// Copyright 2014 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 "components/component_updater/component_updater_service.h"
#include <algorithm>
#include <set>
#include <vector>
#include "base/at_exit.h"
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/callback.h"
#include "base/compiler_specific.h"
#include "base/files/file_path.h"
#include "base/files/file_util.h"
#include "base/logging.h"
#include "base/macros.h"
#include "base/memory/scoped_ptr.h"
#include "base/message_loop/message_loop_proxy.h"
#include "base/observer_list.h"
#include "base/sequenced_task_runner.h"
#include "base/stl_util.h"
#include "base/threading/sequenced_worker_pool.h"
#include "base/threading/thread_checker.h"
#include "base/timer/timer.h"
#include "components/component_updater/component_patcher_operation.h"
#include "components/component_updater/component_unpacker.h"
#include "components/component_updater/component_updater_configurator.h"
#include "components/component_updater/component_updater_ping_manager.h"
#include "components/component_updater/component_updater_utils.h"
#include "components/component_updater/crx_downloader.h"
#include "components/component_updater/crx_update_item.h"
#include "components/component_updater/update_checker.h"
#include "components/component_updater/update_response.h"
#include "url/gurl.h"
namespace component_updater {
// The component updater is designed to live until process shutdown, so
// base::Bind() calls are not refcounted.
namespace {
// Returns true if the |proposed| version is newer than |current| version.
bool IsVersionNewer(const Version& current, const std::string& proposed) {
Version proposed_ver(proposed);
return proposed_ver.IsValid() && current.CompareTo(proposed_ver) < 0;
}
// Returns true if a differential update is available, it has not failed yet,
// and the configuration allows it.
bool CanTryDiffUpdate(const CrxUpdateItem* update_item,
const Configurator& config) {
return HasDiffUpdate(update_item) && !update_item->diff_update_failed &&
config.DeltasEnabled();
}
void AppendDownloadMetrics(
const std::vector<CrxDownloader::DownloadMetrics>& source,
std::vector<CrxDownloader::DownloadMetrics>* destination) {
destination->insert(destination->end(), source.begin(), source.end());
}
} // namespace
CrxUpdateItem::CrxUpdateItem()
: status(kNew),
on_demand(false),
diff_update_failed(false),
error_category(0),
error_code(0),
extra_code1(0),
diff_error_category(0),
diff_error_code(0),
diff_extra_code1(0) {
}
CrxUpdateItem::~CrxUpdateItem() {
}
CrxComponent::CrxComponent()
: installer(NULL), allow_background_download(true) {
}
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 upgrades/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
// eligible 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 a time.
// There are no locks in this code, the main structure |work_items_| is mutated
// only from the main thread. The unpack and installation is done in a blocking
// pool thread. The network requests are done in the IO thread or in the file
// thread.
class CrxUpdateService : public ComponentUpdateService, public OnDemandUpdater {
public:
explicit CrxUpdateService(Configurator* config);
virtual ~CrxUpdateService();
// Overrides for ComponentUpdateService.
virtual void AddObserver(Observer* observer) OVERRIDE;
virtual void RemoveObserver(Observer* observer) OVERRIDE;
virtual Status Start() OVERRIDE;
virtual Status Stop() OVERRIDE;
virtual Status RegisterComponent(const CrxComponent& component) OVERRIDE;
virtual std::vector<std::string> GetComponentIDs() const OVERRIDE;
virtual OnDemandUpdater& GetOnDemandUpdater() OVERRIDE;
virtual void MaybeThrottle(const std::string& crx_id,
const base::Closure& callback) OVERRIDE;
virtual scoped_refptr<base::SequencedTaskRunner> GetSequencedTaskRunner()
OVERRIDE;
// Context for a crx download url request.
struct CRXContext {
ComponentInstaller* installer;
std::vector<uint8_t> pk_hash;
std::string id;
std::string fingerprint;
CRXContext() : installer(NULL) {}
};
private:
enum ErrorCategory {
kErrorNone = 0,
kNetworkError,
kUnpackError,
kInstallError,
};
enum StepDelayInterval {
kStepDelayShort = 0,
kStepDelayMedium,
kStepDelayLong,
};
// Overrides for ComponentUpdateService.
virtual bool GetComponentDetails(const std::string& component_id,
CrxUpdateItem* item) const OVERRIDE;
// Overrides for OnDemandUpdater.
virtual Status OnDemandUpdate(const std::string& component_id) OVERRIDE;
void UpdateCheckComplete(const GURL& original_url,
int error,
const std::string& error_message,
const UpdateResponse::Results& results);
void OnUpdateCheckSucceeded(const UpdateResponse::Results& results);
void OnUpdateCheckFailed(int error, const std::string& error_message);
void DownloadProgress(const std::string& component_id,
const CrxDownloader::Result& download_result);
void DownloadComplete(scoped_ptr<CRXContext> crx_context,
const CrxDownloader::Result& download_result);
Status OnDemandUpdateInternal(CrxUpdateItem* item);
Status OnDemandUpdateWithCooldown(CrxUpdateItem* item);
void ProcessPendingItems();
// Find a component that is ready to update.
CrxUpdateItem* FindReadyComponent() const;
// Prepares the components for an update check and initiates the request.
// Returns true if an update check request has been made. Returns false if
// no update check was needed or an error occured.
bool CheckForUpdates();
void UpdateComponent(CrxUpdateItem* workitem);
void ScheduleNextRun(StepDelayInterval step_delay);
void ParseResponse(const std::string& xml);
void Install(scoped_ptr<CRXContext> context, const base::FilePath& crx_path);
void EndUnpacking(const std::string& component_id,
const base::FilePath& crx_path,
ComponentUnpacker::Error error,
int extended_error);
void DoneInstalling(const std::string& component_id,
ComponentUnpacker::Error error,
int extended_error);
void ChangeItemState(CrxUpdateItem* item, CrxUpdateItem::Status to);
size_t ChangeItemStatus(CrxUpdateItem::Status from, CrxUpdateItem::Status to);
CrxUpdateItem* FindUpdateItemById(const std::string& id) const;
void NotifyObservers(Observer::Events event, const std::string& id);
bool HasOnDemandItems() const;
Status GetServiceStatus(const CrxUpdateItem::Status status);
scoped_ptr<Configurator> config_;
scoped_ptr<UpdateChecker> update_checker_;
scoped_ptr<PingManager> ping_manager_;
scoped_refptr<ComponentUnpacker> unpacker_;
scoped_ptr<CrxDownloader> crx_downloader_;
// A collection of every work item.
typedef std::vector<CrxUpdateItem*> UpdateItems;
UpdateItems work_items_;
base::OneShotTimer<CrxUpdateService> timer_;
base::ThreadChecker thread_checker_;
// Used to post responses back to the main thread.
scoped_refptr<base::SingleThreadTaskRunner> main_task_runner_;
scoped_refptr<base::SequencedTaskRunner> blocking_task_runner_;
bool running_;
ObserverList<Observer> observer_list_;
DISALLOW_COPY_AND_ASSIGN(CrxUpdateService);
};
//////////////////////////////////////////////////////////////////////////////
CrxUpdateService::CrxUpdateService(Configurator* config)
: config_(config),
ping_manager_(new PingManager(*config)),
main_task_runner_(base::MessageLoopProxy::current()),
blocking_task_runner_(config->GetSequencedTaskRunner()),
running_(false) {
}
CrxUpdateService::~CrxUpdateService() {
// Because we are a singleton, at this point only the main thread should be
// alive, this simplifies the management of the work that could be in
// flight in other threads.
Stop();
STLDeleteElements(&work_items_);
}
void CrxUpdateService::AddObserver(Observer* observer) {
DCHECK(thread_checker_.CalledOnValidThread());
observer_list_.AddObserver(observer);
}
void CrxUpdateService::RemoveObserver(Observer* observer) {
DCHECK(thread_checker_.CalledOnValidThread());
observer_list_.RemoveObserver(observer);
}
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.
VLOG(1) << "CrxUpdateService starting up";
running_ = true;
if (work_items_.empty())
return kOk;
NotifyObservers(Observer::COMPONENT_UPDATER_STARTED, "");
VLOG(1) << "First update attempt will take place in "
<< config_->InitialDelay() << " seconds";
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() {
VLOG(1) << "CrxUpdateService stopping";
running_ = false;
timer_.Stop();
return kOk;
}
bool CrxUpdateService::HasOnDemandItems() const {
class Helper {
public:
static bool IsOnDemand(CrxUpdateItem* item) { return item->on_demand; }
};
return std::find_if(work_items_.begin(),
work_items_.end(),
Helper::IsOnDemand) != work_items_.end();
}
// This function sets the timer which will call ProcessPendingItems() or
// ProcessRequestedItem() if there is an on_demand item. There
// are three kinds of waits:
// - a short delay, when there is immediate work to be done.
// - a medium delay, when there are updates to be applied within the current
// update cycle, or there are components that are still unchecked.
// - a long delay when a full check/update cycle has completed for all
// components.
void CrxUpdateService::ScheduleNextRun(StepDelayInterval step_delay) {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(!update_checker_);
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;
// Keep the delay short if in the middle of an update (step_delay),
// or there are new requested_work_items_ that have not been processed yet.
int64_t delay_seconds = 0;
if (!HasOnDemandItems()) {
switch (step_delay) {
case kStepDelayShort:
delay_seconds = config_->StepDelay();
break;
case kStepDelayMedium:
delay_seconds = config_->StepDelayMedium();
break;
case kStepDelayLong:
delay_seconds = config_->NextCheckDelay();
break;
}
} else {
delay_seconds = config_->StepDelay();
}
if (step_delay != kStepDelayShort) {
NotifyObservers(Observer::COMPONENT_UPDATER_SLEEPING, "");
// Zero is only used for unit tests.
if (0 == delay_seconds)
return;
}
VLOG(1) << "Scheduling next run to occur in " << delay_seconds << " seconds";
timer_.Start(FROM_HERE,
base::TimeDelta::FromSeconds(delay_seconds),
this,
&CrxUpdateService::ProcessPendingItems);
}
// Given a extension-like component id, find the associated component.
CrxUpdateItem* CrxUpdateService::FindUpdateItemById(
const std::string& id) const {
DCHECK(thread_checker_.CalledOnValidThread());
CrxUpdateItem::FindById finder(id);
UpdateItems::const_iterator it =
std::find_if(work_items_.begin(), work_items_.end(), finder);
return it != work_items_.end() ? *it : NULL;
}
// Changes a component's status, clearing on_demand and firing notifications as
// necessary. By convention, this is the only function that can change a
// CrxUpdateItem's |status|.
// TODO(waffles): Do we want to add DCHECKS for valid state transitions here?
void CrxUpdateService::ChangeItemState(CrxUpdateItem* item,
CrxUpdateItem::Status to) {
DCHECK(thread_checker_.CalledOnValidThread());
if (to == CrxUpdateItem::kNoUpdate || to == CrxUpdateItem::kUpdated ||
to == CrxUpdateItem::kUpToDate) {
item->on_demand = false;
}
item->status = to;
switch (to) {
case CrxUpdateItem::kCanUpdate:
NotifyObservers(Observer::COMPONENT_UPDATE_FOUND, item->id);
break;
case CrxUpdateItem::kUpdatingDiff:
case CrxUpdateItem::kUpdating:
NotifyObservers(Observer::COMPONENT_UPDATE_READY, item->id);
break;
case CrxUpdateItem::kUpdated:
NotifyObservers(Observer::COMPONENT_UPDATED, item->id);
break;
case CrxUpdateItem::kUpToDate:
case CrxUpdateItem::kNoUpdate:
NotifyObservers(Observer::COMPONENT_NOT_UPDATED, item->id);
break;
case CrxUpdateItem::kNew:
case CrxUpdateItem::kChecking:
case CrxUpdateItem::kDownloading:
case CrxUpdateItem::kDownloadingDiff:
case CrxUpdateItem::kLastStatus:
// No notification for these states.
break;
}
// Free possible pending network requests.
if ((to == CrxUpdateItem::kUpdated) || (to == CrxUpdateItem::kUpToDate) ||
(to == CrxUpdateItem::kNoUpdate)) {
for (std::vector<base::Closure>::iterator it =
item->ready_callbacks.begin();
it != item->ready_callbacks.end();
++it) {
it->Run();
}
item->ready_callbacks.clear();
}
}
// Changes all the components in |work_items_| that have |from| status to
// |to| status and returns how many have been changed.
size_t CrxUpdateService::ChangeItemStatus(CrxUpdateItem::Status from,
CrxUpdateItem::Status to) {
DCHECK(thread_checker_.CalledOnValidThread());
size_t count = 0;
for (UpdateItems::iterator it = work_items_.begin();
it != work_items_.end();
++it) {
CrxUpdateItem* item = *it;
if (item->status == from) {
ChangeItemState(item, 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.
ComponentUpdateService::Status CrxUpdateService::RegisterComponent(
const CrxComponent& component) {
DCHECK(thread_checker_.CalledOnValidThread());
if (component.pk_hash.empty() || !component.version.IsValid() ||
!component.installer)
return kError;
std::string id(GetCrxComponentID(component));
CrxUpdateItem* 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. Otherwise, reset the timer to trigger another
// pass over the work items, if the component updater is sleeping, fact
// indicated by a running timer. If the timer is not running, it means that
// the service is busy updating something, and in that case, this component
// will be picked up at the next pass.
if (running_) {
if (work_items_.size() == 1) {
Start();
} else if (timer_.IsRunning()) {
timer_.Start(FROM_HERE,
base::TimeDelta::FromSeconds(config_->InitialDelay()),
this,
&CrxUpdateService::ProcessPendingItems);
}
}
return kOk;
}
std::vector<std::string> CrxUpdateService::GetComponentIDs() const {
DCHECK(thread_checker_.CalledOnValidThread());
std::vector<std::string> component_ids;
for (UpdateItems::const_iterator it = work_items_.begin();
it != work_items_.end();
++it) {
const CrxUpdateItem* item = *it;
component_ids.push_back(item->id);
}
return component_ids;
}
OnDemandUpdater& CrxUpdateService::GetOnDemandUpdater() {
return *this;
}
void CrxUpdateService::MaybeThrottle(const std::string& crx_id,
const base::Closure& callback) {
DCHECK(thread_checker_.CalledOnValidThread());
// Check if we can on-demand update, else unblock the request anyway.
CrxUpdateItem* item = FindUpdateItemById(crx_id);
Status status = OnDemandUpdateWithCooldown(item);
if (status == kOk || status == kInProgress) {
item->ready_callbacks.push_back(callback);
return;
}
callback.Run();
}
scoped_refptr<base::SequencedTaskRunner>
CrxUpdateService::GetSequencedTaskRunner() {
return config_->GetSequencedTaskRunner();
}
bool CrxUpdateService::GetComponentDetails(const std::string& component_id,
CrxUpdateItem* item) const {
DCHECK(thread_checker_.CalledOnValidThread());
const CrxUpdateItem* crx_update_item(FindUpdateItemById(component_id));
if (crx_update_item)
*item = *crx_update_item;
return crx_update_item != NULL;
}
// Start the process of checking for an update, for a particular component
// that was previously registered.
// |component_id| is a value returned from GetCrxComponentID().
ComponentUpdateService::Status CrxUpdateService::OnDemandUpdate(
const std::string& component_id) {
return OnDemandUpdateInternal(FindUpdateItemById(component_id));
}
// This is the main loop of the component updater. It updates one component
// at a time if updates are available. Otherwise, it does an update check or
// takes a long sleep until the loop runs again.
void CrxUpdateService::ProcessPendingItems() {
DCHECK(thread_checker_.CalledOnValidThread());
CrxUpdateItem* ready_upgrade = FindReadyComponent();
if (ready_upgrade) {
UpdateComponent(ready_upgrade);
return;
}
if (!CheckForUpdates())
ScheduleNextRun(kStepDelayLong);
}
CrxUpdateItem* CrxUpdateService::FindReadyComponent() const {
class Helper {
public:
static bool IsReadyOnDemand(CrxUpdateItem* item) {
return item->on_demand && IsReady(item);
}
static bool IsReady(CrxUpdateItem* item) {
return item->status == CrxUpdateItem::kCanUpdate;
}
};
std::vector<CrxUpdateItem*>::const_iterator it = std::find_if(
work_items_.begin(), work_items_.end(), Helper::IsReadyOnDemand);
if (it != work_items_.end())
return *it;
it = std::find_if(work_items_.begin(), work_items_.end(), Helper::IsReady);
if (it != work_items_.end())
return *it;
return NULL;
}
// Prepares the components for an update check and initiates the request.
// On demand components are always included in the update check request.
// Otherwise, only include components that have not been checked recently.
bool CrxUpdateService::CheckForUpdates() {
const base::TimeDelta minimum_recheck_wait_time =
base::TimeDelta::FromSeconds(config_->MinimumReCheckWait());
const base::Time now(base::Time::Now());
std::vector<CrxUpdateItem*> items_to_check;
for (size_t i = 0; i != work_items_.size(); ++i) {
CrxUpdateItem* item = work_items_[i];
DCHECK(item->status == CrxUpdateItem::kNew ||
item->status == CrxUpdateItem::kNoUpdate ||
item->status == CrxUpdateItem::kUpToDate ||
item->status == CrxUpdateItem::kUpdated);
const base::TimeDelta time_since_last_checked(now - item->last_check);
if (!item->on_demand &&
time_since_last_checked < minimum_recheck_wait_time) {
VLOG(1) << "Skipping check for component update: id=" << item->id
<< ", time_since_last_checked="
<< time_since_last_checked.InSeconds()
<< " seconds: too soon to check for an update";
continue;
}
VLOG(1) << "Scheduling update check for component id=" << item->id
<< ", time_since_last_checked="
<< time_since_last_checked.InSeconds() << " seconds";
item->last_check = now;
item->crx_urls.clear();
item->crx_diffurls.clear();
item->previous_version = item->component.version;
item->next_version = Version();
item->previous_fp = item->component.fingerprint;
item->next_fp.clear();
item->diff_update_failed = false;
item->error_category = 0;
item->error_code = 0;
item->extra_code1 = 0;
item->diff_error_category = 0;
item->diff_error_code = 0;
item->diff_extra_code1 = 0;
item->download_metrics.clear();
items_to_check.push_back(item);
ChangeItemState(item, CrxUpdateItem::kChecking);
}
if (items_to_check.empty())
return false;
update_checker_ = UpdateChecker::Create(*config_).Pass();
return update_checker_->CheckForUpdates(
items_to_check,
config_->ExtraRequestParams(),
base::Bind(&CrxUpdateService::UpdateCheckComplete,
base::Unretained(this)));
}
void CrxUpdateService::UpdateComponent(CrxUpdateItem* workitem) {
scoped_ptr<CRXContext> crx_context(new CRXContext);
crx_context->pk_hash = workitem->component.pk_hash;
crx_context->id = workitem->id;
crx_context->installer = workitem->component.installer;
crx_context->fingerprint = workitem->next_fp;
const std::vector<GURL>* urls = NULL;
bool allow_background_download = false;
if (CanTryDiffUpdate(workitem, *config_)) {
urls = &workitem->crx_diffurls;
ChangeItemState(workitem, CrxUpdateItem::kDownloadingDiff);
} else {
// Background downloads are enabled only for selected components and
// only for full downloads (see issue 340448).
allow_background_download = workitem->component.allow_background_download;
urls = &workitem->crx_urls;
ChangeItemState(workitem, CrxUpdateItem::kDownloading);
}
// On demand component updates are always downloaded in foreground.
const bool is_background_download = !workitem->on_demand &&
allow_background_download &&
config_->UseBackgroundDownloader();
crx_downloader_.reset(
CrxDownloader::Create(is_background_download,
config_->RequestContext(),
blocking_task_runner_,
config_->GetSingleThreadTaskRunner()));
crx_downloader_->set_progress_callback(
base::Bind(&CrxUpdateService::DownloadProgress,
base::Unretained(this),
crx_context->id));
crx_downloader_->StartDownload(*urls,
base::Bind(&CrxUpdateService::DownloadComplete,
base::Unretained(this),
base::Passed(&crx_context)));
}
void CrxUpdateService::UpdateCheckComplete(
const GURL& original_url,
int error,
const std::string& error_message,
const UpdateResponse::Results& results) {
DCHECK(thread_checker_.CalledOnValidThread());
VLOG(1) << "Update check completed from: " << original_url.spec();
update_checker_.reset();
if (!error)
OnUpdateCheckSucceeded(results);
else
OnUpdateCheckFailed(error, error_message);
}
// Handles a valid Omaha update check response by matching the results with
// the registered components which were checked for updates.
// If updates are found, prepare the components for the actual version upgrade.
// One of these components will be drafted for the upgrade next time
// ProcessPendingItems is called.
void CrxUpdateService::OnUpdateCheckSucceeded(
const UpdateResponse::Results& results) {
size_t num_updates_pending = 0;
DCHECK(thread_checker_.CalledOnValidThread());
VLOG(1) << "Update check succeeded.";
std::vector<UpdateResponse::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) {
NOTREACHED();
continue; // Not updating this component now.
}
if (it->manifest.version.empty()) {
// No version means no update available.
ChangeItemState(crx, CrxUpdateItem::kNoUpdate);
VLOG(1) << "No update available for component: " << crx->id;
continue;
}
if (!IsVersionNewer(crx->component.version, it->manifest.version)) {
// The component is up to date.
ChangeItemState(crx, CrxUpdateItem::kUpToDate);
VLOG(1) << "Component already up-to-date: " << crx->id;
continue;
}
if (!it->manifest.browser_min_version.empty()) {
if (IsVersionNewer(config_->GetBrowserVersion(),
it->manifest.browser_min_version)) {
// The component is not compatible with this Chrome version.
VLOG(1) << "Ignoring incompatible component: " << crx->id;
ChangeItemState(crx, CrxUpdateItem::kNoUpdate);
continue;
}
}
if (it->manifest.packages.size() != 1) {
// Assume one and only one package per component.
VLOG(1) << "Ignoring multiple packages for component: " << crx->id;
ChangeItemState(crx, CrxUpdateItem::kNoUpdate);
continue;
}
// Parse the members of the result and queue an upgrade for this component.
crx->next_version = Version(it->manifest.version);
VLOG(1) << "Update found for component: " << crx->id;
typedef UpdateResponse::Result::Manifest::Package Package;
const Package& package(it->manifest.packages[0]);
crx->next_fp = package.fingerprint;
// Resolve the urls by combining the base urls with the package names.
for (size_t i = 0; i != it->crx_urls.size(); ++i) {
const GURL url(it->crx_urls[i].Resolve(package.name));
if (url.is_valid())
crx->crx_urls.push_back(url);
}
for (size_t i = 0; i != it->crx_diffurls.size(); ++i) {
const GURL url(it->crx_diffurls[i].Resolve(package.namediff));
if (url.is_valid())
crx->crx_diffurls.push_back(url);
}
ChangeItemState(crx, CrxUpdateItem::kCanUpdate);
++num_updates_pending;
}
// All components that are not included in the update response are
// considered up to date.
ChangeItemStatus(CrxUpdateItem::kChecking, CrxUpdateItem::kUpToDate);
// If there are updates pending we do a short wait, otherwise we take
// a longer delay until we check the components again.
ScheduleNextRun(num_updates_pending > 0 ? kStepDelayShort : kStepDelayLong);
}
void CrxUpdateService::OnUpdateCheckFailed(int error,
const std::string& error_message) {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(error);
size_t count =
ChangeItemStatus(CrxUpdateItem::kChecking, CrxUpdateItem::kNoUpdate);
DCHECK_GT(count, 0ul);
VLOG(1) << "Update check failed.";
ScheduleNextRun(kStepDelayLong);
}
// Called when progress is being made downloading a CRX. The progress may
// not monotonically increase due to how the CRX downloader switches between
// different downloaders and fallback urls.
void CrxUpdateService::DownloadProgress(
const std::string& component_id,
const CrxDownloader::Result& download_result) {
DCHECK(thread_checker_.CalledOnValidThread());
NotifyObservers(Observer::COMPONENT_UPDATE_DOWNLOADING, component_id);
}
// 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::DownloadComplete(
scoped_ptr<CRXContext> crx_context,
const CrxDownloader::Result& download_result) {
DCHECK(thread_checker_.CalledOnValidThread());
CrxUpdateItem* crx = FindUpdateItemById(crx_context->id);
DCHECK(crx->status == CrxUpdateItem::kDownloadingDiff ||
crx->status == CrxUpdateItem::kDownloading);
AppendDownloadMetrics(crx_downloader_->download_metrics(),
&crx->download_metrics);
crx_downloader_.reset();
if (download_result.error) {
if (crx->status == CrxUpdateItem::kDownloadingDiff) {
crx->diff_error_category = kNetworkError;
crx->diff_error_code = download_result.error;
crx->diff_update_failed = true;
size_t count = ChangeItemStatus(CrxUpdateItem::kDownloadingDiff,
CrxUpdateItem::kCanUpdate);
DCHECK_EQ(count, 1ul);
ScheduleNextRun(kStepDelayShort);
return;
}
crx->error_category = kNetworkError;
crx->error_code = download_result.error;
size_t count =
ChangeItemStatus(CrxUpdateItem::kDownloading, CrxUpdateItem::kNoUpdate);
DCHECK_EQ(count, 1ul);
// At this point, since both the differential and the full downloads failed,
// the update for this component has finished with an error.
ping_manager_->OnUpdateComplete(crx);
// Move on to the next update, if there is one available.
ScheduleNextRun(kStepDelayMedium);
} else {
size_t count = 0;
if (crx->status == CrxUpdateItem::kDownloadingDiff) {
count = ChangeItemStatus(CrxUpdateItem::kDownloadingDiff,
CrxUpdateItem::kUpdatingDiff);
} else {
count = ChangeItemStatus(CrxUpdateItem::kDownloading,
CrxUpdateItem::kUpdating);
}
DCHECK_EQ(count, 1ul);
// Why unretained? See comment at top of file.
blocking_task_runner_->PostDelayedTask(
FROM_HERE,
base::Bind(&CrxUpdateService::Install,
base::Unretained(this),
base::Passed(&crx_context),
download_result.response),
base::TimeDelta::FromMilliseconds(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(scoped_ptr<CRXContext> context,
const base::FilePath& crx_path) {
// This function owns the file at |crx_path| and the |context| object.
unpacker_ = new ComponentUnpacker(context->pk_hash,
crx_path,
context->fingerprint,
context->installer,
config_->CreateOutOfProcessPatcher(),
blocking_task_runner_);
unpacker_->Unpack(base::Bind(&CrxUpdateService::EndUnpacking,
base::Unretained(this),
context->id,
crx_path));
}
void CrxUpdateService::EndUnpacking(const std::string& component_id,
const base::FilePath& crx_path,
ComponentUnpacker::Error error,
int extended_error) {
if (!DeleteFileAndEmptyParentDirectory(crx_path))
NOTREACHED() << crx_path.value();
main_task_runner_->PostDelayedTask(
FROM_HERE,
base::Bind(&CrxUpdateService::DoneInstalling,
base::Unretained(this),
component_id,
error,
extended_error),
base::TimeDelta::FromMilliseconds(config_->StepDelay()));
// Reset the unpacker last, otherwise we free our own arguments.
unpacker_ = NULL;
}
// Installation has been completed. Adjust the component status and
// schedule the next check. Schedule a short delay before trying the full
// update when the differential update failed.
void CrxUpdateService::DoneInstalling(const std::string& component_id,
ComponentUnpacker::Error error,
int extra_code) {
DCHECK(thread_checker_.CalledOnValidThread());
ErrorCategory error_category = kErrorNone;
switch (error) {
case ComponentUnpacker::kNone:
break;
case ComponentUnpacker::kInstallerError:
error_category = kInstallError;
break;
default:
error_category = kUnpackError;
break;
}
const bool is_success = error == ComponentUnpacker::kNone;
CrxUpdateItem* item = FindUpdateItemById(component_id);
if (item->status == CrxUpdateItem::kUpdatingDiff && !is_success) {
item->diff_error_category = error_category;
item->diff_error_code = error;
item->diff_extra_code1 = extra_code;
item->diff_update_failed = true;
size_t count = ChangeItemStatus(CrxUpdateItem::kUpdatingDiff,
CrxUpdateItem::kCanUpdate);
DCHECK_EQ(count, 1ul);
ScheduleNextRun(kStepDelayShort);
return;
}
if (is_success) {
item->component.version = item->next_version;
item->component.fingerprint = item->next_fp;
ChangeItemState(item, CrxUpdateItem::kUpdated);
} else {
item->error_category = error_category;
item->error_code = error;
item->extra_code1 = extra_code;
ChangeItemState(item, CrxUpdateItem::kNoUpdate);
}
ping_manager_->OnUpdateComplete(item);
// Move on to the next update, if there is one available.
ScheduleNextRun(kStepDelayMedium);
}
void CrxUpdateService::NotifyObservers(Observer::Events event,
const std::string& id) {
DCHECK(thread_checker_.CalledOnValidThread());
FOR_EACH_OBSERVER(Observer, observer_list_, OnEvent(event, id));
}
ComponentUpdateService::Status CrxUpdateService::OnDemandUpdateWithCooldown(
CrxUpdateItem* uit) {
if (!uit)
return kError;
// Check if the request is too soon.
base::TimeDelta delta = base::Time::Now() - uit->last_check;
if (delta < base::TimeDelta::FromSeconds(config_->OnDemandDelay()))
return kError;
return OnDemandUpdateInternal(uit);
}
ComponentUpdateService::Status CrxUpdateService::OnDemandUpdateInternal(
CrxUpdateItem* uit) {
if (!uit)
return kError;
uit->on_demand = true;
// If there is an update available for this item, then continue processing
// the update. This is an artifact of how update checks are done: in addition
// to the on-demand item, the update check may include other items as well.
if (uit->status != CrxUpdateItem::kCanUpdate) {
Status service_status = GetServiceStatus(uit->status);
// If the item is already in the process of being updated, there is
// no point in this call, so return kInProgress.
if (service_status == kInProgress)
return service_status;
// Otherwise the item was already checked a while back (or it is new),
// set its status to kNew to give it a slightly higher priority.
ChangeItemState(uit, CrxUpdateItem::kNew);
}
// In case the current delay is long, set the timer to a shorter value
// to get the ball rolling.
if (timer_.IsRunning()) {
timer_.Stop();
timer_.Start(FROM_HERE,
base::TimeDelta::FromSeconds(config_->StepDelay()),
this,
&CrxUpdateService::ProcessPendingItems);
}
return kOk;
}
ComponentUpdateService::Status CrxUpdateService::GetServiceStatus(
CrxUpdateItem::Status status) {
switch (status) {
case CrxUpdateItem::kChecking:
case CrxUpdateItem::kCanUpdate:
case CrxUpdateItem::kDownloadingDiff:
case CrxUpdateItem::kDownloading:
case CrxUpdateItem::kUpdatingDiff:
case CrxUpdateItem::kUpdating:
return kInProgress;
case CrxUpdateItem::kNew:
case CrxUpdateItem::kUpdated:
case CrxUpdateItem::kUpToDate:
case CrxUpdateItem::kNoUpdate:
return kOk;
case CrxUpdateItem::kLastStatus:
NOTREACHED() << status;
}
return kError;
}
///////////////////////////////////////////////////////////////////////////////
// The component update factory. Using the component updater as a singleton
// is the job of the browser process.
ComponentUpdateService* ComponentUpdateServiceFactory(Configurator* config) {
DCHECK(config);
return new CrxUpdateService(config);
}
} // namespace component_updater