/* 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 . */ /** @file EthereumHost.cpp * @author Gav Wood * @date 2014 */ #include "EthereumHost.h" #include #include #include #include #include #include #include #include "BlockChain.h" #include "TransactionQueue.h" #include "BlockQueue.h" #include "EthereumPeer.h" #include "DownloadMan.h" #include "BlockChainSync.h" using namespace std; using namespace dev; using namespace dev::eth; using namespace p2p; unsigned const EthereumHost::c_oldProtocolVersion = 60; //TODO: remove this once v61+ is common char const* const EthereumHost::s_stateNames[static_cast(SyncState::Size)] = {"Idle", "Waiting", "Hashes", "Blocks", "NewBlocks" }; EthereumHost::EthereumHost(BlockChain const& _ch, TransactionQueue& _tq, BlockQueue& _bq, u256 _networkId): HostCapability(), Worker ("ethsync"), m_chain (_ch), m_tq (_tq), m_bq (_bq), m_networkId (_networkId) { m_latestBlockSent = _ch.currentHash(); } EthereumHost::~EthereumHost() { } bool EthereumHost::ensureInitialised() { if (!m_latestBlockSent) { // First time - just initialise. m_latestBlockSent = m_chain.currentHash(); clog(NetNote) << "Initialising: latest=" << m_latestBlockSent; for (auto const& i: m_tq.transactions()) m_transactionsSent.insert(i.first); return true; } return false; } void EthereumHost::reset() { Guard l(x_sync); if (m_sync) m_sync->abortSync(); m_sync.reset(); m_latestBlockSent = h256(); m_transactionsSent.clear(); } void EthereumHost::doWork() { bool netChange = ensureInitialised(); auto h = m_chain.currentHash(); // If we've finished our initial sync (including getting all the blocks into the chain so as to reduce invalid transactions), start trading transactions & blocks if (!isSyncing() && m_chain.isKnown(m_latestBlockSent)) { if (m_newTransactions) { m_newTransactions = false; maintainTransactions(); } if (m_newBlocks) { m_newBlocks = false; maintainBlocks(h); } } foreachPeer([](std::shared_ptr _p) { _p->tick(); return true; }); // return netChange; // TODO: Figure out what to do with netChange. (void)netChange; } void EthereumHost::maintainTransactions() { // Send any new transactions. unordered_map, h256s> peerTransactions; auto ts = m_tq.transactions(); for (auto const& i: ts) { bool unsent = !m_transactionsSent.count(i.first); auto peers = get<1>(randomSelection(0, [&](EthereumPeer* p) { return p->m_requireTransactions || (unsent && !p->m_knownTransactions.count(i.first)); })); for (auto const& p: peers) peerTransactions[p].push_back(i.first); } for (auto const& t: ts) m_transactionsSent.insert(t.first); foreachPeer([&](shared_ptr _p) { bytes b; unsigned n = 0; for (auto const& h: peerTransactions[_p]) { _p->m_knownTransactions.insert(h); b += ts[h].rlp(); ++n; } _p->clearKnownTransactions(); if (n || _p->m_requireTransactions) { RLPStream ts; _p->prep(ts, TransactionsPacket, n).appendRaw(b, n); _p->sealAndSend(ts); cnote << "Sent" << n << "transactions to " << _p->session()->info().clientVersion; } _p->m_requireTransactions = false; return true; }); } void EthereumHost::foreachPeer(std::function)> const& _f) const { for (auto s: peerSessions()) if (!_f(s.first->cap())) return; for (auto s: peerSessions(c_oldProtocolVersion)) //TODO: remove once v61+ is common if (!_f(s.first->cap(c_oldProtocolVersion))) return; } tuple>, vector>, vector>> EthereumHost::randomSelection(unsigned _percent, std::function const& _allow) { vector> chosen; vector> allowed; vector> sessions; size_t peerCount = 0; foreachPeer([&](std::shared_ptr _p) { if (_allow(_p.get())) { allowed.push_back(_p); sessions.push_back(_p->session()); } ++peerCount; return true; }); size_t chosenSize = (peerCount * _percent + 99) / 100; chosen.reserve(chosenSize); for (unsigned i = chosenSize; i && allowed.size(); i--) { unsigned n = rand() % allowed.size(); chosen.push_back(std::move(allowed[n])); allowed.erase(allowed.begin() + n); } return make_tuple(move(chosen), move(allowed), move(sessions)); } void EthereumHost::maintainBlocks(h256 const& _currentHash) { // Send any new blocks. auto detailsFrom = m_chain.details(m_latestBlockSent); auto detailsTo = m_chain.details(_currentHash); if (detailsFrom.totalDifficulty < detailsTo.totalDifficulty) { if (diff(detailsFrom.number, detailsTo.number) < 20) { // don't be sending more than 20 "new" blocks. if there are any more we were probably waaaay behind. clog(NetMessageSummary) << "Sending a new block (current is" << _currentHash << ", was" << m_latestBlockSent << ")"; h256s blocks = get<0>(m_chain.treeRoute(m_latestBlockSent, _currentHash, false, false, true)); auto s = randomSelection(25, [&](EthereumPeer* p){ DEV_GUARDED(p->x_knownBlocks) return !p->m_knownBlocks.count(_currentHash); return false; }); for (shared_ptr const& p: get<0>(s)) for (auto const& b: blocks) { RLPStream ts; p->prep(ts, NewBlockPacket, 2).appendRaw(m_chain.block(b), 1).append(m_chain.details(b).totalDifficulty); Guard l(p->x_knownBlocks); p->sealAndSend(ts); p->m_knownBlocks.clear(); } for (shared_ptr const& p: get<1>(s)) { RLPStream ts; p->prep(ts, NewBlockHashesPacket, blocks.size()); for (auto const& b: blocks) ts.append(b); Guard l(p->x_knownBlocks); p->sealAndSend(ts); p->m_knownBlocks.clear(); } } m_latestBlockSent = _currentHash; } } BlockChainSync& EthereumHost::sync() { if (m_sync) return *m_sync; // We only chose sync strategy once bool pv61 = false; foreachPeer([&](std::shared_ptr _p) { if (_p->m_protocolVersion == protocolVersion()) pv61 = true; return !pv61; }); m_sync.reset(pv61 ? new PV60Sync(*this) : new PV60Sync(*this)); return *m_sync; } void EthereumHost::onPeerStatus(std::shared_ptr _peer) { Guard l(x_sync); sync().onPeerStatus(_peer); } void EthereumHost::onPeerHashes(std::shared_ptr _peer, h256s const& _hashes) { Guard l(x_sync); sync().onPeerHashes(_peer, _hashes); } void EthereumHost::onPeerBlocks(std::shared_ptr _peer, RLP const& _r) { Guard l(x_sync); sync().onPeerBlocks(_peer, _r); } void EthereumHost::onPeerNewHashes(std::shared_ptr _peer, h256s const& _hashes) { Guard l(x_sync); sync().onPeerNewHashes(_peer, _hashes); } void EthereumHost::onPeerNewBlock(std::shared_ptr _peer, RLP const& _r) { Guard l(x_sync); sync().onPeerNewBlock(_peer, _r); } void EthereumHost::onPeerTransactions(std::shared_ptr _peer, RLP const& _r) { if (_peer->isCriticalSyncing()) { clog(NetAllDetail) << "Ignoring transaction from peer we are syncing with"; return; } unsigned itemCount = _r.itemCount(); clog(NetAllDetail) << "Transactions (" << dec << itemCount << "entries)"; Guard l(_peer->x_knownTransactions); for (unsigned i = 0; i < min(itemCount, 256); ++i) // process 256 transactions at most. TODO: much better solution. { auto h = sha3(_r[i].data()); _peer->m_knownTransactions.insert(h); ImportResult ir = m_tq.import(_r[i].data()); switch (ir) { case ImportResult::Malformed: _peer->addRating(-100); break; case ImportResult::AlreadyKnown: // if we already had the transaction, then don't bother sending it on. m_transactionsSent.insert(h); _peer->addRating(0); break; case ImportResult::Success: _peer->addRating(100); break; default:; } } } void EthereumHost::onPeerAborting() { Guard l(x_sync); if (m_sync) m_sync->onPeerAborting(); } bool EthereumHost::isSyncing() const { Guard l(x_sync); if (!m_sync) return false; return m_sync->isSyncing(); } SyncStatus EthereumHost::status() const { Guard l(x_sync); if (!m_sync) return SyncStatus(); return m_sync->status(); }