Epic is the continuation of Dexposed on ART (Supports 4.0 ~ 10.0).
Dexposed is a powerful yet non-invasive runtime AOP (Aspect-oriented Programming) framework for Android app development, based on the work of open-source Xposed framework project.
The AOP of Dexposed is implemented purely non-invasive, without any annotation processor, weaver or bytecode rewriter. The integration is as simple as loading a small JNI library in just one line of code at the initialization phase of your app.
Not only the code of your app, but also the code of Android framework that running in your app process can be hooked.
Epic keeps the same API and all capability of Dexposed, you can do anything which is supported by Dexposed.
- Classic AOP programming
- Instrumentation (for testing, performance monitoring and etc.)
- Security audit (sensitive api check,Smash shell)
- Just for fun :)
Directly add epic aar to your project as compile libraries, it contains a jar file "dexposedbridge.jar" two so files "libdexposed.so libepic.so" from 'epic' directory.
Gradle dependency like following(jcenter):
dependencies {
compile 'me.weishu:epic:0.6.0'
}
Everything is ready.
If you want for the stable version (better compatibility for Android 8.0+ and support for Android 9.0), please contact me.
There are three injection points for a given method: before, after, origin.
Example 1: monitor the creation and destroy of java thread
class ThreadMethodHook extends XC_MethodHook{
@Override
protected void beforeHookedMethod(MethodHookParam param) throws Throwable {
super.beforeHookedMethod(param);
Thread t = (Thread) param.thisObject;
Log.i(TAG, "thread:" + t + ", started..");
}
@Override
protected void afterHookedMethod(MethodHookParam param) throws Throwable {
super.afterHookedMethod(param);
Thread t = (Thread) param.thisObject;
Log.i(TAG, "thread:" + t + ", exit..");
}
}
DexposedBridge.hookAllConstructors(Thread.class, new XC_MethodHook() {
@Override
protected void afterHookedMethod(MethodHookParam param) throws Throwable {
super.afterHookedMethod(param);
Thread thread = (Thread) param.thisObject;
Class<?> clazz = thread.getClass();
if (clazz != Thread.class) {
Log.d(TAG, "found class extend Thread:" + clazz);
DexposedBridge.findAndHookMethod(clazz, "run", new ThreadMethodHook());
}
Log.d(TAG, "Thread: " + thread.getName() + " class:" + thread.getClass() + " is created.");
}
});
DexposedBridge.findAndHookMethod(Thread.class, "run", new ThreadMethodHook());
Example 2: Intercept the dex loading behavior
DexposedBridge.findAndHookMethod(DexFile.class, "loadDex", String.class, String.class, int.class, new XC_MethodHook() {
@Override
protected void beforeHookedMethod(MethodHookParam param) throws Throwable {
super.beforeHookedMethod(param);
String dex = (String) param.args[0];
String odex = (String) param.args[1];
Log.i(TAG, "load dex, input:" + dex + ", output:" + odex);
}
});
Checkout the sample
project to find out more.
Epic support all Dalvik runtime arm architecture devices from Android 2.3 to 4.4 (no include 3.0), which inherits from Dexposed. Further more, it support ART thumb2 and arm64 architecture from Android 5.0 to 8.1. arm32, x86, x86_64 and mips are not supported now. The stability is not proved in any online product, it is only for personal use now (mainly for performance analysis), Welcome to any compatibility issues or PRs.
Following is support status.
Runtime | Android Version | Support |
---|---|---|
Dalvik | 2.2 | Not Test |
Dalvik | 2.3 | Yes |
Dalvik | 3.0 | No |
Dalvik | 4.0-4.4 | Yes |
ART | L (5.0) | Yes |
ART | L MR1 (5.1) | Yes |
ART | M (6.0) | Yes |
ART | N (7.0) | Yes |
ART | N MR1 (7.1) | Yes |
ART | O (8.0) | Yes |
ART | O MR1(8.1) | Yes |
ART | P (9.0) | Yes |
ART | Q (10.0) | Yes |
And the architecture support status:
Runtime | Arch | Support |
---|---|---|
Dalvik | All | Yes |
ART | Thumb2 | Yes |
ART | ARM64 | Yes |
ART | ARM32 | No |
ART | x86/x86_64 | No |
ART | mips | No |
- Short method (instruction less 8 bytes on thumb2 or less 16bytes in ARM64) are not supported.
- Fully inline methods are not supported.
We are open to constructive contributions from the community, especially pull request and quality bug report. Currently, the implementation for ART is not proved in large scale, we value your help to test or improve the implementation.
You can clone this project, build and install the sample app, just make some click in your device, if some bugs/crash occurs, please file an issue or a pull request, I would appreciate it :)