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/*
This file is part of cpp-ethereum.
cpp-ethereum is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
cpp-ethereum is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file benchmark.cpp
* @author Tim Hughes <tim@twistedfury.com>
* @date 2015
*/
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <libethash/ethash.h>
#include <libethash/util.h>
#ifdef OPENCL
#include <libethash-cl/ethash_cl_miner.h>
#endif
#include <vector>
#include <algorithm>
#ifdef WITH_CRYPTOPP
#include <libethash/SHA3_cryptopp.h>
#include <string>
#else
#include "libethash/sha3.h"
#endif // WITH_CRYPTOPP
#undef min
#undef max
#if defined(OPENCL)
const unsigned trials = 1024*1024*32;
#elif defined(FULL)
const unsigned trials = 1024*1024/8;
#else
const unsigned trials = 1024*1024/1024;
#endif
uint8_t g_hashes[1024*32];
static char nibbleToChar(unsigned nibble)
{
return (char) ((nibble >= 10 ? 'a'-10 : '0') + nibble);
}
static uint8_t charToNibble(char chr)
{
if (chr >= '0' && chr <= '9')
{
return (uint8_t) (chr - '0');
}
if (chr >= 'a' && chr <= 'z')
{
return (uint8_t) (chr - 'a' + 10);
}
if (chr >= 'A' && chr <= 'Z')
{
return (uint8_t) (chr - 'A' + 10);
}
return 0;
}
static std::vector<uint8_t> hexStringToBytes(char const* str)
{
std::vector<uint8_t> bytes(strlen(str) >> 1);
for (unsigned i = 0; i != bytes.size(); ++i)
{
bytes[i] = charToNibble(str[i*2 | 0]) << 4;
bytes[i] |= charToNibble(str[i*2 | 1]);
}
return bytes;
}
static std::string bytesToHexString(uint8_t const* bytes, unsigned size)
{
std::string str;
for (unsigned i = 0; i != size; ++i)
{
str += nibbleToChar(bytes[i] >> 4);
str += nibbleToChar(bytes[i] & 0xf);
}
return str;
}
extern "C" int main(void)
{
// params for ethash
ethash_params params;
ethash_params_init(¶ms, 0);
//params.full_size = 262147 * 4096; // 1GBish;
//params.full_size = 32771 * 4096; // 128MBish;
//params.full_size = 8209 * 4096; // 8MBish;
//params.cache_size = 8209*4096;
//params.cache_size = 2053*4096;
uint8_t seed[32], previous_hash[32];
memcpy(seed, hexStringToBytes("9410b944535a83d9adf6bbdcc80e051f30676173c16ca0d32d6f1263fc246466").data(), 32);
memcpy(previous_hash, hexStringToBytes("c5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470").data(), 32);
// allocate page aligned buffer for dataset
#ifdef FULL
void* full_mem_buf = malloc(params.full_size + 4095);
void* full_mem = (void*)((uintptr_t(full_mem_buf) + 4095) & ~4095);
#endif
void* cache_mem_buf = malloc(params.cache_size + 63);
void* cache_mem = (void*)((uintptr_t(cache_mem_buf) + 63) & ~63);
ethash_cache cache;
cache.mem = cache_mem;
// compute cache or full data
{
clock_t startTime = clock();
ethash_mkcache(&cache, ¶ms, seed);
clock_t time = clock() - startTime;
uint8_t cache_hash[32];
SHA3_256(cache_hash, (uint8_t const*)cache_mem, params.cache_size);
debugf("ethash_mkcache: %ums, sha3: %s\n", (unsigned)((time*1000)/CLOCKS_PER_SEC), bytesToHexString(cache_hash,sizeof(cache_hash)).data());
// print a couple of test hashes
{
const clock_t startTime = clock();
ethash_return_value hash;
ethash_light(&hash, &cache, ¶ms, previous_hash, 0);
const clock_t time = clock() - startTime;
debugf("ethash_light test: %ums, %s\n", (unsigned)((time*1000)/CLOCKS_PER_SEC), bytesToHexString(hash.result, 32).data());
}
#ifdef FULL
startTime = clock();
ethash_compute_full_data(full_mem, ¶ms, &cache);
time = clock() - startTime;
debugf("ethash_compute_full_data: %ums\n", (unsigned)((time*1000)/CLOCKS_PER_SEC));
#endif // FULL
}
#ifdef OPENCL
ethash_cl_miner miner;
{
const clock_t startTime = clock();
if (!miner.init(params, seed))
exit(-1);
const clock_t time = clock() - startTime;
debugf("ethash_cl_miner init: %ums\n", (unsigned)((time*1000)/CLOCKS_PER_SEC));
}
#endif
#ifdef FULL
{
const clock_t startTime = clock();
ethash_return_value hash;
ethash_full(&hash, full_mem, ¶ms, previous_hash, 0);
const clock_t time = clock() - startTime;
debugf("ethash_full test: %uns, %s\n", (unsigned)((time*1000000)/CLOCKS_PER_SEC), bytesToHexString(hash.result, 32).data());
}
#endif
#ifdef OPENCL
// validate 1024 hashes against CPU
miner.hash(g_hashes, previous_hash, 0, 1024);
for (unsigned i = 0; i != 1024; ++i)
{
ethash_return_value hash;
ethash_light(&hash, &cache, ¶ms, previous_hash, i);
if (memcmp(hash.result, g_hashes + 32*i, 32) != 0)
{
debugf("nonce %u failed: %s %s\n", i, bytesToHexString(g_hashes + 32*i, 32).c_str(), bytesToHexString(hash.result, 32).c_str());
static unsigned c = 0;
if (++c == 16)
{
exit(-1);
}
}
}
#endif
clock_t startTime = clock();
unsigned hash_count = trials;
#ifdef OPENCL
{
struct search_hook : ethash_cl_miner::search_hook
{
unsigned hash_count;
std::vector<uint64_t> nonce_vec;
virtual bool found(uint64_t const* nonces, uint32_t count)
{
nonce_vec.assign(nonces, nonces + count);
return false;
}
virtual bool searched(uint64_t start_nonce, uint32_t count)
{
// do nothing
hash_count += count;
return hash_count >= trials;
}
};
search_hook hook;
hook.hash_count = 0;
miner.search(previous_hash, 0x000000ffffffffff, hook);
for (unsigned i = 0; i != hook.nonce_vec.size(); ++i)
{
uint64_t nonce = hook.nonce_vec[i];
ethash_return_value hash;
ethash_light(&hash, &cache, ¶ms, previous_hash, nonce);
debugf("found: %.8x%.8x -> %s\n", unsigned(nonce>>32), unsigned(nonce), bytesToHexString(hash.result, 32).c_str());
}
hash_count = hook.hash_count;
}
#else
{
//#pragma omp parallel for
for (int nonce = 0; nonce < trials; ++nonce)
{
ethash_return_value hash;
#ifdef FULL
ethash_full(&hash, full_mem, ¶ms, previous_hash, nonce);
#else
ethash_light(&hash, &cache, ¶ms, previous_hash, nonce);
#endif // FULL
}
}
#endif
clock_t time = std::max((clock_t)1u, clock() - startTime);
unsigned read_size = ACCESSES * MIX_BYTES;
debugf(
"hashrate: %8u, bw: %6u MB/s\n",
(unsigned)(((uint64_t)hash_count*CLOCKS_PER_SEC)/time),
(unsigned)((((uint64_t)hash_count*read_size*CLOCKS_PER_SEC)/time) / (1024*1024))
);
free(cache_mem_buf);
#ifdef FULL
free(full_mem_buf);
#endif
return 0;
}
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