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extern "C" {
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#include "sph/sph_blake.h"
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#include "sph/sph_bmw.h"
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#include "sph/sph_skein.h"
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#include "sph/sph_keccak.h"
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#include "sph/sph_cubehash.h"
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#include "lyra2/Lyra2.h"
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}
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#include "miner.h"
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#include "cuda_helper.h"
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static _ALIGN(64) uint64_t *d_hash[MAX_GPUS];
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static uint64_t *d_hash2[MAX_GPUS];
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extern void blake256_cpu_init(int thr_id, uint32_t threads);
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extern void blake256_cpu_hash_80(const int thr_id, const uint32_t threads, const uint32_t startNonce, uint64_t *Hash, int order);
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extern void blake256_cpu_setBlock_80(uint32_t *pdata);
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extern void keccak256_cpu_hash_32(int thr_id, uint32_t threads, uint32_t startNonce, uint64_t *d_outputHash, int order);
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extern void keccak256_cpu_init(int thr_id, uint32_t threads);
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extern void skein256_cpu_hash_32(int thr_id, uint32_t threads, uint32_t startNonce, uint64_t *d_outputHash, int order);
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extern void skein256_cpu_init(int thr_id, uint32_t threads);
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extern void cubehash256_cpu_hash_32(int thr_id, uint32_t threads, uint32_t startNounce, uint64_t *d_hash, int order);
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extern void lyra2v2_cpu_hash_32(int thr_id, uint32_t threads, uint32_t startNonce, uint64_t *d_outputHash, int order);
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extern void lyra2v2_cpu_init(int thr_id, uint32_t threads, uint64_t* matrix);
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extern void bmw256_setTarget(const void *ptarget);
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extern void bmw256_cpu_init(int thr_id, uint32_t threads);
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extern void bmw256_cpu_hash_32(int thr_id, uint32_t threads, uint32_t startNounce, uint64_t *g_hash, uint32_t *resultnonces);
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void lyra2v2_hash(void *state, const void *input)
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{
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uint32_t hashA[8], hashB[8];
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sph_blake256_context ctx_blake;
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sph_keccak256_context ctx_keccak;
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sph_skein256_context ctx_skein;
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sph_bmw256_context ctx_bmw;
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sph_cubehash256_context ctx_cube;
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sph_blake256_init(&ctx_blake);
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sph_blake256(&ctx_blake, input, 80);
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sph_blake256_close(&ctx_blake, hashA);
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sph_keccak256_init(&ctx_keccak);
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sph_keccak256(&ctx_keccak, hashA, 32);
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sph_keccak256_close(&ctx_keccak, hashB);
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sph_cubehash256_init(&ctx_cube);
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sph_cubehash256(&ctx_cube, hashB, 32);
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sph_cubehash256_close(&ctx_cube, hashA);
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LYRA2(hashB, 32, hashA, 32, hashA, 32, 1, 4, 4);
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sph_skein256_init(&ctx_skein);
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sph_skein256(&ctx_skein, hashB, 32);
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sph_skein256_close(&ctx_skein, hashA);
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sph_cubehash256_init(&ctx_cube);
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sph_cubehash256(&ctx_cube, hashA, 32);
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sph_cubehash256_close(&ctx_cube, hashB);
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sph_bmw256_init(&ctx_bmw);
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sph_bmw256(&ctx_bmw, hashB, 32);
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sph_bmw256_close(&ctx_bmw, hashA);
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memcpy(state, hashA, 32);
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}
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static bool init[MAX_GPUS] = { 0 };
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extern "C" int scanhash_lyra2v2(int thr_id, struct work* work, uint32_t max_nonce, unsigned long *hashes_done)
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{
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uint32_t *pdata = work->data;
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uint32_t *ptarget = work->target;
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const uint32_t first_nonce = pdata[19];
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int intensity = (device_sm[device_map[thr_id]] > 500 && !is_windows()) ? 18 : 17;
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unsigned int defthr = 1U << intensity;
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uint32_t throughput = device_intensity(device_map[thr_id], __func__, defthr);
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if (opt_benchmark)
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((uint32_t*)ptarget)[7] = 0x00ff;
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if (!init[thr_id])
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{
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cudaSetDevice(device_map[thr_id]);
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//cudaSetDeviceFlags(cudaDeviceScheduleBlockingSync);
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//if (opt_n_gputhreads == 1)
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// cudaDeviceSetCacheConfig(cudaFuncCachePreferL1);
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blake256_cpu_init(thr_id, throughput);
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keccak256_cpu_init(thr_id,throughput);
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skein256_cpu_init(thr_id, throughput);
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bmw256_cpu_init(thr_id, throughput);
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if (device_sm[device_map[thr_id]] < 300) {
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applog(LOG_ERR, "Device SM 3.0 or more recent required!");
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proper_exit(1);
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return -1;
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}
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// DMatrix
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CUDA_SAFE_CALL(cudaMalloc(&d_hash2[thr_id], 16 * 4 * 4 * sizeof(uint64_t) * throughput));
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lyra2v2_cpu_init(thr_id, throughput, d_hash2[thr_id]);
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CUDA_SAFE_CALL(cudaMalloc(&d_hash[thr_id], (size_t)throughput * 32));
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init[thr_id] = true;
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}
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uint32_t endiandata[20];
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for (int k=0; k < 20; k++)
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be32enc(&endiandata[k], ((uint32_t*)pdata)[k]);
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blake256_cpu_setBlock_80(pdata);
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bmw256_setTarget(ptarget);
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do {
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int order = 0;
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uint32_t foundNonces[2] = { 0, 0 };
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blake256_cpu_hash_80(thr_id, throughput, pdata[19], d_hash[thr_id], order++);
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keccak256_cpu_hash_32(thr_id, throughput, pdata[19], d_hash[thr_id], order++);
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cubehash256_cpu_hash_32(thr_id, throughput, pdata[19], d_hash[thr_id], order++);
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lyra2v2_cpu_hash_32(thr_id, throughput, pdata[19], d_hash[thr_id], order++);
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skein256_cpu_hash_32(thr_id, throughput, pdata[19], d_hash[thr_id], order++);
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cubehash256_cpu_hash_32(thr_id, throughput,pdata[19], d_hash[thr_id], order++);
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bmw256_cpu_hash_32(thr_id, throughput, pdata[19], d_hash[thr_id], foundNonces);
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if (foundNonces[0] != 0)
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{
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const uint32_t Htarg = ptarget[7];
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uint32_t vhash64[8];
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be32enc(&endiandata[19], foundNonces[0]);
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lyra2v2_hash(vhash64, endiandata);
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if (vhash64[7] <= Htarg && fulltest(vhash64, ptarget))
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{
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int res = 1;
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bn_store_hash_target_ratio(vhash64, ptarget, work);
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// check if there was another one...
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*hashes_done = pdata[19] - first_nonce + throughput;
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if (foundNonces[1] != 0)
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{
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be32enc(&endiandata[19], foundNonces[1]);
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lyra2v2_hash(vhash64, endiandata);
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if (bn_hash_target_ratio(vhash64, ptarget) > work->shareratio)
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bn_store_hash_target_ratio(vhash64, ptarget, work);
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pdata[21] = foundNonces[1];
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res++;
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}
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pdata[19] = foundNonces[0];
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MyStreamSynchronize(NULL, 0, device_map[thr_id]);
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return res;
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}
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else
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{
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if (vhash64[7] > Htarg) // don't show message if it is equal but fails fulltest
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applog(LOG_WARNING, "GPU #%d: result does not validate on CPU!", thr_id);
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}
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}
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pdata[19] += throughput;
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} while (!work_restart[thr_id].restart && (max_nonce > ((uint64_t)(pdata[19]) + throughput)));
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*hashes_done = pdata[19] - first_nonce + 1;
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MyStreamSynchronize(NULL, 0, device_map[thr_id]);
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return 0;
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}
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