content/browser/memory/memory_monitor_chromeos.cc - chromium/src - Git at Google

 // Copyright (c) 2016 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/memory/memory_monitor_chromeos.h"

 #include "base/memory/ptr_util.h"
 #include "base/process/process_metrics.h"

 namespace content {

 namespace {

 // The number of bits to shift to convert KiB to MiB.
 const int kShiftKiBtoMiB = 10;

 }  // namespace

 MemoryMonitorChromeOS::MemoryMonitorChromeOS(MemoryMonitorDelegate* delegate)
     : delegate_(delegate) {}

 MemoryMonitorChromeOS::~MemoryMonitorChromeOS() {}

 int MemoryMonitorChromeOS::GetFreeMemoryUntilCriticalMB() {
   base::SystemMemoryInfoKB mem_info = {};
   delegate_->GetSystemMemoryInfo(&mem_info);

   // The available memory consists of "real" and virtual (z)ram memory.
   // Since swappable memory uses a non pre-deterministic compression and
   // the compression creates its own "dynamic" in the system, it gets
   // de-emphasized by the |kSwapWeight| factor.
   const int kSwapWeight = 4;

   // The kernel internally uses 50MB.
   const int kMinFileMemory = 50 * 1024;

   // Most file memory can be easily reclaimed.
   int file_memory = mem_info.active_file + mem_info.inactive_file;
   // unless it is dirty or it's a minimal portion which is required.
   file_memory -= mem_info.dirty + kMinFileMemory;

   // Available memory is the sum of free, swap and easy reclaimable memory.
   return (mem_info.free + mem_info.swap_free / kSwapWeight + file_memory) >>
          kShiftKiBtoMiB;
 }

 // static
 std::unique_ptr<MemoryMonitorChromeOS> MemoryMonitorChromeOS::Create(
     MemoryMonitorDelegate* delegate) {
   return base::MakeUnique<MemoryMonitorChromeOS>(delegate);
 }

 // Implementation of factory function defined in memory_monitor.h.
 std::unique_ptr<MemoryMonitor> CreateMemoryMonitor() {
   return MemoryMonitorChromeOS::Create(MemoryMonitorDelegate::GetInstance());
 }

 }  // namespace content
	// Copyright (c) 2016 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/memory/memory_monitor_chromeos.h"

	#include "base/memory/ptr_util.h"
	#include "base/process/process_metrics.h"

	namespace content {

	namespace {

	// The number of bits to shift to convert KiB to MiB.
	const int kShiftKiBtoMiB = 10;

	} // namespace

	MemoryMonitorChromeOS::MemoryMonitorChromeOS(MemoryMonitorDelegate* delegate)
	: delegate_(delegate) {}

	MemoryMonitorChromeOS::~MemoryMonitorChromeOS() {}

	int MemoryMonitorChromeOS::GetFreeMemoryUntilCriticalMB() {
	base::SystemMemoryInfoKB mem_info = {};
	delegate_->GetSystemMemoryInfo(&mem_info);

	// The available memory consists of "real" and virtual (z)ram memory.
	// Since swappable memory uses a non pre-deterministic compression and
	// the compression creates its own "dynamic" in the system, it gets
	// de-emphasized by the \|kSwapWeight\| factor.
	const int kSwapWeight = 4;

	// The kernel internally uses 50MB.
	const int kMinFileMemory = 50 * 1024;

	// Most file memory can be easily reclaimed.
	int file_memory = mem_info.active_file + mem_info.inactive_file;
	// unless it is dirty or it's a minimal portion which is required.
	file_memory -= mem_info.dirty + kMinFileMemory;

	// Available memory is the sum of free, swap and easy reclaimable memory.
	return (mem_info.free + mem_info.swap_free / kSwapWeight + file_memory) >>
	kShiftKiBtoMiB;
	}

	// static
	std::unique_ptr<MemoryMonitorChromeOS> MemoryMonitorChromeOS::Create(
	MemoryMonitorDelegate* delegate) {
	return base::MakeUnique<MemoryMonitorChromeOS>(delegate);
	}

	// Implementation of factory function defined in memory_monitor.h.
	std::unique_ptr<MemoryMonitor> CreateMemoryMonitor() {
	return MemoryMonitorChromeOS::Create(MemoryMonitorDelegate::GetInstance());
	}

	} // namespace content