// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2022 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 #include #include #include #include #include /** * ValidationSignalsImpl manages a list of shared_ptr callbacks. * * A std::unordered_map is used to track what callbacks are currently * registered, and a std::list is used to store the callbacks that are * currently registered as well as any callbacks that are just unregistered * and about to be deleted when they are done executing. */ class ValidationSignalsImpl { private: Mutex m_mutex; //! List entries consist of a callback pointer and reference count. The //! count is equal to the number of current executions of that entry, plus 1 //! if it's registered. It cannot be 0 because that would imply it is //! unregistered and also not being executed (so shouldn't exist). struct ListEntry { std::shared_ptr callbacks; int count = 1; }; std::list m_list GUARDED_BY(m_mutex); std::unordered_map::iterator> m_map GUARDED_BY(m_mutex); public: std::unique_ptr m_task_runner; explicit ValidationSignalsImpl(std::unique_ptr task_runner) : m_task_runner{std::move(Assert(task_runner))} {} void Register(std::shared_ptr callbacks) EXCLUSIVE_LOCKS_REQUIRED(!m_mutex) { LOCK(m_mutex); auto inserted = m_map.emplace(callbacks.get(), m_list.end()); if (inserted.second) inserted.first->second = m_list.emplace(m_list.end()); inserted.first->second->callbacks = std::move(callbacks); } void Unregister(CValidationInterface* callbacks) EXCLUSIVE_LOCKS_REQUIRED(!m_mutex) { LOCK(m_mutex); auto it = m_map.find(callbacks); if (it != m_map.end()) { if (!--it->second->count) m_list.erase(it->second); m_map.erase(it); } } //! Clear unregisters every previously registered callback, erasing every //! map entry. After this call, the list may still contain callbacks that //! are currently executing, but it will be cleared when they are done //! executing. void Clear() EXCLUSIVE_LOCKS_REQUIRED(!m_mutex) { LOCK(m_mutex); for (const auto& entry : m_map) { if (!--entry.second->count) m_list.erase(entry.second); } m_map.clear(); } template void Iterate(F&& f) EXCLUSIVE_LOCKS_REQUIRED(!m_mutex) { WAIT_LOCK(m_mutex, lock); for (auto it = m_list.begin(); it != m_list.end();) { ++it->count; { REVERSE_LOCK(lock); f(*it->callbacks); } it = --it->count ? std::next(it) : m_list.erase(it); } } }; ValidationSignals::ValidationSignals(std::unique_ptr task_runner) : m_internals{std::make_unique(std::move(task_runner))} {} ValidationSignals::~ValidationSignals() = default; void ValidationSignals::FlushBackgroundCallbacks() { m_internals->m_task_runner->flush(); } size_t ValidationSignals::CallbacksPending() { return m_internals->m_task_runner->size(); } void ValidationSignals::RegisterSharedValidationInterface(std::shared_ptr callbacks) { // Each connection captures the shared_ptr to ensure that each callback is // executed before the subscriber is destroyed. For more details see #18338. m_internals->Register(std::move(callbacks)); } void ValidationSignals::RegisterValidationInterface(CValidationInterface* callbacks) { // Create a shared_ptr with a no-op deleter - CValidationInterface lifecycle // is managed by the caller. RegisterSharedValidationInterface({callbacks, [](CValidationInterface*){}}); } void ValidationSignals::UnregisterSharedValidationInterface(std::shared_ptr callbacks) { UnregisterValidationInterface(callbacks.get()); } void ValidationSignals::UnregisterValidationInterface(CValidationInterface* callbacks) { m_internals->Unregister(callbacks); } void ValidationSignals::UnregisterAllValidationInterfaces() { m_internals->Clear(); } void ValidationSignals::CallFunctionInValidationInterfaceQueue(std::function func) { m_internals->m_task_runner->insert(std::move(func)); } void ValidationSignals::SyncWithValidationInterfaceQueue() { AssertLockNotHeld(cs_main); // Block until the validation queue drains std::promise promise; CallFunctionInValidationInterfaceQueue([&promise] { promise.set_value(); }); promise.get_future().wait(); } // Use a macro instead of a function for conditional logging to prevent // evaluating arguments when logging is not enabled. // // NOTE: The lambda captures all local variables by value. #define ENQUEUE_AND_LOG_EVENT(event, fmt, name, ...) \ do { \ auto local_name = (name); \ LOG_EVENT("Enqueuing " fmt, local_name, __VA_ARGS__); \ m_internals->m_task_runner->insert([=] { \ LOG_EVENT(fmt, local_name, __VA_ARGS__); \ event(); \ }); \ } while (0) #define LOG_EVENT(fmt, ...) \ LogDebug(BCLog::VALIDATION, fmt "\n", __VA_ARGS__) void ValidationSignals::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 auto event = [pindexNew, pindexFork, fInitialDownload, this] { m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.UpdatedBlockTip(pindexNew, pindexFork, fInitialDownload); }); }; ENQUEUE_AND_LOG_EVENT(event, "%s: new block hash=%s fork block hash=%s (in IBD=%s)", __func__, pindexNew->GetBlockHash().ToString(), pindexFork ? pindexFork->GetBlockHash().ToString() : "null", fInitialDownload); } void ValidationSignals::ActiveTipChange(const CBlockIndex& new_tip, bool is_ibd) { LOG_EVENT("%s: new block hash=%s block height=%d", __func__, new_tip.GetBlockHash().ToString(), new_tip.nHeight); m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.ActiveTipChange(new_tip, is_ibd); }); } void ValidationSignals::TransactionAddedToMempool(const NewMempoolTransactionInfo& tx, uint64_t mempool_sequence) { auto event = [tx, mempool_sequence, this] { m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.TransactionAddedToMempool(tx, mempool_sequence); }); }; ENQUEUE_AND_LOG_EVENT(event, "%s: txid=%s wtxid=%s", __func__, tx.info.m_tx->GetHash().ToString(), tx.info.m_tx->GetWitnessHash().ToString()); } void ValidationSignals::TransactionRemovedFromMempool(const CTransactionRef& tx, MemPoolRemovalReason reason, uint64_t mempool_sequence) { auto event = [tx, reason, mempool_sequence, this] { m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.TransactionRemovedFromMempool(tx, reason, mempool_sequence); }); }; ENQUEUE_AND_LOG_EVENT(event, "%s: txid=%s wtxid=%s reason=%s", __func__, tx->GetHash().ToString(), tx->GetWitnessHash().ToString(), RemovalReasonToString(reason)); } void ValidationSignals::BlockConnected(ChainstateRole role, const std::shared_ptr &pblock, const CBlockIndex *pindex) { auto event = [role, pblock, pindex, this] { m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.BlockConnected(role, pblock, pindex); }); }; ENQUEUE_AND_LOG_EVENT(event, "%s: block hash=%s block height=%d", __func__, pblock->GetHash().ToString(), pindex->nHeight); } void ValidationSignals::MempoolTransactionsRemovedForBlock(const std::vector& txs_removed_for_block, unsigned int nBlockHeight) { auto event = [txs_removed_for_block, nBlockHeight, this] { m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.MempoolTransactionsRemovedForBlock(txs_removed_for_block, nBlockHeight); }); }; ENQUEUE_AND_LOG_EVENT(event, "%s: block height=%s txs removed=%s", __func__, nBlockHeight, txs_removed_for_block.size()); } void ValidationSignals::BlockDisconnected(const std::shared_ptr& pblock, const CBlockIndex* pindex) { auto event = [pblock, pindex, this] { m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.BlockDisconnected(pblock, pindex); }); }; ENQUEUE_AND_LOG_EVENT(event, "%s: block hash=%s block height=%d", __func__, pblock->GetHash().ToString(), pindex->nHeight); } void ValidationSignals::ChainStateFlushed(ChainstateRole role, const CBlockLocator &locator) { auto event = [role, locator, this] { m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.ChainStateFlushed(role, locator); }); }; ENQUEUE_AND_LOG_EVENT(event, "%s: block hash=%s", __func__, locator.IsNull() ? "null" : locator.vHave.front().ToString()); } void ValidationSignals::BlockChecked(const CBlock& block, const BlockValidationState& state) { LOG_EVENT("%s: block hash=%s state=%s", __func__, block.GetHash().ToString(), state.ToString()); m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.BlockChecked(block, state); }); } void ValidationSignals::NewPoWValidBlock(const CBlockIndex *pindex, const std::shared_ptr &block) { LOG_EVENT("%s: block hash=%s", __func__, block->GetHash().ToString()); m_internals->Iterate([&](CValidationInterface& callbacks) { callbacks.NewPoWValidBlock(pindex, block); }); }