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Is there a way to correct failed static allocation or program just fails with Segmentation or Bus Fault when run?

Post was inspired by how C99 allows crazy stuff like char text[n];

EDIT: Thanks. I now understand the part in bold is not a static alloc. So just to check, if something like char text[1234]; fails would the possible recovery strategies be the same?

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that's not static allocation. That's on the stack. If you think it could fail then use the heap. –  David Heffernan May 28 '11 at 21:01
That isn't static allocation. –  nbt May 28 '11 at 21:02
Enclose code in backticks, not double asterisks. –  Chris Lutz May 28 '11 at 21:33

4 Answers 4

char text[n] allocates a variable-size array on the stack. It simply involves incrementing the stack pointer by n.

There is not much a userspace process can do if a stack overflow occurs - it's up to the operating system to either send a signal to the process and terminate it or resize the stack.

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libsigsegv has a stack overflow handler for many platforns. –  Chris Lutz May 28 '11 at 21:14
@Chris: way to go recommending more of the 1980s-style "portable by virtue of having a system-specific hack for every known system" sort of code... ;-) –  R.. May 28 '11 at 22:15
@R.. - I didn't say it was good, just that it might be relevant. I wouldn't be using VLA's in the first place for this very reason. –  Chris Lutz May 28 '11 at 23:42

You can probably catch the signal(s) but there's not much else you can do. Of course, checking n before using it to make sure it has a sensible value would solve this instantly.

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Signals, good idea... –  ImJustALittleCatfish May 28 '11 at 20:57
@ImJustALittleCatfish Danger, Will Robinson! Please don't trust signals as a good idea. Signals are always a bad idea (entire books can be written about how signals and async-signal-unsafety complicate programming). –  cnicutar May 28 '11 at 20:59
Hmm there's a difference between "complicated" and "bad". But I can imagine why using signals THIS way would be cumbersome. –  ImJustALittleCatfish May 28 '11 at 21:06
Because the users of our servers will insist on typing kill XXXX in their xterms? And because it is an industry standard. –  nbt May 28 '11 at 21:16
What can you do in a signal handler if you catch a SIGSEGV generated by the system because of the memory allocation? You can exit - that's safe. You can't return from the signal handler in the ordinary way; you have not resolved the cause of the signal. So, you're left with the possibility of a siglongjmp() if you previously did a sigsetjmp() to save a sigjmpbuf for later use. Anything else is at best very platform specific, and probably not very effective. –  Jonathan Leffler May 28 '11 at 22:05

Never check for an error condition you don't know how to handle.

Seriously, what are you planning on doing? There is only a small subset of function you are allowed to call from a signal handler (see man 7 signal), and printf and longjmp (longjmp is the only way I can think of to recover from such a problem) are not one of them. If you are going to the trouble to re-exec the process, you might as well have a nanny to do that job and avoid the mess.

Note according to man alloca you don't actually get told that the "allocation" fails, you just get a SIGSEGV when you try to access the bad memory, and of course that might not happen in the text[] array at all, or perhaps not even in the function that allocates text[] at all.

While the above two paragraphs are based on Linux, the overarching theory is true for all platforms.

Use malloc and have clean handling. Be sane.


Actually there is one way to try and do this, and that is by computing the start of the stack (recording stack in main) and stack limit (hoping the OS doesn't run out of pages). Then before you do the large stack allocation you can compute how close you are to the end. Give yourself a generous wiggle-room and fail before you allocate.

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longjmp from a signal handler is valid as long as you can ensure that no async-signal-unsafe function was running when the signal handler was invoked. –  R.. May 28 '11 at 22:14
@R.: Exactly. However, you rarely can know that. Any SIGSEGV in his program for any reason would cause the issue. But let us assume perfect programming and that no function BEFORE the large allocation would cause a problem. You would have to ensure that nothing in the function that does the large allocation and any function it calls could call an unsafe function. Though actually the perfect programmer text gave me an idea that this should be handled as a pre-crime. Updated answer. –  Seth Robertson May 28 '11 at 22:39

This is a stack allocation rather than static. The failure mode is stack overflow. The most rational policy for stack overflow is to regard it as terminal.

Design your code so that it won't overflow the stack rather than trying to make it resilient to stack overflow.

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