mirror of
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241 lines
8.4 KiB
Plaintext
241 lines
8.4 KiB
Plaintext
// 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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#include "base/threading/platform_thread.h"
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#import <Foundation/Foundation.h>
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#include <mach/mach.h>
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#include <mach/mach_time.h>
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#include <mach/thread_policy.h>
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#include <stddef.h>
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#include <sys/resource.h>
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#include <algorithm>
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/mac/foundation_util.h"
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#include "base/mac/mach_logging.h"
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#include "base/threading/thread_id_name_manager.h"
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#include "build/build_config.h"
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namespace base {
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namespace {
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NSString* const kThreadPriorityKey = @"CrThreadPriorityKey";
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} // namespace
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// If Cocoa is to be used on more than one thread, it must know that the
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// application is multithreaded. Since it's possible to enter Cocoa code
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// from threads created by pthread_thread_create, Cocoa won't necessarily
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// be aware that the application is multithreaded. Spawning an NSThread is
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// enough to get Cocoa to set up for multithreaded operation, so this is done
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// if necessary before pthread_thread_create spawns any threads.
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//
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// http://developer.apple.com/documentation/Cocoa/Conceptual/Multithreading/CreatingThreads/chapter_4_section_4.html
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void InitThreading() {
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static BOOL multithreaded = [NSThread isMultiThreaded];
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if (!multithreaded) {
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// +[NSObject class] is idempotent.
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[NSThread detachNewThreadSelector:@selector(class)
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toTarget:[NSObject class]
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withObject:nil];
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multithreaded = YES;
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DCHECK([NSThread isMultiThreaded]);
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}
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}
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// static
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void PlatformThread::SetName(const std::string& name) {
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ThreadIdNameManager::GetInstance()->SetName(name);
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// Mac OS X does not expose the length limit of the name, so
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// hardcode it.
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const int kMaxNameLength = 63;
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std::string shortened_name = name.substr(0, kMaxNameLength);
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// pthread_setname() fails (harmlessly) in the sandbox, ignore when it does.
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// See http://crbug.com/47058
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pthread_setname_np(shortened_name.c_str());
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}
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namespace {
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// Enables time-contraint policy and priority suitable for low-latency,
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// glitch-resistant audio.
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void SetPriorityRealtimeAudio() {
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// Increase thread priority to real-time.
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// Please note that the thread_policy_set() calls may fail in
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// rare cases if the kernel decides the system is under heavy load
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// and is unable to handle boosting the thread priority.
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// In these cases we just return early and go on with life.
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mach_port_t mach_thread_id =
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pthread_mach_thread_np(PlatformThread::CurrentHandle().platform_handle());
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// Make thread fixed priority.
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thread_extended_policy_data_t policy;
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policy.timeshare = 0; // Set to 1 for a non-fixed thread.
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kern_return_t result =
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thread_policy_set(mach_thread_id,
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THREAD_EXTENDED_POLICY,
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reinterpret_cast<thread_policy_t>(&policy),
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THREAD_EXTENDED_POLICY_COUNT);
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if (result != KERN_SUCCESS) {
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MACH_DVLOG(1, result) << "thread_policy_set";
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return;
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}
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// Set to relatively high priority.
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thread_precedence_policy_data_t precedence;
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precedence.importance = 63;
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result = thread_policy_set(mach_thread_id,
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THREAD_PRECEDENCE_POLICY,
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reinterpret_cast<thread_policy_t>(&precedence),
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THREAD_PRECEDENCE_POLICY_COUNT);
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if (result != KERN_SUCCESS) {
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MACH_DVLOG(1, result) << "thread_policy_set";
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return;
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}
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// Most important, set real-time constraints.
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// Define the guaranteed and max fraction of time for the audio thread.
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// These "duty cycle" values can range from 0 to 1. A value of 0.5
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// means the scheduler would give half the time to the thread.
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// These values have empirically been found to yield good behavior.
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// Good means that audio performance is high and other threads won't starve.
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const double kGuaranteedAudioDutyCycle = 0.75;
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const double kMaxAudioDutyCycle = 0.85;
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// Define constants determining how much time the audio thread can
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// use in a given time quantum. All times are in milliseconds.
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// About 128 frames @44.1KHz
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const double kTimeQuantum = 2.9;
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// Time guaranteed each quantum.
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const double kAudioTimeNeeded = kGuaranteedAudioDutyCycle * kTimeQuantum;
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// Maximum time each quantum.
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const double kMaxTimeAllowed = kMaxAudioDutyCycle * kTimeQuantum;
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// Get the conversion factor from milliseconds to absolute time
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// which is what the time-constraints call needs.
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mach_timebase_info_data_t tb_info;
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mach_timebase_info(&tb_info);
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double ms_to_abs_time =
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(static_cast<double>(tb_info.denom) / tb_info.numer) * 1000000;
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thread_time_constraint_policy_data_t time_constraints;
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time_constraints.period = kTimeQuantum * ms_to_abs_time;
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time_constraints.computation = kAudioTimeNeeded * ms_to_abs_time;
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time_constraints.constraint = kMaxTimeAllowed * ms_to_abs_time;
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time_constraints.preemptible = 0;
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result =
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thread_policy_set(mach_thread_id,
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THREAD_TIME_CONSTRAINT_POLICY,
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reinterpret_cast<thread_policy_t>(&time_constraints),
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THREAD_TIME_CONSTRAINT_POLICY_COUNT);
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MACH_DVLOG_IF(1, result != KERN_SUCCESS, result) << "thread_policy_set";
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return;
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}
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} // anonymous namespace
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// static
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bool PlatformThread::CanIncreaseCurrentThreadPriority() {
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return true;
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}
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// static
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void PlatformThread::SetCurrentThreadPriority(ThreadPriority priority) {
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// Changing the priority of the main thread causes performance regressions.
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// https://crbug.com/601270
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DCHECK(![[NSThread currentThread] isMainThread]);
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switch (priority) {
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case ThreadPriority::BACKGROUND:
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[[NSThread currentThread] setThreadPriority:0];
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break;
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case ThreadPriority::NORMAL:
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case ThreadPriority::DISPLAY:
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[[NSThread currentThread] setThreadPriority:0.5];
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break;
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case ThreadPriority::REALTIME_AUDIO:
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SetPriorityRealtimeAudio();
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DCHECK_EQ([[NSThread currentThread] threadPriority], 1.0);
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break;
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}
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[[[NSThread currentThread] threadDictionary]
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setObject:@(static_cast<int>(priority))
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forKey:kThreadPriorityKey];
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}
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// static
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ThreadPriority PlatformThread::GetCurrentThreadPriority() {
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NSNumber* priority = base::mac::ObjCCast<NSNumber>([[[NSThread currentThread]
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threadDictionary] objectForKey:kThreadPriorityKey]);
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if (!priority)
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return ThreadPriority::NORMAL;
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ThreadPriority thread_priority =
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static_cast<ThreadPriority>(priority.intValue);
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switch (thread_priority) {
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case ThreadPriority::BACKGROUND:
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case ThreadPriority::NORMAL:
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case ThreadPriority::DISPLAY:
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case ThreadPriority::REALTIME_AUDIO:
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return thread_priority;
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default:
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NOTREACHED() << "Unknown priority.";
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return ThreadPriority::NORMAL;
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}
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}
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size_t GetDefaultThreadStackSize(const pthread_attr_t& attributes) {
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#if defined(OS_IOS)
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return 0;
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#else
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// The Mac OS X default for a pthread stack size is 512kB.
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// Libc-594.1.4/pthreads/pthread.c's pthread_attr_init uses
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// DEFAULT_STACK_SIZE for this purpose.
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//
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// 512kB isn't quite generous enough for some deeply recursive threads that
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// otherwise request the default stack size by specifying 0. Here, adopt
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// glibc's behavior as on Linux, which is to use the current stack size
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// limit (ulimit -s) as the default stack size. See
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// glibc-2.11.1/nptl/nptl-init.c's __pthread_initialize_minimal_internal. To
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// avoid setting the limit below the Mac OS X default or the minimum usable
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// stack size, these values are also considered. If any of these values
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// can't be determined, or if stack size is unlimited (ulimit -s unlimited),
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// stack_size is left at 0 to get the system default.
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//
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// Mac OS X normally only applies ulimit -s to the main thread stack. On
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// contemporary OS X and Linux systems alike, this value is generally 8MB
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// or in that neighborhood.
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size_t default_stack_size = 0;
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struct rlimit stack_rlimit;
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if (pthread_attr_getstacksize(&attributes, &default_stack_size) == 0 &&
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getrlimit(RLIMIT_STACK, &stack_rlimit) == 0 &&
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stack_rlimit.rlim_cur != RLIM_INFINITY) {
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default_stack_size =
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std::max(std::max(default_stack_size,
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static_cast<size_t>(PTHREAD_STACK_MIN)),
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static_cast<size_t>(stack_rlimit.rlim_cur));
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}
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return default_stack_size;
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#endif
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}
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void TerminateOnThread() {
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}
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} // namespace base
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