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#include <stdio.h>
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#include <openssl/sha.h>
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#include <map>
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// include thrust
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#include <thrust/remove.h>
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#include <thrust/device_vector.h>
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#include "miner.h"
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extern "C" {
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#include "sph/sph_keccak.h"
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#include "sph/sph_blake.h"
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#include "sph/sph_groestl.h"
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}
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#include "hefty1.h"
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#include "heavy/heavy.h"
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#include "cuda_helper.h"
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extern uint32_t *d_hash2output[MAX_GPUS];
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extern uint32_t *d_hash3output[MAX_GPUS];
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extern uint32_t *d_hash4output[MAX_GPUS];
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extern uint32_t *d_hash5output[MAX_GPUS];
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#define HEAVYCOIN_BLKHDR_SZ 84
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#define MNR_BLKHDR_SZ 80
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// nonce-array für die threads
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uint32_t *heavy_nonceVector[MAX_GPUS];
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extern uint32_t *heavy_heftyHashes[MAX_GPUS];
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/* Combines top 64-bits from each hash into a single hash */
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static void combine_hashes(uint32_t *out, const uint32_t *hash1, const uint32_t *hash2, const uint32_t *hash3, const uint32_t *hash4)
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{
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const uint32_t *hash[4] = { hash1, hash2, hash3, hash4 };
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int bits;
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unsigned int i;
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uint32_t mask;
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unsigned int k;
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/* Transpose first 64 bits of each hash into out */
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memset(out, 0, 32);
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bits = 0;
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for (i = 7; i >= 6; i--) {
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for (mask = 0x80000000; mask; mask >>= 1) {
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for (k = 0; k < 4; k++) {
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out[(255 - bits)/32] <<= 1;
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if ((hash[k][i] & mask) != 0)
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out[(255 - bits)/32] |= 1;
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bits++;
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}
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}
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}
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}
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#ifdef _MSC_VER
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#include <intrin.h>
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static uint32_t __inline bitsset( uint32_t x )
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{
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DWORD r = 0;
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_BitScanReverse(&r, x);
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return r;
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}
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#else
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static uint32_t bitsset( uint32_t x )
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{
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return 31-__builtin_clz(x);
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}
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#endif
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// Finde das high bit in einem Multiword-Integer.
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static int findhighbit(const uint32_t *ptarget, int words)
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{
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int i;
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int highbit = 0;
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for (i=words-1; i >= 0; --i)
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{
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if (ptarget[i] != 0) {
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highbit = i*32 + bitsset(ptarget[i])+1;
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break;
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}
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}
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return highbit;
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}
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// Generiere ein Multiword-Integer das die Zahl
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// (2 << highbit) - 1 repräsentiert.
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static void genmask(uint32_t *ptarget, int words, int highbit)
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{
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int i;
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for (i=words-1; i >= 0; --i)
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{
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if ((i+1)*32 <= highbit)
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ptarget[i] = UINT32_MAX;
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else if (i*32 > highbit)
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ptarget[i] = 0x00000000;
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else
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ptarget[i] = (1 << (highbit-i*32)) - 1;
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}
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}
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struct check_nonce_for_remove
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{
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check_nonce_for_remove(uint64_t target, uint32_t *hashes, uint32_t hashlen, uint32_t startNonce) :
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m_target(target),
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m_hashes(hashes),
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m_hashlen(hashlen),
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m_startNonce(startNonce) { }
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uint64_t m_target;
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uint32_t *m_hashes;
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uint32_t m_hashlen;
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uint32_t m_startNonce;
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__device__
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bool operator()(const uint32_t x)
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{
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// Position im Hash Buffer
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uint32_t hashIndex = x - m_startNonce;
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// Wert des Hashes (als uint64_t) auslesen.
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// Steht im 6. und 7. Wort des Hashes (jeder dieser Hashes hat 512 Bits)
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uint64_t hashValue = *((uint64_t*)(&m_hashes[m_hashlen*hashIndex + 6]));
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bool res = (hashValue & m_target) != hashValue;
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//printf("ndx=%x val=%08x target=%lx\n", hashIndex, hashValue, m_target);
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// gegen das Target prüfen. Es dürfen nur Bits aus dem Target gesetzt sein.
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return res;
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}
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};
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static bool init[MAX_GPUS] = { 0 };
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__host__
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int scanhash_heavy(int thr_id, uint32_t *pdata,
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const uint32_t *ptarget, uint32_t max_nonce,
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unsigned long *hashes_done, uint32_t maxvote, int blocklen)
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{
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const uint32_t first_nonce = pdata[19];
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// CUDA will process thousands of threads.
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int throughput = opt_work_size ? opt_work_size : (1 << 19) - 256; // 256*2048
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apiReportThroughput(thr_id, (uint32_t) throughput);
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throughput = min(throughput, (int)(max_nonce - first_nonce));
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int rc = 0;
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uint32_t *hash = NULL;
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uint32_t *cpu_nonceVector = NULL;
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CUDA_SAFE_CALL(cudaMallocHost(&hash, throughput*8*sizeof(uint32_t)));
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CUDA_SAFE_CALL(cudaMallocHost(&cpu_nonceVector, throughput*sizeof(uint32_t)));
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int nrmCalls[6];
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memset(nrmCalls, 0, sizeof(int) * 6);
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if (opt_benchmark)
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((uint32_t*)ptarget)[7] = 0x00ff;
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// für jeden Hash ein individuelles Target erstellen basierend
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// auf dem höchsten Bit, das in ptarget gesetzt ist.
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int highbit = findhighbit(ptarget, 8);
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uint32_t target2[2], target3[2], target4[2], target5[2];
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genmask(target2, 2, highbit/4+(((highbit%4)>3)?1:0) ); // SHA256
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genmask(target3, 2, highbit/4+(((highbit%4)>2)?1:0) ); // keccak512
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genmask(target4, 2, highbit/4+(((highbit%4)>1)?1:0) ); // groestl512
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genmask(target5, 2, highbit/4+(((highbit%4)>0)?1:0) ); // blake512
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if (!init[thr_id])
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{
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hefty_cpu_init(thr_id, throughput);
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sha256_cpu_init(thr_id, throughput);
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keccak512_cpu_init(thr_id, throughput);
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groestl512_cpu_init(thr_id, throughput);
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blake512_cpu_init(thr_id, throughput);
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combine_cpu_init(thr_id, throughput);
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CUDA_SAFE_CALL(cudaMalloc(&heavy_nonceVector[thr_id], sizeof(uint32_t) * throughput));
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init[thr_id] = true;
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}
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if (blocklen == HEAVYCOIN_BLKHDR_SZ)
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{
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uint16_t *ext = (uint16_t *)&pdata[20];
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if (opt_vote > maxvote) {
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applog(LOG_WARNING, "Your block reward vote (%hu) exceeds "
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"the maxvote reported by the pool (%hu).",
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opt_vote, maxvote);
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}
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if (opt_trust_pool && opt_vote > maxvote) {
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applog(LOG_WARNING, "Capping block reward vote to maxvote reported by pool.");
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ext[0] = maxvote;
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}
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else
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ext[0] = opt_vote;
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}
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// Setze die Blockdaten
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hefty_cpu_setBlock(thr_id, throughput, pdata, blocklen);
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sha256_cpu_setBlock(pdata, blocklen);
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keccak512_cpu_setBlock(pdata, blocklen);
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groestl512_cpu_setBlock(pdata, blocklen);
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blake512_cpu_setBlock(pdata, blocklen);
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do {
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////// Compaction init
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thrust::device_ptr<uint32_t> devNoncePtr(heavy_nonceVector[thr_id]);
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thrust::device_ptr<uint32_t> devNoncePtrEnd((heavy_nonceVector[thr_id]) + throughput);
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uint32_t actualNumberOfValuesInNonceVectorGPU = throughput;
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uint64_t *t;
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hefty_cpu_hash(thr_id, throughput, pdata[19]);
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//cudaThreadSynchronize();
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sha256_cpu_hash(thr_id, throughput, pdata[19]);
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//cudaThreadSynchronize();
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// Hier ist die längste CPU Wartephase. Deshalb ein strategisches MyStreamSynchronize() hier.
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MyStreamSynchronize(NULL, 1, thr_id);
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////// Compaction
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t = (uint64_t*) target2;
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devNoncePtrEnd = thrust::remove_if(devNoncePtr, devNoncePtrEnd, check_nonce_for_remove(*t, d_hash2output[thr_id], 8, pdata[19]));
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actualNumberOfValuesInNonceVectorGPU = (uint32_t)(devNoncePtrEnd - devNoncePtr);
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if(actualNumberOfValuesInNonceVectorGPU == 0)
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goto emptyNonceVector;
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keccak512_cpu_hash(thr_id, actualNumberOfValuesInNonceVectorGPU, pdata[19]);
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//cudaThreadSynchronize();
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////// Compaction
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t = (uint64_t*) target3;
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devNoncePtrEnd = thrust::remove_if(devNoncePtr, devNoncePtrEnd, check_nonce_for_remove(*t, d_hash3output[thr_id], 16, pdata[19]));
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actualNumberOfValuesInNonceVectorGPU = (uint32_t)(devNoncePtrEnd - devNoncePtr);
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if(actualNumberOfValuesInNonceVectorGPU == 0)
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goto emptyNonceVector;
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blake512_cpu_hash(thr_id, actualNumberOfValuesInNonceVectorGPU, pdata[19]);
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//cudaThreadSynchronize();
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////// Compaction
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t = (uint64_t*) target5;
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devNoncePtrEnd = thrust::remove_if(devNoncePtr, devNoncePtrEnd, check_nonce_for_remove(*t, d_hash5output[thr_id], 16, pdata[19]));
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actualNumberOfValuesInNonceVectorGPU = (uint32_t)(devNoncePtrEnd - devNoncePtr);
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if(actualNumberOfValuesInNonceVectorGPU == 0)
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goto emptyNonceVector;
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groestl512_cpu_hash(thr_id, actualNumberOfValuesInNonceVectorGPU, pdata[19]);
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//cudaThreadSynchronize();
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////// Compaction
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t = (uint64_t*) target4;
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devNoncePtrEnd = thrust::remove_if(devNoncePtr, devNoncePtrEnd, check_nonce_for_remove(*t, d_hash4output[thr_id], 16, pdata[19]));
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actualNumberOfValuesInNonceVectorGPU = (uint32_t)(devNoncePtrEnd - devNoncePtr);
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if(actualNumberOfValuesInNonceVectorGPU == 0)
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goto emptyNonceVector;
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// combine
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combine_cpu_hash(thr_id, actualNumberOfValuesInNonceVectorGPU, pdata[19], hash);
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if (opt_tracegpu) {
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applog(LOG_BLUE, "heavy GPU hash:");
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applog_hash((uchar*)hash);
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}
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// Ergebnisse kopieren
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if(actualNumberOfValuesInNonceVectorGPU > 0)
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{
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size_t size = sizeof(uint32_t) * actualNumberOfValuesInNonceVectorGPU;
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CUDA_SAFE_CALL(cudaMemcpy(cpu_nonceVector, heavy_nonceVector[thr_id], size, cudaMemcpyDeviceToHost));
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cudaThreadSynchronize();
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for (uint32_t i=0; i < actualNumberOfValuesInNonceVectorGPU; i++)
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{
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uint32_t nonce = cpu_nonceVector[i];
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uint32_t *foundhash = &hash[8*i];
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if (foundhash[7] <= ptarget[7]) {
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if (fulltest(foundhash, ptarget)) {
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uint32_t verification[8];
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pdata[19] += nonce - pdata[19];
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heavycoin_hash((uchar*)verification, (uchar*)pdata, blocklen);
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if (memcmp(verification, foundhash, 8*sizeof(uint32_t))) {
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applog(LOG_ERR, "hash for nonce=$%08X does not validate on CPU!\n", nonce);
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} else {
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*hashes_done = pdata[19] - first_nonce;
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rc = 1;
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goto exit;
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}
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}
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}
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}
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}
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emptyNonceVector:
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pdata[19] += throughput;
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} while (pdata[19] < max_nonce && !work_restart[thr_id].restart);
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*hashes_done = pdata[19] - first_nonce;
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exit:
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cudaFreeHost(cpu_nonceVector);
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cudaFreeHost(hash);
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return rc;
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}
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__host__
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void heavycoin_hash(uchar* output, const uchar* input, int len)
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{
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unsigned char hash1[32];
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unsigned char hash2[32];
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uint32_t hash3[16];
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uint32_t hash4[16];
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uint32_t hash5[16];
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uint32_t *final;
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SHA256_CTX ctx;
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sph_keccak512_context keccakCtx;
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sph_groestl512_context groestlCtx;
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sph_blake512_context blakeCtx;
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HEFTY1(input, len, hash1);
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/* HEFTY1 is new, so take an extra security measure to eliminate
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* the possiblity of collisions:
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*
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* Hash(x) = SHA256(x + HEFTY1(x))
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*
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* N.B. '+' is concatenation.
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*/
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SHA256_Init(&ctx);
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SHA256_Update(&ctx, input, len);
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SHA256_Update(&ctx, hash1, sizeof(hash1));
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SHA256_Final(hash2, &ctx);
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/* Additional security: Do not rely on a single cryptographic hash
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* function. Instead, combine the outputs of 4 of the most secure
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|
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* cryptographic hash functions-- SHA256, KECCAK512, GROESTL512
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* and BLAKE512.
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*/
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sph_keccak512_init(&keccakCtx);
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sph_keccak512(&keccakCtx, input, len);
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sph_keccak512(&keccakCtx, hash1, sizeof(hash1));
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sph_keccak512_close(&keccakCtx, (void *)&hash3);
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sph_groestl512_init(&groestlCtx);
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sph_groestl512(&groestlCtx, input, len);
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sph_groestl512(&groestlCtx, hash1, sizeof(hash1));
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sph_groestl512_close(&groestlCtx, (void *)&hash4);
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sph_blake512_init(&blakeCtx);
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sph_blake512(&blakeCtx, input, len);
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|
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sph_blake512(&blakeCtx, (unsigned char *)&hash1, sizeof(hash1));
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sph_blake512_close(&blakeCtx, (void *)&hash5);
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|
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final = (uint32_t *)output;
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|
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combine_hashes(final, (uint32_t *)hash2, hash3, hash4, hash5);
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}
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