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371 lines
12 KiB
371 lines
12 KiB
/* |
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* Streebog GOST R 34.10-2012 stripped CUDA implementation for final hash |
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* |
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* https://tools.ietf.org/html/rfc6986 |
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* https://en.wikipedia.org/wiki/Streebog |
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* |
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* ==========================(LICENSE BEGIN)============================ |
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* |
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* @author Tanguy Pruvot - 2017 |
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* @author Alexis Provos - 2016 |
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*/ |
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// Further improved with shared memory partial utilization |
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// Tested under CUDA7.5 toolkit for cp 5.0/5.2 |
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#include <miner.h> |
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#include <cuda_helper.h> |
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#include <cuda_vectors.h> |
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#include <cuda_vector_uint2x4.h> |
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#include "x11/streebog_arrays.cuh" |
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//#define FULL_UNROLL |
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__device__ __forceinline__ |
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static void GOST_FS(const uint2 shared[8][256],const uint2 *const __restrict__ state,uint2* return_state) |
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{ |
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return_state[0] = __ldg(&T02[__byte_perm(state[7].x,0,0x44440)]) |
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^ shared[1][__byte_perm(state[6].x,0,0x44440)] |
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^ shared[2][__byte_perm(state[5].x,0,0x44440)] |
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^ shared[3][__byte_perm(state[4].x,0,0x44440)] |
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^ shared[4][__byte_perm(state[3].x,0,0x44440)] |
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^ shared[5][__byte_perm(state[2].x,0,0x44440)] |
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^ shared[6][__byte_perm(state[1].x,0,0x44440)] |
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^ __ldg(&T72[__byte_perm(state[0].x,0,0x44440)]); |
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return_state[1] = __ldg(&T02[__byte_perm(state[7].x,0,0x44441)]) |
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^ __ldg(&T12[__byte_perm(state[6].x,0,0x44441)]) |
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^ shared[2][__byte_perm(state[5].x,0,0x44441)] |
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^ shared[3][__byte_perm(state[4].x,0,0x44441)] |
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^ shared[4][__byte_perm(state[3].x,0,0x44441)] |
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^ shared[5][__byte_perm(state[2].x,0,0x44441)] |
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^ shared[6][__byte_perm(state[1].x,0,0x44441)] |
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^ __ldg(&T72[__byte_perm(state[0].x,0,0x44441)]); |
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return_state[2] = __ldg(&T02[__byte_perm(state[7].x,0,0x44442)]) |
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^ __ldg(&T12[__byte_perm(state[6].x,0,0x44442)]) |
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^ shared[2][__byte_perm(state[5].x,0,0x44442)] |
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^ shared[3][__byte_perm(state[4].x,0,0x44442)] |
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^ shared[4][__byte_perm(state[3].x,0,0x44442)] |
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^ shared[5][__byte_perm(state[2].x,0,0x44442)] |
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^ __ldg(&T72[__byte_perm(state[0].x,0,0x44442)]) |
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^ shared[6][__byte_perm(state[1].x,0,0x44442)]; |
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return_state[3] = __ldg(&T02[__byte_perm(state[7].x,0,0x44443)]) |
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^ shared[1][__byte_perm(state[6].x,0,0x44443)] |
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^ shared[2][__byte_perm(state[5].x,0,0x44443)] |
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^ shared[3][__byte_perm(state[4].x,0,0x44443)] |
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^ __ldg(&T42[__byte_perm(state[3].x,0,0x44443)]) |
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^ shared[5][__byte_perm(state[2].x,0,0x44443)] |
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^ __ldg(&T72[__byte_perm(state[0].x,0,0x44443)]) |
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^ shared[6][__byte_perm(state[1].x,0,0x44443)]; |
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return_state[4] = __ldg(&T02[__byte_perm(state[7].y,0,0x44440)]) |
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^ shared[1][__byte_perm(state[6].y,0,0x44440)] |
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^ __ldg(&T22[__byte_perm(state[5].y,0,0x44440)]) |
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^ shared[3][__byte_perm(state[4].y,0,0x44440)] |
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^ shared[4][__byte_perm(state[3].y,0,0x44440)] |
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^ __ldg(&T62[__byte_perm(state[1].y,0,0x44440)]) |
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^ shared[5][__byte_perm(state[2].y,0,0x44440)] |
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^ __ldg(&T72[__byte_perm(state[0].y,0,0x44440)]); |
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return_state[5] = __ldg(&T02[__byte_perm(state[7].y,0,0x44441)]) |
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^ shared[2][__byte_perm(state[5].y,0,0x44441)] |
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^ __ldg(&T12[__byte_perm(state[6].y,0,0x44441)]) |
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^ shared[3][__byte_perm(state[4].y,0,0x44441)] |
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^ shared[4][__byte_perm(state[3].y,0,0x44441)] |
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^ shared[5][__byte_perm(state[2].y,0,0x44441)] |
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^ __ldg(&T62[__byte_perm(state[1].y,0,0x44441)]) |
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^ __ldg(&T72[__byte_perm(state[0].y,0,0x44441)]); |
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return_state[6] = __ldg(&T02[__byte_perm(state[7].y,0,0x44442)]) |
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^ shared[1][__byte_perm(state[6].y,0,0x44442)] |
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^ shared[2][__byte_perm(state[5].y,0,0x44442)] |
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^ shared[3][__byte_perm(state[4].y,0,0x44442)] |
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^ shared[4][__byte_perm(state[3].y,0,0x44442)] |
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^ shared[5][__byte_perm(state[2].y,0,0x44442)] |
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^ __ldg(&T62[__byte_perm(state[1].y,0,0x44442)]) |
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^ __ldg(&T72[__byte_perm(state[0].y,0,0x44442)]); |
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return_state[7] = __ldg(&T02[__byte_perm(state[7].y,0,0x44443)]) |
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^ __ldg(&T12[__byte_perm(state[6].y,0,0x44443)]) |
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^ shared[2][__byte_perm(state[5].y,0,0x44443)] |
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^ shared[3][__byte_perm(state[4].y,0,0x44443)] |
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^ shared[4][__byte_perm(state[3].y,0,0x44443)] |
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^ shared[5][__byte_perm(state[2].y,0,0x44443)] |
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^ __ldg(&T62[__byte_perm(state[1].y,0,0x44443)]) |
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^ __ldg(&T72[__byte_perm(state[0].y,0,0x44443)]); |
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} |
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__device__ __forceinline__ |
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static void GOST_FS_LDG(const uint2 shared[8][256],const uint2 *const __restrict__ state,uint2* return_state) |
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{ |
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return_state[0] = __ldg(&T02[__byte_perm(state[7].x,0,0x44440)]) |
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^ __ldg(&T12[__byte_perm(state[6].x,0,0x44440)]) |
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^ shared[2][__byte_perm(state[5].x,0,0x44440)] |
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^ shared[3][__byte_perm(state[4].x,0,0x44440)] |
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^ shared[4][__byte_perm(state[3].x,0,0x44440)] |
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^ shared[5][__byte_perm(state[2].x,0,0x44440)] |
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^ shared[6][__byte_perm(state[1].x,0,0x44440)] |
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^ __ldg(&T72[__byte_perm(state[0].x,0,0x44440)]); |
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return_state[1] = __ldg(&T02[__byte_perm(state[7].x,0,0x44441)]) |
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^ __ldg(&T12[__byte_perm(state[6].x,0,0x44441)]) |
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^ shared[2][__byte_perm(state[5].x,0,0x44441)] |
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^ shared[3][__byte_perm(state[4].x,0,0x44441)] |
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^ shared[4][__byte_perm(state[3].x,0,0x44441)] |
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^ shared[5][__byte_perm(state[2].x,0,0x44441)] |
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^ __ldg(&T72[__byte_perm(state[0].x,0,0x44441)]) |
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^ shared[6][__byte_perm(state[1].x,0,0x44441)]; |
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return_state[2] = __ldg(&T02[__byte_perm(state[7].x,0,0x44442)]) |
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^ __ldg(&T12[__byte_perm(state[6].x,0,0x44442)]) |
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^ shared[2][__byte_perm(state[5].x,0,0x44442)] |
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^ shared[3][__byte_perm(state[4].x,0,0x44442)] |
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^ shared[4][__byte_perm(state[3].x,0,0x44442)] |
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^ shared[5][__byte_perm(state[2].x,0,0x44442)] |
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^ shared[6][__byte_perm(state[1].x,0,0x44442)] |
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^ __ldg(&T72[__byte_perm(state[0].x,0,0x44442)]); |
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return_state[3] = __ldg(&T02[__byte_perm(state[7].x,0,0x44443)]) |
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^ __ldg(&T12[__byte_perm(state[6].x,0,0x44443)]) |
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^ shared[2][__byte_perm(state[5].x,0,0x44443)] |
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^ shared[3][__byte_perm(state[4].x,0,0x44443)] |
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^ shared[4][__byte_perm(state[3].x,0,0x44443)] |
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^ shared[5][__byte_perm(state[2].x,0,0x44443)] |
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^ shared[6][__byte_perm(state[1].x,0,0x44443)] |
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^ __ldg(&T72[__byte_perm(state[0].x,0,0x44443)]); |
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return_state[4] = __ldg(&T02[__byte_perm(state[7].y,0,0x44440)]) |
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^ shared[1][__byte_perm(state[6].y,0,0x44440)] |
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^ __ldg(&T22[__byte_perm(state[5].y,0,0x44440)]) |
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^ shared[3][__byte_perm(state[4].y,0,0x44440)] |
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^ shared[4][__byte_perm(state[3].y,0,0x44440)] |
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^ shared[5][__byte_perm(state[2].y,0,0x44440)] |
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^ __ldg(&T72[__byte_perm(state[0].y,0,0x44440)]) |
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^ __ldg(&T62[__byte_perm(state[1].y,0,0x44440)]); |
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return_state[5] = __ldg(&T02[__byte_perm(state[7].y,0,0x44441)]) |
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^ __ldg(&T12[__byte_perm(state[6].y,0,0x44441)]) |
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^ shared[2][__byte_perm(state[5].y,0,0x44441)] |
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^ shared[3][__byte_perm(state[4].y,0,0x44441)] |
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^ shared[4][__byte_perm(state[3].y,0,0x44441)] |
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^ shared[5][__byte_perm(state[2].y,0,0x44441)] |
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^ __ldg(&T72[__byte_perm(state[0].y,0,0x44441)]) |
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^ __ldg(&T62[__byte_perm(state[1].y,0,0x44441)]); |
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return_state[6] = __ldg(&T02[__byte_perm(state[7].y,0,0x44442)]) |
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^ __ldg(&T12[__byte_perm(state[6].y,0,0x44442)]) |
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^ __ldg(&T22[__byte_perm(state[5].y,0,0x44442)]) |
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^ shared[3][__byte_perm(state[4].y,0,0x44442)] |
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^ shared[4][__byte_perm(state[3].y,0,0x44442)] |
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^ shared[5][__byte_perm(state[2].y,0,0x44442)] |
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^ __ldg(&T72[__byte_perm(state[0].y,0,0x44442)]) |
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^ __ldg(&T62[__byte_perm(state[1].y,0,0x44442)]); |
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return_state[7] = __ldg(&T02[__byte_perm(state[7].y,0,0x44443)]) |
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^ shared[1][__byte_perm(state[6].y,0,0x44443)] |
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^ __ldg(&T22[__byte_perm(state[5].y,0,0x44443)]) |
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^ shared[3][__byte_perm(state[4].y,0,0x44443)] |
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^ shared[4][__byte_perm(state[3].y,0,0x44443)] |
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^ shared[5][__byte_perm(state[2].y,0,0x44443)] |
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^ __ldg(&T72[__byte_perm(state[0].y,0,0x44443)]) |
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^ __ldg(&T62[__byte_perm(state[1].y,0,0x44443)]); |
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} |
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__device__ __forceinline__ |
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static void GOST_E12(const uint2 shared[8][256],uint2 *const __restrict__ K, uint2 *const __restrict__ state) |
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{ |
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uint2 t[ 8]; |
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//#pragma unroll 12 |
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for(int i=0; i<12; i++){ |
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GOST_FS(shared,state, t); |
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#pragma unroll 8 |
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for(int j=0;j<8;j++) |
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K[ j] ^= *(uint2*)&CC[i][j]; |
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#pragma unroll 8 |
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for(int j=0;j<8;j++) |
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state[ j] = t[ j]; |
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GOST_FS_LDG(shared,K, t); |
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#pragma unroll 8 |
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for(int j=0;j<8;j++) |
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state[ j]^= t[ j]; |
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#pragma unroll 8 |
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for(int j=0;j<8;j++) |
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K[ j] = t[ j]; |
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} |
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} |
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__constant__ uint64_t target64[4]; |
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__host__ |
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void skunk_streebog_set_target(uint32_t* ptarget) |
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{ |
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cudaMemcpyToSymbol(target64, ptarget, 4*sizeof(uint64_t), 0, cudaMemcpyHostToDevice); |
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} |
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#define TPB 256 |
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__global__ |
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__launch_bounds__(TPB, 2) |
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void skunk_streebog_gpu_final_64(uint64_t *g_hash, uint32_t* resNonce) |
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{ |
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const uint32_t thread = (blockDim.x * blockIdx.x + threadIdx.x); |
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uint2 buf[8], t[8], temp[8], K0[8], hash[8]; |
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__shared__ uint2 shared[8][256]; |
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shared[0][threadIdx.x] = __ldg(&T02[threadIdx.x]); |
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shared[1][threadIdx.x] = __ldg(&T12[threadIdx.x]); |
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shared[2][threadIdx.x] = __ldg(&T22[threadIdx.x]); |
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shared[3][threadIdx.x] = __ldg(&T32[threadIdx.x]); |
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shared[4][threadIdx.x] = __ldg(&T42[threadIdx.x]); |
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shared[5][threadIdx.x] = __ldg(&T52[threadIdx.x]); |
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shared[6][threadIdx.x] = __ldg(&T62[threadIdx.x]); |
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shared[7][threadIdx.x] = __ldg(&T72[threadIdx.x]); |
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// if (thread < threads) |
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// { |
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uint64_t* inout = &g_hash[thread<<3]; |
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*(uint2x4*)&hash[0] = __ldg4((uint2x4*)&inout[0]); |
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*(uint2x4*)&hash[4] = __ldg4((uint2x4*)&inout[4]); |
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__threadfence_block(); |
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K0[0] = vectorize(0x74a5d4ce2efc83b3); |
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#pragma unroll 8 |
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for(uint32_t i=0;i<8;i++){ |
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buf[ i] = hash[ i] ^ K0[ 0]; |
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} |
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//#pragma unroll 12 |
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for(int i=0; i<12; i++){ |
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GOST_FS(shared, buf, temp); |
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#pragma unroll 8 |
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for(uint32_t j=0;j<8;j++){ |
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buf[ j] = temp[ j] ^ *(uint2*)&precomputed_values[i][j]; |
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} |
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} |
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#pragma unroll 8 |
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for(int j=0;j<8;j++){ |
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buf[ j]^= hash[ j]; |
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} |
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#pragma unroll 8 |
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for(int j=0;j<8;j++){ |
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K0[ j] = buf[ j]; |
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} |
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K0[7].y ^= 0x00020000; |
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GOST_FS(shared, K0, t); |
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#pragma unroll 8 |
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for(uint32_t i=0;i<8;i++) |
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K0[ i] = t[ i]; |
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t[7].y ^= 0x01000000; |
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GOST_E12(shared, K0, t); |
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#pragma unroll 8 |
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for(int j=0;j<8;j++) |
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buf[ j] ^= t[ j]; |
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buf[7].y ^= 0x01000000; |
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GOST_FS(shared, buf,K0); |
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buf[7].y ^= 0x00020000; |
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#pragma unroll 8 |
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for(uint32_t j=0;j<8;j++) |
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t[ j] = K0[ j]; |
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t[7].y ^= 0x00020000; |
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GOST_E12(shared, K0, t); |
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#pragma unroll 8 |
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for(uint32_t j=0;j<8;j++) |
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buf[ j] ^= t[ j]; |
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GOST_FS(shared, buf,K0); // K = F(h) |
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hash[7]+= vectorize(0x0100000000000000); |
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#pragma unroll 8 |
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for(uint32_t j=0;j<8;j++) |
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t[ j] = K0[ j] ^ hash[ j]; |
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// #pragma unroll |
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for(uint32_t i=0; i<10; i++){ |
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GOST_FS(shared, t, temp); |
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#pragma unroll 8 |
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for(uint32_t j=0;j<8;j++){ |
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t[ j] = temp[ j]; |
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K0[ j] = K0[ j] ^ *(uint2*)&CC[ i][ j]; |
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} |
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GOST_FS(shared, K0, temp); |
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#pragma unroll 8 |
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for(uint32_t j=0;j<8;j++){ |
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K0[ j] = temp[ j]; |
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t[ j]^= temp[ j]; |
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} |
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} |
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GOST_FS(shared, t, temp); |
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#pragma unroll 8 |
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for(uint32_t j=0;j<8;j++){ |
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t[ j] = temp[ j]; |
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K0[ j] = K0[ j] ^ *(uint2*)&CC[10][ j]; |
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} |
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GOST_FS(shared, K0, temp); |
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#pragma unroll 8 |
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for(int i=7;i>=0;i--){ |
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t[i].x = t[i].x ^ temp[i].x; |
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temp[i].x = temp[i].x ^ ((uint32_t*)&CC[11])[i<<1]; |
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} |
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uint2 last[2]; |
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#define T0(x) shared[0][x] |
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#define T1(x) shared[1][x] |
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#define T2(x) shared[2][x] |
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#define T3(x) shared[3][x] |
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#define T4(x) shared[4][x] |
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#define T5(x) shared[5][x] |
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#define T6(x) shared[6][x] |
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#define T7(x) shared[7][x] |
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last[ 0] = T0(__byte_perm(t[7].x,0,0x44443)) ^ T1(__byte_perm(t[6].x,0,0x44443)) |
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^ T2(__byte_perm(t[5].x,0,0x44443)) ^ T3(__byte_perm(t[4].x,0,0x44443)) |
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^ T4(__byte_perm(t[3].x,0,0x44443)) ^ T5(__byte_perm(t[2].x,0,0x44443)) |
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^ T6(__byte_perm(t[1].x,0,0x44443)) ^ T7(__byte_perm(t[0].x,0,0x44443)); |
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last[ 1] = T0(__byte_perm(temp[7].x,0,0x44443)) ^ T1(__byte_perm(temp[6].x,0,0x44443)) |
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^ T2(__byte_perm(temp[5].x,0,0x44443)) ^ T3(__byte_perm(temp[4].x,0,0x44443)) |
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^ T4(__byte_perm(temp[3].x,0,0x44443)) ^ T5(__byte_perm(temp[2].x,0,0x44443)) |
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^ T6(__byte_perm(temp[1].x,0,0x44443)) ^ T7(__byte_perm(temp[0].x,0,0x44443)); |
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if(devectorize(buf[3] ^ hash[3] ^ last[ 0] ^ last[ 1]) <= target64[3]){ |
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uint32_t tmp = atomicExch(&resNonce[0], thread); |
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if (tmp != UINT32_MAX) |
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resNonce[1] = tmp; |
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} |
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} |
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__host__ |
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void skunk_cuda_streebog(int thr_id, uint32_t threads, uint32_t *d_hash, uint32_t* d_resNonce) |
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{ |
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dim3 grid((threads + TPB-1) / TPB); |
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dim3 block(TPB); |
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skunk_streebog_gpu_final_64 <<< grid, block >>> ((uint64_t*)d_hash, d_resNonce); |
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}
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