Starting from Android 6.0 (API level 23), Android introduces two power-saving features that extend battery life for users by managing how apps behave when a device is not connected to a power source. Doze reduces battery consumption by deferring background CPU and network activity for apps when the device is unused for long periods of time. App Standby defers background network activity for apps with which the user has not recently interacted.
While the device is in Doze, apps' access to certain battery-intensive resources is deferred until maintenance windows. The specific restrictions are listed in Power Management Restrictions.
Doze and App Standby manage the behavior of all apps running on Android 6.0 or higher, regardless whether they are specifically targeting API level 23. To ensure the best experience for users, test your app in Doze and App Standby modes and make any necessary adjustments to your code. The sections below provide details.
If a user leaves a device unplugged and stationary for a period of time, with the screen off, the device enters Doze mode. In Doze mode, the system attempts to conserve battery by restricting apps' access to network and CPU-intensive services. It also prevents apps from accessing the network and defers their jobs, syncs, and standard alarms.
Periodically, the system exits Doze for a brief time to let apps complete their deferred activities. During this maintenance window, the system runs all pending syncs, jobs, and alarms, and lets apps access the network.
At the conclusion of each maintenance window, the system again enters Doze, suspending network access and deferring jobs, syncs, and alarms. Over time, the system schedules maintenance windows less and less frequently, helping to reduce battery consumption in cases of longer-term inactivity when the device is not connected to a charger.
As soon as the user wakes the device by moving it, turning on the screen, or connecting a charger, the system exits Doze and all apps return to normal activity.
Doze can affect apps differently, depending on the capabilities they offer and the services they use. Many apps function normally across Doze cycles without modification. In some cases, you must optimize the way that your app manages network, alarms, jobs, and syncs. Apps should be able to efficiently manage activities during each maintenance window.
Doze is particularly likely to affect activities that AlarmManager alarms and
timers manage, because alarms in Android 5.1 (API level 22) or lower do not fire when the system
is in Doze.
The Doze restriction on network access is also likely to affect your app, especially if the app relies on real-time messages such as tickles or notifications. If your app requires a persistent connection to the network to receive messages, you should use Firebase Cloud Messaging (FCM) if possible.
To confirm that your app behaves as expected with Doze, you can use adb commands to force the system to enter and exit Doze and observe your app’s behavior. For details, see Testing with Doze and App Standby.
App Standby allows the system to determine that an app is idle when the user is not actively using it. The system makes this determination when the user does not touch the app for a certain period of time and none of the following conditions applies:
When the user plugs the device into a power supply, the system releases apps from the standby state, allowing them to freely access the network and to execute any pending jobs and syncs. If the device is idle for long periods of time, the system allows idle apps network access around once a day.
Firebase Cloud Messaging (FCM) is a cloud-to-device service that lets you support real-time downstream messaging between backend services and apps on Android devices. FCM provides a single, persistent connection to the cloud; all apps needing real-time messaging can share this connection. This shared connection significantly optimizes battery consumption by making it unnecessary for multiple apps to maintain their own, separate persistent connections, which can deplete the battery rapidly. For this reason, if your app requires messaging integration with a backend service, we strongly recommend that you use FCM if possible, rather than maintaining your own persistent network connection.
FCM is optimized to work with Doze and App Standby idle modes. FCM high priority messages let you reliably wake your app to engage the user. In Doze or App Standby mode, the system delivers the message and gives the app temporary access to network services and partial wakelocks, then returns the device or app to the idle state. For time sensitive, user-visible notifications, consider using high priority messages to enable delivery in Doze mode. High priority messages are expected to result in notifications. See FCM's guidance on high priority messages for more information.
For messages that don't result in notifications, such as keeping application content up to date in the background or initiating data syncs, normal priority FCM messages are the correct choice. Normal priority messages are delivered immediately if the device is not in doze. If the device is in Doze mode, they are delivered during the periodic doze maintenance windows or as soon as the user wakes the device.
As a general best practice, if your app requires downstream messaging, it should use FCM. If your app already uses FCM, make sure that it uses high priority messages only for messages that result in user-facing notifications.
Almost all apps should be able to support Doze by managing network connectivity, alarms, jobs, and syncs properly, and by using FCM messages. For a narrow set of use cases, this might not be sufficient. For such cases, the system provides a configurable list of apps that are partially exempt from Doze and App Standby optimizations.
An app that is partially exempt can use the network and hold partial
wake locks during Doze and App Standby. However, other
restrictions still apply to the app, just as they do to
other apps. For example, the app’s jobs and syncs are deferred
(on API level 23 and below), and its regular AlarmManager
alarms do not fire. An app can check whether it is currently on the exemption
list by calling isIgnoringBatteryOptimizations().
Users can manually configure the list of exempted apps in Settings > Battery > Battery Optimization. Alternatively, the system provides ways for apps to ask users to exempt them:
ACTION_IGNORE_BATTERY_OPTIMIZATION_SETTINGS.ACTION_REQUEST_IGNORE_BATTERY_OPTIMIZATIONS
intent action to let the user add the app to the exemption list directly,
without going to system settings.Note: Google Play policies prohibit apps from requesting direct exemption from Power Management features in Android 6.0+ (Doze and App Standby) unless the core function of the app is adversely affected.
An app can check whether it is currently on the exemption list by calling
isIgnoringBatteryOptimizations().
To ensure a great experience for your users, you should test your app fully in Doze and App Standby.
You can test Doze mode by following these steps:
$ adb shell dumpsys deviceidle force-idle
$ adb shell dumpsys deviceidle unforce
$ adb shell dumpsys battery reset
To test the App Standby mode with your app:
$ adb shell dumpsys battery unplug $ adb shell am set-inactive <packageName> true
$ adb shell am set-inactive <packageName> false $ adb shell am get-inactive <packageName>
The table below highlights several use cases and whether it's acceptable for
apps to use the ACTION_REQUEST_IGNORE_BATTERY_OPTIMIZATIONS
intent action in these situations. In general, your app shouldn't be
on the list unless Doze or App Standby break the core
function of the app or there is a
technical reason why your app cannot use FCM high priority messages.
For more information, see Support for other use cases .
| Type | Use-case | Can use FCM? | Exemption acceptable? | Notes |
|---|---|---|---|---|
| Instant messaging, chat, or calling app. | Requires delivery of real-time messages to users while device is in Doze or app is in App Standby. | Yes, using FCM | Not Acceptable | Should use FCM high priority messages to wake the app and access the network. |
| Yes, but is not using FCM high priority messages. | ||||
| Instant messaging, chat, or calling app; enterprise VOIP apps. | No, can't use FCM because of technical dependency on another messaging service or Doze and App Standby break the core function of the app. | Acceptable | ||
| Safety app | Apps that keep their users and their families safe. | If applicable. | Acceptable | |
| Task automation app | App's core function is scheduling automated actions, such as for instant messaging, voice calling, or new photo management. | If applicable. | Acceptable | |
| Peripheral device companion app | App's core function is maintaining a persistent connection with the peripheral device for the purpose of providing the peripheral device internet access. | If applicable. | Acceptable | |
| App only needs to connect to a peripheral device periodically to sync, or only needs to connect to devices, such as wireless headphones, connected via standard Bluetooth profiles. | If applicable. | Not Acceptable |