/libsuu

A complete solution for apps using root permissions. (suu)

Primary LanguageJavaApache License 2.0Apache-2.0

libsuu

How to build your own Magisk(suu)?

1.Open /app/build.gradle.kts

2.Change

`val vLibsu = "x.x.x"
implementation("com.github.topjohnwu.libsu:core:${vLibsu}")
implementation("com.github.topjohnwu.libsu:service:${vLibsu}")
implementation("com.github.topjohnwu.libsu:nio:${vLibsu}")`

to

`val vLibsu = "x.x.x"
implementation("com.github.4accccc.libsu:core:${vLibsu}")
implementation("com.github.4accccc.libsu:service:${vLibsu}")
implementation("com.github.4accccc.libsu:nio:${vLibsu}")`

3.Build Magisk with build.py

An Android library providing a complete solution for apps using root permissions.

libsuu comes with 2 main components: the core module handles the creation of the Unix (root) shell process and wraps it with high level, robust Java APIs; the service module handles the launching, binding, and management of root services over IPC, allowing you to run Java/Kotlin and C/C++ code (via JNI) with root permissions.

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android {
    compileOptions {
        // The library uses Java 8 features
        sourceCompatibility JavaVersion.VERSION_1_8
        targetCompatibility JavaVersion.VERSION_1_8
    }
}
repositories {
    maven { url 'https://jitpack.io' }
}
dependencies {
    def libsuVersion = '6.0.0'

    // The core module that provides APIs to a shell
    implementation "com.github.4accccc.libsu:core:${libsuVersion}"

    // Optional: APIs for creating root services. Depends on ":core"
    implementation "com.github.4accccc.libsu:service:${libsuVersion}"

    // Optional: Provides remote file system support
    implementation "com.github.4accccc.libsu:nio:${libsuVersion}"
}

Quick Tutorial

Please note that this is a quick demo going through the key features of libsuu. Please read the full Javadoc and check out the example app (:example) in this project for more details.

Configuration

Similar to threads where there is a special "main thread", libsuu also has the concept of the "main shell". For each process, there is a single globally shared "main shell" that is constructed on-demand and cached. Set default configurations before the main Shell instance is created:

public class SplashActivity extends Activity {

    static {
        // Set settings before the main shell can be created
        Shell.enableVerboseLogging = BuildConfig.DEBUG;
        Shell.setDefaultBuilder(Shell.Builder.create()
            .setFlags(Shell.FLAG_MOUNT_MASTER)
            .setInitializers(ShellInit.class)
            .setTimeout(10));
    }

    @Override
    protected void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);
        showSplashScreen();
        // As an example, preload the main root shell in the splash screen
        // so the app can use it afterwards without interrupting application
        // flow (e.g. waiting for root permission prompt)
        Shell.getShell(shell -> {
            // The main shell is now constructed and cached
            exitSplashScreen();
        });
    }
}

Shell Operations

Shell operations can be performed through static Shell.cmd(...) methods that directly use the main root shell:

Shell.Result result;
// Execute commands synchronously
result = Shell.cmd("find /dev/block -iname boot").exec();
// Aside from commands, you can also load scripts from InputStream.
// This is NOT like executing a script like "sh script.sh", but rather
// more similar to sourcing the script (". script.sh").
result = Shell.cmd(getResources().openRawResource(R.raw.script)).exec();

List<String> out = result.getOut();  // stdout
int code = result.getCode();         // return code of the last command
boolean ok = result.isSuccess();     // return code == 0?

// Async APIs
Shell.cmd("setenforce 0").submit();   // submit and don't care results
Shell.cmd("sleep 5", "echo hello").submit(result -> updateUI(result));
Future<Shell.Result> futureResult = Shell.cmd("sleep 5", "echo hello").enqueue();

// Run commands and output to specific Lists
List<String> mmaps = new ArrayList<>();
Shell.cmd("cat /proc/1/maps").to(mmaps).exec();
List<String> stdout = new ArrayList<>();
List<String> stderr = new ArrayList<>();
Shell.cmd("echo hello", "echo hello >&2").to(stdout, stderr).exec();

// Receive output in real-time
List<String> callbackList = new CallbackList<String>() {
    @Override
    public void onAddElement(String s) { updateUI(s); }
};
Shell.cmd("for i in $(seq 5); do echo $i; sleep 1; done")
    .to(callbackList)
    .submit(result -> updateUI(result));

Initialization

Optionally, a similar concept to .bashrc, initialize shells with custom Shell.Initializer:

public class ExampleInitializer extends Shell.Initializer {
    @Override
    public boolean onInit(Context context, Shell shell) {
        InputStream bashrc = context.getResources().openRawResource(R.raw.bashrc);
        // Here we use Shell instance APIs instead of Shell.cmd(...) static methods
        shell.newJob()
            .add(bashrc)                  /* Load a script */
            .add("export ENV_VAR=VALUE")  /* Run some commands */
            .exec();
        return true;  // Return false to indicate initialization failed
    }
}
Shell.Builder builder = /* Create a shell builder */ ;
builder.setInitializers(ExampleInitializer.class);

Root Services

If interacting with a root shell is too limited for your needs, you can also implement a root service to run complex code. A root service is similar to Bound Services but running in a root process. libsuu uses Android's native IPC mechanism, binder, for communication between your root service and the main application process. In addition to running Java/Kotlin code, loading native libraries with JNI is also supported (android:extractNativeLibs=false is allowed). For more details, please read the full Javadoc of RootService and check out the example app for more details. Add com.github.4accccc.libsu:service as a dependency to access RootService:

public class RootConnection implements ServiceConnection { ... }
public class ExampleService extends RootService {
    @Override
    public IBinder onBind(Intent intent) {
        // return IBinder from Messenger or AIDL stub implementation
    }
}
RootConnection connection = new RootConnection();
Intent intent = new Intent(context, ExampleService.class);
RootService.bind(intent, connection);
Debugging Root Services

If the application process creating the root service has a debugger attached, the root service will automatically enable debugging mode and wait for the debugger to attach. In Android Studio, go to "Run > Attach Debugger to Android Process", tick the "Show all processes" box, and you should be able to manually attach to the remote root process. Currently, only the "Java only" debugger is supported.

I/O

Add com.github.4accccc.libsu:nio as a dependency to access remote file system APIs:

// Create the file system service in the root process
// For example, create and send the service back to the client in a RootService
public class ExampleService extends RootService {
    @Override
    public IBinder onBind(Intent intent) {
        return FileSystemManager.getService();
    }
}

// In the client process
IBinder binder = /* From the root service connection */;
FileSystemManager remoteFS;
try {
    remoteFS = FileSystemManager.getRemote(binder);
} catch (RemoteException e) {
    // Handle errors
}
ExtendedFile bootBlock = remoteFS.getFile("/dev/block/by-name/boot");
if (bootBlock.exists()) {
    ExtendedFile bootBackup = remoteFS.getFile("/data/boot.img");
    try (InputStream in = bootBlock.newInputStream();
         OutputStream out = bootBackup.newOutputStream()) {
        // Do I/O stuffs...
    } catch (IOException e) {
        // Handle errors
    }
}

License

This project is licensed under the Apache License, Version 2.0. Please refer to LICENSE for the full text.