// Copyright 2016 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. #include "base/task_scheduler/task_scheduler_impl.h" #include #include #include #include "base/compiler_specific.h" #include "base/message_loop/message_loop.h" #include "base/metrics/field_trial_params.h" #include "base/stl_util.h" #include "base/strings/string_util.h" #include "base/task_scheduler/delayed_task_manager.h" #include "base/task_scheduler/environment_config.h" #include "base/task_scheduler/scheduler_worker_pool_params.h" #include "base/task_scheduler/sequence.h" #include "base/task_scheduler/sequence_sort_key.h" #include "base/task_scheduler/service_thread.h" #include "base/task_scheduler/task.h" #include "base/task_scheduler/task_tracker.h" #include "base/time/time.h" namespace base { namespace internal { TaskSchedulerImpl::TaskSchedulerImpl(StringPiece histogram_label) : TaskSchedulerImpl(histogram_label, std::make_unique(histogram_label)) {} TaskSchedulerImpl::TaskSchedulerImpl( StringPiece histogram_label, std::unique_ptr task_tracker) : task_tracker_(std::move(task_tracker)), service_thread_(std::make_unique(task_tracker_.get())), single_thread_task_runner_manager_(task_tracker_->GetTrackedRef(), &delayed_task_manager_) { DCHECK(!histogram_label.empty()); static_assert(arraysize(environment_to_worker_pool_) == ENVIRONMENT_COUNT, "The size of |environment_to_worker_pool_| must match " "ENVIRONMENT_COUNT."); static_assert( size(kEnvironmentParams) == ENVIRONMENT_COUNT, "The size of |kEnvironmentParams| must match ENVIRONMENT_COUNT."); int num_pools_to_create = CanUseBackgroundPriorityForSchedulerWorker() ? ENVIRONMENT_COUNT : ENVIRONMENT_COUNT_WITHOUT_BACKGROUND_PRIORITY; for (int environment_type = 0; environment_type < num_pools_to_create; ++environment_type) { worker_pools_.emplace_back(std::make_unique( JoinString( {histogram_label, kEnvironmentParams[environment_type].name_suffix}, "."), kEnvironmentParams[environment_type].name_suffix, kEnvironmentParams[environment_type].priority_hint, task_tracker_->GetTrackedRef(), &delayed_task_manager_)); } // Map environment indexes to pools. environment_to_worker_pool_[FOREGROUND] = worker_pools_[FOREGROUND].get(); environment_to_worker_pool_[FOREGROUND_BLOCKING] = worker_pools_[FOREGROUND_BLOCKING].get(); if (CanUseBackgroundPriorityForSchedulerWorker()) { environment_to_worker_pool_[BACKGROUND] = worker_pools_[BACKGROUND].get(); environment_to_worker_pool_[BACKGROUND_BLOCKING] = worker_pools_[BACKGROUND_BLOCKING].get(); } else { // On platforms without background thread priority, tasks posted to the // background environment are run by foreground pools. environment_to_worker_pool_[BACKGROUND] = worker_pools_[FOREGROUND].get(); environment_to_worker_pool_[BACKGROUND_BLOCKING] = worker_pools_[FOREGROUND_BLOCKING].get(); } } TaskSchedulerImpl::~TaskSchedulerImpl() { #if DCHECK_IS_ON() DCHECK(join_for_testing_returned_.IsSet()); #endif } void TaskSchedulerImpl::Start( const TaskScheduler::InitParams& init_params, SchedulerWorkerObserver* scheduler_worker_observer) { // This is set in Start() and not in the constructor because variation params // are usually not ready when TaskSchedulerImpl is instantiated in a process. if (base::GetFieldTrialParamValue("BrowserScheduler", "AllTasksUserBlocking") == "true") { all_tasks_user_blocking_.Set(); } // Start the service thread. On platforms that support it (POSIX except NaCL // SFI), the service thread runs a MessageLoopForIO which is used to support // FileDescriptorWatcher in the scope in which tasks run. ServiceThread::Options service_thread_options; service_thread_options.message_loop_type = #if defined(OS_POSIX) && !defined(OS_NACL_SFI) MessageLoop::TYPE_IO; #else MessageLoop::TYPE_DEFAULT; #endif service_thread_options.timer_slack = TIMER_SLACK_MAXIMUM; CHECK(service_thread_->StartWithOptions(service_thread_options)); #if defined(OS_POSIX) && !defined(OS_NACL_SFI) // Needs to happen after starting the service thread to get its // message_loop(). task_tracker_->set_watch_file_descriptor_message_loop( static_cast(service_thread_->message_loop())); #if DCHECK_IS_ON() task_tracker_->set_service_thread_handle(service_thread_->GetThreadHandle()); #endif // DCHECK_IS_ON() #endif // defined(OS_POSIX) && !defined(OS_NACL_SFI) // Needs to happen after starting the service thread to get its task_runner(). scoped_refptr service_thread_task_runner = service_thread_->task_runner(); delayed_task_manager_.Start(service_thread_task_runner); single_thread_task_runner_manager_.Start(scheduler_worker_observer); const SchedulerWorkerPoolImpl::WorkerEnvironment worker_environment = #if defined(OS_WIN) init_params.shared_worker_pool_environment == InitParams::SharedWorkerPoolEnvironment::COM_MTA ? SchedulerWorkerPoolImpl::WorkerEnvironment::COM_MTA : SchedulerWorkerPoolImpl::WorkerEnvironment::NONE; #else SchedulerWorkerPoolImpl::WorkerEnvironment::NONE; #endif // On platforms that can't use the background thread priority, background // tasks run in foreground pools. A cap is set on the number of background // tasks that can run in foreground pools to ensure that there is always room // for incoming foreground tasks and to minimize the performance impact of // background tasks. const int max_background_tasks_in_foreground_pool = std::max( 1, std::min(init_params.background_worker_pool_params.max_tasks(), init_params.foreground_worker_pool_params.max_tasks() / 2)); worker_pools_[FOREGROUND]->Start( init_params.foreground_worker_pool_params, max_background_tasks_in_foreground_pool, service_thread_task_runner, scheduler_worker_observer, worker_environment); const int max_background_tasks_in_foreground_blocking_pool = std::max( 1, std::min( init_params.background_blocking_worker_pool_params.max_tasks(), init_params.foreground_blocking_worker_pool_params.max_tasks() / 2)); worker_pools_[FOREGROUND_BLOCKING]->Start( init_params.foreground_blocking_worker_pool_params, max_background_tasks_in_foreground_blocking_pool, service_thread_task_runner, scheduler_worker_observer, worker_environment); if (CanUseBackgroundPriorityForSchedulerWorker()) { worker_pools_[BACKGROUND]->Start( init_params.background_worker_pool_params, init_params.background_worker_pool_params.max_tasks(), service_thread_task_runner, scheduler_worker_observer, worker_environment); worker_pools_[BACKGROUND_BLOCKING]->Start( init_params.background_blocking_worker_pool_params, init_params.background_blocking_worker_pool_params.max_tasks(), service_thread_task_runner, scheduler_worker_observer, worker_environment); } } void TaskSchedulerImpl::PostDelayedTaskWithTraits(const Location& from_here, const TaskTraits& traits, OnceClosure task, TimeDelta delay) { // Post |task| as part of a one-off single-task Sequence. const TaskTraits new_traits = SetUserBlockingPriorityIfNeeded(traits); GetWorkerPoolForTraits(new_traits) ->PostTaskWithSequence( Task(from_here, std::move(task), new_traits, delay), MakeRefCounted()); } scoped_refptr TaskSchedulerImpl::CreateTaskRunnerWithTraits( const TaskTraits& traits) { const TaskTraits new_traits = SetUserBlockingPriorityIfNeeded(traits); return GetWorkerPoolForTraits(new_traits) ->CreateTaskRunnerWithTraits(new_traits); } scoped_refptr TaskSchedulerImpl::CreateSequencedTaskRunnerWithTraits( const TaskTraits& traits) { const TaskTraits new_traits = SetUserBlockingPriorityIfNeeded(traits); return GetWorkerPoolForTraits(new_traits) ->CreateSequencedTaskRunnerWithTraits(new_traits); } scoped_refptr TaskSchedulerImpl::CreateSingleThreadTaskRunnerWithTraits( const TaskTraits& traits, SingleThreadTaskRunnerThreadMode thread_mode) { return single_thread_task_runner_manager_ .CreateSingleThreadTaskRunnerWithTraits( SetUserBlockingPriorityIfNeeded(traits), thread_mode); } #if defined(OS_WIN) scoped_refptr TaskSchedulerImpl::CreateCOMSTATaskRunnerWithTraits( const TaskTraits& traits, SingleThreadTaskRunnerThreadMode thread_mode) { return single_thread_task_runner_manager_.CreateCOMSTATaskRunnerWithTraits( SetUserBlockingPriorityIfNeeded(traits), thread_mode); } #endif // defined(OS_WIN) std::vector TaskSchedulerImpl::GetHistograms() const { std::vector histograms; for (const auto& worker_pool : worker_pools_) worker_pool->GetHistograms(&histograms); return histograms; } int TaskSchedulerImpl::GetMaxConcurrentNonBlockedTasksWithTraitsDeprecated( const TaskTraits& traits) const { // This method does not support getting the maximum number of BACKGROUND tasks // that can run concurrently in a pool. DCHECK_NE(traits.priority(), TaskPriority::BACKGROUND); return GetWorkerPoolForTraits(traits) ->GetMaxConcurrentNonBlockedTasksDeprecated(); } void TaskSchedulerImpl::Shutdown() { // TODO(fdoray): Increase the priority of BACKGROUND tasks blocking shutdown. task_tracker_->Shutdown(); } void TaskSchedulerImpl::FlushForTesting() { task_tracker_->FlushForTesting(); } void TaskSchedulerImpl::FlushAsyncForTesting(OnceClosure flush_callback) { task_tracker_->FlushAsyncForTesting(std::move(flush_callback)); } void TaskSchedulerImpl::JoinForTesting() { #if DCHECK_IS_ON() DCHECK(!join_for_testing_returned_.IsSet()); #endif // The service thread must be stopped before the workers are joined, otherwise // tasks scheduled by the DelayedTaskManager might be posted between joining // those workers and stopping the service thread which will cause a CHECK. See // https://crbug.com/771701. service_thread_->Stop(); single_thread_task_runner_manager_.JoinForTesting(); for (const auto& worker_pool : worker_pools_) worker_pool->JoinForTesting(); #if DCHECK_IS_ON() join_for_testing_returned_.Set(); #endif } SchedulerWorkerPoolImpl* TaskSchedulerImpl::GetWorkerPoolForTraits( const TaskTraits& traits) const { return environment_to_worker_pool_[GetEnvironmentIndexForTraits(traits)]; } TaskTraits TaskSchedulerImpl::SetUserBlockingPriorityIfNeeded( const TaskTraits& traits) const { return all_tasks_user_blocking_.IsSet() ? TaskTraits::Override(traits, {TaskPriority::USER_BLOCKING}) : traits; } } // namespace internal } // namespace base