ethminer/libethcore/Miner.h


								/*

								 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 Miner.h

								 * @author Gav Wood <i@gavwood.com>

								 * @date 2015

								 */


								#pragma once


								#include <thread>

								#include <list>

								#include <atomic>

								#include <boost/timer.hpp>

								#include <libdevcore/Common.h>

								#include <libdevcore/Log.h>

								#include <libdevcore/Worker.h>

								#include <libethcore/Common.h>


								namespace dev

								{


								namespace eth

								{


								/**

								 * @brief Describes the progress of a mining operation.

								 */

								struct MiningProgress

								{

								//	MiningProgress& operator+=(MiningProgress const& _mp) { hashes += _mp.hashes; ms = std::max(ms, _mp.ms); return *this; }

									uint64_t hashes = 0;		///< Total number of hashes computed.

									uint64_t ms = 0;			///< Total number of milliseconds of mining thus far.

									uint64_t rate() const { return hashes * 1000 / ms; }

								};


								struct MineInfo: public MiningProgress {};


								inline std::ostream& operator<<(std::ostream& _out, MiningProgress _p)

								{

									_out << _p.rate() << " H/s = " <<  _p.hashes << " hashes / " << (double(_p.ms) / 1000) << " s";

									return _out;

								}


								template <class PoW> class GenericMiner;


								/**

								 * @brief Class for hosting one or more Miners.

								 * @warning Must be implemented in a threadsafe manner since it will be called from multiple

								 * miner threads.

								 */

								template <class PoW> class GenericFarmFace

								{

								public:

									using WorkPackage = typename PoW::WorkPackage;

									using Solution = typename PoW::Solution;

									using Miner = GenericMiner<PoW>;


									/**

									 * @brief Called from a Miner to note a WorkPackage has a solution.

									 * @param _p The solution.

									 * @param _wp The WorkPackage that the Solution is for; this will be reset if the work is accepted.

									 * @param _finder The miner that found it.

									 * @return true iff the solution was good (implying that mining should be .

									 */

									virtual bool submitProof(Solution const& _p, Miner* _finder) = 0;

								};


								/**

								 * @brief A miner - a member and adoptee of the Farm.

								 * @warning Not threadsafe. It is assumed Farm will synchronise calls to/from this class.

								 */

								template <class PoW> class GenericMiner

								{

								public:

									using WorkPackage = typename PoW::WorkPackage;

									using Solution = typename PoW::Solution;

									using FarmFace = GenericFarmFace<PoW>;

									using ConstructionInfo = std::pair<FarmFace*, unsigned>;


									GenericMiner(ConstructionInfo const& _ci):

										m_farm(_ci.first),

										m_index(_ci.second)

									{}


									// API FOR THE FARM TO CALL IN WITH


									void setWork(WorkPackage const& _work = WorkPackage())

									{

										auto old = m_work;

										{

											Guard l(x_work);

											m_work = _work;

										}

										if (!!_work)

										{

											boost::timer t;

											pause();

											cdebug << "pause took" << t.elapsed();

											t.restart();

											kickOff();

											cdebug << "kickOff took" << t.elapsed();

										}

										else if (!_work && !!old)

											pause();

										m_hashCount = 0;

									}


									uint64_t hashCount() const { return m_hashCount; }


									void resetHashCount() { m_hashCount = 0; }


									unsigned index() const { return m_index; }


								protected:


									// REQUIRED TO BE REIMPLEMENTED BY A SUBCLASS:


									/**

									 * @brief Begin working on a given work package, discarding any previous work.

									 * @param _work The package for which to find a solution.

									 */

									virtual void kickOff() = 0;


									/**

									 * @brief No work left to be done. Pause until told to kickOff().

									 */

									virtual void pause() = 0;


									// AVAILABLE FOR A SUBCLASS TO CALL:


									/**

									 * @brief Notes that the Miner found a solution.

									 * @param _s The solution.

									 * @return true if the solution was correct and that the miner should pause.

									 */

									bool submitProof(Solution const& _s)

									{

										if (!m_farm)

											return true;

										if (m_farm->submitProof(_s, this))

										{

											Guard l(x_work);

											m_work.reset();

											return true;

										}

										return false;

									}


									WorkPackage const& work() const { Guard l(x_work); return m_work; }


									void accumulateHashes(unsigned _n) { m_hashCount += _n; }


								private:

									FarmFace* m_farm = nullptr;

									unsigned m_index;


									uint64_t m_hashCount = 0;


									WorkPackage m_work;

									mutable Mutex x_work;

								};


								}

								}