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|
/**
* 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
* <http://www.mongodb.com/licensing/server-side-public-license>.
*
* 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.
*/
#pragma once
#include <boost/optional.hpp>
#include <functional>
#include <list>
#include <memory>
#include <vector>
#include "mongo/base/global_initializer_registerer.h"
#include "mongo/db/logical_session_id.h"
#include "mongo/db/storage/storage_engine.h"
#include "mongo/platform/atomic_word.h"
#include "mongo/platform/mutex.h"
#include "mongo/stdx/condition_variable.h"
#include "mongo/stdx/unordered_set.h"
#include "mongo/transport/service_executor.h"
#include "mongo/transport/session.h"
#include "mongo/util/clock_source.h"
#include "mongo/util/concurrency/with_lock.h"
#include "mongo/util/decorable.h"
#include "mongo/util/hierarchical_acquisition.h"
#include "mongo/util/periodic_runner.h"
#include "mongo/util/tick_source.h"
#include "mongo/util/uuid.h"
#include <iostream>
namespace mongo {
class AbstractMessagingPort;
class Client;
class OperationContext;
class OpObserver;
class ServiceEntryPoint;
namespace transport {
class TransportLayer;
} // namespace transport
/**
* Classes that implement this interface can receive notification on killOp.
*
* See registerKillOpListener() for more information,
* including limitations on the lifetime of registered listeners.
*/
class KillOpListenerInterface {
KillOpListenerInterface(const KillOpListenerInterface&) = delete;
KillOpListenerInterface& operator=(const KillOpListenerInterface&) = delete;
public:
/**
* Will be called *after* ops have been told they should die.
* Callback must not fail.
*/
virtual void interrupt(unsigned opId) = 0;
virtual void interruptAll() = 0;
protected:
KillOpListenerInterface() = default;
// Should not delete through a pointer of this type
virtual ~KillOpListenerInterface() = default;
};
/**
* A simple container type to pass around a client and a lock on said client
*/
class LockedClient {
public:
LockedClient() = default;
explicit LockedClient(Client* client);
Client* client() const noexcept {
return _client;
}
Client* operator->() const noexcept {
return client();
}
explicit operator bool() const noexcept {
return client();
}
operator WithLock() const noexcept {
return WithLock(_lk);
}
private:
// Technically speaking, _lk holds a Client* and _client is a superfluous variable. That said,
// LockedClients will likely be optimized away and the extra variable is a cheap price to pay
// for better developer comprehension.
stdx::unique_lock<Client> _lk;
Client* _client = nullptr;
};
/**
* Every OperationContext is expected to have a unique OperationId within the domain of its
* ServiceContext. Generally speaking, OperationId is used for forming maps of OperationContexts and
* directing metaoperations like killop.
*/
using OperationId = uint32_t;
/**
* Users may provide an OperationKey when sending a command request as a stable token by which to
* refer to an operation (and thus an OperationContext). An OperationContext is not required to have
* an OperationKey. The presence of an OperationKey implies that the client is either closely
* tracking or speculative executing its command.
*/
using OperationKey = UUID;
/**
* Class representing the context of a service, such as a MongoD database service or
* a MongoS routing service.
*
* A ServiceContext is the root of a hierarchy of contexts. A ServiceContext owns
* zero or more Clients, which in turn each own OperationContexts.
*/
class ServiceContext final : public Decorable<ServiceContext> {
ServiceContext(const ServiceContext&) = delete;
ServiceContext& operator=(const ServiceContext&) = delete;
public:
/**
* Observer interface implemented to hook client and operation context creation and
* destruction.
*/
class ClientObserver {
public:
virtual ~ClientObserver() = default;
/**
* Hook called after a new client "client" is created on a service by
* service->makeClient().
*
* For a given client and registered instance of ClientObserver, if onCreateClient
* returns without throwing an exception, onDestroyClient will be called when "client"
* is deleted.
*/
virtual void onCreateClient(Client* client) = 0;
/**
* Hook called on a "client" created by a service before deleting "client".
*
* Like a destructor, must not throw exceptions.
*/
virtual void onDestroyClient(Client* client) = 0;
/**
* Hook called after a new operation context is created on a client by
* service->makeOperationContext(client) or client->makeOperationContext().
*
* For a given operation context and registered instance of ClientObserver, if
* onCreateOperationContext returns without throwing an exception,
* onDestroyOperationContext will be called when "opCtx" is deleted.
*/
virtual void onCreateOperationContext(OperationContext* opCtx) = 0;
/**
* Hook called on a "opCtx" created by a service before deleting "opCtx".
*
* Like a destructor, must not throw exceptions.
*/
virtual void onDestroyOperationContext(OperationContext* opCtx) = 0;
};
using ClientSet = stdx::unordered_set<Client*>;
/**
* Cursor for enumerating the live Client objects belonging to a ServiceContext.
*
* Lifetimes of this type are synchronized with client creation and destruction.
*/
class LockedClientsCursor {
public:
/**
* Constructs a cursor for enumerating the clients of "service", blocking "service" from
* creating or destroying Client objects until this instance is destroyed.
*/
explicit LockedClientsCursor(ServiceContext* service);
/**
* Returns the next client in the enumeration, or nullptr if there are no more clients.
*/
Client* next();
private:
stdx::unique_lock<Latch> _lock;
ClientSet::const_iterator _curr;
ClientSet::const_iterator _end;
};
/**
* Special deleter used for cleaning up ServiceContext objects.
* See UniqueServiceContext, below.
*/
class ServiceContextDeleter {
public:
void operator()(ServiceContext* service) const;
};
using UniqueServiceContext = std::unique_ptr<ServiceContext, ServiceContextDeleter>;
/**
* Special deleter used for cleaning up Client objects owned by a ServiceContext.
* See UniqueClient, below.
*/
class ClientDeleter {
public:
void operator()(Client* client) const;
};
/**
* This is the unique handle type for Clients created by a ServiceContext.
*/
using UniqueClient = std::unique_ptr<Client, ClientDeleter>;
/**
* Special deleter used for cleaning up OperationContext objects owned by a ServiceContext.
* See UniqueOperationContext, below.
*/
class OperationContextDeleter {
public:
void operator()(OperationContext* opCtx) const;
};
/**
* This is the unique handle type for OperationContexts created by a ServiceContext.
*/
using UniqueOperationContext = std::unique_ptr<OperationContext, OperationContextDeleter>;
/**
* Register a function of this type using an instance of ConstructorActionRegisterer,
* below, to cause the function to be executed on new ServiceContext instances.
*/
using ConstructorAction = std::function<void(ServiceContext*)>;
/**
* Register a function of this type using an instance of ConstructorActionRegisterer,
* below, to cause the function to be executed on ServiceContext instances before they
* are destroyed.
*/
using DestructorAction = std::function<void(ServiceContext*)>;
/**
* Representation of a paired ConstructorAction and DestructorAction.
*/
class ConstructorDestructorActions {
public:
ConstructorDestructorActions(ConstructorAction constructor, DestructorAction destructor)
: _constructor(std::move(constructor)), _destructor(std::move(destructor)) {}
void onCreate(ServiceContext* service) const {
_constructor(service);
}
void onDestroy(ServiceContext* service) const {
_destructor(service);
}
private:
ConstructorAction _constructor;
DestructorAction _destructor;
};
/**
* Registers a function to execute on new service contexts when they are created, and optionally
* also register a function to execute before those contexts are destroyed.
*
* Construct instances of this type during static initialization only, as they register
* MONGO_INITIALIZERS.
*/
class ConstructorActionRegisterer {
public:
/**
* This constructor registers a constructor and optional destructor with the given
* "name" and no prerequisite constructors or mongo initializers.
*/
ConstructorActionRegisterer(std::string name,
ConstructorAction constructor,
DestructorAction destructor = {});
/**
* This constructor registers a constructor and optional destructor with the given
* "name", and a list of names of prerequisites, "prereqs".
*
* The named constructor will run after all of its prereqs successfully complete,
* and the corresponding destructor, if provided, will run before any of its
* prerequisites execute.
*/
ConstructorActionRegisterer(std::string name,
std::vector<std::string> prereqs,
ConstructorAction constructor,
DestructorAction destructor = {});
/**
* This constructor registers a constructor and optional destructor with the given
* "name", a list of names of prerequisites, "prereqs", and a list of names of dependents,
* "dependents".
*
* The named constructor will run after all of its prereqs successfully complete,
* and the corresponding destructor, if provided, will run before any of its
* prerequisites execute. The dependents will run after this constructor and
* the corresponding destructor, if provided, will run after any of its
* dependents execute.
*/
ConstructorActionRegisterer(std::string name,
std::vector<std::string> prereqs,
std::vector<std::string> dependents,
ConstructorAction constructor,
DestructorAction destructor = {});
private:
using ConstructorActionListIterator = std::list<ConstructorDestructorActions>::iterator;
ConstructorActionListIterator _iter;
boost::optional<GlobalInitializerRegisterer> _registerer;
};
/**
* Factory function for making instances of ServiceContext. It is the only means by which they
* should be created.
*/
static UniqueServiceContext make();
ServiceContext();
~ServiceContext();
/**
* Registers an observer of lifecycle events on Clients created by this ServiceContext.
*
* See the ClientObserver type, above, for details.
*
* All calls to registerClientObserver must complete before ServiceContext
* is used in multi-threaded operation, or is used to create clients via calls
* to makeClient.
*/
void registerClientObserver(std::unique_ptr<ClientObserver> observer);
/**
* Creates a new Client object representing a client session associated with this
* ServiceContext.
*
* The "desc" string is used to set a descriptive name for the client, used in logging.
*
* If supplied, "session" is the transport::Session used for communicating with the client.
*/
UniqueClient makeClient(std::string desc, transport::SessionHandle session = nullptr);
/**
* Creates a new OperationContext on "client".
*
* "client" must not have an active operation context.
*
*/
UniqueOperationContext makeOperationContext(Client* client);
//
// Storage
//
/**
* Sets the storage engine for this instance. May be called up to once per instance.
*/
void setStorageEngine(std::unique_ptr<StorageEngine> engine);
/**
* Return the storage engine instance we're using.
*/
StorageEngine* getStorageEngine() {
return _storageEngine.get();
}
//
// Global operation management. This may not belong here and there may be too many methods
// here.
//
/**
* Signal all OperationContext(s) that they have been killed.
*/
void setKillAllOperations();
/**
* Reset the operation kill state after a killAllOperations.
* Used for testing.
*/
void unsetKillAllOperations();
/**
* Get the state for killing all operations.
*/
bool getKillAllOperations() {
return _globalKill.loadRelaxed();
}
/**
* Kills the operation "opCtx" with the code "killCode", if opCtx has not already been killed.
* Caller must own the lock on opCtx->getClient, and opCtx->getServiceContext() must be the same
* as this service context. WithLock expects that the client lock be passed in.
**/
void killOperation(WithLock,
OperationContext* opCtx,
ErrorCodes::Error killCode = ErrorCodes::Interrupted);
/**
* Kills the operation "opCtx" with the code "killCode", if opCtx has not already been killed,
* and delists the operation by removing it from "_clientByOperationId" and its client. Both
* "opCtx->getClient()->getServiceContext()" and "this" must point to the same instance of
* service context. Also, "opCtx" should never be deleted before this method returns. Finally,
* the thread invoking this method must not hold (own) the client and the service context locks.
* It is highly recommended to use "ErrorCodes::OperationIsKilledAndDelisted" as the error code
* to facilitate debugging.
*/
void killAndDelistOperation(
OperationContext* opCtx,
ErrorCodes::Error killError = ErrorCodes::OperationIsKilledAndDelisted) noexcept;
/**
* Registers a listener to be notified each time an op is killed.
*
* listener does not become owned by the environment. As there is currently no way to
* unregister, the listener object must outlive this ServiceContext object.
*/
void registerKillOpListener(KillOpListenerInterface* listener);
//
// Background tasks.
//
/**
* Set a periodic runner on the service context. The runner should already be
* started when it is moved onto the service context. The service context merely
* takes ownership of this object to allow it to continue running for the life of
* the process
*/
void setPeriodicRunner(std::unique_ptr<PeriodicRunner> runner);
/**
* Returns a pointer to the global periodic runner owned by this service context.
*/
PeriodicRunner* getPeriodicRunner() const;
//
// Transport.
//
/**
* Get the master TransportLayer. Routes to all other TransportLayers that
* may be in use within this service.
*
* See TransportLayerManager for more details.
*/
transport::TransportLayer* getTransportLayer() const;
/**
* Get the service entry point for the service context.
*
* See ServiceEntryPoint for more details.
*/
ServiceEntryPoint* getServiceEntryPoint() const;
/**
* Waits for the ServiceContext to be fully initialized and for all TransportLayers to have been
* added/started.
*
* If startup is already complete this returns immediately.
*/
void waitForStartupComplete();
/*
* Marks initialization as complete and all transport layers as started.
*/
void notifyStartupComplete();
/*
* Returns the number of active client operations
*/
int getActiveClientOperations();
/**
* Set the OpObserver.
*/
void setOpObserver(std::unique_ptr<OpObserver> opObserver);
/**
* Return the OpObserver instance we're using. This may be an OpObserverRegistry that in fact
* contains multiple observers.
*/
OpObserver* getOpObserver() const {
return _opObserver.get();
}
/**
* Returns the tick/clock source set in this context.
*/
TickSource* getTickSource() const {
return _tickSource.get();
}
/**
* Get a ClockSource implementation that may be less precise than the _preciseClockSource but
* may be cheaper to call.
*/
ClockSource* getFastClockSource() const {
return _fastClockSource.get();
}
/**
* Get a ClockSource implementation that is very precise but may be expensive to call.
*/
ClockSource* getPreciseClockSource() const {
return _preciseClockSource.get();
}
/**
* Replaces the current tick/clock source with a new one. In other words, the old source will be
* destroyed. So make sure that no one is using the old source when calling this.
*/
void setTickSource(std::unique_ptr<TickSource> newSource);
/**
* Call this method with a ClockSource implementation that may be less precise than
* the _preciseClockSource but may be cheaper to call.
*/
void setFastClockSource(std::unique_ptr<ClockSource> newSource);
/**
* Call this method with a ClockSource implementation that is very precise but
* may be expensive to call.
*/
void setPreciseClockSource(std::unique_ptr<ClockSource> newSource);
/**
* Binds the service entry point implementation to the service context.
*/
void setServiceEntryPoint(std::unique_ptr<ServiceEntryPoint> sep);
/**
* Binds the TransportLayer to the service context. The TransportLayer should have already
* had setup() called successfully, but not startup().
*
* This should be a TransportLayerManager created with the global server configuration.
*/
void setTransportLayer(std::unique_ptr<transport::TransportLayer> tl);
/**
* Creates a delayed execution baton with basic functionality
*/
BatonHandle makeBaton(OperationContext* opCtx) const;
uint64_t getCatalogGeneration() const {
return _catalogGeneration.load();
}
void incrementCatalogGeneration() {
_catalogGeneration.fetchAndAdd(1);
}
LockedClient getLockedClient(OperationId id);
private:
class ClientObserverHolder {
public:
explicit ClientObserverHolder(std::unique_ptr<ClientObserver> observer)
: _observer(std::move(observer)) {}
void onCreate(Client* client) const {
_observer->onCreateClient(client);
}
void onDestroy(Client* client) const {
_observer->onDestroyClient(client);
}
void onCreate(OperationContext* opCtx) const {
_observer->onCreateOperationContext(opCtx);
}
void onDestroy(OperationContext* opCtx) const {
_observer->onDestroyOperationContext(opCtx);
}
private:
std::unique_ptr<ClientObserver> _observer;
};
/**
* Removes the operation from its client and the `_clientByOperationId` of its service context.
* It will acquire both client and service context locks, and should only be used internally by
* other ServiceContext methods. To ensure delisted operations are shortly deleted, this method
* should only be called after killing an operation or in its destructor.
*/
void _delistOperation(OperationContext* opCtx) noexcept;
Mutex _mutex = MONGO_MAKE_LATCH(/*HierarchicalAcquisitionLevel(2), */ "ServiceContext::_mutex");
/**
* The periodic runner.
*/
std::unique_ptr<PeriodicRunner> _runner;
/**
* The TransportLayer.
*/
std::unique_ptr<transport::TransportLayer> _transportLayer;
/**
* The service entry point
*/
std::unique_ptr<ServiceEntryPoint> _serviceEntryPoint;
/**
* The ServiceExecutor
*/
std::unique_ptr<transport::ServiceExecutor> _serviceExecutor;
/**
* The storage engine, if any.
*/
std::unique_ptr<StorageEngine> _storageEngine;
/**
* Vector of registered observers.
*/
std::vector<ClientObserverHolder> _clientObservers;
ClientSet _clients;
stdx::unordered_map<OperationId, Client*> _clientByOperationId;
/**
* The registered OpObserver.
*/
std::unique_ptr<OpObserver> _opObserver;
std::unique_ptr<TickSource> _tickSource;
/**
* A ClockSource implementation that may be less precise than the _preciseClockSource but
* may be cheaper to call.
*/
std::unique_ptr<ClockSource> _fastClockSource;
/**
* A ClockSource implementation that is very precise but may be expensive to call.
*/
std::unique_ptr<ClockSource> _preciseClockSource;
// Flag set to indicate that all operations are to be interrupted ASAP.
AtomicWord<bool> _globalKill{false};
// protected by _mutex
std::vector<KillOpListenerInterface*> _killOpListeners;
// Counter for assigning operation ids.
AtomicWord<OperationId> _nextOpId{1};
// When the catalog is restarted, the generation goes up by one each time.
AtomicWord<uint64_t> _catalogGeneration{0};
bool _startupComplete = false;
stdx::condition_variable _startupCompleteCondVar;
};
/**
* Returns true if there is a global ServiceContext.
*/
bool hasGlobalServiceContext();
/**
* Returns the singleton ServiceContext for this server process.
*
* Fatal if there is currently no global ServiceContext.
*
* Caller does not own pointer.
*/
ServiceContext* getGlobalServiceContext();
/**
* Returns the ServiceContext associated with the current Client.
*
* Returns a nullptr if there is not a current Client
*
* Caller does not own pointer.
*/
ServiceContext* getCurrentServiceContext();
/**
* Sets the global ServiceContext. If 'serviceContext' is NULL, un-sets and deletes
* the current global ServiceContext.
*
* Takes ownership of 'serviceContext'.
*/
void setGlobalServiceContext(ServiceContext::UniqueServiceContext&& serviceContext);
} // namespace mongo
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