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I'm about to release an applicatio and don't want it pirated... There are apps like luckypatcher which cracks the application for you even if you have licensing...

Anyone knows how to protect from this?

Thanks Greetings, Marco

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Similar question on ITSecurity.SE: security.stackexchange.com/questions/15405/… –  S.L. Barth Oct 18 '12 at 15:27
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5 Answers

up vote 4 down vote accepted

The short answer is not really.

You can watch a google IO chat about some best practices for using licensing API's etc Google IO Anti Pirate

I know there is another talk about general patterns to thwart lazy pirates as well but can't seem to find the URL.

In general if your protection is dependent on if/then logic all someone has to do is patch the code and invert that logic or bypass it all together which is pretty easy in Java.

You can make it harder by obfuscating where you are doing this, doing it in many places, doing it randomly, and adding pro-guard obfuscation etc. to dissuade casual hackers.

Even server side logic is simple to bypass unless the return package is used in some way (like an encryption token that is synced with the user or phone information to unlock content, or a user id verification scheme that is required to access online community content etc.)

In the end if someone is determined and has skills they can get around all of it and unless you are losing serious revenue it's hardly worth losing sleep over in my opinion, which is a problem we ALL need to have!

After doing this for 20 years (commercial development) my approach is to make it difficult by using the above patterns, and change it occasionally. That weeds out the lazy pirates.

Then forget about it and concentrate on making an application that is worth stealing by the pro-pirates.


My app's are mostly content driven.

In general if someone buys content it gets encrypted using tokens server side and un-encrypted using the same (which are not stored but generated each session using device and user tokens, which only makes it a bit harder to spoof honestly)

I can then track access by user/device pairings. The downside for the hacker is that they have to pay once, and if their tokens are suddenly getting used beyond reasonable limits it alerts me to the fact, and I can turn off that account if I want to ( and I have )

I have found that socially people are far less likely to let someone use information to cheat if it's associated with them (though it has happened) and it will come back on them.

I still follow all of the advice from IO/Dev Blog etc. and if I detect tampering then I inform the user and then let it go for N period of time so they can contact me or self correct.

I also never kill an app, but I do tell the user they are using malware, and ask them if they really trust the person that stole it with their data etc. those kind of pop up's have bit'd messages so simple string searches won't work etc. and throw a scare into people

I also have a way to send a poison token set to the device that will in essence lock out any data they have accumulated with the device unless I unlock it BUT you better be really sure they are thieves before you go nuclear on them.

Also don't discount analytic's as a way to detect, and determine the proper action to take when a pirated copy is detected.

Follow the guidelines the blog post and IO mentioned, then be creative in applying them, and mixing a some what unique solution, then change it every so often to give the pirates fits.

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u mean: android-developers.blogspot.com/2010/09/… ? and you are DAMN right! "concentrate on making an application that is worth stealing by the pro-pirates." but still it isn't cool :( Are your applications protected against this lucky patcher? –  Marco May 14 '12 at 16:58
Yes that's basically it. The key is don't use a well known solution (hackers have those and pattern them) make sure you don't help them find your check points by tipping them off as to where and when things happen. I will modify my answer to tell you what I do, but it may not work for you. –  Idistic May 14 '12 at 17:30
Obfuscation techniques for Android APKs stackoverflow.com/a/17464629/319204 –  TheCodeArtist Jul 22 '13 at 3:30
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The way I do it, is to keep an eye in the package name of lucky patcher, in case they change it. So at runtime I check if it is installed, and I simply do not allow to use my app if this one is actually installed on the phone, even if they purchased the app. I warn the user and kill my app. So he will have to find another way to crack it. The worse I can get is that he has to buy my app and will sure put 1 bad review. But honestly, I prefer 1 bad review from a hacker than 1000 pirated copies a day.

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Base on the fact that LuckyPatcher uses odex replacement for its hacking purpose. I think the modest way to defeat its current implmentation is to compile your important piece of code in separate dex, and load it via DexClassLoader.

Ref: http://android-developers.blogspot.pt/2011/07/custom-class-loading-in-dalvik.html

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Only way I have heard of is to do server verification... have your app contact a server and verify they purchased your app.

This is about in-app billing through Google, Why is signature verification on remote server more secure than on device?

Some good info on the dev site about Google Play in general here and in-app billing specifically here

Unfortunately I'm not finding much else...

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do we receive any information about the buyer? Like a serial no. so we can say: askserverifserialnoisknown == true then okay :D –  Marco May 14 '12 at 15:24
As I have not joined Google Play (I mostly make apps for my own use) I really don't know, but in all the discussions I've seen about this topic, the consensus is that if you want to combat piracy of your app, doing a server check is the way, so I must assume that some sort of thing exists. I'll dig around and see if I can find some info and post links in my answer. –  Barak May 14 '12 at 15:29
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I've managed to protect against LuckyPatcher.

Change the functions a bit in the Android LVL implementation. So instead of returning Booleans, compare strings or something else instead. Mix the code up, put fakes in as detailed below. Doing it your own custom way is best.

These are the important methods you need to mix up in the LVL Library.

ServerManagedPolicy.Class / StrictPolicy.Class / APKExpansionPolicy.Class - AllowAccess() method

Left Original - Right LuckyPatcher Patched - AllowAccess returns true always. Make it return another datatype instead of boolean and put a different compare there instead.

enter image description here

LicenseValidator.Class - switch (responseCode) {

Check the NOT_LICENSED and LICENSED_OLD_KEY/LICENSED somewhere else, example put an IF statement in checking these two conditions instead of the switch, or create another variable checking the responseCode and run the LVL allowed code from that.

enter image description here

ILicenseResultListener - onTransact > switch(code) > case TRANSACTION_verifyLicense:

_arg0 is patched to always be 0x0. Mess the code up.

LuckyPatcher looks for data.readInt()

One way is to create a method to return an integer so..

_arg0 = myMethod(data);


private int MyMethod(Parcel parcel){
    int tempInt;
    tempInt = parcel.readInt();
    return tempInt;

enter image description here

ResponseData.class - parse(String responseData)

data.responseCode is patched to always be 0x0. It looks for Integer.parseInt(fields[0]) Fake it a couple of times before the real call like.

Integer tempInt;
tempInt = Integer.parseInt(fields[0]);

enter image description here

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