Here's an example that might be helpful for Linux systems:
* getexename - Get the filename of the currently running executable
* The getexename() function copies an absolute filename of the currently
* running executable to the array pointed to by buf, which is of length size.
* If the filename would require a buffer longer than size elements, NULL is
* returned, and errno is set to ERANGE; an application should check for this
* error, and allocate a larger buffer if necessary.
* Return value:
* NULL on failure, with errno set accordingly, and buf on success. The
* contents of the array pointed to by buf is undefined on error.
* This function is tested on Linux only. It relies on information supplied by
* the /proc file system.
* The returned filename points to the final executable loaded by the execve()
* system call. In the case of scripts, the filename points to the script
* handler, not to the script.
* The filename returned points to the actual exectuable and not a symlink.
char* getexename(char* buf, size_t size)
char linkname; /* /proc/<pid>/exe */
/* Get our PID and build the name of the link in /proc */
pid = getpid();
if (snprintf(linkname, sizeof(linkname), "/proc/%i/exe", pid) < 0)
/* This should only happen on large word systems. I'm not sure
what the proper response is here.
Since it really is an assert-like condition, aborting the
program seems to be in order. */
/* Now read the symbolic link */
ret = readlink(linkname, buf, size);
/* In case of an error, leave the handling up to the caller */
if (ret == -1)
/* Report insufficient buffer size */
if (ret >= size)
errno = ERANGE;
/* Ensure proper NUL termination */
buf[ret] = 0;
Essentially, you use
getpid() to find your PID, then figure out where the symbolic link at
/proc/<pid>/exe points to.