Question posted in 
I built a VoIP calling app which maintains a persistent connection with the server to listen to any incoming calls. I implemented a background service to do this.
But since Oreo, this running code is now broken because of the introduction of Background Execution Limits
After looking into forums, I found that some people are suggesting
-
Convert Service to JobService and let android schedule it
Doing so, my app won’t be able to receive calls when it is stopped
-
Run your operations in foreground services
It is annoying for some users to see a constant notification in the notification bar. So these above-mentioned options aren’t working for me to fix my code for Oreo.
How does WhatsApp get the incoming (VOIP) call in Android (Oreo onwards) working around the Background Execution Limits?
3
Answers
There are two options:
(Sticky) foreground services are not affected by the restrictions. So you could use one those as replacement for background services on Oreo.
But foreground services have two disadvantages: They are less likely killed by the system in order to reclaim resources compared to background services, and hence affects the Android system’s self-healing capability. And they require you to display a permanent notification. But Users are able to suppress the notification, somewhat mitigating this disadvantage.
I am assuming that you are using SIP to establish the connection and initiate calls. Without a service constantly re-sending REGISTERs, the app doesn’t receive INVITEs when the server sends them.
A workaround for this problem is what is called the “push notification strategy”. It works as follows, when the server sends a INVITE, it also sends an FCM notification to your app, This wakes up your app which then sends a REGISTER to your server, which in return forks the call to your app. Here is a video that better explains this strategy