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What are techniques for determining running OS in assembly language at runtime?

If there are direct ways to determine this, that'd be awesome.

I was also thinking of how there are tricks in Javascript to determine what browser you're running in... Are there similar techniques for determining OS or even CPU arch in a low level language like Intel assembly?

Thanks, Chenz

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Let me get this straight: you're writing in assembly and do not know what OS you're running on? –  Stu Oct 19 '11 at 21:16
Why would you need to do this? –  bdonlan Oct 19 '11 at 21:16
@bdonlan: virus writing is the most obvious –  James Oct 19 '11 at 21:38
or approaching a universal library in a different way –  Crazy Chenz Oct 19 '11 at 21:42
@CrazyChenz, not going to work. Most major PC OSes require a 'magic number' to be at the start of library files; these magic numbers differ between different OSes, so if you try to use one combined library, all but one OS will reject it outright. –  bdonlan Oct 19 '11 at 22:10

3 Answers 3

CPU architecture will be next-to-impossible to determine. Machine code differs greatly between CPU architectures, and so it's very difficult to write detection code that won't simply crash on all but one architecture. Indeed, you can consider assembly (and machine code) to be an entirely different language on different CPU architectures - anything that can probe that would have to basically be a machine code polyglot.

That said, if you know you're on some flavor of x86, you might be able to use the CPUID instruction to get information on the processor capabilities. You might also be able to read control registers to figure out if you're in 64-bit mode.

As for detecting OS, this is also quite difficult. Different OSes have different system call entry points, and trying to use the wrong OS's entry point will just give you a crash (indeed, Windows even varies the address of the syscall entry points from one boot to the next). You might be able to probe for windows's TIB - but any attempt to access FS:[0x0] may well crash on other OSes.

Generally speaking, when you write assembly you're expected to know what kind of system you're on. If you need portability, write in C or some other high-level language.

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Forget that: let's start with the executable header! –  Stu Oct 19 '11 at 21:20
@Stu, I'm assuming raw machine code (invoked by some kind of stub loader). The executable header is indeed another problem - if format A wants the file to start with magic number X and format B wants to file to start with magic number Y, you're totally stuck –  bdonlan Oct 19 '11 at 21:23
In terms of arch, CPUID is cool. And I think determining endianess might be doable. Yes, raw machine code. And as for the executable header, maybe reading for magic numbers in a running bit of code would be a possibility... –  Crazy Chenz Oct 19 '11 at 21:27
@CrazyChenz, the endianness is determined by the CPU arch. If you can actually get code to run, you already pretty much know endianness. And the executable header stuff is just saying it's really hard (possibly impossible!) to make an executable file that runs on multiple OSes –  bdonlan Oct 19 '11 at 21:32
You mention using C for portability, but even in C you cannot determine the OS you are on at runtime. Also, I'm not aiming to create a universal executable, I'm just trying to run machine code to determine running OS. –  Crazy Chenz Oct 19 '11 at 21:33

No, there is no machine code that will let you do this. You could give your virus several different shellcodes for different architectures, pick one at random each time it propagates. If it runs successfully it infects the machine, but if it's garbage your process probably gets killed for issuing an illegal instruction and the user lives another day with a healthy machine.

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You are awesome. I don't know what I'd do without this wonderful insight. –  Crazy Chenz Oct 19 '11 at 21:50
Well I look forward to the accepted answer points!!! –  James Oct 19 '11 at 22:00
Provide a single C function that determines the type of running OS and I will. –  Crazy Chenz Oct 19 '11 at 22:04
I thought it was machine code you wanted? –  James Oct 19 '11 at 22:10
I've accepted that C would do the same. –  Crazy Chenz Oct 19 '11 at 22:17

Generally you can't reliably determine the OS in a C(++) or assembly language program.

You may be able to distinguish between different "compatible" versions of the same OS using some of its functions that are available in those different OS versions like GetSystemInfo()/GetNativeSystemInfo() in Windows, but those aren't available in DOS, Linux and other OSes.

This is harder to find out in an assembly language subroutine because on different OSes there're different ways of calling OS functions and if you do it incorrectly for the OS, your program crashes. To prevent it from crashing you'd need to install some kind of exception or signal handler, but that too is OS-specific.

Inferring the OS from the contents of general-purpose CPU registers is also unreliable as their values aren't guaranteed to somehow reflect the OS and even if in some cases they happen to, that can change in the future, including near future when you update the OS (e.g. install security patches).

You may be able to execute a shell command such as ver for Windows and uname -a for Linux using C's system() function, but there's no portable way to extract the output from this command in the console window and copy it back into the program for analysis.

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