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Is it safe to call errno multiple times when dealing with the same error. Or is it safer to work with a local copy?

This sample illustrates my question:

// If recvfrom() fails it returns -1 and sets errno to indicate the error.
int res = recvfrom(...);
if (res < 0)
    // Risky?
    printf("Error code: %d. Error message: %s\n", errno, strerror(errno));

    // Safer alternative?
    int errorNumber = errno;
    printf("Error code: %d. Error message: %s\n", errorNumber, strerror(errorNumber));
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+1 interesting question that turns out to have a nontrivial answer and possible practical consequences. – R.. Oct 6 '10 at 8:39

5 Answers 5

up vote 5 down vote accepted

The value of errno shall be defined only after a call to a function for which it is explicitly stated to be set and until it is changed by the next function call or if the application assigns it a value.

However, even strerror could theoretically count as a function call that can change it (see comment by schot) so you should, theoretically, still go with your save-first form.

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However, printf may cause a change to errno. The man page at (I believe it's from Linux) warns against using it in printf. This is not a problem for your specific situation, however - the compiler will evaluate errno and strerror(errno) both before calling printf. – Habbie Oct 6 '10 at 7:49
But the call to strerror might change errno. Although I don't think there is any implementation stupid/evil enough to do this. (Except maybe a DeathStation 9000). – schot Oct 6 '10 at 8:03
True, and the compiler might decide to evaluate strerror(errno) before evaluating errno. I'm updating my answer. – Habbie Oct 6 '10 at 8:07
Unbelievably, strerror is specified to write to errno under certain conditions: And ironically, the only way to test if strerror failed is by setting errno to 0 before calling strerror, since the return value does not reflect success or failure. So OP may be onto something... – R.. Oct 6 '10 at 8:09
As far as I know, the C standard allows any library function to update errno in completely unspecified ways unless that function is explicitly specified not to, so the issue is even more relevant if we're not talking POSIX. – R.. Oct 6 '10 at 8:37

Any standard library function including printf and strerror is allowed to change errno, even if actually no error occurs:

7.5 3 The value of errno is zero at program startup, but is never set to zero by any library function. 170) The value of errno may be set to nonzero by a library function call whether or not there is an error, provided the use of errno is not documented in the description of the function in this International Standard.

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Tangentially related: can you find any language in the standard that would prohibit strtol and family from setting errno to ERANGE when no overflow actually occurred? Standard procedure is to set errno to 0 before calling these functions, and check errno if LONG_MIN or LONG_MAX is returned - but if they could set errno to ERANGE for no reason at all, this standard test seems invalid... – R.. Oct 6 '10 at 8:44
@R..: If the use of errno is defined for a specific function, then no other behaviour than explicitly stated there is allowed by 7.5: "provided the use of errno is not documented in the description of the function". – Secure Oct 6 '10 at 8:51
Wow it was right there in your citation and I missed it... – R.. Oct 6 '10 at 15:07

errno is variable and not function. Whan you use it, it cannot be reset. So, it is OK to use errno number of times, assuming that you don't call any function that can change/reset errno.

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errno is not a variable. – Jens Gustedt Oct 6 '10 at 11:16

Generally nowadays errno is something much more complicated than a variable:

... errno which expands to a modifiable lvalue that has type int, the value of which is set to a positive error number by several library functions. It is unspecified whether errno is a macro or an identifier declared with external linkage. If a macro definition is suppressed in order to access an actual object, or a program defines an identifier with the name errno, the behavior is undefined.

E.g. in POSIX it is guaranteed to evaluate to something that is specific for the current thread. Thus it might have an access cost that is higher than for a simple variable.

So yes I would go for a local copy if performance is a concern, though I never benched this for real.

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I was just looking into this myself and I think another function might be better suited to this problem, perror. perror is quite simple, for example if you malloc some memory and you want the sort of meaningful error message the strerror provides if malloc fails:

char **str_array = (char**) malloc(SOME_CONSTANT * sizeof(char*));
if (str_array == NULL){
    perror("malloc failed on str_array");

perror prints the string you typed, adds a space, then a semicolon, and then prints the human readable error text. It also doesn't seem to have the side effect that strerror does, unless I'm interpreting the man page incorrectly because it doesn't have a section for ERRORS: .

I'm also making successive calls that may fail, and perror seems like less lines of code and better syntax. However, I'm newer to C so please edit or delete if this information is inaccurate.

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