content/browser/histogram_synchronizer.h - 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.

 #ifndef CONTENT_BROWSER_HISTOGRAM_SYNCHRONIZER_H_
 #define CONTENT_BROWSER_HISTOGRAM_SYNCHRONIZER_H_

 #include <string>
 #include <vector>

 #include "base/callback.h"
 #include "base/macros.h"
 #include "base/memory/singleton.h"
 #include "base/synchronization/lock.h"
 #include "base/task_runner.h"
 #include "base/time/time.h"
 #include "content/browser/histogram_subscriber.h"

 namespace content {

 // This class maintains state that is used to upload histogram data from the
 // various child processes, into the browser process. Such transactions are
 // usually instigated by the browser. In general, a child process will respond
 // by gathering snapshots of all internal histograms, calculating what has
 // changed since its last upload, and transmitting a pickled collection of
 // deltas.
 //
 // There are actually two modes of update request.  One is synchronous (and
 // blocks the UI thread, waiting to populate an about:histograms tab) and the
 // other is asynchronous, and used by the metrics services in preparation for a
 // log upload.
 //
 // To assure that all the processes have responded, a counter is maintained to
 // indicate the number of pending (not yet responsive) processes. To avoid
 // confusion about a response (i.e., is the process responding to a current
 // request for an update, or to an old request for an update) we tag each group
 // of requests with a sequence number. When an update arrives we can ignore it
 // (relative to the counter) if it does not relate to a current outstanding
 // sequence number.
 //
 // There is one final mode of use, where a renderer spontaneously decides to
 // transmit a collection of histogram data.  This is designed for use when the
 // renderer is terminating.  Unfortunately, renders may be terminated without
 // warning, and the best we can do is periodically acquire data from a tab, such
 // as when a page load has completed.  In this mode, the renderer uses a
 // reserved sequence number, different from any sequence number that might be
 // specified by a browser request.  Since this sequence number can't match an
 // outstanding sequence number, the pickled data is accepted into the browser,
 // but there is no impact on the counters.

 class HistogramSynchronizer : public HistogramSubscriber {
  public:
   enum ProcessHistogramRequester {
     UNKNOWN,
     ASYNC_HISTOGRAMS,
   };

   // Return pointer to the singleton instance for the current process, or NULL
   // if none.
   static HistogramSynchronizer* GetInstance();

   // Contact all processes, and get them to upload to the browser any/all
   // changes to histograms. This method is called from about:histograms.
   static void FetchHistograms();

   // Contact all child processes, and get them to upload to the browser any/all
   // changes to histograms.  When all changes have been acquired, or when the
   // wait time expires (whichever is sooner), post the callback to the specified
   // TaskRunner. Note the callback is posted exactly once.
   static void FetchHistogramsAsynchronously(
       scoped_refptr<base::TaskRunner> task_runner,
       const base::Closure& callback,
       base::TimeDelta wait_time);

  private:
   friend struct base::DefaultSingletonTraits<HistogramSynchronizer>;

   class RequestContext;

   HistogramSynchronizer();
   ~HistogramSynchronizer() override;

   // Establish a new sequence number, and use it to notify all processes
   // (renderers, plugins, GPU, etc) of the need to supply, to the browser,
   // any/all changes to their histograms. |wait_time| specifies the amount of
   // time to wait before cancelling the requests for non-responsive processes.
   void RegisterAndNotifyAllProcesses(ProcessHistogramRequester requester,
                                      base::TimeDelta wait_time);

   // -------------------------------------------------------
   // HistogramSubscriber methods for browser child processes
   // -------------------------------------------------------

   // Update the number of pending processes for the given |sequence_number|.
   // This is called on UI thread.
   void OnPendingProcesses(int sequence_number,
                           int pending_processes,
                           bool end) override;

   // Send histogram_data back to caller and also record that we are waiting
   // for one less histogram data from child process for the given sequence
   // number. This method is accessible on UI thread.
   void OnHistogramDataCollected(
       int sequence_number,
       const std::vector<std::string>& pickled_histograms) override;

   // Set the |callback_task_runner_| and |callback_| members. If these members
   // already had values, then as a side effect, post the old |callback_| to the
   // old |callback_task_runner_|. This side effect should not generally happen,
   // but is in place to assure correctness (that any tasks that were set, are
   // eventually called, and never merely discarded).
   void SetTaskRunnerAndCallback(scoped_refptr<base::TaskRunner> task_runner,
                                 const base::Closure& callback);

   void ForceHistogramSynchronizationDoneCallback(int sequence_number);

   // Internal helper function, to post task, and record callback stats.
   void InternalPostTask(scoped_refptr<base::TaskRunner> task_runner,
                         const base::Closure& callback);

   // Gets a new sequence number to be sent to processes from browser process.
   int GetNextAvailableSequenceNumber(ProcessHistogramRequester requester);

   // This lock_ protects access to all members.
   base::Lock lock_;

   // When a request is made to asynchronously update the histograms, we store
   // the task and TaskRunner we use to post a completion notification in
   // |callback_| and |callback_task_runner_|.
   base::Closure callback_;
   scoped_refptr<base::TaskRunner> callback_task_runner_;

   // We don't track the actual processes that are contacted for an update, only
   // the count of the number of processes, and we can sometimes time-out and
   // give up on a "slow to respond" process.  We use a sequence_number to be
   // sure a response from a process is associated with the current round of
   // requests (and not merely a VERY belated prior response).
   // All sequence numbers used are non-negative.
   // last_used_sequence_number_ is the most recently used number (used to avoid
   // reuse for a long time).
   int last_used_sequence_number_;

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

   DISALLOW_COPY_AND_ASSIGN(HistogramSynchronizer);
 };

 }  // namespace content

 #endif  // CONTENT_BROWSER_HISTOGRAM_SYNCHRONIZER_H_
	// 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.

	#ifndef CONTENT_BROWSER_HISTOGRAM_SYNCHRONIZER_H_
	#define CONTENT_BROWSER_HISTOGRAM_SYNCHRONIZER_H_

	#include <string>
	#include <vector>

	#include "base/callback.h"
	#include "base/macros.h"
	#include "base/memory/singleton.h"
	#include "base/synchronization/lock.h"
	#include "base/task_runner.h"
	#include "base/time/time.h"
	#include "content/browser/histogram_subscriber.h"

	namespace content {

	// This class maintains state that is used to upload histogram data from the
	// various child processes, into the browser process. Such transactions are
	// usually instigated by the browser. In general, a child process will respond
	// by gathering snapshots of all internal histograms, calculating what has
	// changed since its last upload, and transmitting a pickled collection of
	// deltas.
	//
	// There are actually two modes of update request. One is synchronous (and
	// blocks the UI thread, waiting to populate an about:histograms tab) and the
	// other is asynchronous, and used by the metrics services in preparation for a
	// log upload.
	//
	// To assure that all the processes have responded, a counter is maintained to
	// indicate the number of pending (not yet responsive) processes. To avoid
	// confusion about a response (i.e., is the process responding to a current
	// request for an update, or to an old request for an update) we tag each group
	// of requests with a sequence number. When an update arrives we can ignore it
	// (relative to the counter) if it does not relate to a current outstanding
	// sequence number.
	//
	// There is one final mode of use, where a renderer spontaneously decides to
	// transmit a collection of histogram data. This is designed for use when the
	// renderer is terminating. Unfortunately, renders may be terminated without
	// warning, and the best we can do is periodically acquire data from a tab, such
	// as when a page load has completed. In this mode, the renderer uses a
	// reserved sequence number, different from any sequence number that might be
	// specified by a browser request. Since this sequence number can't match an
	// outstanding sequence number, the pickled data is accepted into the browser,
	// but there is no impact on the counters.

	class HistogramSynchronizer : public HistogramSubscriber {
	public:
	enum ProcessHistogramRequester {
	UNKNOWN,
	ASYNC_HISTOGRAMS,
	};

	// Return pointer to the singleton instance for the current process, or NULL
	// if none.
	static HistogramSynchronizer* GetInstance();

	// Contact all processes, and get them to upload to the browser any/all
	// changes to histograms. This method is called from about:histograms.
	static void FetchHistograms();

	// Contact all child processes, and get them to upload to the browser any/all
	// changes to histograms. When all changes have been acquired, or when the
	// wait time expires (whichever is sooner), post the callback to the specified
	// TaskRunner. Note the callback is posted exactly once.
	static void FetchHistogramsAsynchronously(
	scoped_refptr<base::TaskRunner> task_runner,
	const base::Closure& callback,
	base::TimeDelta wait_time);

	private:
	friend struct base::DefaultSingletonTraits<HistogramSynchronizer>;

	class RequestContext;

	HistogramSynchronizer();
	~HistogramSynchronizer() override;

	// Establish a new sequence number, and use it to notify all processes
	// (renderers, plugins, GPU, etc) of the need to supply, to the browser,
	// any/all changes to their histograms. \|wait_time\| specifies the amount of
	// time to wait before cancelling the requests for non-responsive processes.
	void RegisterAndNotifyAllProcesses(ProcessHistogramRequester requester,
	base::TimeDelta wait_time);

	// -------------------------------------------------------
	// HistogramSubscriber methods for browser child processes
	// -------------------------------------------------------

	// Update the number of pending processes for the given \|sequence_number\|.
	// This is called on UI thread.
	void OnPendingProcesses(int sequence_number,
	int pending_processes,
	bool end) override;

	// Send histogram_data back to caller and also record that we are waiting
	// for one less histogram data from child process for the given sequence
	// number. This method is accessible on UI thread.
	void OnHistogramDataCollected(
	int sequence_number,
	const std::vector<std::string>& pickled_histograms) override;

	// Set the \|callback_task_runner_\| and \|callback_\| members. If these members
	// already had values, then as a side effect, post the old \|callback_\| to the
	// old \|callback_task_runner_\|. This side effect should not generally happen,
	// but is in place to assure correctness (that any tasks that were set, are
	// eventually called, and never merely discarded).
	void SetTaskRunnerAndCallback(scoped_refptr<base::TaskRunner> task_runner,
	const base::Closure& callback);

	void ForceHistogramSynchronizationDoneCallback(int sequence_number);

	// Internal helper function, to post task, and record callback stats.
	void InternalPostTask(scoped_refptr<base::TaskRunner> task_runner,
	const base::Closure& callback);

	// Gets a new sequence number to be sent to processes from browser process.
	int GetNextAvailableSequenceNumber(ProcessHistogramRequester requester);

	// This lock_ protects access to all members.
	base::Lock lock_;

	// When a request is made to asynchronously update the histograms, we store
	// the task and TaskRunner we use to post a completion notification in
	// \|callback_\| and \|callback_task_runner_\|.
	base::Closure callback_;
	scoped_refptr<base::TaskRunner> callback_task_runner_;

	// We don't track the actual processes that are contacted for an update, only
	// the count of the number of processes, and we can sometimes time-out and
	// give up on a "slow to respond" process. We use a sequence_number to be
	// sure a response from a process is associated with the current round of
	// requests (and not merely a VERY belated prior response).
	// All sequence numbers used are non-negative.
	// last_used_sequence_number_ is the most recently used number (used to avoid
	// reuse for a long time).
	int last_used_sequence_number_;

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

	DISALLOW_COPY_AND_ASSIGN(HistogramSynchronizer);
	};

	} // namespace content

	#endif // CONTENT_BROWSER_HISTOGRAM_SYNCHRONIZER_H_