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770 lines
19 KiB
770 lines
19 KiB
#include <stdio.h> |
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#include <stdint.h> |
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#include <memory.h> |
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#include "cuda_helper.h" |
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static __constant__ uint64_t c_PaddedMessage80[16]; // padded message (80 bytes + padding) |
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// Take a look at: https://www.schneier.com/skein1.3.pdf |
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#define SHL(x, n) ((x) << (n)) |
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#define SHR(x, n) ((x) >> (n)) |
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#if __CUDA_ARCH__ >= 320 |
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__device__ |
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uint64_t skein_rotl64(const uint64_t x, const int offset) |
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{ |
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uint64_t res; |
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asm("{\n\t" |
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".reg .u32 tl,th,vl,vh;\n\t" |
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".reg .pred p;\n\t" |
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"mov.b64 {tl,th}, %1;\n\t" |
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"shf.l.wrap.b32 vl, tl, th, %2;\n\t" |
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"shf.l.wrap.b32 vh, th, tl, %2;\n\t" |
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"setp.lt.u32 p, %2, 32;\n\t" |
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"@!p mov.b64 %0, {vl,vh};\n\t" |
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"@p mov.b64 %0, {vh,vl};\n\t" |
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"}" |
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: "=l"(res) : "l"(x) , "r"(offset) |
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); |
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return res; |
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} |
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#undef ROTL64 |
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#define ROTL64 skein_rotl64 |
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#endif |
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/* |
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* M9_ ## s ## _ ## i evaluates to s+i mod 9 (0 <= s <= 18, 0 <= i <= 7). |
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*/ |
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#define M9_0_0 0 |
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#define M9_0_1 1 |
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#define M9_0_2 2 |
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#define M9_0_3 3 |
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#define M9_0_4 4 |
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#define M9_0_5 5 |
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#define M9_0_6 6 |
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#define M9_0_7 7 |
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#define M9_1_0 1 |
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#define M9_1_1 2 |
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#define M9_1_2 3 |
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#define M9_1_3 4 |
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#define M9_1_4 5 |
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#define M9_1_5 6 |
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#define M9_1_6 7 |
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#define M9_1_7 8 |
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#define M9_2_0 2 |
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#define M9_2_1 3 |
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#define M9_2_2 4 |
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#define M9_2_3 5 |
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#define M9_2_4 6 |
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#define M9_2_5 7 |
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#define M9_2_6 8 |
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#define M9_2_7 0 |
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#define M9_3_0 3 |
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#define M9_3_1 4 |
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#define M9_3_2 5 |
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#define M9_3_3 6 |
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#define M9_3_4 7 |
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#define M9_3_5 8 |
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#define M9_3_6 0 |
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#define M9_3_7 1 |
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#define M9_4_0 4 |
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#define M9_4_1 5 |
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#define M9_4_2 6 |
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#define M9_4_3 7 |
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#define M9_4_4 8 |
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#define M9_4_5 0 |
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#define M9_4_6 1 |
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#define M9_4_7 2 |
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#define M9_5_0 5 |
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#define M9_5_1 6 |
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#define M9_5_2 7 |
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#define M9_5_3 8 |
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#define M9_5_4 0 |
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#define M9_5_5 1 |
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#define M9_5_6 2 |
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#define M9_5_7 3 |
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#define M9_6_0 6 |
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#define M9_6_1 7 |
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#define M9_6_2 8 |
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#define M9_6_3 0 |
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#define M9_6_4 1 |
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#define M9_6_5 2 |
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#define M9_6_6 3 |
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#define M9_6_7 4 |
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#define M9_7_0 7 |
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#define M9_7_1 8 |
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#define M9_7_2 0 |
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#define M9_7_3 1 |
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#define M9_7_4 2 |
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#define M9_7_5 3 |
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#define M9_7_6 4 |
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#define M9_7_7 5 |
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#define M9_8_0 8 |
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#define M9_8_1 0 |
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#define M9_8_2 1 |
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#define M9_8_3 2 |
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#define M9_8_4 3 |
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#define M9_8_5 4 |
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#define M9_8_6 5 |
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#define M9_8_7 6 |
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#define M9_9_0 0 |
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#define M9_9_1 1 |
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#define M9_9_2 2 |
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#define M9_9_3 3 |
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#define M9_9_4 4 |
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#define M9_9_5 5 |
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#define M9_9_6 6 |
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#define M9_9_7 7 |
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#define M9_10_0 1 |
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#define M9_10_1 2 |
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#define M9_10_2 3 |
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#define M9_10_3 4 |
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#define M9_10_4 5 |
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#define M9_10_5 6 |
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#define M9_10_6 7 |
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#define M9_10_7 8 |
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#define M9_11_0 2 |
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#define M9_11_1 3 |
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#define M9_11_2 4 |
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#define M9_11_3 5 |
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#define M9_11_4 6 |
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#define M9_11_5 7 |
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#define M9_11_6 8 |
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#define M9_11_7 0 |
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#define M9_12_0 3 |
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#define M9_12_1 4 |
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#define M9_12_2 5 |
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#define M9_12_3 6 |
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#define M9_12_4 7 |
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#define M9_12_5 8 |
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#define M9_12_6 0 |
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#define M9_12_7 1 |
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#define M9_13_0 4 |
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#define M9_13_1 5 |
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#define M9_13_2 6 |
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#define M9_13_3 7 |
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#define M9_13_4 8 |
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#define M9_13_5 0 |
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#define M9_13_6 1 |
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#define M9_13_7 2 |
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#define M9_14_0 5 |
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#define M9_14_1 6 |
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#define M9_14_2 7 |
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#define M9_14_3 8 |
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#define M9_14_4 0 |
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#define M9_14_5 1 |
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#define M9_14_6 2 |
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#define M9_14_7 3 |
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#define M9_15_0 6 |
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#define M9_15_1 7 |
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#define M9_15_2 8 |
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#define M9_15_3 0 |
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#define M9_15_4 1 |
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#define M9_15_5 2 |
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#define M9_15_6 3 |
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#define M9_15_7 4 |
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#define M9_16_0 7 |
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#define M9_16_1 8 |
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#define M9_16_2 0 |
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#define M9_16_3 1 |
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#define M9_16_4 2 |
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#define M9_16_5 3 |
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#define M9_16_6 4 |
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#define M9_16_7 5 |
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#define M9_17_0 8 |
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#define M9_17_1 0 |
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#define M9_17_2 1 |
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#define M9_17_3 2 |
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#define M9_17_4 3 |
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#define M9_17_5 4 |
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#define M9_17_6 5 |
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#define M9_17_7 6 |
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#define M9_18_0 0 |
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#define M9_18_1 1 |
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#define M9_18_2 2 |
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#define M9_18_3 3 |
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#define M9_18_4 4 |
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#define M9_18_5 5 |
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#define M9_18_6 6 |
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#define M9_18_7 7 |
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/* |
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* M3_ ## s ## _ ## i evaluates to s+i mod 3 (0 <= s <= 18, 0 <= i <= 1). |
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*/ |
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#define M3_0_0 0 |
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#define M3_0_1 1 |
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#define M3_1_0 1 |
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#define M3_1_1 2 |
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#define M3_2_0 2 |
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#define M3_2_1 0 |
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#define M3_3_0 0 |
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#define M3_3_1 1 |
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#define M3_4_0 1 |
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#define M3_4_1 2 |
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#define M3_5_0 2 |
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#define M3_5_1 0 |
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#define M3_6_0 0 |
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#define M3_6_1 1 |
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#define M3_7_0 1 |
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#define M3_7_1 2 |
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#define M3_8_0 2 |
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#define M3_8_1 0 |
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#define M3_9_0 0 |
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#define M3_9_1 1 |
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#define M3_10_0 1 |
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#define M3_10_1 2 |
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#define M3_11_0 2 |
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#define M3_11_1 0 |
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#define M3_12_0 0 |
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#define M3_12_1 1 |
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#define M3_13_0 1 |
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#define M3_13_1 2 |
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#define M3_14_0 2 |
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#define M3_14_1 0 |
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#define M3_15_0 0 |
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#define M3_15_1 1 |
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#define M3_16_0 1 |
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#define M3_16_1 2 |
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#define M3_17_0 2 |
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#define M3_17_1 0 |
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#define M3_18_0 0 |
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#define M3_18_1 1 |
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#define XCAT(x, y) XCAT_(x, y) |
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#define XCAT_(x, y) x ## y |
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#define SKBI(k, s, i) XCAT(k, XCAT(XCAT(XCAT(M9_, s), _), i)) |
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#define SKBT(t, s, v) XCAT(t, XCAT(XCAT(XCAT(M3_, s), _), v)) |
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#define TFBIG_KINIT(k0, k1, k2, k3, k4, k5, k6, k7, k8, t0, t1, t2) { \ |
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k8 = ((k0 ^ k1) ^ (k2 ^ k3)) ^ ((k4 ^ k5) ^ (k6 ^ k7)) \ |
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^ SPH_C64(0x1BD11BDAA9FC1A22); \ |
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t2 = t0 ^ t1; \ |
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} |
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#define TFBIG_ADDKEY(w0, w1, w2, w3, w4, w5, w6, w7, k, t, s) { \ |
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w0 = (w0 + SKBI(k, s, 0)); \ |
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w1 = (w1 + SKBI(k, s, 1)); \ |
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w2 = (w2 + SKBI(k, s, 2)); \ |
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w3 = (w3 + SKBI(k, s, 3)); \ |
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w4 = (w4 + SKBI(k, s, 4)); \ |
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w5 = (w5 + SKBI(k, s, 5) + SKBT(t, s, 0)); \ |
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w6 = (w6 + SKBI(k, s, 6) + SKBT(t, s, 1)); \ |
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w7 = (w7 + SKBI(k, s, 7) + (uint64_t)s); \ |
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} |
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#define TFBIG_MIX(x0, x1, rc) { \ |
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x0 = x0 + x1; \ |
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x1 = ROTL64(x1, rc) ^ x0; \ |
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} |
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#define TFBIG_MIX8(w0, w1, w2, w3, w4, w5, w6, w7, rc0, rc1, rc2, rc3) { \ |
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TFBIG_MIX(w0, w1, rc0); \ |
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TFBIG_MIX(w2, w3, rc1); \ |
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TFBIG_MIX(w4, w5, rc2); \ |
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TFBIG_MIX(w6, w7, rc3); \ |
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} |
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#define TFBIG_4e(s) { \ |
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TFBIG_ADDKEY(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, s); \ |
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TFBIG_MIX8(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], 46, 36, 19, 37); \ |
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TFBIG_MIX8(p[2], p[1], p[4], p[7], p[6], p[5], p[0], p[3], 33, 27, 14, 42); \ |
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TFBIG_MIX8(p[4], p[1], p[6], p[3], p[0], p[5], p[2], p[7], 17, 49, 36, 39); \ |
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TFBIG_MIX8(p[6], p[1], p[0], p[7], p[2], p[5], p[4], p[3], 44, 9, 54, 56); \ |
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} |
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#define TFBIG_4o(s) { \ |
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TFBIG_ADDKEY(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, s); \ |
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TFBIG_MIX8(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], 39, 30, 34, 24); \ |
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TFBIG_MIX8(p[2], p[1], p[4], p[7], p[6], p[5], p[0], p[3], 13, 50, 10, 17); \ |
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TFBIG_MIX8(p[4], p[1], p[6], p[3], p[0], p[5], p[2], p[7], 25, 29, 39, 43); \ |
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TFBIG_MIX8(p[6], p[1], p[0], p[7], p[2], p[5], p[4], p[3], 8, 35, 56, 22); \ |
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} |
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/* uint2 variant for SM3.2+ */ |
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#define TFBIG_KINIT_UI2(k0, k1, k2, k3, k4, k5, k6, k7, k8, t0, t1, t2) { \ |
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k8 = ((k0 ^ k1) ^ (k2 ^ k3)) ^ ((k4 ^ k5) ^ (k6 ^ k7)) \ |
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^ vectorize(SPH_C64(0x1BD11BDAA9FC1A22)); \ |
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t2 = t0 ^ t1; \ |
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} |
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#define TFBIG_ADDKEY_UI2(w0, w1, w2, w3, w4, w5, w6, w7, k, t, s) { \ |
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w0 = (w0 + SKBI(k, s, 0)); \ |
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w1 = (w1 + SKBI(k, s, 1)); \ |
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w2 = (w2 + SKBI(k, s, 2)); \ |
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w3 = (w3 + SKBI(k, s, 3)); \ |
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w4 = (w4 + SKBI(k, s, 4)); \ |
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w5 = (w5 + SKBI(k, s, 5) + SKBT(t, s, 0)); \ |
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w6 = (w6 + SKBI(k, s, 6) + SKBT(t, s, 1)); \ |
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w7 = (w7 + SKBI(k, s, 7) + vectorize(s)); \ |
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} |
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#define TFBIG_MIX_UI2(x0, x1, rc) { \ |
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x0 = x0 + x1; \ |
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x1 = ROL2(x1, rc) ^ x0; \ |
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} |
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#define TFBIG_MIX8_UI2(w0, w1, w2, w3, w4, w5, w6, w7, rc0, rc1, rc2, rc3) { \ |
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TFBIG_MIX_UI2(w0, w1, rc0); \ |
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TFBIG_MIX_UI2(w2, w3, rc1); \ |
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TFBIG_MIX_UI2(w4, w5, rc2); \ |
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TFBIG_MIX_UI2(w6, w7, rc3); \ |
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} |
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#define TFBIG_4e_UI2(s) { \ |
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TFBIG_ADDKEY_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, s); \ |
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TFBIG_MIX8_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], 46, 36, 19, 37); \ |
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TFBIG_MIX8_UI2(p[2], p[1], p[4], p[7], p[6], p[5], p[0], p[3], 33, 27, 14, 42); \ |
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TFBIG_MIX8_UI2(p[4], p[1], p[6], p[3], p[0], p[5], p[2], p[7], 17, 49, 36, 39); \ |
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TFBIG_MIX8_UI2(p[6], p[1], p[0], p[7], p[2], p[5], p[4], p[3], 44, 9, 54, 56); \ |
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} |
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#define TFBIG_4o_UI2(s) { \ |
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TFBIG_ADDKEY_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, s); \ |
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TFBIG_MIX8_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], 39, 30, 34, 24); \ |
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TFBIG_MIX8_UI2(p[2], p[1], p[4], p[7], p[6], p[5], p[0], p[3], 13, 50, 10, 17); \ |
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TFBIG_MIX8_UI2(p[4], p[1], p[6], p[3], p[0], p[5], p[2], p[7], 25, 29, 39, 43); \ |
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TFBIG_MIX8_UI2(p[6], p[1], p[0], p[7], p[2], p[5], p[4], p[3], 8, 35, 56, 22); \ |
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} |
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__global__ |
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void quark_skein512_gpu_hash_64(uint32_t threads, uint32_t startNounce, uint64_t * const __restrict__ g_hash, uint32_t *g_nonceVector) |
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{ |
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uint32_t thread = (blockDim.x * blockIdx.x + threadIdx.x); |
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if (thread < threads) |
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{ |
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// Skein |
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uint2 p[8]; |
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uint2 h0, h1, h2, h3, h4, h5, h6, h7, h8; |
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uint2 t0, t1, t2; |
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uint32_t nounce = (g_nonceVector != NULL) ? g_nonceVector[thread] : (startNounce + thread); |
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int hashPosition = nounce - startNounce; |
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uint64_t *inpHash = &g_hash[8 * hashPosition]; |
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// Initialisierung |
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h0 = vectorize(0x4903ADFF749C51CEull); |
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h1 = vectorize(0x0D95DE399746DF03ull); |
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h2 = vectorize(0x8FD1934127C79BCEull); |
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h3 = vectorize(0x9A255629FF352CB1ull); |
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h4 = vectorize(0x5DB62599DF6CA7B0ull); |
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h5 = vectorize(0xEABE394CA9D5C3F4ull); |
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h6 = vectorize(0x991112C71A75B523ull); |
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h7 = vectorize(0xAE18A40B660FCC33ull); |
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// 1. Runde -> etype = 480, ptr = 64, bcount = 0, data = msg |
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#pragma unroll 8 |
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for (int i = 0; i < 8; i++) |
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p[i] = vectorize(inpHash[i]); |
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t0 = vectorize(64); // ptr |
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t1 = vectorize(480ull << 55); // etype |
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TFBIG_KINIT_UI2(h0, h1, h2, h3, h4, h5, h6, h7, h8, t0, t1, t2); |
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TFBIG_4e_UI2(0); |
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TFBIG_4o_UI2(1); |
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TFBIG_4e_UI2(2); |
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TFBIG_4o_UI2(3); |
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TFBIG_4e_UI2(4); |
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TFBIG_4o_UI2(5); |
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TFBIG_4e_UI2(6); |
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TFBIG_4o_UI2(7); |
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TFBIG_4e_UI2(8); |
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TFBIG_4o_UI2(9); |
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TFBIG_4e_UI2(10); |
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TFBIG_4o_UI2(11); |
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TFBIG_4e_UI2(12); |
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TFBIG_4o_UI2(13); |
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TFBIG_4e_UI2(14); |
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TFBIG_4o_UI2(15); |
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TFBIG_4e_UI2(16); |
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TFBIG_4o_UI2(17); |
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TFBIG_ADDKEY_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, 18); |
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h0 = vectorize(inpHash[0]) ^ p[0]; |
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h1 = vectorize(inpHash[1]) ^ p[1]; |
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h2 = vectorize(inpHash[2]) ^ p[2]; |
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h3 = vectorize(inpHash[3]) ^ p[3]; |
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h4 = vectorize(inpHash[4]) ^ p[4]; |
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h5 = vectorize(inpHash[5]) ^ p[5]; |
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h6 = vectorize(inpHash[6]) ^ p[6]; |
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h7 = vectorize(inpHash[7]) ^ p[7]; |
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// 2. Runde -> etype = 510, ptr = 8, bcount = 0, data = 0 |
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#pragma unroll 8 |
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for(int i=0; i<8; i++) |
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p[i] = make_uint2(0,0); |
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t0 = vectorize(8); // ptr |
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t1 = vectorize(510ull << 55); // etype |
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TFBIG_KINIT_UI2(h0, h1, h2, h3, h4, h5, h6, h7, h8, t0, t1, t2); |
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TFBIG_4e_UI2(0); |
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TFBIG_4o_UI2(1); |
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TFBIG_4e_UI2(2); |
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TFBIG_4o_UI2(3); |
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TFBIG_4e_UI2(4); |
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TFBIG_4o_UI2(5); |
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TFBIG_4e_UI2(6); |
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TFBIG_4o_UI2(7); |
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TFBIG_4e_UI2(8); |
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TFBIG_4o_UI2(9); |
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TFBIG_4e_UI2(10); |
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TFBIG_4o_UI2(11); |
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TFBIG_4e_UI2(12); |
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TFBIG_4o_UI2(13); |
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TFBIG_4e_UI2(14); |
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TFBIG_4o_UI2(15); |
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TFBIG_4e_UI2(16); |
|
TFBIG_4o_UI2(17); |
|
TFBIG_ADDKEY_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, 18); |
|
|
|
// fertig |
|
uint64_t *outpHash = &g_hash[8 * hashPosition]; |
|
|
|
#pragma unroll 8 |
|
for(int i=0; i<8; i++) |
|
outpHash[i] = devectorize(p[i]); |
|
} |
|
} |
|
|
|
__global__ |
|
void quark_skein512_gpu_hash_64_v30(uint32_t threads, uint32_t startNounce, uint64_t * const __restrict__ g_hash, uint32_t *g_nonceVector) |
|
{ |
|
uint32_t thread = (blockDim.x * blockIdx.x + threadIdx.x); |
|
if (thread < threads) |
|
{ |
|
// Skein |
|
uint64_t p[8]; |
|
uint64_t h0, h1, h2, h3, h4, h5, h6, h7, h8; |
|
uint64_t t0, t1, t2; |
|
|
|
uint32_t nounce = (g_nonceVector != NULL) ? g_nonceVector[thread] : (startNounce + thread); |
|
|
|
int hashPosition = nounce - startNounce; |
|
uint64_t *inpHash = &g_hash[8 * hashPosition]; |
|
|
|
// Initialisierung |
|
h0 = 0x4903ADFF749C51CEull; |
|
h1 = 0x0D95DE399746DF03ull; |
|
h2 = 0x8FD1934127C79BCEull; |
|
h3 = 0x9A255629FF352CB1ull; |
|
h4 = 0x5DB62599DF6CA7B0ull; |
|
h5 = 0xEABE394CA9D5C3F4ull; |
|
h6 = 0x991112C71A75B523ull; |
|
h7 = 0xAE18A40B660FCC33ull; |
|
|
|
// 1. Runde -> etype = 480, ptr = 64, bcount = 0, data = msg |
|
#pragma unroll 8 |
|
for(int i=0; i<8; i++) |
|
p[i] = inpHash[i]; |
|
|
|
t0 = 64; // ptr |
|
t1 = 480ull << 55; // etype |
|
TFBIG_KINIT(h0, h1, h2, h3, h4, h5, h6, h7, h8, t0, t1, t2); |
|
TFBIG_4e(0); |
|
TFBIG_4o(1); |
|
TFBIG_4e(2); |
|
TFBIG_4o(3); |
|
TFBIG_4e(4); |
|
TFBIG_4o(5); |
|
TFBIG_4e(6); |
|
TFBIG_4o(7); |
|
TFBIG_4e(8); |
|
TFBIG_4o(9); |
|
TFBIG_4e(10); |
|
TFBIG_4o(11); |
|
TFBIG_4e(12); |
|
TFBIG_4o(13); |
|
TFBIG_4e(14); |
|
TFBIG_4o(15); |
|
TFBIG_4e(16); |
|
TFBIG_4o(17); |
|
TFBIG_ADDKEY(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, 18); |
|
|
|
h0 = inpHash[0] ^ p[0]; |
|
h1 = inpHash[1] ^ p[1]; |
|
h2 = inpHash[2] ^ p[2]; |
|
h3 = inpHash[3] ^ p[3]; |
|
h4 = inpHash[4] ^ p[4]; |
|
h5 = inpHash[5] ^ p[5]; |
|
h6 = inpHash[6] ^ p[6]; |
|
h7 = inpHash[7] ^ p[7]; |
|
|
|
// 2. Runde -> etype = 510, ptr = 8, bcount = 0, data = 0 |
|
#pragma unroll 8 |
|
for(int i=0; i<8; i++) |
|
p[i] = 0; |
|
|
|
t0 = 8; // ptr |
|
t1 = 510ull << 55; // etype |
|
TFBIG_KINIT(h0, h1, h2, h3, h4, h5, h6, h7, h8, t0, t1, t2); |
|
TFBIG_4e(0); |
|
TFBIG_4o(1); |
|
TFBIG_4e(2); |
|
TFBIG_4o(3); |
|
TFBIG_4e(4); |
|
TFBIG_4o(5); |
|
TFBIG_4e(6); |
|
TFBIG_4o(7); |
|
TFBIG_4e(8); |
|
TFBIG_4o(9); |
|
TFBIG_4e(10); |
|
TFBIG_4o(11); |
|
TFBIG_4e(12); |
|
TFBIG_4o(13); |
|
TFBIG_4e(14); |
|
TFBIG_4o(15); |
|
TFBIG_4e(16); |
|
TFBIG_4o(17); |
|
TFBIG_ADDKEY(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, 18); |
|
|
|
// output |
|
uint64_t *outpHash = &g_hash[8 * hashPosition]; |
|
|
|
#pragma unroll 8 |
|
for(int i=0; i<8; i++) |
|
outpHash[i] = p[i]; |
|
} |
|
} |
|
|
|
__global__ __launch_bounds__(128,6) |
|
void skein512_gpu_hash_close(uint32_t threads, uint32_t startNounce, uint64_t *g_hash) |
|
{ |
|
uint32_t thread = (blockDim.x * blockIdx.x + threadIdx.x); |
|
if (thread < threads) |
|
{ |
|
uint2 t0 = vectorize(8); // extra |
|
uint2 t1 = vectorize(0xFF00000000000000ull); // etype |
|
uint2 t2 = vectorize(0xB000000000000050ull); |
|
|
|
uint64_t *state = &g_hash[8 * thread]; |
|
uint2 h0 = vectorize(state[0]); |
|
uint2 h1 = vectorize(state[1]); |
|
uint2 h2 = vectorize(state[2]); |
|
uint2 h3 = vectorize(state[3]); |
|
uint2 h4 = vectorize(state[4]); |
|
uint2 h5 = vectorize(state[5]); |
|
uint2 h6 = vectorize(state[6]); |
|
uint2 h7 = vectorize(state[7]); |
|
uint2 h8; |
|
TFBIG_KINIT_UI2(h0, h1, h2, h3, h4, h5, h6, h7, h8, t0, t1, t2); |
|
|
|
uint2 p[8] = { 0 }; |
|
//#pragma unroll 8 |
|
//for (int i = 0; i<8; i++) |
|
// p[i] = make_uint2(0, 0); |
|
|
|
TFBIG_4e_UI2(0); |
|
TFBIG_4o_UI2(1); |
|
TFBIG_4e_UI2(2); |
|
TFBIG_4o_UI2(3); |
|
TFBIG_4e_UI2(4); |
|
TFBIG_4o_UI2(5); |
|
TFBIG_4e_UI2(6); |
|
TFBIG_4o_UI2(7); |
|
TFBIG_4e_UI2(8); |
|
TFBIG_4o_UI2(9); |
|
TFBIG_4e_UI2(10); |
|
TFBIG_4o_UI2(11); |
|
TFBIG_4e_UI2(12); |
|
TFBIG_4o_UI2(13); |
|
TFBIG_4e_UI2(14); |
|
TFBIG_4o_UI2(15); |
|
TFBIG_4e_UI2(16); |
|
TFBIG_4o_UI2(17); |
|
TFBIG_ADDKEY_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, 18); |
|
|
|
uint64_t *outpHash = state; |
|
#pragma unroll 8 |
|
for (int i = 0; i < 8; i++) |
|
outpHash[i] = devectorize(p[i]); |
|
} |
|
} |
|
|
|
__global__ __launch_bounds__(128,5) |
|
void skein512_gpu_hash_80(uint32_t threads, uint32_t startNounce, uint64_t *output64, int swap) |
|
{ |
|
uint32_t thread = (blockDim.x * blockIdx.x + threadIdx.x); |
|
if (thread < threads) |
|
{ |
|
// Skein |
|
uint2 h0, h1, h2, h3, h4, h5, h6, h7, h8; |
|
uint2 t0, t1, t2; |
|
|
|
// Init |
|
h0 = vectorize(0x4903ADFF749C51CEull); |
|
h1 = vectorize(0x0D95DE399746DF03ull); |
|
h2 = vectorize(0x8FD1934127C79BCEull); |
|
h3 = vectorize(0x9A255629FF352CB1ull); |
|
h4 = vectorize(0x5DB62599DF6CA7B0ull); |
|
h5 = vectorize(0xEABE394CA9D5C3F4ull); |
|
h6 = vectorize(0x991112C71A75B523ull); |
|
h7 = vectorize(0xAE18A40B660FCC33ull); |
|
|
|
// 1st step -> etype = 0xE0, ptr = 64, bcount = 0, extra = 0 |
|
t0 = vectorize(64); // ptr |
|
//t1 = vectorize(0xE0ull << 55); // etype |
|
t1 = vectorize(0x7000000000000000ull); |
|
TFBIG_KINIT_UI2(h0, h1, h2, h3, h4, h5, h6, h7, h8, t0, t1, t2); |
|
|
|
uint2 p[8]; |
|
#pragma unroll 8 |
|
for (int i = 0; i<8; i++) |
|
p[i] = vectorize(c_PaddedMessage80[i]); |
|
|
|
TFBIG_4e_UI2(0); |
|
TFBIG_4o_UI2(1); |
|
TFBIG_4e_UI2(2); |
|
TFBIG_4o_UI2(3); |
|
TFBIG_4e_UI2(4); |
|
TFBIG_4o_UI2(5); |
|
TFBIG_4e_UI2(6); |
|
TFBIG_4o_UI2(7); |
|
TFBIG_4e_UI2(8); |
|
TFBIG_4o_UI2(9); |
|
TFBIG_4e_UI2(10); |
|
TFBIG_4o_UI2(11); |
|
TFBIG_4e_UI2(12); |
|
TFBIG_4o_UI2(13); |
|
TFBIG_4e_UI2(14); |
|
TFBIG_4o_UI2(15); |
|
TFBIG_4e_UI2(16); |
|
TFBIG_4o_UI2(17); |
|
TFBIG_ADDKEY_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, 18); |
|
|
|
h0 = vectorize(c_PaddedMessage80[0]) ^ p[0]; |
|
h1 = vectorize(c_PaddedMessage80[1]) ^ p[1]; |
|
h2 = vectorize(c_PaddedMessage80[2]) ^ p[2]; |
|
h3 = vectorize(c_PaddedMessage80[3]) ^ p[3]; |
|
h4 = vectorize(c_PaddedMessage80[4]) ^ p[4]; |
|
h5 = vectorize(c_PaddedMessage80[5]) ^ p[5]; |
|
h6 = vectorize(c_PaddedMessage80[6]) ^ p[6]; |
|
h7 = vectorize(c_PaddedMessage80[7]) ^ p[7]; |
|
|
|
uint32_t nonce = swap ? cuda_swab32(startNounce + thread) : startNounce + thread; |
|
uint2 nounce2 = make_uint2(_LOWORD(c_PaddedMessage80[9]), nonce); |
|
|
|
// skein_big_close -> etype = 0x160, ptr = 16, bcount = 1, extra = 16 |
|
p[0] = vectorize(c_PaddedMessage80[8]); |
|
p[1] = nounce2; |
|
|
|
#pragma unroll |
|
for (int i = 2; i < 8; i++) |
|
p[i] = make_uint2(0,0); |
|
|
|
t0 = vectorize(0x50ull); // SPH_T64(bcount << 6) + (sph_u64)(extra); |
|
t1 = vectorize(0xB000000000000000ull); // (bcount >> 58) + ((sph_u64)(etype) << 55); |
|
TFBIG_KINIT_UI2(h0, h1, h2, h3, h4, h5, h6, h7, h8, t0, t1, t2); |
|
TFBIG_4e_UI2(0); |
|
TFBIG_4o_UI2(1); |
|
TFBIG_4e_UI2(2); |
|
TFBIG_4o_UI2(3); |
|
TFBIG_4e_UI2(4); |
|
TFBIG_4o_UI2(5); |
|
TFBIG_4e_UI2(6); |
|
TFBIG_4o_UI2(7); |
|
TFBIG_4e_UI2(8); |
|
TFBIG_4o_UI2(9); |
|
TFBIG_4e_UI2(10); |
|
TFBIG_4o_UI2(11); |
|
TFBIG_4e_UI2(12); |
|
TFBIG_4o_UI2(13); |
|
TFBIG_4e_UI2(14); |
|
TFBIG_4o_UI2(15); |
|
TFBIG_4e_UI2(16); |
|
TFBIG_4o_UI2(17); |
|
TFBIG_ADDKEY_UI2(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], h, t, 18); |
|
|
|
h0 = vectorize(c_PaddedMessage80[8]) ^ p[0]; |
|
h1 = nounce2 ^ p[1]; |
|
h2 = p[2]; |
|
h3 = p[3]; |
|
h4 = p[4]; |
|
h5 = p[5]; |
|
h6 = p[6]; |
|
h7 = p[7]; |
|
|
|
// skein_big_close 2nd loop -> etype = 0x1fe, ptr = 8, bcount = 0 |
|
uint64_t *outpHash = &output64[thread * 8]; |
|
outpHash[0] = devectorize(h0); |
|
outpHash[1] = devectorize(h1); |
|
outpHash[2] = devectorize(h2); |
|
outpHash[3] = devectorize(h3); |
|
outpHash[4] = devectorize(h4); |
|
outpHash[5] = devectorize(h5); |
|
outpHash[6] = devectorize(h6); |
|
outpHash[7] = devectorize(h7); |
|
} |
|
} |
|
|
|
__host__ |
|
void quark_skein512_cpu_init(int thr_id, uint32_t threads) |
|
{ |
|
} |
|
|
|
__host__ |
|
void quark_skein512_cpu_hash_64(int thr_id, uint32_t threads, uint32_t startNounce, uint32_t *d_nonceVector, uint32_t *d_hash, int order) |
|
{ |
|
const uint32_t threadsperblock = 256; |
|
|
|
dim3 grid((threads + threadsperblock-1)/threadsperblock); |
|
dim3 block(threadsperblock); |
|
|
|
// uint2 uint64 variants for SM 3.2+ |
|
if (device_sm[device_map[thr_id]] >= 320) |
|
quark_skein512_gpu_hash_64 <<<grid, block>>> (threads, startNounce, (uint64_t*)d_hash, d_nonceVector); |
|
else |
|
quark_skein512_gpu_hash_64_v30 <<<grid, block>>> (threads, startNounce, (uint64_t*)d_hash, d_nonceVector); |
|
|
|
MyStreamSynchronize(NULL, order, thr_id); |
|
} |
|
|
|
/* skeincoin */ |
|
|
|
__host__ |
|
void skein512_cpu_setBlock_80(void *pdata) |
|
{ |
|
uint32_t PaddedMessage[32] = { 0 }; |
|
memcpy(&PaddedMessage[0], pdata, 80); |
|
|
|
CUDA_SAFE_CALL( |
|
cudaMemcpyToSymbol(c_PaddedMessage80, PaddedMessage, sizeof(PaddedMessage), 0, cudaMemcpyHostToDevice) |
|
); |
|
} |
|
|
|
__host__ |
|
void skein512_cpu_hash_80(int thr_id, uint32_t threads, uint32_t startNounce, uint32_t *d_hash, int swap) |
|
{ |
|
const uint32_t threadsperblock = 128; |
|
|
|
dim3 grid((threads + threadsperblock-1)/threadsperblock); |
|
dim3 block(threadsperblock); |
|
|
|
// hash function is cut in 2 parts |
|
skein512_gpu_hash_80 <<< grid, block >>> (threads, startNounce, (uint64_t*)d_hash, swap); |
|
skein512_gpu_hash_close <<< grid, block >>> (threads, startNounce, (uint64_t*)d_hash); |
|
}
|
|
|