src/base/threading/watchdog.cc - cobalt - Git at Google

 // 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/watchdog.h"

 #include "base/compiler_specific.h"
 #include "base/logging.h"
 #include "base/no_destructor.h"
 #include "base/threading/platform_thread.h"

 namespace base {

 namespace {

 // When the debugger breaks (when we alarm), all the other alarms that are
 // armed will expire (also alarm).  To diminish this effect, we track any
 // delay due to debugger breaks, and we *try* to adjust the effective start
 // time of other alarms to step past the debugging break.
 // Without this safety net, any alarm will typically trigger a host of follow
 // on alarms from callers that specify old times.

 struct StaticData {
   // Lock for access of static data...
   Lock lock;

   // When did we last alarm and get stuck (for a while) in a debugger?
   TimeTicks last_debugged_alarm_time;

   // How long did we sit on a break in the debugger?
   TimeDelta last_debugged_alarm_delay;
 };

 StaticData* GetStaticData() {
   static base::NoDestructor<StaticData> static_data;
   return static_data.get();
 }

 }  // namespace

 // Start thread running in a Disarmed state.
 Watchdog::Watchdog(const TimeDelta& duration,
                    const std::string& thread_watched_name,
                    bool enabled)
   : enabled_(enabled),
     lock_(),
     condition_variable_(&lock_),
     state_(DISARMED),
     duration_(duration),
     thread_watched_name_(thread_watched_name),
     delegate_(this) {
   if (!enabled_)
     return;  // Don't start thread, or doing anything really.
   enabled_ = PlatformThread::Create(0,  // Default stack size.
                                     &delegate_,
                                     &handle_);
   DCHECK(enabled_);
 }

 // Notify watchdog thread, and wait for it to finish up.
 Watchdog::~Watchdog() {
   if (!enabled_)
     return;
   if (!IsJoinable())
     Cleanup();
   PlatformThread::Join(handle_);
 }

 void Watchdog::Cleanup() {
   if (!enabled_)
     return;
   AutoLock lock(lock_);
   state_ = SHUTDOWN;
   condition_variable_.Signal();
 }

 bool Watchdog::IsJoinable() {
   if (!enabled_)
     return true;
   AutoLock lock(lock_);
   return (state_ == JOINABLE);
 }

 void Watchdog::Arm() {
   ArmAtStartTime(TimeTicks::Now());
 }

 void Watchdog::ArmSomeTimeDeltaAgo(const TimeDelta& time_delta) {
   ArmAtStartTime(TimeTicks::Now() - time_delta);
 }

 // Start clock for watchdog.
 void Watchdog::ArmAtStartTime(const TimeTicks start_time) {
   AutoLock lock(lock_);
   start_time_ = start_time;
   state_ = ARMED;
   // Force watchdog to wake up, and go to sleep with the timer ticking with the
   // proper duration.
   condition_variable_.Signal();
 }

 // Disable watchdog so that it won't do anything when time expires.
 void Watchdog::Disarm() {
   AutoLock lock(lock_);
   state_ = DISARMED;
   // We don't need to signal, as the watchdog will eventually wake up, and it
   // will check its state and time, and act accordingly.
 }

 void Watchdog::Alarm() {
   DVLOG(1) << "Watchdog alarmed for " << thread_watched_name_;
 }

 //------------------------------------------------------------------------------
 // Internal private methods that the watchdog thread uses.

 void Watchdog::ThreadDelegate::ThreadMain() {
   SetThreadName();
   TimeDelta remaining_duration;
   StaticData* static_data = GetStaticData();
   while (1) {
     AutoLock lock(watchdog_->lock_);
     while (DISARMED == watchdog_->state_)
       watchdog_->condition_variable_.Wait();
     if (SHUTDOWN == watchdog_->state_) {
       watchdog_->state_ = JOINABLE;
       return;
     }
     DCHECK(ARMED == watchdog_->state_);
     remaining_duration = watchdog_->duration_ -
         (TimeTicks::Now() - watchdog_->start_time_);
     if (remaining_duration.InMilliseconds() > 0) {
       // Spurios wake?  Timer drifts?  Go back to sleep for remaining time.
       watchdog_->condition_variable_.TimedWait(remaining_duration);
       continue;
     }
     // We overslept, so this seems like a real alarm.
     // Watch out for a user that stopped the debugger on a different alarm!
     {
       AutoLock static_lock(static_data->lock);
       if (static_data->last_debugged_alarm_time > watchdog_->start_time_) {
         // False alarm: we started our clock before the debugger break (last
         // alarm time).
         watchdog_->start_time_ += static_data->last_debugged_alarm_delay;
         if (static_data->last_debugged_alarm_time > watchdog_->start_time_)
           // Too many alarms must have taken place.
           watchdog_->state_ = DISARMED;
         continue;
       }
     }
     watchdog_->state_ = DISARMED;  // Only alarm at most once.
     TimeTicks last_alarm_time = TimeTicks::Now();
     {
       AutoUnlock unlock(watchdog_->lock_);
       watchdog_->Alarm();  // Set a break point here to debug on alarms.
     }
     TimeDelta last_alarm_delay = TimeTicks::Now() - last_alarm_time;
     if (last_alarm_delay <= TimeDelta::FromMilliseconds(2))
       continue;
     // Ignore race of two alarms/breaks going off at roughly the same time.
     AutoLock static_lock(static_data->lock);
     // This was a real debugger break.
     static_data->last_debugged_alarm_time = last_alarm_time;
     static_data->last_debugged_alarm_delay = last_alarm_delay;
   }
 }

 void Watchdog::ThreadDelegate::SetThreadName() const {
   std::string name = watchdog_->thread_watched_name_ + " Watchdog";
   PlatformThread::SetName(name);
   DVLOG(1) << "Watchdog active: " << name;
 }

 // static
 void Watchdog::ResetStaticData() {
   StaticData* static_data = GetStaticData();
   AutoLock lock(static_data->lock);
   // See https://crbug.com/734232 for why this cannot be zero-initialized.
   static_data->last_debugged_alarm_time = TimeTicks::Min();
   static_data->last_debugged_alarm_delay = TimeDelta();
 }

 }  // namespace base
	// 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/watchdog.h"

	#include "base/compiler_specific.h"
	#include "base/logging.h"
	#include "base/no_destructor.h"
	#include "base/threading/platform_thread.h"

	namespace base {

	namespace {

	// When the debugger breaks (when we alarm), all the other alarms that are
	// armed will expire (also alarm). To diminish this effect, we track any
	// delay due to debugger breaks, and we try to adjust the effective start
	// time of other alarms to step past the debugging break.
	// Without this safety net, any alarm will typically trigger a host of follow
	// on alarms from callers that specify old times.

	struct StaticData {
	// Lock for access of static data...
	Lock lock;

	// When did we last alarm and get stuck (for a while) in a debugger?
	TimeTicks last_debugged_alarm_time;

	// How long did we sit on a break in the debugger?
	TimeDelta last_debugged_alarm_delay;
	};

	StaticData* GetStaticData() {
	static base::NoDestructor<StaticData> static_data;
	return static_data.get();
	}

	} // namespace

	// Start thread running in a Disarmed state.
	Watchdog::Watchdog(const TimeDelta& duration,
	const std::string& thread_watched_name,
	bool enabled)
	: enabled_(enabled),
	lock_(),
	condition_variable_(&lock_),
	state_(DISARMED),
	duration_(duration),
	thread_watched_name_(thread_watched_name),
	delegate_(this) {
	if (!enabled_)
	return; // Don't start thread, or doing anything really.
	enabled_ = PlatformThread::Create(0, // Default stack size.
	&delegate_,
	&handle_);
	DCHECK(enabled_);
	}

	// Notify watchdog thread, and wait for it to finish up.
	Watchdog::~Watchdog() {
	if (!enabled_)
	return;
	if (!IsJoinable())
	Cleanup();
	PlatformThread::Join(handle_);
	}

	void Watchdog::Cleanup() {
	if (!enabled_)
	return;
	AutoLock lock(lock_);
	state_ = SHUTDOWN;
	condition_variable_.Signal();
	}

	bool Watchdog::IsJoinable() {
	if (!enabled_)
	return true;
	AutoLock lock(lock_);
	return (state_ == JOINABLE);
	}

	void Watchdog::Arm() {
	ArmAtStartTime(TimeTicks::Now());
	}

	void Watchdog::ArmSomeTimeDeltaAgo(const TimeDelta& time_delta) {
	ArmAtStartTime(TimeTicks::Now() - time_delta);
	}

	// Start clock for watchdog.
	void Watchdog::ArmAtStartTime(const TimeTicks start_time) {
	AutoLock lock(lock_);
	start_time_ = start_time;
	state_ = ARMED;
	// Force watchdog to wake up, and go to sleep with the timer ticking with the
	// proper duration.
	condition_variable_.Signal();
	}

	// Disable watchdog so that it won't do anything when time expires.
	void Watchdog::Disarm() {
	AutoLock lock(lock_);
	state_ = DISARMED;
	// We don't need to signal, as the watchdog will eventually wake up, and it
	// will check its state and time, and act accordingly.
	}

	void Watchdog::Alarm() {
	DVLOG(1) << "Watchdog alarmed for " << thread_watched_name_;
	}

	//------------------------------------------------------------------------------
	// Internal private methods that the watchdog thread uses.

	void Watchdog::ThreadDelegate::ThreadMain() {
	SetThreadName();
	TimeDelta remaining_duration;
	StaticData* static_data = GetStaticData();
	while (1) {
	AutoLock lock(watchdog_->lock_);
	while (DISARMED == watchdog_->state_)
	watchdog_->condition_variable_.Wait();
	if (SHUTDOWN == watchdog_->state_) {
	watchdog_->state_ = JOINABLE;
	return;
	}
	DCHECK(ARMED == watchdog_->state_);
	remaining_duration = watchdog_->duration_ -
	(TimeTicks::Now() - watchdog_->start_time_);
	if (remaining_duration.InMilliseconds() > 0) {
	// Spurios wake? Timer drifts? Go back to sleep for remaining time.
	watchdog_->condition_variable_.TimedWait(remaining_duration);
	continue;
	}
	// We overslept, so this seems like a real alarm.
	// Watch out for a user that stopped the debugger on a different alarm!
	{
	AutoLock static_lock(static_data->lock);
	if (static_data->last_debugged_alarm_time > watchdog_->start_time_) {
	// False alarm: we started our clock before the debugger break (last
	// alarm time).
	watchdog_->start_time_ += static_data->last_debugged_alarm_delay;
	if (static_data->last_debugged_alarm_time > watchdog_->start_time_)
	// Too many alarms must have taken place.
	watchdog_->state_ = DISARMED;
	continue;
	}
	}
	watchdog_->state_ = DISARMED; // Only alarm at most once.
	TimeTicks last_alarm_time = TimeTicks::Now();
	{
	AutoUnlock unlock(watchdog_->lock_);
	watchdog_->Alarm(); // Set a break point here to debug on alarms.
	}
	TimeDelta last_alarm_delay = TimeTicks::Now() - last_alarm_time;
	if (last_alarm_delay <= TimeDelta::FromMilliseconds(2))
	continue;
	// Ignore race of two alarms/breaks going off at roughly the same time.
	AutoLock static_lock(static_data->lock);
	// This was a real debugger break.
	static_data->last_debugged_alarm_time = last_alarm_time;
	static_data->last_debugged_alarm_delay = last_alarm_delay;
	}
	}

	void Watchdog::ThreadDelegate::SetThreadName() const {
	std::string name = watchdog_->thread_watched_name_ + " Watchdog";
	PlatformThread::SetName(name);
	DVLOG(1) << "Watchdog active: " << name;
	}

	// static
	void Watchdog::ResetStaticData() {
	StaticData* static_data = GetStaticData();
	AutoLock lock(static_data->lock);
	// See https://crbug.com/734232 for why this cannot be zero-initialized.
	static_data->last_debugged_alarm_time = TimeTicks::Min();
	static_data->last_debugged_alarm_delay = TimeDelta();
	}

	} // namespace base