// 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.
#ifndef EXTENSIONS_BROWSER_EXTENSION_PREFS_H_
#define EXTENSIONS_BROWSER_EXTENSION_PREFS_H_
#include <set>
#include <string>
#include <vector>
#include "base/basictypes.h"
#include "base/memory/linked_ptr.h"
#include "base/memory/scoped_ptr.h"
#include "base/observer_list.h"
#include "base/prefs/scoped_user_pref_update.h"
#include "base/time/time.h"
#include "base/values.h"
#include "components/keyed_service/core/keyed_service.h"
#include "extensions/browser/app_sorting.h"
#include "extensions/browser/blacklist_state.h"
#include "extensions/browser/extension_scoped_prefs.h"
#include "extensions/browser/install_flag.h"
#include "extensions/common/constants.h"
#include "extensions/common/extension.h"
#include "extensions/common/url_pattern_set.h"
#include "sync/api/string_ordinal.h"
class ExtensionPrefValueMap;
class PrefService;
namespace content {
class BrowserContext;
}
namespace user_prefs {
class PrefRegistrySyncable;
}
namespace extensions {
class AppSorting;
class ExtensionPrefsObserver;
class ExtensionPrefsUninstallExtension;
class URLPatternSet;
// Class for managing global and per-extension preferences.
//
// This class distinguishes the following kinds of preferences:
// - global preferences:
// internal state for the extension system in general, not associated
// with an individual extension, such as lastUpdateTime.
// - per-extension preferences:
// meta-preferences describing properties of the extension like
// installation time, whether the extension is enabled, etc.
// - extension controlled preferences:
// browser preferences that an extension controls. For example, an
// extension could use the proxy API to specify the browser's proxy
// preference. Extension-controlled preferences are stored in
// PrefValueStore::extension_prefs(), which this class populates and
// maintains as the underlying extensions change.
class ExtensionPrefs : public ExtensionScopedPrefs, public KeyedService {
public:
typedef std::vector<linked_ptr<ExtensionInfo> > ExtensionsInfo;
// Vector containing identifiers for preferences.
typedef std::set<std::string> PrefKeySet;
// This enum is used to store the reason an extension's install has been
// delayed. Do not remove items or re-order this enum as it is used in
// preferences.
enum DelayReason {
DELAY_REASON_NONE = 0,
DELAY_REASON_GC = 1,
DELAY_REASON_WAIT_FOR_IDLE = 2,
DELAY_REASON_WAIT_FOR_IMPORTS = 3,
};
// Creates base::Time classes. The default implementation is just to return
// the current time, but tests can inject alternative implementations.
class TimeProvider {
public:
TimeProvider();
virtual ~TimeProvider();
// By default, returns the current time (base::Time::Now()).
virtual base::Time GetCurrentTime() const;
private:
DISALLOW_COPY_AND_ASSIGN(TimeProvider);
};
// A wrapper around a ScopedUserPrefUpdate, which allows us to access the
// entry of a particular key for an extension. Use this if you need a mutable
// record of a dictionary or list in the current settings. Otherwise, prefer
// ReadPrefAsT() and UpdateExtensionPref() methods.
template <typename T, base::Value::Type type_enum_value>
class ScopedUpdate {
public:
ScopedUpdate(ExtensionPrefs* prefs,
const std::string& extension_id,
const std::string& key);
virtual ~ScopedUpdate();
// Returns a mutable value for the key (ownership remains with the prefs),
// if one exists. Otherwise, returns NULL.
virtual T* Get();
// Creates and returns a mutable value for the key (the prefs own the new
// value), if one does not already exist. Otherwise, returns the current
// value.
virtual T* Create();
private:
DictionaryPrefUpdate update_;
const std::string extension_id_;
const std::string key_;
DISALLOW_COPY_AND_ASSIGN(ScopedUpdate);
};
typedef ScopedUpdate<base::DictionaryValue, base::Value::TYPE_DICTIONARY>
ScopedDictionaryUpdate;
typedef ScopedUpdate<base::ListValue, base::Value::TYPE_LIST>
ScopedListUpdate;
// Creates an ExtensionPrefs object.
// Does not take ownership of |prefs| or |extension_pref_value_map|.
// If |extensions_disabled| is true, extension controlled preferences and
// content settings do not become effective. ExtensionPrefsObservers should be
// included in |early_observers| if they need to observe events which occur
// during initialization of the ExtensionPrefs object.
static ExtensionPrefs* Create(
PrefService* prefs,
const base::FilePath& root_dir,
ExtensionPrefValueMap* extension_pref_value_map,
scoped_ptr<AppSorting> app_sorting,
bool extensions_disabled,
const std::vector<ExtensionPrefsObserver*>& early_observers);
// A version of Create which allows injection of a custom base::Time provider.
// Use this as needed for testing.
static ExtensionPrefs* Create(
PrefService* prefs,
const base::FilePath& root_dir,
ExtensionPrefValueMap* extension_pref_value_map,
scoped_ptr<AppSorting> app_sorting,
bool extensions_disabled,
const std::vector<ExtensionPrefsObserver*>& early_observers,
scoped_ptr<TimeProvider> time_provider);
virtual ~ExtensionPrefs();
// Convenience function to get the ExtensionPrefs for a BrowserContext.
static ExtensionPrefs* Get(content::BrowserContext* context);
// Returns all installed extensions from extension preferences provided by
// |pref_service|. This is exposed for ProtectedPrefsWatcher because it needs
// access to the extension ID list before the ExtensionService is initialized.
static ExtensionIdList GetExtensionsFrom(const PrefService* pref_service);
// Add or remove an observer from the ExtensionPrefs.
void AddObserver(ExtensionPrefsObserver* observer);
void RemoveObserver(ExtensionPrefsObserver* observer);
// Returns true if the specified external extension was uninstalled by the
// user.
bool IsExternalExtensionUninstalled(const std::string& id) const;
// Checks whether |extension_id| is disabled. If there's no state pref for
// the extension, this will return false. Generally you should use
// ExtensionService::IsExtensionEnabled instead.
bool IsExtensionDisabled(const std::string& id) const;
// Get/Set the order that the browser actions appear in the toolbar.
ExtensionIdList GetToolbarOrder();
void SetToolbarOrder(const ExtensionIdList& extension_ids);
// Gets the set of known disabled extension IDs into |id_set_out|. Returns
// false iff the set of known disabled extension IDs hasn't been set yet.
bool GetKnownDisabled(ExtensionIdSet* id_set_out);
// Sets the set of known disabled extension IDs.
void SetKnownDisabled(const ExtensionIdSet& extension_ids);
// Called when an extension is installed, so that prefs get created.
// If |page_ordinal| is invalid then a page will be found for the App.
// |install_flags| are a bitmask of extension::InstallFlags.
void OnExtensionInstalled(const Extension* extension,
Extension::State initial_state,
const syncer::StringOrdinal& page_ordinal,
int install_flags,
const std::string& install_parameter);
// OnExtensionInstalled with no install flags.
void OnExtensionInstalled(const Extension* extension,
Extension::State initial_state,
const syncer::StringOrdinal& page_ordinal,
const std::string& install_parameter) {
OnExtensionInstalled(extension,
initial_state,
page_ordinal,
kInstallFlagNone,
install_parameter);
}
// Called when an extension is uninstalled, so that prefs get cleaned up.
void OnExtensionUninstalled(const std::string& extension_id,
const Manifest::Location& location,
bool external_uninstall);
// Called to change the extension's state when it is enabled/disabled.
void SetExtensionState(const std::string& extension_id, Extension::State);
// Called to change the extension's BlacklistState. Currently only used for
// non-malicious extensions.
// TODO(oleg): replace SetExtensionBlacklisted by this function.
void SetExtensionBlacklistState(const std::string& extension_id,
BlacklistState state);
// Checks whether |extension_id| is marked as greylisted.
// TODO(oleg): Replace IsExtensionBlacklisted by this method.
BlacklistState GetExtensionBlacklistState(const std::string& extension_id);
// Populates |out| with the ids of all installed extensions.
void GetExtensions(ExtensionIdList* out);
// ExtensionScopedPrefs methods:
virtual void UpdateExtensionPref(const std::string& id,
const std::string& key,
base::Value* value) OVERRIDE;
virtual void DeleteExtensionPrefs(const std::string& id) OVERRIDE;
virtual bool ReadPrefAsBoolean(const std::string& extension_id,
const std::string& pref_key,
bool* out_value) const OVERRIDE;
virtual bool ReadPrefAsInteger(const std::string& extension_id,
const std::string& pref_key,
int* out_value) const OVERRIDE;
virtual bool ReadPrefAsString(const std::string& extension_id,
const std::string& pref_key,
std::string* out_value) const OVERRIDE;
virtual bool ReadPrefAsList(const std::string& extension_id,
const std::string& pref_key,
const base::ListValue** out_value) const OVERRIDE;
virtual bool ReadPrefAsDictionary(
const std::string& extension_id,
const std::string& pref_key,
const base::DictionaryValue** out_value) const OVERRIDE;
virtual bool HasPrefForExtension(const std::string& extension_id) const
OVERRIDE;
// Did the extension ask to escalate its permission during an upgrade?
bool DidExtensionEscalatePermissions(const std::string& id);
// If |did_escalate| is true, the preferences for |extension| will be set to
// require the install warning when the user tries to enable.
void SetDidExtensionEscalatePermissions(
const Extension* extension,
bool did_escalate);
// Getters and setters for disabled reason.
int GetDisableReasons(const std::string& extension_id) const;
bool HasDisableReason(const std::string& extension_id,
Extension::DisableReason disable_reason) const;
void AddDisableReason(const std::string& extension_id,
Extension::DisableReason disable_reason);
void RemoveDisableReason(const std::string& extension_id,
Extension::DisableReason disable_reason);
void ClearDisableReasons(const std::string& extension_id);
// Gets the set of extensions that have been blacklisted in prefs. This will
// return only the blocked extensions, not the "greylist" extensions.
// TODO(oleg): Make method names consistent here, in extension service and in
// blacklist.
std::set<std::string> GetBlacklistedExtensions();
// Sets whether the extension with |id| is blacklisted.
void SetExtensionBlacklisted(const std::string& extension_id,
bool is_blacklisted);
// Returns the version string for the currently installed extension, or
// the empty string if not found.
std::string GetVersionString(const std::string& extension_id);
// Re-writes the extension manifest into the prefs.
// Called to change the extension's manifest when it's re-localized.
void UpdateManifest(const Extension* extension);
// Returns base extensions install directory.
const base::FilePath& install_directory() const { return install_directory_; }
// Returns whether the extension with |id| has its blacklist bit set.
//
// WARNING: this only checks the extension's entry in prefs, so by definition
// can only check extensions that prefs knows about. There may be other
// sources of blacklist information, such as safebrowsing. You probably want
// to use Blacklist::GetBlacklistedIDs rather than this method.
bool IsExtensionBlacklisted(const std::string& id) const;
// Increment the count of how many times we prompted the user to acknowledge
// the given extension, and return the new count.
int IncrementAcknowledgePromptCount(const std::string& extension_id);
// Whether the user has acknowledged an external extension.
bool IsExternalExtensionAcknowledged(const std::string& extension_id);
void AcknowledgeExternalExtension(const std::string& extension_id);
// Whether the user has acknowledged a blacklisted extension.
bool IsBlacklistedExtensionAcknowledged(const std::string& extension_id);
void AcknowledgeBlacklistedExtension(const std::string& extension_id);
// Whether the external extension was installed during the first run
// of this profile.
bool IsExternalInstallFirstRun(const std::string& extension_id);
void SetExternalInstallFirstRun(const std::string& extension_id);
// Whether the user has been notified about extension with |extension_id|
// being wiped out.
bool HasWipeoutBeenAcknowledged(const std::string& extension_id);
void SetWipeoutAcknowledged(const std::string& extension_id, bool value);
// Whether the user has been notified about extension with |extension_id|
// taking over some aspect of the user's settings (homepage, startup pages,
// or search engine).
bool HasSettingsApiBubbleBeenAcknowledged(const std::string& extension_id);
void SetSettingsApiBubbleBeenAcknowledged(const std::string& extension_id,
bool value);
// Whether the user has been notified about extension with |extension_id|
// overriding the new tab page.
bool HasNtpOverriddenBubbleBeenAcknowledged(const std::string& extension_id);
void SetNtpOverriddenBubbleBeenAcknowledged(const std::string& extension_id,
bool value);
// Whether the user has been notified about extension with |extension_id|
// overriding the proxy.
bool HasProxyOverriddenBubbleBeenAcknowledged(
const std::string& extension_id);
void SetProxyOverriddenBubbleBeenAcknowledged(const std::string& extension_id,
bool value);
// Returns true if the extension notification code has already run for the
// first time for this profile. Currently we use this flag to mean that any
// extensions that would trigger notifications should get silently
// acknowledged. This is a fuse. Calling it the first time returns false.
// Subsequent calls return true. It's not possible through an API to ever
// reset it. Don't call it unless you mean it!
bool SetAlertSystemFirstRun();
// Checks if extensions are blacklisted by default, by policy.
// The ManagementPolicy::Provider methods also take this into account, and
// should be used instead when the extension ID is known.
bool ExtensionsBlacklistedByDefault() const;
// Returns the last value set via SetLastPingDay. If there isn't such a
// pref, the returned Time will return true for is_null().
base::Time LastPingDay(const std::string& extension_id) const;
// The time stored is based on the server's perspective of day start time, not
// the client's.
void SetLastPingDay(const std::string& extension_id, const base::Time& time);
// Similar to the 2 above, but for the extensions blacklist.
base::Time BlacklistLastPingDay() const;
void SetBlacklistLastPingDay(const base::Time& time);
// Similar to LastPingDay/SetLastPingDay, but for sending "days since active"
// ping.
base::Time LastActivePingDay(const std::string& extension_id);
void SetLastActivePingDay(const std::string& extension_id,
const base::Time& time);
// A bit we use for determining if we should send the "days since active"
// ping. A value of true means the item has been active (launched) since the
// last update check.
bool GetActiveBit(const std::string& extension_id);
void SetActiveBit(const std::string& extension_id, bool active);
// Returns the granted permission set for the extension with |extension_id|,
// and NULL if no preferences were found for |extension_id|.
// This passes ownership of the returned set to the caller.
PermissionSet* GetGrantedPermissions(const std::string& extension_id);
// Adds |permissions| to the granted permissions set for the extension with
// |extension_id|. The new granted permissions set will be the union of
// |permissions| and the already granted permissions.
void AddGrantedPermissions(const std::string& extension_id,
const PermissionSet* permissions);
// As above, but subtracts the given |permissions| from the granted set.
void RemoveGrantedPermissions(const std::string& extension_id,
const PermissionSet* permissions);
// Gets the active permission set for the specified extension. This may
// differ from the permissions in the manifest due to the optional
// permissions API. This passes ownership of the set to the caller.
PermissionSet* GetActivePermissions(const std::string& extension_id);
// Sets the active |permissions| for the extension with |extension_id|.
void SetActivePermissions(const std::string& extension_id,
const PermissionSet* permissions);
// Records whether or not this extension is currently running.
void SetExtensionRunning(const std::string& extension_id, bool is_running);
// Returns whether or not this extension is marked as running. This is used to
// restart apps across browser restarts.
bool IsExtensionRunning(const std::string& extension_id);
// Set/Get whether or not the app is active. Used to force a launch of apps
// that don't handle onRestarted() on a restart. We can only safely do that if
// the app was active when it was last running.
void SetIsActive(const std::string& extension_id, bool is_active);
bool IsActive(const std::string& extension_id);
// Returns true if the user enabled this extension to be loaded in incognito
// mode.
//
// IMPORTANT: you probably want to use extensions::util::IsIncognitoEnabled
// instead of this method.
bool IsIncognitoEnabled(const std::string& extension_id) const;
void SetIsIncognitoEnabled(const std::string& extension_id, bool enabled);
// Returns true if the user has chosen to allow this extension to inject
// scripts into pages with file URLs.
//
// IMPORTANT: you probably want to use extensions::util::AllowFileAccess
// instead of this method.
bool AllowFileAccess(const std::string& extension_id) const;
void SetAllowFileAccess(const std::string& extension_id, bool allow);
bool HasAllowFileAccessSetting(const std::string& extension_id) const;
// Saves ExtensionInfo for each installed extension with the path to the
// version directory and the location. Blacklisted extensions won't be saved
// and neither will external extensions the user has explicitly uninstalled.
// Caller takes ownership of returned structure.
scoped_ptr<ExtensionsInfo> GetInstalledExtensionsInfo() const;
// Same as above, but only includes external extensions the user has
// explicitly uninstalled.
scoped_ptr<ExtensionsInfo> GetUninstalledExtensionsInfo() const;
// Returns the ExtensionInfo from the prefs for the given extension. If the
// extension is not present, NULL is returned.
scoped_ptr<ExtensionInfo> GetInstalledExtensionInfo(
const std::string& extension_id) const;
// We've downloaded an updated .crx file for the extension, but are waiting
// to install it.
//
// |install_flags| are a bitmask of extension::InstallFlags.
void SetDelayedInstallInfo(const Extension* extension,
Extension::State initial_state,
int install_flags,
DelayReason delay_reason,
const syncer::StringOrdinal& page_ordinal,
const std::string& install_parameter);
// Removes any delayed install information we have for the given
// |extension_id|. Returns true if there was info to remove; false otherwise.
bool RemoveDelayedInstallInfo(const std::string& extension_id);
// Update the prefs to finish the update for an extension.
bool FinishDelayedInstallInfo(const std::string& extension_id);
// Returns the ExtensionInfo from the prefs for delayed install information
// for |extension_id|, if we have any. Otherwise returns NULL.
scoped_ptr<ExtensionInfo> GetDelayedInstallInfo(
const std::string& extension_id) const;
DelayReason GetDelayedInstallReason(const std::string& extension_id) const;
// Returns information about all the extensions that have delayed install
// information.
scoped_ptr<ExtensionsInfo> GetAllDelayedInstallInfo() const;
// Returns true if the extension is an ephemeral app.
bool IsEphemeralApp(const std::string& extension_id) const;
// Promotes an ephemeral app to a regular installed app.
void OnEphemeralAppPromoted(const std::string& extension_id);
// Returns true if the user repositioned the app on the app launcher via drag
// and drop.
bool WasAppDraggedByUser(const std::string& extension_id);
// Sets a flag indicating that the user repositioned the app on the app
// launcher by drag and dropping it.
void SetAppDraggedByUser(const std::string& extension_id);
// Returns true if there is an extension which controls the preference value
// for |pref_key| *and* it is specific to incognito mode.
bool HasIncognitoPrefValue(const std::string& pref_key);
// Returns the creation flags mask for the extension.
int GetCreationFlags(const std::string& extension_id) const;
// Returns the creation flags mask for a delayed install extension.
int GetDelayedInstallCreationFlags(const std::string& extension_id) const;
// Returns true if the extension was installed from the Chrome Web Store.
bool IsFromWebStore(const std::string& extension_id) const;
// Returns true if the extension was installed from an App generated from a
// bookmark.
bool IsFromBookmark(const std::string& extension_id) const;
// Returns true if the extension was installed as a default app.
bool WasInstalledByDefault(const std::string& extension_id) const;
// Returns true if the extension was installed as an oem app.
bool WasInstalledByOem(const std::string& extension_id) const;
// Helper method to acquire the installation time of an extension.
// Returns base::Time() if the installation time could not be parsed or
// found.
base::Time GetInstallTime(const std::string& extension_id) const;
// Returns true if the extension should not be synced.
bool DoNotSync(const std::string& extension_id) const;
// Gets/sets the last launch time of an extension.
base::Time GetLastLaunchTime(const std::string& extension_id) const;
void SetLastLaunchTime(const std::string& extension_id,
const base::Time& time);
static void RegisterProfilePrefs(user_prefs::PrefRegistrySyncable* registry);
bool extensions_disabled() const { return extensions_disabled_; }
// The underlying PrefService.
PrefService* pref_service() const { return prefs_; }
// The underlying AppSorting.
AppSorting* app_sorting() const { return app_sorting_.get(); }
// Describes the URLs that are able to install extensions. See
// pref_names::kAllowedInstallSites for more information.
URLPatternSet GetAllowedInstallSites();
// Schedules garbage collection of an extension's on-disk data on the next
// start of this ExtensionService. Applies only to extensions with isolated
// storage.
void SetNeedsStorageGarbageCollection(bool value);
bool NeedsStorageGarbageCollection();
// Used by AppWindowGeometryCache to persist its cache. These methods
// should not be called directly.
const base::DictionaryValue* GetGeometryCache(
const std::string& extension_id) const;
void SetGeometryCache(const std::string& extension_id,
scoped_ptr<base::DictionaryValue> cache);
// Used for verification of installed extension ids. For the Set method, pass
// null to remove the preference.
const base::DictionaryValue* GetInstallSignature();
void SetInstallSignature(const base::DictionaryValue* signature);
// The installation parameter associated with the extension.
std::string GetInstallParam(const std::string& extension_id) const;
void SetInstallParam(const std::string& extension_id,
const std::string& install_parameter);
private:
friend class ExtensionPrefsBlacklistedExtensions; // Unit test.
friend class ExtensionPrefsUninstallExtension; // Unit test.
enum DisableReasonChange {
DISABLE_REASON_ADD,
DISABLE_REASON_REMOVE,
DISABLE_REASON_CLEAR
};
// See the Create methods.
ExtensionPrefs(PrefService* prefs,
const base::FilePath& root_dir,
ExtensionPrefValueMap* extension_pref_value_map,
scoped_ptr<AppSorting> app_sorting,
scoped_ptr<TimeProvider> time_provider,
bool extensions_disabled,
const std::vector<ExtensionPrefsObserver*>& early_observers);
// Converts absolute paths in the pref to paths relative to the
// install_directory_.
void MakePathsRelative();
// Converts internal relative paths to be absolute. Used for export to
// consumers who expect full paths.
void MakePathsAbsolute(base::DictionaryValue* dict);
// Helper function used by GetInstalledExtensionInfo() and
// GetDelayedInstallInfo() to construct an ExtensionInfo from the provided
// |extension| dictionary.
scoped_ptr<ExtensionInfo> GetInstalledInfoHelper(
const std::string& extension_id,
const base::DictionaryValue* extension) const;
// Interprets the list pref, |pref_key| in |extension_id|'s preferences, as a
// URLPatternSet. The |valid_schemes| specify how to parse the URLPatterns.
bool ReadPrefAsURLPatternSet(const std::string& extension_id,
const std::string& pref_key,
URLPatternSet* result,
int valid_schemes);
// Converts |new_value| to a list of strings and sets the |pref_key| pref
// belonging to |extension_id|.
void SetExtensionPrefURLPatternSet(const std::string& extension_id,
const std::string& pref_key,
const URLPatternSet& new_value);
// Read the boolean preference entry and return true if the preference exists
// and the preference's value is true; false otherwise.
bool ReadPrefAsBooleanAndReturn(const std::string& extension_id,
const std::string& key) const;
// Interprets |pref_key| in |extension_id|'s preferences as an
// PermissionSet, and passes ownership of the set to the caller.
PermissionSet* ReadPrefAsPermissionSet(const std::string& extension_id,
const std::string& pref_key);
// Converts the |new_value| to its value and sets the |pref_key| pref
// belonging to |extension_id|.
void SetExtensionPrefPermissionSet(const std::string& extension_id,
const std::string& pref_key,
const PermissionSet* new_value);
// Returns an immutable dictionary for extension |id|'s prefs, or NULL if it
// doesn't exist.
const base::DictionaryValue* GetExtensionPref(const std::string& id) const;
// Modifies the extensions disable reasons to add a new reason, remove an
// existing reason, or clear all reasons. Notifies observers if the set of
// DisableReasons has changed.
// If |change| is DISABLE_REASON_CLEAR, then |reason| is ignored.
void ModifyDisableReason(const std::string& extension_id,
Extension::DisableReason reason,
DisableReasonChange change);
// Fix missing preference entries in the extensions that are were introduced
// in a later Chrome version.
void FixMissingPrefs(const ExtensionIdList& extension_ids);
// Installs the persistent extension preferences into |prefs_|'s extension
// pref store. Does nothing if extensions_disabled_ is true.
void InitPrefStore();
// Migrates the permissions data in the pref store.
void MigratePermissions(const ExtensionIdList& extension_ids);
// Migrates the disable reasons from a single enum to a bit mask.
void MigrateDisableReasons(const ExtensionIdList& extension_ids);
// Checks whether there is a state pref for the extension and if so, whether
// it matches |check_state|.
bool DoesExtensionHaveState(const std::string& id,
Extension::State check_state) const;
// Reads the list of strings for |pref| from user prefs into
// |id_container_out|. Returns false if the pref wasn't found in the user
// pref store.
template <class ExtensionIdContainer>
bool GetUserExtensionPrefIntoContainer(
const char* pref,
ExtensionIdContainer* id_container_out);
// Writes the list of strings contained in |strings| to |pref| in prefs.
template <class ExtensionIdContainer>
void SetExtensionPrefFromContainer(const char* pref,
const ExtensionIdContainer& strings);
// Helper function to populate |extension_dict| with the values needed
// by a newly installed extension. Work is broken up between this
// function and FinishExtensionInfoPrefs() to accomodate delayed
// installations.
//
// |install_flags| are a bitmask of extension::InstallFlags.
void PopulateExtensionInfoPrefs(const Extension* extension,
const base::Time install_time,
Extension::State initial_state,
int install_flags,
const std::string& install_parameter,
base::DictionaryValue* extension_dict);
void InitExtensionControlledPrefs(ExtensionPrefValueMap* value_map);
// Helper function to complete initialization of the values in
// |extension_dict| for an extension install. Also see
// PopulateExtensionInfoPrefs().
void FinishExtensionInfoPrefs(
const std::string& extension_id,
const base::Time install_time,
bool needs_sort_ordinal,
const syncer::StringOrdinal& suggested_page_ordinal,
base::DictionaryValue* extension_dict);
// The pref service specific to this set of extension prefs. Owned by the
// BrowserContext.
PrefService* prefs_;
// Base extensions install directory.
base::FilePath install_directory_;
// Weak pointer, owned by BrowserContext.
ExtensionPrefValueMap* extension_pref_value_map_;
// Contains all the logic for handling the order for various extension
// properties.
scoped_ptr<AppSorting> app_sorting_;
scoped_ptr<TimeProvider> time_provider_;
bool extensions_disabled_;
ObserverList<ExtensionPrefsObserver> observer_list_;
DISALLOW_COPY_AND_ASSIGN(ExtensionPrefs);
};
} // namespace extensions
#endif // EXTENSIONS_BROWSER_EXTENSION_PREFS_H_