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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 Client.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
*/
#include "Client.h"
#include <chrono>
#include <thread>
#include <boost/filesystem.hpp>
#include <boost/math/distributions/normal.hpp>
#include <libdevcore/Log.h>
#include <libdevcore/StructuredLogger.h>
#include <libp2p/Host.h>
#include "Defaults.h"
#include "Executive.h"
#include "EthereumHost.h"
using namespace std;
using namespace dev;
using namespace dev::eth;
using namespace p2p;
VersionChecker::VersionChecker(string const& _dbPath):
m_path(_dbPath.size() ? _dbPath : Defaults::dbPath())
{
bytes statusBytes = contents(m_path + "/status");
RLP status(statusBytes);
try
{
auto protocolVersion = (unsigned)status[0];
auto minorProtocolVersion = (unsigned)status[1];
auto databaseVersion = (unsigned)status[2];
m_action =
protocolVersion != eth::c_protocolVersion || databaseVersion != c_databaseVersion ?
WithExisting::Kill
: minorProtocolVersion != eth::c_minorProtocolVersion ?
WithExisting::Verify
:
WithExisting::Trust;
}
catch (...)
{
m_action = WithExisting::Kill;
}
}
void VersionChecker::setOk()
{
if (m_action != WithExisting::Trust)
{
try
{
boost::filesystem::create_directory(m_path);
}
catch (...)
{
cwarn << "Unhandled exception! Failed to create directory: " << m_path << "\n" << boost::current_exception_diagnostic_information();
}
writeFile(m_path + "/status", rlpList(eth::c_protocolVersion, eth::c_minorProtocolVersion, c_databaseVersion));
}
}
void BasicGasPricer::update(BlockChain const& _bc)
{
unsigned c = 0;
h256 p = _bc.currentHash();
m_gasPerBlock = _bc.info(p).gasLimit;
map<u256, u256> dist;
u256 total = 0;
// make gasPrice versus gasUsed distribution for the last 1000 blocks
while (c < 1000 && p)
{
BlockInfo bi = _bc.info(p);
if (bi.transactionsRoot != EmptyTrie)
{
auto bb = _bc.block(p);
RLP r(bb);
BlockReceipts brs(_bc.receipts(bi.hash()));
size_t i = 0;
for (auto const& tr: r[1])
{
Transaction tx(tr.data(), CheckTransaction::None);
u256 gu = brs.receipts[i].gasUsed();
dist[tx.gasPrice()] += gu;
total += gu;
i++;
}
}
p = bi.parentHash;
++c;
}
// fill m_octiles with weighted gasPrices
if (total > 0)
{
m_octiles[0] = dist.begin()->first;
// calc mean
u256 mean = 0;
for (auto const& i: dist)
mean += i.first * i.second;
mean /= total;
// calc standard deviation
u256 sdSquared = 0;
for (auto const& i: dist)
sdSquared += i.second * (i.first - mean) * (i.first - mean);
sdSquared /= total;
if (sdSquared)
{
long double sd = sqrt(sdSquared.convert_to<long double>());
long double normalizedSd = sd / mean.convert_to<long double>();
// calc octiles normalized to gaussian distribution
boost::math::normal gauss(1.0, (normalizedSd > 0.01) ? normalizedSd : 0.01);
for (size_t i = 1; i < 8; i++)
m_octiles[i] = u256(mean.convert_to<long double>() * boost::math::quantile(gauss, i / 8.0));
m_octiles[8] = dist.rbegin()->first;
}
else
{
for (size_t i = 0; i < 9; i++)
m_octiles[i] = (i + 1) * mean / 5;
}
}
}
std::ostream& dev::eth::operator<<(std::ostream& _out, ActivityReport const& _r)
{
_out << "Since " << toString(_r.since) << " (" << std::chrono::duration_cast<std::chrono::seconds>(std::chrono::system_clock::now() - _r.since).count();
_out << "): " << _r.ticks << "ticks";
return _out;
}
#ifdef _WIN32
const char* ClientNote::name() { return EthTeal "^" EthBlue " i"; }
const char* ClientChat::name() { return EthTeal "^" EthWhite " o"; }
const char* ClientTrace::name() { return EthTeal "^" EthGray " O"; }
const char* ClientDetail::name() { return EthTeal "^" EthCoal " 0"; }
#else
const char* ClientNote::name() { return EthTeal "" EthBlue ""; }
const char* ClientChat::name() { return EthTeal "" EthWhite ""; }
const char* ClientTrace::name() { return EthTeal "" EthGray ""; }
const char* ClientDetail::name() { return EthTeal "" EthCoal ""; }
#endif
Client::Client(p2p::Host* _extNet, std::string const& _dbPath, WithExisting _forceAction, u256 _networkId):
Worker("eth"),
m_vc(_dbPath),
m_bc(_dbPath, max(m_vc.action(), _forceAction), [](unsigned d, unsigned t){ cerr << "REVISING BLOCKCHAIN: Processed " << d << " of " << t << "...\r"; }),
m_gp(new TrivialGasPricer),
m_stateDB(State::openDB(_dbPath, max(m_vc.action(), _forceAction))),
m_preMine(m_stateDB, BaseState::CanonGenesis),
m_postMine(m_stateDB)
{
m_tqReady = m_tq.onReady([=](){ this->onTransactionQueueReady(); }); // TODO: should read m_tq->onReady(thisThread, syncTransactionQueue);
m_bqReady = m_bq.onReady([=](){ this->onBlockQueueReady(); }); // TODO: should read m_bq->onReady(thisThread, syncBlockQueue);
m_farm.onSolutionFound([=](ProofOfWork::Solution const& s){ return this->submitWork(s); });
m_gp->update(m_bc);
m_host = _extNet->registerCapability(new EthereumHost(m_bc, m_tq, m_bq, _networkId));
if (_dbPath.size())
Defaults::setDBPath(_dbPath);
m_vc.setOk();
doWork();
startWorking();
}
Client::Client(p2p::Host* _extNet, std::shared_ptr<GasPricer> _gp, std::string const& _dbPath, WithExisting _forceAction, u256 _networkId):
Worker("eth"),
m_vc(_dbPath),
m_bc(_dbPath, max(m_vc.action(), _forceAction), [](unsigned d, unsigned t){ cerr << "REVISING BLOCKCHAIN: Processed " << d << " of " << t << "...\r"; }),
m_gp(_gp),
m_stateDB(State::openDB(_dbPath, max(m_vc.action(), _forceAction))),
m_preMine(m_stateDB),
m_postMine(m_stateDB)
{
m_tqReady = m_tq.onReady([=](){ this->onTransactionQueueReady(); }); // TODO: should read m_tq->onReady(thisThread, syncTransactionQueue);
m_bqReady = m_bq.onReady([=](){ this->onBlockQueueReady(); }); // TODO: should read m_bq->onReady(thisThread, syncBlockQueue);
m_farm.onSolutionFound([=](ProofOfWork::Solution const& s){ return this->submitWork(s); });
m_gp->update(m_bc);
m_host = _extNet->registerCapability(new EthereumHost(m_bc, m_tq, m_bq, _networkId));
if (_dbPath.size())
Defaults::setDBPath(_dbPath);
m_vc.setOk();
doWork();
startWorking();
}
Client::~Client()
{
stopWorking();
}
void Client::setNetworkId(u256 _n)
{
if (auto h = m_host.lock())
h->setNetworkId(_n);
}
DownloadMan const* Client::downloadMan() const
{
if (auto h = m_host.lock())
return &(h->downloadMan());
return nullptr;
}
bool Client::isSyncing() const
{
if (auto h = m_host.lock())
return h->isSyncing();
return false;
}
void Client::startedWorking()
{
// Synchronise the state according to the head of the block chain.
// TODO: currently it contains keys for *all* blocks. Make it remove old ones.
cdebug << "startedWorking()";
ETH_WRITE_GUARDED(x_preMine)
m_preMine.sync(m_bc);
ETH_WRITE_GUARDED(x_postMine)
ETH_READ_GUARDED(x_preMine)
m_postMine = m_preMine;
}
void Client::doneWorking()
{
// Synchronise the state according to the head of the block chain.
// TODO: currently it contains keys for *all* blocks. Make it remove old ones.
ETH_WRITE_GUARDED(x_preMine)
m_preMine.sync(m_bc);
ETH_WRITE_GUARDED(x_postMine)
ETH_READ_GUARDED(x_preMine)
m_postMine = m_preMine;
}
void Client::killChain()
{
bool wasMining = isMining();
if (wasMining)
stopMining();
stopWorking();
m_tq.clear();
m_bq.clear();
m_farm.stop();
{
WriteGuard l(x_postMine);
WriteGuard l2(x_preMine);
m_preMine = State();
m_postMine = State();
m_stateDB = OverlayDB();
m_stateDB = State::openDB(Defaults::dbPath(), WithExisting::Kill);
m_bc.reopen(Defaults::dbPath(), WithExisting::Kill);
m_preMine = State(m_stateDB, BaseState::CanonGenesis);
m_postMine = State(m_stateDB);
}
if (auto h = m_host.lock())
h->reset();
doWork();
startWorking();
if (wasMining)
startMining();
}
void Client::clearPending()
{
h256Set changeds;
ETH_WRITE_GUARDED(x_postMine)
{
if (!m_postMine.pending().size())
return;
// for (unsigned i = 0; i < m_postMine.pending().size(); ++i)
// appendFromNewPending(m_postMine.logBloom(i), changeds);
changeds.insert(PendingChangedFilter);
m_tq.clear();
ETH_READ_GUARDED(x_preMine)
m_postMine = m_preMine;
}
startMining();
noteChanged(changeds);
}
template <class S, class T>
static S& filtersStreamOut(S& _out, T const& _fs)
{
_out << "{";
unsigned i = 0;
for (h256 const& f: _fs)
{
_out << (i++ ? ", " : "");
if (f == PendingChangedFilter)
_out << LogTag::Special << "pending";
else if (f == ChainChangedFilter)
_out << LogTag::Special << "chain";
else
_out << f;
}
_out << "}";
return _out;
}
void Client::appendFromNewPending(TransactionReceipt const& _receipt, h256Set& io_changed, h256 _transactionHash)
{
Guard l(x_filtersWatches);
for (pair<h256 const, InstalledFilter>& i: m_filters)
if (i.second.filter.envelops(RelativeBlock::Pending, m_bc.number() + 1))
{
// acceptable number.
auto m = i.second.filter.matches(_receipt);
if (m.size())
{
// filter catches them
for (LogEntry const& l: m)
i.second.changes.push_back(LocalisedLogEntry(l, m_bc.number() + 1, _transactionHash));
io_changed.insert(i.first);
}
}
}
void Client::appendFromNewBlock(h256 const& _block, h256Set& io_changed)
{
// TODO: more precise check on whether the txs match.
auto d = m_bc.info(_block);
auto br = m_bc.receipts(_block);
Guard l(x_filtersWatches);
for (pair<h256 const, InstalledFilter>& i: m_filters)
if (i.second.filter.envelops(RelativeBlock::Latest, d.number) && i.second.filter.matches(d.logBloom))
// acceptable number & looks like block may contain a matching log entry.
for (size_t j = 0; j < br.receipts.size(); j++)
{
auto tr = br.receipts[j];
auto m = i.second.filter.matches(tr);
if (m.size())
{
auto transactionHash = transaction(d.hash(), j).sha3();
// filter catches them
for (LogEntry const& l: m)
i.second.changes.push_back(LocalisedLogEntry(l, (unsigned)d.number, transactionHash));
io_changed.insert(i.first);
}
}
}
void Client::setForceMining(bool _enable)
{
m_forceMining = _enable;
if (isMining())
startMining();
}
MiningProgress Client::miningProgress() const
{
if (m_farm.isMining())
return m_farm.miningProgress();
return MiningProgress();
}
uint64_t Client::hashrate() const
{
if (m_farm.isMining())
return m_farm.miningProgress().rate();
return 0;
}
std::list<MineInfo> Client::miningHistory()
{
std::list<MineInfo> ret;
/* ReadGuard l(x_localMiners);
if (m_localMiners.empty())
return ret;
ret = m_localMiners[0].miningHistory();
for (unsigned i = 1; i < m_localMiners.size(); ++i)
{
auto l = m_localMiners[i].miningHistory();
auto ri = ret.begin();
auto li = l.begin();
for (; ri != ret.end() && li != l.end(); ++ri, ++li)
ri->combine(*li);
}*/
return ret;
}
ExecutionResult Client::call(Address _dest, bytes const& _data, u256 _gas, u256 _value, u256 _gasPrice, Address const& _from)
{
ExecutionResult ret;
try
{
State temp;
// cdebug << "Nonce at " << toAddress(_secret) << " pre:" << m_preMine.transactionsFrom(toAddress(_secret)) << " post:" << m_postMine.transactionsFrom(toAddress(_secret));
ETH_READ_GUARDED(x_postMine)
temp = m_postMine;
temp.addBalance(_from, _value + _gasPrice * _gas);
Executive e(temp, LastHashes(), 0);
if (!e.call(_dest, _dest, _from, _value, _gasPrice, &_data, _gas, _from))
e.go();
ret = e.executionResult();
}
catch (...)
{
// TODO: Some sort of notification of failure.
}
return ret;
}
ProofOfWork::WorkPackage Client::getWork()
{
// lock the work so a later submission isn't invalidated by processing a transaction elsewhere.
// this will be reset as soon as a new block arrives, allowing more transactions to be processed.
m_lastGetWork = chrono::system_clock::now();
m_remoteWorking = true;
return ProofOfWork::package(m_miningInfo);
}
bool Client::submitWork(ProofOfWork::Solution const& _solution)
{
bytes newBlock;
{
WriteGuard l(x_postMine);
if (!m_postMine.completeMine<ProofOfWork>(_solution))
return false;
newBlock = m_postMine.blockData();
// OPTIMISE: very inefficient to not utilise the existing OverlayDB in m_postMine that contains all trie changes.
}
m_bq.import(&newBlock, m_bc, true);
/*
ImportRoute ir = m_bc.attemptImport(newBlock, m_stateDB);
if (!ir.first.empty())
onChainChanged(ir);*/
return true;
}
void Client::syncBlockQueue()
{
ImportRoute ir;
cwork << "BQ ==> CHAIN ==> STATE";
{
tie(ir.first, ir.second, m_syncBlockQueue) = m_bc.sync(m_bq, m_stateDB, 100);
if (ir.first.empty())
return;
}
onChainChanged(ir);
}
void Client::syncTransactionQueue()
{
// returns TransactionReceipts, once for each transaction.
cwork << "postSTATE <== TQ";
h256Set changeds;
TransactionReceipts newPendingReceipts;
ETH_WRITE_GUARDED(x_postMine)
tie(newPendingReceipts, m_syncTransactionQueue) = m_postMine.sync(m_bc, m_tq, *m_gp);
if (newPendingReceipts.empty())
return;
ETH_READ_GUARDED(x_postMine)
for (size_t i = 0; i < newPendingReceipts.size(); i++)
appendFromNewPending(newPendingReceipts[i], changeds, m_postMine.pending()[i].sha3());
changeds.insert(PendingChangedFilter);
// Tell farm about new transaction (i.e. restartProofOfWork mining).
onPostStateChanged();
// Tell watches about the new transactions.
noteChanged(changeds);
// Tell network about the new transactions.
if (auto h = m_host.lock())
h->noteNewTransactions();
}
void Client::onChainChanged(ImportRoute const& _ir)
{
// insert transactions that we are declaring the dead part of the chain
for (auto const& h: _ir.second)
{
clog(ClientNote) << "Dead block:" << h;
for (auto const& t: m_bc.transactions(h))
{
clog(ClientNote) << "Resubmitting transaction " << Transaction(t, CheckTransaction::None);
m_tq.import(t, TransactionQueue::ImportCallback(), IfDropped::Retry);
}
}
// remove transactions from m_tq nicely rather than relying on out of date nonce later on.
for (auto const& h: _ir.first)
{
clog(ClientChat) << "Live block:" << h;
for (auto const& th: m_bc.transactionHashes(h))
{
clog(ClientNote) << "Safely dropping transaction " << th;
m_tq.drop(th);
}
}
if (auto h = m_host.lock())
h->noteNewBlocks();
h256Set changeds;
for (auto const& h: _ir.first)
appendFromNewBlock(h, changeds);
changeds.insert(ChainChangedFilter);
// RESTART MINING
// LOCKS REALLY NEEDED?
bool preChanged = false;
ETH_WRITE_GUARDED(x_preMine)
preChanged = m_preMine.sync(m_bc);
if (preChanged || m_postMine.address() != m_preMine.address())
{
if (isMining())
cnote << "New block on chain.";
ETH_WRITE_GUARDED(x_postMine)
ETH_READ_GUARDED(x_preMine)
m_postMine = m_preMine;
changeds.insert(PendingChangedFilter);
onPostStateChanged();
}
noteChanged(changeds);
}
bool Client::remoteActive() const
{
return chrono::system_clock::now() - m_lastGetWork < chrono::seconds(30);
}
void Client::onPostStateChanged()
{
cnote << "Post state changed: Restarting mining...";
if (isMining() || remoteActive())
{
{
WriteGuard l(x_postMine);
m_postMine.commitToMine(m_bc);
m_miningInfo = m_postMine.info();
}
m_farm.setWork(m_miningInfo);
}
m_remoteWorking = false;
}
void Client::startMining()
{
if (m_turboMining)
m_farm.startGPU();
else
m_farm.startCPU();
onPostStateChanged();
}
void Client::noteChanged(h256Set const& _filters)
{
Guard l(x_filtersWatches);
if (_filters.size())
filtersStreamOut(cnote << "noteChanged:", _filters);
// accrue all changes left in each filter into the watches.
for (auto& w: m_watches)
if (_filters.count(w.second.id))
{
if (m_filters.count(w.second.id))
{
cwatch << "!!!" << w.first << w.second.id.abridged();
w.second.changes += m_filters.at(w.second.id).changes;
}
else
{
cwatch << "!!!" << w.first << LogTag::Special << (w.second.id == PendingChangedFilter ? "pending" : w.second.id == ChainChangedFilter ? "chain" : "???");
w.second.changes.push_back(LocalisedLogEntry(SpecialLogEntry, 0));
}
}
// clear the filters now.
for (auto& i: m_filters)
i.second.changes.clear();
}
void Client::doWork()
{
// TODO: Use condition variable rather than this rubbish.
bool t = true;
if (m_syncBlockQueue.compare_exchange_strong(t, false))
syncBlockQueue();
t = true;
if (m_syncTransactionQueue.compare_exchange_strong(t, false) && !m_remoteWorking)
syncTransactionQueue();
tick();
if (!m_syncBlockQueue && !m_syncTransactionQueue)
this_thread::sleep_for(chrono::milliseconds(20));
}
void Client::tick()
{
if (chrono::system_clock::now() - m_lastTick > chrono::seconds(1))
{
m_report.ticks++;
checkWatchGarbage();
m_bq.tick(m_bc);
m_lastTick = chrono::system_clock::now();
if (m_report.ticks == 15)
cnote << activityReport();
}
}
void Client::checkWatchGarbage()
{
if (chrono::system_clock::now() - m_lastGarbageCollection > chrono::seconds(5))
{
// watches garbage collection
vector<unsigned> toUninstall;
ETH_GUARDED(x_filtersWatches)
for (auto key: keysOf(m_watches))
if (m_watches[key].lastPoll != chrono::system_clock::time_point::max() && chrono::system_clock::now() - m_watches[key].lastPoll > chrono::seconds(20))
{
toUninstall.push_back(key);
cnote << "GC: Uninstall" << key << "(" << chrono::duration_cast<chrono::seconds>(chrono::system_clock::now() - m_watches[key].lastPoll).count() << "s old)";
}
for (auto i: toUninstall)
uninstallWatch(i);
// blockchain GC
m_bc.garbageCollect();
m_lastGarbageCollection = chrono::system_clock::now();
}
}
State Client::asOf(h256 const& _block) const
{
return State(m_stateDB, bc(), _block);
}
void Client::prepareForTransaction()
{
startWorking();
}
State Client::state(unsigned _txi, h256 _block) const
{
return State(m_stateDB, m_bc, _block).fromPending(_txi);
}
eth::State Client::state(h256 _block) const
{
return State(m_stateDB, m_bc, _block);
}
eth::State Client::state(unsigned _txi) const
{
return m_postMine.fromPending(_txi);
}
void Client::flushTransactions()
{
doWork();
}