From manual: http://www.network-theory.co.uk/docs/valgrind/valgrind_27.html and http://www.network-theory.co.uk/docs/valgrind/valgrind_24.html
Valgrind's signal simulation is not as robust as it could be. Basic POSIX-compliant sigaction and sigprocmask functionality is supplied, but it's conceivable that things could go badly awry if you do weird things with signals. Workaround: don't. Programs that do non-POSIX signal tricks are in any case inherently unportable, so should be avoided if possible.
So, snprintf in signal handler is not a POSIX-allowed signal trick and valgrind has a right to brick your programs.
Why snprintf is not signal-safe?
The glibc manual says: http://www.gnu.org/software/hello/manual/libc/Nonreentrancy.html
If a function uses and modifies an object that you supply, then it is potentially non-reentrant; two calls can interfere if they use the same object.
This case arises when you do I/O using streams. Suppose that the signal handler prints a message with fprintf. Suppose that the program was in the middle of an fprintf call using the same stream when the signal was delivered. Both the signal handler's message and the program's data could be corrupted, because both calls operate on the same data structure—the stream itself.
However, if you know that the stream that the handler uses cannot possibly be used by the program at a time when signals can arrive, then you are safe. It is no problem if the program uses some other stream.
You can say that s*printf* are not on streams, but on strings. But internally, glibc's snprintf does work on special stream:
_IO_vsnprintf (string, maxlen, format, args)
_IO_strnfile sf; // <<-- FILE*-like descriptor
%f output code in glibc also has a malloc call inside it:
/* Allocate buffer for output. We need two more because while rounding
it is possible that we need two more characters in front of all the
other output. If the amount of memory we have to allocate is too
large use `malloc' instead of `alloca'. */
size_t wbuffer_to_alloc = (2 + (size_t) chars_needed) * sizeof (wchar_t);
buffer_malloced = ! __libc_use_alloca (chars_needed * 2 * sizeof (wchar_t));
if (__builtin_expect (buffer_malloced, 0))
wbuffer = (wchar_t *) malloc (wbuffer_to_alloc);
if (wbuffer == NULL)
/* Signal an error to the caller. */
wbuffer = (wchar_t *) alloca (wbuffer_to_alloc);