// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2018 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #include #include #include #include struct ValidationInterfaceConnections { boost::signals2::scoped_connection UpdatedBlockTip; boost::signals2::scoped_connection TransactionAddedToMempool; boost::signals2::scoped_connection BlockConnected; boost::signals2::scoped_connection BlockDisconnected; boost::signals2::scoped_connection TransactionRemovedFromMempool; boost::signals2::scoped_connection ChainStateFlushed; boost::signals2::scoped_connection BlockChecked; boost::signals2::scoped_connection NewPoWValidBlock; }; struct MainSignalsInstance { boost::signals2::signal UpdatedBlockTip; boost::signals2::signal TransactionAddedToMempool; boost::signals2::signal &, const CBlockIndex *pindex, const std::vector&)> BlockConnected; boost::signals2::signal &)> BlockDisconnected; boost::signals2::signal TransactionRemovedFromMempool; boost::signals2::signal ChainStateFlushed; boost::signals2::signal BlockChecked; boost::signals2::signal&)> NewPoWValidBlock; // We are not allowed to assume the scheduler only runs in one thread, // but must ensure all callbacks happen in-order, so we end up creating // our own queue here :( SingleThreadedSchedulerClient m_schedulerClient; std::unordered_map m_connMainSignals; explicit MainSignalsInstance(CScheduler *pscheduler) : m_schedulerClient(pscheduler) {} }; static CMainSignals g_signals; // This map has to a separate global instead of a member of MainSignalsInstance, // because RegisterWithMempoolSignals is currently called before RegisterBackgroundSignalScheduler, // so MainSignalsInstance hasn't been created yet. static std::unordered_map g_connNotifyEntryRemoved; void CMainSignals::RegisterBackgroundSignalScheduler(CScheduler& scheduler) { assert(!m_internals); m_internals.reset(new MainSignalsInstance(&scheduler)); } void CMainSignals::UnregisterBackgroundSignalScheduler() { m_internals.reset(nullptr); } void CMainSignals::FlushBackgroundCallbacks() { if (m_internals) { m_internals->m_schedulerClient.EmptyQueue(); } } size_t CMainSignals::CallbacksPending() { if (!m_internals) return 0; return m_internals->m_schedulerClient.CallbacksPending(); } void CMainSignals::RegisterWithMempoolSignals(CTxMemPool& pool) { g_connNotifyEntryRemoved.emplace(std::piecewise_construct, std::forward_as_tuple(&pool), std::forward_as_tuple(pool.NotifyEntryRemoved.connect(std::bind(&CMainSignals::MempoolEntryRemoved, this, std::placeholders::_1, std::placeholders::_2))) ); } void CMainSignals::UnregisterWithMempoolSignals(CTxMemPool& pool) { g_connNotifyEntryRemoved.erase(&pool); } CMainSignals& GetMainSignals() { return g_signals; } void RegisterValidationInterface(CValidationInterface* pwalletIn) { ValidationInterfaceConnections& conns = g_signals.m_internals->m_connMainSignals[pwalletIn]; conns.UpdatedBlockTip = g_signals.m_internals->UpdatedBlockTip.connect(std::bind(&CValidationInterface::UpdatedBlockTip, pwalletIn, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3)); conns.TransactionAddedToMempool = g_signals.m_internals->TransactionAddedToMempool.connect(std::bind(&CValidationInterface::TransactionAddedToMempool, pwalletIn, std::placeholders::_1)); conns.BlockConnected = g_signals.m_internals->BlockConnected.connect(std::bind(&CValidationInterface::BlockConnected, pwalletIn, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3)); conns.BlockDisconnected = g_signals.m_internals->BlockDisconnected.connect(std::bind(&CValidationInterface::BlockDisconnected, pwalletIn, std::placeholders::_1)); conns.TransactionRemovedFromMempool = g_signals.m_internals->TransactionRemovedFromMempool.connect(std::bind(&CValidationInterface::TransactionRemovedFromMempool, pwalletIn, std::placeholders::_1)); conns.ChainStateFlushed = g_signals.m_internals->ChainStateFlushed.connect(std::bind(&CValidationInterface::ChainStateFlushed, pwalletIn, std::placeholders::_1)); conns.BlockChecked = g_signals.m_internals->BlockChecked.connect(std::bind(&CValidationInterface::BlockChecked, pwalletIn, std::placeholders::_1, std::placeholders::_2)); conns.NewPoWValidBlock = g_signals.m_internals->NewPoWValidBlock.connect(std::bind(&CValidationInterface::NewPoWValidBlock, pwalletIn, std::placeholders::_1, std::placeholders::_2)); } void UnregisterValidationInterface(CValidationInterface* pwalletIn) { if (g_signals.m_internals) { g_signals.m_internals->m_connMainSignals.erase(pwalletIn); } } void UnregisterAllValidationInterfaces() { if (!g_signals.m_internals) { return; } g_signals.m_internals->m_connMainSignals.clear(); } void CallFunctionInValidationInterfaceQueue(std::function func) { g_signals.m_internals->m_schedulerClient.AddToProcessQueue(std::move(func)); } void SyncWithValidationInterfaceQueue() { AssertLockNotHeld(cs_main); // Block until the validation queue drains std::promise promise; CallFunctionInValidationInterfaceQueue([&promise] { promise.set_value(); }); promise.get_future().wait(); } void CMainSignals::MempoolEntryRemoved(CTransactionRef ptx, MemPoolRemovalReason reason) { if (reason != MemPoolRemovalReason::BLOCK && reason != MemPoolRemovalReason::CONFLICT) { m_internals->m_schedulerClient.AddToProcessQueue([ptx, this] { m_internals->TransactionRemovedFromMempool(ptx); }); } } void CMainSignals::UpdatedBlockTip(const CBlockIndex *pindexNew, const CBlockIndex *pindexFork, bool fInitialDownload) { // Dependencies exist that require UpdatedBlockTip events to be delivered in the order in which // the chain actually updates. One way to ensure this is for the caller to invoke this signal // in the same critical section where the chain is updated m_internals->m_schedulerClient.AddToProcessQueue([pindexNew, pindexFork, fInitialDownload, this] { m_internals->UpdatedBlockTip(pindexNew, pindexFork, fInitialDownload); }); } void CMainSignals::TransactionAddedToMempool(const CTransactionRef &ptx) { m_internals->m_schedulerClient.AddToProcessQueue([ptx, this] { m_internals->TransactionAddedToMempool(ptx); }); } void CMainSignals::BlockConnected(const std::shared_ptr &pblock, const CBlockIndex *pindex, const std::shared_ptr>& pvtxConflicted) { m_internals->m_schedulerClient.AddToProcessQueue([pblock, pindex, pvtxConflicted, this] { m_internals->BlockConnected(pblock, pindex, *pvtxConflicted); }); } void CMainSignals::BlockDisconnected(const std::shared_ptr &pblock) { m_internals->m_schedulerClient.AddToProcessQueue([pblock, this] { m_internals->BlockDisconnected(pblock); }); } void CMainSignals::ChainStateFlushed(const CBlockLocator &locator) { m_internals->m_schedulerClient.AddToProcessQueue([locator, this] { m_internals->ChainStateFlushed(locator); }); } void CMainSignals::BlockChecked(const CBlock& block, const CValidationState& state) { m_internals->BlockChecked(block, state); } void CMainSignals::NewPoWValidBlock(const CBlockIndex *pindex, const std::shared_ptr &block) { m_internals->NewPoWValidBlock(pindex, block); }