chrome/browser/oom_priority_manager.cc - platform/external/chromium - Git at Google

 // Copyright (c) 2011 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 "chrome/browser/oom_priority_manager.h"

 #include <list>

 #include "base/process.h"
 #include "base/process_util.h"
 #include "base/threading/thread.h"
 #include "build/build_config.h"
 #include "chrome/browser/tabs/tab_strip_model.h"
 #include "chrome/browser/ui/browser_list.h"
 #include "chrome/browser/ui/tab_contents/tab_contents_wrapper.h"
 #include "content/browser/browser_thread.h"
 #include "content/browser/renderer_host/render_process_host.h"
 #include "content/browser/tab_contents/tab_contents.h"
 #include "content/browser/zygote_host_linux.h"

 #if !defined(OS_CHROMEOS)
 #error This file only meant to be compiled on ChromeOS
 #endif

 using base::TimeDelta;
 using base::TimeTicks;
 using base::ProcessHandle;
 using base::ProcessMetrics;

 namespace browser {

 // The default interval in seconds after which to adjust the oom_adj
 // value.
 #define ADJUSTMENT_INTERVAL_SECONDS 10

 // The default interval in minutes for considering activation times
 // "equal".
 #define BUCKET_INTERVAL_MINUTES 10

 OomPriorityManager::OomPriorityManager() {
   StartTimer();
 }

 OomPriorityManager::~OomPriorityManager() {
   StopTimer();
 }

 void OomPriorityManager::StartTimer() {
   if (!timer_.IsRunning()) {
     timer_.Start(TimeDelta::FromSeconds(ADJUSTMENT_INTERVAL_SECONDS),
                  this,
                  &OomPriorityManager::AdjustOomPriorities);
   }
 }

 void OomPriorityManager::StopTimer() {
   timer_.Stop();
 }

 // Returns true if |first| is considered less desirable to be killed
 // than |second|.
 bool OomPriorityManager::CompareRendererStats(RendererStats first,
                                               RendererStats second) {
   // The size of the slop in comparing activation times.  [This is
   // allocated here to avoid static initialization at startup time.]
   static const int64 kTimeBucketInterval =
       TimeDelta::FromMinutes(BUCKET_INTERVAL_MINUTES).ToInternalValue();

   // Being pinned is most important.
   if (first.is_pinned != second.is_pinned)
     return first.is_pinned == true;

   // We want to be a little "fuzzy" when we compare these, because
   // it's not really possible for the times to be identical, but if
   // the user selected two tabs at about the same time, we still want
   // to take the one that uses more memory.
   if (abs((first.last_selected - second.last_selected).ToInternalValue()) <
       kTimeBucketInterval)
     return first.last_selected < second.last_selected;

   return first.memory_used < second.memory_used;
 }

 // Here we collect most of the information we need to sort the
 // existing renderers in priority order, and hand out oom_adj scores
 // based on that sort order.
 //
 // Things we need to collect on the browser thread (because
 // TabStripModel isn't thread safe):
 // 1) whether or not a tab is pinned
 // 2) last time a tab was selected
 //
 // We also need to collect:
 // 3) size in memory of a tab
 // But we do that in DoAdjustOomPriorities on the FILE thread so that
 // we avoid jank, because it accesses /proc.
 void OomPriorityManager::AdjustOomPriorities() {
   if (BrowserList::size() == 0)
     return;

   StatsList renderer_stats;
   for (BrowserList::const_iterator browser_iterator = BrowserList::begin();
        browser_iterator != BrowserList::end(); ++browser_iterator) {
     Browser* browser = *browser_iterator;
     const TabStripModel* model = browser->tabstrip_model();
     for (int i = 0; i < model->count(); i++) {
       TabContents* contents = model->GetTabContentsAt(i)->tab_contents();
       RendererStats stats;
       stats.last_selected = contents->last_selected_time();
       stats.renderer_handle = contents->GetRenderProcessHost()->GetHandle();
       stats.is_pinned = model->IsTabPinned(i);
       stats.memory_used = 0; // This gets calculated in DoAdjustOomPriorities.
       renderer_stats.push_back(stats);
     }
   }

   BrowserThread::PostTask(
       BrowserThread::FILE, FROM_HERE,
       NewRunnableMethod(this, &OomPriorityManager::DoAdjustOomPriorities,
                         renderer_stats));
 }

 void OomPriorityManager::DoAdjustOomPriorities(StatsList renderer_stats) {
   for (StatsList::iterator stats_iter = renderer_stats.begin();
        stats_iter != renderer_stats.end(); ++stats_iter) {
     scoped_ptr<ProcessMetrics> metrics(ProcessMetrics::CreateProcessMetrics(
         stats_iter->renderer_handle));

     base::WorkingSetKBytes working_set_kbytes;
     if (metrics->GetWorkingSetKBytes(&working_set_kbytes)) {
       // We use the proportional set size (PSS) to calculate memory
       // usage "badness" on Linux.
       stats_iter->memory_used = working_set_kbytes.shared * 1024;
     } else {
       // and if for some reason we can't get PSS, we revert to using
       // resident set size (RSS).  This will be zero if the process
       // has already gone away, but we can live with that, since the
       // process is gone anyhow.
       stats_iter->memory_used = metrics->GetWorkingSetSize();
     }
   }

   // Now we sort the data we collected so that least desirable to be
   // killed is first, most desirable is last.
   renderer_stats.sort(OomPriorityManager::CompareRendererStats);

   // Now we assign priorities based on the sorted list.  We're
   // assigning priorities in the range of 5 to 10.  oom_adj takes
   // values from -17 to 15.  Negative values are reserved for system
   // processes, and we want to give some room on either side of the
   // range we're using to allow for things that want to be above or
   // below the renderers in priority, so 5 to 10 gives us some
   // variation in priority without taking up the whole range.  In the
   // end, however, it's a pretty arbitrary range to use.  Higher
   // values are more likely to be killed by the OOM killer.  We also
   // remove any duplicate PIDs, leaving the most important of the
   // duplicates.
   const int kMinPriority = 5;
   const int kMaxPriority = 10;
   const int kPriorityRange = kMaxPriority - kMinPriority;
   float priority_increment =
       static_cast<float>(kPriorityRange) / renderer_stats.size();
   float priority = kMinPriority;
   std::set<base::ProcessHandle> already_seen;
   for (StatsList::iterator iterator = renderer_stats.begin();
        iterator != renderer_stats.end(); ++iterator) {
     if (already_seen.find(iterator->renderer_handle) == already_seen.end()) {
       already_seen.insert(iterator->renderer_handle);
       ZygoteHost::GetInstance()->AdjustRendererOOMScore(
           iterator->renderer_handle,
           static_cast<int>(priority + 0.5f));
       priority += priority_increment;
     }
   }
 }

 }  // namespace browser
	// Copyright (c) 2011 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 "chrome/browser/oom_priority_manager.h"

	#include <list>

	#include "base/process.h"
	#include "base/process_util.h"
	#include "base/threading/thread.h"
	#include "build/build_config.h"
	#include "chrome/browser/tabs/tab_strip_model.h"
	#include "chrome/browser/ui/browser_list.h"
	#include "chrome/browser/ui/tab_contents/tab_contents_wrapper.h"
	#include "content/browser/browser_thread.h"
	#include "content/browser/renderer_host/render_process_host.h"
	#include "content/browser/tab_contents/tab_contents.h"
	#include "content/browser/zygote_host_linux.h"

	#if !defined(OS_CHROMEOS)
	#error This file only meant to be compiled on ChromeOS
	#endif

	using base::TimeDelta;
	using base::TimeTicks;
	using base::ProcessHandle;
	using base::ProcessMetrics;

	namespace browser {

	// The default interval in seconds after which to adjust the oom_adj
	// value.
	#define ADJUSTMENT_INTERVAL_SECONDS 10

	// The default interval in minutes for considering activation times
	// "equal".
	#define BUCKET_INTERVAL_MINUTES 10

	OomPriorityManager::OomPriorityManager() {
	StartTimer();
	}

	OomPriorityManager::~OomPriorityManager() {
	StopTimer();
	}

	void OomPriorityManager::StartTimer() {
	if (!timer_.IsRunning()) {
	timer_.Start(TimeDelta::FromSeconds(ADJUSTMENT_INTERVAL_SECONDS),
	this,
	&OomPriorityManager::AdjustOomPriorities);
	}
	}

	void OomPriorityManager::StopTimer() {
	timer_.Stop();
	}

	// Returns true if \|first\| is considered less desirable to be killed
	// than \|second\|.
	bool OomPriorityManager::CompareRendererStats(RendererStats first,
	RendererStats second) {
	// The size of the slop in comparing activation times. [This is
	// allocated here to avoid static initialization at startup time.]
	static const int64 kTimeBucketInterval =
	TimeDelta::FromMinutes(BUCKET_INTERVAL_MINUTES).ToInternalValue();

	// Being pinned is most important.
	if (first.is_pinned != second.is_pinned)
	return first.is_pinned == true;

	// We want to be a little "fuzzy" when we compare these, because
	// it's not really possible for the times to be identical, but if
	// the user selected two tabs at about the same time, we still want
	// to take the one that uses more memory.
	if (abs((first.last_selected - second.last_selected).ToInternalValue()) <
	kTimeBucketInterval)
	return first.last_selected < second.last_selected;

	return first.memory_used < second.memory_used;
	}

	// Here we collect most of the information we need to sort the
	// existing renderers in priority order, and hand out oom_adj scores
	// based on that sort order.
	//
	// Things we need to collect on the browser thread (because
	// TabStripModel isn't thread safe):
	// 1) whether or not a tab is pinned
	// 2) last time a tab was selected
	//
	// We also need to collect:
	// 3) size in memory of a tab
	// But we do that in DoAdjustOomPriorities on the FILE thread so that
	// we avoid jank, because it accesses /proc.
	void OomPriorityManager::AdjustOomPriorities() {
	if (BrowserList::size() == 0)
	return;

	StatsList renderer_stats;
	for (BrowserList::const_iterator browser_iterator = BrowserList::begin();
	browser_iterator != BrowserList::end(); ++browser_iterator) {
	Browser* browser = *browser_iterator;
	const TabStripModel* model = browser->tabstrip_model();
	for (int i = 0; i < model->count(); i++) {
	TabContents* contents = model->GetTabContentsAt(i)->tab_contents();
	RendererStats stats;
	stats.last_selected = contents->last_selected_time();
	stats.renderer_handle = contents->GetRenderProcessHost()->GetHandle();
	stats.is_pinned = model->IsTabPinned(i);
	stats.memory_used = 0; // This gets calculated in DoAdjustOomPriorities.
	renderer_stats.push_back(stats);
	}
	}

	BrowserThread::PostTask(
	BrowserThread::FILE, FROM_HERE,
	NewRunnableMethod(this, &OomPriorityManager::DoAdjustOomPriorities,
	renderer_stats));
	}

	void OomPriorityManager::DoAdjustOomPriorities(StatsList renderer_stats) {
	for (StatsList::iterator stats_iter = renderer_stats.begin();
	stats_iter != renderer_stats.end(); ++stats_iter) {
	scoped_ptr<ProcessMetrics> metrics(ProcessMetrics::CreateProcessMetrics(
	stats_iter->renderer_handle));

	base::WorkingSetKBytes working_set_kbytes;
	if (metrics->GetWorkingSetKBytes(&working_set_kbytes)) {
	// We use the proportional set size (PSS) to calculate memory
	// usage "badness" on Linux.
	stats_iter->memory_used = working_set_kbytes.shared * 1024;
	} else {
	// and if for some reason we can't get PSS, we revert to using
	// resident set size (RSS). This will be zero if the process
	// has already gone away, but we can live with that, since the
	// process is gone anyhow.
	stats_iter->memory_used = metrics->GetWorkingSetSize();
	}
	}

	// Now we sort the data we collected so that least desirable to be
	// killed is first, most desirable is last.
	renderer_stats.sort(OomPriorityManager::CompareRendererStats);

	// Now we assign priorities based on the sorted list. We're
	// assigning priorities in the range of 5 to 10. oom_adj takes
	// values from -17 to 15. Negative values are reserved for system
	// processes, and we want to give some room on either side of the
	// range we're using to allow for things that want to be above or
	// below the renderers in priority, so 5 to 10 gives us some
	// variation in priority without taking up the whole range. In the
	// end, however, it's a pretty arbitrary range to use. Higher
	// values are more likely to be killed by the OOM killer. We also
	// remove any duplicate PIDs, leaving the most important of the
	// duplicates.
	const int kMinPriority = 5;
	const int kMaxPriority = 10;
	const int kPriorityRange = kMaxPriority - kMinPriority;
	float priority_increment =
	static_cast<float>(kPriorityRange) / renderer_stats.size();
	float priority = kMinPriority;
	std::set<base::ProcessHandle> already_seen;
	for (StatsList::iterator iterator = renderer_stats.begin();
	iterator != renderer_stats.end(); ++iterator) {
	if (already_seen.find(iterator->renderer_handle) == already_seen.end()) {
	already_seen.insert(iterator->renderer_handle);
	ZygoteHost::GetInstance()->AdjustRendererOOMScore(
	iterator->renderer_handle,
	static_cast<int>(priority + 0.5f));
	priority += priority_increment;
	}
	}
	}

	} // namespace browser