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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 BlockChainSync.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
*/
#include "BlockChainSync.h"
#include <chrono>
#include <libdevcore/Common.h>
#include <libp2p/Host.h>
#include <libp2p/Session.h>
#include <libethcore/Exceptions.h>
#include <libethcore/Params.h>
#include "BlockChain.h"
#include "BlockQueue.h"
#include "EthereumPeer.h"
#include "EthereumHost.h"
#include "DownloadMan.h"
using namespace std;
using namespace dev;
using namespace dev::eth;
using namespace p2p;
unsigned const c_chainReorgSize = 30000; /// Added to estimated hashes to account for potential chain reorganiation
unsigned const c_hashSubchainSize = 8192; /// PV61 subchain size
std::ostream& dev::eth::operator<<(std::ostream& _out, SyncStatus const& _sync)
{
_out << "protocol: " << _sync.protocolVersion << endl;
_out << "state: " << EthereumHost::stateName(_sync.state) << " ";
if (_sync.state == SyncState::Hashes)
_out << _sync.hashesReceived << "/" << (_sync.hashesEstimated ? "~" : "") << _sync.hashesTotal;
if (_sync.state == SyncState::Blocks || _sync.state == SyncState::NewBlocks)
_out << _sync.blocksReceived << "/" << _sync.blocksTotal;
return _out;
}
BlockChainSync::BlockChainSync(EthereumHost& _host):
m_host(_host)
{
m_bqRoomAvailable = host().bq().onRoomAvailable([this]()
{
RecursiveGuard l(x_sync);
continueSync();
});
}
BlockChainSync::~BlockChainSync()
{
RecursiveGuard l(x_sync);
abortSync();
}
DownloadMan const& BlockChainSync::downloadMan() const
{
return host().downloadMan();
}
DownloadMan& BlockChainSync::downloadMan()
{
return host().downloadMan();
}
void BlockChainSync::abortSync()
{
downloadMan().reset();
}
void BlockChainSync::onPeerStatus(std::shared_ptr<EthereumPeer> _peer)
{
RecursiveGuard l(x_sync);
DEV_INVARIANT_CHECK;
std::shared_ptr<Session> session = _peer->session();
if (!session)
return; // Expired
if (_peer->m_genesisHash != host().chain().genesisHash())
_peer->disable("Invalid genesis hash");
else if (_peer->m_protocolVersion != host().protocolVersion() && _peer->m_protocolVersion != EthereumHost::c_oldProtocolVersion)
_peer->disable("Invalid protocol version.");
else if (_peer->m_networkId != host().networkId())
_peer->disable("Invalid network identifier.");
else if (session->info().clientVersion.find("/v0.7.0/") != string::npos)
_peer->disable("Blacklisted client version.");
else if (host().isBanned(session->id()))
_peer->disable("Peer banned for previous bad behaviour.");
else
{
unsigned hashes = estimatedHashes();
_peer->m_expectedHashes = hashes;
onNewPeer(_peer);
}
}
unsigned BlockChainSync::estimatedHashes() const
{
BlockInfo block = host().chain().info();
time_t lastBlockTime = (block.hash() == host().chain().genesisHash()) ? 1428192000 : (time_t)block.timestamp;
time_t now = time(0);
unsigned blockCount = c_chainReorgSize;
if (lastBlockTime > now)
clog(NetWarn) << "Clock skew? Latest block is in the future";
else
blockCount += (now - lastBlockTime) / (unsigned)c_durationLimit;
clog(NetAllDetail) << "Estimated hashes: " << blockCount;
return blockCount;
}
void BlockChainSync::requestBlocks(std::shared_ptr<EthereumPeer> _peer)
{
if (host().bq().knownFull())
{
clog(NetAllDetail) << "Waiting for block queue before downloading blocks";
pauseSync();
return;
}
_peer->requestBlocks();
if (_peer->m_asking != Asking::Blocks) //nothing to download
{
peerDoneBlocks(_peer);
if (downloadMan().isComplete())
completeSync();
return;
}
}
void BlockChainSync::logNewBlock(h256 const& _h)
{
if (m_state == SyncState::NewBlocks)
clog(NetNote) << "NewBlock: " << _h;
m_knownNewHashes.erase(_h);
}
void BlockChainSync::onPeerBlocks(std::shared_ptr<EthereumPeer> _peer, RLP const& _r)
{
RecursiveGuard l(x_sync);
unsigned itemCount = _r.itemCount();
clog(NetMessageSummary) << "Blocks (" << dec << itemCount << "entries)" << (itemCount ? "" : ": NoMoreBlocks");
if (m_state != SyncState::Blocks && m_state != SyncState::NewBlocks && m_state != SyncState::Waiting)
{
clog(NetMessageSummary) << "Ignoring unexpected blocks";
return;
}
if (m_state == SyncState::Waiting)
{
clog(NetAllDetail) << "Ignored blocks while waiting";
return;
}
if (itemCount == 0)
{
// Got to this peer's latest block - just give up.
peerDoneBlocks(_peer);
if (downloadMan().isComplete())
completeSync();
return;
}
unsigned success = 0;
unsigned future = 0;
unsigned unknown = 0;
unsigned got = 0;
unsigned repeated = 0;
u256 maxUnknownNumber = 0;
h256 maxUnknown;
for (unsigned i = 0; i < itemCount; ++i)
{
auto h = BlockInfo::headerHash(_r[i].data());
if (_peer->m_sub.noteBlock(h))
{
_peer->addRating(10);
switch (host().bq().import(_r[i].data(), host().chain()))
{
case ImportResult::Success:
success++;
logNewBlock(h);
break;
case ImportResult::Malformed:
case ImportResult::BadChain:
logNewBlock(h);
_peer->disable("Malformed block received.");
restartSync();
return;
case ImportResult::FutureTimeKnown:
logNewBlock(h);
future++;
break;
case ImportResult::AlreadyInChain:
case ImportResult::AlreadyKnown:
got++;
break;
case ImportResult::FutureTimeUnknown:
future++; //Fall through
case ImportResult::UnknownParent:
{
unknown++;
logNewBlock(h);
if (m_state == SyncState::NewBlocks)
{
BlockInfo bi;
bi.populateFromHeader(_r[i][0]);
if (bi.number > maxUnknownNumber)
{
maxUnknownNumber = bi.number;
maxUnknown = h;
}
}
break;
}
default:;
}
}
else
{
_peer->addRating(0); // -1?
repeated++;
}
}
clog(NetMessageSummary) << dec << success << "imported OK," << unknown << "with unknown parents," << future << "with future timestamps," << got << " already known," << repeated << " repeats received.";
if (host().bq().unknownFull())
{
clog(NetWarn) << "Too many unknown blocks, restarting sync";
restartSync();
return;
}
if (m_state == SyncState::NewBlocks && unknown > 0)
{
completeSync();
resetSyncFor(_peer, maxUnknown, std::numeric_limits<u256>::max()); //TODO: proper total difficuty
}
if (m_state == SyncState::Blocks || m_state == SyncState::NewBlocks)
{
if (downloadMan().isComplete())
completeSync();
else
requestBlocks(_peer); // Some of the blocks might have been downloaded by helping peers, proceed anyway
}
DEV_INVARIANT_CHECK;
}
void BlockChainSync::onPeerNewBlock(std::shared_ptr<EthereumPeer> _peer, RLP const& _r)
{
DEV_INVARIANT_CHECK;
RecursiveGuard l(x_sync);
auto h = BlockInfo::headerHash(_r[0].data());
if (_r.itemCount() != 2)
_peer->disable("NewBlock without 2 data fields.");
else
{
switch (host().bq().import(_r[0].data(), host().chain()))
{
case ImportResult::Success:
_peer->addRating(100);
logNewBlock(h);
break;
case ImportResult::FutureTimeKnown:
//TODO: Rating dependent on how far in future it is.
break;
case ImportResult::Malformed:
case ImportResult::BadChain:
logNewBlock(h);
_peer->disable("Malformed block received.");
return;
case ImportResult::AlreadyInChain:
case ImportResult::AlreadyKnown:
break;
case ImportResult::FutureTimeUnknown:
case ImportResult::UnknownParent:
logNewBlock(h);
clog(NetMessageDetail) << "Received block with no known parent. Resyncing...";
resetSyncFor(_peer, h, _r[1].toInt<u256>());
break;
default:;
}
DEV_GUARDED(_peer->x_knownBlocks)
_peer->m_knownBlocks.insert(h);
}
}
PV60Sync::PV60Sync(EthereumHost& _host):
BlockChainSync(_host)
{
resetSync();
}
SyncStatus PV60Sync::status() const
{
RecursiveGuard l(x_sync);
SyncStatus res;
res.state = m_state;
res.protocolVersion = EthereumHost::c_oldProtocolVersion;
if (m_state == SyncState::Hashes)
{
res.hashesTotal = m_estimatedHashes;
res.hashesReceived = static_cast<unsigned>(m_syncingNeededBlocks.size());
res.hashesEstimated = true;
}
else if (m_state == SyncState::Blocks || m_state == SyncState::NewBlocks || m_state == SyncState::Waiting)
{
res.blocksTotal = downloadMan().chainSize();
res.blocksReceived = downloadMan().blocksGot().size();
}
return res;
}
void PV60Sync::setState(std::shared_ptr<EthereumPeer> _peer, SyncState _s, bool _isSyncing, bool _needHelp)
{
bool changedState = (m_state != _s);
m_state = _s;
if (_isSyncing != (m_syncer.lock() == _peer) || (_isSyncing && changedState))
changeSyncer(_isSyncing ? _peer : nullptr, _needHelp);
else if (_s == SyncState::Idle)
changeSyncer(nullptr, _needHelp);
assert(isSyncing() || _s == SyncState::Idle);
}
void PV60Sync::resetSync()
{
m_syncingLatestHash = h256();
m_syncingLastReceivedHash = h256();
m_syncingTotalDifficulty = 0;
m_syncingNeededBlocks.clear();
}
void PV60Sync::restartSync()
{
resetSync();
host().bq().clear();
std::shared_ptr<EthereumPeer> syncer = m_syncer.lock();
if (syncer)
transition(syncer, SyncState::Idle);
}
void PV60Sync::completeSync()
{
std::shared_ptr<EthereumPeer> syncer = m_syncer.lock();
if (syncer)
transition(syncer, SyncState::Idle);
}
void PV60Sync::pauseSync()
{
std::shared_ptr<EthereumPeer> syncer = m_syncer.lock();
if (syncer)
transition(syncer, SyncState::Waiting, true);
}
void PV60Sync::continueSync()
{
std::shared_ptr<EthereumPeer> syncer = m_syncer.lock();
if (syncer)
transition(syncer, SyncState::Blocks);
}
void PV60Sync::onNewPeer(std::shared_ptr<EthereumPeer> _peer)
{
setNeedsSyncing(_peer, _peer->m_latestHash, _peer->m_totalDifficulty);
}
void PV60Sync::transition(std::shared_ptr<EthereumPeer> _peer, SyncState _s, bool _force, bool _needHelp)
{
clog(NetMessageSummary) << "Transition!" << EthereumHost::stateName(_s) << "from" << EthereumHost::stateName(m_state) << ", " << (isSyncing(_peer) ? "syncing" : "holding") << (needsSyncing(_peer) ? "& needed" : "");
if (m_state == SyncState::Idle && _s != SyncState::Idle)
_peer->m_requireTransactions = true;
if (_s == SyncState::Hashes)
{
if (m_state == SyncState::Idle || m_state == SyncState::Hashes)
{
m_estimatedHashes = _peer->m_expectedHashes - c_chainReorgSize;
syncHashes(_peer);
return;
}
}
else if (_s == SyncState::Blocks)
{
if (m_state == SyncState::Hashes)
{
if (!isSyncing(_peer))
{
clog(NetWarn) << "Bad state: asking for Hashes yet not syncing!";
return;
}
if (shouldGrabBlocks(_peer))
{
clog(NetMessageDetail) << "Difficulty of hashchain HIGHER. Grabbing" << m_syncingNeededBlocks.size() << "blocks [latest now" << m_syncingLatestHash << ", was" << host().latestBlockSent() << "]";
downloadMan().resetToChain(m_syncingNeededBlocks);
resetSync();
}
else
{
clog(NetMessageDetail) << "Difficulty of hashchain not HIGHER. Ignoring.";
resetSync();
setState(_peer, SyncState::Idle, false);
return;
}
assert (isSyncing(_peer));
}
// run through into...
if (m_state == SyncState::Idle || m_state == SyncState::Hashes || m_state == SyncState::Blocks || m_state == SyncState::Waiting)
{
// Looks like it's the best yet for total difficulty. Set to download.
setState(_peer, SyncState::Blocks, isSyncing(_peer), _needHelp); // will kick off other peers to help if available.
requestBlocks(_peer);
DEV_INVARIANT_CHECK;
return;
}
}
else if (_s == SyncState::NewBlocks)
{
if (m_state != SyncState::Idle && m_state != SyncState::NewBlocks && m_state != SyncState::Waiting)
clog(NetWarn) << "Bad state: Asking new blocks while syncing!";
else
{
setState(_peer, SyncState::NewBlocks, true, _needHelp);
requestBlocks(_peer);
DEV_INVARIANT_CHECK;
return;
}
}
else if (_s == SyncState::Waiting)
{
if (m_state != SyncState::Blocks && m_state != SyncState::NewBlocks && m_state != SyncState::Hashes && m_state != SyncState::Waiting)
clog(NetWarn) << "Bad state: Entering waiting state while not downloading blocks!";
else
{
setState(_peer, SyncState::Waiting, isSyncing(_peer), _needHelp);
return;
}
}
else if (_s == SyncState::Idle)
{
if (m_state == SyncState::Blocks || m_state == SyncState::NewBlocks)
{
clog(NetMessageDetail) << "Finishing blocks fetch...";
// a bit overkill given that the other nodes may yet have the needed blocks, but better to be safe than sorry.
if (isSyncing(_peer))
noteDoneBlocks(_peer, _force);
// NOTE: need to notify of giving up on chain-hashes, too, altering state as necessary.
_peer->m_sub.doneFetch();
setState(_peer, SyncState::Idle, false);
}
else if (m_state == SyncState::Hashes)
{
clog(NetMessageDetail) << "Finishing hashes fetch...";
setState(_peer, SyncState::Idle, false);
}
// Otherwise it's fine. We don't care if it's Nothing->Nothing.
DEV_INVARIANT_CHECK;
return;
}
clog(NetWarn) << "Invalid state transition:" << EthereumHost::stateName(_s) << "from" << EthereumHost::stateName(m_state) << ", " << (isSyncing(_peer) ? "syncing" : "holding") << (needsSyncing(_peer) ? "& needed" : "");
}
void PV60Sync::resetSyncFor(std::shared_ptr<EthereumPeer> _peer, h256 const& _latestHash, u256 const& _td)
{
setNeedsSyncing(_peer, _latestHash, _td);
}
void PV60Sync::setNeedsSyncing(std::shared_ptr<EthereumPeer> _peer, h256 const& _latestHash, u256 const& _td)
{
_peer->m_latestHash = _latestHash;
_peer->m_totalDifficulty = _td;
if (_peer->m_latestHash)
noteNeedsSyncing(_peer);
shared_ptr<Session> session = _peer->session();
if (session)
session->addNote("sync", string(isSyncing(_peer) ? "ongoing" : "holding") + (needsSyncing(_peer) ? " & needed" : ""));
}
bool PV60Sync::needsSyncing(std::shared_ptr<EthereumPeer> _peer) const
{
return !!_peer->m_latestHash;
}
bool PV60Sync::isSyncing(std::shared_ptr<EthereumPeer> _peer) const
{
return m_syncer.lock() == _peer;
}
bool PV60Sync::shouldGrabBlocks(std::shared_ptr<EthereumPeer> _peer) const
{
auto td = _peer->m_totalDifficulty;
auto lh = _peer->m_latestHash;
auto ctd = host().chain().details().totalDifficulty;
if (m_syncingNeededBlocks.empty())
return false;
clog(NetMessageDetail) << "Should grab blocks? " << td << "vs" << ctd << ";" << m_syncingNeededBlocks.size() << " blocks, ends" << m_syncingNeededBlocks.back();
if (td < ctd || (td == ctd && host().chain().currentHash() == lh))
return false;
return true;
}
void PV60Sync::attemptSync(std::shared_ptr<EthereumPeer> _peer)
{
if (m_state != SyncState::Idle || _peer->m_asking != Asking::Nothing)
{
clog(NetAllDetail) << "Can't sync with this peer - outstanding asks.";
return;
}
// if already done this, then ignore.
if (!needsSyncing(_peer))
{
clog(NetAllDetail) << "Already synced with this peer.";
return;
}
unsigned n = host().chain().number();
u256 td = host().chain().details().totalDifficulty;
if (host().bq().isActive())
td += host().bq().difficulty();
clog(NetAllDetail) << "Attempt chain-grab? Latest:" << (m_syncingLastReceivedHash ? m_syncingLastReceivedHash : m_syncingLatestHash) << ", number:" << n << ", TD:" << td << " versus " << _peer->m_totalDifficulty;
if (td >= _peer->m_totalDifficulty)
{
clog(NetAllDetail) << "No. Our chain is better.";
resetNeedsSyncing(_peer);
transition(_peer, SyncState::Idle);
}
else
{
clog(NetAllDetail) << "Yes. Their chain is better.";
transition(_peer, SyncState::Hashes);
}
}
void PV60Sync::noteNeedsSyncing(std::shared_ptr<EthereumPeer> _peer)
{
// if already downloading hash-chain, ignore.
if (isSyncing())
{
clog(NetAllDetail) << "Sync in progress: Just set to help out.";
if (m_state == SyncState::Hashes && _peer->m_asking == Asking::Nothing)
requestSubchain(_peer);
else if (m_state == SyncState::Blocks)
requestBlocks(_peer);
}
else
// otherwise check to see if we should be downloading...
attemptSync(_peer);
}
void PV60Sync::changeSyncer(std::shared_ptr<EthereumPeer> _syncer, bool _needHelp)
{
if (_syncer)
clog(NetAllDetail) << "Changing syncer to" << _syncer->session()->socketId();
else
clog(NetAllDetail) << "Clearing syncer.";
m_syncer = _syncer;
if (isSyncing())
{
if (_needHelp && (m_state == SyncState::Blocks || m_state == SyncState::NewBlocks))
host().foreachPeer([&](std::shared_ptr<EthereumPeer> _p)
{
clog(NetMessageDetail) << "Getting help with downloading blocks";
if (_p != _syncer && _p->m_asking == Asking::Nothing)
transition(_p, m_state);
return true;
});
}
else
{
// start grabbing next hash chain if there is one.
host().foreachPeer([this](std::shared_ptr<EthereumPeer> _p)
{
attemptSync(_p);
return !isSyncing();
});
if (!isSyncing())
{
if (m_state != SyncState::Idle)
setState(_syncer, SyncState::Idle);
clog(NetMessageDetail) << "No more peers to sync with.";
}
}
assert(isSyncing() || m_state == SyncState::Idle);
}
void PV60Sync::peerDoneBlocks(std::shared_ptr<EthereumPeer> _peer)
{
noteDoneBlocks(_peer, false);
}
void PV60Sync::noteDoneBlocks(std::shared_ptr<EthereumPeer> _peer, bool _clemency)
{
resetNeedsSyncing(_peer);
if (downloadMan().isComplete())
{
// Done our chain-get.
clog(NetMessageDetail) << "Chain download complete.";
// 1/100th for each useful block hash.
_peer->addRating(downloadMan().chainSize() / 100);
downloadMan().reset();
}
else if (isSyncing(_peer))
{
if (_clemency)
clog(NetNote) << "Chain download failed. Aborted while incomplete.";
else
{
// Done our chain-get.
clog(NetWarn) << "Chain download failed. Peer with blocks didn't have them all. This peer is bad and should be punished.";
clog(NetWarn) << downloadMan().remaining();
clog(NetWarn) << "WOULD BAN.";
// m_banned.insert(_peer->session()->id()); // We know who you are!
// _peer->disable("Peer sent hashes but was unable to provide the blocks.");
}
resetSync();
downloadMan().reset();
}
_peer->m_sub.doneFetch();
}
void PV60Sync::syncHashes(std::shared_ptr<EthereumPeer> _peer)
{
if (m_state == SyncState::Idle)
{
if (isSyncing(_peer))
clog(NetWarn) << "Bad state: not asking for Hashes, yet syncing!";
m_syncingLatestHash = _peer->m_latestHash;
m_syncingTotalDifficulty = _peer->m_totalDifficulty;
setState(_peer, SyncState::Hashes, true);
_peer->requestHashes(m_syncingLastReceivedHash ? m_syncingLastReceivedHash : m_syncingLatestHash);
}
else if (m_state == SyncState::Hashes)
{
if (!isSyncing(_peer))
clog(NetWarn) << "Bad state: asking for Hashes yet not syncing!";
setState(_peer, SyncState::Hashes, true);
_peer->requestHashes(m_syncingLastReceivedHash);
}
}
void PV60Sync::onPeerHashes(std::shared_ptr<EthereumPeer> _peer, h256s const& _hashes)
{
RecursiveGuard l(x_sync);
if (!isSyncing(_peer))
{
clog(NetMessageSummary) << "Ignoring hashes since not syncing";
return;
}
if (_peer->m_syncHash != (m_syncingLastReceivedHash ? m_syncingLastReceivedHash : m_syncingLatestHash))
{
clog(NetMessageSummary) << "Ignoring unexpected hashes";
return;
}
if (_hashes.size() == 0)
{
transition(_peer, SyncState::Blocks);
return;
}
unsigned knowns = 0;
unsigned unknowns = 0;
for (unsigned i = 0; i < _hashes.size(); ++i)
{
auto h = _hashes[i];
auto status = host().bq().blockStatus(h);
if (status == QueueStatus::Importing || status == QueueStatus::Ready || host().chain().isKnown(h))
{
clog(NetMessageSummary) << "block hash ready:" << h << ". Start blocks download...";
assert (isSyncing(_peer));
transition(_peer, SyncState::Blocks);
return;
}
else if (status == QueueStatus::Bad)
{
cwarn << "block hash bad!" << h << ". Bailing...";
_peer->disable("Bad blocks");
restartSync();
return;
}
else if (status == QueueStatus::Unknown)
{
unknowns++;
m_syncingNeededBlocks.push_back(h);
}
else
knowns++;
m_syncingLastReceivedHash = h;
}
clog(NetMessageSummary) << knowns << "knowns," << unknowns << "unknowns; now at" << m_syncingLastReceivedHash;
if (m_syncingNeededBlocks.size() > _peer->m_expectedHashes)
{
_peer->disable("Too many hashes");
restartSync();
return;
}
// run through - ask for more.
transition(_peer, SyncState::Hashes);
DEV_INVARIANT_CHECK;
}
void PV60Sync::onPeerNewHashes(std::shared_ptr<EthereumPeer> _peer, h256s const& _hashes)
{
RecursiveGuard l(x_sync);
if (isSyncing() && (m_state != SyncState::NewBlocks || isSyncing(_peer)))
{
clog(NetMessageSummary) << "Ignoring since we're already downloading.";
return;
}
clog(NetMessageDetail) << "Not syncing and new block hash discovered: syncing without help.";
unsigned knowns = 0;
unsigned unknowns = 0;
for (auto const& h: _hashes)
{
_peer->addRating(1);
DEV_GUARDED(_peer->x_knownBlocks)
_peer->m_knownBlocks.insert(h);
auto status = host().bq().blockStatus(h);
if (status == QueueStatus::Importing || status == QueueStatus::Ready || host().chain().isKnown(h))
knowns++;
else if (status == QueueStatus::Bad)
{
cwarn << "block hash bad!" << h << ". Bailing...";
return;
}
else if (status == QueueStatus::Unknown)
{
unknowns++;
m_syncingNeededBlocks.push_back(h);
}
else
knowns++;
}
clog(NetMessageSummary) << knowns << "knowns," << unknowns << "unknowns";
if (unknowns > 0)
{
if (m_state == SyncState::NewBlocks)
{
clog(NetMessageDetail) << "Downloading new blocks and seeing new hashes. Trying grabbing blocks";
_peer->requestBlocks(m_syncingNeededBlocks);
}
else
{
clog(NetMessageDetail) << "Not syncing and new block hash discovered: syncing without help.";
downloadMan().resetToChain(m_syncingNeededBlocks);
transition(_peer, SyncState::NewBlocks, false, false);
}
for (auto const& h: m_syncingNeededBlocks)
if (!m_knownNewHashes.count(h))
{
m_knownNewHashes.insert(h);
clog(NetNote) << "NewHash: " << h;
}
resetSync();
}
DEV_INVARIANT_CHECK;
}
void PV60Sync::abortSync()
{
// Can't check invariants here since the peers is already removed from the list and the state is not updated yet.
bool continueSync = false;
if (m_state == SyncState::Blocks)
{
// Main syncer aborted, try to find a replacement
host().foreachPeer([&](std::shared_ptr<EthereumPeer> _p)
{
if (_p->m_asking == Asking::Blocks)
{
setState(_p, SyncState::Blocks, true, true); // will kick off other peers to help if available.
continueSync = true;
return false;
}
if (_p->m_asking == Asking::Nothing && shouldGrabBlocks(_p))
{
transition(_p, SyncState::Blocks);
clog(NetMessageDetail) << "New sync peer selected";
continueSync = true;
return false;
}
return true;
});
}
if (!continueSync)
{
// Just set to idle. Hashchain is keept, Sync will be continued if there are more peers to sync with
setState(std::shared_ptr<EthereumPeer>(), SyncState::Idle, false, true);
}
DEV_INVARIANT_CHECK;
}
void PV60Sync::onPeerAborting()
{
RecursiveGuard l(x_sync);
// Can't check invariants here since the peers is already removed from the list and the state is not updated yet.
if (m_syncer.expired() && m_state != SyncState::Idle)
{
clog(NetWarn) << "Syncing peer disconnected, restarting sync";
m_syncer.reset();
abortSync();
}
DEV_INVARIANT_CHECK;
}
bool PV60Sync::invariants() const
{
if (m_state == SyncState::Idle && isSyncing())
BOOST_THROW_EXCEPTION(FailedInvariant() << errinfo_comment("Idle while peer syncing"));
if (m_state != SyncState::Idle && !isSyncing())
BOOST_THROW_EXCEPTION(FailedInvariant() << errinfo_comment("Active while peer not syncing"));
if (m_state == SyncState::Hashes)
{
if (!m_syncingLatestHash)
BOOST_THROW_EXCEPTION(FailedInvariant() << errinfo_comment("m_syncingLatestHash is not set while downloading hashes"));
if (m_syncingNeededBlocks.empty() != (!m_syncingLastReceivedHash))
BOOST_THROW_EXCEPTION(FailedInvariant() << errinfo_comment("Received hashes but the hashes list is empty (or the other way around)"));
}
if (m_state == SyncState::Blocks || m_state == SyncState::NewBlocks)
{
if (downloadMan().isComplete())
BOOST_THROW_EXCEPTION(FailedInvariant() << errinfo_comment("Block download complete but the state is still Blocks"));
}
if (m_state == SyncState::Waiting && !host().bq().isActive())
BOOST_THROW_EXCEPTION(FailedInvariant() << errinfo_comment("Waiting while block queue is idle"));
return true;
}
PV61Sync::PV61Sync(EthereumHost& _host):
PV60Sync(_host)
{
}
void PV61Sync::syncHashes(std::shared_ptr<EthereumPeer> _peer)
{
if (_peer->m_protocolVersion != host().protocolVersion())
{
m_readyChainMap.clear();
m_completeChainMap.clear();
m_downloadingChainMap.clear();
m_syncingBlockNumber = 0;
m_chainSyncPeers.clear();
m_knownHashes.clear();
m_hashScanComplete = false;
PV60Sync::syncHashes(_peer);
return;
}
if (m_state == SyncState::Idle)
{
if (isSyncing(_peer))
clog(NetWarn) << "Bad state: not asking for Hashes, yet syncing!";
if (m_syncingBlockNumber == 0)
m_syncingBlockNumber = host().chain().number() + c_hashSubchainSize;
m_syncingTotalDifficulty = _peer->m_totalDifficulty;
setState(_peer, SyncState::Hashes, true);
_peer->requestHashes(m_syncingBlockNumber, 1);
}
else if (m_state == SyncState::Hashes)
{
if (!isSyncing(_peer))
clog(NetWarn) << "Bad state: asking for Hashes yet not syncing!";
m_syncingBlockNumber += c_hashSubchainSize;
setState(_peer, SyncState::Hashes, true);
_peer->requestHashes(m_syncingBlockNumber, 1);
}
}
void PV61Sync::requestSubchain(std::shared_ptr<EthereumPeer> _peer)
{
auto syncPeer = m_chainSyncPeers.find(_peer);
if (syncPeer != m_chainSyncPeers.end())
{
// Already downoading, request next batch
h256s& d = m_downloadingChainMap.at(syncPeer->second);
_peer->requestHashes(d.back());
}
else if (needsSyncing(_peer))
{
if (!m_readyChainMap.empty())
{
clog(NetAllDetail) << "Helping with hashchin download";
h256s& d = m_readyChainMap.begin()->second;
_peer->requestHashes(d.back());
m_downloadingChainMap[m_readyChainMap.begin()->first] = move(d);
m_chainSyncPeers[_peer] = m_readyChainMap.begin()->first;
m_readyChainMap.erase(m_readyChainMap.begin());
}
else if (!m_downloadingChainMap.empty() && m_hashScanComplete)
{
// Lead syncer is done, just grab whatever we can
h256s& d = m_downloadingChainMap.begin()->second;
_peer->requestHashes(d.back());
}
}
}
void PV61Sync::requestSubchains()
{
host().foreachPeer([this](std::shared_ptr<EthereumPeer> _p)
{
if (_p->m_asking == Asking::Nothing)
requestSubchain(_p);
return true;
});
}
void PV61Sync::completeSubchain(std::shared_ptr<EthereumPeer> _peer, unsigned _n)
{
m_completeChainMap[_n] = move(m_downloadingChainMap.at(_n));
m_downloadingChainMap.erase(_n);
for (auto s = m_chainSyncPeers.begin(); s != m_chainSyncPeers.end(); ++s)
if (s->second == _n) //TODO: optimize this
{
m_chainSyncPeers.erase(s);
break;
}
_peer->m_syncHashNumber = 0;
auto syncer = m_syncer.lock();
if (!syncer)
{
restartSync();
return;
}
if (m_readyChainMap.empty() && m_downloadingChainMap.empty() && m_hashScanComplete)
{
//Done chain-get
m_syncingNeededBlocks.clear();
for (auto h = m_completeChainMap.rbegin(); h != m_completeChainMap.rend(); ++h)
m_syncingNeededBlocks.insert(m_syncingNeededBlocks.end(), h->second.begin(), h->second.end());
m_completeChainMap.clear();
m_knownHashes.clear();
m_syncingBlockNumber = 0;
transition(syncer, SyncState::Blocks);
}
else
requestSubchain(_peer);
}
void PV61Sync::restartSync()
{
m_completeChainMap.clear();
m_readyChainMap.clear();
m_downloadingChainMap.clear();
m_chainSyncPeers.clear();
m_syncingBlockNumber = 0;
m_knownHashes.clear();
m_hashScanComplete = false;
PV60Sync::restartSync();
}
void PV61Sync::onPeerHashes(std::shared_ptr<EthereumPeer> _peer, h256s const& _hashes)
{
RecursiveGuard l(x_sync);
if (m_syncingBlockNumber == 0 || (_peer == m_syncer.lock() && _peer->m_protocolVersion != host().protocolVersion()))
{
// Syncing in pv60 mode
PV60Sync::onPeerHashes(_peer, _hashes);
return;
}
if (_hashes.size() == 0)
{
if (isSyncing(_peer) && _peer->m_syncHashNumber == m_syncingBlockNumber)
{
// End of hash chain, add last chunk to download
m_readyChainMap.insert(make_pair(m_syncingBlockNumber, h256s { _peer->m_latestHash }));
m_hashScanComplete = true;
_peer->m_syncHashNumber = 0;
requestSubchain(_peer);
}
else
{
auto syncPeer = m_chainSyncPeers.find(_peer);
if (syncPeer == m_chainSyncPeers.end())
clog(NetMessageDetail) << "Hashes response from unexpected peer";
else
{
// Peer does not have request hashes, move back from downloading to ready
unsigned number = syncPeer->second;
m_chainSyncPeers.erase(_peer);
m_readyChainMap[number] = move(m_downloadingChainMap.at(number));
m_downloadingChainMap.erase(number);
resetNeedsSyncing(_peer);
requestSubchains();
}
}
return;
}
if (isSyncing(_peer) && _peer->m_syncHashNumber == m_syncingBlockNumber)
{
// Got new subchain marker
assert(_hashes.size() == 1);
m_knownHashes.insert(_hashes[0]);
m_readyChainMap.insert(make_pair(m_syncingBlockNumber, h256s { _hashes[0] }));
if ((m_readyChainMap.size() + m_downloadingChainMap.size() + m_completeChainMap.size()) * c_hashSubchainSize > _peer->m_expectedHashes)
{
_peer->disable("Too many hashes from lead peer");
restartSync();
return;
}
transition(_peer, SyncState::Hashes);
requestSubchains();
}
else
{
auto syncPeer = m_chainSyncPeers.find(_peer);
unsigned number = 0;
if (syncPeer == m_chainSyncPeers.end())
{
//check downlading peers
for (auto const& downloader: m_downloadingChainMap)
if (downloader.second.back() == _peer->m_syncHash)
{
number = downloader.first;
break;
}
}
else
number = syncPeer->second;
if (number == 0)
{
clog(NetAllDetail) << "Hashes response from unexpected/expired peer";
return;
}
auto downloadingPeer = m_downloadingChainMap.find(number);
if (downloadingPeer == m_downloadingChainMap.end() || downloadingPeer->second.back() != _peer->m_syncHash)
{
// Too late, other peer has already downloaded our hashes
m_chainSyncPeers.erase(_peer);
requestSubchain(_peer);
return;
}
h256s& hashes = downloadingPeer->second;
unsigned knowns = 0;
unsigned unknowns = 0;
for (unsigned i = 0; i < _hashes.size(); ++i)
{
auto h = _hashes[i];
auto status = host().bq().blockStatus(h);
if (status == QueueStatus::Importing || status == QueueStatus::Ready || host().chain().isKnown(h) || !!m_knownHashes.count(h))
{
clog(NetMessageSummary) << "Subchain download complete";
m_chainSyncPeers.erase(_peer);
completeSubchain(_peer, number);
return;
}
else if (status == QueueStatus::Bad)
{
cwarn << "block hash bad!" << h << ". Bailing...";
_peer->disable("Bad hashes");
if (isSyncing(_peer))
restartSync();
else
{
//try with other peer
m_readyChainMap[number] = move(m_downloadingChainMap.at(number));
m_downloadingChainMap.erase(number);
m_chainSyncPeers.erase(_peer);
}
return;
}
else if (status == QueueStatus::Unknown)
{
unknowns++;
hashes.push_back(h);
}
else
knowns++;
}
clog(NetMessageSummary) << knowns << "knowns," << unknowns << "unknowns; now at" << hashes.back();
if (hashes.size() > c_hashSubchainSize)
{
_peer->disable("Too many subchain hashes");
restartSync();
return;
}
requestSubchain(_peer);
}
DEV_INVARIANT_CHECK;
}
void PV61Sync::onPeerAborting()
{
RecursiveGuard l(x_sync);
// Can't check invariants here since the peers is already removed from the list and the state is not updated yet.
for (auto s = m_chainSyncPeers.begin(); s != m_chainSyncPeers.end();)
{
if (s->first.expired())
{
unsigned number = s->second;
m_readyChainMap[number] = move(m_downloadingChainMap.at(number));
m_downloadingChainMap.erase(number);
m_chainSyncPeers.erase(s++);
}
else
++s;
}
if (m_syncer.expired())
{
if (m_state == SyncState::Hashes)
{
// Main syncer aborted, other peers are probably still downloading hashes, just set one of them as syncer
host().foreachPeer([&](std::shared_ptr<EthereumPeer> _p)
{
if (_p->m_asking != Asking::Hashes)
return true;
setState(_p, SyncState::Hashes, true, true);
return false;
});
}
if (m_syncer.expired())
PV60Sync::onPeerAborting();
}
else if (isPV61Syncing() && m_state == SyncState::Hashes)
requestSubchains();
DEV_INVARIANT_CHECK;
}
SyncStatus PV61Sync::status() const
{
RecursiveGuard l(x_sync);
SyncStatus res = PV60Sync::status();
if (m_state == SyncState::Hashes && isPV61Syncing())
{
res.protocolVersion = 61;
res.hashesReceived = 0;
for (auto const& d : m_readyChainMap)
res.hashesReceived += d.second.size();
for (auto const& d : m_downloadingChainMap)
res.hashesReceived += d.second.size();
for (auto const& d : m_completeChainMap)
res.hashesReceived += d.second.size();
}
return res;
}
bool PV61Sync::isPV61Syncing() const
{
return m_syncingBlockNumber != 0;
}
bool PV61Sync::invariants() const
{
if (m_state == SyncState::Hashes)
{
if (isPV61Syncing() && !m_syncingBlockNumber)
BOOST_THROW_EXCEPTION(FailedInvariant() << errinfo_comment("Syncing in PV61 with no block number set"));
}
else if (!PV60Sync::invariants())
return false;
return true;
}