// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef BASE_MESSAGE_LOOP_MESSAGE_LOOP_H_ #define BASE_MESSAGE_LOOP_MESSAGE_LOOP_H_ #include #include #include "base/base_export.h" #include "base/callback_forward.h" #include "base/gtest_prod_util.h" #include "base/macros.h" #include "base/memory/scoped_refptr.h" #include "base/message_loop/message_pump_type.h" #include "base/message_loop/timer_slack.h" #include "base/pending_task.h" #include "base/run_loop.h" #include "base/threading/thread_checker.h" #include "base/time/time.h" #include "build/build_config.h" namespace base { class MessagePump; class TaskObserver; namespace sequence_manager { class TaskQueue; namespace internal { class SequenceManagerImpl; } // namespace internal } // namespace sequence_manager // A MessageLoop is used to process events for a particular thread. There is // at most one MessageLoop instance per thread. // // Events include at a minimum Task instances submitted to the MessageLoop's // TaskRunner. Depending on the Type of message pump used by the MessageLoop // other events such as UI messages may be processed. On Windows APC calls (as // time permits) and signals sent to a registered set of HANDLEs may also be // processed. // // The MessageLoop's API should only be used directly by its owner (and users // which the owner opts to share a MessageLoop* with). Other ways to access // subsets of the MessageLoop API: // - base::RunLoop : Drive the MessageLoop from the thread it's bound to. // - base::Thread/SequencedTaskRunnerHandle : Post back to the MessageLoop // from a task running on it. // - SequenceLocalStorageSlot : Bind external state to this MessageLoop. // - base::MessageLoopCurrent : Access statically exposed APIs of this // MessageLoop. // - Embedders may provide their own static accessors to post tasks on // specific loops (e.g. content::BrowserThreads). // // NOTE: Unless otherwise specified, a MessageLoop's methods may only be called // on the thread where the MessageLoop's Run method executes. // // NOTE: MessageLoop has task reentrancy protection. This means that if a // task is being processed, a second task cannot start until the first task is // finished. Reentrancy can happen when processing a task, and an inner // message pump is created. That inner pump then processes native messages // which could implicitly start an inner task. Inner message pumps are created // with dialogs (DialogBox), common dialogs (GetOpenFileName), OLE functions // (DoDragDrop), printer functions (StartDoc) and *many* others. // // Sample workaround when inner task processing is needed: // HRESULT hr; // { // MessageLoopCurrent::ScopedNestableTaskAllower allow; // hr = DoDragDrop(...); // Implicitly runs a modal message loop. // } // // Process |hr| (the result returned by DoDragDrop()). // // Please be SURE your task is reentrant (nestable) and all global variables // are stable and accessible before calling SetNestableTasksAllowed(true). // // DEPRECATED: Use a SingleThreadTaskExecutor instead or TaskEnvironment // for tests. TODO(https://crbug.com/891670/) remove this class. class BASE_EXPORT MessageLoop { public: // Normally, it is not necessary to instantiate a MessageLoop. Instead, it // is typical to make use of the current thread's MessageLoop instance. explicit MessageLoop(MessagePumpType type = MessagePumpType::DEFAULT); // Creates a MessageLoop with the supplied MessagePump, which must be // non-null. explicit MessageLoop(std::unique_ptr custom_pump); virtual ~MessageLoop(); // Set the timer slack for this message loop. void SetTimerSlack(TimerSlack timer_slack); // Returns true if this loop's pump is |type|. This allows subclasses // (especially those in tests) to specialize how they are identified. virtual bool IsType(MessagePumpType type) const; // Returns the type passed to the constructor. MessagePumpType type() const { return type_; } // Sets a new TaskRunner for this message loop. If the message loop was // already bound, this must be called on the thread to which it is bound. void SetTaskRunner(scoped_refptr task_runner); // Gets the TaskRunner associated with this message loop. scoped_refptr task_runner() const; // These functions can only be called on the same thread that |this| is // running on. // These functions must not be called from a TaskObserver callback. void AddTaskObserver(TaskObserver* task_observer); void RemoveTaskObserver(TaskObserver* task_observer); // Returns true if the message loop is idle (ignoring delayed tasks). This is // the same condition which triggers DoWork() to return false: i.e. // out of tasks which can be processed at the current run-level -- there might // be deferred non-nestable tasks remaining if currently in a nested run // level. // TODO(alexclarke): Make this const when MessageLoopImpl goes away. bool IsIdleForTesting(); //---------------------------------------------------------------------------- protected: // Returns true if this is the active MessageLoop for the current thread. bool IsBoundToCurrentThread() const; using MessagePumpFactoryCallback = OnceCallback()>; // Common protected constructor. Other constructors delegate the // initialization to this constructor. // A subclass can invoke this constructor to create a message_loop of a // specific type with a custom loop. The implementation does not call // BindToCurrentThread. If this constructor is invoked directly by a subclass, // then the subclass must subsequently bind the message loop. MessageLoop(MessagePumpType type, std::unique_ptr pump); // Configure various members and bind this message loop to the current thread. void BindToCurrentThread(); // A raw pointer to the MessagePump handed-off to |sequence_manager_|. // Valid for the lifetime of |sequence_manager_|. MessagePump* pump_ = nullptr; // TODO(crbug.com/891670): We shouldn't publicly expose all of // SequenceManagerImpl. const std::unique_ptr sequence_manager_; // SequenceManager requires an explicit initialisation of the default task // queue. const scoped_refptr default_task_queue_; private: friend class MessageLoopTypedTest; friend class ScheduleWorkTest; friend class Thread; friend class sequence_manager::internal::SequenceManagerImpl; FRIEND_TEST_ALL_PREFIXES(MessageLoopTest, DeleteUnboundLoop); // Creates a MessageLoop without binding to a thread. // // It is valid to call this to create a new message loop on one thread, // and then pass it to the thread where the message loop actually runs. // The message loop's BindToCurrentThread() method must be called on the // thread the message loop runs on, before calling Run(). // Before BindToCurrentThread() is called, only Post*Task() functions can // be called on the message loop. static std::unique_ptr CreateUnbound(MessagePumpType type); static std::unique_ptr CreateUnbound( std::unique_ptr pump); scoped_refptr CreateDefaultTaskQueue(); std::unique_ptr CreateMessagePump(); sequence_manager::internal::SequenceManagerImpl* GetSequenceManagerImpl() const { return sequence_manager_.get(); } const MessagePumpType type_; // If set this will be returned by the next call to CreateMessagePump(). // This is only set if |type_| is TYPE_CUSTOM and |pump_| is null. std::unique_ptr custom_pump_; // Id of the thread this message loop is bound to. Initialized once when the // MessageLoop is bound to its thread and constant forever after. PlatformThreadId thread_id_ = kInvalidThreadId; // Verifies that calls are made on the thread on which BindToCurrentThread() // was invoked. THREAD_CHECKER(bound_thread_checker_); DISALLOW_COPY_AND_ASSIGN(MessageLoop); }; } // namespace base #endif // BASE_MESSAGE_LOOP_MESSAGE_LOOP_H_