shaka-packager/base/threading/platform_thread_mac.mm

// Copyright (c) 2012 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/threading/platform_thread.h"

#import <Foundation/Foundation.h>
#include <algorithm>
#include <dlfcn.h>
#include <mach/mach.h>
#include <mach/mach_time.h>
#include <mach/thread_policy.h>
#include <sys/resource.h>

#include "base/lazy_instance.h"
#include "base/logging.h"
#include "base/threading/thread_id_name_manager.h"
#include "base/tracked_objects.h"

namespace base {

// If Cocoa is to be used on more than one thread, it must know that the
// application is multithreaded.  Since it's possible to enter Cocoa code
// from threads created by pthread_thread_create, Cocoa won't necessarily
// be aware that the application is multithreaded.  Spawning an NSThread is
// enough to get Cocoa to set up for multithreaded operation, so this is done
// if necessary before pthread_thread_create spawns any threads.
//
// http://developer.apple.com/documentation/Cocoa/Conceptual/Multithreading/CreatingThreads/chapter_4_section_4.html
void InitThreading() {
  static BOOL multithreaded = [NSThread isMultiThreaded];
  if (!multithreaded) {
    // +[NSObject class] is idempotent.
    [NSThread detachNewThreadSelector:@selector(class)
                             toTarget:[NSObject class]
                           withObject:nil];
    multithreaded = YES;

    DCHECK([NSThread isMultiThreaded]);
  }
}

// static
void PlatformThread::SetName(const char* name) {
  ThreadIdNameManager::GetInstance()->SetName(CurrentId(), name);
  tracked_objects::ThreadData::InitializeThreadContext(name);

  // pthread_setname_np is only available in 10.6 or later, so test
  // for it at runtime.
  int (*dynamic_pthread_setname_np)(const char*);
  *reinterpret_cast<void**>(&dynamic_pthread_setname_np) =
      dlsym(RTLD_DEFAULT, "pthread_setname_np");
  if (!dynamic_pthread_setname_np)
    return;

  // Mac OS X does not expose the length limit of the name, so
  // hardcode it.
  const int kMaxNameLength = 63;
  std::string shortened_name = std::string(name).substr(0, kMaxNameLength);
  // pthread_setname() fails (harmlessly) in the sandbox, ignore when it does.
  // See http://crbug.com/47058
  dynamic_pthread_setname_np(shortened_name.c_str());
}

namespace {

void SetPriorityNormal(mach_port_t mach_thread_id) {
  // Make thread standard policy.
  // Please note that this call could fail in rare cases depending
  // on runtime conditions.
  thread_standard_policy policy;
  kern_return_t result = thread_policy_set(mach_thread_id,
                                           THREAD_STANDARD_POLICY,
                                           (thread_policy_t)&policy,
                                           THREAD_STANDARD_POLICY_COUNT);

  if (result != KERN_SUCCESS)
    DVLOG(1) << "thread_policy_set() failure: " << result;
}

// Enables time-contraint policy and priority suitable for low-latency,
// glitch-resistant audio.
void SetPriorityRealtimeAudio(mach_port_t mach_thread_id) {
  kern_return_t result;

  // Increase thread priority to real-time.

  // Please note that the thread_policy_set() calls may fail in
  // rare cases if the kernel decides the system is under heavy load
  // and is unable to handle boosting the thread priority.
  // In these cases we just return early and go on with life.

  // Make thread fixed priority.
  thread_extended_policy_data_t policy;
  policy.timeshare = 0;  // Set to 1 for a non-fixed thread.
  result = thread_policy_set(mach_thread_id,
                             THREAD_EXTENDED_POLICY,
                             (thread_policy_t)&policy,
                             THREAD_EXTENDED_POLICY_COUNT);
  if (result != KERN_SUCCESS) {
    DVLOG(1) << "thread_policy_set() failure: " << result;
    return;
  }

  // Set to relatively high priority.
  thread_precedence_policy_data_t precedence;
  precedence.importance = 63;
  result = thread_policy_set(mach_thread_id,
                             THREAD_PRECEDENCE_POLICY,
                             (thread_policy_t)&precedence,
                             THREAD_PRECEDENCE_POLICY_COUNT);
  if (result != KERN_SUCCESS) {
    DVLOG(1) << "thread_policy_set() failure: " << result;
    return;
  }

  // Most important, set real-time constraints.

  // Define the guaranteed and max fraction of time for the audio thread.
  // These "duty cycle" values can range from 0 to 1.  A value of 0.5
  // means the scheduler would give half the time to the thread.
  // These values have empirically been found to yield good behavior.
  // Good means that audio performance is high and other threads won't starve.
  const double kGuaranteedAudioDutyCycle = 0.75;
  const double kMaxAudioDutyCycle = 0.85;

  // Define constants determining how much time the audio thread can
  // use in a given time quantum.  All times are in milliseconds.

  // About 128 frames @44.1KHz
  const double kTimeQuantum = 2.9;

  // Time guaranteed each quantum.
  const double kAudioTimeNeeded = kGuaranteedAudioDutyCycle * kTimeQuantum;

  // Maximum time each quantum.
  const double kMaxTimeAllowed = kMaxAudioDutyCycle * kTimeQuantum;

  // Get the conversion factor from milliseconds to absolute time
  // which is what the time-constraints call needs.
  mach_timebase_info_data_t tb_info;
  mach_timebase_info(&tb_info);
  double ms_to_abs_time =
      ((double)tb_info.denom / (double)tb_info.numer) * 1000000;

  thread_time_constraint_policy_data_t time_constraints;
  time_constraints.period = kTimeQuantum * ms_to_abs_time;
  time_constraints.computation = kAudioTimeNeeded * ms_to_abs_time;
  time_constraints.constraint = kMaxTimeAllowed * ms_to_abs_time;
  time_constraints.preemptible = 0;

  result = thread_policy_set(mach_thread_id,
                             THREAD_TIME_CONSTRAINT_POLICY,
                             (thread_policy_t)&time_constraints,
                             THREAD_TIME_CONSTRAINT_POLICY_COUNT);
  if (result != KERN_SUCCESS)
    DVLOG(1) << "thread_policy_set() failure: " << result;

  return;
}

}  // anonymous namespace

// static
void PlatformThread::SetThreadPriority(PlatformThreadHandle handle,
                                       ThreadPriority priority) {
  // Convert from pthread_t to mach thread identifier.
  mach_port_t mach_thread_id = pthread_mach_thread_np(handle.handle_);

  switch (priority) {
    case kThreadPriority_Normal:
      SetPriorityNormal(mach_thread_id);
      break;
    case kThreadPriority_RealtimeAudio:
      SetPriorityRealtimeAudio(mach_thread_id);
      break;
    default:
      NOTREACHED() << "Unknown priority.";
      break;
  }
}

size_t GetDefaultThreadStackSize(const pthread_attr_t& attributes) {
#if defined(OS_IOS)
  return 0;
#else
  // The Mac OS X default for a pthread stack size is 512kB.
  // Libc-594.1.4/pthreads/pthread.c's pthread_attr_init uses
  // DEFAULT_STACK_SIZE for this purpose.
  //
  // 512kB isn't quite generous enough for some deeply recursive threads that
  // otherwise request the default stack size by specifying 0. Here, adopt
  // glibc's behavior as on Linux, which is to use the current stack size
  // limit (ulimit -s) as the default stack size. See
  // glibc-2.11.1/nptl/nptl-init.c's __pthread_initialize_minimal_internal. To
  // avoid setting the limit below the Mac OS X default or the minimum usable
  // stack size, these values are also considered. If any of these values
  // can't be determined, or if stack size is unlimited (ulimit -s unlimited),
  // stack_size is left at 0 to get the system default.
  //
  // Mac OS X normally only applies ulimit -s to the main thread stack. On
  // contemporary OS X and Linux systems alike, this value is generally 8MB
  // or in that neighborhood.
  size_t default_stack_size = 0;
  struct rlimit stack_rlimit;
  if (pthread_attr_getstacksize(&attributes, &default_stack_size) == 0 &&
      getrlimit(RLIMIT_STACK, &stack_rlimit) == 0 &&
      stack_rlimit.rlim_cur != RLIM_INFINITY) {
    default_stack_size =
        std::max(std::max(default_stack_size,
                          static_cast<size_t>(PTHREAD_STACK_MIN)),
                 static_cast<size_t>(stack_rlimit.rlim_cur));
  }
  return default_stack_size;
#endif
}

void InitOnThread() {
}

void TerminateOnThread() {
}

}  // namespace base
Start with media/mp4, media/webm and base codes from Chromium. 2013-09-24 01:35:40 +00:00			`// Copyright (c) 2012 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/threading/platform_thread.h"`

			`#import <Foundation/Foundation.h>`
			`#include <algorithm>`
			`#include <dlfcn.h>`
			`#include <mach/mach.h>`
			`#include <mach/mach_time.h>`
			`#include <mach/thread_policy.h>`
			`#include <sys/resource.h>`

			`#include "base/lazy_instance.h"`
			`#include "base/logging.h"`
			`#include "base/threading/thread_id_name_manager.h"`
			`#include "base/tracked_objects.h"`

			`namespace base {`

			`// If Cocoa is to be used on more than one thread, it must know that the`
			`// application is multithreaded. Since it's possible to enter Cocoa code`
			`// from threads created by pthread_thread_create, Cocoa won't necessarily`
			`// be aware that the application is multithreaded. Spawning an NSThread is`
			`// enough to get Cocoa to set up for multithreaded operation, so this is done`
			`// if necessary before pthread_thread_create spawns any threads.`
			`//`
			`// http://developer.apple.com/documentation/Cocoa/Conceptual/Multithreading/CreatingThreads/chapter_4_section_4.html`
			`void InitThreading() {`
			`static BOOL multithreaded = [NSThread isMultiThreaded];`
			`if (!multithreaded) {`
			`// +[NSObject class] is idempotent.`
			`[NSThread detachNewThreadSelector:@selector(class)`
			`toTarget:[NSObject class]`
			`withObject:nil];`
			`multithreaded = YES;`

			`DCHECK([NSThread isMultiThreaded]);`
			`}`
			`}`

			`// static`
			`void PlatformThread::SetName(const char* name) {`
			`ThreadIdNameManager::GetInstance()->SetName(CurrentId(), name);`
			`tracked_objects::ThreadData::InitializeThreadContext(name);`

			`// pthread_setname_np is only available in 10.6 or later, so test`
			`// for it at runtime.`
			`int (dynamic_pthread_setname_np)(const char);`
			`reinterpret_cast<void*>(&dynamic_pthread_setname_np) =`
			`dlsym(RTLD_DEFAULT, "pthread_setname_np");`
			`if (!dynamic_pthread_setname_np)`
			`return;`

			`// Mac OS X does not expose the length limit of the name, so`
			`// hardcode it.`
			`const int kMaxNameLength = 63;`
			`std::string shortened_name = std::string(name).substr(0, kMaxNameLength);`
			`// pthread_setname() fails (harmlessly) in the sandbox, ignore when it does.`
			`// See http://crbug.com/47058`
			`dynamic_pthread_setname_np(shortened_name.c_str());`
			`}`

			`namespace {`

			`void SetPriorityNormal(mach_port_t mach_thread_id) {`
			`// Make thread standard policy.`
			`// Please note that this call could fail in rare cases depending`
			`// on runtime conditions.`
			`thread_standard_policy policy;`
			`kern_return_t result = thread_policy_set(mach_thread_id,`
			`THREAD_STANDARD_POLICY,`
			`(thread_policy_t)&policy,`
			`THREAD_STANDARD_POLICY_COUNT);`

			`if (result != KERN_SUCCESS)`
			`DVLOG(1) << "thread_policy_set() failure: " << result;`
			`}`

			`// Enables time-contraint policy and priority suitable for low-latency,`
			`// glitch-resistant audio.`
			`void SetPriorityRealtimeAudio(mach_port_t mach_thread_id) {`
			`kern_return_t result;`

			`// Increase thread priority to real-time.`

			`// Please note that the thread_policy_set() calls may fail in`
			`// rare cases if the kernel decides the system is under heavy load`
			`// and is unable to handle boosting the thread priority.`
			`// In these cases we just return early and go on with life.`

			`// Make thread fixed priority.`
			`thread_extended_policy_data_t policy;`
			`policy.timeshare = 0; // Set to 1 for a non-fixed thread.`
			`result = thread_policy_set(mach_thread_id,`
			`THREAD_EXTENDED_POLICY,`
			`(thread_policy_t)&policy,`
			`THREAD_EXTENDED_POLICY_COUNT);`
			`if (result != KERN_SUCCESS) {`
			`DVLOG(1) << "thread_policy_set() failure: " << result;`
			`return;`
			`}`

			`// Set to relatively high priority.`
			`thread_precedence_policy_data_t precedence;`
			`precedence.importance = 63;`
			`result = thread_policy_set(mach_thread_id,`
			`THREAD_PRECEDENCE_POLICY,`
			`(thread_policy_t)&precedence,`
			`THREAD_PRECEDENCE_POLICY_COUNT);`
			`if (result != KERN_SUCCESS) {`
			`DVLOG(1) << "thread_policy_set() failure: " << result;`
			`return;`
			`}`

			`// Most important, set real-time constraints.`

			`// Define the guaranteed and max fraction of time for the audio thread.`
			`// These "duty cycle" values can range from 0 to 1. A value of 0.5`
			`// means the scheduler would give half the time to the thread.`
			`// These values have empirically been found to yield good behavior.`
			`// Good means that audio performance is high and other threads won't starve.`
			`const double kGuaranteedAudioDutyCycle = 0.75;`
			`const double kMaxAudioDutyCycle = 0.85;`

			`// Define constants determining how much time the audio thread can`
			`// use in a given time quantum. All times are in milliseconds.`

			`// About 128 frames @44.1KHz`
			`const double kTimeQuantum = 2.9;`

			`// Time guaranteed each quantum.`
			`const double kAudioTimeNeeded = kGuaranteedAudioDutyCycle * kTimeQuantum;`

			`// Maximum time each quantum.`
			`const double kMaxTimeAllowed = kMaxAudioDutyCycle * kTimeQuantum;`

			`// Get the conversion factor from milliseconds to absolute time`
			`// which is what the time-constraints call needs.`
			`mach_timebase_info_data_t tb_info;`
			`mach_timebase_info(&tb_info);`
			`double ms_to_abs_time =`
			`((double)tb_info.denom / (double)tb_info.numer) * 1000000;`

			`thread_time_constraint_policy_data_t time_constraints;`
			`time_constraints.period = kTimeQuantum * ms_to_abs_time;`
			`time_constraints.computation = kAudioTimeNeeded * ms_to_abs_time;`
			`time_constraints.constraint = kMaxTimeAllowed * ms_to_abs_time;`
			`time_constraints.preemptible = 0;`

			`result = thread_policy_set(mach_thread_id,`
			`THREAD_TIME_CONSTRAINT_POLICY,`
			`(thread_policy_t)&time_constraints,`
			`THREAD_TIME_CONSTRAINT_POLICY_COUNT);`
			`if (result != KERN_SUCCESS)`
			`DVLOG(1) << "thread_policy_set() failure: " << result;`

			`return;`
			`}`

			`} // anonymous namespace`

			`// static`
			`void PlatformThread::SetThreadPriority(PlatformThreadHandle handle,`
			`ThreadPriority priority) {`
			`// Convert from pthread_t to mach thread identifier.`
			`mach_port_t mach_thread_id = pthread_mach_thread_np(handle.handle_);`

			`switch (priority) {`
			`case kThreadPriority_Normal:`
			`SetPriorityNormal(mach_thread_id);`
			`break;`
			`case kThreadPriority_RealtimeAudio:`
			`SetPriorityRealtimeAudio(mach_thread_id);`
			`break;`
			`default:`
			`NOTREACHED() << "Unknown priority.";`
			`break;`
			`}`
			`}`

			`size_t GetDefaultThreadStackSize(const pthread_attr_t& attributes) {`
			`#if defined(OS_IOS)`
			`return 0;`
			`#else`
			`// The Mac OS X default for a pthread stack size is 512kB.`
			`// Libc-594.1.4/pthreads/pthread.c's pthread_attr_init uses`
			`// DEFAULT_STACK_SIZE for this purpose.`
			`//`
			`// 512kB isn't quite generous enough for some deeply recursive threads that`
			`// otherwise request the default stack size by specifying 0. Here, adopt`
			`// glibc's behavior as on Linux, which is to use the current stack size`
			`// limit (ulimit -s) as the default stack size. See`
			`// glibc-2.11.1/nptl/nptl-init.c's __pthread_initialize_minimal_internal. To`
			`// avoid setting the limit below the Mac OS X default or the minimum usable`
			`// stack size, these values are also considered. If any of these values`
			`// can't be determined, or if stack size is unlimited (ulimit -s unlimited),`
			`// stack_size is left at 0 to get the system default.`
			`//`
			`// Mac OS X normally only applies ulimit -s to the main thread stack. On`
			`// contemporary OS X and Linux systems alike, this value is generally 8MB`
			`// or in that neighborhood.`
			`size_t default_stack_size = 0;`
			`struct rlimit stack_rlimit;`
			`if (pthread_attr_getstacksize(&attributes, &default_stack_size) == 0 &&`
			`getrlimit(RLIMIT_STACK, &stack_rlimit) == 0 &&`
			`stack_rlimit.rlim_cur != RLIM_INFINITY) {`
			`default_stack_size =`
			`std::max(std::max(default_stack_size,`
			`static_cast<size_t>(PTHREAD_STACK_MIN)),`
			`static_cast<size_t>(stack_rlimit.rlim_cur));`
			`}`
			`return default_stack_size;`
			`#endif`
			`}`

			`void InitOnThread() {`
			`}`

			`void TerminateOnThread() {`
			`}`

			`} // namespace base`