The DFU Library for Android 4.3+ adds the DFU feature to the Android project.
- DFU Library version 1.0.0+ supports Secure DFU introduced in SDK 12.0.0 and is fully backwards compatible with all versions of Legacy DFU.
- Allows to program Application, Soft Device and Bootloader Over-the-Air on the nRF5 Series SoC over Bluetooth Low Energy.
- Supports ZIP files with Soft Device, Bootloader and Application together.
- Supports legacy HEX or BIN files.
- Supports the Init packet (which has been required since Bootloader/DFU from SDK 7.0+).
- Performs the DFU operation in a foreground service (option to keep in background service).
- Displays the notification with progress (option to disable).
- Sends local broadcasts with progress, errors and log events to the application.
- Handles bonded devices and buttonless update.
- Android DFU Library is compatible with all Bootloader/DFU versions.
- Only the application may be updated with the bootloader from SDK 4.3.0. An error will be broadcast in case of sending a Soft Device or a Bootloader.
- When App, SD and BL files are in a ZIP file, the service will first try to send all three files together, which will result in an Unsupported Operation DFU error, because currently this operation is not supported by the bootloader. Then, the service will try to send the SD and BL together, which is supported by Bootloader/DFU from SDK 6.1+. Once completed, the service will reconnect to the new bootloader and send the Application in the second connection as part two.
In case of any communication error the peripheral device will never be bricked. When an application or a bootloader is updated, the previous application (or bootloader, in case there was no application) is restored. When a Soft Device is updated, the previous bootloader will be restored as the application has to be removed to in order to save the new version of the Soft Device. You will still be able to repeat the update and flash the Soft Device and the new application again.
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An Android 4.3+ device.
Support for the Bluetooth 4.0 technology is required. Android introduced Bluetooth LE in version 4.3. Android 4.4.4 or newer is recommended for better user experience.
-
Android Studio IDE or Eclipse ADT
Projects are compatible with Android Studio and the Gradle build engine. It is possible to convert them to Eclipse ADT projects. See Integration for more details.
-
nRF5 device for testing.
A nRF5 Series device is required to test the working solution. If your final product is not available, use one of the nRF5 DK, which you can find here.
The DFU Library is compatible as such with Android Studio IDE. If you are using Eclipse ADT, you will have to convert the project to match the Eclipse project structure.
The easiest way to include the library to your project is to add the
compile 'no.nordicsemi.android:dfu:[Version]'
line to your build.gradle file. And that's it.
However, if you want to modify the code to your needs you have to clone the project and add it as follows:
- Clone the project into DFULibrary folder (by default it will be cloned into Android-DFU-Library folder) to your projects root, for example to AndroidstudioProjects.
- Add the dfu module to your project:
- Add '..:[Folder Name]:dfu' to the settings.gradle file:
include ':dfu' project(':dfu').projectDir = file('../[Folder Name]/dfu')
- Open Project Structure -> Modules -> app -> Dependencies tab and add dfu module dependency.
You may also edit the build.gradle file in your app module manually by adding the following
dependency:
implementation project(':dfu')
- Clone the project into DFULibrary folder to a temporary location.
- Create an empty DFULibrary project in Eclipse. Make it a library.
- Copy the content of java code folder to the src.
- Copy the content of the res folder to the res in your Eclipse project.
- Make sure that android support library v4 is available in libs folders. It should have been added automatically when creating the project.
- In your application project, open Properties->Android and add DFULibrary as a library.
Extend the DfuBaseService in your project and implement the
protected Class<? extends Activity> getNotificationTarget()
method. This method should return an
activity class that will be open when you press the DFU notification while transferring the firmware.
This activity will be started with the 'Intent.FLAG_ACTIVITY_NEW_TASK' flag.
package com.example.coolproject;
import no.nordicsemi.android.dfu.DfuBaseService;
import android.app.Activity;
public class DfuService extends DfuBaseService {
@Override
protected Class<? extends Activity> getNotificationTarget() {
/*
* As a target activity the NotificationActivity is returned, not the MainActivity. This is because
* the notification must create a new task:
*
* intent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
*
* when you press it. You can use NotificationActivity to check whether the new activity
* is a root activity (that means no other activity was open earlier) or that some
* other activity is already open. In the latter case the NotificationActivity will just be
* closed. The system will restore the previous activity. However, if the application has been
* closed during upload and you click the notification, a NotificationActivity will
* be launched as a root activity. It will create and start the main activity and
* terminate itself.
*
* This method may be used to restore the target activity in case the application
* was closed or is open. It may also be used to recreate an activity history using
* startActivities(...).
*/
return NotificationActivity.class;
}
@Override
protected boolean isDebug() {
// Here return true if you want the service to print more logs in LogCat.
// Library's BuildConfig in current version of Android Studio is always set to DEBUG=false, so
// make sure you return true or your.app.BuildConfig.DEBUG here.
return BuildConfig.DEBUG;
}
@Override
protected void updateForegroundNotification(@NonNull final NotificationCompat.Builder builder) {
// Customize the foreground service notification here.
}
}
Remember to add your service to AndroidManifest.xml.
You may use the following class in order to prevent starting another instance of your application:
package com.example.coolproject;
import com.example.coolproject.MyActivity;
import android.app.Activity;
import android.content.Intent;
import android.os.Bundle;
public class NotificationActivity extends Activity {
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
// If this activity is the root activity of the task, the app is not running
if (isTaskRoot()) {
// Start the app before finishing
final Intent intent = new Intent(this, MyActivity.class);
intent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
intent.putExtras(getIntent().getExtras()); // copy all extras
startActivity(intent);
}
// Now finish, which will drop you to the activity at which you were at the top of the task stack
finish();
}
}
Remember to add your activity to the AndroidManifest.xml.
Start the DFU service with the following code:
final DfuServiceInitiator starter = new DfuServiceInitiator(mSelectedDevice.getAddress())
.setDeviceName(mSelectedDevice.getName())
.setKeepBond(keepBond);
// If you want to have experimental buttonless DFU feature (DFU from SDK 12.x only!) supported call
// additionally:
starter.setUnsafeExperimentalButtonlessServiceInSecureDfuEnabled(true);
// but be aware of this: https://devzone.nordicsemi.com/question/100609/sdk-12-bootloader-erased-after-programming/
// and other issues related to this experimental service.
// For DFU bootloaders from SDK 15 and 16 it may be required to add a delay before sending each
// data packet. This delay gives the DFU target more time to perpare flash memory, causing less
// packets being dropped and more reliable transfer. Detection of packets being lost would cause
// automatic switch to PRN = 1, making the DFU very slow (but reliable).
stater.setPrepareDataObjectDelay(300L);
// Init packet is required by Bootloader/DFU from SDK 7.0+ if HEX or BIN file is given above.
// In case of a ZIP file, the init packet (a DAT file) must be included inside the ZIP file.
if (mFileType == DfuService.TYPE_AUTO)
starter.setZip(mFileStreamUri, mFilePath);
else {
starter.setBinOrHex(mFileType, mFileStreamUri, mFilePath).setInitFile(mInitFileStreamUri, mInitFilePath);
}
final DfuServiceController controller = starter.start(this, DfuService.class);
// You may use the controller to pause, resume or abort the DFU process.
Please, see How to create init packet document for more information about the init packet.
The service will send local broadcast events using LocalBroadcastManager.
private final DfuProgressListener dfuProgressListener = new DfuProgressListenerAdapter() {
@Override
public void onDeviceConnecting(final String deviceAddress) {
progressBar.setIndeterminate(true);
textPercentage.setText(R.string.dfu_status_connecting);
}
@Override
public void onDfuProcessStarting(final String deviceAddress) {
progressBar.setIndeterminate(true);
textPercentage.setText(R.string.dfu_status_starting);
}
///...
}
@Override
protected void onResume() {
super.onResume();
DfuServiceListenerHelper.registerProgressListener(this, dfuProgressListener);
}
@Override
protected void onPause() {
super.onPause();
DfuServiceListenerHelper.unregisterProgressListener(this, dfuProgressListener);
}
For Android Oreo and above, if you want the DfuService to show a notification with the progress, you have to create a notification channel. The easiest way to do this is to call
DfuServiceInitiator.createDfuNotificationChannel(context);
Check the Android projects: nRF Toolbox or nRF Beacon for usage examples.
Please, submit all issues to the Android DFU Library here.