Headless JS
Headless JS is a way to run tasks in JavaScript while your app is in the background. It can be used, for example, to sync fresh data, handle push notifications, or play music.
The JS API
A task is an async function that you register on AppRegistry
, similar to registering React applications:
AppRegistry.registerHeadlessTask('SomeTaskName', () =>
require('SomeTaskName')
);
Then, in SomeTaskName.js
:
module.exports = async (taskData) => {
// do stuff
};
You can do anything in your task such as network requests, timers and so on, as long as it doesn't touch UI. Once your task completes (i.e. the promise is resolved), React Native will go into "paused" mode (unless there are other tasks running, or there is a foreground app).
The Java API
Yes, this does still require some native code, but it's pretty thin. You need to extend HeadlessJsTaskService
and override getTaskConfig
, e.g.:
public class MyTaskService extends HeadlessJsTaskService {
@Override
protected @Nullable HeadlessJsTaskConfig getTaskConfig(Intent intent) {
Bundle extras = intent.getExtras();
if (extras != null) {
return new HeadlessJsTaskConfig(
"SomeTaskName",
Arguments.fromBundle(extras),
5000, // timeout for the task
false // optional: defines whether or not the task is allowed in foreground. Default is false
);
}
return null;
}
}
Then add the service to your AndroidManifest.xml
file:
<service android:name="com.example.MyTaskService" />
Now, whenever you start your service, e.g. as a periodic task or in response to some system event / broadcast, JS will spin up, run your task, then spin down.
Example:
Intent service = new Intent(getApplicationContext(), MyTaskService.class);
Bundle bundle = new Bundle();
bundle.putString("foo", "bar");
service.putExtras(bundle);
getApplicationContext().startService(service);
Retries
By default, the headless JS task will not perform any retries. In order to do so, you need to create a HeadlessJsRetryPolicy
and throw a specfic Error
.
LinearCountingRetryPolicy
is an implementation of HeadlessJsRetryPolicy
that allows you to specify a maximum number of retries with a fixed delay between each attempt. If that does not suit your needs then you can implement your own HeadlessJsRetryPolicy
. These policies can be passed as an extra argument to the HeadlessJsTaskConfig
constructor, e.g.
HeadlessJsRetryPolicy retryPolicy = new LinearCountingRetryPolicy(
3, // Max number of retry attempts
1000 // Delay between each retry attempt
);
return new HeadlessJsTaskConfig(
'SomeTaskName',
Arguments.fromBundle(extras),
5000,
false,
retryPolicy
);
A retry attempt will only be made when a specific Error
is thrown. Inside a headless JS task, you can import the error and throw it when a retry attempt is required.
Example:
import {HeadlessJsTaskError} from 'HeadlessJsTask';
module.exports = async (taskData) => {
const condition = ...;
if (!condition) {
throw new HeadlessJsTaskError();
}
};
If you wish all errors to cause a retry attempt, you will need to catch them and throw the above error.
Caveats
- The function passed to
setTimeout
does not always behave as expected. Instead the function is called only when the application is launched again. If you only need to wait, use the retry functionality. - By default, your app will crash if you try to run a task while the app is in the foreground. This is to prevent developers from shooting themselves in the foot by doing a lot of work in a task and slowing the UI. You can pass a fourth
boolean
argument to control this behaviour. - If you start your service from a
BroadcastReceiver
, make sure to callHeadlessJsTaskService.acquireWakeLockNow()
before returning fromonReceive()
.
Example Usage
Service can be started from Java API. First you need to decide when the service should be started and implement your solution accordingly. Here is an example that reacts to network connection change.
Following lines shows part of Android manifest file for registering broadcast receiver.
<receiver android:name=".NetworkChangeReceiver" >
<intent-filter>
<action android:name="android.net.conn.CONNECTIVITY_CHANGE" />
</intent-filter>
</receiver>
Broadcast receiver then handles intent that was broadcasted in onReceive function. This is a great place to check whether your app is on foreground or not. If app is not on foreground we can prepare our intent to be started, with no information or additional information bundled using putExtra
(keep in mind bundle can handle only parcelable values). In the end service is started and wakelock is acquired.
public class NetworkChangeReceiver extends BroadcastReceiver {
@Override
public void onReceive(final Context context, final Intent intent) {
/**
This part will be called everytime network connection is changed
e.g. Connected -> Not Connected
**/
if (!isAppOnForeground((context))) {
/**
We will start our service and send extra info about
network connections
**/
boolean hasInternet = isNetworkAvailable(context);
Intent serviceIntent = new Intent(context, MyTaskService.class);
serviceIntent.putExtra("hasInternet", hasInternet);
context.startService(serviceIntent);
HeadlessJsTaskService.acquireWakeLockNow(context);
}
}
private boolean isAppOnForeground(Context context) {
/**
We need to check if app is in foreground otherwise the app will crash.
http://stackoverflow.com/questions/8489993/check-android-application-is-in-foreground-or-not
**/
ActivityManager activityManager = (ActivityManager) context.getSystemService(Context.ACTIVITY_SERVICE);
List<ActivityManager.RunningAppProcessInfo> appProcesses =
activityManager.getRunningAppProcesses();
if (appProcesses == null) {
return false;
}
final String packageName = context.getPackageName();
for (ActivityManager.RunningAppProcessInfo appProcess : appProcesses) {
if (appProcess.importance ==
ActivityManager.RunningAppProcessInfo.IMPORTANCE_FOREGROUND &&
appProcess.processName.equals(packageName)) {
return true;
}
}
return false;
}
public static boolean isNetworkAvailable(Context context) {
ConnectivityManager cm = (ConnectivityManager)
context.getSystemService(Context.CONNECTIVITY_SERVICE);
NetworkInfo netInfo = cm.getActiveNetworkInfo();
return (netInfo != null && netInfo.isConnected());
}
}