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As most developers will be aware processes define three file descriptors which we know more commonly as stdin, stdout and stderr.

From what I can tell the fd for each of these are statically defined as 0, 1 and 2 respectively. This is explicitly stated in the POSIX standard: http://pubs.opengroup.org/onlinepubs/009695399/functions/stdin.html

Now lets say I have a group of processes which require a 4th. For example a child process created with fork() exec() requiring a handle to a control socket created with socketpair() before the fork(). For this example the purpose of the 4th handle (socket) is to provide a link between parent and child process. Now the question comes... how does the child know which FD is the control socket? Is there any reason why I can't use a static number for this (eg: #define CONTROL_SOCKET 3) as long as I dup2(new_socket,CONTROL_SOCKET) between the fork() and the exec(). I'd then just be able to foo = write(CONTROL_SOCKET, bar, baz) inside the child. Lets take it as read that any other FDs open my app are expected to close on exec so my logic is that dup2() won't close anything that won't be closed anyway by exec().

I know that there are several possible work-arounds to avoid doing this (eg: passing the FD in an environment variable or program arguments) and there are a number of examples on the web showing how to do so. What I don't understand is what is being worked around? What's the problem with statically defining an FD that's being avoided? It feels at first glance to be avoiding a problem which doesn't exist. Do some systems use FDs other than 0, 1 and 2 and might I be overwriting something important by dup2(<some fd>,3) before an exec?

Note: This question is really a question about writing code which is portable between existing POSIX operating systems.

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    A better way would be to pass the FD# as an argument or in an environment variable, so that this question doesn't arise.
    – Barmar
    Feb 11, 2016 at 0:36
  • I think I've read that some shells may open other descriptors. But I don't think application programs should care about them, so it wouldn't be a problem if your code overwrote them.
    – Barmar
    Feb 11, 2016 at 0:37
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    @Olaf The Linux kernel does not care about this strange "C standard" thing. You can close(0); close(1); close(2); execl(...); just fine.
    – user253751
    Feb 11, 2016 at 1:14
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    @Olaf perhaps I was incorrect in flagging this as "C". Its not really a C question at all and the C standard can not help here because the C standard only lays out the requirements for the C language to work correctly. Standards covering OS behaviour are NOT included in the C standard. So Immubus is correct. While there are *nix standards such as POSIX they do not completely cover common (portable) behaviour. There are a lot of conventions between operating systems which are not actually in any standard. Feb 11, 2016 at 10:30
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    @Olaf actually looking at the POSIX standard, it IS defined and standard: pubs.opengroup.org/onlinepubs/009695399/functions/stdin.html 0,1 and 2 are the fixed values on POSIX systems. Feb 11, 2016 at 10:42

3 Answers 3

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There is no widespread use of file descriptors other than 0, 1, 2. I seem to remember a few tracing systems using a fixed file descriptor out of that range (though not usually 3), but they were very much the exception (and I don't remember noticing it this millennium).

On the whole, if the first process in the set is able to ensure that the descriptor was not in use when it was started, it can safely pass the descriptor on to its child processes. If you find the descriptor already in use, you could open a different descriptor to the control socket, and then use fstat() to compare the two descriptors. If they're for the same device, you can probably go ahead using the inherited descriptor 3; if not, you need to dup2() and close() the control socket.

If your processes plan to simply open the control socket themselves, there's no particular need to worry about which file descriptor is used.

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The reason you probably don't want to do that is that unlike with 0, 1, and 2, you're not guaranteed that 3 will be open, unless you always control how the process is started.

There's nothing wrong with having a fixed descriptor number for some channel, though. You definitely will not be overwriting anything with dup2(<some fd>, 3). It'll only overshadow <some fd> for your process and it's children, but 3 won't be affected in the parent process at all.

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    Yes I always control how the process is started... Frankly I'd prefer not to exec() at all and simply fork, but other requirements (including a need to use Pthreads) force me to clean up the process using exec(). Feb 11, 2016 at 10:26
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You don't need to make it so complex.

I.e. do not use dup2() with a target descriptor that you do not know for certain is closed (e.g. you know because you just closed it), or that you do not want to implicitly close in doing so.

Just pass new_socket itself, as the string representing its integer value, on either the command line or in an environment variable, as suggested in the comments.

See this answer: https://stackoverflow.com/a/21596854/816536 but ignore the second variant of "P1.c" -- that's the losing way.

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  • I'm not suggesting "work-arounds". I'm suggesting better methods that make your intentions well known and are clear and concise. Making assumptions is always far more error prone than being explicit, regardless of wether it brings platform dependence or not. It's not really "extra work" to be precise and explicit in one's intentions -- rather it is a very good habit to learn. Your future self will thank you! Feb 11, 2016 at 20:57

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