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I'm looking at options for GPGPU work. Say I write OpenCL kernel code or GLSL shader code and embed that in my executable. There's nothing to stop somebody grep-ing the binary and stealing my hard work. I could obscure or encrypt the strings and decrypt them just-in-time, but somebody can always go in with a debugger and intercept that just before the source gets passed to the driver. Do either of these standards cater for the needs of commercial developers (more interested in OpenCL here), and support some kind of driver/vendor-independent byte-code? (I can't find any mention of this, so I'm not hopeful, but thought I'd ask anyway). Thanks.

EDIT: Well, I appreciate everybody taking the time to read and reply, but I was hoping for more of an informed yes/no response about the technology, rather than a discussion about copyright and lawyers. I think some of these comments are somewhat missing the point. I realize that a determined person can unpick anything given the time, but that doesn't mean it has to be made easy. Following these comments it's a wonder that anybody bothers with any kind of software licensing at all. Every commercial software vendor might as well just post their entire source listing online, and rely on lawyers instead. As for whether someone's work is worthy of protection or not, speak for yourself. The fact that somebody else can write better code is irrelevant, software represents a very large investment of time and energy.

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Anyone with enough enthusiasm and experience (or time on google) can reverse engineer anything you write. If you really want it protected, get a legal team, make them sign license agreements, and if something happens have your legal team throw their weight around. So you can obfuscate the devil out of your code, sure, but the people who care enough to RE your work will probably be smart enough to work through that and recognize patterns to get your algorithms. Sorry! –  corsiKa Jun 23 '10 at 21:09
To be completely blunt, there's nothing about your code that makes it particularly worthy of such draconian protection. Moreover, anyone with sufficient skill will come up with the same or similar algorithms (perhaps even better ones), whether or not they see your program. Taking that line of thought to its logical conclusion, no amount of obfuscation or digital protection will protect your work from a sufficiently motivated reverse engineer. Just rely on Copyright to protect your work, like everyone else. –  greyfade Jun 23 '10 at 22:44

6 Answers 6

up vote 2 down vote accepted

standards supporting some kind of driver/vendor-independent byte-code?

This is possible with Microsoft's DirectCompute computing API. HLSL kernel code can be compiled into a blob that will be much more hard to reverse engineered. The blob is a vendor independent bytecode, yet still possible to disassemble with tools of DirectX SDK, but you will get some kind of low level assembly (IHV's drivers JIT translate it into an optimized form that match specific GPU ISA).

As other people said, there's no silver bullet. I thing it's best to rely on Copyrights.

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Note that CUDA is compiled into a byte-code too, called PTX. –  Stringer Jun 24 '10 at 14:24
This is the kind of information I was looking for, thanks! Unfortunately, DirectCompute and CUDA would tie me to Windows and NVidia, and I have to support Mac/Linux and ATI cards as well. Cheers though. –  mr grumpy Jun 24 '10 at 14:29
Sure, I understand. I think it's still possible to check version of OpenCL dll in your application so that it blocks execution if it happens that it has been replaced by another dll (that could intercept calls). I know some softwares that rely on this mechanism for preventing interception of OpenGL calls. –  Stringer Jun 24 '10 at 14:39
Of course reverse engineering a standard byte code wouldn't be any harder than extracting the compressed/encrypted cl code from your app. –  Martin Beckett Jun 24 '10 at 15:20

So how different is that from being able to debug any of the other algorithms in your source?

No there is no architecture independent byte code because the JIT is optimized for each card.

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whoops, meant to put that giant comment on the main ticket, not this post. In either case, +1. –  corsiKa Jun 23 '10 at 21:08

OpenCL does allow you to precompile code (clCreateProgramWithBinary, clGetProgramInfo CL_PROGRAM_BINARIES), but it will be specific to a particular architecture. There's no OpenCL standard machine. So if you're precompiling with the nvidia driver you get PTX code, and there's no guarantee it works across driver versions even for the same compute device.

I would not recommend going out of your way to make your program less portable in such a manner.

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Okay, thanks. Shame, a brand new standard and they didn't take the time to define something that was driver/arch independent. –  mr grumpy Jun 28 '10 at 11:28
It makes sense if you see this precompiled code more as a means to avoid recompile times (arch dependent binaries allow the compiler to optimize/compile closer to the target then independent ones, thus reducing their load time. considering how vastly the target architectures of opencl differ, a arch independent compiler couldn't really do any optimizations besides the most basic ones). For IP protection I would rather suggest going with compressed and/or encrypted source code (most opencl kernels/programs are small enough that having them in only compiled form can only do that much anyways) –  Grizzly Aug 26 '10 at 3:20

The quick answers for each technologies are:

  • OpenCL: Not possible (now)

There is no standard bytecode format accepted by all vendors. In the standard case, OpenCL will compile your program from a clear stream of chars. However, it is still possible to pre-compile for a specific "CL Platform and Graphic card" pair, but your program is then tied to that configuration. Maintaining all possible configurations would be a nightmare.

  • CUDA: OK (but tied to NVIDIA cards)

CUDA have a standard binary format accepted by... all NVIDIA cards.

  • DirectCompute/HLSL: OK (but tied to Microsoft platforms)

As mentioned in another answer, HLSL have a binary format too. However, obviously DirectCompute is tied to the Microsoft ecosystem (but it could be ok for many people)

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I would just XOR it with a one time pad, then store the one time pad somewhere else in your code. Yeah it could be easily reverse engineered, but it is Google (insert your favorite text searching engine) proof.

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Another (additional) option to consider is using a C obfuscator to make your source code hard to read, understand and modify. Maybe it is a good idea to use that in combination with a simple encryption scheme (OTP XOR).

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