The debugger could tell you that (i.e. the name of a function, given its address).
The symbol table of an unstripped ELF executable could also help. See nm(1), objdump(1), readelf(1)
Another Linux GNU/libc specific approach could be to use at runtime the dladdr(3) function. Assuming your program is nicely and dynamically linked (e.g. with
-rdynamic), it can find the symbol name and the shared object path given some address (of a globally named function).
Of course, if you have only five functions of a given signature, you could compare your address (to the five addresses of them).
Notice that some functions don't have any ((globally visible) names, e.g.
And some functions could be
dlsym-ed (e.g. inside plugins). Or their code be synthetized at runtime by some JIT-ing framework (
asmjit). And the optimizing compiler can (and does!) inline functions, clone them, tail-call them, etc.... so your question might not make any sense in general...
See also backtrace(3) & Ian Taylor's libbacktrace inside GCC.
But in general, your quest is impossible. If you really need such reflective information in a reliable way, manage it yourself (look into Pitrat's CAIA system as an example, or somehow my MELT system), perhaps by generating some code during the build.