3

I'm trying to understand an Android app which contains a native method named foo in class com.app.Bar

Inside class Bar there is a static clause that loads a shared object System.loadLibrary("libfoo.so") which I assume is build with -fvisibility=hidden because the only export is JNI_OnLoad, no JNIEXPORT void JNICALL Java_com_app_Bar_foo which means public native int foo does not follow the naming convention.

  1. What is the process when foo is invoked ?
  2. How can I extract the address of foo ? I'm familiar with Frida
  3. Is there a way to output all JNINativeMethod[] methods ?

What have I tried so far ?

  1. JNIAnalyzer outputs 13K lines that look like JNI_OnLoad@@Base+0x712e

  2. Frida script to try to find foo address (did not work)

function intercept(address) {
    try {
        Interceptor.attach(address, {
            onEnter: function(args) {
                console.log("onEnter", address);
            },
            onLeave: function(ignored) {}
        });
    } catch (e) {
        console.error(e);
    }
}
function Main() {
    var dlopen = new NativeFunction(Module.findExportByName(null, 'dlopen'), 'pointer', ['pointer', 'int']);
    var dlsym = new NativeFunction(Module.findExportByName(null, 'dlsym'), 'pointer', ['pointer', 'pointer']);
    Process.enumerateModulesSync().forEach(function(m) {
        if (m.name === "libfoo.so") {
            console.log("Module", JSON.stringify(m));
            var handle = dlopen(Memory.allocUtf8String(m.path), 1);
            var symb = Memory.allocUtf8String("foo");
            var exports = Module.enumerateExportsSync(m.name);
            console.log(JSON.stringify({
                handle: handle,
                symb: symb,
                dlsym: dlsym(handle, symb),
                exports: exports.map(function(ex){ return ex.address + ": " + ex.name })
            }, null, 2));
            // intercept all exports
            exports.forEach(function(ex){
                intercept(ex.address);
            });
            // explicit intercept foo by known offset
            intercept(m.base.add(0x22334)); // this outputs "Error: unable to intercept function at 0x86c96328; please file a bug"
        }
    });

    console.log("sleep..");
    Thread.sleep(1.5);
    console.log("invoke", Java.use('com.clazz.foo').signToken("A".repeat(32)));
}
Java.perform(Main);

3

which I assume is build with -fvisibility=hidden because the only export is JNI_OnLoad, no JNIEXPORT void JNICALL Java_com_app_Bar_foo which means public native int foo does not follow the naming convention.

This is not always true, because you can also use RegisterNatives inside JNI_OnLoad to declare your JNI methods not following the typical naming convention.

/*
 * Register several native methods for one class.
 */
static int registerNativeMethods(JNIEnv* env, const char* className,
                                 JNINativeMethod* gMethods, int numMethods)
{
    jclass clazz;
    clazz = env->FindClass(className);
    if (clazz == NULL) {
        ALOGE("Native registration unable to find class '%s'", className);
        return JNI_FALSE;
    }
    if (env->RegisterNatives(clazz, gMethods, numMethods) < 0) {
        ALOGE("RegisterNatives failed for '%s'", className);
        return JNI_FALSE;
    }
    return JNI_TRUE;
}

What is the process when foo is invoked ?

Maybe you can take a look at this article https://arophix.com/2017/12/17/andoid-jni-summary/

How can I extract the address of foo ? ( I'm familiar with Frida )

I am not sure about Frida, For Cydia Substrate, you can use dlsym to find the address of specified symbol of .so, e.g.

void* find_symbol(const char* libraryname, const char* symbolname)
{
    void *imagehandle = dlopen(libraryname, RTLD_GLOBAL | RTLD_NOW);
    if (imagehandle != NULL) {
        void * sym = dlsym(imagehandle, symbolname);
        if (sym != NULL) {
            LOGE("symbol (%s) is found at address %p (%p) in lib %s", symbolname, sym, &sym, libraryname);
            return sym;
        } else {
            LOGE("find_symbol() can't find symblo (%s).", symbolname);
            return NULL;
        }
    } else {
        LOGE("dlopen error: %s, when opening lib %s",dlerror(), libraryname);
        return NULL;
    }
}

Here is the full tutorial for using Cydia Substrate https://arophix.com/2017/11/30/android-substrate-hooking/ ,

--------Updates--------

Edit #1

For Frida, maybe it is similar. Here is a reference link which may help with your case. https://www.notsosecure.com/instrumenting-native-android-functions-using-frida/

Edit #2

For a complete Github tutorial project about Frida based hooking, please refer to Using Apktool and Frida to do reverse engineering on Android Apk..

  • Thanks for the answer ! upvoted. updated my main question w/ Frida script with the same logic which did not work, hopefully someone encountered the same issue and might help before I approve. Message Sent via arophix.com/contact – Iddo Aug 15 '18 at 10:04
  • @IddoE Just add one Frida reference for your information. – shizhen Aug 16 '18 at 1:22
  • The reference is related to when the JNI naming convention is default, e.g Java_com..MethodName – Iddo Aug 16 '18 at 7:22
  • As I know, many security companies applies security techniques to the native .so libraries, e.g. hiding the symbols as much as possible, obfuscating the exported symbols and eventually adding some protection over the JNI bridge. All of these makes the reverse engineering work more and more difficult. – shizhen Aug 17 '18 at 7:10
  • but when the Java side of the APK invokes public native String foo this means the address of native function foo is stored some where in some data structure in memory which I want to find, I can give many real life applications, couple I'm practicing on right now – Iddo Aug 17 '18 at 21:55
1

I've solved it using Frida

Hooking art::JNI::RegisterNativeMethods(_JNIEnv*, _jclass*, JNINativeMethod const*, int, bool) and art::JNI::FindClass after libart.so module is loaded.

Code

var fIntercepted = false;

function revealNativeMethods() {
    if (fIntercepted === true) {
        return;
    }
    var jclassAddress2NameMap = {};
    var androidRunTimeSharedLibrary = "libart.so"; // may change between devices
    Module.enumerateSymbolsSync(androidRunTimeSharedLibrary).forEach(function(symbol){
        switch (symbol.name) {
            case "_ZN3art3JNI21RegisterNativeMethodsEP7_JNIEnvP7_jclassPK15JNINativeMethodib":
                /*
                    $ c++filt "_ZN3art3JNI21RegisterNativeMethodsEP7_JNIEnvP7_jclassPK15JNINativeMethodib"
                    art::JNI::RegisterNativeMethods(_JNIEnv*, _jclass*, JNINativeMethod const*, int, bool)
                */
                var RegisterNativeMethodsPtr = symbol.address;
                console.log("RegisterNativeMethods is at " + RegisterNativeMethodsPtr);
                Interceptor.attach(RegisterNativeMethodsPtr, {
                    onEnter: function(args) {
                        var methodsPtr = ptr(args[2]);
                        var methodCount = parseInt(args[3]);
                        for (var i = 0; i < methodCount; i++) {
                            var pSize = Process.pointerSize;
                            /*
                                https://android.googlesource.com/platform/libnativehelper/+/master/include_jni/jni.h#129
                                typedef struct {
                                    const char* name;
                                    const char* signature;
                                    void* fnPtr;
                                } JNINativeMethod;
                            */
                            var structSize = pSize * 3; // JNINativeMethod contains 3 pointers
                            var namePtr = Memory.readPointer(methodsPtr.add(i * structSize));
                            var sigPtr = Memory.readPointer(methodsPtr.add(i * structSize + pSize));
                            var fnPtrPtr = Memory.readPointer(methodsPtr.add(i * structSize + (pSize * 2)));
                            // output schema: className#methodName(arguments)returnVal@address
                            console.log(
                                // package & class, replacing forward slash with dot for convenience
                                jclassAddress2NameMap[args[0]].replace(/\//g, '.') +
                                '#' + Memory.readCString(namePtr) + // method
                                Memory.readCString(sigPtr) + // signature (arguments & return type)
                                '@' + fnPtrPtr // C side address
                            );
                        }
                    },
                    onLeave: function (ignoredReturnValue) {}
                });
                break;
            case "_ZN3art3JNI9FindClassEP7_JNIEnvPKc": // art::JNI::FindClass
                Interceptor.attach(symbol.address, {
                    onEnter: function(args) {
                        if (args[1] != null) {
                            jclassAddress2NameMap[args[0]] = Memory.readCString(args[1]);
                        }
                    },
                    onLeave: function (ignoredReturnValue) {}
                });
                break;
        }
    });
    fIntercepted = true;
}

Java.perform(revealNativeMethods);

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