GOSTcoin support for ccminer CUDA miner project, compatible with most nvidia cards
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#include "cryptolight.h"
extern char *device_config[MAX_GPUS]; // -l 32x16
static __thread uint32_t cn_blocks = 32;
static __thread uint32_t cn_threads = 16;
static uint32_t *d_long_state[MAX_GPUS];
static uint32_t *d_ctx_state[MAX_GPUS];
static uint32_t *d_ctx_key1[MAX_GPUS];
static uint32_t *d_ctx_key2[MAX_GPUS];
static uint32_t *d_ctx_text[MAX_GPUS];
static uint64_t *d_ctx_tweak[MAX_GPUS];
static uint32_t *d_ctx_a[MAX_GPUS];
static uint32_t *d_ctx_b[MAX_GPUS];
static bool init[MAX_GPUS] = { 0 };
extern "C" int scanhash_cryptolight(int thr_id, struct work* work, uint32_t max_nonce, unsigned long *hashes_done, int variant)
{
int res = 0;
uint32_t throughput = 0;
uint32_t *ptarget = work->target;
uint8_t *pdata = (uint8_t*) work->data;
uint32_t *nonceptr = (uint32_t*) (&pdata[39]);
const uint32_t first_nonce = *nonceptr;
uint32_t nonce = first_nonce;
int dev_id = device_map[thr_id];
if(opt_benchmark) {
ptarget[7] = 0x00ff;
}
if(!init[thr_id])
{
if (!device_config[thr_id] && strcmp(device_name[dev_id], "TITAN V") == 0) {
device_config[thr_id] = strdup("80x32");
}
if (device_config[thr_id]) {
sscanf(device_config[thr_id], "%ux%u", &cn_blocks, &cn_threads);
throughput = cuda_default_throughput(thr_id, cn_blocks*cn_threads);
gpulog(LOG_INFO, thr_id, "Using %u x %u kernel launch config, %u threads",
cn_blocks, cn_threads, throughput);
} else {
throughput = cuda_default_throughput(thr_id, cn_blocks*cn_threads);
if (throughput != cn_blocks*cn_threads && cn_threads) {
cn_blocks = throughput / cn_threads;
throughput = cn_threads * cn_blocks;
}
gpulog(LOG_INFO, thr_id, "Intensity set to %g, %u threads (%ux%u)",
throughput2intensity(throughput), throughput, cn_blocks, cn_threads);
}
if(sizeof(size_t) == 4 && throughput > UINT32_MAX / MEMORY) {
gpulog(LOG_ERR, thr_id, "THE 32bit VERSION CAN'T ALLOCATE MORE THAN 4GB OF MEMORY!");
gpulog(LOG_ERR, thr_id, "PLEASE REDUCE THE NUMBER OF THREADS OR BLOCKS");
exit(1);
}
cudaSetDevice(device_map[thr_id]);
if (opt_cudaschedule == -1 && gpu_threads == 1) {
cudaDeviceReset();
cudaSetDeviceFlags(cudaDeviceScheduleBlockingSync);
cudaDeviceSetCacheConfig(cudaFuncCachePreferL1);
CUDA_LOG_ERROR();
}
const size_t alloc = MEMORY * throughput;
cryptonight_extra_init(thr_id);
cudaMalloc(&d_long_state[thr_id], alloc);
exit_if_cudaerror(thr_id, __FUNCTION__, __LINE__);
cudaMalloc(&d_ctx_state[thr_id], 25 * sizeof(uint64_t) * throughput);
exit_if_cudaerror(thr_id, __FUNCTION__, __LINE__);
cudaMalloc(&d_ctx_key1[thr_id], 40 * sizeof(uint32_t) * throughput);
exit_if_cudaerror(thr_id, __FUNCTION__, __LINE__);
cudaMalloc(&d_ctx_key2[thr_id], 40 * sizeof(uint32_t) * throughput);
exit_if_cudaerror(thr_id, __FUNCTION__, __LINE__);
cudaMalloc(&d_ctx_text[thr_id], 32 * sizeof(uint32_t) * throughput);
exit_if_cudaerror(thr_id, __FUNCTION__, __LINE__);
cudaMalloc(&d_ctx_a[thr_id], 4 * sizeof(uint32_t) * throughput);
exit_if_cudaerror(thr_id, __FUNCTION__, __LINE__);
cudaMalloc(&d_ctx_b[thr_id], 4 * sizeof(uint32_t) * throughput);
exit_if_cudaerror(thr_id, __FUNCTION__, __LINE__);
cudaMalloc(&d_ctx_tweak[thr_id], sizeof(uint64_t) * throughput);
init[thr_id] = true;
}
throughput = cn_blocks*cn_threads;
do
{
const uint32_t Htarg = ptarget[7];
uint32_t resNonces[2] = { UINT32_MAX, UINT32_MAX };
cryptonight_extra_setData(thr_id, pdata, ptarget);
cryptonight_extra_prepare(thr_id, throughput, nonce, d_ctx_state[thr_id], d_ctx_a[thr_id], d_ctx_b[thr_id], d_ctx_key1[thr_id], d_ctx_key2[thr_id], variant, d_ctx_tweak[thr_id]);
cryptolight_core_hash(thr_id, cn_blocks, cn_threads, d_long_state[thr_id], d_ctx_state[thr_id], d_ctx_a[thr_id], d_ctx_b[thr_id], d_ctx_key1[thr_id], d_ctx_key2[thr_id], variant, d_ctx_tweak[thr_id]);
cryptonight_extra_final(thr_id, throughput, nonce, resNonces, d_ctx_state[thr_id]);
*hashes_done = nonce - first_nonce + throughput;
if(resNonces[0] != UINT32_MAX)
{
uint32_t vhash[8];
uint32_t tempdata[19];
uint32_t *tempnonceptr = (uint32_t*)(((char*)tempdata) + 39);
memcpy(tempdata, pdata, 76);
*tempnonceptr = resNonces[0];
cryptolight_hash_variant(vhash, tempdata, 76, variant);
if(vhash[7] <= Htarg && fulltest(vhash, ptarget))
{
res = 1;
work->nonces[0] = resNonces[0];
work_set_target_ratio(work, vhash);
// second nonce
if(resNonces[1] != UINT32_MAX)
{
*tempnonceptr = resNonces[1];
cryptolight_hash_variant(vhash, tempdata, 76, variant);
if(vhash[7] <= Htarg && fulltest(vhash, ptarget)) {
res++;
work->nonces[1] = resNonces[1];
} else if (vhash[7] > Htarg) {
gpu_increment_reject(thr_id);
}
}
goto done;
} else if (vhash[7] > Htarg) {
gpu_increment_reject(thr_id);
if (!opt_quiet)
gpulog(LOG_WARNING, thr_id, "result for nonce %08x does not validate on CPU!", resNonces[0]);
}
}
if ((uint64_t) throughput + nonce >= max_nonce - 127) {
nonce = max_nonce;
break;
}
nonce += throughput;
gpulog(LOG_DEBUG, thr_id, "nonce %08x", nonce);
} while (!work_restart[thr_id].restart && max_nonce > (uint64_t)throughput + nonce);
done:
gpulog(LOG_DEBUG, thr_id, "nonce %08x exit", nonce);
work->valid_nonces = res;
*nonceptr = nonce;
return res;
}
void free_cryptolight(int thr_id)
{
if (!init[thr_id])
return;
cudaFree(d_long_state[thr_id]);
cudaFree(d_ctx_state[thr_id]);
cudaFree(d_ctx_key1[thr_id]);
cudaFree(d_ctx_key2[thr_id]);
cudaFree(d_ctx_text[thr_id]);
cudaFree(d_ctx_tweak[thr_id]);
cudaFree(d_ctx_a[thr_id]);
cudaFree(d_ctx_b[thr_id]);
cryptonight_extra_free(thr_id);
cudaDeviceSynchronize();
init[thr_id] = false;
}