/* 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 BlockQueue.cpp * @author Gav Wood * @date 2014 */ #include "BlockQueue.h" #include #include #include #include "BlockChain.h" using namespace std; using namespace dev; using namespace dev::eth; ImportResult BlockQueue::import(bytesConstRef _block, BlockChain const& _bc) { // Check if we already know this block. h256 h = BlockInfo::headerHash(_block); cblockq << "Queuing block" << h.abridged() << "for import..."; UpgradableGuard l(m_lock); if (m_readySet.count(h) || m_drainingSet.count(h) || m_unknownSet.count(h)) { // Already know about this one. cblockq << "Already known."; return ImportResult::AlreadyKnown; } // VERIFY: populates from the block and checks the block is internally coherent. BlockInfo bi; #if ETH_CATCH try #endif { bi.populate(_block); bi.verifyInternals(_block); } #if ETH_CATCH catch (Exception const& _e) { cwarn << "Ignoring malformed block: " << diagnostic_information(_e); return ImportResult::Malformed; } #endif // Check block doesn't already exist first! if (_bc.details(h)) { cblockq << "Already known in chain."; return ImportResult::AlreadyInChain; } UpgradeGuard ul(l); // Check it's not in the future if (bi.timestamp > (u256)time(0)) { m_future.insert(make_pair((unsigned)bi.timestamp, _block.toBytes())); cblockq << "OK - queued for future."; return ImportResult::FutureTime; } else { // We now know it. if (!m_readySet.count(bi.parentHash) && !m_drainingSet.count(bi.parentHash) && !_bc.isKnown(bi.parentHash)) { // We don't know the parent (yet) - queue it up for later. It'll get resent to us if we find out about its ancestry later on. cblockq << "OK - queued as unknown parent:" << bi.parentHash.abridged(); m_unknown.insert(make_pair(bi.parentHash, make_pair(h, _block.toBytes()))); m_unknownSet.insert(h); return ImportResult::UnknownParent; } else { // If valid, append to blocks. cblockq << "OK - ready for chain insertion."; m_ready.push_back(_block.toBytes()); m_readySet.insert(h); noteReadyWithoutWriteGuard(h); return ImportResult::Success; } } } void BlockQueue::tick(BlockChain const& _bc) { unsigned t = time(0); for (auto i = m_future.begin(); i != m_future.end() && i->first < time(0); ++i) import(&(i->second), _bc); WriteGuard l(m_lock); m_future.erase(m_future.begin(), m_future.upper_bound(t)); } void BlockQueue::drain(std::vector& o_out) { WriteGuard l(m_lock); if (m_drainingSet.empty()) { swap(o_out, m_ready); swap(m_drainingSet, m_readySet); } } void BlockQueue::noteReadyWithoutWriteGuard(h256 _good) { list goodQueue(1, _good); while (!goodQueue.empty()) { auto r = m_unknown.equal_range(goodQueue.front()); goodQueue.pop_front(); for (auto it = r.first; it != r.second; ++it) { m_ready.push_back(it->second.second); auto newReady = it->second.first; m_unknownSet.erase(newReady); m_readySet.insert(newReady); goodQueue.push_back(newReady); } m_unknown.erase(r.first, r.second); } }