Is there any way to get the maximum size of any string correlated with errno at compile time (at preprocessor time would be even better)? E.g. an upper bound on strlen(strerror(errno))?

My Thoughts

The best I can think of is running a program to do a brute-force search over the range of an int, over each locale, to get the string associated with each {errno, locale} pair, get its size, and generate a header on that system, then hooking that into e.g. a makefile or autoconf or whatever. I can't think of a better way to do it, but it seems ridiculous that it would be so: the standard library for a system has that information built-in, if only implicitly. Is there really no good way to get that information?

Okay, I'll admit the C and/or C++ standards might permit for error strings generated at runtime, with e.g. specific-to-circumstance messages (e.g. strerror(EINVAL) giving a string derived from other runtime metadata set when errno was last set, or something) - not sure if that is allowed, and I'd actually welcome such an implementation, but I've never heard of one existing which did so, or had more than one string for a given {errno, locale} pair.


For context, what I specifically wanted (but I think this question is valuable in a more general way, as was discussed amongst the comments) that led to this question was to be able to use the error string associated with errno in the syscall/function writev. In my specific usecase, I was using strings out of argv and errno-linked strings. This set my "worst-case" length to ARG_MAX + some max errno string length + size of a few other small strings).

Every *nix document I've consulted seems to indicate writev will (or "may", for what little good that difference makes in this case) error out with errno set to EINVAL if the sum of the iov_len values overflows SSIZE_MAX. Intuitively, I know every errno string I've seen is very short, and in practice this is a non-issue. But I don't want my code mysteriously failing to print an error at all on some system if it's possible for this assumption to be false. So I wrote code to handle such a case - but at the same time, I don't want that additional code being compiled in for the platforms which generally clearly don't need it.

The combined input of the answers and comments so far is making me lean towards thinking that in my particular use-case, the "right" solution is to just truncate obscenely long messages - but this is why I asked the question how I did initially: such information would also help select a size for a buffer to strerror_r/strerror_s (*nix/Windows respectively), and even a negative answer (e.g. "you can't really do it") is in my view useful for others' education.


This question contains answers for the strings given by strerror_r on VxWorks, but I don't feel comfortable generalizing that to all systems.

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    C and C++ are different languages! – too honest for this site Mar 30 '16 at 20:20
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    @Olaf While I generally appreciate your efforts in making this distinction clear, I believe that in this case, speaking of C and C++ together is legit as the errno concept is used by both of them alike. Choosing either tag over the other one would be arbitrary. – 5gon12eder Mar 30 '16 at 20:25
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    Can you choose your own max, and clip the error messages at runtime? – xrgb Mar 30 '16 at 20:30
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    I might be missing something, but an error message larger than ssize_t seems completely crazy on any platform where ssize_t is larger than int8_t. – zneak Mar 30 '16 at 20:35
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    The C (and I suspect the C++) standard will not help concerning SSIZE_MAX as it does not define SSIZE_MAX. If SSIZE_MAX is important to your code, suggest tagging the environment of interest that defines it. – chux - Reinstate Monica Mar 30 '16 at 21:01

The C library that you build against may not be the same (ABI compatible C library maybe used) or even exact version of the C library (On GNU/Linux consider glibc 2.2.5 vs. glibc 2.23) that you run against, therefore computing the maximum size of the locale-dependent string returned from strerror can only be done at runtime during process execution. On top of this the locale translations may be updated on the target system at any time, and this again invalidates any pre-computation of this upper bound.

Unfortunately there is no guarantee that the values returned by strerror are constant for the lifetime of the process, and so they may also change at a later time, thus invalidating any early computation of the bound.

I suggest using strerror_r to save the error string and avoid any issues with non-multi-thread aware libraries that might call sterror and possibly change the result of the string as you are copying it. Then instead of translating the string on-the-fly you would use the saved result, and potentially truncate to SSIZE_MAX (never going to happen in reality).

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  • +1, though note that having an upper bound would be great for choosing a size for the buffer passed to strerror_r as well, reducing the need for runtime logic. Also, I had considered and was aware of the maxima-could-change-out-from-under-your-program situation - but I was hoping that there was some standard limitation, or at least platform-specific macros we could check on at least some systems, that could've possibly made that a non-issue for at least some systems, hence the question. – mtraceur Mar 30 '16 at 21:40
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    In particular, it's noteworthy that POSIX (per your link) allows strerror_r to fail with an ERANGE if the buffer given to it isn't big enough: my reading suggests that an implementation which checks for the length first, and errors out without writing anything, would be standard-compliant. I want to believe no implementation does this, or I'm misreading, but if so, then it seems without knowing an upper bound it seems we must either err on the side of a moderately generous buffer to hold it, or a loop to reallocate until it returns success? – mtraceur Mar 31 '16 at 6:22
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    There is no guarantee that the strerrorbuf was modified by a call to strerror_r which returned ERANGE. So you must be prepared to handle the various combinations of returns as specified in the normative text of the standard. – Carlos O'Donell Apr 1 '16 at 15:46
  • After a few days of contemplation, I am (tentatively) accepting this answer, because it is both 1) general and 2) provides the most thorough explanations as to why such information could not (and perhaps should not) be available at compile time for many implementations. – mtraceur Apr 1 '16 at 17:35

I'm not aware that the C or C++ standards make any assertions regarding the length of these messages. The platforms you're interested in might provide some stronger implementation-defined guarantees, though.

For example, for POSIX systems, I found the following in limits.h.

The following constants shall be defined on all implementations in <limits.h>:

  • […]
    Maximum number of bytes in a message string.
    Minimum Acceptable Value: {_POSIX2_LINE_MAX}

I believe that error messages produced by strerror would fall into this category.

That said, I'm unable to get this macro on my system. However, I do have _POSIX2_LINE_MAX (from <unistd.h>). It is #defined to 2048. Since the standard only says that this is a lower bound, that might not be too helpful, though.

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    I was able to get NL_TEXTMAX defined by defining _GNU_SOURCE. I therefore suspect that a sufficiently "high" value defined for _POSIX_C_SOURCE would get it included. Anyway, the value was 0x7fffffff, or 2147483647. Not too inspiring on its own - though SSIZE_MAX was twice as wide (8 more trailing f digits). – mtraceur Mar 31 '16 at 5:06
  • For the record, I +1'ed this as well, and I appreciated the information given with regard to my specific use-case. Even though I currently accepted another answer, I think this is the next-best answer, because it covers information not given in the main answer, and does suggest (albeit inconclusively) that some implementations, or other standards built on top of the language specifications, might in fact define some sort of upper limits. – mtraceur Apr 1 '16 at 17:41

The standards make no guarantees about the size limits of the null-terminated string returned by strerror.

In practice, this is never going to be an issue. However, if you're that paranoid about it, I would suggest that you just copy the string returned from strerr and clamp its length to SSIZE_MAX before passing it to writev.

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    I'm inclined to agree that the standard makes no guarantee in this area, but I don't think cppreference.com is an authoritative reference for that. – John Bollinger Mar 30 '16 at 20:43

It is safe to assume that SSIZE_MAX will be greater than the longest string (character array) that strerror returns in a normal C or C++ system. This is because usable system memory (usable directly by your C program) can be no larger than SIZE_MAX (an unsigned integer value) and SSIZE_MAX will have at least the same number of bits so using 2's compliment math to account for the signed nature of SSIZE_MAX (and ssize_t) SSIZE_MAX will be at least 1/2 the size of system memory.

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    Detail: "This is because usable system memory (usable directly by your C program) can be no larger than SIZE_MAX" --> disagree, SIZE_MAX is the max value of an array index for a single array, not the maximum amount of memory. Concerning SSIZE_MAX: that is not defined in C, so best to cite your reference. – chux - Reinstate Monica Mar 30 '16 at 20:48
  • SIZE_MAX is also the maximum size of the portion of a C2011 struct up to but not including the last member, because it is the type of the result of the standard offsetof() macro. – John Bollinger Mar 30 '16 at 20:53
  • @chux: standard C has a flat (von Neumann) memory model, and all of that memory may be treated as a single array (((char *)0)[x]). C compilers for Harvard (like most AVR and 8051 MCUs) , segmented (like 80286), or other systems often use non-standard language extensions to achieve access to the different areas of memory or introduce restrictions to language features to avoid some memory model issues. the answer of stackoverflow.com/questions/8649018/… disagrees, but writev on with those imitations would be severely limited. – nategoose Mar 31 '16 at 19:41
  • Post C stand references that support that. By my reading there are none, so disagree with the unsupported "standard C has a flat (von Neumann) memory model, and all of that memory may be treated as a single array (((char *)0)[x])" and only that model. – chux - Reinstate Monica Mar 31 '16 at 19:46

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