According to Android Marshmallow documentation when the system is in doze mode, any wakelock is ignored. However it's not clear to me if a wakelock prevent doze mode or not.


Based on some testing, using a Nexus 5 with the the final(?) preview of Android 6.0 installed:

  • Holding a PARTIAL_WAKE_LOCK is insufficient to block Doze mode — the device will still doze, even though you have the WakeLock and are trying to do regular work (e.g., setExactAndAllowWhileIdle() to get control every minute)

  • Keeping the screen on using android:keepScreenOn (or the Java equivalent), with the screen on, is sufficient to block Doze mode

  • Keeping the screen on using android:keepScreenOn (or the Java equivalent), with the screen off (user presses POWER button), is insufficient to block Doze mode

IOW, video players and the like should not be affected while the user is watching the video, even though the player may not be moving or charging. However, if the user presses the POWER button, you're back into having Doze risk.

I have not tried using FULL_WAKE_LOCK (I would expect behavior identical to android:keepScreenOn, but I am far from certain).

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    Wow, so an app that run in background with screen off doesn't work anymore :( Thanks for your response. – greywolf82 Aug 30 '15 at 7:00
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    @greywolf82: Welcome to "the war on background processing". – CommonsWare Aug 30 '15 at 10:21
  • At this point I can't understand the methods AndAllowWhileIdle(). If the wakelock are ignored how can I process data in that situation? In the middle of processing the CPU can sleep :( am I missing anything? – greywolf82 Aug 30 '15 at 12:43
  • @greywolf82: The ...AndAllowWhileIdle() methods affect app standby, not Doze mode. I have not attempted to model app standby and so I do not know the characteristics of the environment when you get control, including with respect to WakeLocks. Doze mode worries me more, as neither developers nor users have any control (other than users always having a charger lying around). With app standby, the user can whitelist the app to not go into that state. – CommonsWare Aug 30 '15 at 13:04
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    @CommonsWare: Actually I just discovered that ...AndAllowWhileIdle() DOES affect Doze mode. It fires about every 15 minutes when idle. What I discovered with this, is that in Doze mode many functions seem to be blocked, this applies to GPS (my test) and obviously to storage access. Your log did not show the firing of ...AndAllowWhileIdle(), because you wrote to file - my tests worked with a database and that showed it. As with GPS, it just didn't work when idle, although the surrounding wakelock did - it's been blocked somehow just as your storage access. My guess. – sec_aw Sep 4 '15 at 14:41


Google's own clock app in Android 6.0 is able to block Doze mode altogether:

  1. In the clock app set an alarm with a time < 60 minutes from now
  2. Turn off the device
  3. In the console set $adb shell dumpsys battery unplug
  4. In the console set $adb shell dumpsys deviceidle step

The state remains as 'Stepped to: ACTIVE'

If you set an alarm with a time > 60 minutes from now, it works normally (device may go into idle states). BUT once the alarm is < 60 min away it seems that the device quietly awakes from Doze idle, as the state returns 'ACTIVE' again (instead of 'IDLE_MAINTENANCE').

I really wonder how they are doing this!

- EDIT -

It seems to be setAlarmClock() that is having this behavior by default. This might be helpful for some use cases.

  • See the doc developer.android.com/training/monitoring-device-state/… about setAlarmClock() vs. Doze mode, and sections future down the page about how whitelisted apps can still use partial wake locks. The JavaDocs don't mention this. – Jerry101 Oct 20 '15 at 18:49
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    Well yes: "the system exits Doze shortly before those alarms fire", if shortly means 60 minutes :-). The documentation of Doze mode is just extremely bad, much behavior is actually not documented at all, e.g. foreground services going into Doze (stackoverflow.com/a/33077301/4301846), hardware features like GPS not available in Doze (stackoverflow.com/a/32521940/4301846), who knows what else. For quite a complex behavior, that is impacting many use cases, this is pretty incredible. – sec_aw Oct 21 '15 at 8:42
  • @sec_aw, setAlarmClock() seems definite method to make our good-behaving-alarmmanager-aware apps. But when most of alarmmanger-aware apps, including bad behaving ones start using setAlarmClock(), upgrading API to level 21 or higher, then Google's (insane) attempt made in Android 6.0 will be totally useless. I really welcome setAlarmClock() is a workaround, but can't understand Google's intention. – Tomcat Nov 4 '15 at 8:22
  • Hell yeah, really, I also don´t understand the attempt of Google on that changes. Also network connections are not working anymore and that is a really bad thing for a chat app. If only using GCM is guaranteed to be working without restrictions, than this is an apple-like-behaviour. And if it is possible to break the doze mode or app standby with setExactAndAllowWhileIdle() ....then this all makes no sense and is a not neccessary struggle for developers..... – Opiatefuchs May 19 '16 at 6:36
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    .android package have access to this type of wake lock static final int DOZE_WAKE_LOCK = 0x00000040; only internal package can use this wake lock, it requires this permission *Requires the {@link android.Manifest.permission#DEVICE_POWER} permission... this is how the alarm app works and why he wakes the device like a charm .... feeling disappointed with android api platform – Arthur Melo May 30 '18 at 14:04

In response to the comment discussion above, this is not an answer to the question. It's meant to clarify app behaviour in Doze mode in general. In my testing app, I tried to get a GPS position every 2 minutes, GPS signal strength was sufficient at all times.

Testing conditions:

  • Nexus 9, Android M Preview, Build MPA44I
  • "ignore optimizations" ON
  • setExactAndAllowWhileIdle() with 2 minute interval
  • each operation has a 1 minute timeout for getting a GPS fix and is surrounded by a partial wakelock
  • logs were written to SQLiteOpenHelper.getWritableDatabase()

GPS test log for Doze mode:

1   2015-09-04 - 12:14  GPS ok (device left stationary unplugged)
2   2015-09-04 - 12:16  GPS ok
3   2015-09-04 - 12:18  GPS ok
4   2015-09-04 - 12:20  GPS ok
5   2015-09-04 - 12:22  GPS ok
6   2015-09-04 - 12:24  GPS ok
7   2015-09-04 - 12:26  GPS ok
8   2015-09-04 - 12:28  GPS ok
9   2015-09-04 - 12:30  GPS ok
10  2015-09-04 - 12:32  GPS ok
11  2015-09-04 - 12:34  GPS ok
31  2015-09-04 - 13:14  GPS ok
32  2015-09-04 - 13:16  GPS ok
33  2015-09-04 - 13:18  GPS ok
34  2015-09-04 - 13:20  GPS ok
35  2015-09-04 - 13:22  GPS ok
36  2015-09-04 - 13:24  GPS ok
37  2015-09-04 - 13:26  GPS ok (entering Doze mode some time after)
38  2015-09-04 - 13:42  GPS failed, active millis: 60174 (idle)
39  2015-09-04 - 13:57  GPS failed, active millis: 60128 (idle)
40  2015-09-04 - 14:12  GPS failed, active millis: 60122 (idle)
41  2015-09-04 - 14:16  GPS ok (idle maintenance)
42  2015-09-04 - 14:18  GPS ok (idle maintenance)
43  2015-09-04 - 14:20  GPS ok (idle maintenance)
44  2015-09-04 - 14:22  GPS ok (idle maintenance)
45  2015-09-04 - 14:38  GPS failed, active millis: 60143 (idle)
46  2015-09-04 - 14:53  GPS failed, active millis: 60122 (idle)
47  2015-09-04 - 15:08  GPS failed, active millis: 60068 (idle)
48  2015-09-04 - 15:23  GPS failed, active millis: 60138 (idle)
49  2015-09-04 - 15:38  GPS failed, active millis: 60140 (idle)
50  2015-09-04 - 15:53  GPS failed, active millis: 60131 (idle)
51  2015-09-04 - 16:08  GPS failed, active millis: 60185 (idle)
52  2015-09-04 - 16:12  GPS ok (ending Doze mode - power button on)

Now that I looked at my logs again, I noticed a very strange behavior: The same test with "ignore optimizations" OFF showed basically identical results (like it should), BUT most of the times the timeout did not work as expected, I got 'active millis' in the range of either ~330000 (~5 times timeout time) or even ~580000 (~10 times timeout time) while idle. This weird behavior I can not explain, but it seems to show that there actually IS some effect of the setting of "ignore optimizations" on Doze mode.

Edit: The 'strange' behavior described above is just now documented: Only with "ignore optimizations" ON, you may hold a partial wakelock in Doze idle mode.


As far as I have explored, all wake locks (except the ones held by apps with a current foreground service) are dropped when the deeper doze starts. The whole point of doze is to let the system sleep when the 'relevant conditions' set in. So yes locks is not something they would care too much about I guess.

The way I see it JobScheduler is the way to go about scheduling, background tasks etc in future. Takes some control away from developers though but that's the call I guess framework guys took for battery life. It's more like 'trigger and hope things will happen more or less on time'.

Coming to your use case, JobScheduler has an onStopJob callback to know when the execution of your job has stopped [for any reason - say wifi was toggled] you need to take appropriate action such as rescheduling your job for the next maintenance window. From the docs:

One immediate repercussion is that the system will cease holding a wakelock for you.

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