202 lines
7.5 KiB
C
202 lines
7.5 KiB
C
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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef BASE_SEQUENCED_TASK_RUNNER_H_
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#define BASE_SEQUENCED_TASK_RUNNER_H_
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#include <memory>
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#include "base/base_export.h"
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#include "base/callback.h"
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#include "base/sequenced_task_runner_helpers.h"
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#include "base/task_runner.h"
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namespace base {
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// A SequencedTaskRunner is a subclass of TaskRunner that provides
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// additional guarantees on the order that tasks are started, as well
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// as guarantees on when tasks are in sequence, i.e. one task finishes
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// before the other one starts.
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//
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// Summary
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// -------
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// Non-nested tasks with the same delay will run one by one in FIFO
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// order.
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//
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// Detailed guarantees
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// -------------------
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//
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// SequencedTaskRunner also adds additional methods for posting
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// non-nestable tasks. In general, an implementation of TaskRunner
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// may expose task-running methods which are themselves callable from
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// within tasks. A non-nestable task is one that is guaranteed to not
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// be run from within an already-running task. Conversely, a nestable
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// task (the default) is a task that can be run from within an
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// already-running task.
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//
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// The guarantees of SequencedTaskRunner are as follows:
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//
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// - Given two tasks T2 and T1, T2 will start after T1 starts if:
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//
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// * T2 is posted after T1; and
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// * T2 has equal or higher delay than T1; and
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// * T2 is non-nestable or T1 is nestable.
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//
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// - If T2 will start after T1 starts by the above guarantee, then
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// T2 will start after T1 finishes and is destroyed if:
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//
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// * T2 is non-nestable, or
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// * T1 doesn't call any task-running methods.
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//
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// - If T2 will start after T1 finishes by the above guarantee, then
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// all memory changes in T1 and T1's destruction will be visible
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// to T2.
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//
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// - If T2 runs nested within T1 via a call to the task-running
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// method M, then all memory changes in T1 up to the call to M
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// will be visible to T2, and all memory changes in T2 will be
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// visible to T1 from the return from M.
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//
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// Note that SequencedTaskRunner does not guarantee that tasks are run
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// on a single dedicated thread, although the above guarantees provide
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// most (but not all) of the same guarantees. If you do need to
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// guarantee that tasks are run on a single dedicated thread, see
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// SingleThreadTaskRunner (in single_thread_task_runner.h).
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//
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// Some corollaries to the above guarantees, assuming the tasks in
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// question don't call any task-running methods:
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//
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// - Tasks posted via PostTask are run in FIFO order.
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//
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// - Tasks posted via PostNonNestableTask are run in FIFO order.
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//
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// - Tasks posted with the same delay and the same nestable state
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// are run in FIFO order.
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//
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// - A list of tasks with the same nestable state posted in order of
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// non-decreasing delay is run in FIFO order.
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//
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// - A list of tasks posted in order of non-decreasing delay with at
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// most a single change in nestable state from nestable to
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// non-nestable is run in FIFO order. (This is equivalent to the
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// statement of the first guarantee above.)
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//
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// Some theoretical implementations of SequencedTaskRunner:
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//
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// - A SequencedTaskRunner that wraps a regular TaskRunner but makes
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// sure that only one task at a time is posted to the TaskRunner,
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// with appropriate memory barriers in between tasks.
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//
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// - A SequencedTaskRunner that, for each task, spawns a joinable
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// thread to run that task and immediately quit, and then
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// immediately joins that thread.
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//
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// - A SequencedTaskRunner that stores the list of posted tasks and
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// has a method Run() that runs each runnable task in FIFO order
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// that can be called from any thread, but only if another
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// (non-nested) Run() call isn't already happening.
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class BASE_EXPORT SequencedTaskRunner : public TaskRunner {
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public:
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// The two PostNonNestable*Task methods below are like their
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// nestable equivalents in TaskRunner, but they guarantee that the
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// posted task will not run nested within an already-running task.
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//
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// A simple corollary is that posting a task as non-nestable can
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// only delay when the task gets run. That is, posting a task as
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// non-nestable may not affect when the task gets run, or it could
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// make it run later than it normally would, but it won't make it
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// run earlier than it normally would.
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// TODO(akalin): Get rid of the boolean return value for the methods
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// below.
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bool PostNonNestableTask(const Location& from_here, OnceClosure task);
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virtual bool PostNonNestableDelayedTask(const Location& from_here,
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OnceClosure task,
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base::TimeDelta delay) = 0;
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// Submits a non-nestable task to delete the given object. Returns
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// true if the object may be deleted at some point in the future,
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// and false if the object definitely will not be deleted.
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template <class T>
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bool DeleteSoon(const Location& from_here, const T* object) {
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return DeleteOrReleaseSoonInternal(from_here, &DeleteHelper<T>::DoDelete,
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object);
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}
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template <class T>
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bool DeleteSoon(const Location& from_here, std::unique_ptr<T> object) {
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return DeleteSoon(from_here, object.release());
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}
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// Submits a non-nestable task to release the given object.
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//
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// ReleaseSoon makes sure that the object it the scoped_refptr points to gets
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// properly released on the correct thread.
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// We apply ReleaseSoon to the rvalue as the side-effects can be unclear to
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// the caller if an lvalue is used. That being so, the scoped_refptr should
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// always be std::move'd.
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// Example use:
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//
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// scoped_refptr<T> foo_scoped_refptr;
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// ...
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// task_runner->ReleaseSoon(std::move(foo_scoped_refptr));
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template <class T>
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void ReleaseSoon(const Location& from_here, scoped_refptr<T>&& object) {
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if (!object)
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return;
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DeleteOrReleaseSoonInternal(from_here, &ReleaseHelper<T>::DoRelease,
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object.release());
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}
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// Returns true iff tasks posted to this TaskRunner are sequenced
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// with this call.
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//
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// In particular:
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// - Returns true if this is a SequencedTaskRunner to which the
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// current task was posted.
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// - Returns true if this is a SequencedTaskRunner bound to the
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// same sequence as the SequencedTaskRunner to which the current
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// task was posted.
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// - Returns true if this is a SingleThreadTaskRunner bound to
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// the current thread.
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virtual bool RunsTasksInCurrentSequence() const = 0;
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protected:
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~SequencedTaskRunner() override = default;
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private:
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bool DeleteOrReleaseSoonInternal(const Location& from_here,
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void (*deleter)(const void*),
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const void* object);
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};
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// Sample usage with std::unique_ptr :
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// std::unique_ptr<Foo, base::OnTaskRunnerDeleter> ptr(
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// new Foo, base::OnTaskRunnerDeleter(my_task_runner));
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//
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// For RefCounted see base::RefCountedDeleteOnSequence.
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struct BASE_EXPORT OnTaskRunnerDeleter {
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explicit OnTaskRunnerDeleter(scoped_refptr<SequencedTaskRunner> task_runner);
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~OnTaskRunnerDeleter();
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OnTaskRunnerDeleter(OnTaskRunnerDeleter&&);
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OnTaskRunnerDeleter& operator=(OnTaskRunnerDeleter&&);
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// For compatibility with std:: deleters.
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template <typename T>
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void operator()(const T* ptr) {
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if (ptr)
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task_runner_->DeleteSoon(FROM_HERE, ptr);
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}
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scoped_refptr<SequencedTaskRunner> task_runner_;
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};
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} // namespace base
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#endif // BASE_SEQUENCED_TASK_RUNNER_H_
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