Currently I am hosting a Django app I developed myself for my clients, but I am now starting to look at selling it to people for them to host themselves.
My question is this: How can I package up and sell a Django app, while protecting its code from pirating or theft? Distributing a bunch of .py files doesn't sound like a good idea as the people I sell it to too could just make copies of them and pass them on.
I think for the purpose of this problem it would be safe to assume that everyone who buys this would be running the same (LAMP) setup.
Don't try and obfuscate or encrypt the code - it will never work.
I would suggest selling the Django application "as a service" - either host it for them, or sell them the code and support. Write up a contract that forbids them from redistributing it.
That said, if you were determined to obfuscate the code in some way - you can distribute python applications entirely as .pyc (Python compiled byte-code).. It's how Py2App works.
It will still be re-distributable, but it will be very difficult to edit the files - so you could add some basic licensing stuff, and not have it foiled by a few #s..
As I said, I don't think you'll succeed in anti-piracy via encryption or obfuscation etc.. Depending on your clients, a simple contract, and maybe some really basic checks will go a long much further than some complicated decryption system (And make the experience of using your application better, instead of hopefully not any worse)
You could package the whole thing up as an Amazon Machine Instance (AMI), and then have them run your app on Amazon EC2. The nice thing about this solution is that Amazon will take care of billing for you, and since you're distributing the entire machine image, you can be certain that all your clients are using the same LAMP stack. The AMI is an encrypted machine image that is configured however you want it.
You can have Amazon bill the client with a one-time fee, usage-based fee, or monthly fee.
Of course, this solution requires that your clients host their app at Amazon, and pay the appropriate fees.
The way I'd go about it is this:
Encrypt all of the code
Write an installer that contacts the server with the machine's hostname and license file and gets the decryption key, then decrypts the code and compiles it to python bytecode
Add (in the installer) a module that checks the machine's hostname and license file on import and dies if it doesn't match
This way the user only has to contact the server when the hostname changes and on first install, but you get a small layer of security. You could change the hostname to something more complex, but there's really no need -- anyone that wants to pirate this will do so, but a simple mechanism like that will keep honest people honest.
"Encrypting" Python source code (or bytecode, or really bytecode for any language that uses it -- not just Python) is like those little JavaScript things some people put on web pages to try to disable the right-hand mouse button, declaring "now you can't steal my images!"
The workarounds are trivial, and will not stop a determined person.
If you're really serious about selling a piece of Python software, you need to act serious. Pay an attorney to draw up license/contract terms, have people agree to them at the time of purchase, and then just let them have the actual software. This means you'll have to haul people into court if they violate the license/contract terms, but you'd have to do that no matter what (e.g., if somebody breaks your "encryption" and starts distributing your software), and having the actual proper form of legal words already set down on paper, with their signature, will be far better for your business in the long term.
If you're really that paranoid about people "stealing" your software, though, just stick with a hosted model and don't give them access to the server. Plenty of successful businesses are based around that model.
You'll never be able to keep the source code from people who really want it. It's best to come to grips with this fact now, and save yourself the headache later.
May I speak frankly, as a friend? Unless your app is Really Amazing, you may not get many buyers. Why waste the time on lawyers, obfuscation, licensing and whatnot? You stand to gain a better reputation by open-sourcing your code...and maintaining it.
Django comes from the open-source end of the spectrum from licensing (and obfuscating). Granted, the MIT license is more common than the GPL; still they are both very far removed from anything like Microsoft's EULA. A lot of Djangophiles will balk at closed source code, simply because that's what Microsoft does.
Also, people will trust your code more, since they will be able to read it and verify that it contains no malicious code. Remember, "obfuscating" means "hiding;" and who will really know exactly what you've hidden?
Granted, there's no easy way to monetize open-sourced code. But you could offer your services or even post a campaign on Pledgie.com, for those who are thankful for all your great work.
One thing you might want to consider is what FogBugz does. Simply include a small binary (perhaps a C program) that is compiled for the target platforms and contains the code to validate the license.
This way you can keep the honest people honest with minimal headache on your part.
Related
I am developing a piece of software in Python that will be distributed to my employer's customers. My employer wants to limit the usage of the software with a time-restricted license file.
If we distribute the .py files or even .pyc files it will be easy to (decompile and) remove the code that checks the license file.
Another aspect is that my employer does not want the code to be read by our customers, fearing that the code may be stolen or at least the "novel ideas".
Is there a good way to handle this problem?
"Is there a good way to handle this problem?" No. Nothing can be protected against reverse engineering. Even the firmware on DVD machines has been reverse engineered and the AACS Encryption key exposed. And that's in spite of the DMCA making that a criminal offense.
Since no technical method can stop your customers from reading your code, you have to apply ordinary commercial methods.
Licenses. Contracts. Terms and Conditions. This still works even when people can read the code. Note that some of your Python-based components may require that you pay fees before you sell software using those components. Also, some open-source licenses prohibit you from concealing the source or origins of that component.
Offer significant value. If your stuff is so good -- at a price that is hard to refuse -- there's no incentive to waste time and money reverse engineering anything. Reverse engineering is expensive. Make your product slightly less expensive.
Offer upgrades and enhancements that make any reverse engineering a bad idea. When the next release breaks their reverse engineering, there's no point. This can be carried to absurd extremes, but you should offer new features that make the next release more valuable than reverse engineering.
Offer customization at rates so attractive that they'd rather pay you to build and support the enhancements.
Use a license key which expires. This is cruel, and will give you a bad reputation, but it certainly makes your software stop working.
Offer it as a web service. SaaS involves no downloads to customers.
Python, being a byte-code-compiled interpreted language, is very difficult to lock down. Even if you use a exe-packager like py2exe, the layout of the executable is well-known, and the Python byte-codes are well understood.
Usually in cases like this, you have to make a tradeoff. How important is it really to protect the code? Are there real secrets in there (such as a key for symmetric encryption of bank transfers), or are you just being paranoid? Choose the language that lets you develop the best product quickest, and be realistic about how valuable your novel ideas are.
If you decide you really need to enforce the license check securely, write it as a small C extension so that the license check code can be extra-hard (but not impossible!) to reverse engineer, and leave the bulk of your code in Python.
Python is not the tool you need
You must use the right tool to do the right thing, and Python was not designed to be obfuscated. It's the contrary; everything is open or easy to reveal or modify in Python because that's the language's philosophy.
If you want something you can't see through, look for another tool. This is not a bad thing, it is important that several different tools exist for different usages.
Obfuscation is really hard
Even compiled programs can be reverse-engineered so don't think that you can fully protect any code. You can analyze obfuscated PHP, break the flash encryption key, etc. Newer versions of Windows are cracked every time.
Having a legal requirement is a good way to go
You cannot prevent somebody from misusing your code, but you can easily discover if someone does. Therefore, it's just a casual legal issue.
Code protection is overrated
Nowadays, business models tend to go for selling services instead of products. You cannot copy a service, pirate nor steal it. Maybe it's time to consider to go with the flow...
Compile python and distribute binaries!
Sensible idea:
Use Cython, Nuitka, Shed Skin or something similar to compile python to C code, then distribute your app as python binary libraries (pyd) instead.
That way, no Python (byte) code is left and you've done any reasonable amount of obscurification anyone (i.e. your employer) could expect from regular Code, I think. (.NET or Java less safe than this case, as that bytecode is not obfuscated and can relatively easily be decompiled into reasonable source.)
Cython is getting more and more compatible with CPython, so I think it should work. (I'm actually considering this for our product.. We're already building some thirdparty libs as pyd/dlls, so shipping our own python code as binaries is not a overly big step for us.)
See This Blog Post (not by me) for a tutorial on how to do it. (thx #hithwen)
Crazy idea:
You could probably get Cython to store the C-files separately for each module, then just concatenate them all and build them with heavy inlining. That way, your Python module is pretty monolithic and difficult to chip at with common tools.
Beyond crazy:
You might be able to build a single executable if you can link to (and optimize with) the python runtime and all libraries (dlls) statically. That way, it'd sure be difficult to intercept calls to/from python and whatever framework libraries you use. This cannot be done if you're using LGPL code though.
I understand that you want your customers to use the power of python but do not want expose the source code.
Here are my suggestions:
(a) Write the critical pieces of the code as C or C++ libraries and then use SIP or swig to expose the C/C++ APIs to Python namespace.
(b) Use cython instead of Python
(c) In both (a) and (b), it should be possible to distribute the libraries as licensed binary with a Python interface.
Have you had a look at pyminifier? It does Minify, obfuscate, and compress Python code. The example code looks pretty nasty for casual reverse engineering.
$ pyminifier --nonlatin --replacement-length=50 /tmp/tumult.py
#!/usr/bin/env python3
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲמּ=ImportError
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱=print
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ巡=False
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ澨=object
try:
import demiurgic
except ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲמּ:
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱("Warning: You're not demiurgic. Actually, I think that's normal.")
try:
import mystificate
except ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲמּ:
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱("Warning: Dark voodoo may be unreliable.")
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲﺬ=ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ巡
class ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𐦚(ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ澨):
def __init__(self,*args,**kwargs):
pass
def ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ클(self,dactyl):
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ퐐=demiurgic.palpitation(dactyl)
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𠛲=mystificate.dark_voodoo(ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ퐐)
return ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𠛲
def ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𐠯(self,whatever):
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱(whatever)
if __name__=="__main__":
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱("Forming...")
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲﺃ=ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𐦚("epicaricacy","perseverate")
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲﺃ.ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𐠯("Codswallop")
# Created by pyminifier (https://github.com/liftoff/pyminifier)
Is your employer aware that he can "steal" back any ideas that other people get from your code? I mean, if they can read your work, so can you theirs. Maybe looking at how you can benefit from the situation would yield a better return of your investment than fearing how much you could lose.
[EDIT] Answer to Nick's comment:
Nothing gained and nothing lost. The customer has what he wants (and paid for it since he did the change himself). Since he doesn't release the change, it's as if it didn't happen for everyone else.
Now if the customer sells the software, they have to change the copyright notice (which is illegal, so you can sue and will win -> simple case).
If they don't change the copyright notice, the 2nd level customers will notice that the software comes from you original and wonder what is going on. Chances are that they will contact you and so you will learn about the reselling of your work.
Again we have two cases: The original customer sold only a few copies. That means they didn't make much money anyway, so why bother. Or they sold in volume. That means better chances for you to learn about what they do and do something about it.
But in the end, most companies try to comply to the law (once their reputation is ruined, it's much harder to do business). So they will not steal your work but work with you to improve it. So if you include the source (with a license that protects you from simple reselling), chances are that they will simply push back changes they made since that will make sure the change is in the next version and they don't have to maintain it. That's win-win: You get changes and they can make the change themselves if they really, desperately need it even if you're unwilling to include it in the official release.
Use Cython. It will compile your modules to high-performant C files, which can then be compiled to native binary libraries. This is basically un-reversable, compared to .pyc bytecode!
I've written a detailed article on how to set up Cython for a Python project, check it out:
Protecting Python Sources With Cython
Do not rely on obfuscation. As You have correctly concluded, it offers very limited protection.
UPDATE: Here is a link to paper which reverse engineered obfuscated python code in Dropbox. The approach - opcode remapping is a good barrier, but clearly it can be defeated.
Instead, as many posters have mentioned make it:
Not worth reverse engineering time (Your software is so good, it makes sense to pay)
Make them sign a contract and do a license audit if feasible.
Alternatively, as the kick-ass Python IDE WingIDE does: Give away the code. That's right, give the code away and have people come back for upgrades and support.
Shipping .pyc files has its problems - they are not compatible with any other python version than the python version they were created with, which means you must know which python version is running on the systems the product will run on. That's a very limiting factor.
In some circumstances, it may be possible to move (all, or at least a key part) of the software into a web service that your organization hosts.
That way, the license checks can be performed in the safety of your own server room.
Though there's no perfect solution, the following can be done:
Move some critical piece of startup code into a native library.
Enforce the license check in the native library.
If the call to the native code were to be removed, the program wouldn't start anyway. If it's not removed then the license will be enforced.
Though this is not a cross-platform or a pure-Python solution, it will work.
I was surprised in not seeing pyconcrete in any answer. Maybe because it's newer than the question?
It could be exactly what you need(ed).
Instead of obfuscating the code, it encrypts it and decrypts at load time.
From pypi page:
Protect python script work flow
your_script.py import pyconcrete
pyconcrete will hook import module
when your script do import MODULE,
pyconcrete import hook will try to find MODULE.pye first and then
decrypt MODULE.pye via _pyconcrete.pyd and execute decrypted data (as
.pyc content)
encrypt & decrypt secret key record in _pyconcrete.pyd
(like DLL or SO) the secret key would be hide in binary code, can’t
see it directly in HEX view
The reliable only way to protect code is to run it on a server you control and provide your clients with a client which interfaces with that server.
I think there is one more method to protect your Python code; part of the Obfuscation method. I believe there was a game like Mount and Blade or something that changed and recompiled their own python interpreter (the original interpreter which i believe is open source) and just changed the OP codes in the OP code table to be different then the standard python OP codes.
So the python source is unmodified but the file extensions of the *.pyc files are different and the op codes don't match to the public python.exe interpreter. If you checked the games data files all the data was in Python source format.
All sorts of nasty tricks can be done to mess with immature hackers this way. Stopping a bunch of inexperienced hackers is easy. It's the professional hackers that you will not likely beat. But most companies don't keep pro hackers on staff long I imagine (likely because things get hacked). But immature hackers are all over the place (read as curious IT staff).
You could for example, in a modified interpreter, allow it to check for certain comments or doc strings in your source. You could have special OP codes for such lines of code. For example:
OP 234 is for source line "# Copyright I wrote this"
or compile that line into op codes that are equivalent to "if False:" if "# Copyright" is missing. Basically disabling a whole block of code for what appears to be some obscure reason.
One use case where recompiling a modified interpreter may be feasible is where you didn't write the app, the app is big, but you are paid to protect it, such as when you're a dedicated server admin for a financial app.
I find it a little contradictory to leave the source or opcodes open for eyeballs, but use SSL for network traffic. SSL is not 100% safe either. But it's used to stop MOST eyes from reading it. A wee bit precaution is sensible.
Also, if enough people deem that Python source and opcodes are too visible, it's likely someone will eventually develop at least a simple protection tool for it. So the more people asking "how to protect Python app" only promotes that development.
Depending in who the client is, a simple protection mechanism, combined with a sensible license agreement will be far more effective than any complex licensing/encryption/obfuscation system.
The best solution would be selling the code as a service, say by hosting the service, or offering support - although that isn't always practical.
Shipping the code as .pyc files will prevent your protection being foiled by a few #s, but it's hardly effective anti-piracy protection (as if there is such a technology), and at the end of the day, it shouldn't achieve anything that a decent license agreement with the company will.
Concentrate on making your code as nice to use as possible - having happy customers will make your company far more money than preventing some theoretical piracy..
Another attempt to make your code harder to steal is to use jython and then use java obfuscator.
This should work pretty well as jythonc translate python code to java and then java is compiled to bytecode. So ounce you obfuscate the classes it will be really hard to understand what is going on after decompilation, not to mention recovering the actual code.
The only problem with jython is that you can't use python modules written in c.
You should take a look at how the guys at getdropbox.com do it for their client software, including Linux. It's quite tricky to crack and requires some quite creative disassembly to get past the protection mechanisms.
The best you can do with Python is to obscure things.
Strip out all docstrings
Distribute only the .pyc compiled files.
freeze it
Obscure your constants inside a class/module so that help(config) doesn't show everything
You may be able to add some additional obscurity by encrypting part of it and decrypting it on the fly and passing it to eval(). But no matter what you do someone can break it.
None of this will stop a determined attacker from disassembling the bytecode or digging through your api with help, dir, etc.
What about signing your code with standard encryption schemes by hashing and signing important files and checking it with public key methods?
In this way you can issue license file with a public key for each customer.
Additional you can use an python obfuscator like this one (just googled it).
Idea of having time restricted license and check for it in locally installed program will not work. Even with perfect obfuscation, license check can be removed. However if you check license on remote system and run significant part of the program on your closed remote system, you will be able to protect your IP.
Preventing competitors from using the source code as their own or write their inspired version of the same code, one way to protect is to add signatures to your program logic (some secrets to be able to prove that code was stolen from you) and obfuscate the python source code so, it's hard to read and utilize.
Good obfuscation adds basically the same protection to your code, that compiling it to executable (and stripping binary) does. Figuring out how obfuscated complex code works might be even harder than actually writing your own implementation.
This will not help preventing hacking of your program. Even with obfuscation code license stuff will be cracked and program may be modified to have slightly different behaviour (in the same way that compiling code to binary does not help protection of native programs).
In addition to symbol obfuscation might be good idea to unrefactor the code, which makes everything even more confusing if e.g. call graphs points to many different places even if actually those different places does eventually the same thing.
Logical signature inside obfuscated code (e.g. you may create table of values which are used by program logic, but also used as signature), which can be used to determine that code is originated from you. If someone decides to use your obfuscated code module as part of their own product (even after reobfuscating it to make it seem different) you can show, that code is stolen with your secret signature.
I have looked at software protection in general for my own projects and the general philosophy is that complete protection is impossible. The only thing that you can hope to achieve is to add protection to a level that would cost your customer more to bypass than it would to purchase another license.
With that said I was just checking google for python obsfucation and not turning up a lot of anything. In a .Net solution, obsfucation would be a first approach to your problem on a windows platform, but I am not sure if anyone has solutions on Linux that work with Mono.
The next thing would be to write your code in a compiled language, or if you really want to go all the way, then in assembler. A stripped out executable would be a lot harder to decompile than an interpreted language.
It all comes down to tradeoffs. On one end you have ease of software development in python, in which it is also very hard to hide secrets. On the other end you have software written in assembler which is much harder to write, but is much easier to hide secrets.
Your boss has to choose a point somewhere along that continuum that supports his requirements. And then he has to give you the tools and time so you can build what he wants. However my bet is that he will object to real development costs versus potential monetary losses.
Neiher Cython nor Nuitka were not the answer, because when running the solution that is compiled with Nuitka or Cython into .pyd or .exe files a cache directory is generated and all .pyc files are copied into the cache directory, so an attacker simply can decompile .pyc files and see your code or change it.
It is possible to have the py2exe byte-code in a crypted resource for a C launcher that loads and executes it in memory. Some ideas here and here.
Some have also thought of a self modifying program to make reverse engineering expensive.
You can also find tutorials for preventing debuggers, make the disassembler fail, set false debugger breakpoints and protect your code with checksums. Search for ["crypted code" execute "in memory"] for more links.
But as others already said, if your code is worth it, reverse engineers will succeed in the end.
Use the same way to protect binary file of c/c++, that is, obfuscate each function body in executable or library binary file, insert an instruction "jump" at the begin of each function entry, jump to special function to restore obfuscated code. Byte-code is binary code of Python script, so
First compile python script to code object
Then iterate each code object, obfuscate co_code of each code object as the following
0 JUMP_ABSOLUTE n = 3 + len(bytecode)
3
...
... Here it's obfuscated bytecode
...
n LOAD_GLOBAL ? (__pyarmor__)
n+3 CALL_FUNCTION 0
n+6 POP_TOP
n+7 JUMP_ABSOLUTE 0
Save obfuscated code object as .pyc or .pyo file
Those obfuscated file (.pyc or .pyo) can be used by normal python interpreter, when those code object is called first time
First op is JUMP_ABSOLUTE, it will jump to offset n
At offset n, the instruction is to call a PyCFunction. This function will restore those obfuscated bytecode between offset 3 and n, and put the original byte-code at offset 0. The obfuscated code can be got by the following code
char *obfucated_bytecode;
Py_ssize_t len;
PyFrameObject* frame = PyEval_GetFrame();
PyCodeObject *f_code = frame->f_code;
PyObject *co_code = f_code->co_code;
PyBytes_AsStringAndSize(co_code, &obfucated_bytecode, &len)
After this function returns, the last instruction is to jump to
offset 0. The really byte-code now is executed.
There is a tool Pyarmor to obfuscate python scripts by this way.
There is a comprehensive answer on concealing the python source code, which can be find here.
Possible techniques discussed are:
- use compiled bytecode (python -m compileall)
- executable creators (or installers like PyInstaller)
- software as an service (the best solution to conceal your code in my opinion)
- python source code obfuscators
using cxfreeze ( py2exe for linux ) will do the job.
http://cx-freeze.sourceforge.net/
it is available in ubuntu repositories
If we focus on software licensing, I would recommend to take a look at another Stack Overflow answer I wrote here to get some inspiration of how a license key verification system can be constructed.
There is an open-source library on GitHub that can help you with the license verification bit.
You can install it by pip install licensing and then add the following code:
pubKey = "<RSAKeyValue><Modulus>sGbvxwdlDbqFXOMlVUnAF5ew0t0WpPW7rFpI5jHQOFkht/326dvh7t74RYeMpjy357NljouhpTLA3a6idnn4j6c3jmPWBkjZndGsPL4Bqm+fwE48nKpGPjkj4q/yzT4tHXBTyvaBjA8bVoCTnu+LiC4XEaLZRThGzIn5KQXKCigg6tQRy0GXE13XYFVz/x1mjFbT9/7dS8p85n8BuwlY5JvuBIQkKhuCNFfrUxBWyu87CFnXWjIupCD2VO/GbxaCvzrRjLZjAngLCMtZbYBALksqGPgTUN7ZM24XbPWyLtKPaXF2i4XRR9u6eTj5BfnLbKAU5PIVfjIS+vNYYogteQ==</Modulus><Exponent>AQAB</Exponent></RSAKeyValue>"
res = Key.activate(token="WyIyNTU1IiwiRjdZZTB4RmtuTVcrQlNqcSszbmFMMHB3aWFJTlBsWW1Mbm9raVFyRyJd",\
rsa_pub_key=pubKey,\
product_id=3349, key="ICVLD-VVSZR-ZTICT-YKGXL", machine_code=Helpers.GetMachineCode())
if res[0] == None not Helpers.IsOnRightMachine(res[0]):
print("An error occured: {0}".format(res[1]))
else:
print("Success")
You can read more about the way the RSA public key, etc are configured here.
I documented how to obfuscate the python by converting it to .so file, and converting it to a python wheel file:
https://github.com/UM-NLP/python-obfuscation
I am developing a piece of software in Python that will be distributed to my employer's customers. My employer wants to limit the usage of the software with a time-restricted license file.
If we distribute the .py files or even .pyc files it will be easy to (decompile and) remove the code that checks the license file.
Another aspect is that my employer does not want the code to be read by our customers, fearing that the code may be stolen or at least the "novel ideas".
Is there a good way to handle this problem?
"Is there a good way to handle this problem?" No. Nothing can be protected against reverse engineering. Even the firmware on DVD machines has been reverse engineered and the AACS Encryption key exposed. And that's in spite of the DMCA making that a criminal offense.
Since no technical method can stop your customers from reading your code, you have to apply ordinary commercial methods.
Licenses. Contracts. Terms and Conditions. This still works even when people can read the code. Note that some of your Python-based components may require that you pay fees before you sell software using those components. Also, some open-source licenses prohibit you from concealing the source or origins of that component.
Offer significant value. If your stuff is so good -- at a price that is hard to refuse -- there's no incentive to waste time and money reverse engineering anything. Reverse engineering is expensive. Make your product slightly less expensive.
Offer upgrades and enhancements that make any reverse engineering a bad idea. When the next release breaks their reverse engineering, there's no point. This can be carried to absurd extremes, but you should offer new features that make the next release more valuable than reverse engineering.
Offer customization at rates so attractive that they'd rather pay you to build and support the enhancements.
Use a license key which expires. This is cruel, and will give you a bad reputation, but it certainly makes your software stop working.
Offer it as a web service. SaaS involves no downloads to customers.
Python, being a byte-code-compiled interpreted language, is very difficult to lock down. Even if you use a exe-packager like py2exe, the layout of the executable is well-known, and the Python byte-codes are well understood.
Usually in cases like this, you have to make a tradeoff. How important is it really to protect the code? Are there real secrets in there (such as a key for symmetric encryption of bank transfers), or are you just being paranoid? Choose the language that lets you develop the best product quickest, and be realistic about how valuable your novel ideas are.
If you decide you really need to enforce the license check securely, write it as a small C extension so that the license check code can be extra-hard (but not impossible!) to reverse engineer, and leave the bulk of your code in Python.
Python is not the tool you need
You must use the right tool to do the right thing, and Python was not designed to be obfuscated. It's the contrary; everything is open or easy to reveal or modify in Python because that's the language's philosophy.
If you want something you can't see through, look for another tool. This is not a bad thing, it is important that several different tools exist for different usages.
Obfuscation is really hard
Even compiled programs can be reverse-engineered so don't think that you can fully protect any code. You can analyze obfuscated PHP, break the flash encryption key, etc. Newer versions of Windows are cracked every time.
Having a legal requirement is a good way to go
You cannot prevent somebody from misusing your code, but you can easily discover if someone does. Therefore, it's just a casual legal issue.
Code protection is overrated
Nowadays, business models tend to go for selling services instead of products. You cannot copy a service, pirate nor steal it. Maybe it's time to consider to go with the flow...
Compile python and distribute binaries!
Sensible idea:
Use Cython, Nuitka, Shed Skin or something similar to compile python to C code, then distribute your app as python binary libraries (pyd) instead.
That way, no Python (byte) code is left and you've done any reasonable amount of obscurification anyone (i.e. your employer) could expect from regular Code, I think. (.NET or Java less safe than this case, as that bytecode is not obfuscated and can relatively easily be decompiled into reasonable source.)
Cython is getting more and more compatible with CPython, so I think it should work. (I'm actually considering this for our product.. We're already building some thirdparty libs as pyd/dlls, so shipping our own python code as binaries is not a overly big step for us.)
See This Blog Post (not by me) for a tutorial on how to do it. (thx #hithwen)
Crazy idea:
You could probably get Cython to store the C-files separately for each module, then just concatenate them all and build them with heavy inlining. That way, your Python module is pretty monolithic and difficult to chip at with common tools.
Beyond crazy:
You might be able to build a single executable if you can link to (and optimize with) the python runtime and all libraries (dlls) statically. That way, it'd sure be difficult to intercept calls to/from python and whatever framework libraries you use. This cannot be done if you're using LGPL code though.
I understand that you want your customers to use the power of python but do not want expose the source code.
Here are my suggestions:
(a) Write the critical pieces of the code as C or C++ libraries and then use SIP or swig to expose the C/C++ APIs to Python namespace.
(b) Use cython instead of Python
(c) In both (a) and (b), it should be possible to distribute the libraries as licensed binary with a Python interface.
Have you had a look at pyminifier? It does Minify, obfuscate, and compress Python code. The example code looks pretty nasty for casual reverse engineering.
$ pyminifier --nonlatin --replacement-length=50 /tmp/tumult.py
#!/usr/bin/env python3
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲמּ=ImportError
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱=print
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ巡=False
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ澨=object
try:
import demiurgic
except ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲמּ:
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱("Warning: You're not demiurgic. Actually, I think that's normal.")
try:
import mystificate
except ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲמּ:
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱("Warning: Dark voodoo may be unreliable.")
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲﺬ=ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ巡
class ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𐦚(ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ澨):
def __init__(self,*args,**kwargs):
pass
def ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ클(self,dactyl):
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ퐐=demiurgic.palpitation(dactyl)
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𠛲=mystificate.dark_voodoo(ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ퐐)
return ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𠛲
def ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𐠯(self,whatever):
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱(whatever)
if __name__=="__main__":
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ燱("Forming...")
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲﺃ=ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𐦚("epicaricacy","perseverate")
ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲﺃ.ﺭ异𞸐𐤔ﭞﰣﺁں𝕌𨿩𞸇뻛𐬑𥰫嬭ﱌ𢽁𐡆𧪮Ꝫﴹ뙫𢤴퉊ﳦﲣפּܟﺶ𐐤ﶨࠔ𐰷𢡶𧐎𐭈𞸏𢢘𦘼ﶻ𩏃𦽨𞺎𠛘𐠲䉊ﰸﭳᣲ𐠯("Codswallop")
# Created by pyminifier (https://github.com/liftoff/pyminifier)
Is your employer aware that he can "steal" back any ideas that other people get from your code? I mean, if they can read your work, so can you theirs. Maybe looking at how you can benefit from the situation would yield a better return of your investment than fearing how much you could lose.
[EDIT] Answer to Nick's comment:
Nothing gained and nothing lost. The customer has what he wants (and paid for it since he did the change himself). Since he doesn't release the change, it's as if it didn't happen for everyone else.
Now if the customer sells the software, they have to change the copyright notice (which is illegal, so you can sue and will win -> simple case).
If they don't change the copyright notice, the 2nd level customers will notice that the software comes from you original and wonder what is going on. Chances are that they will contact you and so you will learn about the reselling of your work.
Again we have two cases: The original customer sold only a few copies. That means they didn't make much money anyway, so why bother. Or they sold in volume. That means better chances for you to learn about what they do and do something about it.
But in the end, most companies try to comply to the law (once their reputation is ruined, it's much harder to do business). So they will not steal your work but work with you to improve it. So if you include the source (with a license that protects you from simple reselling), chances are that they will simply push back changes they made since that will make sure the change is in the next version and they don't have to maintain it. That's win-win: You get changes and they can make the change themselves if they really, desperately need it even if you're unwilling to include it in the official release.
Use Cython. It will compile your modules to high-performant C files, which can then be compiled to native binary libraries. This is basically un-reversable, compared to .pyc bytecode!
I've written a detailed article on how to set up Cython for a Python project, check it out:
Protecting Python Sources With Cython
Do not rely on obfuscation. As You have correctly concluded, it offers very limited protection.
UPDATE: Here is a link to paper which reverse engineered obfuscated python code in Dropbox. The approach - opcode remapping is a good barrier, but clearly it can be defeated.
Instead, as many posters have mentioned make it:
Not worth reverse engineering time (Your software is so good, it makes sense to pay)
Make them sign a contract and do a license audit if feasible.
Alternatively, as the kick-ass Python IDE WingIDE does: Give away the code. That's right, give the code away and have people come back for upgrades and support.
Shipping .pyc files has its problems - they are not compatible with any other python version than the python version they were created with, which means you must know which python version is running on the systems the product will run on. That's a very limiting factor.
In some circumstances, it may be possible to move (all, or at least a key part) of the software into a web service that your organization hosts.
That way, the license checks can be performed in the safety of your own server room.
Though there's no perfect solution, the following can be done:
Move some critical piece of startup code into a native library.
Enforce the license check in the native library.
If the call to the native code were to be removed, the program wouldn't start anyway. If it's not removed then the license will be enforced.
Though this is not a cross-platform or a pure-Python solution, it will work.
I was surprised in not seeing pyconcrete in any answer. Maybe because it's newer than the question?
It could be exactly what you need(ed).
Instead of obfuscating the code, it encrypts it and decrypts at load time.
From pypi page:
Protect python script work flow
your_script.py import pyconcrete
pyconcrete will hook import module
when your script do import MODULE,
pyconcrete import hook will try to find MODULE.pye first and then
decrypt MODULE.pye via _pyconcrete.pyd and execute decrypted data (as
.pyc content)
encrypt & decrypt secret key record in _pyconcrete.pyd
(like DLL or SO) the secret key would be hide in binary code, can’t
see it directly in HEX view
The reliable only way to protect code is to run it on a server you control and provide your clients with a client which interfaces with that server.
I think there is one more method to protect your Python code; part of the Obfuscation method. I believe there was a game like Mount and Blade or something that changed and recompiled their own python interpreter (the original interpreter which i believe is open source) and just changed the OP codes in the OP code table to be different then the standard python OP codes.
So the python source is unmodified but the file extensions of the *.pyc files are different and the op codes don't match to the public python.exe interpreter. If you checked the games data files all the data was in Python source format.
All sorts of nasty tricks can be done to mess with immature hackers this way. Stopping a bunch of inexperienced hackers is easy. It's the professional hackers that you will not likely beat. But most companies don't keep pro hackers on staff long I imagine (likely because things get hacked). But immature hackers are all over the place (read as curious IT staff).
You could for example, in a modified interpreter, allow it to check for certain comments or doc strings in your source. You could have special OP codes for such lines of code. For example:
OP 234 is for source line "# Copyright I wrote this"
or compile that line into op codes that are equivalent to "if False:" if "# Copyright" is missing. Basically disabling a whole block of code for what appears to be some obscure reason.
One use case where recompiling a modified interpreter may be feasible is where you didn't write the app, the app is big, but you are paid to protect it, such as when you're a dedicated server admin for a financial app.
I find it a little contradictory to leave the source or opcodes open for eyeballs, but use SSL for network traffic. SSL is not 100% safe either. But it's used to stop MOST eyes from reading it. A wee bit precaution is sensible.
Also, if enough people deem that Python source and opcodes are too visible, it's likely someone will eventually develop at least a simple protection tool for it. So the more people asking "how to protect Python app" only promotes that development.
Depending in who the client is, a simple protection mechanism, combined with a sensible license agreement will be far more effective than any complex licensing/encryption/obfuscation system.
The best solution would be selling the code as a service, say by hosting the service, or offering support - although that isn't always practical.
Shipping the code as .pyc files will prevent your protection being foiled by a few #s, but it's hardly effective anti-piracy protection (as if there is such a technology), and at the end of the day, it shouldn't achieve anything that a decent license agreement with the company will.
Concentrate on making your code as nice to use as possible - having happy customers will make your company far more money than preventing some theoretical piracy..
Another attempt to make your code harder to steal is to use jython and then use java obfuscator.
This should work pretty well as jythonc translate python code to java and then java is compiled to bytecode. So ounce you obfuscate the classes it will be really hard to understand what is going on after decompilation, not to mention recovering the actual code.
The only problem with jython is that you can't use python modules written in c.
You should take a look at how the guys at getdropbox.com do it for their client software, including Linux. It's quite tricky to crack and requires some quite creative disassembly to get past the protection mechanisms.
The best you can do with Python is to obscure things.
Strip out all docstrings
Distribute only the .pyc compiled files.
freeze it
Obscure your constants inside a class/module so that help(config) doesn't show everything
You may be able to add some additional obscurity by encrypting part of it and decrypting it on the fly and passing it to eval(). But no matter what you do someone can break it.
None of this will stop a determined attacker from disassembling the bytecode or digging through your api with help, dir, etc.
What about signing your code with standard encryption schemes by hashing and signing important files and checking it with public key methods?
In this way you can issue license file with a public key for each customer.
Additional you can use an python obfuscator like this one (just googled it).
Idea of having time restricted license and check for it in locally installed program will not work. Even with perfect obfuscation, license check can be removed. However if you check license on remote system and run significant part of the program on your closed remote system, you will be able to protect your IP.
Preventing competitors from using the source code as their own or write their inspired version of the same code, one way to protect is to add signatures to your program logic (some secrets to be able to prove that code was stolen from you) and obfuscate the python source code so, it's hard to read and utilize.
Good obfuscation adds basically the same protection to your code, that compiling it to executable (and stripping binary) does. Figuring out how obfuscated complex code works might be even harder than actually writing your own implementation.
This will not help preventing hacking of your program. Even with obfuscation code license stuff will be cracked and program may be modified to have slightly different behaviour (in the same way that compiling code to binary does not help protection of native programs).
In addition to symbol obfuscation might be good idea to unrefactor the code, which makes everything even more confusing if e.g. call graphs points to many different places even if actually those different places does eventually the same thing.
Logical signature inside obfuscated code (e.g. you may create table of values which are used by program logic, but also used as signature), which can be used to determine that code is originated from you. If someone decides to use your obfuscated code module as part of their own product (even after reobfuscating it to make it seem different) you can show, that code is stolen with your secret signature.
I have looked at software protection in general for my own projects and the general philosophy is that complete protection is impossible. The only thing that you can hope to achieve is to add protection to a level that would cost your customer more to bypass than it would to purchase another license.
With that said I was just checking google for python obsfucation and not turning up a lot of anything. In a .Net solution, obsfucation would be a first approach to your problem on a windows platform, but I am not sure if anyone has solutions on Linux that work with Mono.
The next thing would be to write your code in a compiled language, or if you really want to go all the way, then in assembler. A stripped out executable would be a lot harder to decompile than an interpreted language.
It all comes down to tradeoffs. On one end you have ease of software development in python, in which it is also very hard to hide secrets. On the other end you have software written in assembler which is much harder to write, but is much easier to hide secrets.
Your boss has to choose a point somewhere along that continuum that supports his requirements. And then he has to give you the tools and time so you can build what he wants. However my bet is that he will object to real development costs versus potential monetary losses.
Neiher Cython nor Nuitka were not the answer, because when running the solution that is compiled with Nuitka or Cython into .pyd or .exe files a cache directory is generated and all .pyc files are copied into the cache directory, so an attacker simply can decompile .pyc files and see your code or change it.
It is possible to have the py2exe byte-code in a crypted resource for a C launcher that loads and executes it in memory. Some ideas here and here.
Some have also thought of a self modifying program to make reverse engineering expensive.
You can also find tutorials for preventing debuggers, make the disassembler fail, set false debugger breakpoints and protect your code with checksums. Search for ["crypted code" execute "in memory"] for more links.
But as others already said, if your code is worth it, reverse engineers will succeed in the end.
Use the same way to protect binary file of c/c++, that is, obfuscate each function body in executable or library binary file, insert an instruction "jump" at the begin of each function entry, jump to special function to restore obfuscated code. Byte-code is binary code of Python script, so
First compile python script to code object
Then iterate each code object, obfuscate co_code of each code object as the following
0 JUMP_ABSOLUTE n = 3 + len(bytecode)
3
...
... Here it's obfuscated bytecode
...
n LOAD_GLOBAL ? (__pyarmor__)
n+3 CALL_FUNCTION 0
n+6 POP_TOP
n+7 JUMP_ABSOLUTE 0
Save obfuscated code object as .pyc or .pyo file
Those obfuscated file (.pyc or .pyo) can be used by normal python interpreter, when those code object is called first time
First op is JUMP_ABSOLUTE, it will jump to offset n
At offset n, the instruction is to call a PyCFunction. This function will restore those obfuscated bytecode between offset 3 and n, and put the original byte-code at offset 0. The obfuscated code can be got by the following code
char *obfucated_bytecode;
Py_ssize_t len;
PyFrameObject* frame = PyEval_GetFrame();
PyCodeObject *f_code = frame->f_code;
PyObject *co_code = f_code->co_code;
PyBytes_AsStringAndSize(co_code, &obfucated_bytecode, &len)
After this function returns, the last instruction is to jump to
offset 0. The really byte-code now is executed.
There is a tool Pyarmor to obfuscate python scripts by this way.
There is a comprehensive answer on concealing the python source code, which can be find here.
Possible techniques discussed are:
- use compiled bytecode (python -m compileall)
- executable creators (or installers like PyInstaller)
- software as an service (the best solution to conceal your code in my opinion)
- python source code obfuscators
using cxfreeze ( py2exe for linux ) will do the job.
http://cx-freeze.sourceforge.net/
it is available in ubuntu repositories
If we focus on software licensing, I would recommend to take a look at another Stack Overflow answer I wrote here to get some inspiration of how a license key verification system can be constructed.
There is an open-source library on GitHub that can help you with the license verification bit.
You can install it by pip install licensing and then add the following code:
pubKey = "<RSAKeyValue><Modulus>sGbvxwdlDbqFXOMlVUnAF5ew0t0WpPW7rFpI5jHQOFkht/326dvh7t74RYeMpjy357NljouhpTLA3a6idnn4j6c3jmPWBkjZndGsPL4Bqm+fwE48nKpGPjkj4q/yzT4tHXBTyvaBjA8bVoCTnu+LiC4XEaLZRThGzIn5KQXKCigg6tQRy0GXE13XYFVz/x1mjFbT9/7dS8p85n8BuwlY5JvuBIQkKhuCNFfrUxBWyu87CFnXWjIupCD2VO/GbxaCvzrRjLZjAngLCMtZbYBALksqGPgTUN7ZM24XbPWyLtKPaXF2i4XRR9u6eTj5BfnLbKAU5PIVfjIS+vNYYogteQ==</Modulus><Exponent>AQAB</Exponent></RSAKeyValue>"
res = Key.activate(token="WyIyNTU1IiwiRjdZZTB4RmtuTVcrQlNqcSszbmFMMHB3aWFJTlBsWW1Mbm9raVFyRyJd",\
rsa_pub_key=pubKey,\
product_id=3349, key="ICVLD-VVSZR-ZTICT-YKGXL", machine_code=Helpers.GetMachineCode())
if res[0] == None not Helpers.IsOnRightMachine(res[0]):
print("An error occured: {0}".format(res[1]))
else:
print("Success")
You can read more about the way the RSA public key, etc are configured here.
I documented how to obfuscate the python by converting it to .so file, and converting it to a python wheel file:
https://github.com/UM-NLP/python-obfuscation
Software these days can be separated into two categories: runs on client infrastructure (like in the case of enterprise software, like Splunk or Tibco), OR runs on the infrastructure of a software provider (like in the case of Facebook, where you need to use their API to access the backend).
In the first category, the client pays for a license and receives the software to run on their own machines on their premises of choice. The client IS in possession of the actual code and software.
In the second category, the software resides somewhere external and can be accessed only by an API. The client is NOT in possession of the software and can only use it to the extent allowed by the API.
My question is: in the first category above, how is the actual code kept hidden from the client?
Let's say I've built a really awesome analysis engine in Python for analyzing output logs. A corporate client is interested in using it for their internal applications. However, they insist that my engine must run on their own machines for security reasons. If I succumb and give them my Python code, then I will risk my intellectual property.
In that case, do I need to rewrite all my code into a compiled language like C++ to obfuscate it during compile time? Or is there a way to keep it in Python but secure the source code it in another way?
Update:
Given the answers below, in that case, would the more efficient pathway to developing a client-hosted application (i.e.: first category above) be to write a proof of concept in a more convenient language like Python first, and then take those ideas and rewrite it into C++?
The short answer is that you pretty much can't. You can do workarounds, but in the end almost anyone can reverse engineer your code no matter how you obfuscate it.
Your best bet might be to use something like PyInstaller and see if you can only include .pyc files. That doesn't protect you all the way, but it at least makes it a pain to reverse. You might even be able to find an obfuscater to run it first, but I don't know much about that part.
Similar to #gabeappleton's suggestion above, compile the Python code into an EXE. I use cx_freeze quite regularly and have good success. It's pretty well documented and reasonable support on these forums.
Here's the deal: I have a Python application for business written in Django. It's not in Cloud, customers should install them at their own servers.
However, Brazil IT laws for tax payment calculation softwares forces me to homologate every piece of code (in this case, every file.py). They generate a MD5 hash and if a customer of mine is running a modified version, I have to pay a fine and should even be sued by Government.
I really don't care if my source code is available to everyone. Really. I just want to guarantee no changes at the source code.
Does anyone have an idea to protect the code? Customers should have root access to servers, so a simple "statement of compliance" should not guarantee anything...
This is not really suited for StackOveflow; but the suggestion I would make is to take the parts of your code that are subject to audit; write them as a Python C module which is then imported. You can ship the compiled module along with your normal, unmodified django application.
This would only work if certain parts of your code are subject to this audit/restriction and not the entire application.
Your only other recourse is to host it yourself and provide your own audit/controls on the source.
I have an application written in python. I created a plugin system for the application that uses egg files. Egg files contain compiled python files and can be easily decompiled and used to hack the application. Is there a way to secure this system? I'd like to use digital signature for this - sign these egg files and check the signature before loading such egg file. Is there a way to do this programmatically from python? Maybe using winapi?
Is there a way to secure this system?
The answer is "that depends".
The two questions you should ask is "what are people supposed to be able to do" and "what are people able to do (for a given implementation)". If there exists an implementation where the latter is a subset of the former, the system can be secured.
One of my friend is working on a programming competition judge: a program which runs a user-submitted program on some test data and compares its output to a reference output. That's damn hard to secure: you want to run other peoples' code, but you don't want to let them run arbitrary code. Is your scenario somewhat similar to this? Then the answer is "it's difficult".
Do you want users to download untrustworthy code from the web and run it with some assurance that it won't hose their machine? Then look at various web languages. One solution is not offering access to system calls (JavaScript) or offering limited access to certain potentially dangerous calls (Java's SecurityManager). None of them can be done in python as far as I'm aware, but you can always hack the interpreter and disallow the loading of external modules not on some whitelist. This is probably error-prone.
Do you want users to write plugins, and not be able to tinker with what the main body of code in your application does? Consider that users can decompile .pyc files and modify them. Assume that those running your code can always modify it, and consider the gold-farming bots for WoW.
One Linux-only solution, similar to the sandboxed web-ish model, is to use AppArmor, which limits which files your app can access and which system calls it can make. This might be a feasible solution, but I don't know much about it so I can't give you advice other than "investigate".
If all you worry about is evil people modifying code while it's in transit in the intertubes, standard cryptographic solutions exist (SSL). If you want to only load signed plugins (because you want to control what the users do?), signing code sounds like the right solution (but beware of crafty users or evil people who edit the .pyc files and disables the is-it-signed check).
Maybe some crypto library like this http://chandlerproject.org/Projects/MeTooCrypto helps to build an ad-hoc solution. Example usage: http://tdilshod.livejournal.com/38040.html