Is there a way in C/C++ to find the location (full path) of the current executed program?
(The problem with
argv is that it does not give the full path.)
On Unixes with
/proc really straight and realiable way is to:
readlink("/proc/self/exe", buf, bufsize) (Linux)
readlink("/proc/curproc/file", buf, bufsize) (FreeBSD)
readlink("/proc/self/path/a.out", buf, bufsize) (Solaris)
On Unixes without
/proc (i.e. if above fails):
If argv starts with "/" (absolute path) this is the path.
Otherwise if argv contains "/" (relative path) append it to cwd (assuming it hasn't been changed yet).
Otherwise search directories in
$PATH for executable
Afterwards it may be reasonable to check whether the executable isn't actually a symlink. If it is resolve it relative to the symlink directory.
This step is not necessary in /proc method (at least for Linux). There the proc symlink points directly to executable.
Note that it is up to the calling process to set
It is right most of the times however there are occasions when the calling process cannot be trusted (ex. setuid executable).
On Windows: use
GetModuleFileName(NULL, buf, bufsize)
Use GetModuleFileName() function if you are using Windows.
Please note that the following comments are unix-only.
The pedantic answer to this question is that there is no general way to answer this question correctly in all cases. As you've discovered, argv can be set to anything at all by the parent process, and so need have no relation whatsoever to the actual name of the program or its location in the file system.
However, the following heuristic often works:
/, determine the current working directory with getcwd() and then append argv to it.
Note that all of these can be circumvented by the process which invoked the program in question. Finally, you can use linux-specific techniques, such as mentioned by emg-2. There are probably equivalent techniques on other operating systems.
Even supposing that the steps above give you a valid path name, you still might not have the path name you actually want (since I suspect that what you actually want to do is find a configuration file somewhere). The presence of hard links means that you can have the following situation:
-- assume /app/bin/foo is the actual program $ mkdir /some/where/else $ ln /app/bin/foo /some/where/else/foo # create a hard link to foo $ /some/where/else/foo
Now, the approach above (including, I suspect, /proc/$pid/exe) will give
/some/where/else/foo as the real path to the program. And, in fact, it is a real path to the program, just not the one you wanted. Note that this problem doesn't occur with symbolic links which are much more common in practice than hard links.
In spite of the fact that this approach is in principle unreliable, it works well enough in practice for most purposes.
Not an answer actually, but just a note to keep in mind.
As we could see, the problem of finding the location of running executable is quite tricky and platform-specific in Linux and Unix. One should think twice before doing that.
If you need your executable location for discovering some configuration or resource files, maybe you should follow the Unix way of placing files in the system: put configs to
/usr/local/etc or in current user home directory, and
/usr/share is a good place to put your resource files.
Remember that on Unix systems the binary may have been removed since it was started. It's perfectly legal and safe on Unix. Last I checked Windows will not allow you to remove a running binary.
/proc/self/exe will still be readable, but it will not be a working symlink really. It will be... odd.
For Linux you can find the
/proc/self/exe way of doing things bundled up in a nice library called binreloc, you can find the library at:
1) Use the basename() function: http://linux.die.net/man/3/basename
2) chdir() to that directory
3) Use getpwd() to get the current directory
That way you'll get the directory in a neat, full form, instead of ./ or ../bin/.
Maybe you'll want to save and restore the current directory, if that is important for your program.