[i+9], 2) ^ SHL(q[i+9], 1) ^ SPH_ROTL64(q[i+9], 19) ^ SPH_ROTL64(q[i+9], 53)) + - (SHR(q[i+10], 2) ^ SHL(q[i+10], 2) ^ SPH_ROTL64(q[i+10], 28) ^ SPH_ROTL64(q[i+10], 59)) + - (SHR(q[i+11], 1) ^ SHL(q[i+11], 3) ^ SPH_ROTL64(q[i+11], 4) ^ SPH_ROTL64(q[i+11], 37)) + - (SHR(q[i+12], 1) ^ SHL(q[i+12], 2) ^ SPH_ROTL64(q[i+12], 13) ^ SPH_ROTL64(q[i+12], 43)) + - (SHR(q[i+13], 2) ^ SHL(q[i+13], 1) ^ SPH_ROTL64(q[i+13], 19) ^ SPH_ROTL64(q[i+13], 53)) + - (SHR(q[i+14], 2) ^ SHL(q[i+14], 2) ^ SPH_ROTL64(q[i+14], 28) ^ SPH_ROTL64(q[i+14], 59)) + - (SHR(q[i+15], 1) ^ SHL(q[i+15], 3) ^ SPH_ROTL64(q[i+15], 4) ^ SPH_ROTL64(q[i+15], 37)) + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i+10], i+11) ) ^ BMW_H[i+7]); - } - -#pragma unroll 4 - for(int i=2;i<6;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i+10], i+11) ) ^ BMW_H[i+7]); - } -#pragma unroll 3 - for(int i=6;i<9;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i+7]); - } -#pragma unroll 4 - for(int i=9;i<13;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i-9]); - } -#pragma unroll 3 - for(int i=13;i<16;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i-13], (i-13)+1) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i-9]); - } - -sph_u64 XL64 = q[16]^q[17]^q[18]^q[19]^q[20]^q[21]^q[22]^q[23]; -sph_u64 XH64 = XL64^q[24]^q[25]^q[26]^q[27]^q[28]^q[29]^q[30]^q[31]; - - BMW_H[0] = (SHL(XH64, 5) ^ SHR(q[16],5) ^ mv[ 0]) + ( XL64 ^ q[24] ^ q[ 0]); - BMW_H[1] = (SHR(XH64, 7) ^ SHL(q[17],8) ^ mv[ 1]) + ( XL64 ^ q[25] ^ q[ 1]); - BMW_H[2] = (SHR(XH64, 5) ^ SHL(q[18],5) ^ mv[ 2]) + ( XL64 ^ q[26] ^ q[ 2]); - BMW_H[3] = (SHR(XH64, 1) ^ SHL(q[19],5) ^ mv[ 3]) + ( XL64 ^ q[27] ^ q[ 3]); - BMW_H[4] = (SHR(XH64, 3) ^ q[20] ^ mv[ 4]) + ( XL64 ^ q[28] ^ q[ 4]); - BMW_H[5] = (SHL(XH64, 6) ^ SHR(q[21],6) ^ mv[ 5]) + ( XL64 ^ q[29] ^ q[ 5]); - BMW_H[6] = (SHR(XH64, 4) ^ SHL(q[22],6) ^ mv[ 6]) + ( XL64 ^ q[30] ^ q[ 6]); - BMW_H[7] = (SHR(XH64,11) ^ SHL(q[23],2) ^ mv[ 7]) + ( XL64 ^ q[31] ^ q[ 7]); - - BMW_H[ 8] = SPH_ROTL64(BMW_H[4], 9) + ( XH64 ^ q[24] ^ mv[ 8]) + (SHL(XL64,8) ^ q[23] ^ q[ 8]); - BMW_H[ 9] = SPH_ROTL64(BMW_H[5],10) + ( XH64 ^ q[25] ^ mv[ 9]) + (SHR(XL64,6) ^ q[16] ^ q[ 9]); - BMW_H[10] = SPH_ROTL64(BMW_H[6],11) + ( XH64 ^ q[26] ^ mv[10]) + (SHL(XL64,6) ^ q[17] ^ q[10]); - BMW_H[11] = SPH_ROTL64(BMW_H[7],12) + ( XH64 ^ q[27] ^ mv[11]) + (SHL(XL64,4) ^ q[18] ^ q[11]); - BMW_H[12] = SPH_ROTL64(BMW_H[0],13) + ( XH64 ^ q[28] ^ mv[12]) + (SHR(XL64,3) ^ q[19] ^ q[12]); - BMW_H[13] = SPH_ROTL64(BMW_H[1],14) + ( XH64 ^ q[29] ^ mv[13]) + (SHR(XL64,4) ^ q[20] ^ q[13]); - BMW_H[14] = SPH_ROTL64(BMW_H[2],15) + ( XH64 ^ q[30] ^ mv[14]) + (SHR(XL64,7) ^ q[21] ^ q[14]); - BMW_H[15] = SPH_ROTL64(BMW_H[3],16) + ( XH64 ^ q[31] ^ mv[15]) + (SHR(XL64,2) ^ q[22] ^ q[15]); - -#pragma unroll 16 - for(int i=0;i<16;i++) { - mv[i] = BMW_H[i]; - BMW_H[i] = 0xaaaaaaaaaaaaaaa0ull + (sph_u64)i; - } - - tmp = (mv[ 5] ^ BMW_H[ 5]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[10] ^ BMW_H[10]) + (mv[13] ^ BMW_H[13]) + (mv[14] ^ BMW_H[14]); - q[0] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[1]; - tmp = (mv[ 6] ^ BMW_H[ 6]) - (mv[ 8] ^ BMW_H[ 8]) + (mv[11] ^ BMW_H[11]) + (mv[14] ^ BMW_H[14]) - (mv[15] ^ BMW_H[15]); - q[1] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[2]; - tmp = (mv[ 0] ^ BMW_H[ 0]) + (mv[ 7] ^ BMW_H[ 7]) + (mv[ 9] ^ BMW_H[ 9]) - (mv[12] ^ BMW_H[12]) + (mv[15] ^ BMW_H[15]); - q[2] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[3]; - tmp = (mv[ 0] ^ BMW_H[ 0]) - (mv[ 1] ^ BMW_H[ 1]) + (mv[ 8] ^ BMW_H[ 8]) - (mv[10] ^ BMW_H[10]) + (mv[13] ^ BMW_H[13]); - q[3] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[4]; - tmp = (mv[ 1] ^ BMW_H[ 1]) + (mv[ 2] ^ BMW_H[ 2]) + (mv[ 9] ^ BMW_H[ 9]) - (mv[11] ^ BMW_H[11]) - (mv[14] ^ BMW_H[14]); - q[4] = (SHR(tmp, 1) ^ tmp) + BMW_H[5]; - tmp = (mv[ 3] ^ BMW_H[ 3]) - (mv[ 2] ^ BMW_H[ 2]) + (mv[10] ^ BMW_H[10]) - (mv[12] ^ BMW_H[12]) + (mv[15] ^ BMW_H[15]); - q[5] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[6]; - tmp = (mv[ 4] ^ BMW_H[ 4]) - (mv[ 0] ^ BMW_H[ 0]) - (mv[ 3] ^ BMW_H[ 3]) - (mv[11] ^ BMW_H[11]) + (mv[13] ^ BMW_H[13]); - q[6] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[7]; - tmp = (mv[ 1] ^ BMW_H[ 1]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 5] ^ BMW_H[ 5]) - (mv[12] ^ BMW_H[12]) - (mv[14] ^ BMW_H[14]); - q[7] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[8]; - tmp = (mv[ 2] ^ BMW_H[ 2]) - (mv[ 5] ^ BMW_H[ 5]) - (mv[ 6] ^ BMW_H[ 6]) + (mv[13] ^ BMW_H[13]) - (mv[15] ^ BMW_H[15]); - q[8] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[9]; - tmp = (mv[ 0] ^ BMW_H[ 0]) - (mv[ 3] ^ BMW_H[ 3]) + (mv[ 6] ^ BMW_H[ 6]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[14] ^ BMW_H[14]); - q[9] = (SHR(tmp, 1) ^ tmp) + BMW_H[10]; - tmp = (mv[ 8] ^ BMW_H[ 8]) - (mv[ 1] ^ BMW_H[ 1]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 7] ^ BMW_H[ 7]) + (mv[15] ^ BMW_H[15]); - q[10] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[11]; - tmp = (mv[ 8] ^ BMW_H[ 8]) - (mv[ 0] ^ BMW_H[ 0]) - (mv[ 2] ^ BMW_H[ 2]) - (mv[ 5] ^ BMW_H[ 5]) + (mv[ 9] ^ BMW_H[ 9]); - q[11] = (SHR(tmp, 1) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 13) ^ SPH_ROTL64(tmp, 43)) + BMW_H[12]; - tmp = (mv[ 1] ^ BMW_H[ 1]) + (mv[ 3] ^ BMW_H[ 3]) - (mv[ 6] ^ BMW_H[ 6]) - (mv[ 9] ^ BMW_H[ 9]) + (mv[10] ^ BMW_H[10]); - q[12] = (SHR(tmp, 2) ^ SHL(tmp, 1) ^ SPH_ROTL64(tmp, 19) ^ SPH_ROTL64(tmp, 53)) + BMW_H[13]; - tmp = (mv[ 2] ^ BMW_H[ 2]) + (mv[ 4] ^ BMW_H[ 4]) + (mv[ 7] ^ BMW_H[ 7]) + (mv[10] ^ BMW_H[10]) + (mv[11] ^ BMW_H[11]); - q[13] = (SHR(tmp, 2) ^ SHL(tmp, 2) ^ SPH_ROTL64(tmp, 28) ^ SPH_ROTL64(tmp, 59)) + BMW_H[14]; - tmp = (mv[ 3] ^ BMW_H[ 3]) - (mv[ 5] ^ BMW_H[ 5]) + (mv[ 8] ^ BMW_H[ 8]) - (mv[11] ^ BMW_H[11]) - (mv[12] ^ BMW_H[12]); - q[14] = (SHR(tmp, 1) ^ tmp) + BMW_H[15]; - tmp = (mv[12] ^ BMW_H[12]) - (mv[ 4] ^ BMW_H[ 4]) - (mv[ 6] ^ BMW_H[ 6]) - (mv[ 9] ^ BMW_H[ 9]) + (mv[13] ^ BMW_H[13]); - q[15] = (SHR(tmp, 1) ^ SHL(tmp, 3) ^ SPH_ROTL64(tmp, 4) ^ SPH_ROTL64(tmp, 37)) + BMW_H[0]; - - -#pragma unroll 2 - for(int i=0;i<2;i++) - { - q[i+16] = - (SHR(q[i], 1) ^ SHL(q[i], 2) ^ SPH_ROTL64(q[i], 13) ^ SPH_ROTL64(q[i], 43)) + - (SHR(q[i+1], 2) ^ SHL(q[i+1], 1) ^ SPH_ROTL64(q[i+1], 19) ^ SPH_ROTL64(q[i+1], 53)) + - (SHR(q[i+2], 2) ^ SHL(q[i+2], 2) ^ SPH_ROTL64(q[i+2], 28) ^ SPH_ROTL64(q[i+2], 59)) + - (SHR(q[i+3], 1) ^ SHL(q[i+3], 3) ^ SPH_ROTL64(q[i+3], 4) ^ SPH_ROTL64(q[i+3], 37)) + - (SHR(q[i+4], 1) ^ SHL(q[i+4], 2) ^ SPH_ROTL64(q[i+4], 13) ^ SPH_ROTL64(q[i+4], 43)) + - (SHR(q[i+5], 2) ^ SHL(q[i+5], 1) ^ SPH_ROTL64(q[i+5], 19) ^ SPH_ROTL64(q[i+5], 53)) + - (SHR(q[i+6], 2) ^ SHL(q[i+6], 2) ^ SPH_ROTL64(q[i+6], 28) ^ SPH_ROTL64(q[i+6], 59)) + - (SHR(q[i+7], 1) ^ SHL(q[i+7], 3) ^ SPH_ROTL64(q[i+7], 4) ^ SPH_ROTL64(q[i+7], 37)) + - (SHR(q[i+8], 1) ^ SHL(q[i+8], 2) ^ SPH_ROTL64(q[i+8], 13) ^ SPH_ROTL64(q[i+8], 43)) + - (SHR(q[i+9], 2) ^ SHL(q[i+9], 1) ^ SPH_ROTL64(q[i+9], 19) ^ SPH_ROTL64(q[i+9], 53)) + - (SHR(q[i+10], 2) ^ SHL(q[i+10], 2) ^ SPH_ROTL64(q[i+10], 28) ^ SPH_ROTL64(q[i+10], 59)) + - (SHR(q[i+11], 1) ^ SHL(q[i+11], 3) ^ SPH_ROTL64(q[i+11], 4) ^ SPH_ROTL64(q[i+11], 37)) + - (SHR(q[i+12], 1) ^ SHL(q[i+12], 2) ^ SPH_ROTL64(q[i+12], 13) ^ SPH_ROTL64(q[i+12], 43)) + - (SHR(q[i+13], 2) ^ SHL(q[i+13], 1) ^ SPH_ROTL64(q[i+13], 19) ^ SPH_ROTL64(q[i+13], 53)) + - (SHR(q[i+14], 2) ^ SHL(q[i+14], 2) ^ SPH_ROTL64(q[i+14], 28) ^ SPH_ROTL64(q[i+14], 59)) + - (SHR(q[i+15], 1) ^ SHL(q[i+15], 3) ^ SPH_ROTL64(q[i+15], 4) ^ SPH_ROTL64(q[i+15], 37)) + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i+10], i+11) ) ^ BMW_H[i+7]); - } - -#pragma unroll 4 - for(int i=2;i<6;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i+10], i+11) ) ^ BMW_H[i+7]); - } -#pragma unroll 3 - for(int i=6;i<9;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i+7]); - } -#pragma unroll 4 - for(int i=9;i<13;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i+3], i+4) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i-9]); - } -#pragma unroll 3 - for(int i=13;i<16;i++) { - q[i+16] = CONST_EXP2 + - (( ((i+16)*(0x0555555555555555ull)) + SPH_ROTL64(mv[i], i+1) + - SPH_ROTL64(mv[i-13], (i-13)+1) - SPH_ROTL64(mv[i-6], (i-6)+1) ) ^ BMW_H[i-9]); - } - -XL64 = q[16]^q[17]^q[18]^q[19]^q[20]^q[21]^q[22]^q[23]; -XH64 = XL64^q[24]^q[25]^q[26]^q[27]^q[28]^q[29]^q[30]^q[31]; - BMW_H[0] = (SHL(XH64, 5) ^ SHR(q[16],5) ^ mv[ 0]) + ( XL64 ^ q[24] ^ q[ 0]); - BMW_H[1] = (SHR(XH64, 7) ^ SHL(q[17],8) ^ mv[ 1]) + ( XL64 ^ q[25] ^ q[ 1]); - BMW_H[2] = (SHR(XH64, 5) ^ SHL(q[18],5) ^ mv[ 2]) + ( XL64 ^ q[26] ^ q[ 2]); - BMW_H[3] = (SHR(XH64, 1) ^ SHL(q[19],5) ^ mv[ 3]) + ( XL64 ^ q[27] ^ q[ 3]); - BMW_H[4] = (SHR(XH64, 3) ^ q[20] ^ mv[ 4]) + ( XL64 ^ q[28] ^ q[ 4]); - BMW_H[5] = (SHL(XH64, 6) ^ SHR(q[21],6) ^ mv[ 5]) + ( XL64 ^ q[29] ^ q[ 5]); - BMW_H[6] = (SHR(XH64, 4) ^ SHL(q[22],6) ^ mv[ 6]) + ( XL64 ^ q[30] ^ q[ 6]); - BMW_H[7] = (SHR(XH64,11) ^ SHL(q[23],2) ^ mv[ 7]) + ( XL64 ^ q[31] ^ q[ 7]); - - BMW_H[ 8] = SPH_ROTL64(BMW_H[4], 9) + ( XH64 ^ q[24] ^ mv[ 8]) + (SHL(XL64,8) ^ q[23] ^ q[ 8]); - BMW_H[ 9] = SPH_ROTL64(BMW_H[5],10) + ( XH64 ^ q[25] ^ mv[ 9]) + (SHR(XL64,6) ^ q[16] ^ q[ 9]); - BMW_H[10] = SPH_ROTL64(BMW_H[6],11) + ( XH64 ^ q[26] ^ mv[10]) + (SHL(XL64,6) ^ q[17] ^ q[10]); - BMW_H[11] = SPH_ROTL64(BMW_H[7],12) + ( XH64 ^ q[27] ^ mv[11]) + (SHL(XL64,4) ^ q[18] ^ q[11]); - BMW_H[12] = SPH_ROTL64(BMW_H[0],13) + ( XH64 ^ q[28] ^ mv[12]) + (SHR(XL64,3) ^ q[19] ^ q[12]); - BMW_H[13] = SPH_ROTL64(BMW_H[1],14) + ( XH64 ^ q[29] ^ mv[13]) + (SHR(XL64,4) ^ q[20] ^ q[13]); - BMW_H[14] = SPH_ROTL64(BMW_H[2],15) + ( XH64 ^ q[30] ^ mv[14]) + (SHR(XL64,7) ^ q[21] ^ q[14]); - BMW_H[15] = SPH_ROTL64(BMW_H[3],16) + ( XH64 ^ q[31] ^ mv[15]) + (SHR(XL64,2) ^ q[22] ^ q[15]); - - - hash.h8[0] = (!dec ? SWAP8(BMW_H[8]) : hash.h8[0]); - hash.h8[1] = (!dec ? SWAP8(BMW_H[9]) : hash.h8[1]); - hash.h8[2] = (!dec ? SWAP8(BMW_H[10]) : hash.h8[2]); - hash.h8[3] = (!dec ? SWAP8(BMW_H[11]) : hash.h8[3]); - hash.h8[4] = (!dec ? SWAP8(BMW_H[12]) : hash.h8[4]); - hash.h8[5] = (!dec ? SWAP8(BMW_H[13]) : hash.h8[5]); - hash.h8[6] = (!dec ? SWAP8(BMW_H[14]) : hash.h8[6]); - hash.h8[7] = (!dec ? SWAP8(BMW_H[15]) : hash.h8[7]); - - } - - // keccak - - sph_u64 a00 = 0, a01 = 0, a02 = 0, a03 = 0, a04 = 0; - sph_u64 a10 = 0, a11 = 0, a12 = 0, a13 = 0, a14 = 0; - sph_u64 a20 = 0, a21 = 0, a22 = 0, a23 = 0, a24 = 0; - sph_u64 a30 = 0, a31 = 0, a32 = 0, a33 = 0, a34 = 0; - sph_u64 a40 = 0, a41 = 0, a42 = 0, a43 = 0, a44 = 0; - - a10 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a20 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a31 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a22 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a23 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a04 = SPH_C64(0xFFFFFFFFFFFFFFFF); - - a00 ^= SWAP8(hash.h8[0]); - a10 ^= SWAP8(hash.h8[1]); - a20 ^= SWAP8(hash.h8[2]); - a30 ^= SWAP8(hash.h8[3]); - a40 ^= SWAP8(hash.h8[4]); - a01 ^= SWAP8(hash.h8[5]); - a11 ^= SWAP8(hash.h8[6]); - a21 ^= SWAP8(hash.h8[7]); - a31 ^= 0x8000000000000001; - KECCAK_F_1600; - // Finalize the "lane complement" - a10 = ~a10; - a20 = ~a20; - - hash.h8[0] = SWAP8(a00); - hash.h8[1] = SWAP8(a10); - hash.h8[2] = SWAP8(a20); - hash.h8[3] = SWAP8(a30); - hash.h8[4] = SWAP8(a40); - hash.h8[5] = SWAP8(a01); - hash.h8[6] = SWAP8(a11); - hash.h8[7] = SWAP8(a21); - - // skein - - sph_u64 h0 = SPH_C64(0x4903ADFF749C51CE), h1 = SPH_C64(0x0D95DE399746DF03), h2 = SPH_C64(0x8FD1934127C79BCE), h3 = SPH_C64(0x9A255629FF352CB1), h4 = SPH_C64(0x5DB62599DF6CA7B0), h5 = SPH_C64(0xEABE394CA9D5C3F4), h6 = SPH_C64(0x991112C71A75B523), h7 = SPH_C64(0xAE18A40B660FCC33); - sph_u64 m0, m1, m2, m3, m4, m5, m6, m7; - sph_u64 bcount = 0; - - m0 = SWAP8(hash.h8[0]); - m1 = SWAP8(hash.h8[1]); - m2 = SWAP8(hash.h8[2]); - m3 = SWAP8(hash.h8[3]); - m4 = SWAP8(hash.h8[4]); - m5 = SWAP8(hash.h8[5]); - m6 = SWAP8(hash.h8[6]); - m7 = SWAP8(hash.h8[7]); - UBI_BIG(480, 64); - bcount = 0; - m0 = m1 = m2 = m3 = m4 = m5 = m6 = m7 = 0; - UBI_BIG(510, 8); - hash.h8[0] = SWAP8(h0); - hash.h8[1] = SWAP8(h1); - hash.h8[2] = SWAP8(h2); - hash.h8[3] = SWAP8(h3); - hash.h8[4] = SWAP8(h4); - hash.h8[5] = SWAP8(h5); - hash.h8[6] = SWAP8(h6); - hash.h8[7] = SWAP8(h7); - - dec = ((hash.h1[7] & 0x8) != 0); - { - - // keccak - - sph_u64 a00 = 0, a01 = 0, a02 = 0, a03 = 0, a04 = 0; - sph_u64 a10 = 0, a11 = 0, a12 = 0, a13 = 0, a14 = 0; - sph_u64 a20 = 0, a21 = 0, a22 = 0, a23 = 0, a24 = 0; - sph_u64 a30 = 0, a31 = 0, a32 = 0, a33 = 0, a34 = 0; - sph_u64 a40 = 0, a41 = 0, a42 = 0, a43 = 0, a44 = 0; - - a10 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a20 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a31 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a22 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a23 = SPH_C64(0xFFFFFFFFFFFFFFFF); - a04 = SPH_C64(0xFFFFFFFFFFFFFFFF); - - a00 ^= SWAP8(hash.h8[0]); - a10 ^= SWAP8(hash.h8[1]); - a20 ^= SWAP8(hash.h8[2]); - a30 ^= SWAP8(hash.h8[3]); - a40 ^= SWAP8(hash.h8[4]); - a01 ^= SWAP8(hash.h8[5]); - a11 ^= SWAP8(hash.h8[6]); - a21 ^= SWAP8(hash.h8[7]); - a31 ^= 0x8000000000000001; - KECCAK_F_1600; - // Finalize the "lane complement" - a10 = ~a10; - a20 = ~a20; - - hash.h8[0] = (dec ? SWAP8(a00) : hash.h8[0]); - hash.h8[1] = (dec ? SWAP8(a10) : hash.h8[1]); - hash.h8[2] = (dec ? SWAP8(a20) : hash.h8[2]); - hash.h8[3] = (dec ? SWAP8(a30) : hash.h8[3]); - hash.h8[4] = (dec ? SWAP8(a40) : hash.h8[4]); - hash.h8[5] = (dec ? SWAP8(a01) : hash.h8[5]); - hash.h8[6] = (dec ? SWAP8(a11) : hash.h8[6]); - hash.h8[7] = (dec ? SWAP8(a21) : hash.h8[7]); - - } - { - - // jh - - sph_u64 h0h = C64e(0x6fd14b963e00aa17), h0l = C64e(0x636a2e057a15d543), h1h = C64e(0x8a225e8d0c97ef0b), h1l = C64e(0xe9341259f2b3c361), h2h = C64e(0x891da0c1536f801e), h2l = C64e(0x2aa9056bea2b6d80), h3h = C64e(0x588eccdb2075baa6), h3l = C64e(0xa90f3a76baf83bf7); - sph_u64 h4h = C64e(0x0169e60541e34a69), h4l = C64e(0x46b58a8e2e6fe65a), h5h = C64e(0x1047a7d0c1843c24), h5l = C64e(0x3b6e71b12d5ac199), h6h = C64e(0xcf57f6ec9db1f856), h6l = C64e(0xa706887c5716b156), h7h = C64e(0xe3c2fcdfe68517fb), h7l = C64e(0x545a4678cc8cdd4b); - sph_u64 tmp; - - for(int i = 0; i < 2; i++) - { - if (i == 0) { - h0h ^= DEC64E(hash.h8[0]); - h0l ^= DEC64E(hash.h8[1]); - h1h ^= DEC64E(hash.h8[2]); - h1l ^= DEC64E(hash.h8[3]); - h2h ^= DEC64E(hash.h8[4]); - h2l ^= DEC64E(hash.h8[5]); - h3h ^= DEC64E(hash.h8[6]); - h3l ^= DEC64E(hash.h8[7]); - } else if(i == 1) { - h4h ^= DEC64E(hash.h8[0]); - h4l ^= DEC64E(hash.h8[1]); - h5h ^= DEC64E(hash.h8[2]); - h5l ^= DEC64E(hash.h8[3]); - h6h ^= DEC64E(hash.h8[4]); - h6l ^= DEC64E(hash.h8[5]); - h7h ^= DEC64E(hash.h8[6]); - h7l ^= DEC64E(hash.h8[7]); - - h0h ^= 0x80; - h3l ^= 0x2000000000000; - } - E8; - } - h4h ^= 0x80; - h7l ^= 0x2000000000000; - - hash.h8[0] = (!dec ? DEC64E(h4h) : hash.h8[0]); - hash.h8[1] = (!dec ? DEC64E(h4l) : hash.h8[1]); - hash.h8[2] = (!dec ? DEC64E(h5h) : hash.h8[2]); - hash.h8[3] = (!dec ? DEC64E(h5l) : hash.h8[3]); - hash.h8[4] = (!dec ? DEC64E(h6h) : hash.h8[4]); - hash.h8[5] = (!dec ? DEC64E(h6l) : hash.h8[5]); - hash.h8[6] = (!dec ? DEC64E(h7h) : hash.h8[6]); - hash.h8[7] = (!dec ? DEC64E(h7l) : hash.h8[7]); - - } - - bool result = (SWAP8(hash.h8[3]) <= target); - if (result) - output[output[0xFF]++] = SWAP4(gid); -} - -#endif // QUARKCOIN_CL \ No newline at end of file diff --git a/kernel/qubitcoin.cl b/kernel/qubitcoin.cl deleted file mode 100644 index 8b65b7f72..000000000 --- a/kernel/qubitcoin.cl +++ /dev/null @@ -1,476 +0,0 @@ -/* - * QubitCoin kernel implementation. - * - * ==========================(LICENSE BEGIN)============================ - * - * Copyright (c) 2014 phm - * - * 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 phm - */ - -#ifndef QUBITCOIN_CL -#define QUBITCOIN_CL - -#if __ENDIAN_LITTLE__ -#define SPH_LITTLE_ENDIAN 1 -#else -#define SPH_BIG_ENDIAN 1 -#endif - -#define SPH_UPTR sph_u64 - -typedef unsigned int sph_u32; -typedef int sph_s32; -#ifndef __OPENCL_VERSION__ -typedef unsigned long long sph_u64; -typedef long long sph_s64; -#else -typedef unsigned long sph_u64; -typedef long sph_s64; -#endif - -#define SPH_64 1 -#define SPH_64_TRUE 1 - -#define SPH_C32(x) ((sph_u32)(x ## U)) -#define SPH_T32(x) (as_uint(x)) -#define SPH_ROTL32(x, n) rotate(as_uint(x), as_uint(n)) -#define SPH_ROTR32(x, n) SPH_ROTL32(x, (32 - (n))) - -#define SPH_C64(x) ((sph_u64)(x ## UL)) -#define SPH_T64(x) (as_ulong(x)) -#define SPH_ROTL64(x, n) rotate(as_ulong(x), (n) & 0xFFFFFFFFFFFFFFFFUL) -#define SPH_ROTR64(x, n) SPH_ROTL64(x, (64 - (n))) - -#define SPH_ECHO_64 1 -#define SPH_SIMD_NOCOPY 0 -#define SPH_CUBEHASH_UNROLL 0 - -#ifndef SPH_LUFFA_PARALLEL - #define SPH_LUFFA_PARALLEL 0 -#endif - -#include "luffa.cl" -#include "cubehash.cl" -#include "shavite.cl" -#include "simd.cl" -#include "echo.cl" - -#define SWAP4(x) as_uint(as_uchar4(x).wzyx) -#define SWAP8(x) as_ulong(as_uchar8(x).s76543210) - -#if SPH_BIG_ENDIAN - #define DEC64E(x) (x) - #define DEC32BE(x) (*(const __global sph_u32 *) (x)); -#else - #define DEC64E(x) SWAP8(x) - #define DEC32BE(x) SWAP4(*(const __global sph_u32 *) (x)); -#endif - -#define SHL(x, n) ((x) << (n)) -#define SHR(x, n) ((x) >> (n)) - -#define CONST_EXP2 q[i+0] + SPH_ROTL64(q[i+1], 5) + q[i+2] + SPH_ROTL64(q[i+3], 11) + \ - q[i+4] + SPH_ROTL64(q[i+5], 27) + q[i+6] + SPH_ROTL64(q[i+7], 32) + \ - q[i+8] + SPH_ROTL64(q[i+9], 37) + q[i+10] + SPH_ROTL64(q[i+11], 43) + \ - q[i+12] + SPH_ROTL64(q[i+13], 53) + (SHR(q[i+14],1) ^ q[i+14]) + (SHR(q[i+15],2) ^ q[i+15]) - -__attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) -__kernel void search(__global unsigned char* block, volatile __global uint* output, const ulong target) -{ - uint gid = get_global_id(0); - union { - unsigned char h1[64]; - uint h4[16]; - ulong h8[8]; - } hash; - - __local sph_u32 AES0[256], AES1[256], AES2[256], AES3[256]; - int init = get_local_id(0); - int step = get_local_size(0); - for (int i = init; i < 256; i += step) - { - AES0[i] = AES0_C[i]; - AES1[i] = AES1_C[i]; - AES2[i] = AES2_C[i]; - AES3[i] = AES3_C[i]; - } - barrier(CLK_LOCAL_MEM_FENCE); - - // luffa - { - sph_u32 V00 = SPH_C32(0x6d251e69), V01 = SPH_C32(0x44b051e0), V02 = SPH_C32(0x4eaa6fb4), V03 = SPH_C32(0xdbf78465), V04 = SPH_C32(0x6e292011), V05 = SPH_C32(0x90152df4), V06 = SPH_C32(0xee058139), V07 = SPH_C32(0xdef610bb); - sph_u32 V10 = SPH_C32(0xc3b44b95), V11 = SPH_C32(0xd9d2f256), V12 = SPH_C32(0x70eee9a0), V13 = SPH_C32(0xde099fa3), V14 = SPH_C32(0x5d9b0557), V15 = SPH_C32(0x8fc944b3), V16 = SPH_C32(0xcf1ccf0e), V17 = SPH_C32(0x746cd581); - sph_u32 V20 = SPH_C32(0xf7efc89d), V21 = SPH_C32(0x5dba5781), V22 = SPH_C32(0x04016ce5), V23 = SPH_C32(0xad659c05), V24 = SPH_C32(0x0306194f), V25 = SPH_C32(0x666d1836), V26 = SPH_C32(0x24aa230a), V27 = SPH_C32(0x8b264ae7); - sph_u32 V30 = SPH_C32(0x858075d5), V31 = SPH_C32(0x36d79cce), V32 = SPH_C32(0xe571f7d7), V33 = SPH_C32(0x204b1f67), V34 = SPH_C32(0x35870c6a), V35 = SPH_C32(0x57e9e923), V36 = SPH_C32(0x14bcb808), V37 = SPH_C32(0x7cde72ce); - sph_u32 V40 = SPH_C32(0x6c68e9be), V41 = SPH_C32(0x5ec41e22), V42 = SPH_C32(0xc825b7c7), V43 = SPH_C32(0xaffb4363), V44 = SPH_C32(0xf5df3999), V45 = SPH_C32(0x0fc688f1), V46 = SPH_C32(0xb07224cc), V47 = SPH_C32(0x03e86cea); - - DECL_TMP8(M); - - M0 = DEC32BE(block + 0); - M1 = DEC32BE(block + 4); - M2 = DEC32BE(block + 8); - M3 = DEC32BE(block + 12); - M4 = DEC32BE(block + 16); - M5 = DEC32BE(block + 20); - M6 = DEC32BE(block + 24); - M7 = DEC32BE(block + 28); - - for(uint i = 0; i < 5; i++) - { - MI5; - LUFFA_P5; - - if(i == 0) { - M0 = DEC32BE(block + 32); - M1 = DEC32BE(block + 36); - M2 = DEC32BE(block + 40); - M3 = DEC32BE(block + 44); - M4 = DEC32BE(block + 48); - M5 = DEC32BE(block + 52); - M6 = DEC32BE(block + 56); - M7 = DEC32BE(block + 60); - } else if(i == 1) { - M0 = DEC32BE(block + 64); - M1 = DEC32BE(block + 68); - M2 = DEC32BE(block + 72); - M3 = SWAP4(gid); - M4 = 0x80000000; - M5 = M6 = M7 = 0; - } else if(i == 2) { - M0 = M1 = M2 = M3 = M4 = M5 = M6 = M7 = 0; - } else if(i == 3) { - hash.h4[1] = V00 ^ V10 ^ V20 ^ V30 ^ V40; - hash.h4[0] = V01 ^ V11 ^ V21 ^ V31 ^ V41; - hash.h4[3] = V02 ^ V12 ^ V22 ^ V32 ^ V42; - hash.h4[2] = V03 ^ V13 ^ V23 ^ V33 ^ V43; - hash.h4[5] = V04 ^ V14 ^ V24 ^ V34 ^ V44; - hash.h4[4] = V05 ^ V15 ^ V25 ^ V35 ^ V45; - hash.h4[7] = V06 ^ V16 ^ V26 ^ V36 ^ V46; - hash.h4[6] = V07 ^ V17 ^ V27 ^ V37 ^ V47; - } - } - hash.h4[9] = V00 ^ V10 ^ V20 ^ V30 ^ V40; - hash.h4[8] = V01 ^ V11 ^ V21 ^ V31 ^ V41; - hash.h4[11] = V02 ^ V12 ^ V22 ^ V32 ^ V42; - hash.h4[10] = V03 ^ V13 ^ V23 ^ V33 ^ V43; - hash.h4[13] = V04 ^ V14 ^ V24 ^ V34 ^ V44; - hash.h4[12] = V05 ^ V15 ^ V25 ^ V35 ^ V45; - hash.h4[15] = V06 ^ V16 ^ V26 ^ V36 ^ V46; - hash.h4[14] = V07 ^ V17 ^ V27 ^ V37 ^ V47; - } - - // cubehash.h1 - { - sph_u32 x0 = SPH_C32(0x2AEA2A61), x1 = SPH_C32(0x50F494D4), x2 = SPH_C32(0x2D538B8B), x3 = SPH_C32(0x4167D83E); - sph_u32 x4 = SPH_C32(0x3FEE2313), x5 = SPH_C32(0xC701CF8C), x6 = SPH_C32(0xCC39968E), x7 = SPH_C32(0x50AC5695); - sph_u32 x8 = SPH_C32(0x4D42C787), x9 = SPH_C32(0xA647A8B3), xa = SPH_C32(0x97CF0BEF), xb = SPH_C32(0x825B4537); - sph_u32 xc = SPH_C32(0xEEF864D2), xd = SPH_C32(0xF22090C4), xe = SPH_C32(0xD0E5CD33), xf = SPH_C32(0xA23911AE); - sph_u32 xg = SPH_C32(0xFCD398D9), xh = SPH_C32(0x148FE485), xi = SPH_C32(0x1B017BEF), xj = SPH_C32(0xB6444532); - sph_u32 xk = SPH_C32(0x6A536159), xl = SPH_C32(0x2FF5781C), xm = SPH_C32(0x91FA7934), xn = SPH_C32(0x0DBADEA9); - sph_u32 xo = SPH_C32(0xD65C8A2B), xp = SPH_C32(0xA5A70E75), xq = SPH_C32(0xB1C62456), xr = SPH_C32(0xBC796576); - sph_u32 xs = SPH_C32(0x1921C8F7), xt = SPH_C32(0xE7989AF1), xu = SPH_C32(0x7795D246), xv = SPH_C32(0xD43E3B44); - - x0 ^= SWAP4(hash.h4[1]); - x1 ^= SWAP4(hash.h4[0]); - x2 ^= SWAP4(hash.h4[3]); - x3 ^= SWAP4(hash.h4[2]); - x4 ^= SWAP4(hash.h4[5]); - x5 ^= SWAP4(hash.h4[4]); - x6 ^= SWAP4(hash.h4[7]); - x7 ^= SWAP4(hash.h4[6]); - - for (int i = 0; i < 13; i ++) { - SIXTEEN_ROUNDS; - - if (i == 0) { - x0 ^= SWAP4(hash.h4[9]); - x1 ^= SWAP4(hash.h4[8]); - x2 ^= SWAP4(hash.h4[11]); - x3 ^= SWAP4(hash.h4[10]); - x4 ^= SWAP4(hash.h4[13]); - x5 ^= SWAP4(hash.h4[12]); - x6 ^= SWAP4(hash.h4[15]); - x7 ^= SWAP4(hash.h4[14]); - } else if(i == 1) { - x0 ^= 0x80; - } else if (i == 2) { - xv ^= SPH_C32(1); - } - } - - hash.h4[0] = x0; - hash.h4[1] = x1; - hash.h4[2] = x2; - hash.h4[3] = x3; - hash.h4[4] = x4; - hash.h4[5] = x5; - hash.h4[6] = x6; - hash.h4[7] = x7; - hash.h4[8] = x8; - hash.h4[9] = x9; - hash.h4[10] = xa; - hash.h4[11] = xb; - hash.h4[12] = xc; - hash.h4[13] = xd; - hash.h4[14] = xe; - hash.h4[15] = xf; - } - - // shavite - { - // IV - sph_u32 h0 = SPH_C32(0x72FCCDD8), h1 = SPH_C32(0x79CA4727), h2 = SPH_C32(0x128A077B), h3 = SPH_C32(0x40D55AEC); - sph_u32 h4 = SPH_C32(0xD1901A06), h5 = SPH_C32(0x430AE307), h6 = SPH_C32(0xB29F5CD1), h7 = SPH_C32(0xDF07FBFC); - sph_u32 h8 = SPH_C32(0x8E45D73D), h9 = SPH_C32(0x681AB538), hA = SPH_C32(0xBDE86578), hB = SPH_C32(0xDD577E47); - sph_u32 hC = SPH_C32(0xE275EADE), hD = SPH_C32(0x502D9FCD), hE = SPH_C32(0xB9357178), hF = SPH_C32(0x022A4B9A); - - // state - sph_u32 rk00, rk01, rk02, rk03, rk04, rk05, rk06, rk07; - sph_u32 rk08, rk09, rk0A, rk0B, rk0C, rk0D, rk0E, rk0F; - sph_u32 rk10, rk11, rk12, rk13, rk14, rk15, rk16, rk17; - sph_u32 rk18, rk19, rk1A, rk1B, rk1C, rk1D, rk1E, rk1F; - - sph_u32 sc_count0 = (64 << 3), sc_count1 = 0, sc_count2 = 0, sc_count3 = 0; - - rk00 = hash.h4[0]; - rk01 = hash.h4[1]; - rk02 = hash.h4[2]; - rk03 = hash.h4[3]; - rk04 = hash.h4[4]; - rk05 = hash.h4[5]; - rk06 = hash.h4[6]; - rk07 = hash.h4[7]; - rk08 = hash.h4[8]; - rk09 = hash.h4[9]; - rk0A = hash.h4[10]; - rk0B = hash.h4[11]; - rk0C = hash.h4[12]; - rk0D = hash.h4[13]; - rk0E = hash.h4[14]; - rk0F = hash.h4[15]; - rk10 = 0x80; - rk11 = rk12 = rk13 = rk14 = rk15 = rk16 = rk17 = rk18 = rk19 = rk1A = 0; - rk1B = 0x2000000; - rk1C = rk1D = rk1E = 0; - rk1F = 0x2000000; - - c512(buf); - - hash.h4[0] = h0; - hash.h4[1] = h1; - hash.h4[2] = h2; - hash.h4[3] = h3; - hash.h4[4] = h4; - hash.h4[5] = h5; - hash.h4[6] = h6; - hash.h4[7] = h7; - hash.h4[8] = h8; - hash.h4[9] = h9; - hash.h4[10] = hA; - hash.h4[11] = hB; - hash.h4[12] = hC; - hash.h4[13] = hD; - hash.h4[14] = hE; - hash.h4[15] = hF; - } - - // simd - { - s32 q[256]; - unsigned char x[128]; - for(unsigned int i = 0; i < 64; i++) - x[i] = hash.h1[i]; - for(unsigned int i = 64; i < 128; i++) - x[i] = 0; - - u32 A0 = C32(0x0BA16B95), A1 = C32(0x72F999AD), A2 = C32(0x9FECC2AE), A3 = C32(0xBA3264FC), A4 = C32(0x5E894929), A5 = C32(0x8E9F30E5), A6 = C32(0x2F1DAA37), A7 = C32(0xF0F2C558); - u32 B0 = C32(0xAC506643), B1 = C32(0xA90635A5), B2 = C32(0xE25B878B), B3 = C32(0xAAB7878F), B4 = C32(0x88817F7A), B5 = C32(0x0A02892B), B6 = C32(0x559A7550), B7 = C32(0x598F657E); - u32 C0 = C32(0x7EEF60A1), C1 = C32(0x6B70E3E8), C2 = C32(0x9C1714D1), C3 = C32(0xB958E2A8), C4 = C32(0xAB02675E), C5 = C32(0xED1C014F), C6 = C32(0xCD8D65BB), C7 = C32(0xFDB7A257); - u32 D0 = C32(0x09254899), D1 = C32(0xD699C7BC), D2 = C32(0x9019B6DC), D3 = C32(0x2B9022E4), D4 = C32(0x8FA14956), D5 = C32(0x21BF9BD3), D6 = C32(0xB94D0943), D7 = C32(0x6FFDDC22); - - FFT256(0, 1, 0, ll1); - for (int i = 0; i < 256; i ++) { - s32 tq; - - tq = q[i] + yoff_b_n[i]; - tq = REDS2(tq); - tq = REDS1(tq); - tq = REDS1(tq); - q[i] = (tq <= 128 ? tq : tq - 257); - } - - A0 ^= hash.h4[0]; - A1 ^= hash.h4[1]; - A2 ^= hash.h4[2]; - A3 ^= hash.h4[3]; - A4 ^= hash.h4[4]; - A5 ^= hash.h4[5]; - A6 ^= hash.h4[6]; - A7 ^= hash.h4[7]; - B0 ^= hash.h4[8]; - B1 ^= hash.h4[9]; - B2 ^= hash.h4[10]; - B3 ^= hash.h4[11]; - B4 ^= hash.h4[12]; - B5 ^= hash.h4[13]; - B6 ^= hash.h4[14]; - B7 ^= hash.h4[15]; - - ONE_ROUND_BIG(0_, 0, 3, 23, 17, 27); - ONE_ROUND_BIG(1_, 1, 28, 19, 22, 7); - ONE_ROUND_BIG(2_, 2, 29, 9, 15, 5); - ONE_ROUND_BIG(3_, 3, 4, 13, 10, 25); - - STEP_BIG( - C32(0x0BA16B95), C32(0x72F999AD), C32(0x9FECC2AE), C32(0xBA3264FC), - C32(0x5E894929), C32(0x8E9F30E5), C32(0x2F1DAA37), C32(0xF0F2C558), - IF, 4, 13, PP8_4_); - STEP_BIG( - C32(0xAC506643), C32(0xA90635A5), C32(0xE25B878B), C32(0xAAB7878F), - C32(0x88817F7A), C32(0x0A02892B), C32(0x559A7550), C32(0x598F657E), - IF, 13, 10, PP8_5_); - STEP_BIG( - C32(0x7EEF60A1), C32(0x6B70E3E8), C32(0x9C1714D1), C32(0xB958E2A8), - C32(0xAB02675E), C32(0xED1C014F), C32(0xCD8D65BB), C32(0xFDB7A257), - IF, 10, 25, PP8_6_); - STEP_BIG( - C32(0x09254899), C32(0xD699C7BC), C32(0x9019B6DC), C32(0x2B9022E4), - C32(0x8FA14956), C32(0x21BF9BD3), C32(0xB94D0943), C32(0x6FFDDC22), - IF, 25, 4, PP8_0_); - - u32 COPY_A0 = A0, COPY_A1 = A1, COPY_A2 = A2, COPY_A3 = A3, COPY_A4 = A4, COPY_A5 = A5, COPY_A6 = A6, COPY_A7 = A7; - u32 COPY_B0 = B0, COPY_B1 = B1, COPY_B2 = B2, COPY_B3 = B3, COPY_B4 = B4, COPY_B5 = B5, COPY_B6 = B6, COPY_B7 = B7; - u32 COPY_C0 = C0, COPY_C1 = C1, COPY_C2 = C2, COPY_C3 = C3, COPY_C4 = C4, COPY_C5 = C5, COPY_C6 = C6, COPY_C7 = C7; - u32 COPY_D0 = D0, COPY_D1 = D1, COPY_D2 = D2, COPY_D3 = D3, COPY_D4 = D4, COPY_D5 = D5, COPY_D6 = D6, COPY_D7 = D7; - - #define q SIMD_Q - - A0 ^= 0x200; - - ONE_ROUND_BIG(0_, 0, 3, 23, 17, 27); - ONE_ROUND_BIG(1_, 1, 28, 19, 22, 7); - ONE_ROUND_BIG(2_, 2, 29, 9, 15, 5); - ONE_ROUND_BIG(3_, 3, 4, 13, 10, 25); - STEP_BIG( - COPY_A0, COPY_A1, COPY_A2, COPY_A3, - COPY_A4, COPY_A5, COPY_A6, COPY_A7, - IF, 4, 13, PP8_4_); - STEP_BIG( - COPY_B0, COPY_B1, COPY_B2, COPY_B3, - COPY_B4, COPY_B5, COPY_B6, COPY_B7, - IF, 13, 10, PP8_5_); - STEP_BIG( - COPY_C0, COPY_C1, COPY_C2, COPY_C3, - COPY_C4, COPY_C5, COPY_C6, COPY_C7, - IF, 10, 25, PP8_6_); - STEP_BIG( - COPY_D0, COPY_D1, COPY_D2, COPY_D3, - COPY_D4, COPY_D5, COPY_D6, COPY_D7, - IF, 25, 4, PP8_0_); - #undef q - - hash.h4[0] = A0; - hash.h4[1] = A1; - hash.h4[2] = A2; - hash.h4[3] = A3; - hash.h4[4] = A4; - hash.h4[5] = A5; - hash.h4[6] = A6; - hash.h4[7] = A7; - hash.h4[8] = B0; - hash.h4[9] = B1; - hash.h4[10] = B2; - hash.h4[11] = B3; - hash.h4[12] = B4; - hash.h4[13] = B5; - hash.h4[14] = B6; - hash.h4[15] = B7; - } - - // echo - { - sph_u64 W00, W01, W10, W11, W20, W21, W30, W31, W40, W41, W50, W51, W60, W61, W70, W71, W80, W81, W90, W91, WA0, WA1, WB0, WB1, WC0, WC1, WD0, WD1, WE0, WE1, WF0, WF1; - sph_u64 Vb00, Vb01, Vb10, Vb11, Vb20, Vb21, Vb30, Vb31, Vb40, Vb41, Vb50, Vb51, Vb60, Vb61, Vb70, Vb71; - Vb00 = Vb10 = Vb20 = Vb30 = Vb40 = Vb50 = Vb60 = Vb70 = 512UL; - Vb01 = Vb11 = Vb21 = Vb31 = Vb41 = Vb51 = Vb61 = Vb71 = 0; - - sph_u32 K0 = 512; - sph_u32 K1 = 0; - sph_u32 K2 = 0; - sph_u32 K3 = 0; - - W00 = Vb00; - W01 = Vb01; - W10 = Vb10; - W11 = Vb11; - W20 = Vb20; - W21 = Vb21; - W30 = Vb30; - W31 = Vb31; - W40 = Vb40; - W41 = Vb41; - W50 = Vb50; - W51 = Vb51; - W60 = Vb60; - W61 = Vb61; - W70 = Vb70; - W71 = Vb71; - W80 = hash.h8[0]; - W81 = hash.h8[1]; - W90 = hash.h8[2]; - W91 = hash.h8[3]; - WA0 = hash.h8[4]; - WA1 = hash.h8[5]; - WB0 = hash.h8[6]; - WB1 = hash.h8[7]; - WC0 = 0x80; - WC1 = 0; - WD0 = 0; - WD1 = 0; - WE0 = 0; - WE1 = 0x200000000000000; - WF0 = 0x200; - WF1 = 0; - - for (unsigned u = 0; u < 10; u ++) { - BIG_ROUND; - } - - Vb00 ^= hash.h8[0] ^ W00 ^ W80; - Vb01 ^= hash.h8[1] ^ W01 ^ W81; - Vb10 ^= hash.h8[2] ^ W10 ^ W90; - Vb11 ^= hash.h8[3] ^ W11 ^ W91; - Vb20 ^= hash.h8[4] ^ W20 ^ WA0; - Vb21 ^= hash.h8[5] ^ W21 ^ WA1; - Vb30 ^= hash.h8[6] ^ W30 ^ WB0; - Vb31 ^= hash.h8[7] ^ W31 ^ WB1; - - bool result = (Vb11 <= target); - if (result) - output[output[0xFF]++] = SWAP4(gid); - } -} - -#endif // QUBITCOIN_CL \ No newline at end of file