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chromium / chromium / src.git / d323a176fa8c2ef474ce41dd8a1cddacb4fc67ff / . / chrome / browser / component_updater / component_updater_service.cc
blob: d92516a37e8e0ded966fc969fc402f28282dc111 [file] [log] [blame]
// 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/component_updater/component_updater_service.h"
#include <algorithm>
#include <vector>
#include "base/at_exit.h"
#include "base/file_path.h"
#include "base/file_util.h"
#include "base/logging.h"
#include "base/memory/scoped_ptr.h"
#include "base/stl_util.h"
#include "base/string_number_conversions.h"
#include "base/string_util.h"
#include "base/stringprintf.h"
#include "base/timer.h"
#include "chrome/browser/browser_process.h"
#include "chrome/browser/component_updater/component_unpacker.h"
#include "chrome/common/chrome_notification_types.h"
#include "chrome/common/chrome_utility_messages.h"
#include "chrome/common/chrome_version_info.h"
#include "chrome/common/extensions/extension.h"
#include "content/browser/utility_process_host.h"
#include "content/common/notification_service.h"
#include "content/common/url_fetcher.h"
#include "googleurl/src/gurl.h"
#include "net/base/escape.h"
#include "net/base/load_flags.h"
namespace {
// Extends an omaha compatible update check url |query| string. Does
// not mutate the string if it would be longer than |limit| chars.
bool AddQueryString(std::string id, std::string version,
size_t limit, std::string* query) {
std::string additional =
base::StringPrintf("id=%s&v=%s&uc", id.c_str(), version.c_str());
additional = "x=" + EscapeQueryParamValue(additional, true);
if ((additional.size() + query->size() + 1) > limit)
return false;
query->append(1, query->empty()? '?' : '&');
query->append(additional);
return true;
}
// Produces an extension-like friendly |id|. This might be removed in the
// future if we roll our on packing tools.
static std::string HexStringToID(const std::string& hexstr) {
std::string id;
for (size_t i = 0; i < hexstr.size(); ++i) {
int val;
if (base::HexStringToInt(hexstr.begin() + i, hexstr.begin() + i + 1, &val))
id.append(1, val + 'a');
else
id.append(1, 'a');
}
DCHECK(Extension::IdIsValid(id));
return id;
}
// Returns given a crx id it returns a small number, less than 100, that has a
// decent chance of being unique among the registered components. It also has
// the nice property that can be trivially computed by hand.
static int CrxIdtoUMAId(const std::string& id) {
CHECK(id.size() > 2);
return id[0] + id[1] + id[2] - ('a' * 3);
}
// Helper to do version check for components.
bool IsVersionNewer(const Version& current, const std::string& proposed) {
Version proposed_ver(proposed);
if (!proposed_ver.IsValid())
return false;
return (current.CompareTo(proposed_ver) < 0);
}
// Helper template class that allows our main class to have separate
// OnURLFetchComplete() callbacks for diffent types of url requests
// they are differentiated by the |Ctx| type.
template <typename Del, typename Ctx>
class DelegateWithContext : public URLFetcher::Delegate {
public:
DelegateWithContext(Del* delegate, Ctx* context)
: delegate_(delegate), context_(context) {}
virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE {
delegate_->OnURLFetchComplete(source, context_);
delete this;
}
private:
~DelegateWithContext() {}
Del* delegate_;
Ctx* context_;
};
// This function creates the right DelegateWithContext using template inference.
template <typename Del, typename Ctx>
URLFetcher::Delegate* MakeContextDelegate(Del* delegate, Ctx* context) {
return new DelegateWithContext<Del, Ctx>(delegate, context);
}
// Helper to start a url request using |fetcher| with the common flags.
void StartFetch(URLFetcher* fetcher,
net::URLRequestContextGetter* context_getter,
bool save_to_file) {
fetcher->set_request_context(context_getter);
fetcher->set_load_flags(net::LOAD_DO_NOT_SEND_COOKIES |
net::LOAD_DO_NOT_SAVE_COOKIES |
net::LOAD_DISABLE_CACHE);
// TODO(cpu): Define our retry and backoff policy.
fetcher->set_automatically_retry_on_5xx(false);
if (save_to_file) {
fetcher->SaveResponseToTemporaryFile(
BrowserThread::GetMessageLoopProxyForThread(BrowserThread::FILE));
}
fetcher->Start();
}
// Returs true if the url request of |fetcher| was succesful.
bool FetchSuccess(const URLFetcher& fetcher) {
return (fetcher.status().status() == net::URLRequestStatus::SUCCESS) &&
(fetcher.response_code() == 200);
}
// This is the one and only per-item state structure. Designed to be hosted
// in a std::vector or a std::list. The two main members are |component|
// which is supplied by the the component updater client and |status| which
// is modified as the item is processed by the update pipeline. The expected
// transition graph is:
// error error error
// +--kNoUpdate<------<-------+------<------+------<------+
// | | | |
// V yes | | |
// kNew --->kChecking-->[update?]----->kCanUpdate-->kDownloading-->kUpdating
// ^ | |
// | |no |
// |--kUpToDate<---+ |
// | success |
// +--kUpdated<-------------------------------------------+
//
struct CrxUpdateItem {
enum Status {
kNew,
kChecking,
kCanUpdate,
kDownloading,
kUpdating,
kUpdated,
kUpToDate,
kNoUpdate,
kLastStatus
};
Status status;
GURL crx_url;
std::string id;
base::Time last_check;
CrxComponent component;
Version next_version;
CrxUpdateItem() : status(kNew) {}
// Function object used to find a specific component.
class FindById {
public:
explicit FindById(const std::string& id) : id_(id) {}
bool operator() (CrxUpdateItem* item) const {
return (item->id == id_);
}
private:
const std::string& id_;
};
};
} // namespace.
typedef ComponentUpdateService::Configurator Config;
CrxComponent::CrxComponent() {}
CrxComponent::~CrxComponent() {}
//////////////////////////////////////////////////////////////////////////////
// The one and only implementation of the ComponentUpdateService interface. In
// charge of running the show. The main method is ProcessPendingItems() which
// is called periodically to do the updgrades/installs or the update checks.
// An important consideration here is to be as "low impact" as we can to the
// rest of the browser, so even if we have many components registered and
// elegible for update, we only do one thing at a time with pauses in between
// the tasks. Also when we do network requests there is only one |url_fetcher_|
// in flight at at a time.
// There are no locks in this code, the main structure |work_items_| is mutated
// only from the UI thread. The unpack and installation is done in the file
// thread and the network requests are done in the IO thread and in the file
// thread.
class CrxUpdateService : public ComponentUpdateService {
public:
explicit CrxUpdateService(ComponentUpdateService::Configurator* config);
virtual ~CrxUpdateService();
// Overrides for ComponentUpdateService.
virtual Status Start() OVERRIDE;
virtual Status Stop() OVERRIDE;
virtual Status RegisterComponent(const CrxComponent& component) OVERRIDE;
// The only purpose of this class is to forward the
// UtilityProcessHost::Client callbacks so CrxUpdateService does
// not have to derive from it because that is refcounted.
class ManifestParserBridge : public UtilityProcessHost::Client {
public:
explicit ManifestParserBridge(CrxUpdateService* service)
: service_(service) {}
virtual bool OnMessageReceived(const IPC::Message& message) OVERRIDE {
bool handled = true;
IPC_BEGIN_MESSAGE_MAP(ManifestParserBridge, message)
IPC_MESSAGE_HANDLER(ChromeUtilityHostMsg_ParseUpdateManifest_Succeeded,
OnParseUpdateManifestSucceeded)
IPC_MESSAGE_HANDLER(ChromeUtilityHostMsg_ParseUpdateManifest_Failed,
OnParseUpdateManifestFailed)
IPC_MESSAGE_UNHANDLED(handled = false)
IPC_END_MESSAGE_MAP()
return handled;
}
private:
// Omaha update response XML was succesfuly parsed.
void OnParseUpdateManifestSucceeded(const UpdateManifest::Results& r) {
service_->OnParseUpdateManifestSucceeded(r);
}
// Omaha update response XML could not be parsed.
void OnParseUpdateManifestFailed(const std::string& e) {
service_->OnParseUpdateManifestFailed(e);
}
CrxUpdateService* service_;
DISALLOW_COPY_AND_ASSIGN(ManifestParserBridge);
};
// Context for a update check url request. See DelegateWithContext above.
struct UpdateContext {
base::Time start;
UpdateContext() : start(base::Time::Now()) {}
};
// Context for a crx download url request. See DelegateWithContext above.
struct CRXContext {
ComponentInstaller* installer;
std::vector<uint8> pk_hash;
std::string id;
CRXContext() : installer(NULL) {}
};
void OnURLFetchComplete(const URLFetcher* source, UpdateContext* context);
void OnURLFetchComplete(const URLFetcher* source, CRXContext* context);
private:
// See ManifestParserBridge.
void OnParseUpdateManifestSucceeded(
const UpdateManifest::Results& results);
// See ManifestParserBridge.
void OnParseUpdateManifestFailed(
const std::string& error_message);
bool AddItemToUpdateCheck(CrxUpdateItem* item, std::string* query);
void ProcessPendingItems();
void ScheduleNextRun(bool step_delay);
void ParseManifest(const std::string& xml);
void Install(const CRXContext* context, const FilePath& crx_path);
void DoneInstalling(const std::string& component_id,
ComponentUnpacker::Error error);
size_t ChangeItemStatus(CrxUpdateItem::Status from,
CrxUpdateItem::Status to);
CrxUpdateItem* FindUpdateItemById(const std::string& id);
scoped_ptr<Config> config_;
scoped_ptr<URLFetcher> url_fetcher_;
typedef std::vector<CrxUpdateItem*> UpdateItems;
UpdateItems work_items_;
base::OneShotTimer<CrxUpdateService> timer_;
Version chrome_version_;
bool running_;
DISALLOW_COPY_AND_ASSIGN(CrxUpdateService);
};
// The component updater is designed to live until process shutdown, besides
// we can't be refcounted because we are a singleton.
DISABLE_RUNNABLE_METHOD_REFCOUNT(CrxUpdateService);
//////////////////////////////////////////////////////////////////////////////
CrxUpdateService::CrxUpdateService(
ComponentUpdateService::Configurator* config)
: config_(config),
chrome_version_(chrome::VersionInfo().Version()),
running_(false) {
}
CrxUpdateService::~CrxUpdateService() {
// Because we are a singleton, at this point only the UI thread should be
// alive, this simplifies the management of the work that could be in
// flight in other threads.
Stop();
STLDeleteElements(&work_items_);
}
ComponentUpdateService::Status CrxUpdateService::Start() {
// Note that RegisterComponent will call Start() when the first
// component is registered, so it can be called twice. This way
// we avoid scheduling the timer if there is no work to do.
running_ = true;
if (work_items_.empty())
return kOk;
NotificationService::current()->Notify(
chrome::NOTIFICATION_COMPONENT_UPDATER_STARTED,
Source<ComponentUpdateService>(this),
NotificationService::NoDetails());
timer_.Start(FROM_HERE, base::TimeDelta::FromSeconds(config_->InitialDelay()),
this, &CrxUpdateService::ProcessPendingItems);
return kOk;
}
// Stop the main check + update loop. In flight operations will be
// completed.
ComponentUpdateService::Status CrxUpdateService::Stop() {
running_ = false;
timer_.Stop();
return kOk;
}
// This function sets the timer which will call ProcessPendingItems() there
// are two kind of waits, the short one (with step_delay = true) and the
// long one.
void CrxUpdateService::ScheduleNextRun(bool step_delay) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
DCHECK(url_fetcher_.get() == NULL);
CHECK(!timer_.IsRunning());
// It could be the case that Stop() had been called while a url request
// or unpacking was in flight, if so we arrive here but |running_| is
// false. In that case do not loop again.
if (!running_)
return;
int64 delay = step_delay ? config_->StepDelay() : config_->NextCheckDelay();
if (!step_delay) {
NotificationService::current()->Notify(
chrome::NOTIFICATION_COMPONENT_UPDATER_SLEEPING,
Source<ComponentUpdateService>(this),
NotificationService::NoDetails());
// Zero is only used for unit tests.
if (0 == delay)
return;
}
timer_.Start(FROM_HERE, base::TimeDelta::FromSeconds(delay),
this, &CrxUpdateService::ProcessPendingItems);
}
// Given a extension-like component id, find the associated component.
CrxUpdateItem* CrxUpdateService::FindUpdateItemById(const std::string& id) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
CrxUpdateItem::FindById finder(id);
UpdateItems::iterator it = std::find_if(work_items_.begin(),
work_items_.end(),
finder);
if (it == work_items_.end())
return NULL;
return (*it);
}
// Changes all the components in |work_items_| that have |from| status to
// |to| statatus and returns how many have been changed.
size_t CrxUpdateService::ChangeItemStatus(CrxUpdateItem::Status from,
CrxUpdateItem::Status to) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
size_t count = 0;
for (UpdateItems::iterator it = work_items_.begin();
it != work_items_.end(); ++it) {
CrxUpdateItem* item = *it;
if (item->status != from)
continue;
item->status = to;
++count;
}
return count;
}
// Adds a component to be checked for upgrades. If the component exists it
// it will be replaced and the return code is kReplaced.
//
// TODO(cpu): Evaluate if we want to support un-registration.
ComponentUpdateService::Status CrxUpdateService::RegisterComponent(
const CrxComponent& component) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
if (component.pk_hash.empty() ||
!component.version.IsValid() ||
!component.installer)
return kError;
std::string id =
HexStringToID(StringToLowerASCII(base::HexEncode(&component.pk_hash[0],
component.pk_hash.size()/2)));
CrxUpdateItem* uit;
uit = FindUpdateItemById(id);
if (uit) {
uit->component = component;
return kReplaced;
}
uit = new CrxUpdateItem;
uit->id.swap(id);
uit->component = component;
work_items_.push_back(uit);
// If this is the first component registered we call Start to
// schedule the first timer.
if (running_ && (work_items_.size() == 1))
Start();
return kOk;
}
// Sets a component to be checked for updates.
// The componet to add is |crxit| and the |query| string is modified with the
// required omaha compatible query. Returns false when the query strings
// is longer than specified by UrlSizeLimit().
bool CrxUpdateService::AddItemToUpdateCheck(CrxUpdateItem* item,
std::string* query) {
if (!AddQueryString(item->id,
item->component.version.GetString(),
config_->UrlSizeLimit(), query))
return false;
item->status = CrxUpdateItem::kChecking;
item->last_check = base::Time::Now();
return true;
}
// Here is where the work gets scheduled. Given that our |work_items_| list
// is expected to be ten or less items, we simply loop several times.
void CrxUpdateService::ProcessPendingItems() {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
// First check for ready upgrades and do one. The first
// step is to fetch the crx package.
for (UpdateItems::const_iterator it = work_items_.begin();
it != work_items_.end(); ++it) {
CrxUpdateItem* item = *it;
if (item->status != CrxUpdateItem::kCanUpdate)
continue;
// Found component to update, start the process.
item->status = CrxUpdateItem::kDownloading;
CRXContext* context = new CRXContext;
context->pk_hash = item->component.pk_hash;
context->id = item->id;
context->installer = item->component.installer;
url_fetcher_.reset(URLFetcher::Create(0, item->crx_url, URLFetcher::GET,
MakeContextDelegate(this, context)));
StartFetch(url_fetcher_.get(), config_->RequestContext(), true);
return;
}
std::string query;
// If no pending upgrades, we check the if there are new
// components we have not checked against the server. We
// can batch a bunch in a single url request.
for (UpdateItems::const_iterator it = work_items_.begin();
it != work_items_.end(); ++it) {
CrxUpdateItem* item = *it;
if (item->status != CrxUpdateItem::kNew)
continue;
if (!AddItemToUpdateCheck(item, &query))
break;
}
// Next we can go back to components we already checked, here
// we can also batch them in a single url request, as long as
// we have not checked them recently.
base::TimeDelta min_delta_time =
base::TimeDelta::FromSeconds(config_->MinimumReCheckWait());
for (UpdateItems::const_iterator it = work_items_.begin();
it != work_items_.end(); ++it) {
CrxUpdateItem* item = *it;
if ((item->status != CrxUpdateItem::kNoUpdate) &&
(item->status != CrxUpdateItem::kUpToDate))
continue;
base::TimeDelta delta = base::Time::Now() - item->last_check;
if (delta < min_delta_time)
continue;
if (!AddItemToUpdateCheck(item, &query))
break;
}
// Finally, we check components that we already updated.
for (UpdateItems::const_iterator it = work_items_.begin();
it != work_items_.end(); ++it) {
CrxUpdateItem* item = *it;
if (item->status != CrxUpdateItem::kUpdated)
continue;
base::TimeDelta delta = base::Time::Now() - item->last_check;
if (delta < min_delta_time)
continue;
if (!AddItemToUpdateCheck(item, &query))
break;
}
if (query.empty()) {
// Next check after the long sleep.
ScheduleNextRun(false);
return;
}
// We got components to check. Start the url request.
GURL url(config_->UpdateUrl().spec() + query);
url_fetcher_.reset(URLFetcher::Create(0, url, URLFetcher::GET,
MakeContextDelegate(this, new UpdateContext())));
StartFetch(url_fetcher_.get(), config_->RequestContext(), false);
}
// Caled when we got a response from the update server. It consists of an xml
// document following the omaha update scheme.
void CrxUpdateService::OnURLFetchComplete(const URLFetcher* source,
UpdateContext* context) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
if (FetchSuccess(*source)) {
std::string xml;
source->GetResponseAsString(&xml);
url_fetcher_.reset();
ParseManifest(xml);
} else {
url_fetcher_.reset();
CrxUpdateService::OnParseUpdateManifestFailed("network error");
}
delete context;
}
// Parsing the manifest is either done right now for tests or in a sandboxed
// process for the production environment. This mitigates the case where an
// attacker was able to feed us a malicious xml string.
void CrxUpdateService::ParseManifest(const std::string& xml) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
if (config_->InProcess()) {
UpdateManifest manifest;
if (!manifest.Parse(xml)) {
CrxUpdateService::OnParseUpdateManifestFailed(manifest.errors());
} else {
CrxUpdateService::OnParseUpdateManifestSucceeded(manifest.results());
}
} else {
UtilityProcessHost* host =
new UtilityProcessHost(new ManifestParserBridge(this),
BrowserThread::UI);
host->Send(new ChromeUtilityMsg_ParseUpdateManifest(xml));
}
}
// A valid Omaha update check has arrived, from only the list of components that
// we are currently upgrading we check for a match in which the server side
// version is newer, if so we queue them for an upgrade. The next time we call
// ProcessPendingItems() one of them will be drafted for the upgrade process.
void CrxUpdateService::OnParseUpdateManifestSucceeded(
const UpdateManifest::Results& results) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
int update_pending = 0;
std::vector<UpdateManifest::Result>::const_iterator it;
for (it = results.list.begin(); it != results.list.end(); ++it) {
CrxUpdateItem* crx = FindUpdateItemById(it->extension_id);
if (!crx)
continue;
if (crx->status != CrxUpdateItem::kChecking)
continue; // Not updating this component now.
config_->OnEvent(Configurator::kManifestCheck, CrxIdtoUMAId(crx->id));
if (it->version.empty()) {
// No version means no update available.
crx->status = CrxUpdateItem::kNoUpdate;
continue;
}
if (!IsVersionNewer(crx->component.version, it->version)) {
// Our component is up to date.
crx->status = CrxUpdateItem::kUpToDate;
continue;
}
if (!it->browser_min_version.empty()) {
if (IsVersionNewer(chrome_version_, it->browser_min_version)) {
// Does not apply for this chrome version.
crx->status = CrxUpdateItem::kNoUpdate;
continue;
}
}
// All test passed. Queue an upgrade for this component and fire the
// notifications.
crx->crx_url = it->crx_url;
crx->status = CrxUpdateItem::kCanUpdate;
crx->next_version = Version(it->version);
++update_pending;
NotificationService::current()->Notify(
chrome::NOTIFICATION_COMPONENT_UPDATE_FOUND,
Source<std::string>(&crx->id),
NotificationService::NoDetails());
}
// All the components that are not mentioned in the manifest we
// consider them up to date.
ChangeItemStatus(CrxUpdateItem::kChecking, CrxUpdateItem::kUpToDate);
// If there are updates pending we do a short wait.
ScheduleNextRun(update_pending ? true : false);
}
void CrxUpdateService::OnParseUpdateManifestFailed(
const std::string& error_message) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
size_t count = ChangeItemStatus(CrxUpdateItem::kChecking,
CrxUpdateItem::kNoUpdate);
config_->OnEvent(Configurator::kManifestError, static_cast<int>(count));
DCHECK_GT(count, 0ul);
ScheduleNextRun(false);
}
// Called when the CRX package has been downloaded to a temporary location.
// Here we fire the notifications and schedule the component-specific installer
// to be called in the file thread.
void CrxUpdateService::OnURLFetchComplete(const URLFetcher* source,
CRXContext* context) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
base::PlatformFileError error_code;
if (source->FileErrorOccurred(&error_code) || !FetchSuccess(*source)) {
size_t count = ChangeItemStatus(CrxUpdateItem::kDownloading,
CrxUpdateItem::kNoUpdate);
DCHECK_EQ(count, 1ul);
config_->OnEvent(Configurator::kNetworkError, CrxIdtoUMAId(context->id));
url_fetcher_.reset();
ScheduleNextRun(false);
} else {
FilePath temp_crx_path;
CHECK(source->GetResponseAsFilePath(true, &temp_crx_path));
size_t count = ChangeItemStatus(CrxUpdateItem::kDownloading,
CrxUpdateItem::kUpdating);
DCHECK_EQ(count, 1ul);
url_fetcher_.reset();
NotificationService::current()->Notify(
chrome::NOTIFICATION_COMPONENT_UPDATE_READY,
Source<std::string>(&context->id),
NotificationService::NoDetails());
BrowserThread::PostDelayedTask(BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(this, &CrxUpdateService::Install,
context,
temp_crx_path),
config_->StepDelay());
}
}
// Install consists of digital signature verification, unpacking and then
// calling the component specific installer. All that is handled by the
// |unpacker|. If there is an error this function is in charge of deleting
// the files created.
void CrxUpdateService::Install(const CRXContext* context,
const FilePath& crx_path) {
// This function owns the |crx_path| and the |context| object.
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::FILE));
ComponentUnpacker
unpacker(context->pk_hash, crx_path, context->installer);
if (!file_util::Delete(crx_path, false)) {
NOTREACHED() << crx_path.value();
}
BrowserThread::PostDelayedTask(BrowserThread::UI, FROM_HERE,
NewRunnableMethod(this, &CrxUpdateService::DoneInstalling,
context->id, unpacker.error()),
config_->StepDelay());
delete context;
}
// Installation has been completed. Adjust the component status and
// schedule the next check.
void CrxUpdateService::DoneInstalling(const std::string& component_id,
ComponentUnpacker::Error error) {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
CrxUpdateItem* item = FindUpdateItemById(component_id);
item->status = (error == ComponentUnpacker::kNone) ? CrxUpdateItem::kUpdated :
CrxUpdateItem::kNoUpdate;
if (item->status == CrxUpdateItem::kUpdated)
item->component.version = item->next_version;
Configurator::Events event;
switch (error) {
case ComponentUnpacker::kNone:
event = Configurator::kComponentUpdated;
break;
case ComponentUnpacker::kInstallerError:
event = Configurator::kInstallerError;
break;
default:
event = Configurator::kUnpackError;
break;
}
config_->OnEvent(event, CrxIdtoUMAId(component_id));
ScheduleNextRun(false);
}
// The component update factory. Using the component updater as a singleton
// is the job of the browser process.
ComponentUpdateService* ComponentUpdateServiceFactory(
ComponentUpdateService::Configurator* config) {
DCHECK(config);
return new CrxUpdateService(config);
}