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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 Ethash.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
*/
#include "Ethash.h"
#include <boost/detail/endian.hpp>
#include <boost/filesystem.hpp>
#include <chrono>
#include <array>
#include <thread>
#include <thread>
#include <libdevcore/Guards.h>
#include <libdevcore/Log.h>
#include <libdevcore/Common.h>
#include <libdevcore/CommonIO.h>
#include <libdevcore/CommonJS.h>
#include <libdevcrypto/CryptoPP.h>
#include <libdevcore/FileSystem.h>
#include <libethash/ethash.h>
#include <libethash/internal.h>
#include "BlockInfo.h"
#include "EthashAux.h"
#include "Exceptions.h"
#include "Farm.h"
#include "Miner.h"
#include "Params.h"
#include "EthashSealEngine.h"
#include "EthashCPUMiner.h"
#include "EthashGPUMiner.h"
9 years ago
#include "EthashCUDAMiner.h"
using namespace std;
using namespace std::chrono;
namespace dev
{
namespace eth
{
h256 const& Ethash::BlockHeaderRaw::seedHash() const
{
if (!m_seedHash)
m_seedHash = EthashAux::seedHash((unsigned)m_number);
return m_seedHash;
}
void Ethash::BlockHeaderRaw::populateFromHeader(RLP const& _header, Strictness _s)
{
m_mixHash = _header[BlockInfo::BasicFields].toHash<h256>();
m_nonce = _header[BlockInfo::BasicFields + 1].toHash<h64>();
// check it hashes according to proof of work or that it's the genesis block.
if (_s == CheckEverything && m_parentHash && !verify())
{
InvalidBlockNonce ex;
ex << errinfo_nonce(m_nonce);
ex << errinfo_mixHash(m_mixHash);
ex << errinfo_seedHash(seedHash());
EthashProofOfWork::Result er = EthashAux::eval(seedHash(), hashWithout(), m_nonce);
ex << errinfo_ethashResult(make_tuple(er.value, er.mixHash));
ex << errinfo_hash256(hashWithout());
ex << errinfo_difficulty(m_difficulty);
ex << errinfo_target(boundary());
BOOST_THROW_EXCEPTION(ex);
}
else if (_s == QuickNonce && m_parentHash && !preVerify())
{
InvalidBlockNonce ex;
ex << errinfo_hash256(hashWithout());
ex << errinfo_difficulty(m_difficulty);
ex << errinfo_nonce(m_nonce);
BOOST_THROW_EXCEPTION(ex);
}
if (_s != CheckNothing)
{
if (m_difficulty < c_minimumDifficulty)
BOOST_THROW_EXCEPTION(InvalidDifficulty() << RequirementError(bigint(c_minimumDifficulty), bigint(m_difficulty)) );
if (m_gasLimit < c_minGasLimit)
BOOST_THROW_EXCEPTION(InvalidGasLimit() << RequirementError(bigint(c_minGasLimit), bigint(m_gasLimit)) );
if (m_number && m_extraData.size() > c_maximumExtraDataSize)
BOOST_THROW_EXCEPTION(ExtraDataTooBig() << RequirementError(bigint(c_maximumExtraDataSize), bigint(m_extraData.size())) << errinfo_extraData(m_extraData));
}
}
void Ethash::BlockHeaderRaw::verifyParent(BlockHeaderRaw const& _parent)
{
// Check difficulty is correct given the two timestamps.
if (m_difficulty != calculateDifficulty(_parent))
BOOST_THROW_EXCEPTION(InvalidDifficulty() << RequirementError((bigint)calculateDifficulty(_parent), (bigint)m_difficulty));
if (m_gasLimit < c_minGasLimit ||
m_gasLimit <= _parent.m_gasLimit - _parent.m_gasLimit / c_gasLimitBoundDivisor ||
m_gasLimit >= _parent.m_gasLimit + _parent.m_gasLimit / c_gasLimitBoundDivisor)
BOOST_THROW_EXCEPTION(InvalidGasLimit() << errinfo_min((bigint)_parent.m_gasLimit - _parent.m_gasLimit / c_gasLimitBoundDivisor) << errinfo_got((bigint)m_gasLimit) << errinfo_max((bigint)_parent.m_gasLimit + _parent.m_gasLimit / c_gasLimitBoundDivisor));
}
void Ethash::BlockHeaderRaw::populateFromParent(BlockHeaderRaw const& _parent)
{
(void)_parent;
}
bool Ethash::BlockHeaderRaw::preVerify() const
{
if (m_number >= ETHASH_EPOCH_LENGTH * 2048)
return false;
bool ret = !!ethash_quick_check_difficulty(
(ethash_h256_t const*)hashWithout().data(),
(uint64_t)(u64)m_nonce,
(ethash_h256_t const*)m_mixHash.data(),
(ethash_h256_t const*)boundary().data());
return ret;
}
bool Ethash::BlockHeaderRaw::verify() const
{
bool pre = preVerify();
#if !ETH_DEBUG
if (!pre)
{
cwarn << "Fail on preVerify";
return false;
}
#endif
auto result = EthashAux::eval(seedHash(), hashWithout(), m_nonce);
bool slow = result.value <= boundary() && result.mixHash == m_mixHash;
// cdebug << (slow ? "VERIFY" : "VERYBAD");
// cdebug << result.value.hex() << _header.boundary().hex();
// cdebug << result.mixHash.hex() << _header.mixHash.hex();
#if ETH_DEBUG || !ETH_TRUE
if (!pre && slow)
{
cwarn << "WARNING: evaluated result gives true whereas ethash_quick_check_difficulty gives false.";
cwarn << "headerHash:" << hashWithout();
cwarn << "nonce:" << m_nonce;
cwarn << "mixHash:" << m_mixHash;
cwarn << "difficulty:" << m_difficulty;
cwarn << "boundary:" << boundary();
cwarn << "result.value:" << result.value;
cwarn << "result.mixHash:" << result.mixHash;
}
#endif
return slow;
}
void Ethash::BlockHeaderRaw::prep(std::function<int(unsigned)> const& _f) const
{
EthashAux::full(seedHash(), true, _f);
}
StringHashMap Ethash::BlockHeaderRaw::jsInfo() const
{
return { { "nonce", toJS(m_nonce) }, { "seedHash", toJS(seedHash()) }, { "mixHash", toJS(m_mixHash) } };
}
void Ethash::manuallySetWork(SealEngineFace* _engine, BlockHeader const& _work)
{
// set m_sealing to the current problem.
if (EthashSealEngine* e = dynamic_cast<EthashSealEngine*>(_engine))
e->m_sealing = _work;
}
void Ethash::manuallySubmitWork(SealEngineFace* _engine, h256 const& _mixHash, Nonce _nonce)
{
if (EthashSealEngine* e = dynamic_cast<EthashSealEngine*>(_engine))
{
// Go via the farm since the handler function object is stored as a local within the Farm's lambda.
// Has the side effect of stopping local workers, which is good, as long as it only does it for
// valid submissions.
static_cast<GenericFarmFace<EthashProofOfWork>&>(e->m_farm).submitProof(EthashProofOfWork::Solution{_nonce, _mixHash}, nullptr);
}
}
bool Ethash::isWorking(SealEngineFace* _engine)
{
if (EthashSealEngine* e = dynamic_cast<EthashSealEngine*>(_engine))
return e->m_farm.isMining();
return false;
}
WorkingProgress Ethash::workingProgress(SealEngineFace* _engine)
{
if (EthashSealEngine* e = dynamic_cast<EthashSealEngine*>(_engine))
return e->m_farm.miningProgress();
return WorkingProgress();
}
SealEngineFace* Ethash::createSealEngine()
{
return new EthashSealEngine;
}
std::string Ethash::name()
{
return "Ethash";
}
unsigned Ethash::revision()
{
return ETHASH_REVISION;
}
void Ethash::ensurePrecomputed(unsigned _number)
{
if (_number % ETHASH_EPOCH_LENGTH > ETHASH_EPOCH_LENGTH * 9 / 10)
// 90% of the way to the new epoch
EthashAux::computeFull(EthashAux::seedHash(_number + ETHASH_EPOCH_LENGTH), true);
}
}
}