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I am developing a payment processing app for Android, and I want to prevent a hacker from accessing any resources, assets or source code from the APK file.

If someone changes the .apk extension to .zip then they can unzip it and easily access all the app's resources and assets, and using dex2jar and a Java decompiler, they can also access the source code. It's very easy to reverse engineer an Android APK file - for more details see Stack Overflow question Reverse engineering from an APK file to a project.

I have used the Proguard tool provided with the Android SDK. When I reverse engineer an APK file generated using a signed keystore and Proguard, I get obfuscated code. However, the names of Android components remain unchanged and some code, like key-values used in the app, remains unchanged. As per Proguard documentation the tool can't obfuscate components mentioned in the Manifest file.

Now my questions are:

  1. How can I completely avoid reverse engineering of an Android APK? Is this possible?
  2. How can I protect all the app's resources, assets and source code so that hackers can't hack the APK file in any way?
  3. Is there a way to make hacking more tough or even impossible? What more can I do to protect the source code in my APK file?
share|improve this question
It sounds like you may be using "security by obscurity" if your payment processing scheme relies on the operation of the client remaining secret. – PeterJ Dec 13 '12 at 6:45
Have you considered writing the important parts of the code in C/C++ and add them as a compiled library? They can be disassembled into assembly code, but reverse-engineering a large library from assembly is extremely timeconsuming. – Leo Dec 13 '12 at 8:40
Yes, nobody can decompile C code ... – dualed Dec 13 '12 at 10:56
Welcome to the fundamental issue of creating any digital asset. Hackers can get down to the machine instruction level, so if a computer can read the file then it can be hacked open/copied, an no amount of obfuscation or DRM can ever completely stop a determined hacker. If you need security then make sure that the private keys are never in source, and know at the design stage that only isolation (remote and/or dedicated hardware) can ever protect them. – Keith Dec 13 '12 at 11:08
Note that depending on what your payment processing app does, there may be regulatory and legal policy that affects your app and could potetially expose you to severe penalties: see PCI compliance, starting with – bloopletech Dec 13 '12 at 13:20

26 Answers 26

up vote 207 down vote accepted

 1. How can I completely avoid reverse engineering of an Android APK? Is this possible?

AFAIK, there is not any trick for complete avoidance of reverse engineering.

And also very well said by @inazaruk: Whatever you do to your code, a potential attacker is able to change it in any way she or he finds it feasible. You basically can't protect your application from being modified. And any protection you put in there can be disabled/removed.

 2. How can I protect all the app's resources, assets and source code so that hackers can't hack the APK file in any way?

You can do different tricks to make hacking harder though. For example, use obfuscation (if it's Java code). This usually slows down reverse engineering significantly.

 3. Is there a way to make hacking more tough or even impossible? What more can I do to protect the source code in my APK file?

As everyone says, and as you probably know, there's no 100% security. But the place to start for Android, that Google has built in, is ProGuard. If you have the option of including shared libraries, you can include the needed code in C++ to verify file sizes, integration, etc. If you need to add an external native library to your APK's library folder on every build, then you can use it by the below suggestion.

Put the library in the native library path which defaults to "libs" in your project folder. If you built the native code for the 'armeabi' target then put it under libs/armeabi. If it was built with armeabi-v7a then put it under libs/armeabi-v7a.

share|improve this answer
For Payment transaction I've used ISO 8585 standard, right now schema for this standard is in key-value pair using HashMap collection of Java & when I do reverse engineering on apk I'll get all schema.Is it possible to avoid schema get exposed via reverse engineering.? Can your last suggestion of Share libraries useful in this case? Doy you have any links so that I can get exposure to the share libraries in android. – sachin003 Dec 13 '12 at 7:29
how about encrypting your strings in the code and decrypting them at runtime? If you do the decryption on a remote server, like other people suggested, you don't get the problem that the decryption key is in the sources. – kutschkem Dec 13 '12 at 12:33
yes, encryption is way, but it is not sure to be notHacked. If i am encrypting String in order to decrypt them, i need one unique id in the code. and if anyone able to decompile it then it will be very easy to get the Unique id. – Bhavesh Patadiya Dec 13 '12 at 12:47
why you added Edited stuff? its all regular. – hotveryspicy Dec 14 '12 at 10:25
@hotveryspicy: yes i have now removed the "edited" mark from answer.i have edited my answer beacause he wanted to know more about how Share libraries useful in this case. – Bhavesh Patadiya Dec 14 '12 at 10:51

AFAIK, you cannot protect the files in the /res directory anymore than they are protected right now.

However, there are steps you can take to protect your source code, or at least what it does if not everything.

  1. Use tools like ProGuard. These will obfuscate your code, and make it harder to read when decompiled, if not impossible.
  2. Move the most critical parts of the service out of the app, and into a webservice, hidden behind a server side language like PHP. For example, if you have an algorithm that's taken you a million dollars to write. You obviously don't want people stealing it out of your app. Move the algorithm and have it process the data on a remote server, and use the app to simply provide it with the data. Or use the NDK to write them natively into .so files, which are much less likely to be decompiled than apks. I don't think a decompiler for .so files even exists as of now (and even if it did, it wouldn't be as good as the Java decompilers). Additionally, as @nikolay mentioned in the comments, you should use SSL when interacting between the server and device.
  3. When storing values on the device, don't store them in a raw format. For example, if you have a game, and you're storing the amount of in game currency the user has in SharedPreferences. Let's assume it's 10000 coins. Instead of saving 10000 directly, save it using an algorithm like ((currency*2)+1)/13. So instead of 10000, you save 1538.53846154 into the SharedPreferences. However, the above example isn't perfect, and you'll have to work to come up with an equation that won't lose currency to rounding errors etc.
  4. You can do a similar thing for server side tasks. Now for an example, let's actually take your payment processing app. Let's say the user has to make a payment of $200. Instead of sending a raw $200 value to the server, send a series of smaller, predefined, values that add up to $200. For example, have a file or table on your server that equates words with values. So let's say that Charlie corresponds to $47, and John to $3. So instead of sending $200, you can send Charlie four times and John four times. On the server, interpret what they mean and add it up. This prevents a hacker from sending arbitrary values to your server, as they do not know what word corresponds to what value. As an added measure of security, you could have an equation similar to point 3 for this as well, and change the keywords every n number of days.
  5. Finally, you can insert random useless source code into your app, so that the hacker is looking for a needle in a haystack. Insert random classes containing snippets from the internet, or just functions for calculating random things like the Fibonacci sequence. Make sure these classes compile, but aren't used by the actual functionality of the app. Add enough of these false classes, and the hacker would have a tough time finding your real code.

All in all, there's no way to protect your app 100%. You can make it harder, but not impossible. Your web server could be compromised, the hacker could figure out your keywords by monitoring multiple transaction amounts and the keywords you send for it, the hacker could painstakingly go through the source and figure out which code is a dummy.

You can only fight back, but never win.

share|improve this answer
Instead of doing tricks with values you send to your server, use SSL and properly validate the server certificate. Security by obscurity is generally a bad idea. – Nikolay Elenkov Dec 13 '12 at 7:19
Really? If I have your RAM I own you anyway... – Nikolay Elenkov Dec 13 '12 at 7:26
you can insert random useless source code into your app. This can't really help either. This will only bloat your application up, while making it harder to maintain as well. – Anirudh Ramanathan Dec 13 '12 at 8:17
If your algorithm is worth a million dollars, then just because there's no decompiler for .so files doesn't mean I can't read assembly :) Most of these fall into the same trap, just obfuscating instead of properly protecting yourself. Obfuscation only works if it's not worth an attacker's time to follow through, so if you build something on these techniques you'd better hope they don't get popular, otherwise you're screwed because all of a sudden your codebase is unmaintainable and it needs huge changes. – Phoshi Dec 13 '12 at 13:07
I don't get why this answer has such a high score. 3. and 4. for one are just plain silly and will amount to no security at all. – Matti Virkkunen Nov 8 '13 at 22:54

At no point in the history of computing has it ever been possible to prevent reverse-engineering of software when you give a working copy of it to your attacker. Also, in most likelihood, it never will be possible.

With that understood, there is an obvious solution: don't give your secrets to your attacker. While you can't protect the contents of your APK, what you can protect is anything you don't distribute. Typically this is server-side software used for things like activation, payments, rule-enforcement, and other juicy bits of code. You can protect valuable assets by not distributing them in your APK. Instead, set up a server that responds to requests from your app, "uses" the assets (whatever that might mean) and then sends the result back to the app. If this model doesn't work for the assets you have in mind, then you may want to re-think your strategy.

Also, if your primary goal is to prevent app piracy: don't even bother. You've already burned more time and money on this problem than any anti-piracy measure could possibly ever hope to save you. The return on investment for solving this problem is so low that it doesn't make sense to even think about it.

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The first paragraph is the best answer. If your attacker controls the hardware, they will always be able to defeat your software somehow. Anything that truly needs to be protected must stay on hardware you control, it's as simple as that. And the final paragraph, about ROI, is spot on as well. – Daniel Pryden Dec 13 '12 at 17:18

 1. How can I completely avoid reverse engineering of an Android APK? Is this possible?

This isn't possible

 2. How can I protect all the app's resources, assets and source code so that hackers can't hack the APK file in any way?

When somebody change a .apk extension to .zip, then after unzipping, someone can easily get all resources (except Manifest.xml), but with APKtool one can get the real content of the manifest file too. Again, a no.

 3. Is there a way to make hacking more tough or even impossible? What more can I do to protect the source code in my APK file?

Again, no, but you can prevent upto some level, that is,

  • Download a resource from the Web and do some encryption process
  • Use a pre-compiled native library (C, C++, JNI, NDK)
  • Always perform some hashing (MD5/SHA keys or any other logic)

Even with Smali, people can play with your code. All in all, it's not POSSIBLE.

share|improve this answer
RE - "This isn't possible": Sounds like APK system needs some way of encryption somehow. Matlab has a similar problem of needing to protect IP in deployed applications. Matlab's solution was to use some encryption. Do you think maybe Android APK needs something similar? – Trevor Boyd Smith Dec 13 '12 at 14:12
@TrevorBoydSmith: Encryption doesn't help much when the OS is open source and rootable. The system needs a key in order to decrypt the APK and run stuff. And if the system has a key, and i have unfettered access to the system, then i know where to find the key and can get to it. Meaning i have the key now too. – cHao Dec 13 '12 at 22:09
@cHao. I purposely did not specify how to do the encryption because encryption is outside of my domain of knowledge. – Trevor Boyd Smith Dec 14 '12 at 19:14
@TrevorBoydSmith: It's the "how to do" part, though, that kills the whole idea. There's simply no way to execute encrypted code directly; at some point, the decrypted code has to be available. Which means (1) there must be a key (that i, as root, probably have access to), and (2) I might even be able to find the clear copy in RAM and just not worry about encryption anyway. – cHao Dec 14 '12 at 19:59
@TrevorBoydSmith: I've insisted nothing of the sort. What i'm insisting is that static, changing, moving, etc do not matter. In an open source OS, encryption alone can not protect the code from anyone who could reverse engineer it. Because i can read the code that would do the decryption, regardless of how the key is acquired, used, and/or stored, i can see how you did it and replicate it -- even more easily than i could reverse some super-secret app code. – cHao Jan 11 '13 at 15:22

First rule of app security: Any machine to which an attacker gains unrestricted physical or electronic access now belongs to your attacker, regardless of where it actually is or what you paid for it.

Second rule of app security: Any software that leaves the physical boundaries inside which an attacker cannot penetrate now belongs to your attacker, regardless of how much time you spent coding it.

Third rule: Any information that leaves those same physical boundaries that an attacker cannot penetrate now belongs to your attacker, no matter how valuable it is to you.

The foundations of information technology security are based on these three fundamental principles; the only truly secure computer is the one locked in a safe, inside a Farraday cage, inside a steel cage. There are computers that spend most of their service lives in just this state; once a year (or less), they generate the private keys for trusted root certification authorities (in front of a host of witnesses with cameras recording every inch of the room in which they are located).

Now, most computers are not used under these types of environments; they're physically out in the open, connected to the Internet over a wireless radio channel. In short, they're vulnerable, as is their software. They are therefore not to be trusted. There are certain things that computers and their software must know or do in order to be useful, but care must be taken to ensure that they can never know or do enough to cause damage (at least not permanent damage outside the bounds of that single machine).

You already knew all this; that's why you're trying to protect the code of your application. But, therein lies the first problem; obfuscation tools can make the code a mess for a human to try to dig through, but the program still has to run; that means the actual logic flow of the app and the data it uses are unaffected by obfuscation. Given a little tenacity, an attacker can simply un-obfuscate the code, and that's not even necessary in certain cases where what he's looking at can't be anything else but what he's looking for.

Instead, you should be trying to ensure that an attacker cannot do anything with your code, no matter how easy it is for him to obtain a clear copy of it. That means, no hard-coded secrets, because those secrets aren't secret as soon as the code leaves the building in which you developed it.

These key-values you have hard-coded should be removed from the application's source code entirely. Instead, they should be in one of three places; volatile memory on the device, which is harder (but still not impossible) for an attacker to obtain an offline copy of; permanently on the server cluster, to which you control access with an iron fist; or in a second data store unrelated to your device or servers, such as a physical card or in your user's memories (meaning it will eventually be in volatile memory, but it doesn't have to be for long).

Consider the following scheme. The user enters their credentials for the app from memory into the device. You must, unfortunately, trust that the user's device is not already compromised by a keylogger or Trojan; the best you can do in this regard is to implement multi-factor security, by remembering hard-to-fake identifying information about the devices the user has used (MAC/IP, IMEI, etc), and providing at least one additional channel by which a login attempt on an unfamiliar device can be verified.

The credentials, once entered, are obfuscated by the client software (using a secure hash), and the plain-text credentials discarded; they have served their purpose. The obfuscated credentials are sent over a secure channel to the certificate-authenticated server, which hashes them again to produce the data used to verify the validity of the login. This way, the client never knows what is actually compared to the database value, the app server never knows the plaintext credentials behind what it receives for validation, the data server never knows how the data it stores for validation is produced, and a man in the middle sees only gibberish even if the secure channel were compromised.

Once verified, the server transmits back a token over the channel. The token is only useful within the secure session, is composed of either random noise or an encrypted (and thus verifiable) copy of the session identifiers, and the client application must send this token on the same channel to the server as part of any request to do something. The client application will do this many times, because it can't do anything involving money, sensitive data, or anything else that could be damaging by itself; it must instead ask the server to do this task. The client application will never write any sensitive information to persistent memory on the device itself, at least not in plain text; the client can ask the server over the secure channel for a symmetric key to encrypt any local data, which the server will remember; in a later session the client can ask the server for the same key to decrypt the data for use in volatile memory. That data won't be the only copy, either; anything the client stores should also be transmitted in some form to the server.

Obviously, this makes your application heavily dependent on Internet access; the client device cannot perform any of its basic functions without proper connection to and authentication by the server. No different than Facebook, really.

Now, the computer that the attacker wants is your server, because it and not the client app/device is the thing that can make him money or cause other people pain for his enjoyment. That's OK; you get much more bang for your buck spending money and effort to secure the server than in trying to secure all the clients. The server can be behind all kinds of firewalls and other electronic security, and additionally can be physically secured behind steel, concrete, keycard/pin access, and 24-hour video surveillance. Your attacker would need to be very sophisticated indeed to gain any kind of access to the server directly, and you would (should) know about it immediately.

The best an attacker can do is steal a user's phone and credentials and log in to the server with the limited rights of the client. Should this happen, just like losing a credit card, the legitimate user should be instructed to call an 800 number (preferably easy to remember, and not on the back of a card they'd carry in their purse, wallet or briefcase which could be stolen alongside the mobile device) from any phone they can access that connects them directly to your customer service. They state their phone was stolen, provide some basic unique identifier, and the account is locked, any transactions the attacker may have been able to process are rolled back, and the attacker is back to square one.

share|improve this answer
perfect answer !! i just loved your way to get data from server with some encrypted token , i think this is next to impossible to decode after that . – dhams Jul 15 '13 at 13:03
I know this is a bit late but what about accessing the accessing the server part. Services like Microsoft azure provides you something like this to access their server: MobileServiceClient mClient = new MobileServiceClient( "MobileServiceUrl", // Replace with the above Site URL "AppKey", // replace with the Application Key this) and pretty much anyone who has access to that can access their server end edit it – edwinj Aug 6 at 13:13

100% avoidance of reverse engineering of the Android APK is not possible, but you can use these ways to avoid extracting more data, like source code, assets form your APK, and resources:

  1. Use ProGuard to obfuscate application code

  2. Use NDK using C and C++ to put your application core and secure part of code in .so files

  3. To secure resources, don't include all important resources in the assets folder with APK. Download these resources at the time of application first start up.

share|improve this answer
Third one is really easing the attackers' work. Sniffing network communication is easier than reverse engineering. – totten Jan 26 at 15:28
To solve the problem of the third one, one could encrypt the downloaded content and/or use an encrypted connection (e.g. SSL/TLS) – Stradivari Oct 16 at 11:29

Developers can take following steps to prevent an APK from theft somehow,

  • the most basic way is to use tools like ProGuard to obfuscate their code, but up until now, it has been quite difficult to completely prevent someone from decompiling an app.

  • Also I have heard about a tool HoseDex2Jar. It stops Dex2Jar by inserting harmless code in an Android APK that confuses and disables Dex2Jar and protects the code from decompilation. It could somehow prevent hackers from decompiling an APK into readable java code.

  • Use some server side application to communicate with the application only when it is needed. It could help prevent the important data.

At all, you can not completely protect your code from the potential hackers. Somehow, you could make it difficult and a bit frustrating task for them to decompile your code. One of the most efficient way is to write in native code(C/C++) and store it as compiled libraries.

share|improve this answer
HoseDex2Jar is next to useless. It only 'confuses' dex2jar and can easily be blocked. smali/apktool, etc. work just fine with 'hosed' APKs. – Nikolay Elenkov Dec 13 '12 at 7:17
@NikolayElenkov Do you know how HoseDex2Jar works? What they have used to avoid or to confuse dex2jar.Because I can't upload my apk file to web to use HoseDex2Jar. If I can do something like HoseDex2Jar to confuse dex2jar then It will make tough to hack using dex2jar tool. – sachin003 Dec 13 '12 at 7:33
Maybe you misunderstood my point: what HoseDex2Jar does is repack your APK so that the popular dex2jar tool cannot (out of the box) reverse it. However other tools can, and it is very easy to defeat it generally. No point in using it. No one mentioned Dexguard I thing (by the author of ProGuard; not free), but it is work looking at. It does a few more thing than 'regular' obfuscation. – Nikolay Elenkov Dec 13 '12 at 15:08

 1. How can I completely avoid reverse engineering of an Android APK? Is this possible?

That is impossible

 2. How can I protect all the app's resources, assets and source code so that hackers can't hack the APK file in any way?

Developers can take steps such as using tools like ProGuard to obfuscate their code, but up until now, it has been quite difficult to completely prevent someone from decompiling an app.

It's a really great tool and can increase the difficulty of 'reversing' your code whilst shrinking your code's footprint.

Integrated ProGuard support: ProGuard is now packaged with the SDK Tools. Developers can now obfuscate their code as an integrated part of a release build.

 3. Is there a way to make hacking more tough or even impossible? What more can I do to protect the source code in my APK file?

While researching, I came to know about HoseDex2Jar. This tool will protect your code from decompiling, but it seems not to be possible to protect your code completely.

Some of helpful links, you can refer to them.

share|improve this answer

The main question here is that can the dex files be decompiled and the answer is they can be "sort of". There are disassemblers like dedexer and smali.

ProGuard, properly configured, will obfuscate your code. DexGuard which is a commercial extended version of ProGuard, may help a bit more. However, your code can still be converted into smali and developers with reverse-engineering experience will be able to figure out what you are doing from the smali.

Maybe choose a good license and enforce it by the law in best possible way.

share|improve this answer
As a side note (disclaimer: IANAL) - license will not protect application under all jurisdictions in all circumstances (for example in some countries in Europe it is allowed to disassembly in order to increase compatibility). – Maciej Piechotka Dec 13 '12 at 9:52

 1. How can I completely avoid reverse engineering of an Android APK? Is this possible?


 2. How can I protect all the app's resources, assets and source code so that hackers can't hack the APK file in any way?


 3. Is there a way to make hacking more tough or even impossible? What more can I do to protect the source code in my APK file?

More tough - possible, but in fact it will be more tough mostly for the average user, who is just googling for hacking guides. If somebody really wants to hack your app - it will be hacked, sooner or later.

share|improve this answer

Here are few methods you can try:

  1. Use obfuscation and tools like ProGuard.
  2. Encrypt some part of source and data.
  3. Use a proprietary inbuilt checksum in the app to detect tempering.
  4. Introduce code to avoid loading in a debugger, that is, let the app have the ability to detect the debugger and exit / kill the debugger.
  5. Seperate the authentication as an online service.
  6. Use application diversity
  7. Use the finger printing technique for e.g., hardware signatures of the devices from different subsystem before authenticating the device.
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Your client should hire someone that knows what they are doing, who can make the right decisions and can mentor you.

Talk above about you having some ability to change the transaction processing system on the backend is absurd - you shouldn't be allowed to make such architectural changes, so don't expect to be able to.

My rationale on this:

Since your domain is payment processing, its safe to assume that PCI DSS and/or PA DSS (and potential state/federal law) will be significant to your business - to be compliant you must show you are secure. To be insecure then find out (via testing) that you aren't secure, then fixing, retesting, etcetera until security can be verified at a suitable level = expensive, slow, high-risk way to success. To do the right thing, think hard up front, commit experienced talent to the job, develop in a secure manner, then test, fix (less), etcetera (less) until security can be verified at a suitable level = inexpensive, fast, low-risk way to success.

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I suggest you to look at Protect Software Applications from Attacks. It's a commercial service, but my friend's company used this and they are glad to use it.

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If we want to make reverse engineering (almost) impossible, we can put the application on a highly tamper-resistant chip, which executes all sensitive stuff internally, and communicates with some protocol to make controlling GUI possible on the host. Even tamper-resistant chips are not 100% crack proof; they just set the bar a lot higher than software methods. Of course, this is inconvenient: the application requires some little USB wart which holds the chip to be inserted into the device.

The question doesn't reveal the motivation for wanting to protect this application so jealously.

If the aim is to improve the security of the payment method by concealing whatever security flaws the application may have (known or otherwise), it is completely wrongheaded. The security-sensitive bits should in fact be open-sourced, if that is feasible. You should make it as easy as possible for any security researcher who reviews your application to find those bits and scrutinize their operation, and to contact you. Payment applications should not contain any embedded certificates. That is to say, there should be no server appliaction which trusts a device simply because it has a fixed certificate from the factory. A payment transaction should be made on the user's credentials alone, using a correctly designed end-to-end authentication protocol which precludes trusting the application, or the platform, or the network, etc.

If the aim is to prevent cloning, short of that tamper-proof chip, there isn't anything you can do to protect the program from being reverse-engineered and copied, so that someone incorporates a compatible payment method into their own application, giving rise to "unauthorized clients". There are ways to make it difficult to develop unauthorized clients. One would be to create checksums based on snapshots of the program's complete state: all state variables, for everything. GUI, logic, whatever. A clone program will not have exactly the same internal state. Sure, it is a state machine which has similar externally visible state transitions (as can be observed by inputs and outputs), but hardly the same internal state. A server application can interrogate the program: what is your detailed state? (i.e. give me a checksum over all of your internal state variables). This can be compared against dummy client code which executes on the server in parallel, going through the genuine state transitions. A third party clone will have to replicate all of the relevant state changes of the genuine program in order to give the correct responses, which will hamper its development.

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As someone who worked extensively on payment platforms, including one mobile payments application (MyCheck), I would say that you need to delegate this behaviour to the server, no user name or password for the payment processor (whichever it is) should be stored or hardcoded in the mobile application, that's the last thing you want, because the source can be understood even when if you obfuscate the code.

Also, you shouldn't store credit cards or payment tokens on the application, everything should be, again, delegated to a service you built, it will also allow you later on, be PCI-compliant more easily, and the Credit Card companies won't breath down your neck (like they did for us).

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The other upvoted answers here are correct. I just want to provide another option.

For certain functionality that you deem important you can host the WebView control in your app. The functionality would then be implemented on your web server. It will look like it's running in your application.

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completely agree this can be done to maintain security. – hotveryspicy Dec 14 '12 at 12:55
@Sarel Botha yes for IMP screens I already used webview & yes this is also one way to maintain security, I'm accepting your answer. – sachin003 Dec 17 '12 at 6:38

Basically it's not possible. It will never be possible. However, there is hope. You can use an obfuscator to make it so some common attacks are a lot harder to carry out including things like:

  1. Renaming methods/classes (so in the decompiler you get types like a.a)
  2. Obfuscating control flow (so in the decompiler the code is very hard to read)
  3. Encrypting strings and possibly resources

I'm sure there are others, but that's the main ones. I work for a company called PreEmptive Solutions on a .NET obfuscator. They also have a Java obfuscator that works for Android as well one called DashO.

Obfuscation always comes with a price, though. Notably, performance is usually worse, and it requires some extra time around releases usually. However, if your intellectual property is extremely important to you, then it's usually worth it.

Otherwise, your only choice is to make it so that your Android application just passes through to a server that hosts all of the real logic of your application. This has its own share of problems, because it means users must be connected to the Internet to use your app.

Also, it's not just Android that has this problem. It's a problem on every app store. It's just a matter of how difficult it is to get to the package file (for example, I don't believe it's very easy on iPhones, but it's still possible).

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Aren't TPM chips (Trusted Platform Module) supposed to manage protected code for you ? They are becoming common on PCs (especially Apple ones) and they may already exist in today's smartphone chips. Unfortunately there is no OS API to make use of it yet. Hopefully Android will add support for this one day. That's also the key to clean content DRM (which Google is working on for WebM).

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How can I protect all the app's resources, assets and source code so that hackers can't hack the APK file in any way?

An APK file is protected with the SHA-1 algorithm. You can see some files in the META-INF folder of APK. If you extract any APK file and change any of its content and zip it again and when you run that new APK file on an Android machine, it will not work, because the SHA-1 hashes will never match.

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This is true; but it's trivial to resign the APK (with a different certificate) and everything will work again. It's possible to check which signature has been used to sign the APK from within the application itself, and error out if the certificate changes, but it's only slightly less trivial to edit this code out of the application. – David Given Apr 24 '13 at 10:52
This may prevent the android device from running modified code, but you can still easily extract the relevant code and write new code on a PC which does what you want. – Sarel Botha Feb 13 '14 at 18:01

While I agree there's no 100% solution that's going to protect your code, v3 of HoseDex2Jar is now up if you want to give it a try.

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Just an addition to already good answers above.

Another trick I know is to store valuable codes as Java Library. Then set that Library to be your Android Project. Would be good as C .so file but Android Lib would do.

This way these valuable codes stored on Android Library won't be visible after decompiling.

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They will be visible, just under a different package. – Raghav Sood Apr 10 '13 at 18:35
Strangely, not in my case. I have 4 libs. Google Licensing + Pretty Time + + My Internal Lib comes from Android Project set as Library. This Android Project as Lib is not visible. While the other 3 are visible. – Halim Apr 11 '13 at 2:55
it will be visible if you decompile the classes.dex file and open it up – Raghav Sood Apr 11 '13 at 14:11
@Raghav, yup I used dex2jar and jd to simulate it. But I cannot find it. Have you tried? – Halim Apr 14 '13 at 0:03

when they have the app on their phone, they have full access to memory of it. so if u want to prevent it from being hacked, you could try to make it so that u cant just get the static memory address directly by using a debugger. they could do a stack buffer overflow if they have somewhere to write and they have a limit. so try to make it so when they write something, if u have to have a limit, if they send in more chars than limit, if (input > limit) then ignore, so they cant put assembly code there.

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I am developing a payment processing app

By no means I'm an expert on the specific "security" field, but I've got a few "out of box" (points)...

(1) I'd argue Google have been very successful in avoiding malicious hackers in general by using a simple financial method to "protect" Google Chrome:

We have a standing $50,000 reward for participants that can compromise a Chromebook or Chromebox with device persistence in guest mode

Your best bet to actually get closer to 100% security (in this whole sense) is picking the right fight for your money's worth. You won't be protected from lunatics and lucky pranksters, for the little time they'll have to enjoy in case they do manage to get in.

(2) Also, Google just released their Ai, which could be used to identify patterns in money flow and truly prevent risk taking ones, including whoever might be trying to steal 0.00001 cent per day or whatever.

All that being said...

(3) Reason I've been putting "security" and "protect" in quotes is: what do they even really mean? I won't get too philosophical here, but if you do want to keep reading, follow the green rabbit...

no idea who oryx or crake are

If you don't, however, I do hope points (1) and (2) could at least broaden up your thinking a little bit. I find asking "how to avoid reverse engineering" is a question so wrong in so many ways, I can't help but get uncomfortably rubbed out by it.

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Its not possible to completely avoid RE but By making them more complex internally, you put make it more difficult for attackers to see the clear operation of the app, which may reduce the number of attack vectors.

If the application handles highly sensitive data, Various techniques exist which can increase the complexity of reverse engineering your code. One technique is to use C/C++ to limit easy runtime manipulation by the attacker. There are ample C and C++ libraries that are very mature and easy to integrate with Android offers JNI. An attacker must first circumvent the debugging restrictions in order to attack the application on a low level. This adds further complexity to an attack. Android applications should have android:debuggable=”false” set in the application manifest to prevent easy run time manipulation by an attacker or malware.

Trace Checking – An application can determine whether or not it is currently being traced by a debugger or other debugging tool. If being traced, the application can perform any number of possible attack response actions, such as discarding encryption keys to protect user data, notifying a server administrator, or other such type responses in an attempt to defend itself. This can be determined by checking the process status flags or using other techniques like comparing the return value of ptrace attach, checking parent process, blacklist debuggers in the process list or comparing timestamps on different places of the program.

Optimizations - To hide advanced mathematical computations and other types of complex logic, utilizing compiler optimizations can help obfuscate the object code so that it cannot easily be disassembled by an attacker, making it more difficult for an attacker to gain an understanding of the particular code. In Android this can more easily be achieved by utilizing natively compiled libraries with the NDK. In addition, using an LLVM Obfuscator or any protector SDK will provide better machine code obfuscation.

Stripping binaries – Stripping native binaries is an effective way to increase the amount of time and skill level required of an attacker in order to view the makeup of your application’s low level functions. By stripping a binary, the symbol table of the binary is stripped, so that an attacker cannot easily debug or reverse engineer an application.You can refer techniques used on GNU/Linux systems like sstriping or using UPX.

And at last you must be aware about obfuscation and tools like ProGuard.

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Basically, there are 5 methods to protect your APK. Isolate Java Program, Encrypt Class Files, Convert to Native Codes, Code Obfuscation and Online Encryption I suggest you use online encryption because it is safe and convenient. You needn't spend to much time to achieve this. Such as APK Protect, it is an online encryption website for APK. It provides Java codes and C++ codes protection to achieve anti-debugging and decompile effects. The operation process is simple and easy.

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He's asking if it's possible. You're saying yes, it's easy. You're wrong. It's impossible. – Alex Jan 12 '14 at 22:54

Above answers may cover this.

But Google Android developer page advice for prevent reverse engineering :

Check here

This will help us

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protected by bummi Mar 29 at 6:23

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