I want to encrypt my android application so that it is hard to be decompiled or reverse engineered. For this I have come across dexguard. I checked from its fact-sheet that it offer multiple level of encryption and obfuscation. So I want to know whether it will also encrypt any web calls as well.
Using DexGuard you can even encrypt whole Java class. Due to the performance reason, it is better to encrypt the minimal set of classes.
Put all your URLs in a single Java class and encrypt the class. Also, you can obfuscate all html files under asset folder using DexGuard.
Dexguard does string encryption but I use proguard and I encrypt some URL by my self.
I get the encryption key doing XOR between the characters of two apparently innocent strings
I've tried to package the apk with encrypted assets(image, text, etc.).
When it's run on Android the assets will be decrypted and then displayed (of course I hard-coded the decryption key in the source code).
I guess: as long as the source code is protected, then the decryption key will also be protected, which means the assets is finally protected?
Questions:
1. If ProGuard is used to obfuscate the apk, is the decryption key safe?
2. If I code the decryption key in JNI(C++) and let JNI do the decryption, is the decryption key safer?
I've also made 2 demo Android apps with encrypted assets that you can try hacking.
The first one uses obfuscated Java to decrypt the assets with AES key (hard-coded in Java):
https://drive.google.com/file/d/0B9O3ChlSQJL1dVZUZmFtWlRyMXc/edit?usp=sharing
The second one uses JNI to decrypt the assets with AES key (hard-coded in JNI):
https://drive.google.com/file/d/0B9O3ChlSQJL1UWU0VlprcXdVUjg/edit?usp=sharing
If you are able to get the original assets in the first demo, please let me know.
If you are able to get the original assets in the second demo, please also let me know.
Any suggestions about better solutions for assets protection are appreciated!
Without looking at your code, no amount of obfuscation is going to 100% hide an "in the clear" private key.
I had stumbled upon this simple question of what is the best way for me to open a database or use a service which is secured, in the sense, will work only when correct password is provided.
I have looked at SharedPreferences as a way of retrieving information,but i need to create an app which will store the password in the first case, which by itself means i need to write it on code somewhere or the other
Account Manager is yet another way i've considered.
Store the actual password in an AES encrypted format, in a file, or in an sqlite db. But that means the key will have to be in the code.
I would've thought that this is a fairly common problem that people face and i'm wondering how people solved it!
In my opinion you can encrypt your data using AES encryption. But the main problem is the key is not safe. APK can be decompiled. So there is a method to hide the key. Implantation is bit difficult. Use native coding (NDK). You can write your key in a C file and after compilation you get a .SO file. This file can be included in your project. Make a call from java to a C function and return the key. But another problem is the strings written in C is visible when you open the .SO file. So assign generate ascii code of your key and make a string using the ascii code in C.
I am developing an application that has SQLite database to store personal information that must be protected. What are some ways of protecting these personal data? An APK can easily be de-compiled completely, so how can we secure an APK? Additionally, how can a database of a mobile application be protected?
Basically, there are 5 methods to protect your APK being cracking/ reversing/ repackaging:
1. Isolate Java Program
The easiest way is to make users unable to access to the Java Class program. This is the most fundamental way, and it has a variety of specific ways to achieve this. For example, developers can place the key Java Class on the server, clients acquire services by access relevant interfaces of the server rather than access to the Class file directly. So there is no way for hackers to decompile Class files. Currently, there are more and more standards and protocols services provided through interfaces, such as HTTP, Web Service, RPC, etc. But there are lots of applications are not suitable for this protection. For example, Java programs in stand-alone programs are unable to isolate.
2. Encrypt Class Files
To prevent Class files from being decompiled directly, many developers will encrypt some key Class files, such as registration number, serial number management and other related classes. Before using these encrypted classes, the program needs to decrypt these classes first, then loading these classes into JVM. These classes can be decrypted by hardware, or software.
Developers often loading cryptographic classes through a customed ClassLoader class (Applet does not support customed ClassLoader because of security). Customed ClassLoader will find cryptographic classes first, then decrypt them. And finally loading the decrypted classes to JVM. Customed ClassLoader is a very important class in this protect method. Because it itself is not encrypted, it may be the first target of a hacker. If the relevant decryption key and algorithm have been overcome, then the encrypted classes can easily be decrypted.
3. Convert to Native Codes
Convert program to native codes is also an effective way to prevent decompilation. Because native codes are often difficult to be decompiled. Developers can convert the entire application to native codes, or they can also convert only key modules. If just convert key part of the modules, it will need JNI technology to call when Java programs are using these modules. It abandoned Java's cross-platform feature when using this mothod to protect Java programs. For different platforms, we need to maintain different versions of the native codes, which will increase software support and maintenance workload. But for some key modules, sometimes this solution is often necessary. In order to guarantee these native codes will not be modified or replaced, developers often need to digitally sign these codes. Before using these native codes, developers often need to authenticate these local codes to ensure that these codes have not changed by hackers. If the signature check is passed, then developers can call relevant JNI methods.
4. Code Obfuscation
Code obfuscation is to re-organize and process Class file, making the treated codes accomplish the same function (semantics) with the untreated codes. But the obfuscated codes are difficult to be decompiled, i.e., the decompiled codes are very difficult to understand, therefore decompile staffs are hard to understand the really semantics. Theoretically, if hackers have enough time, obfuscated codes may still be cracked. Even some people are developing de-obfuscate tool. But from the actual situation, since the diversified development of obfuscation, the mature of obfuscation theory, obfuscated Java codes can well prevent decompilation.
5. Online Encryption
APK Protect was an online encryption website for APK, but activity has apparently been discontinued since 2013 or so. It provided Java codes and C++ codes protection to achieve anti-debugging and decompile effects.
I originally suggested you use this last method for it could save you more time. Based on my experience, it was very simple to operate and it wouldn't take long time.
With Jellybean this has now become a possibility.
$ openssl enc -aes-128-cbc -K 000102030405060708090A0B0C0D0E0F
-iv 000102030405060708090A0B0C0D0E0F -in my-app.apk -out my-app-enc.apk
$ adb install --algo 'AES/CBC/PKCS5Padding' --key 000102030405060708090A0B0C0D0E0F
--iv 000102030405060708090A0B0C0D0E0F my-app-enc.apk
pkg: /data/local/tmp/my-app-enc.apk
Success
Please read the following blog post for further details
If this is secret information that must not fall into the hands of your users, you cannot secure it. It is fundamentally impossible to put information on a device (code or data), and have your application access it, but not allow someone with the device to have access to that information.
Encrypting the information is pointless from a security point of view, because your application has to contain whatever is needed to decrypt it in order to use it, and a sufficiently motivated attacker can always extract that and decrypt it on their own.
All you can do is make it more annoying and time consuming to get access to that information, which only helps if there's not really that much of a need to keep it secret. This is what using proguard to obfuscate your .apk file can do.
Have you considered sqlite encryption? See this thread - sqlite encryption for android
As for protecting your .apk, try obfuscating your code using proguard. See http://developer.android.com/guide/developing/tools/proguard.html
You can try 'Anti Decompiler(Android)Trial'
https://play.google.com/store/apps/details?id=com.tth.AntilDecompilerTrial
It makes something Proguard doesn't:
Hide all const values (string, character), you will never see clear text like "my key", "my val"... in your apk file
Obfuscate file name, which is referenced in AndroidManifest.xml
Add fake code to your source code. Event the powerful decompilers likes: dex2jar, jd-gui,... can't reverse exactly your apk file. Most of functions will show with comment 'Error'.
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After transforming, if you give someone your source project, it will be nearly impossible to read and understand.
This solution doesn't exclude Proguard, You can combine them together. (function, field Obfuscation of Proguard is better than Obfuscation features of this solution)
You may read my post at: http://www.androidpit.com/en/android/forum/thread/567093/An-Analysis-of-Android-APK-Protect-Shell-APKProtect. The APK added with protect shell of APK Protect is seems unable decompile. I mean, the encrypt method is very advanced. Even a master hacker need long time to crack it.
If it is the database that contains sensitive data you can encrypt the values of several columns or the full database like mentioned in the other answer and make sure that the password is not stored on the device but has to be entered by the user on accessing the data.
If there are pieces of code you need to protect there's really no good way of securing it. All you can for a limited amount of use-cases is to create a dependency to an online service and secure the server. But for a lot of applications this would not be an option.
First, make apk that can never be modified and used. I do it by temper detection from the server. I use root check emulator check. Then on the important activity, it checks root and emulator on every oncreate and on resume, deletes important data on onpause, Great. Now encrypt data and place license to server, use SSL server. It app can not be modified and run, everything is safe for ever. Well, how to avoid decompiler and online tamper detection. I do placing a huge code to generate some sample string from apk file, and compare it with an apk copy placed on the server. I have converted apk file to string. Just enjoy.
I have got the direction creation and file upload working in android using the dropbox api. The file I want to store can contain personal information for synchronisation purposes between the phone and drop box.
Due to this, is it possible to encrypt the file or have I have I just got to encrypt the data before it is submitted into dropbox.
Thanks for any help you can provide.
You can and you should obfuscate your code so people won't see your app and secret keys. You can do so by yourself or use some help from ProGuard or JBCO.
I have never tried JBCO, but i know PrGuard can do obfuscation and sometimes some code optimization.
JBCO which stands for Java ByteCode Obfuscation is a bit more agressive and does some bytecode obfuscation. It's really hard to read.