/** * Copyright (C) 2018-present MongoDB, Inc. * * This program is free software: you can redistribute it and/or modify * it under the terms of the Server Side Public License, version 1, * as published by MongoDB, Inc. * * This program 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 * Server Side Public License for more details. * * You should have received a copy of the Server Side Public License * along with this program. If not, see * . * * As a special exception, the copyright holders give permission to link the * code of portions of this program with the OpenSSL library under certain * conditions as described in each individual source file and distribute * linked combinations including the program with the OpenSSL library. You * must comply with the Server Side Public License in all respects for * all of the code used other than as permitted herein. If you modify file(s) * with this exception, you may extend this exception to your version of the * file(s), but you are not obligated to do so. If you do not wish to do so, * delete this exception statement from your version. If you delete this * exception statement from all source files in the program, then also delete * it in the license file. */ #define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kDefault #include "mongo/platform/basic.h" #include "mongo/db/service_context.h" #include "mongo/base/init.h" #include "mongo/bson/bsonobj.h" #include "mongo/db/client.h" #include "mongo/db/concurrency/locker_noop.h" #include "mongo/db/op_observer.h" #include "mongo/db/operation_context.h" #include "mongo/db/storage/recovery_unit_noop.h" #include "mongo/stdx/list.h" #include "mongo/stdx/memory.h" #include "mongo/transport/service_entry_point.h" #include "mongo/transport/session.h" #include "mongo/transport/transport_layer.h" #include "mongo/util/assert_util.h" #include "mongo/util/log.h" #include "mongo/util/mongoutils/str.h" #include "mongo/util/system_clock_source.h" #include "mongo/util/system_tick_source.h" namespace mongo { namespace { using ConstructorActionList = stdx::list; ServiceContext* globalServiceContext = nullptr; } // namespace bool hasGlobalServiceContext() { return globalServiceContext; } ServiceContext* getGlobalServiceContext() { fassert(17508, globalServiceContext); return globalServiceContext; } void setGlobalServiceContext(ServiceContext::UniqueServiceContext&& serviceContext) { if (globalServiceContext) { // Make sure that calling getGlobalServiceContext() during the destructor results in // nullptr. Decorations might try and do this. ServiceContext::UniqueServiceContext oldServiceContext{globalServiceContext}; globalServiceContext = nullptr; } globalServiceContext = serviceContext.release(); } bool _supportsDocLocking = false; bool supportsDocLocking() { return _supportsDocLocking; } ServiceContext::ServiceContext() : _tickSource(stdx::make_unique()), _fastClockSource(stdx::make_unique()), _preciseClockSource(stdx::make_unique()) {} ServiceContext::~ServiceContext() { stdx::lock_guard lk(_mutex); for (const auto& client : _clients) { severe() << "Client " << client->desc() << " still exists while destroying ServiceContext@" << static_cast(this); } invariant(_clients.empty()); } namespace { // // These onDestroy and onCreate functions are utilities for correctly executing supplemental // constructor and destructor methods for the ServiceContext, Client and OperationContext types. // // Note that destructors run in reverse order of constructors, and that failed construction // leads to corresponding destructors to run, similarly to how member variable construction and // destruction behave. // template void onDestroy(T* object, const ObserversIterator& observerBegin, const ObserversIterator& observerEnd) { try { auto observer = observerEnd; while (observer != observerBegin) { --observer; observer->onDestroy(object); } } catch (...) { std::terminate(); } } template void onDestroy(T* object, const ObserversContainer& observers) { onDestroy(object, observers.cbegin(), observers.cend()); } template void onCreate(T* object, const ObserversIterator& observerBegin, const ObserversIterator& observerEnd) { auto observer = observerBegin; try { for (; observer != observerEnd; ++observer) { observer->onCreate(object); } } catch (...) { onDestroy(object, observerBegin, observer); throw; } } template void onCreate(T* object, const ObserversContainer& observers) { onCreate(object, observers.cbegin(), observers.cend()); } } // namespace ServiceContext::UniqueClient ServiceContext::makeClient(std::string desc, transport::SessionHandle session) { std::unique_ptr client(new Client(std::move(desc), this, std::move(session))); onCreate(client.get(), _clientObservers); { stdx::lock_guard lk(_mutex); invariant(_clients.insert(client.get()).second); } return UniqueClient(client.release()); } void ServiceContext::setPeriodicRunner(std::unique_ptr runner) { invariant(!_runner); _runner = std::move(runner); } PeriodicRunner* ServiceContext::getPeriodicRunner() const { return _runner.get(); } transport::TransportLayer* ServiceContext::getTransportLayer() const { return _transportLayer.get(); } ServiceEntryPoint* ServiceContext::getServiceEntryPoint() const { return _serviceEntryPoint.get(); } transport::ServiceExecutor* ServiceContext::getServiceExecutor() const { return _serviceExecutor.get(); } void ServiceContext::setStorageEngine(std::unique_ptr engine) { invariant(engine); invariant(!_storageEngine); _storageEngine = std::move(engine); } void ServiceContext::setOpObserver(std::unique_ptr opObserver) { _opObserver = std::move(opObserver); } void ServiceContext::setTickSource(std::unique_ptr newSource) { _tickSource = std::move(newSource); } void ServiceContext::setFastClockSource(std::unique_ptr newSource) { _fastClockSource = std::move(newSource); } void ServiceContext::setPreciseClockSource(std::unique_ptr newSource) { _preciseClockSource = std::move(newSource); } void ServiceContext::setServiceEntryPoint(std::unique_ptr sep) { _serviceEntryPoint = std::move(sep); } void ServiceContext::setTransportLayer(std::unique_ptr tl) { _transportLayer = std::move(tl); } void ServiceContext::setServiceExecutor(std::unique_ptr exec) { _serviceExecutor = std::move(exec); } void ServiceContext::ClientDeleter::operator()(Client* client) const { ServiceContext* const service = client->getServiceContext(); { stdx::lock_guard lk(service->_mutex); invariant(service->_clients.erase(client)); } onDestroy(client, service->_clientObservers); delete client; } ServiceContext::UniqueOperationContext ServiceContext::makeOperationContext(Client* client) { auto opCtx = std::make_unique(client, _nextOpId.fetchAndAdd(1)); onCreate(opCtx.get(), _clientObservers); if (!opCtx->lockState()) { opCtx->setLockState(std::make_unique()); } if (!opCtx->recoveryUnit()) { opCtx->setRecoveryUnit(std::make_unique(), WriteUnitOfWork::RecoveryUnitState::kNotInUnitOfWork); } { stdx::lock_guard lk(*client); client->setOperationContext(opCtx.get()); } return UniqueOperationContext(opCtx.release()); }; void ServiceContext::OperationContextDeleter::operator()(OperationContext* opCtx) const { auto client = opCtx->getClient(); auto service = client->getServiceContext(); { stdx::lock_guard lk(*client); client->resetOperationContext(); } onDestroy(opCtx, service->_clientObservers); delete opCtx; } void ServiceContext::registerClientObserver(std::unique_ptr observer) { _clientObservers.emplace_back(std::move(observer)); } ServiceContext::LockedClientsCursor::LockedClientsCursor(ServiceContext* service) : _lock(service->_mutex), _curr(service->_clients.cbegin()), _end(service->_clients.cend()) {} Client* ServiceContext::LockedClientsCursor::next() { if (_curr == _end) return nullptr; Client* result = *_curr; ++_curr; return result; } void ServiceContext::setKillAllOperations() { stdx::lock_guard clientLock(_mutex); // Ensure that all newly created operation contexts will immediately be in the interrupted state _globalKill.store(true); // Interrupt all active operations for (auto&& client : _clients) { stdx::lock_guard lk(*client); auto opCtxToKill = client->getOperationContext(); if (opCtxToKill) { killOperation(opCtxToKill, ErrorCodes::InterruptedAtShutdown); } } // Notify any listeners who need to reach to the server shutting down for (const auto listener : _killOpListeners) { try { listener->interruptAll(); } catch (...) { std::terminate(); } } } void ServiceContext::killOperation(OperationContext* opCtx, ErrorCodes::Error killCode) { opCtx->markKilled(killCode); for (const auto listener : _killOpListeners) { try { listener->interrupt(opCtx->getOpID()); } catch (...) { std::terminate(); } } } void ServiceContext::killAllUserOperations(const OperationContext* opCtx, ErrorCodes::Error killCode) { for (LockedClientsCursor cursor(this); Client* client = cursor.next();) { if (!client->isFromUserConnection()) { // Don't kill system operations. continue; } stdx::lock_guard lk(*client); OperationContext* toKill = client->getOperationContext(); // Don't kill ourself. if (toKill && toKill->getOpID() != opCtx->getOpID()) { killOperation(toKill, killCode); } } } void ServiceContext::unsetKillAllOperations() { _globalKill.store(false); } void ServiceContext::registerKillOpListener(KillOpListenerInterface* listener) { stdx::lock_guard clientLock(_mutex); _killOpListeners.push_back(listener); } void ServiceContext::waitForStartupComplete() { stdx::unique_lock lk(_mutex); _startupCompleteCondVar.wait(lk, [this] { return _startupComplete; }); } void ServiceContext::notifyStartupComplete() { stdx::unique_lock lk(_mutex); _startupComplete = true; lk.unlock(); _startupCompleteCondVar.notify_all(); } namespace { /** * Accessor function to get the global list of ServiceContext constructor and destructor * functions. */ ConstructorActionList& registeredConstructorActions() { static ConstructorActionList cal; return cal; } } // namespace ServiceContext::ConstructorActionRegisterer::ConstructorActionRegisterer( std::string name, ConstructorAction constructor, DestructorAction destructor) : ConstructorActionRegisterer( std::move(name), {}, std::move(constructor), std::move(destructor)) {} ServiceContext::ConstructorActionRegisterer::ConstructorActionRegisterer( std::string name, std::vector prereqs, ConstructorAction constructor, DestructorAction destructor) { if (!destructor) destructor = [](ServiceContext*) {}; _registerer.emplace(std::move(name), std::move(prereqs), [this, constructor, destructor](InitializerContext* context) { _iter = registeredConstructorActions().emplace( registeredConstructorActions().end(), std::move(constructor), std::move(destructor)); return Status::OK(); }, [this](DeinitializerContext* context) { registeredConstructorActions().erase(_iter); return Status::OK(); }); } ServiceContext::UniqueServiceContext ServiceContext::make() { auto service = std::make_unique(); onCreate(service.get(), registeredConstructorActions()); return UniqueServiceContext{service.release()}; } void ServiceContext::ServiceContextDeleter::operator()(ServiceContext* service) const { onDestroy(service, registeredConstructorActions()); delete service; } } // namespace mongo