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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 EthashAux.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
*/
#include "EthashAux.h"
#include <boost/detail/endian.hpp>
#include <boost/filesystem.hpp>
#include <chrono>
#include <array>
#include <random>
#include <thread>
#include <libdevcore/Common.h>
#include <libdevcore/Guards.h>
#include <libdevcore/Log.h>
#include <libdevcrypto/CryptoPP.h>
#include <libdevcore/SHA3.h>
#include <libdevcore/FileSystem.h>
#include <libethash/internal.h>
#include "BlockInfo.h"
#include "Exceptions.h"
using namespace std;
using namespace chrono;
using namespace dev;
using namespace eth;
const char* DAGChannel::name() { return EthGreen "DAG"; }
EthashAux* dev::eth::EthashAux::s_this = nullptr;
EthashAux::~EthashAux()
{
}
uint64_t EthashAux::cacheSize(BlockInfo const& _header)
{
return ethash_get_cachesize((uint64_t)_header.number);
}
uint64_t EthashAux::dataSize(uint64_t _blockNumber)
{
return ethash_get_datasize(_blockNumber);
}
h256 EthashAux::seedHash(unsigned _number)
{
unsigned epoch = _number / ETHASH_EPOCH_LENGTH;
Guard l(get()->x_epochs);
if (epoch >= get()->m_seedHashes.size())
{
h256 ret;
unsigned n = 0;
if (!get()->m_seedHashes.empty())
{
ret = get()->m_seedHashes.back();
n = get()->m_seedHashes.size() - 1;
}
get()->m_seedHashes.resize(epoch + 1);
// cdebug << "Searching for seedHash of epoch " << epoch;
for (; n <= epoch; ++n, ret = sha3(ret))
{
get()->m_seedHashes[n] = ret;
// cdebug << "Epoch" << n << "is" << ret;
}
}
return get()->m_seedHashes[epoch];
}
uint64_t EthashAux::number(h256 const& _seedHash)
{
Guard l(get()->x_epochs);
unsigned epoch = 0;
auto epochIter = get()->m_epochs.find(_seedHash);
if (epochIter == get()->m_epochs.end())
{
// cdebug << "Searching for seedHash " << _seedHash;
for (h256 h; h != _seedHash && epoch < 2048; ++epoch, h = sha3(h), get()->m_epochs[h] = epoch) {}
if (epoch == 2048)
{
std::ostringstream error;
error << "apparent block number for " << _seedHash << " is too high; max is " << (ETHASH_EPOCH_LENGTH * 2048);
throw std::invalid_argument(error.str());
}
}
else
epoch = epochIter->second;
return epoch * ETHASH_EPOCH_LENGTH;
}
void EthashAux::killCache(h256 const& _s)
{
WriteGuard l(x_lights);
m_lights.erase(_s);
}
EthashAux::LightType EthashAux::light(h256 const& _seedHash)
{
ReadGuard l(get()->x_lights);
LightType ret = get()->m_lights[_seedHash];
return ret ? ret : (get()->m_lights[_seedHash] = make_shared<LightAllocation>(_seedHash));
}
EthashAux::LightAllocation::LightAllocation(h256 const& _seedHash)
{
uint64_t blockNumber = EthashAux::number(_seedHash);
light = ethash_light_new(blockNumber);
if (!light)
BOOST_THROW_EXCEPTION(ExternalFunctionFailure("ethash_light_new()"));
size = ethash_get_cachesize(blockNumber);
}
EthashAux::LightAllocation::~LightAllocation()
{
ethash_light_delete(light);
}
bytesConstRef EthashAux::LightAllocation::data() const
{
return bytesConstRef((byte const*)light->cache, size);
}
EthashAux::FullAllocation::FullAllocation(ethash_light_t _light, ethash_callback_t _cb)
{
// cdebug << "About to call ethash_full_new...";
full = ethash_full_new(_light, _cb);
// cdebug << "Called OK.";
if (!full)
{
clog(DAGChannel) << "DAG Generation Failure. Reason: " << strerror(errno);
BOOST_THROW_EXCEPTION(ExternalFunctionFailure("ethash_full_new"));
}
}
EthashAux::FullAllocation::~FullAllocation()
{
ethash_full_delete(full);
}
bytesConstRef EthashAux::FullAllocation::data() const
{
return bytesConstRef((byte const*)ethash_full_dag(full), size());
}
static std::function<int(unsigned)> s_dagCallback;
static int dagCallbackShim(unsigned _p)
{
clog(DAGChannel) << "Generating DAG file. Progress: " << toString(_p) << "%";
return s_dagCallback ? s_dagCallback(_p) : 0;
}
EthashAux::FullType EthashAux::full(h256 const& _seedHash, bool _createIfMissing, function<int(unsigned)> const& _f)
{
FullType ret;
auto l = light(_seedHash);
DEV_GUARDED(get()->x_fulls)
if ((ret = get()->m_fulls[_seedHash].lock()))
{
get()->m_lastUsedFull = ret;
return ret;
}
if (_createIfMissing || computeFull(_seedHash, false) == 100)
{
s_dagCallback = _f;
// cnote << "Loading from libethash...";
ret = make_shared<FullAllocation>(l->light, dagCallbackShim);
// cnote << "Done loading.";
DEV_GUARDED(get()->x_fulls)
get()->m_fulls[_seedHash] = get()->m_lastUsedFull = ret;
}
return ret;
}
#define DEV_IF_THROWS(X) try { X; } catch (...)
unsigned EthashAux::computeFull(h256 const& _seedHash, bool _createIfMissing)
{
Guard l(get()->x_fulls);
uint64_t blockNumber;
DEV_IF_THROWS(blockNumber = EthashAux::number(_seedHash))
{
return 0;
}
if (FullType ret = get()->m_fulls[_seedHash].lock())
{
get()->m_lastUsedFull = ret;
return 100;
}
if (_createIfMissing && (!get()->m_fullGenerator || !get()->m_fullGenerator->joinable()))
{
get()->m_fullProgress = 0;
get()->m_generatingFullNumber = blockNumber / ETHASH_EPOCH_LENGTH * ETHASH_EPOCH_LENGTH;
get()->m_fullGenerator = unique_ptr<thread>(new thread([=](){
cnote << "Loading full DAG of seedhash: " << _seedHash;
get()->full(_seedHash, true, [](unsigned p){ get()->m_fullProgress = p; return 0; });
cnote << "Full DAG loaded";
get()->m_fullProgress = 0;
get()->m_generatingFullNumber = NotGenerating;
}));
}
return (get()->m_generatingFullNumber == blockNumber) ? get()->m_fullProgress : 0;
}
Ethash::Result EthashAux::FullAllocation::compute(h256 const& _headerHash, Nonce const& _nonce) const
{
ethash_return_value_t r = ethash_full_compute(full, *(ethash_h256_t*)_headerHash.data(), (uint64_t)(u64)_nonce);
if (!r.success)
BOOST_THROW_EXCEPTION(DAGCreationFailure());
return Ethash::Result{h256((uint8_t*)&r.result, h256::ConstructFromPointer), h256((uint8_t*)&r.mix_hash, h256::ConstructFromPointer)};
}
Ethash::Result EthashAux::LightAllocation::compute(h256 const& _headerHash, Nonce const& _nonce) const
{
ethash_return_value r = ethash_light_compute(light, *(ethash_h256_t*)_headerHash.data(), (uint64_t)(u64)_nonce);
if (!r.success)
BOOST_THROW_EXCEPTION(DAGCreationFailure());
return Ethash::Result{h256((uint8_t*)&r.result, h256::ConstructFromPointer), h256((uint8_t*)&r.mix_hash, h256::ConstructFromPointer)};
}
Ethash::Result EthashAux::eval(BlockInfo const& _header, Nonce const& _nonce)
{
return eval(_header.seedHash(), _header.headerHash(WithoutNonce), _nonce);
}
Ethash::Result EthashAux::eval(h256 const& _seedHash, h256 const& _headerHash, Nonce const& _nonce)
{
DEV_GUARDED(get()->x_fulls)
if (FullType dag = get()->m_fulls[_seedHash].lock())
return dag->compute(_headerHash, _nonce);
DEV_IF_THROWS(return EthashAux::get()->light(_seedHash)->compute(_headerHash, _nonce))
{
return Ethash::Result{ ~h256(), h256() };
}
}