Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

From Android In App Billing version 3 (TrivialDrive)sample application coming with sdk


/* base64EncodedPublicKey should be YOUR APPLICATION'S PUBLIC KEY
 * (that you got from the Google Play developer console). This is not your
 * developer public key, it's the *app-specific* public key.
 * Instead of just storing the entire literal string here embedded in the
 * program,  construct the key at runtime from pieces or
 * use bit manipulation (for example, XOR with some other string) to hide
 * the actual key.  The key itself is not secret information, but we don't
 * want to make it easy for an attacker to replace the public key with one
 * of their own and then fake messages from the server.
String base64EncodedPublicKey = "CONSTRUCT_YOUR_KEY_AND_PLACE_IT_HERE";

Well I am not sure I understand this security measure. I know how to get the application public key (which is already base 64 encoded) from Google Play Developer Console.

What I am not understanding is this part

 /* Instead of just storing the entire literal string here embedded in the
 * program,  construct the key at runtime from pieces or
 * use bit manipulation (for example, XOR with some other string) to hide
 * the actual key

As far as I know, this public key is a constant string, which is given from Google during application upload process.

How can we create the same key programmatically using any bit manipulation process? Has someone done it before? Is there any sample code on how to do this?

share|improve this question
Why would one hide a public key, because, well it's public? – GameScripting Jan 16 '13 at 8:03
@GameScripting well it is the first question I asked myself.. But I think we are not talking about public key in a key pair (private key/public key pair).. Application public key may be different.. Too bad Google doesn't have much documentation about it especially after they themselves think that it is a security threat.. – Krishnabhadra Jan 16 '13 at 8:06
'A string' XOR 'secret' becomes 'Another string'. 'Another string' XOR the same 'secret' again, it becomes back to 'A string'. That's one XOR use case. – 正宗白布鞋 Dec 1 '13 at 12:39
@Krishnabhadra it helps prevent the attacker from easily replacing your public key with his own and verifying the purchase with his own server (with his private key of course), so performing such tricks makes the attacker work just a little harder. Of course to really mitigate this problem, secondary verification on your own servers is encouraged... – kevinze Mar 12 at 18:08
up vote 33 down vote accepted

Something like this:

String Base64EncodedPublicKey key = "Ak3jfkd" + GetMiddleBit() + "D349824";


String Base64EncodedPublicKey key = 
         DecrementEachletter("Bl4kgle") + GetMiddleBit() + ReverseString("D349824");

or anything that doesn't put the key in base64 plaintext in a single string. Probably also something that doesn't store the key in base64 would be a good idea too, since raw base64 text fragments are pretty easy to spot.

It's not a particularly GOOD way to protect the key. But it protects against a trivial attack where somebody just searches through literal strings in you APK looking for something that looks like a base64-encoded public key. At least you make the #$#$ers work a little bit.

Presumably evil people can do bad things if they identify your public key. Google seems to think so, apparently. I can guess what this step does, but I'm not sure I really want to speculate on that in an open forum, and give anyone any ideas. You want to do it though.

The basic plot summary would be that you're making it more difficult for somebody to write an application that programmatically de-LVLs an applciation.

One assumes that anyone who's doing this makes a living cracking 20 or 30,000 android apps and republishing them. Chances are, I suppose that they're not going to take the extra ten minutes to add your app to the list of 20,000 Android apps that have already been broken by a program, if they actually have to do a little bit of manual work. Unless you have a top tier application. And then the battle is potentially endless, and probably ultimately futile.

Splitting the key into consecutive chunks (as proposed in another answer) probably isn't good enough. Because the key will end up in consecutive strings in the string constant tables in the APK. Too easy to find that with a program.

share|improve this answer
What if the app is open source? Is this really worth it? Is there some other way to "secure" the public key? – ibgib May 28 '15 at 20:46
There really is not any way to "secure" the public key. If your software can reconstruct the key from data stored in the APK, then so can software that just reads the APK. Chances are pretty good that it's not really worth it to do anything much more than trivial obscuring of the key. Kiddie hackers have broken stronger software protection schemes than you're ever likely to come up with. If you prevent use of automated software that extracts the keys from any APK that copied the SDK code verbatim, you've probably done your duty. – Robin Davies May 31 '15 at 22:08
One more helpful answer on the security stackexchange! security.stackexchange.com/questions/33686/… – kevinze Mar 12 at 18:19
@ibgib: If your app is open source, then you won't be able to make purchases on Google play, for this and whole slew of other reasons as well, like (for example) the APK not being marked as having been installed by the Google Play installer. IF you want donations from an open source app, then you're probably better off using PayPal-hosted credit card payments. They can do micro-transactions for a significantly lower fee as well. (Google Play apps are forbidden from using alternate forms of payment by the terms of service, in case you though there was a germ of a great idea there. Don't do it!) – Robin Davies Mar 13 at 18:20
@RobinDavies We've moved away from anything involving in-app purchases. Thanks for the heads up though. – ibgib Mar 15 at 19:09

An alternative is to do some basic transforms on the key.

// Replace this with your encoded key.
String base64EncodedPublicKey = "";

// Get byte sequence to play with.
byte[] bytes = base64EncodedPublicKey.getBytes();

// Swap upper and lower case letters.
for (int i = 0; i < bytes.length; i++) {
    if(bytes[i] >= 'A' && bytes[i] <= 'Z')
        bytes[i] = (byte)( 'a' + (bytes[i] - 'A'));
    else if(bytes[i] >= 'a' && bytes[i] <= 'z')
        bytes[i] = (byte)( 'A' + (bytes[i] - 'a'));

// Assign back to string.
base64EncodedPublicKey = new String( bytes );

So the idea would be to put your original key in as base64EncodedPublicKey and run the above code, it would swap lower and uppercase letters and put the result back in base64EncodedPublicKey. You can then copy the result from the debugger and paste it into code as the original base64EncodedPublicKey value. At this point your key will be transformed (upper and lower case switched) and at runtime it'll fix it back to the correct casing, and continue to work.

The above is obviously quite a basic transcode, but you can be more creative, reverse the ordering of A-Z, swap odd and even numbers, swap vowels for even numbers. The issue here is that if I put code in the above snippet that does a bunch of more interesting transcodes, and then everyone copy and pastes that into their projects, a cracker will easily be able to see and use the transcode themselves (from looking at this post)! So you just have to come up with a few transforms yourself.

I've purposely made the above work in both direction (so if you run it twice, you'll get your original value back) as it makes it easy to run the algorithm on your original key. I think it is kind of neat it looks like the real key is sitting there as plain text, a casual cracker may try to switch this and then be confused when it doesn't work.

share|improve this answer

You can split it into pieces like this

String piece3 = "BDYASGBDNAWGRET24IYE23das4saGBENWKD";
String piece4 = "432423SDF23R/+SDDS";

mHelper = new IabHelper(this, piece1 + piece2 + piece3 + piece4);

Any kind of manipulations will do.

You can't hide the public key perfectly from the attacker, you just need to manipulate the string to confuse a attacker a little bit

You can add some strings and remove it when it's needed or split it into chunks.

share|improve this answer
IF you are using ProGuard to obfuscate your app, then this trick will be useless. ProGuard will re-factor them to be one String again. – Sami El-Tamawy Aug 18 '14 at 14:39
Indeed. In addition, I would caution against using IabHelper as is.. passing the key (regardless of how it was generally dynamically) via the constructor means that if the attacker can identify the IabHelper class (even if it may be obfuscated), then he knows exactly where to insert his own malicious key (just seems a bit too easy) – kevinze Mar 12 at 18:18

Is someone is really need you private key? I think the whole idea is replace it. IMHO any manipulations are useless. The only thing to do by evil person is just initialize variable with correct (his own key) value one line begore google API call.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.