chrome/browser/memory_details_linux.cc - chromium/chromium - 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 "chrome/browser/memory_details.h"

 #include <sys/types.h>
 #include <unistd.h>

 #include <map>
 #include <set>

 #include "base/bind.h"
 #include "base/file_util.h"
 #include "base/process/process_iterator.h"
 #include "base/process/process_metrics.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/strings/string_util.h"
 #include "base/strings/utf_string_conversions.h"
 #include "chrome/common/chrome_constants.h"
 #include "content/public/browser/browser_thread.h"
 #include "content/public/common/process_type.h"
 #include "grit/chromium_strings.h"
 #include "ui/base/l10n/l10n_util.h"

 using base::ProcessEntry;
 using content::BrowserThread;

 // Known browsers which we collect details for.
 enum BrowserType {
   CHROME = 0,
   FIREFOX,
   ICEWEASEL,
   OPERA,
   KONQUEROR,
   EPIPHANY,
   MIDORI,
   MAX_BROWSERS
 } BrowserProcess;

 // The pretty printed names of those browsers. Matches up with enum
 // BrowserType.
 static const char kBrowserPrettyNames[][10] = {
   "Chrome",
   "Firefox",
   "Iceweasel",
   "Opera",
   "Konqueror",
   "Epiphany",
   "Midori",
 };

 // A mapping from process name to the type of browser.
 static const struct {
   const char process_name[16];
   BrowserType browser;
 } kBrowserBinaryNames[] = {
   { "firefox", FIREFOX },
   { "firefox-3.5", FIREFOX },
   { "firefox-3.0", FIREFOX },
   { "firefox-bin", FIREFOX },
   { "iceweasel", ICEWEASEL },
   { "opera", OPERA },
   { "konqueror", KONQUEROR },
   { "epiphany-browse", EPIPHANY },
   { "epiphany", EPIPHANY },
   { "midori", MIDORI },
   { "", MAX_BROWSERS },
 };

 MemoryDetails::MemoryDetails()
     : user_metrics_mode_(UPDATE_USER_METRICS),
       memory_growth_tracker_(NULL) {
 }

 ProcessData* MemoryDetails::ChromeBrowser() {
   return &process_data_[0];
 }

 struct Process {
   pid_t pid;
   pid_t parent;
   std::string name;
 };

 typedef std::map<pid_t, Process> ProcessMap;

 // Get information on all the processes running on the system.
 static ProcessMap GetProcesses() {
   ProcessMap map;

   base::ProcessIterator process_iter(NULL);
   while (const ProcessEntry* process_entry = process_iter.NextProcessEntry()) {
     Process process;
     process.pid = process_entry->pid();
     process.parent = process_entry->parent_pid();
     process.name = process_entry->exe_file();
     map.insert(std::make_pair(process.pid, process));
   }
   return map;
 }

 // Given a process name, return the type of the browser which created that
 // process, or |MAX_BROWSERS| if we don't know about it.
 static BrowserType GetBrowserType(const std::string& process_name) {
   for (unsigned i = 0; kBrowserBinaryNames[i].process_name[0]; ++i) {
     if (strcmp(process_name.c_str(), kBrowserBinaryNames[i].process_name) == 0)
       return kBrowserBinaryNames[i].browser;
   }

   return MAX_BROWSERS;
 }

 // For each of a list of pids, collect memory information about that process.
 static ProcessData GetProcessDataMemoryInformation(
     const std::vector<pid_t>& pids) {
   ProcessData process_data;
   for (std::vector<pid_t>::const_iterator iter = pids.begin();
        iter != pids.end();
        ++iter) {
     ProcessMemoryInformation pmi;

     pmi.pid = *iter;
     pmi.num_processes = 1;

     if (pmi.pid == base::GetCurrentProcId())
       pmi.process_type = content::PROCESS_TYPE_BROWSER;
     else
       pmi.process_type = content::PROCESS_TYPE_UNKNOWN;

     base::ProcessMetrics* metrics =
         base::ProcessMetrics::CreateProcessMetrics(*iter);
     metrics->GetWorkingSetKBytes(&pmi.working_set);
     delete metrics;

     process_data.processes.push_back(pmi);
   }
   return process_data;
 }

 // Find all children of the given process with pid |root|.
 static std::vector<pid_t> GetAllChildren(const ProcessMap& processes,
                                          const pid_t root) {
   std::vector<pid_t> children;
   children.push_back(root);

   std::set<pid_t> wavefront, next_wavefront;
   wavefront.insert(root);

   while (wavefront.size()) {
     for (ProcessMap::const_iterator iter = processes.begin();
          iter != processes.end();
          ++iter) {
       const Process& process = iter->second;
       if (wavefront.count(process.parent)) {
         children.push_back(process.pid);
         next_wavefront.insert(process.pid);
       }
     }

     wavefront.clear();
     wavefront.swap(next_wavefront);
   }
   return children;
 }

 void MemoryDetails::CollectProcessData(
     const std::vector<ProcessMemoryInformation>& child_info) {
   DCHECK(BrowserThread::CurrentlyOn(BrowserThread::FILE));

   ProcessMap process_map = GetProcesses();
   std::set<pid_t> browsers_found;

   // For each process on the system, if it appears to be a browser process and
   // it's parent isn't a browser process, then record it in |browsers_found|.
   for (ProcessMap::const_iterator iter = process_map.begin();
        iter != process_map.end();
        ++iter) {
     const Process& current_process = iter->second;
     const BrowserType type = GetBrowserType(current_process.name);
     if (type == MAX_BROWSERS)
       continue;

     ProcessMap::const_iterator parent_iter =
         process_map.find(current_process.parent);
     if (parent_iter == process_map.end()) {
       browsers_found.insert(current_process.pid);
       continue;
     }

     if (GetBrowserType(parent_iter->second.name) != type) {
       // We found a process whose type is diffent from its parent's type.
       // That means it is the root process of the browser.
       browsers_found.insert(current_process.pid);
       break;
     }
   }

   ProcessData current_browser =
       GetProcessDataMemoryInformation(GetAllChildren(process_map, getpid()));
   current_browser.name = l10n_util::GetStringUTF16(IDS_SHORT_PRODUCT_NAME);
   current_browser.process_name = base::ASCIIToUTF16("chrome");

   for (std::vector<ProcessMemoryInformation>::iterator
        i = current_browser.processes.begin();
        i != current_browser.processes.end(); ++i) {
     // Check if this is one of the child processes whose data we collected
     // on the IO thread, and if so copy over that data.
     for (size_t child = 0; child < child_info.size(); child++) {
       if (child_info[child].pid != i->pid)
         continue;
       i->titles = child_info[child].titles;
       i->process_type = child_info[child].process_type;
       break;
     }
   }

   process_data_.push_back(current_browser);

   // For each browser process, collect a list of its children and get the
   // memory usage of each.
   for (std::set<pid_t>::const_iterator iter = browsers_found.begin();
        iter != browsers_found.end();
        ++iter) {
     std::vector<pid_t> browser_processes = GetAllChildren(process_map, *iter);
     ProcessData browser = GetProcessDataMemoryInformation(browser_processes);

     ProcessMap::const_iterator process_iter = process_map.find(*iter);
     if (process_iter == process_map.end())
       continue;
     BrowserType type = GetBrowserType(process_iter->second.name);
     if (type != MAX_BROWSERS)
       browser.name = base::ASCIIToUTF16(kBrowserPrettyNames[type]);
     process_data_.push_back(browser);
   }

 #if defined(OS_CHROMEOS)
   base::GetSwapInfo(&swap_info_);
 #endif

   // Finally return to the browser thread.
   BrowserThread::PostTask(
       BrowserThread::UI, FROM_HERE,
       base::Bind(&MemoryDetails::CollectChildInfoOnUIThread, this));
 }
	// 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 "chrome/browser/memory_details.h"

	#include <sys/types.h>
	#include <unistd.h>

	#include <map>
	#include <set>

	#include "base/bind.h"
	#include "base/file_util.h"
	#include "base/process/process_iterator.h"
	#include "base/process/process_metrics.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/strings/string_util.h"
	#include "base/strings/utf_string_conversions.h"
	#include "chrome/common/chrome_constants.h"
	#include "content/public/browser/browser_thread.h"
	#include "content/public/common/process_type.h"
	#include "grit/chromium_strings.h"
	#include "ui/base/l10n/l10n_util.h"

	using base::ProcessEntry;
	using content::BrowserThread;

	// Known browsers which we collect details for.
	enum BrowserType {
	CHROME = 0,
	FIREFOX,
	ICEWEASEL,
	OPERA,
	KONQUEROR,
	EPIPHANY,
	MIDORI,
	MAX_BROWSERS
	} BrowserProcess;

	// The pretty printed names of those browsers. Matches up with enum
	// BrowserType.
	static const char kBrowserPrettyNames[][10] = {
	"Chrome",
	"Firefox",
	"Iceweasel",
	"Opera",
	"Konqueror",
	"Epiphany",
	"Midori",
	};

	// A mapping from process name to the type of browser.
	static const struct {
	const char process_name[16];
	BrowserType browser;
	} kBrowserBinaryNames[] = {
	{ "firefox", FIREFOX },
	{ "firefox-3.5", FIREFOX },
	{ "firefox-3.0", FIREFOX },
	{ "firefox-bin", FIREFOX },
	{ "iceweasel", ICEWEASEL },
	{ "opera", OPERA },
	{ "konqueror", KONQUEROR },
	{ "epiphany-browse", EPIPHANY },
	{ "epiphany", EPIPHANY },
	{ "midori", MIDORI },
	{ "", MAX_BROWSERS },
	};

	MemoryDetails::MemoryDetails()
	: user_metrics_mode_(UPDATE_USER_METRICS),
	memory_growth_tracker_(NULL) {
	}

	ProcessData* MemoryDetails::ChromeBrowser() {
	return &process_data_[0];
	}

	struct Process {
	pid_t pid;
	pid_t parent;
	std::string name;
	};

	typedef std::map<pid_t, Process> ProcessMap;

	// Get information on all the processes running on the system.
	static ProcessMap GetProcesses() {
	ProcessMap map;

	base::ProcessIterator process_iter(NULL);
	while (const ProcessEntry* process_entry = process_iter.NextProcessEntry()) {
	Process process;
	process.pid = process_entry->pid();
	process.parent = process_entry->parent_pid();
	process.name = process_entry->exe_file();
	map.insert(std::make_pair(process.pid, process));
	}
	return map;
	}

	// Given a process name, return the type of the browser which created that
	// process, or \|MAX_BROWSERS\| if we don't know about it.
	static BrowserType GetBrowserType(const std::string& process_name) {
	for (unsigned i = 0; kBrowserBinaryNames[i].process_name[0]; ++i) {
	if (strcmp(process_name.c_str(), kBrowserBinaryNames[i].process_name) == 0)
	return kBrowserBinaryNames[i].browser;
	}

	return MAX_BROWSERS;
	}

	// For each of a list of pids, collect memory information about that process.
	static ProcessData GetProcessDataMemoryInformation(
	const std::vector<pid_t>& pids) {
	ProcessData process_data;
	for (std::vector<pid_t>::const_iterator iter = pids.begin();
	iter != pids.end();
	++iter) {
	ProcessMemoryInformation pmi;

	pmi.pid = *iter;
	pmi.num_processes = 1;

	if (pmi.pid == base::GetCurrentProcId())
	pmi.process_type = content::PROCESS_TYPE_BROWSER;
	else
	pmi.process_type = content::PROCESS_TYPE_UNKNOWN;

	base::ProcessMetrics* metrics =
	base::ProcessMetrics::CreateProcessMetrics(*iter);
	metrics->GetWorkingSetKBytes(&pmi.working_set);
	delete metrics;

	process_data.processes.push_back(pmi);
	}
	return process_data;
	}

	// Find all children of the given process with pid \|root\|.
	static std::vector<pid_t> GetAllChildren(const ProcessMap& processes,
	const pid_t root) {
	std::vector<pid_t> children;
	children.push_back(root);

	std::set<pid_t> wavefront, next_wavefront;
	wavefront.insert(root);

	while (wavefront.size()) {
	for (ProcessMap::const_iterator iter = processes.begin();
	iter != processes.end();
	++iter) {
	const Process& process = iter->second;
	if (wavefront.count(process.parent)) {
	children.push_back(process.pid);
	next_wavefront.insert(process.pid);
	}
	}

	wavefront.clear();
	wavefront.swap(next_wavefront);
	}
	return children;
	}

	void MemoryDetails::CollectProcessData(
	const std::vector<ProcessMemoryInformation>& child_info) {
	DCHECK(BrowserThread::CurrentlyOn(BrowserThread::FILE));

	ProcessMap process_map = GetProcesses();
	std::set<pid_t> browsers_found;

	// For each process on the system, if it appears to be a browser process and
	// it's parent isn't a browser process, then record it in \|browsers_found\|.
	for (ProcessMap::const_iterator iter = process_map.begin();
	iter != process_map.end();
	++iter) {
	const Process& current_process = iter->second;
	const BrowserType type = GetBrowserType(current_process.name);
	if (type == MAX_BROWSERS)
	continue;

	ProcessMap::const_iterator parent_iter =
	process_map.find(current_process.parent);
	if (parent_iter == process_map.end()) {
	browsers_found.insert(current_process.pid);
	continue;
	}

	if (GetBrowserType(parent_iter->second.name) != type) {
	// We found a process whose type is diffent from its parent's type.
	// That means it is the root process of the browser.
	browsers_found.insert(current_process.pid);
	break;
	}
	}

	ProcessData current_browser =
	GetProcessDataMemoryInformation(GetAllChildren(process_map, getpid()));
	current_browser.name = l10n_util::GetStringUTF16(IDS_SHORT_PRODUCT_NAME);
	current_browser.process_name = base::ASCIIToUTF16("chrome");

	for (std::vector<ProcessMemoryInformation>::iterator
	i = current_browser.processes.begin();
	i != current_browser.processes.end(); ++i) {
	// Check if this is one of the child processes whose data we collected
	// on the IO thread, and if so copy over that data.
	for (size_t child = 0; child < child_info.size(); child++) {
	if (child_info[child].pid != i->pid)
	continue;
	i->titles = child_info[child].titles;
	i->process_type = child_info[child].process_type;
	break;
	}
	}

	process_data_.push_back(current_browser);

	// For each browser process, collect a list of its children and get the
	// memory usage of each.
	for (std::set<pid_t>::const_iterator iter = browsers_found.begin();
	iter != browsers_found.end();
	++iter) {
	std::vector<pid_t> browser_processes = GetAllChildren(process_map, *iter);
	ProcessData browser = GetProcessDataMemoryInformation(browser_processes);

	ProcessMap::const_iterator process_iter = process_map.find(*iter);
	if (process_iter == process_map.end())
	continue;
	BrowserType type = GetBrowserType(process_iter->second.name);
	if (type != MAX_BROWSERS)
	browser.name = base::ASCIIToUTF16(kBrowserPrettyNames[type]);
	process_data_.push_back(browser);
	}

	#if defined(OS_CHROMEOS)
	base::GetSwapInfo(&swap_info_);
	#endif

	// Finally return to the browser thread.
	BrowserThread::PostTask(
	BrowserThread::UI, FROM_HERE,
	base::Bind(&MemoryDetails::CollectChildInfoOnUIThread, this));
	}