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/*
* Copyright (C) 2023 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.launcher3
import android.content.Context
import android.content.Context.MODE_PRIVATE
import android.content.SharedPreferences
import android.content.SharedPreferences.OnSharedPreferenceChangeListener
import android.util.Log
import androidx.annotation.VisibleForTesting
import com.android.launcher3.LauncherFiles.DEVICE_PREFERENCES_KEY
import com.android.launcher3.LauncherFiles.SHARED_PREFERENCES_KEY
import com.android.launcher3.allapps.WorkProfileManager
import com.android.launcher3.model.DeviceGridState
import com.android.launcher3.pm.InstallSessionHelper
import com.android.launcher3.provider.RestoreDbTask
import com.android.launcher3.states.RotationHelper
import com.android.launcher3.util.DisplayController
import com.android.launcher3.util.MainThreadInitializedObject
import com.android.launcher3.util.Themes
/**
* Use same context for shared preferences, so that we use a single cached instance
*
* TODO(b/262721340): Replace all direct SharedPreference refs with LauncherPrefs / Item methods.
* TODO(b/274501660): Fix ReorderWidgets#simpleReorder test before enabling
* isBootAwareStartupDataEnabled
*/
class LauncherPrefs(private val encryptedContext: Context) {
private val deviceProtectedStorageContext =
encryptedContext.createDeviceProtectedStorageContext()
private val bootAwarePrefs
get() =
deviceProtectedStorageContext.getSharedPreferences(BOOT_AWARE_PREFS_KEY, MODE_PRIVATE)
private val Item.encryptedPrefs
get() = encryptedContext.getSharedPreferences(sharedPrefFile, MODE_PRIVATE)
// This call to `SharedPreferences` needs to be explicit rather than using `get` since doing so
// would result in a circular dependency between `isStartupDataMigrated` and `choosePreferences`
val isStartupDataMigrated: Boolean
get() =
bootAwarePrefs.getBoolean(
IS_STARTUP_DATA_MIGRATED.sharedPrefKey,
IS_STARTUP_DATA_MIGRATED.defaultValue
)
private fun chooseSharedPreferences(item: Item): SharedPreferences =
if (isBootAwareStartupDataEnabled && item.isBootAware && isStartupDataMigrated)
bootAwarePrefs
else item.encryptedPrefs
/** Wrapper around `getInner` for a `ContextualItem` */
fun <T> get(item: ContextualItem<T>): T =
getInner(item, item.defaultValueFromContext(encryptedContext))
/** Wrapper around `getInner` for an `Item` */
fun <T> get(item: ConstantItem<T>): T = getInner(item, item.defaultValue)
/**
* Retrieves the value for an [Item] from [SharedPreferences]. It handles method typing via the
* default value type, and will throw an error if the type of the item provided is not a
* `String`, `Boolean`, `Float`, `Int`, `Long`, or `Set<String>`.
*/
@Suppress("IMPLICIT_CAST_TO_ANY", "UNCHECKED_CAST")
private fun <T> getInner(item: Item, default: T): T {
val sp = chooseSharedPreferences(item)
return when (item.type) {
String::class.java -> sp.getString(item.sharedPrefKey, default as? String)
Boolean::class.java,
java.lang.Boolean::class.java -> sp.getBoolean(item.sharedPrefKey, default as Boolean)
Int::class.java,
java.lang.Integer::class.java -> sp.getInt(item.sharedPrefKey, default as Int)
Float::class.java,
java.lang.Float::class.java -> sp.getFloat(item.sharedPrefKey, default as Float)
Long::class.java,
java.lang.Long::class.java -> sp.getLong(item.sharedPrefKey, default as Long)
Set::class.java -> sp.getStringSet(item.sharedPrefKey, default as? Set<String>)
else ->
throw IllegalArgumentException(
"item type: ${item.type}" + " is not compatible with sharedPref methods"
)
}
as T
}
/**
* Stores each of the values provided in `SharedPreferences` according to the configuration
* contained within the associated items provided. Internally, it uses apply, so the caller
* cannot assume that the values that have been put are immediately available for use.
*
* The forEach loop is necessary here since there is 1 `SharedPreference.Editor` returned from
* prepareToPutValue(itemsToValues) for every distinct `SharedPreferences` file present in the
* provided item configurations.
*/
fun put(vararg itemsToValues: Pair<Item, Any>): Unit =
prepareToPutValues(itemsToValues).forEach { it.apply() }
/** See referenced `put` method above. */
fun <T : Any> put(item: Item, value: T): Unit = put(item.to(value))
/**
* Synchronously stores all the values provided according to their associated Item
* configuration.
*/
fun putSync(vararg itemsToValues: Pair<Item, Any>): Unit =
prepareToPutValues(itemsToValues).forEach { it.commit() }
/**
* Updates the values stored in `SharedPreferences` for each corresponding Item-value pair. If
* the item is boot aware, this method updates both the boot aware and the encrypted files. This
* is done because: 1) It allows for easy roll-back if the data is already in encrypted prefs
* and we need to turn off the boot aware data feature & 2) It simplifies Backup/Restore, which
* already points to encrypted storage.
*
* Returns a list of editors with all transactions added so that the caller can determine to use
* .apply() or .commit()
*/
private fun prepareToPutValues(
updates: Array<out Pair<Item, Any>>
): List<SharedPreferences.Editor> {
val updatesPerPrefFile = updates.groupBy { it.first.encryptedPrefs }.toMutableMap()
if (isBootAwareStartupDataEnabled) {
val bootAwareUpdates = updates.filter { it.first.isBootAware }
if (bootAwareUpdates.isNotEmpty()) {
updatesPerPrefFile[bootAwarePrefs] = bootAwareUpdates
}
}
return updatesPerPrefFile.map { prefToItemValueList ->
prefToItemValueList.key.edit().apply {
prefToItemValueList.value.forEach { itemToValue: Pair<Item, Any> ->
putValue(itemToValue.first, itemToValue.second)
}
}
}
}
/**
* Handles adding values to `SharedPreferences` regardless of type. This method is especially
* helpful for updating `SharedPreferences` values for `List<<Item>Any>` that have multiple
* types of Item values.
*/
@Suppress("UNCHECKED_CAST")
private fun SharedPreferences.Editor.putValue(
item: Item,
value: Any?
): SharedPreferences.Editor =
when (item.type) {
String::class.java -> putString(item.sharedPrefKey, value as? String)
Boolean::class.java,
java.lang.Boolean::class.java -> putBoolean(item.sharedPrefKey, value as Boolean)
Int::class.java,
java.lang.Integer::class.java -> putInt(item.sharedPrefKey, value as Int)
Float::class.java,
java.lang.Float::class.java -> putFloat(item.sharedPrefKey, value as Float)
Long::class.java,
java.lang.Long::class.java -> putLong(item.sharedPrefKey, value as Long)
Set::class.java -> putStringSet(item.sharedPrefKey, value as? Set<String>)
else ->
throw IllegalArgumentException(
"item type: ${item.type} is not compatible with sharedPref methods"
)
}
/**
* After calling this method, the listener will be notified of any future updates to the
* `SharedPreferences` files associated with the provided list of items. The listener will need
* to filter update notifications so they don't activate for non-relevant updates.
*/
fun addListener(listener: OnSharedPreferenceChangeListener, vararg items: Item) {
items
.map { chooseSharedPreferences(it) }
.distinct()
.forEach { it.registerOnSharedPreferenceChangeListener(listener) }
}
/**
* Stops the listener from getting notified of any more updates to any of the
* `SharedPreferences` files associated with any of the provided list of [Item].
*/
fun removeListener(listener: OnSharedPreferenceChangeListener, vararg items: Item) {
// If a listener is not registered to a SharedPreference, unregistering it does nothing
items
.map { chooseSharedPreferences(it) }
.distinct()
.forEach { it.unregisterOnSharedPreferenceChangeListener(listener) }
}
/**
* Checks if all the provided [Item] have values stored in their corresponding
* `SharedPreferences` files.
*/
fun has(vararg items: Item): Boolean {
items
.groupBy { chooseSharedPreferences(it) }
.forEach { (prefs, itemsSublist) ->
if (!itemsSublist.none { !prefs.contains(it.sharedPrefKey) }) return false
}
return true
}
/**
* Asynchronously removes the [Item]'s value from its corresponding `SharedPreferences` file.
*/
fun remove(vararg items: Item) = prepareToRemove(items).forEach { it.apply() }
/** Synchronously removes the [Item]'s value from its corresponding `SharedPreferences` file. */
fun removeSync(vararg items: Item) = prepareToRemove(items).forEach { it.commit() }
/**
* Removes the key value pairs stored in `SharedPreferences` for each corresponding Item. If the
* item is boot aware, this method removes the data from both the boot aware and encrypted
* files.
*
* @return a list of editors with all transactions added so that the caller can determine to use
* .apply() or .commit()
*/
private fun prepareToRemove(items: Array<out Item>): List<SharedPreferences.Editor> {
val itemsPerFile = items.groupBy { it.encryptedPrefs }.toMutableMap()
if (isBootAwareStartupDataEnabled) {
val bootAwareUpdates = items.filter { it.isBootAware }
if (bootAwareUpdates.isNotEmpty()) {
itemsPerFile[bootAwarePrefs] = bootAwareUpdates
}
}
return itemsPerFile.map { (prefs, items) ->
prefs.edit().also { editor ->
items.forEach { item -> editor.remove(item.sharedPrefKey) }
}
}
}
fun migrateStartupDataToDeviceProtectedStorage() {
if (!isBootAwareStartupDataEnabled) return
Log.d(
TAG,
"Migrating data to unencrypted shared preferences to enable preloading " +
"while the user is locked the next time the device reboots."
)
with(bootAwarePrefs.edit()) {
BOOT_AWARE_ITEMS.forEach { putValue(it, get(it)) }
putBoolean(IS_STARTUP_DATA_MIGRATED.sharedPrefKey, true)
apply()
}
}
companion object {
private const val TAG = "LauncherPrefs"
@VisibleForTesting const val BOOT_AWARE_PREFS_KEY = "boot_aware_prefs"
@JvmField var INSTANCE = MainThreadInitializedObject { LauncherPrefs(it) }
@JvmStatic fun get(context: Context): LauncherPrefs = INSTANCE.get(context)
const val TASKBAR_PINNING_KEY = "TASKBAR_PINNING_KEY"
@JvmField val ICON_STATE = nonRestorableItem(LauncherAppState.KEY_ICON_STATE, "", true)
@JvmField val THEMED_ICONS = backedUpItem(Themes.KEY_THEMED_ICONS, false, true)
@JvmField val PROMISE_ICON_IDS = backedUpItem(InstallSessionHelper.PROMISE_ICON_IDS, "")
@JvmField val WORK_EDU_STEP = backedUpItem(WorkProfileManager.KEY_WORK_EDU_STEP, 0)
@JvmField val WORKSPACE_SIZE = backedUpItem(DeviceGridState.KEY_WORKSPACE_SIZE, "", true)
@JvmField val HOTSEAT_COUNT = backedUpItem(DeviceGridState.KEY_HOTSEAT_COUNT, -1, true)
@JvmField val TASKBAR_PINNING = backedUpItem(TASKBAR_PINNING_KEY, false)
@JvmField
val DEVICE_TYPE =
backedUpItem(DeviceGridState.KEY_DEVICE_TYPE, InvariantDeviceProfile.TYPE_PHONE, true)
@JvmField val DB_FILE = backedUpItem(DeviceGridState.KEY_DB_FILE, "", true)
@JvmField
val RESTORE_DEVICE =
backedUpItem(
RestoreDbTask.RESTORED_DEVICE_TYPE,
InvariantDeviceProfile.TYPE_PHONE,
true
)
@JvmField val APP_WIDGET_IDS = backedUpItem(RestoreDbTask.APPWIDGET_IDS, "")
@JvmField val OLD_APP_WIDGET_IDS = backedUpItem(RestoreDbTask.APPWIDGET_OLD_IDS, "")
@JvmField
val GRID_NAME =
ConstantItem(
"idp_grid_name",
isBackedUp = true,
defaultValue = null,
isBootAware = true,
type = String::class.java
)
@JvmField
val ALLOW_ROTATION =
backedUpItem(RotationHelper.ALLOW_ROTATION_PREFERENCE_KEY, Boolean::class.java) {
RotationHelper.getAllowRotationDefaultValue(DisplayController.INSTANCE.get(it).info)
}
@JvmField
val IS_STARTUP_DATA_MIGRATED =
ConstantItem(
"is_startup_data_boot_aware",
isBackedUp = false,
defaultValue = false,
isBootAware = true
)
@VisibleForTesting
@JvmStatic
fun <T> backedUpItem(
sharedPrefKey: String,
defaultValue: T,
isBootAware: Boolean = false
): ConstantItem<T> =
ConstantItem(sharedPrefKey, isBackedUp = true, defaultValue, isBootAware)
@JvmStatic
fun <T> backedUpItem(
sharedPrefKey: String,
type: Class<out T>,
isBootAware: Boolean = false,
defaultValueFromContext: (c: Context) -> T
): ContextualItem<T> =
ContextualItem(
sharedPrefKey,
isBackedUp = true,
defaultValueFromContext,
isBootAware,
type
)
@VisibleForTesting
@JvmStatic
fun <T> nonRestorableItem(
sharedPrefKey: String,
defaultValue: T,
isBootAware: Boolean = false
): ConstantItem<T> =
ConstantItem(sharedPrefKey, isBackedUp = false, defaultValue, isBootAware)
@Deprecated("Don't use shared preferences directly. Use other LauncherPref methods.")
@JvmStatic
fun getPrefs(context: Context): SharedPreferences {
// Use application context for shared preferences, so we use single cached instance
return context.applicationContext.getSharedPreferences(
SHARED_PREFERENCES_KEY,
MODE_PRIVATE
)
}
@Deprecated("Don't use shared preferences directly. Use other LauncherPref methods.")
@JvmStatic
fun getDevicePrefs(context: Context): SharedPreferences {
// Use application context for shared preferences, so we use a single cached instance
return context.applicationContext.getSharedPreferences(
DEVICE_PREFERENCES_KEY,
MODE_PRIVATE
)
}
}
}
// This is hard-coded to false for now until it is time to release this optimization. It is only
// a var because the unit tests are setting this to true so they can run.
@VisibleForTesting var isBootAwareStartupDataEnabled: Boolean = false
private val BOOT_AWARE_ITEMS: MutableSet<ConstantItem<*>> = mutableSetOf()
abstract class Item {
abstract val sharedPrefKey: String
abstract val isBackedUp: Boolean
abstract val type: Class<*>
abstract val isBootAware: Boolean
val sharedPrefFile: String
get() = if (isBackedUp) SHARED_PREFERENCES_KEY else DEVICE_PREFERENCES_KEY
fun <T> to(value: T): Pair<Item, T> = Pair(this, value)
}
data class ConstantItem<T>(
override val sharedPrefKey: String,
override val isBackedUp: Boolean,
val defaultValue: T,
override val isBootAware: Boolean,
// The default value can be null. If so, the type needs to be explicitly stated, or else NPE
override val type: Class<out T> = defaultValue!!::class.java
) : Item() {
init {
if (isBootAware && isBootAwareStartupDataEnabled) {
BOOT_AWARE_ITEMS.add(this)
}
}
}
data class ContextualItem<T>(
override val sharedPrefKey: String,
override val isBackedUp: Boolean,
private val defaultSupplier: (c: Context) -> T,
override val isBootAware: Boolean,
override val type: Class<out T>
) : Item() {
private var default: T? = null
fun defaultValueFromContext(context: Context): T {
if (default == null) {
default = defaultSupplier(context)
}
return default!!
}
}