content/browser/histogram_synchronizer.cc - chromium/src.git - 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 "content/browser/histogram_synchronizer.h"

 #include <utility>

 #include "base/bind.h"
 #include "base/lazy_instance.h"
 #include "base/location.h"
 #include "base/logging.h"
 #include "base/metrics/histogram_delta_serialization.h"
 #include "base/metrics/histogram_macros.h"
 #include "base/pickle.h"
 #include "base/single_thread_task_runner.h"
 #include "base/threading/thread.h"
 #include "base/threading/thread_restrictions.h"
 #include "content/browser/histogram_controller.h"
 #include "content/public/browser/browser_thread.h"
 #include "content/public/browser/histogram_fetcher.h"
 #include "content/public/common/content_constants.h"

 namespace content {

 using base::Time;
 using base::TimeDelta;
 using base::TimeTicks;

 namespace {

 // Negative numbers are never used as sequence numbers.  We explicitly pick a
 // negative number that is "so negative" that even when we add one (as is done
 // when we generated the next sequence number) that it will still be negative.
 // We have code that handles wrapping around on an overflow into negative
 // territory.
 static const int kNeverUsableSequenceNumber = -2;

 }  // anonymous namespace

 // The "RequestContext" structure describes an individual request received from
 // the UI. All methods are accessible on UI thread.
 class HistogramSynchronizer::RequestContext {
  public:
   // A map from sequence_number_ to the actual RequestContexts.
   typedef std::map<int, RequestContext*> RequestContextMap;

   RequestContext(const base::Closure& callback, int sequence_number)
       : callback_(callback),
         sequence_number_(sequence_number),
         received_process_group_count_(0),
         processes_pending_(0) {
   }
   ~RequestContext() {}

   void SetReceivedProcessGroupCount(bool done) {
     DCHECK_CURRENTLY_ON(BrowserThread::UI);
     received_process_group_count_ = done;
   }

   // Methods for book keeping of processes_pending_.
   void AddProcessesPending(int processes_pending) {
     DCHECK_CURRENTLY_ON(BrowserThread::UI);
     processes_pending_ += processes_pending;
   }

   void DecrementProcessesPending() {
     DCHECK_CURRENTLY_ON(BrowserThread::UI);
     --processes_pending_;
   }

   // Records that we are waiting for one less histogram data from a process for
   // the given sequence number. If |received_process_group_count_| and
   // |processes_pending_| are zero, then delete the current object by calling
   // Unregister.
   void DeleteIfAllDone() {
     DCHECK_CURRENTLY_ON(BrowserThread::UI);

     if (processes_pending_ <= 0 && received_process_group_count_)
       RequestContext::Unregister(sequence_number_);
   }

   // Register |callback| in |outstanding_requests_| map for the given
   // |sequence_number|.
   static void Register(const base::Closure& callback, int sequence_number) {
     DCHECK_CURRENTLY_ON(BrowserThread::UI);

     RequestContext* request = new RequestContext(callback, sequence_number);
     outstanding_requests_.Get()[sequence_number] = request;
   }

   // Find the |RequestContext| in |outstanding_requests_| map for the given
   // |sequence_number|.
   static RequestContext* GetRequestContext(int sequence_number) {
     DCHECK_CURRENTLY_ON(BrowserThread::UI);

     RequestContextMap::iterator it =
         outstanding_requests_.Get().find(sequence_number);
     if (it == outstanding_requests_.Get().end())
       return nullptr;

     RequestContext* request = it->second;
     DCHECK_EQ(sequence_number, request->sequence_number_);
     return request;
   }

   // Delete the entry for the given |sequence_number| from
   // |outstanding_requests_| map. This method is called when all changes have
   // been acquired, or when the wait time expires (whichever is sooner).
   static void Unregister(int sequence_number) {
     DCHECK_CURRENTLY_ON(BrowserThread::UI);

     RequestContextMap::iterator it =
         outstanding_requests_.Get().find(sequence_number);
     if (it == outstanding_requests_.Get().end())
       return;

     RequestContext* request = it->second;
     DCHECK_EQ(sequence_number, request->sequence_number_);
     bool received_process_group_count = request->received_process_group_count_;
     int unresponsive_processes = request->processes_pending_;

     request->callback_.Run();

     delete request;
     outstanding_requests_.Get().erase(it);

     UMA_HISTOGRAM_BOOLEAN("Histogram.ReceivedProcessGroupCount",
                           received_process_group_count);
     UMA_HISTOGRAM_COUNTS("Histogram.PendingProcessNotResponding",
                          unresponsive_processes);
   }

   // Delete all the entries in |outstanding_requests_| map.
   static void OnShutdown() {
     // Just in case we have any pending tasks, clear them out.
     while (!outstanding_requests_.Get().empty()) {
       RequestContextMap::iterator it = outstanding_requests_.Get().begin();
       delete it->second;
       outstanding_requests_.Get().erase(it);
     }
   }

   // Requests are made to asynchronously send data to the |callback_|.
   base::Closure callback_;

   // The sequence number used by the most recent update request to contact all
   // processes.
   int sequence_number_;

   // Indicates if we have received all pending processes count.
   bool received_process_group_count_;

   // The number of pending processes (all renderer processes and browser child
   // processes) that have not yet responded to requests.
   int processes_pending_;

   // Map of all outstanding RequestContexts, from sequence_number_ to
   // RequestContext.
   static base::LazyInstance<RequestContextMap>::Leaky outstanding_requests_;
 };

 // static
 base::LazyInstance
     <HistogramSynchronizer::RequestContext::RequestContextMap>::Leaky
         HistogramSynchronizer::RequestContext::outstanding_requests_ =
             LAZY_INSTANCE_INITIALIZER;

 HistogramSynchronizer::HistogramSynchronizer()
     : lock_(),
       last_used_sequence_number_(kNeverUsableSequenceNumber),
       async_sequence_number_(kNeverUsableSequenceNumber) {
   HistogramController::GetInstance()->Register(this);
 }

 HistogramSynchronizer::~HistogramSynchronizer() {
   RequestContext::OnShutdown();

   // Just in case we have any pending tasks, clear them out.
   SetTaskRunnerAndCallback(nullptr, base::Closure());
 }

 HistogramSynchronizer* HistogramSynchronizer::GetInstance() {
   return base::Singleton<
       HistogramSynchronizer,
       base::LeakySingletonTraits<HistogramSynchronizer>>::get();
 }

 // static
 void HistogramSynchronizer::FetchHistograms() {
   if (!BrowserThread::CurrentlyOn(BrowserThread::UI)) {
     BrowserThread::PostTask(
         BrowserThread::UI, FROM_HERE,
         base::BindOnce(&HistogramSynchronizer::FetchHistograms));
     return;
   }
   DCHECK_CURRENTLY_ON(BrowserThread::UI);

   HistogramSynchronizer* current_synchronizer =
       HistogramSynchronizer::GetInstance();
   if (current_synchronizer == nullptr)
     return;

   current_synchronizer->RegisterAndNotifyAllProcesses(
       HistogramSynchronizer::UNKNOWN,
       base::TimeDelta::FromMinutes(1));
 }

 void FetchHistogramsAsynchronously(scoped_refptr<base::TaskRunner> task_runner,
                                    const base::Closure& callback,
                                    base::TimeDelta wait_time) {
   HistogramSynchronizer::FetchHistogramsAsynchronously(std::move(task_runner),
                                                        callback, wait_time);
 }

 // static
 void HistogramSynchronizer::FetchHistogramsAsynchronously(
     scoped_refptr<base::TaskRunner> task_runner,
     const base::Closure& callback,
     base::TimeDelta wait_time) {
   DCHECK(task_runner);
   DCHECK(!callback.is_null());

   HistogramSynchronizer* current_synchronizer =
       HistogramSynchronizer::GetInstance();
   current_synchronizer->SetTaskRunnerAndCallback(std::move(task_runner),
                                                  callback);

   current_synchronizer->RegisterAndNotifyAllProcesses(
       HistogramSynchronizer::ASYNC_HISTOGRAMS, wait_time);
 }

 void HistogramSynchronizer::RegisterAndNotifyAllProcesses(
     ProcessHistogramRequester requester,
     base::TimeDelta wait_time) {
   DCHECK_CURRENTLY_ON(BrowserThread::UI);

   int sequence_number = GetNextAvailableSequenceNumber(requester);

   base::Closure callback = base::Bind(
       &HistogramSynchronizer::ForceHistogramSynchronizationDoneCallback,
       base::Unretained(this),
       sequence_number);

   RequestContext::Register(callback, sequence_number);

   // Get histogram data from renderer and browser child processes.
   HistogramController::GetInstance()->GetHistogramData(sequence_number);

   // Post a task that would be called after waiting for wait_time.  This acts
   // as a watchdog, to cancel the requests for non-responsive processes.
   BrowserThread::PostDelayedTask(
       BrowserThread::UI, FROM_HERE,
       base::BindOnce(&RequestContext::Unregister, sequence_number), wait_time);
 }

 void HistogramSynchronizer::OnPendingProcesses(int sequence_number,
                                                int pending_processes,
                                                bool end) {
   DCHECK_CURRENTLY_ON(BrowserThread::UI);

   RequestContext* request = RequestContext::GetRequestContext(sequence_number);
   if (!request)
     return;
   request->AddProcessesPending(pending_processes);
   request->SetReceivedProcessGroupCount(end);
   request->DeleteIfAllDone();
 }

 void HistogramSynchronizer::OnHistogramDataCollected(
     int sequence_number,
     const std::vector<std::string>& pickled_histograms) {
   DCHECK_CURRENTLY_ON(BrowserThread::UI);

   base::HistogramDeltaSerialization::DeserializeAndAddSamples(
       pickled_histograms);

   RequestContext* request = RequestContext::GetRequestContext(sequence_number);
   if (!request)
     return;

   // Delete request if we have heard back from all child processes.
   request->DecrementProcessesPending();
   request->DeleteIfAllDone();
 }

 void HistogramSynchronizer::SetTaskRunnerAndCallback(
     scoped_refptr<base::TaskRunner> task_runner,
     const base::Closure& callback) {
   base::Closure old_callback;
   scoped_refptr<base::TaskRunner> old_task_runner;
   {
     base::AutoLock auto_lock(lock_);
     old_callback = callback_;
     callback_ = callback;
     old_task_runner = std::move(callback_task_runner_);
     callback_task_runner_ = std::move(task_runner);
     // Prevent premature calling of our new callbacks.
     async_sequence_number_ = kNeverUsableSequenceNumber;
   }
   // Just in case there was a task pending....
   InternalPostTask(std::move(old_task_runner), old_callback);
 }

 void HistogramSynchronizer::ForceHistogramSynchronizationDoneCallback(
     int sequence_number) {
   base::Closure callback;
   scoped_refptr<base::TaskRunner> task_runner;
   {
     base::AutoLock lock(lock_);
     if (sequence_number != async_sequence_number_)
       return;
     callback = callback_;
     task_runner = std::move(callback_task_runner_);
     callback_.Reset();
   }
   InternalPostTask(std::move(task_runner), callback);
 }

 void HistogramSynchronizer::InternalPostTask(
     scoped_refptr<base::TaskRunner> task_runner,
     const base::Closure& callback) {
   if (callback.is_null() || !task_runner)
     return;
   task_runner->PostTask(FROM_HERE, callback);
 }

 int HistogramSynchronizer::GetNextAvailableSequenceNumber(
     ProcessHistogramRequester requester) {
   base::AutoLock auto_lock(lock_);
   ++last_used_sequence_number_;
   // Watch out for wrapping to a negative number.
   if (last_used_sequence_number_ < 0) {
     // Bypass the reserved number, which is used when a renderer spontaneously
     // decides to send some histogram data.
     last_used_sequence_number_ =
         kHistogramSynchronizerReservedSequenceNumber + 1;
   }
   DCHECK_NE(last_used_sequence_number_,
             kHistogramSynchronizerReservedSequenceNumber);
   if (requester == ASYNC_HISTOGRAMS)
     async_sequence_number_ = last_used_sequence_number_;
   return last_used_sequence_number_;
 }

 }  // namespace content
	// 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 "content/browser/histogram_synchronizer.h"

	#include <utility>

	#include "base/bind.h"
	#include "base/lazy_instance.h"
	#include "base/location.h"
	#include "base/logging.h"
	#include "base/metrics/histogram_delta_serialization.h"
	#include "base/metrics/histogram_macros.h"
	#include "base/pickle.h"
	#include "base/single_thread_task_runner.h"
	#include "base/threading/thread.h"
	#include "base/threading/thread_restrictions.h"
	#include "content/browser/histogram_controller.h"
	#include "content/public/browser/browser_thread.h"
	#include "content/public/browser/histogram_fetcher.h"
	#include "content/public/common/content_constants.h"

	namespace content {

	using base::Time;
	using base::TimeDelta;
	using base::TimeTicks;

	namespace {

	// Negative numbers are never used as sequence numbers. We explicitly pick a
	// negative number that is "so negative" that even when we add one (as is done
	// when we generated the next sequence number) that it will still be negative.
	// We have code that handles wrapping around on an overflow into negative
	// territory.
	static const int kNeverUsableSequenceNumber = -2;

	} // anonymous namespace

	// The "RequestContext" structure describes an individual request received from
	// the UI. All methods are accessible on UI thread.
	class HistogramSynchronizer::RequestContext {
	public:
	// A map from sequence_number_ to the actual RequestContexts.
	typedef std::map<int, RequestContext*> RequestContextMap;

	RequestContext(const base::Closure& callback, int sequence_number)
	: callback_(callback),
	sequence_number_(sequence_number),
	received_process_group_count_(0),
	processes_pending_(0) {
	}
	~RequestContext() {}

	void SetReceivedProcessGroupCount(bool done) {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);
	received_process_group_count_ = done;
	}

	// Methods for book keeping of processes_pending_.
	void AddProcessesPending(int processes_pending) {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);
	processes_pending_ += processes_pending;
	}

	void DecrementProcessesPending() {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);
	--processes_pending_;
	}

	// Records that we are waiting for one less histogram data from a process for
	// the given sequence number. If \|received_process_group_count_\| and
	// \|processes_pending_\| are zero, then delete the current object by calling
	// Unregister.
	void DeleteIfAllDone() {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);

	if (processes_pending_ <= 0 && received_process_group_count_)
	RequestContext::Unregister(sequence_number_);
	}

	// Register \|callback\| in \|outstanding_requests_\| map for the given
	// \|sequence_number\|.
	static void Register(const base::Closure& callback, int sequence_number) {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);

	RequestContext* request = new RequestContext(callback, sequence_number);
	outstanding_requests_.Get()[sequence_number] = request;
	}

	// Find the \|RequestContext\| in \|outstanding_requests_\| map for the given
	// \|sequence_number\|.
	static RequestContext* GetRequestContext(int sequence_number) {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);

	RequestContextMap::iterator it =
	outstanding_requests_.Get().find(sequence_number);
	if (it == outstanding_requests_.Get().end())
	return nullptr;

	RequestContext* request = it->second;
	DCHECK_EQ(sequence_number, request->sequence_number_);
	return request;
	}

	// Delete the entry for the given \|sequence_number\| from
	// \|outstanding_requests_\| map. This method is called when all changes have
	// been acquired, or when the wait time expires (whichever is sooner).
	static void Unregister(int sequence_number) {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);

	RequestContextMap::iterator it =
	outstanding_requests_.Get().find(sequence_number);
	if (it == outstanding_requests_.Get().end())
	return;

	RequestContext* request = it->second;
	DCHECK_EQ(sequence_number, request->sequence_number_);
	bool received_process_group_count = request->received_process_group_count_;
	int unresponsive_processes = request->processes_pending_;

	request->callback_.Run();

	delete request;
	outstanding_requests_.Get().erase(it);

	UMA_HISTOGRAM_BOOLEAN("Histogram.ReceivedProcessGroupCount",
	received_process_group_count);
	UMA_HISTOGRAM_COUNTS("Histogram.PendingProcessNotResponding",
	unresponsive_processes);
	}

	// Delete all the entries in \|outstanding_requests_\| map.
	static void OnShutdown() {
	// Just in case we have any pending tasks, clear them out.
	while (!outstanding_requests_.Get().empty()) {
	RequestContextMap::iterator it = outstanding_requests_.Get().begin();
	delete it->second;
	outstanding_requests_.Get().erase(it);
	}
	}

	// Requests are made to asynchronously send data to the \|callback_\|.
	base::Closure callback_;

	// The sequence number used by the most recent update request to contact all
	// processes.
	int sequence_number_;

	// Indicates if we have received all pending processes count.
	bool received_process_group_count_;

	// The number of pending processes (all renderer processes and browser child
	// processes) that have not yet responded to requests.
	int processes_pending_;

	// Map of all outstanding RequestContexts, from sequence_number_ to
	// RequestContext.
	static base::LazyInstance<RequestContextMap>::Leaky outstanding_requests_;
	};

	// static
	base::LazyInstance
	<HistogramSynchronizer::RequestContext::RequestContextMap>::Leaky
	HistogramSynchronizer::RequestContext::outstanding_requests_ =
	LAZY_INSTANCE_INITIALIZER;

	HistogramSynchronizer::HistogramSynchronizer()
	: lock_(),
	last_used_sequence_number_(kNeverUsableSequenceNumber),
	async_sequence_number_(kNeverUsableSequenceNumber) {
	HistogramController::GetInstance()->Register(this);
	}

	HistogramSynchronizer::~HistogramSynchronizer() {
	RequestContext::OnShutdown();

	// Just in case we have any pending tasks, clear them out.
	SetTaskRunnerAndCallback(nullptr, base::Closure());
	}

	HistogramSynchronizer* HistogramSynchronizer::GetInstance() {
	return base::Singleton<
	HistogramSynchronizer,
	base::LeakySingletonTraits<HistogramSynchronizer>>::get();
	}

	// static
	void HistogramSynchronizer::FetchHistograms() {
	if (!BrowserThread::CurrentlyOn(BrowserThread::UI)) {
	BrowserThread::PostTask(
	BrowserThread::UI, FROM_HERE,
	base::BindOnce(&HistogramSynchronizer::FetchHistograms));
	return;
	}
	DCHECK_CURRENTLY_ON(BrowserThread::UI);

	HistogramSynchronizer* current_synchronizer =
	HistogramSynchronizer::GetInstance();
	if (current_synchronizer == nullptr)
	return;

	current_synchronizer->RegisterAndNotifyAllProcesses(
	HistogramSynchronizer::UNKNOWN,
	base::TimeDelta::FromMinutes(1));
	}

	void FetchHistogramsAsynchronously(scoped_refptr<base::TaskRunner> task_runner,
	const base::Closure& callback,
	base::TimeDelta wait_time) {
	HistogramSynchronizer::FetchHistogramsAsynchronously(std::move(task_runner),
	callback, wait_time);
	}

	// static
	void HistogramSynchronizer::FetchHistogramsAsynchronously(
	scoped_refptr<base::TaskRunner> task_runner,
	const base::Closure& callback,
	base::TimeDelta wait_time) {
	DCHECK(task_runner);
	DCHECK(!callback.is_null());

	HistogramSynchronizer* current_synchronizer =
	HistogramSynchronizer::GetInstance();
	current_synchronizer->SetTaskRunnerAndCallback(std::move(task_runner),
	callback);

	current_synchronizer->RegisterAndNotifyAllProcesses(
	HistogramSynchronizer::ASYNC_HISTOGRAMS, wait_time);
	}

	void HistogramSynchronizer::RegisterAndNotifyAllProcesses(
	ProcessHistogramRequester requester,
	base::TimeDelta wait_time) {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);

	int sequence_number = GetNextAvailableSequenceNumber(requester);

	base::Closure callback = base::Bind(
	&HistogramSynchronizer::ForceHistogramSynchronizationDoneCallback,
	base::Unretained(this),
	sequence_number);

	RequestContext::Register(callback, sequence_number);

	// Get histogram data from renderer and browser child processes.
	HistogramController::GetInstance()->GetHistogramData(sequence_number);

	// Post a task that would be called after waiting for wait_time. This acts
	// as a watchdog, to cancel the requests for non-responsive processes.
	BrowserThread::PostDelayedTask(
	BrowserThread::UI, FROM_HERE,
	base::BindOnce(&RequestContext::Unregister, sequence_number), wait_time);
	}

	void HistogramSynchronizer::OnPendingProcesses(int sequence_number,
	int pending_processes,
	bool end) {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);

	RequestContext* request = RequestContext::GetRequestContext(sequence_number);
	if (!request)
	return;
	request->AddProcessesPending(pending_processes);
	request->SetReceivedProcessGroupCount(end);
	request->DeleteIfAllDone();
	}

	void HistogramSynchronizer::OnHistogramDataCollected(
	int sequence_number,
	const std::vector<std::string>& pickled_histograms) {
	DCHECK_CURRENTLY_ON(BrowserThread::UI);

	base::HistogramDeltaSerialization::DeserializeAndAddSamples(
	pickled_histograms);

	RequestContext* request = RequestContext::GetRequestContext(sequence_number);
	if (!request)
	return;

	// Delete request if we have heard back from all child processes.
	request->DecrementProcessesPending();
	request->DeleteIfAllDone();
	}

	void HistogramSynchronizer::SetTaskRunnerAndCallback(
	scoped_refptr<base::TaskRunner> task_runner,
	const base::Closure& callback) {
	base::Closure old_callback;
	scoped_refptr<base::TaskRunner> old_task_runner;
	{
	base::AutoLock auto_lock(lock_);
	old_callback = callback_;
	callback_ = callback;
	old_task_runner = std::move(callback_task_runner_);
	callback_task_runner_ = std::move(task_runner);
	// Prevent premature calling of our new callbacks.
	async_sequence_number_ = kNeverUsableSequenceNumber;
	}
	// Just in case there was a task pending....
	InternalPostTask(std::move(old_task_runner), old_callback);
	}

	void HistogramSynchronizer::ForceHistogramSynchronizationDoneCallback(
	int sequence_number) {
	base::Closure callback;
	scoped_refptr<base::TaskRunner> task_runner;
	{
	base::AutoLock lock(lock_);
	if (sequence_number != async_sequence_number_)
	return;
	callback = callback_;
	task_runner = std::move(callback_task_runner_);
	callback_.Reset();
	}
	InternalPostTask(std::move(task_runner), callback);
	}

	void HistogramSynchronizer::InternalPostTask(
	scoped_refptr<base::TaskRunner> task_runner,
	const base::Closure& callback) {
	if (callback.is_null() \|\| !task_runner)
	return;
	task_runner->PostTask(FROM_HERE, callback);
	}

	int HistogramSynchronizer::GetNextAvailableSequenceNumber(
	ProcessHistogramRequester requester) {
	base::AutoLock auto_lock(lock_);
	++last_used_sequence_number_;
	// Watch out for wrapping to a negative number.
	if (last_used_sequence_number_ < 0) {
	// Bypass the reserved number, which is used when a renderer spontaneously
	// decides to send some histogram data.
	last_used_sequence_number_ =
	kHistogramSynchronizerReservedSequenceNumber + 1;
	}
	DCHECK_NE(last_used_sequence_number_,
	kHistogramSynchronizerReservedSequenceNumber);
	if (requester == ASYNC_HISTOGRAMS)
	async_sequence_number_ = last_used_sequence_number_;
	return last_used_sequence_number_;
	}

	} // namespace content