// Copyright (c) 2009 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.
#ifndef CHROME_BROWSER_EXTENSIONS_EXTENSION_UPDATER_H_
#define CHROME_BROWSER_EXTENSIONS_EXTENSION_UPDATER_H_
#include <deque>
#include <map>
#include <set>
#include <string>
#include <vector>
#include "base/ref_counted.h"
#include "base/scoped_ptr.h"
#include "base/scoped_temp_dir.h"
#include "base/task.h"
#include "base/time.h"
#include "base/timer.h"
#include "chrome/browser/extensions/extensions_service.h"
#include "chrome/browser/net/url_fetcher.h"
#include "chrome/common/extensions/update_manifest.h"
#include "googleurl/src/gurl.h"
class Extension;
class ExtensionUpdaterTest;
class ExtensionUpdaterFileHandler;
class PrefService;
// To save on server resources we can request updates for multiple extensions
// in one manifest check. This class helps us keep track of the id's for a
// given fetch, building up the actual URL, and what if anything to include
// in the ping parameter.
class ManifestFetchData {
public:
static const int kNeverPinged = -1;
explicit ManifestFetchData(GURL update_url) : base_url_(update_url),
full_url_(update_url) {}
// Returns true if this extension information was successfully added. If the
// return value is false it means the full_url would have become too long, and
// this ManifestFetchData object remains unchanged.
bool AddExtension(std::string id, std::string version, int ping_days);
const GURL& base_url() const { return base_url_; }
const GURL& full_url() const { return full_url_; }
int extension_count() { return extension_ids_.size(); }
const std::set<std::string>& extension_ids() const { return extension_ids_; }
// Returns true if the given id is included in this manifest fetch.
bool Includes(std::string extension_id) const {
return extension_ids_.find(extension_id) != extension_ids_.end();
}
// Returns true if a ping parameter was added to full_url for this extension
// id.
bool DidPing(std::string extension_id) const;
private:
// Returns true if we should include a ping parameter for a given number of
// days.
bool ShouldPing(int days) const;
std::set<std::string> extension_ids_;
// Keeps track of the day value to use for the extensions where we want to
// send a 'days since last ping' parameter in the check.
std::map<std::string, int> ping_days_;
// The base update url without any arguments added.
GURL base_url_;
// The base update url plus arguments indicating the id, version, etc.
// information about each extension.
GURL full_url_;
DISALLOW_COPY_AND_ASSIGN(ManifestFetchData);
};
// A class for doing auto-updates of installed Extensions. Used like this:
//
// ExtensionUpdater* updater = new ExtensionUpdater(my_extensions_service,
// pref_service,
// update_frequency_secs);
// updater.Start();
// ....
// updater.Stop();
class ExtensionUpdater
: public URLFetcher::Delegate,
public base::RefCountedThreadSafe<ExtensionUpdater> {
public:
// Holds a pointer to the passed |service|, using it for querying installed
// extensions and installing updated ones. The |frequency_seconds| parameter
// controls how often update checks are scheduled.
ExtensionUpdater(ExtensionUpdateService* service,
PrefService* prefs,
int frequency_seconds);
// Starts the updater running.
void Start();
// Stops the updater running, cancelling any outstanding update manifest and
// crx downloads. Does not cancel any in-progress installs.
void Stop();
// Starts an update check right now, instead of waiting for the next regularly
// scheduled check.
void CheckNow();
// Set blacklist checks on or off.
void set_blacklist_checks_enabled(bool enabled) {
blacklist_checks_enabled_ = enabled;
}
private:
friend class base::RefCountedThreadSafe<ExtensionUpdater>;
friend class ExtensionUpdaterTest;
friend class ExtensionUpdaterFileHandler;
friend class SafeManifestParser;
virtual ~ExtensionUpdater();
// We need to keep track of some information associated with a url
// when doing a fetch.
struct ExtensionFetch {
std::string id;
GURL url;
std::string package_hash;
std::string version;
ExtensionFetch() : id(""), url(), package_hash(""), version("") {}
ExtensionFetch(const std::string& i, const GURL& u,
const std::string& h, const std::string& v)
: id(i), url(u), package_hash(h), version(v) {}
};
// These are needed for unit testing, to help identify the correct mock
// URLFetcher objects.
static const int kManifestFetcherId = 1;
static const int kExtensionFetcherId = 2;
static const char* kBlacklistUpdateUrl;
static const char* kBlacklistAppID;
// Does common work from constructors.
void Init();
// Computes when to schedule the first update check.
base::TimeDelta DetermineFirstCheckDelay();
// URLFetcher::Delegate interface.
virtual void OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data);
// These do the actual work when a URL fetch completes.
virtual void OnManifestFetchComplete(const GURL& url,
const URLRequestStatus& status,
int response_code,
const std::string& data);
virtual void OnCRXFetchComplete(const GURL& url,
const URLRequestStatus& status,
int response_code,
const std::string& data);
// Called when a crx file has been written into a temp file, and is ready
// to be installed.
void OnCRXFileWritten(const std::string& id, const FilePath& path);
// Callback for when ExtensionsService::Install is finished.
void OnExtensionInstallFinished(const FilePath& path, Extension* extension);
// Verifies downloaded blacklist. Based on the blacklist, calls extension
// service to unload blacklisted extensions and update pref.
void ProcessBlacklist(const std::string& data);
// Sets the timer to call TimerFired after roughly |target_delay| from now.
// To help spread load evenly on servers, this method adds some random
// jitter. It also saves the scheduled time so it can be reloaded on
// browser restart.
void ScheduleNextCheck(const base::TimeDelta& target_delay);
// BaseTimer::ReceiverMethod callback.
void TimerFired();
// Begins an update check. Takes ownership of |fetch_data|.
void StartUpdateCheck(ManifestFetchData* fetch_data);
// Begins (or queues up) download of an updated extension.
void FetchUpdatedExtension(const std::string& id, const GURL& url,
const std::string& hash, const std::string& version);
// Once a manifest is parsed, this starts fetches of any relevant crx files.
void HandleManifestResults(const ManifestFetchData& fetch_data,
const UpdateManifest::Results& results);
// Calculates the value to use for the ping days parameter in manifest
// fetches for a given extension.
int CalculatePingDays(const std::string& extension_id);
// Determines the version of an existing extension.
// Returns true on success and false on failures.
bool GetExistingVersion(const std::string& id, std::string* version);
// Given a list of potential updates, returns the indices of the ones that are
// applicable (are actually a new version, etc.) in |result|.
std::vector<int> DetermineUpdates(const ManifestFetchData& fetch_data,
const UpdateManifest::Results& possible_updates);
// Outstanding url fetch requests for manifests and updates.
scoped_ptr<URLFetcher> manifest_fetcher_;
scoped_ptr<URLFetcher> extension_fetcher_;
// Pending manifests and extensions to be fetched when the appropriate fetcher
// is available.
std::deque<ManifestFetchData*> manifests_pending_;
std::deque<ExtensionFetch> extensions_pending_;
// The manifest currently being fetched (if any).
scoped_ptr<ManifestFetchData> current_manifest_fetch_;
// The extension currently being fetched (if any).
ExtensionFetch current_extension_fetch_;
// Pointer back to the service that owns this ExtensionUpdater.
ExtensionUpdateService* service_;
base::OneShotTimer<ExtensionUpdater> timer_;
int frequency_seconds_;
PrefService* prefs_;
scoped_refptr<ExtensionUpdaterFileHandler> file_handler_;
bool blacklist_checks_enabled_;
DISALLOW_COPY_AND_ASSIGN(ExtensionUpdater);
};
#endif // CHROME_BROWSER_EXTENSIONS_EXTENSION_UPDATER_H_