// Copyright 2016 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/task/thread_pool/thread_pool_instance.h" #include #include #include "base/check.h" #include "base/memory/ptr_util.h" #include "base/system/sys_info.h" #include "base/task/thread_pool/thread_pool_impl.h" #include "base/threading/platform_thread.h" #include "base/time/time.h" #include "build/build_config.h" namespace base { namespace { // |g_thread_pool| is intentionally leaked on shutdown. ThreadPoolInstance* g_thread_pool = nullptr; size_t GetDefaultMaxNumUtilityThreads(size_t max_num_foreground_threads_in) { int num_of_efficient_processors = SysInfo::NumberOfEfficientProcessors(); if (num_of_efficient_processors != 0) { DCHECK_GT(num_of_efficient_processors, 0); return std::max( 2, std::min(max_num_foreground_threads_in, static_cast(num_of_efficient_processors))); } return std::max(2, max_num_foreground_threads_in / 2); } } // namespace ThreadPoolInstance::InitParams::InitParams(size_t max_num_foreground_threads_in) : max_num_foreground_threads(max_num_foreground_threads_in), max_num_utility_threads( GetDefaultMaxNumUtilityThreads(max_num_foreground_threads_in)) {} ThreadPoolInstance::InitParams::InitParams(size_t max_num_foreground_threads_in, size_t max_num_utility_threads_in) : max_num_foreground_threads(max_num_foreground_threads_in), max_num_utility_threads(max_num_utility_threads_in) {} ThreadPoolInstance::InitParams::~InitParams() = default; ThreadPoolInstance::ScopedExecutionFence::ScopedExecutionFence() { DCHECK(g_thread_pool); g_thread_pool->BeginFence(); } ThreadPoolInstance::ScopedExecutionFence::~ScopedExecutionFence() { DCHECK(g_thread_pool); g_thread_pool->EndFence(); } ThreadPoolInstance::ScopedBestEffortExecutionFence:: ScopedBestEffortExecutionFence() { DCHECK(g_thread_pool); g_thread_pool->BeginBestEffortFence(); } ThreadPoolInstance::ScopedBestEffortExecutionFence:: ~ScopedBestEffortExecutionFence() { DCHECK(g_thread_pool); g_thread_pool->EndBestEffortFence(); } ThreadPoolInstance::ScopedRestrictedTasks::ScopedRestrictedTasks() { DCHECK(g_thread_pool); g_thread_pool->BeginRestrictedTasks(); } ThreadPoolInstance::ScopedRestrictedTasks::~ScopedRestrictedTasks() { DCHECK(g_thread_pool); g_thread_pool->EndRestrictedTasks(); } ThreadPoolInstance::ScopedFizzleBlockShutdownTasks:: ScopedFizzleBlockShutdownTasks() { // It's possible for this to be called without a ThreadPool present in tests. if (g_thread_pool) g_thread_pool->BeginFizzlingBlockShutdownTasks(); } ThreadPoolInstance::ScopedFizzleBlockShutdownTasks:: ~ScopedFizzleBlockShutdownTasks() { // It's possible for this to be called without a ThreadPool present in tests. if (g_thread_pool) g_thread_pool->EndFizzlingBlockShutdownTasks(); } #if !BUILDFLAG(IS_NACL) // static void ThreadPoolInstance::CreateAndStartWithDefaultParams( std::string_view name) { Create(name); g_thread_pool->StartWithDefaultParams(); } void ThreadPoolInstance::StartWithDefaultParams() { // Values were chosen so that: // * There are few background threads. // * Background threads never outnumber foreground threads. // * The system is utilized maximally by foreground threads. // * The main thread is assumed to be busy, cap foreground workers at // |num_cores - 1|. const size_t max_num_foreground_threads = static_cast(std::max(3, SysInfo::NumberOfProcessors() - 1)); Start({max_num_foreground_threads}); } #endif // !BUILDFLAG(IS_NACL) void ThreadPoolInstance::Create(std::string_view name) { Set(std::make_unique(name)); } // static void ThreadPoolInstance::Set(std::unique_ptr thread_pool) { delete g_thread_pool; g_thread_pool = thread_pool.release(); } // static ThreadPoolInstance* ThreadPoolInstance::Get() { return g_thread_pool; } } // namespace base