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Xposed的新打开方式--Xpatch工作流程分析

Xposed的新打开方式--Xpatch工作流程分析

作者: luoyesiqiu | 来源:发表于2019-05-28 10:07 被阅读0次

    1. Xpatch概述

    Xpatch是一款利用重打包的方式,使得被处理的Apk启动时自动加载Xposed模块,来实现应用内Hook的工具。

    项目地址:https://github.com/WindySha/Xpatch

    2. Xpatch处理apk分析

    Xpatch修改apk,主要有三个步骤,代码在MainCommand类的doCommandLine方法:

    protected void doCommandLine() {
        //...
        if (!disableCrackSignature) {
            // save the apk original signature info, to support crach signature.
            new SaveApkSignatureTask(apkPath, unzipApkFilePath).run();
        }
        FileUtils.decompressZip(apkPath, unzipApkFilePath);
        //...
        // 1. modify the apk dex file to make xposed can run in it
        mXpatchTasks.add(new ApkModifyTask(showAllLogs, keepBuildFiles, unzipApkFilePath, applicationName,
                dexFileCount));
        
        // 2. copy xposed so and dex files into the unzipped apk
        mXpatchTasks.add(new SoAndDexCopyTask(dexFileCount, unzipApkFilePath, getXposedModules(xposedModules)));
        
        // 3. compress all files into an apk and then sign it.
        mXpatchTasks.add(new BuildAndSignApkTask(keepBuildFiles, unzipApkFilePath, output));
        //...
        for (Runnable executor : mXpatchTasks) {
            executor.run();
        }
        //...
    }
    

    (1) 第一步

    在Xpatch的源码中,第一步对应的是ApkModifyTask类,实现的是Runnable接口,它的任务是修改Dex文件,使得被处理的apk在启动时能够执行指定的代码。

    如果反编译被Xpatch处理过的Apk,查看App中Application的子类,会发现其中多了以下的代码:

    static {
        XposedModuleEntry.init();
    }
    

    我们大胆的猜测,这就是Xpatch给注入进去的入口代码。我们回到Xpatch的源码,来看看它是如何注入的。查看ApkModifyTask类,一步步进行跟踪:

    ApkModifyTask类的run方法,在任务被启动时调用,它的代码:

    public void run() {
        //...
        String targetDexFileName = dumpJarFile(dexFileCount, unzipApkFilePath, jarOutputPath, applicationName);
        //...
    }
    

    dumpJarFile方法:

    private String dumpJarFile(int dexFileCount, String dexFilePath, String jarOutputPath, String applicationName) {
        //...
        boolean isApplicationClassFound = dex2JarCmd(filePath, jarOutputPath, applicationName);
        //...
    }
    

    继续跟踪到dex2JarCmd方法:

    private boolean dex2JarCmd(String dexPath, String jarOutputPath, String applicationName) {
        Dex2jarCmd cmd = new Dex2jarCmd();
        String[] args = new String[]{
                dexPath,
                "-o",
                jarOutputPath,
                "-app",
                applicationName,
                "--force"
        };
        cmd.doMain(args);
    
        boolean isApplicationClassFounded = cmd.isApplicationClassFounded();
        if (showAllLogs) {
            System.out.println("isApplicationClassFounded ->  " + isApplicationClassFounded + "the dexPath is  " +
                    dexPath);
        }
        return isApplicationClassFounded;
    }
    

    看到了它创建了一个com.googlecode.dex2jar.tools.Dex2jarCmd类实例,这个类在名为dex-tools的外部库里,并调用了Dex2jarCmd的doMain方法,给他传进去一些类似于命令行参数的东西,令我们比较提得起精神的是-app参数,它传进去一个applicationName,这个applicationName的值来自MainCommand类的doCommandLine方法,逻辑是从解压的apk中读取AndroidManifest.xml,并读取application节点下的name属性的值,最后将值赋予applicatioName

    protected void doCommandLine() {
        //...
        ManifestParser.Pair pair = ManifestParser.parseManifestFile(manifestFilePath);
        String applicationName;
        if (pair != null && pair.applicationName != null) {
            applicationName = pair.applicationName;
        } else {
            System.out.println(" Application name not found error !!!!!! ");
            applicationName = DEFAULT_APPLICATION_NAME;
        }
        //...
    }
    

    exm?就这样?并没有发现任何注入的代码啊,不急,继续跟踪,看到applicationName传进去了,一定能跟踪到有用的信息。接下来就是进入dex-tools外部库了,代码都是反编译出来的

    com.googlecode.dex2jar.tools.BaseCmd的doMain方法:

    public void doMain(String... args) {
        try {
            this.initOptions();
            this.parseSetArgs(args);
            this.doCommandLine();
        } catch (BaseCmd.HelpException var4) {
            String msg = var4.getMessage();
            if (msg != null && msg.length() > 0) {
                System.err.println("ERROR: " + msg);
            }
            this.usage();
        } catch (Exception var5) {
            var5.printStackTrace(System.err);
        }
    }
    

    主要看doCommandLine方法,doCommandLine是个抽象方法,它的真正实现是在Dex2jarCmd类里

    protected void doCommandLine() throws Exception {
        //...
        for(var4 = 0; var4 < var3; ++var4) {
            //...
            BaseDexFileReader reader = MultiDexFileReader.open(Files.readAllBytes((new File(fileName)).toPath()));
            BaksmaliBaseDexExceptionHandler handler = this.notHandleException ? null : new BaksmaliBaseDexExceptionHandler();
            this.dex2jar = Dex2jar.from(reader);
            this.dex2jar.withExceptionHandler(handler)
            .reUseReg(this.reuseReg)
            .topoLogicalSort()
            .skipDebug(!this.debugInfo)
            .optimizeSynchronized(this.optmizeSynchronized)
            .printIR(this.printIR)
            .noCode(this.noCode)
            .skipExceptions(this.skipExceptions)
            .setApplicationName(this.applicationName)
            .to(file);
            //...
        }
    }
    

    跳转到com.googlecode.d2j.dex.Dex2jar类的to方法

    public void to(Path file) throws IOException {
        if (Files.exists(file, new LinkOption[0]) && Files.isDirectory(file, new LinkOption[0])) {
            this.doTranslate(file);
        } else {
            FileSystem fs = createZip(file);
            Throwable var3 = null;
    
            try {
                this.doTranslate(fs.getPath("/"));
            } catch (Throwable var12) {
                var3 = var12;
                throw var12;
            } finally {
                if (fs != null) {
                    if (var3 != null) {
                        try {
                            fs.close();
                        } catch (Throwable var11) {
                            var3.addSuppressed(var11);
                        }
                    } else {
                        fs.close();
                    }
                }
    
            }
        }
    
    }
    

    to方法调用doTranslate方法

    private void doTranslate(final Path dist) throws IOException {
    
            //...
            (new ExDex2Asm(this.exceptionHandler) {
                public void convertCode(DexMethodNode methodNode, MethodVisitor mv) {
                    if (methodNode.method.getOwner().equals(Dex2jar.this.applicationName) && methodNode.method.getName().equals("<clinit>")) {
                        Dex2jar.this.isApplicationClassFounded = true;
                        mv.visitMethodInsn(184, "com/wind/xposed/entry/XposedModuleEntry", "init", "()V", false);
                    }
    
                    if ((Dex2jar.this.readerConfig & 4) == 0 || !methodNode.method.getName().equals("<clinit>")) {
                        super.convertCode(methodNode, mv);
                    }
                }
    
                public void addMethod(DexClassNode classNode, ClassVisitor cv) {
                    if (classNode.className.equals(Dex2jar.this.applicationName)) {
                        Dex2jar.this.isApplicationClassFounded = true;
                        boolean hasFoundClinitMethod = false;
                        if (classNode.methods != null) {
                            Iterator var4 = classNode.methods.iterator();
    
                            while(var4.hasNext()) {
                                DexMethodNode methodNode = (DexMethodNode)var4.next();
                                if (methodNode.method.getName().equals("<clinit>")) {
                                    hasFoundClinitMethod = true;
                                    break;
                                }
                            }
                        }
    
                        if (!hasFoundClinitMethod) {
                            MethodVisitor mv = cv.visitMethod(8, "<clinit>", "()V", (String)null, (String[])null);
                            mv.visitCode();
                            mv.visitMethodInsn(184, "com/wind/xposed/entry/XposedModuleEntry", "init", "()V", false);
                            mv.visitInsn(177);
                            mv.visitMaxs(0, 0);
                            mv.visitEnd();
                        }
                    }
    
                }
    
                //...
            }).convertDex(fileNode, cvf);
        }
    

    doTranslate方法很长,但是我们很容易就能看到了很敏感的字符串:com/wind/xposed/entry/XposedModuleEntry,这就是Xpatch插入自己初始化的代码的地方。visitMethodInsn方法用于在函数内插入一条指令,看到两处调用visitMethodInsn来插入调用 com.wind.xposed.entry.XposedModuleEntry类的init方法的指令。

    • convertCode函数中的visitMethodInsn,逻辑是如果要处理的Application类中存在clinit方法,即存在静态代码段,就直接插入调用 com.wind.xposed.entry.XposedModuleEntry类的init方法的指令
    • addMethod函数中的visitMethodInsn,如果要处理的Application类中不存在clinit方法,即不存在静态代码段,就创建一个静态代码段,并在其中插入调用 com.wind.xposed.entry.XposedModuleEntry类的init方法的指令,最后返回void

    注:上面的操作码,184代表invoke-static,177代表return-void。这些操作码定义在org.objectweb.asm.Opcodes类中。

    到这里,第一步我们已经搞清楚了。

    (2) 第二步

    对应的是SoAndDexCopyTask类,从名字可以看出它的任务是复制so和dex的,具体是怎样的,我们看代码。

    SoAndDexCopyTask类,它也实现了Runnable接口,run方法在任务被启动时调用:

    @Override
    public void run() {
        copySoFile();
        copyDexFile(dexFileCount);
        deleteMetaInfo();
    }
    

    这个类主要就做这三个动作:复制so文件,复制dex文件,删除Meta信息。

    我们先看copySoFile代码:

    private void copySoFile() {
        for (String libPath : APK_LIB_PATH_ARRAY) {
            String apkSoFullPath = fullLibPath(libPath);
            if(new File(apkSoFullPath).exists()) {
                copyLibFile(apkSoFullPath, SO_FILE_PATH_MAP.get(libPath));
            }
        }
        // copy xposed modules into the lib path
        if (xposedModuleArray != null && xposedModuleArray.length > 0) {
            int index = 0;
            for (String modulePath : xposedModuleArray) {
                modulePath = modulePath.trim();
                if (modulePath == null || modulePath.length() == 0) {
                    continue;
                }
                File moduleFile = new File(modulePath);
                if (!moduleFile.exists()) {
                    continue;
                }
                for (String libPath : APK_LIB_PATH_ARRAY) {
                    String apkSoFullPath = fullLibPath(libPath);
                    String outputModuleName= XPOSED_MODULE_FILE_NAME_PREFIX + index + SO_FILE_SUFFIX;
                    if(new File(apkSoFullPath).exists()) {
                        File outputModuleSoFile = new File(apkSoFullPath, outputModuleName);
                        FileUtils.copyFile(moduleFile, outputModuleSoFile);
                    }
    
                }
                index++;
            }
        }
    }
    

    看代码可以知道它的任务是把Xpatch.jar中assets目录下的libxpatch_wl.so复制到apk解压目录的lib/<架构文件夹>下。这个libxpatch_wl.so是whale框架提供so文件,为Hook提供可能。

    除了复制so,如果我们在用Xpatch时使用-xm参数来将Xposed模块集成到apk中,那么模块会被就会被重命名成:以libxpatch_xp_module_为前缀,后面接着模块序号,最后再以so为后缀。最终这个模块被复制到apk的lib目录下。

    copyDexFile方法:

    private void copyDexFile(int dexFileCount) {
        String copiedDexFileName = "classes" + (dexFileCount + 1) + ".dex";
        FileUtils.copyFileFromJar("assets/classes.dex", unzipApkFilePath + copiedDexFileName);
    }
    

    逻辑也很明了,把assets下的classes.dex复制到apk解压目录下,根据原来apk中的dex个数来给复制进去的dex重命名。

    deleteMetaInfo方法:

    private void deleteMetaInfo() {
        String metaInfoFilePath = "META-INF";
        File metaInfoFileRoot = new File(unzipApkFilePath + metaInfoFilePath);
        if (!metaInfoFileRoot.exists()) {
            return;
        }
        File[] childFileList = metaInfoFileRoot.listFiles();
        if (childFileList == null || childFileList.length == 0) {
            return;
        }
        for (File file : childFileList) {
            String fileName = file.getName().toUpperCase();
            if (fileName.endsWith(".MF") || fileName.endsWith(".RAS") || fileName.endsWith(".SF")) {
                file.delete();
            }
        }
    }
    

    没什么好说的,就是删除<apk解压目录>/META-INF下的指定文件。

    (3) 第三步

    对应的是BuildAndSignApkTask类,从名字可以看出它的任务是构建和对apk签名的。

    这个BuildAndSignApkTask类也是实现Runnable接口,我们来看run方法:

    public void run() {
        //...
        FileUtils.compressToZip(unzipApkFilePath, unsignedApkPath);
        //...
        signApk(unsignedApkPath, keyStoreFilePath, signedApkPath, false);
        //...
    }
    

    这个方法做了两件重要的事,把apk解压目录给压缩成zip,并给压缩成的文件签名,这里就不细讲了。

    3. 被集成进apk中的dex分析

    我们在上面提到过,Xpatch把assets目录下的classes.dex文件复制进了目标apk里,这个dex是不开源的,那么这个dex里面究竟有什么呢,我们把dex解压出来,拖进jadx中反编译。

    既然Xpatch将初始化代码注入到应用的Application类,初始化代码调用com.wind.xposed.entry.XposedModuleEntry类的init方法,那么我们从init方法开始看起。

    public static void init() {
        if (b.compareAndSet(false, true)) {
            Context createAppContext = XpatchUtils.createAppContext();//1
            if (createAppContext == null) {
                Log.e(a, "try to init XposedModuleEntry, but create app context failed !!!!");
                return;
            }
            d = createAppContext;
            if (VERSION.SDK_INT > 21 && !FileUtils.isFilePermissionGranted(createAppContext)) {
                Log.e(a, "File permission is not granted, can not control xposed module by file ->xposed_config/modules.list");
            }
            XposedHelper.initSeLinux(createAppContext.getApplicationInfo().processName);
            SharedPrefUtils.init(createAppContext);
            ClassLoader classLoader = createAppContext.getClassLoader();
            b.a(createAppContext.getApplicationInfo(), classLoader);//2
            List<String> arrayList = new ArrayList();
            List<String> a = a(createAppContext);//3
            a(createAppContext, (List) arrayList);//4
            if (a.size() > 0) {
                String a2;
                String a3;
                List list = null;
                for (String a32 : arrayList) {
                    if (list == null) {
                        list = new ArrayList();
                    }
                    a2 = a(createAppContext, a32);
                    String str = a;
                    StringBuilder stringBuilder = new StringBuilder("Current packed module path ----> ");
                    stringBuilder.append(a32);
                    stringBuilder.append(" packageName = ");
                    stringBuilder.append(a2);
                    XLog.d(str, stringBuilder.toString());
                    list.add(a2);
                }
                if (list == null || list.size() == 0) {
                    arrayList.addAll(a);
                } else {
                    for (String str2 : a) {
                        a32 = a(createAppContext, str2);
                        a2 = a;
                        StringBuilder stringBuilder2 = new StringBuilder("Current installed module path ----> ");
                        stringBuilder2.append(str2);
                        stringBuilder2.append(" packageName = ");
                        stringBuilder2.append(a32);
                        XLog.d(a2, stringBuilder2.toString());
                        if (!list.contains(a32)) {
                            arrayList.add(str2);
                        }
                    }
                }
            }
            for (String str3 : arrayList) {
                String absolutePath = createAppContext.getDir("xposed_plugin_dex", 0).getAbsolutePath();
                if (!TextUtils.isEmpty(str3)) {
                    Log.d(a, "Current truely loaded module path ----> ".concat(String.valueOf(str3)));
                    b.a(str3, absolutePath, createAppContext.getApplicationInfo(), classLoader);//5
                }
            }
        }
    }
    

    init方法代码比较多,上面标注释的地方是比较值得关注的,根据这些地方展开

    注释1: 这里主要通过反射来创建Context,作为这么早执行的代码,作者也通过很巧妙的方式创建了Context,有了Context后,很多事就好办多了,XpatchUtils.createAppContext()的代码如下:

    public static Context createAppContext() {
        try {
            Class cls = Class.forName("android.app.ActivityThread");
            Method declaredMethod = cls.getDeclaredMethod("currentActivityThread", new Class[0]);
            declaredMethod.setAccessible(true);
            Object invoke = declaredMethod.invoke(null, new Object[0]);
            Field declaredField = cls.getDeclaredField("mBoundApplication");
            declaredField.setAccessible(true);
            Object obj = declaredField.get(invoke);
            Field declaredField2 = obj.getClass().getDeclaredField("info");
            declaredField2.setAccessible(true);
            obj = declaredField2.get(obj);
            Method declaredMethod2 = Class.forName("android.app.ContextImpl").getDeclaredMethod("createAppContext", new Class[]{cls, obj.getClass()});
            declaredMethod2.setAccessible(true);
            Object invoke2 = declaredMethod2.invoke(null, new Object[]{invoke, obj});
            if (invoke2 instanceof Context) {
                return (Context) invoke2;
            }
        } catch (ClassNotFoundException | IllegalAccessException | NoSuchFieldException | NoSuchMethodException | InvocationTargetException e) {
            e.printStackTrace();
        }
        return null;
    }
    

    注释2:调用com.wind.xposed.entry.b类的a方法,并将当前App的ApplicationInfo和ClassLoader传过去,从这里开始就开始碰到XposedBridge的代码了

    public static void a(ApplicationInfo applicationInfo, ClassLoader classLoader) {
        Wrapper wrapper = new Wrapper(a.a());
        CopyOnWriteSortedSet copyOnWriteSortedSet = new CopyOnWriteSortedSet();
        copyOnWriteSortedSet.add(wrapper);
        LoadPackageParam loadPackageParam = new LoadPackageParam(copyOnWriteSortedSet);
        loadPackageParam.packageName = applicationInfo.packageName;
        loadPackageParam.processName = applicationInfo.processName;
        loadPackageParam.classLoader = classLoader;
        loadPackageParam.appInfo = applicationInfo;
        loadPackageParam.isFirstApplication = true;
        XCallback.callAll(loadPackageParam);
    }
    

    方法第一行把a.a()传给了Wrapper的构造函数,a类完整类名是com.wind.xposed.entry.a,该类实现IXposedHookLoadPackage接口,a静态方法返回a类实例,那么Wrapper的构造函数得到的就是IXposedHookLoadPackage接口的类实例。接着Wrapper类实例被添加到一个CopyOnWriteSortedSet中,这个CopyOnWriteSortedSet类是一个操作Object数组的类,CopyOnWriteSortedSet被传到LoadPackageParam类的构造函数中,调用这个构造函数就是在给它父类(Param类)中的callbacks字段赋值。

    public static abstract class Param {
        public final Object[] callbacks;
        //...
        protected Param(CopyOnWriteSortedSet<? extends XCallback> copyOnWriteSortedSet) {
            this.callbacks = copyOnWriteSortedSet.getSnapshot();
        }
        //...
    }
    

    接下来就是给LoadPackageParam的字段赋值,这些字段存储着当前应用包名,进程名,ApplicationInfo,ClassLoader等等信息。

    com.wind.xposed.entry.b.a(ApplicationInfo applicationInfo, ClassLoader classLoader)方法的最后,调用XCallback类的callAll方法

    public static void callAll(Param param) {
        if (param.callbacks != null) {
            int i = 0;
            while (true) {
                Object[] objArr = param.callbacks;
                if (i < objArr.length) {
                    try {
                        ((XCallback) objArr[i]).call(param);
                    } catch (Throwable th) {
                        XposedBridge.log(th);
                    }
                    i++;
                } else {
                    return;
                }
            }
        }
        //...
    }
    

    callAll方法遍历Param类中的所有callback,调用它们的call方法

    public void call(Param param) {
        if (param instanceof LoadPackageParam) {
            handleLoadPackage((LoadPackageParam) param);
        }
    }
    

    饶了半天,就是调用传进Wrapper类构造函数的类的handleLoadPackage方法,那就是调用com.wind.xposed.entry.a类的handleLoadPackage方法,而com.wind.xposed.entry.a类的handleLoadPackage方法又去调用com.wind.xposed.entry.a.a类的handleLoadPackage方法,那我们去看com.wind.xposed.entry.a.a类的handleLoadPackage的实现

    public final void handleLoadPackage(LoadPackageParam loadPackageParam) {
        Context a = XposedModuleEntry.a();
        String readTextFromAssets = FileUtils.readTextFromAssets(a, "xpatch_asset/original_signature_info.ini");
        Log.d("PackageSignatureHooker", "Get the original signature --> ".concat(String.valueOf(readTextFromAssets)));
        if (!(readTextFromAssets == null || readTextFromAssets.isEmpty())) {
            try {
                WhaleRuntime.reserved2();
                Class cls = Class.forName("android.app.ActivityThread");
                Object invoke = cls.getDeclaredMethod("currentActivityThread", new Class[0]).invoke(null, new Object[0]);
                Method declaredMethod = cls.getDeclaredMethod("getPackageManager", new Class[0]);
                declaredMethod.setAccessible(true);
                Object invoke2 = declaredMethod.invoke(invoke, new Object[0]);
                Object newProxyInstance = Proxy.newProxyInstance(Class.forName("android.content.pm.IPackageManager").getClassLoader(), new Class[]{r7}, new a(invoke2, loadPackageParam.packageName, readTextFromAssets));
                Field declaredField = cls.getDeclaredField("sPackageManager");
                declaredField.setAccessible(true);
                declaredField.set(invoke, newProxyInstance);
                PackageManager packageManager = a.getPackageManager();
                declaredField = packageManager.getClass().getDeclaredField("mPM");
                declaredField.setAccessible(true);
                declaredField.set(packageManager, newProxyInstance);
            } catch (Exception e) {
                Log.e("PackageSignatureHooker", " hookSignatureByProxy failed !!", e);
            }
        }
    }
    
    

    这个方法的作用是Hook相关的函数,将被处理的apk的签名替换成原来的,防止某些App检测到自己的Apk被修改。apk在被Xpatch处理之前,签名的信息的被保存了下来,对应的任务类是SaveApkSignatureTask,上文没有讲到,感兴趣可以去看一下。

    注释3:调用本类中的a方法,这个方法的参数只有一个参数Context

    private static List<String> a(Context context) {
        PackageManager packageManager = context.getPackageManager();
        ArrayList arrayList = new ArrayList();
        List a = a(true);
        final ArrayList arrayList2 = new ArrayList();
        boolean exists = new File(c, "xposed_config/modules.list").exists();
        for (PackageInfo packageInfo : packageManager.getInstalledPackages(128)) {
            ApplicationInfo applicationInfo = packageInfo.applicationInfo;
            if (applicationInfo.enabled) {
                Bundle bundle = applicationInfo.metaData;
                if (bundle != null && bundle.containsKey("xposedmodule")) {
                    CharSequence charSequence = packageInfo.applicationInfo.publicSourceDir;
                    String charSequence2 = context.getPackageManager().getApplicationLabel(packageInfo.applicationInfo).toString();
                    if (TextUtils.isEmpty(charSequence)) {
                        charSequence = packageInfo.applicationInfo.sourceDir;
                    }
                    if (!TextUtils.isEmpty(charSequence) && (!exists || a == null || a.contains(applicationInfo.packageName))) {
                        XLog.d(a, " query installed module path -> ".concat(String.valueOf(charSequence)));
                        arrayList.add(charSequence);
                    }
                    arrayList2.add(Pair.create(packageInfo.applicationInfo.packageName, charSequence2));
                }
            }
        }
        new Thread(new Runnable() {
            public final void run() {
                List b = XposedModuleEntry.a(false);
                if (b == null) {
                    b = new ArrayList();
                }
                List arrayList = new ArrayList();
                for (Pair pair : arrayList2) {
                    if (!b.contains(pair.first)) {
                        XLog.d(XposedModuleEntry.a, " addPackageList packgagePair -> ".concat(String.valueOf(pair)));
                        arrayList.add(pair);
                    }
                }
                XposedModuleEntry.a(arrayList);
            }
        }).start();
        return arrayList;
    }
    

    这个函数是读取设备中已安装的Apk,根据meta信息判断它们是否属于Xposed模块,如果是并且外部存储不存在xposed_config/modules.list把它们的安装位置添加到列表中。并且开启一个线程,如果xposed_config/modules.list存在则读取,xposed_config/modules.list文件记录着模块加载规则,具体可以去查看Xpatch项目的README。最后,将读取到的Xposed模块安装位置列表返回

    注释4:调用本类中的a方法,这个方法的参数是一个Context和List

    private static void a(Context context, List<String> list) {
        String str = context.getApplicationInfo().nativeLibraryDir;
        XLog.d(a, "Current loaded module libPath ----> ".concat(String.valueOf(str)));
        File file = new File(str);
        if (file.exists()) {
            File[] listFiles = file.listFiles();
            if (listFiles != null && listFiles.length > 0) {
                for (File file2 : listFiles) {
                    if (file2.getName().startsWith("libxpatch_xp_module_")) {
                        XLog.d(a, "add xposed modules from libPath, this lib path is --> ".concat(String.valueOf(file2)));
                        list.add(file2.getAbsolutePath());
                    }
                }
            }
        }
    }
    

    这个方法的目的是获取所有打包进apk中的Xposed模块的路径添加到传进来的List中

    注释5:调用com.wind.xposed.entry.b类的a(String str, String str2, ApplicationInfo applicationInfo, ClassLoader classLoader)方法

    public static int a(String str, String str2, ApplicationInfo applicationInfo, ClassLoader classLoader) {
            XLog.i("XposedModuleLoader", "Loading modules from ".concat(String.valueOf(str)));
            if (new File(str).exists()) {
                DexClassLoader dexClassLoader = new DexClassLoader(str, str2, null, classLoader);
                InputStream resourceAsStream = dexClassLoader.getResourceAsStream("assets/xposed_init");
                if (resourceAsStream == null) {
                    Log.i("XposedModuleLoader", "assets/xposed_init not found in the APK");
                    return 4;
                }
                BufferedReader bufferedReader = new BufferedReader(new InputStreamReader(resourceAsStream));
                while (true) {
                    try {
                        String readLine = bufferedReader.readLine();
                        if (readLine != null) {
                            readLine = readLine.trim();
                            if (!(readLine.isEmpty() || readLine.startsWith("#"))) {
                                try {
                                    String str3;
                                    XLog.i("XposedModuleLoader", "  Loading class ".concat(String.valueOf(readLine)));
                                    Class loadClass = dexClassLoader.loadClass(readLine);
                                    if (!XposedHelper.isIXposedMod(loadClass)) {
                                        readLine = "XposedModuleLoader";
                                        str3 = "    This class doesn't implement any sub-interface of IXposedMod, skipping it";
                                    } else if (IXposedHookInitPackageResources.class.isAssignableFrom(loadClass)) {
                                        readLine = "XposedModuleLoader";
                                        str3 = "    This class requires resource-related hooks (which are disabled), skipping it.";
                                    } else {
                                        Object newInstance = loadClass.newInstance();
                                        if (newInstance instanceof IXposedHookZygoteInit) {
                                            XposedHelper.callInitZygote(str, newInstance);
                                        }
                                        if (newInstance instanceof IXposedHookLoadPackage) {
                                            Wrapper wrapper = new Wrapper((IXposedHookLoadPackage) newInstance);
                                            CopyOnWriteSortedSet copyOnWriteSortedSet = new CopyOnWriteSortedSet();
                                            copyOnWriteSortedSet.add(wrapper);
                                            LoadPackageParam loadPackageParam = new LoadPackageParam(copyOnWriteSortedSet);
                                            loadPackageParam.packageName = applicationInfo.packageName;
                                            loadPackageParam.processName = applicationInfo.processName;
                                            loadPackageParam.classLoader = classLoader;
                                            loadPackageParam.appInfo = applicationInfo;
                                            loadPackageParam.isFirstApplication = true;
                                            XCallback.callAll(loadPackageParam);
                                        }
                                        try {
                                            resourceAsStream.close();
                                        } catch (IOException unused) {
                                        }
                                        return 8;
                                    }
                                    Log.i(readLine, str3);
                                } catch (Throwable th) {
                                    Log.e("XposedModuleLoader", " error ", th);
                                }
                            }
                        }
                    } catch (IOException e) {
                        Log.e("XposedModuleLoader", " error ", e);
                    } catch (Throwable th2) {
                        try {
                            resourceAsStream.close();
                        } catch (IOException unused2) {
                        }
                    }
                    try {
                        resourceAsStream.close();
                    } catch (IOException unused3) {
                    }
                    return 16;
                }
            }
            StringBuilder stringBuilder = new StringBuilder();
            stringBuilder.append(str);
            stringBuilder.append(" does not exist");
            Log.e("XposedModuleLoader", stringBuilder.toString());
            return 2;
        }
    
    

    这个函数读取传进来的Xposed模块的信息,获取DexClassLoader,读取模块assets下的xposed_init文件,得到其中的类名并根据实例类型(IXposedHookZygoteInit或者IXposedHookLoadPackage)分别实例化它,是IXposedHookZygoteInit实例就callInitZygote,是IXposedHookLoadPackage实例就像上面的注释2所讲的一样调用模块的handleLoadPackage方法。

    讲到这里好像并没有涉及到whale框架,我们编写模块的时候,Hook的代码都是写在handleLoadPackage方法中,比如我们在handleLoadPackage方法内,写个findAndHookMethod,最终就会调用WhaleRuntime.hookMethodNative本地方法,来实现应用内的Hook

    4. 总结

    Xpatch思路很好,不需要ROOT,不用担心Xposed在某些设备上的兼容性,不用每次调试Xposed模块都重启手机,很方便的就可以使用Xposed模块,实现应用内的Hook。但是在使用的过程中也发现了一个小问题,要处理的Apk如果没有手动继承Application类并在AndroidManifest.xml中指定,那么Xpatch就注入不了代码,也就无法正常使用。本文也只讲了Xpatch的基本流程,具体whale是怎么Hook的,能力有限,没能展开。

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        本文标题:Xposed的新打开方式--Xpatch工作流程分析

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