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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 EthashGPUMiner.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
*
* Determines the PoW algorithm.
*/
#if ETH_ETHASHCL
#include "EthashGPUMiner.h"
#include <thread>
#include <chrono>
#include <libethash-cl/ethash_cl_miner.h>
using namespace std;
using namespace dev;
using namespace eth;
namespace dev
{
namespace eth
{
class EthashCLHook: public ethash_cl_miner::search_hook
{
public:
EthashCLHook(EthashGPUMiner* _owner): m_owner(_owner) {}
EthashCLHook(EthashCLHook const&) = delete;
void abort()
{
{
UniqueGuard l(x_all);
if (m_aborted)
return;
// cdebug << "Attempting to abort";
m_abort = true;
}
// m_abort is true so now searched()/found() will return true to abort the search.
// we hang around on this thread waiting for them to point out that they have aborted since
// otherwise we may end up deleting this object prior to searched()/found() being called.
m_aborted.wait(true);
// for (unsigned timeout = 0; timeout < 100 && !m_aborted; ++timeout)
// std::this_thread::sleep_for(chrono::milliseconds(30));
// if (!m_aborted)
// cwarn << "Couldn't abort. Abandoning OpenCL process.";
}
void reset()
{
UniqueGuard l(x_all);
m_aborted = m_abort = false;
}
protected:
virtual bool found(uint64_t const* _nonces, uint32_t _count) override
{
// dev::operator <<(std::cerr << "Found nonces: ", vector<uint64_t>(_nonces, _nonces + _count)) << std::endl;
for (uint32_t i = 0; i < _count; ++i)
if (m_owner->report(_nonces[i]))
return (m_aborted = true);
return m_owner->shouldStop();
}
virtual bool searched(uint64_t _startNonce, uint32_t _count) override
{
UniqueGuard l(x_all);
// std::cerr << "Searched " << _count << " from " << _startNonce << std::endl;
m_owner->accumulateHashes(_count);
m_last = _startNonce + _count;
if (m_abort || m_owner->shouldStop())
return (m_aborted = true);
return false;
}
private:
Mutex x_all;
uint64_t m_last;
bool m_abort = false;
Notified<bool> m_aborted = {true};
EthashGPUMiner* m_owner = nullptr;
};
}
}
unsigned EthashGPUMiner::s_platformId = 0;
unsigned EthashGPUMiner::s_deviceId = 0;
unsigned EthashGPUMiner::s_numInstances = 0;
int EthashGPUMiner::s_devices[16] = { -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1 };
EthashGPUMiner::EthashGPUMiner(ConstructionInfo const& _ci):
GenericMiner<EthashProofOfWork>(_ci),
Worker("openclminer" + toString(index())),
m_hook(new EthashCLHook(this))
{
}
EthashGPUMiner::~EthashGPUMiner()
{
pause();
delete m_miner;
delete m_hook;
}
bool EthashGPUMiner::report(uint64_t _nonce)
{
Nonce n = (Nonce)(u64)_nonce;
EthashProofOfWork::Result r = EthashAux::eval(work().seedHash, work().headerHash, n);
if (r.value < work().boundary)
return submitProof(Solution{n, r.mixHash});
return false;
}
void EthashGPUMiner::kickOff()
{
m_hook->reset();
startWorking();
}
void EthashGPUMiner::workLoop()
{
// take local copy of work since it may end up being overwritten by kickOff/pause.
try {
WorkPackage w = work();
cnote << "set work; seed: " << "#" + w.seedHash.hex().substr(0, 8) + ", target: " << "#" + w.boundary.hex().substr(0, 12);
if (!m_miner || m_minerSeed != w.seedHash)
{
if (s_dagLoadMode == DAG_LOAD_MODE_SEQUENTIAL)
{
while (s_dagLoadIndex < index()) {
this_thread::sleep_for(chrono::seconds(1));
}
}
cnote << "Initialising miner...";
m_minerSeed = w.seedHash;
delete m_miner;
m_miner = new ethash_cl_miner;
unsigned device = s_devices[index()] > -1 ? s_devices[index()] : index();
/*
EthashAux::FullType dag;
while (true)
{
if ((dag = EthashAux::full(w.seedHash, true)))
break;
if (shouldStop())
{
delete m_miner;
m_miner = nullptr;
return;
}
cnote << "Awaiting DAG";
this_thread::sleep_for(chrono::milliseconds(500));
}
*/
EthashAux::LightType light;
light = EthashAux::light(w.seedHash);
bytesConstRef lightData = light->data();
m_miner->init(light->light, lightData.data(), lightData.size(), s_platformId, device);
s_dagLoadIndex++;
}
uint64_t upper64OfBoundary = (uint64_t)(u64)((u256)w.boundary >> 192);
uint64_t startN = 0;
if (w.exSizeBits >= 0)
startN = w.startNonce | ((uint64_t)index() << (64 - 4 - w.exSizeBits)); // this can support up to 16 devices
m_miner->search(w.headerHash.data(), upper64OfBoundary, *m_hook, (w.exSizeBits >= 0), startN);
}
catch (cl::Error const& _e)
{
delete m_miner;
m_miner = nullptr;
cwarn << "Error GPU mining: " << _e.what() << "(" << _e.err() << ")";
}
}
void EthashGPUMiner::pause()
{
m_hook->abort();
stopWorking();
}
std::string EthashGPUMiner::platformInfo()
{
return ethash_cl_miner::platform_info(s_platformId, s_deviceId);
}
unsigned EthashGPUMiner::getNumDevices()
{
return ethash_cl_miner::getNumDevices(s_platformId);
}
void EthashGPUMiner::listDevices()
{
return ethash_cl_miner::listDevices();
}
bool EthashGPUMiner::configureGPU(
unsigned _localWorkSize,
unsigned _globalWorkSizeMultiplier,
unsigned _platformId,
unsigned _deviceId,
bool _allowCPU,
unsigned _extraGPUMemory,
uint64_t _currentBlock,
unsigned _dagLoadMode,
unsigned _dagCreateDevice
)
{
s_dagLoadMode = _dagLoadMode;
s_dagCreateDevice = _dagCreateDevice;
s_platformId = _platformId;
s_deviceId = _deviceId;
_localWorkSize = ((_localWorkSize + 7) / 8) * 8;
if (!ethash_cl_miner::configureGPU(
_platformId,
_localWorkSize,
_globalWorkSizeMultiplier * _localWorkSize,
_allowCPU,
_extraGPUMemory,
_currentBlock
)
)
{
cout << "No GPU device with sufficient memory was found. Can't GPU mine. Remove the -G argument" << endl;
return false;
}
return true;
}
#endif