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227 lines
9.5 KiB
C++
227 lines
9.5 KiB
C++
// Copyright 2016 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_TASK_TASK_SCHEDULER_TASK_SCHEDULER_H_
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#define BASE_TASK_TASK_SCHEDULER_TASK_SCHEDULER_H_
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#include <memory>
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#include <vector>
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#include "base/base_export.h"
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#include "base/callback.h"
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#include "base/gtest_prod_util.h"
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#include "base/memory/ref_counted.h"
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#include "base/sequenced_task_runner.h"
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#include "base/single_thread_task_runner.h"
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#include "base/strings/string_piece.h"
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#include "base/task/single_thread_task_runner_thread_mode.h"
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#include "base/task/task_executor.h"
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#include "base/task/task_scheduler/scheduler_worker_pool_params.h"
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#include "base/task/task_traits.h"
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#include "base/task_runner.h"
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#include "base/time/time.h"
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#include "build/build_config.h"
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namespace gin {
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class V8Platform;
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}
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namespace content {
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// Can't use the FRIEND_TEST_ALL_PREFIXES macro because the test is in a
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// different namespace.
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class BrowserMainLoopTest_CreateThreadsInSingleProcess_Test;
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} // namespace content
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namespace base {
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class HistogramBase;
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class SchedulerWorkerObserver;
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// Interface for a task scheduler and static methods to manage the instance used
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// by the post_task.h API.
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//
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// The task scheduler doesn't create threads until Start() is called. Tasks can
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// be posted at any time but will not run until after Start() is called.
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//
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// The instance methods of this class are thread-safe.
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//
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// Note: All TaskScheduler users should go through base/task/post_task.h instead
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// of this interface except for the one callsite per process which manages the
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// process's instance.
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class BASE_EXPORT TaskScheduler : public TaskExecutor {
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public:
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struct BASE_EXPORT InitParams {
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enum class SharedWorkerPoolEnvironment {
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// Use the default environment (no environment).
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DEFAULT,
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#if defined(OS_WIN)
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// Place the worker in a COM MTA.
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COM_MTA,
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#endif // defined(OS_WIN)
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};
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InitParams(
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const SchedulerWorkerPoolParams& background_worker_pool_params_in,
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const SchedulerWorkerPoolParams&
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background_blocking_worker_pool_params_in,
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const SchedulerWorkerPoolParams& foreground_worker_pool_params_in,
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const SchedulerWorkerPoolParams&
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foreground_blocking_worker_pool_params_in,
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SharedWorkerPoolEnvironment shared_worker_pool_environment_in =
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SharedWorkerPoolEnvironment::DEFAULT);
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~InitParams();
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SchedulerWorkerPoolParams background_worker_pool_params;
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SchedulerWorkerPoolParams background_blocking_worker_pool_params;
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SchedulerWorkerPoolParams foreground_worker_pool_params;
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SchedulerWorkerPoolParams foreground_blocking_worker_pool_params;
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SharedWorkerPoolEnvironment shared_worker_pool_environment;
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};
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// A ScopedExecutionFence prevents any new task from being scheduled in
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// TaskScheduler within its scope. Upon its destruction, all tasks that were
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// preeempted are released. Note: the constructor of ScopedExecutionFence will
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// not wait for currently running tasks (as they were posted before entering
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// this scope and do not violate the contract; some of them could be
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// CONTINUE_ON_SHUTDOWN and waiting for them to complete is ill-advised).
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class BASE_EXPORT ScopedExecutionFence {
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public:
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ScopedExecutionFence();
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~ScopedExecutionFence();
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private:
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DISALLOW_COPY_AND_ASSIGN(ScopedExecutionFence);
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};
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// Destroying a TaskScheduler is not allowed in production; it is always
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// leaked. In tests, it should only be destroyed after JoinForTesting() has
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// returned.
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~TaskScheduler() override = default;
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// Allows the task scheduler to create threads and run tasks following the
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// |init_params| specification.
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//
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// If specified, |scheduler_worker_observer| will be notified when a worker
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// enters and exits its main function. It must not be destroyed before
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// JoinForTesting() has returned (must never be destroyed in production).
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//
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// CHECKs on failure.
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virtual void Start(
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const InitParams& init_params,
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SchedulerWorkerObserver* scheduler_worker_observer = nullptr) = 0;
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// Returns a vector of all histograms available in this task scheduler.
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virtual std::vector<const HistogramBase*> GetHistograms() const = 0;
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// Synchronously shuts down the scheduler. Once this is called, only tasks
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// posted with the BLOCK_SHUTDOWN behavior will be run. When this returns:
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// - All SKIP_ON_SHUTDOWN tasks that were already running have completed their
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// execution.
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// - All posted BLOCK_SHUTDOWN tasks have completed their execution.
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// - CONTINUE_ON_SHUTDOWN tasks might still be running.
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// Note that an implementation can keep threads and other resources alive to
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// support running CONTINUE_ON_SHUTDOWN after this returns. This can only be
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// called once.
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virtual void Shutdown() = 0;
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// Waits until there are no pending undelayed tasks. May be called in tests
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// to validate that a condition is met after all undelayed tasks have run.
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//
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// Does not wait for delayed tasks. Waits for undelayed tasks posted from
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// other threads during the call. Returns immediately when shutdown completes.
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virtual void FlushForTesting() = 0;
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// Returns and calls |flush_callback| when there are no incomplete undelayed
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// tasks. |flush_callback| may be called back on any thread and should not
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// perform a lot of work. May be used when additional work on the current
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// thread needs to be performed during a flush. Only one
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// FlushAsyncForTesting() may be pending at any given time.
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virtual void FlushAsyncForTesting(OnceClosure flush_callback) = 0;
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// Joins all threads. Tasks that are already running are allowed to complete
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// their execution. This can only be called once. Using this task scheduler
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// instance to create task runners or post tasks is not permitted during or
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// after this call.
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virtual void JoinForTesting() = 0;
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// CreateAndStartWithDefaultParams(), Create(), and SetInstance() register a
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// TaskScheduler to handle tasks posted through the post_task.h API for this
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// process.
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//
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// Processes that need to initialize TaskScheduler with custom params or that
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// need to allow tasks to be posted before the TaskScheduler creates its
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// threads should use Create() followed by Start(). Other processes can use
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// CreateAndStartWithDefaultParams().
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//
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// A registered TaskScheduler is only deleted when a new TaskScheduler is
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// registered. The last registered TaskScheduler is leaked on shutdown. The
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// methods below must not be called when TaskRunners created by a previous
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// TaskScheduler are still alive. The methods are not thread-safe; proper
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// synchronization is required to use the post_task.h API after registering a
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// new TaskScheduler.
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#if !defined(OS_NACL)
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// Creates and starts a task scheduler using default params. |name| is used to
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// label histograms, it must not be empty. It should identify the component
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// that calls this. Start() is called by this method; it is invalid to call it
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// again afterwards. CHECKs on failure. For tests, prefer
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// base::test::ScopedTaskEnvironment (ensures isolation).
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static void CreateAndStartWithDefaultParams(StringPiece name);
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// Same as CreateAndStartWithDefaultParams() but allows callers to split the
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// Create() and StartWithDefaultParams() calls.
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void StartWithDefaultParams();
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#endif // !defined(OS_NACL)
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// Creates a ready to start task scheduler. |name| is used to label
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// histograms, it must not be empty. It should identify the component that
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// creates the TaskScheduler. The task scheduler doesn't create threads until
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// Start() is called. Tasks can be posted at any time but will not run until
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// after Start() is called. For tests, prefer
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// base::test::ScopedTaskEnvironment (ensures isolation).
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static void Create(StringPiece name);
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// Registers |task_scheduler| to handle tasks posted through the post_task.h
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// API for this process. For tests, prefer base::test::ScopedTaskEnvironment
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// (ensures isolation).
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static void SetInstance(std::unique_ptr<TaskScheduler> task_scheduler);
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// Retrieve the TaskScheduler set via SetInstance() or
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// CreateAndSet(Simple|Default)TaskScheduler(). This should be used very
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// rarely; most users of TaskScheduler should use the post_task.h API. In
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// particular, refrain from doing
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// if (!TaskScheduler::GetInstance()) {
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// TaskScheduler::SetInstance(...);
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// base::PostTask(...);
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// }
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// instead make sure to SetInstance() early in one determinstic place in the
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// process' initialization phase.
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// In doubt, consult with //base/task/task_scheduler/OWNERS.
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static TaskScheduler* GetInstance();
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private:
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friend class gin::V8Platform;
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friend class content::BrowserMainLoopTest_CreateThreadsInSingleProcess_Test;
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// Returns the maximum number of non-single-threaded non-blocked tasks posted
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// with |traits| that can run concurrently in this TaskScheduler. |traits|
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// can't contain TaskPriority::BEST_EFFORT.
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//
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// Do not use this method. To process n items, post n tasks that each process
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// 1 item rather than GetMaxConcurrentNonBlockedTasksWithTraitsDeprecated()
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// tasks that each process
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// n/GetMaxConcurrentNonBlockedTasksWithTraitsDeprecated() items.
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//
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// TODO(fdoray): Remove this method. https://crbug.com/687264
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virtual int GetMaxConcurrentNonBlockedTasksWithTraitsDeprecated(
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const TaskTraits& traits) const = 0;
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// Enables/disables an execution fence that prevents tasks from running.
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virtual void SetExecutionFenceEnabled(bool execution_fence_enabled) = 0;
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};
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} // namespace base
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#endif // BASE_TASK_TASK_SCHEDULER_TASK_SCHEDULER_H_
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