In Mark Sobell's A Practical Guide to Linux Commands, Editors, and Shell Programming, Second Edition he writes (p. 432):

The <& token duplicates an input file descriptor; >& duplicates an output file descriptor.

This seems to be inconsistent with another statement on the same page:

Use the following format to open or redirect file descriptor n as a duplicate of file descriptor m:

exec n<&m

and with an example also on the same page:

# File descriptor 3 duplicates standard input
# File descriptor 4 duplicates standard output
exec 3<&0 4<&1

If >& duplicates an output file descriptor then should we not say

exec 4>&1

to duplicate standard output?


The example is right in practice. The book's original explanation is an accurate description of what the POSIX standard says, but the POSIX-like shells I have handy (bash and dash, the only ones I believe are commonly seen on Linux) are not that picky.

The POSIX standard says the same thing as the book about input and output descriptors, and goes on to say this: for n<&word, "if the digits in word do not represent a file descriptor already open for input, a redirection error shall result". So if you want to be careful about POSIX compatibility, you should avoid this usage.

The bash documentation also says the same thing about <& and >&, but without the promise of an error. Which is good, because it doesn't actually give an error. Instead, empirically n<&m and n>&m appear to be interchangeable. The only difference between <& and >& is that if you leave off the fd number on the left, <& defaults to 0 (stdin) and >& to 1 (stdout).

For example, let's start a shell with fd 1 pointing at a file bar, then try out exactly the exec 4<&1 example, try to write to the resulting fd 4, and see if it works:

$ sh -c 'exec 4<&1; echo foo >&4' >bar; cat bar

It does, and this holds using either dash or bash (or bash --posix) for the shell.

Under the hood, this makes sense because <& and >& are almost certainly just calling dup2(), which doesn't care whether the fds are opened for reading or writing or appending or what.

[EDIT: Added reference to POSIX after discussion in comments.]

  • Thanks, especially for the reference. I'm more interested in what is supposed to work than in what may work in practice sometimes. – Alexandros Gezerlis May 4 '11 at 15:47
  • @Alexandros: Fair enough. Looking at the POSIX standard (pubs.opengroup.org/onlinepubs/009695399/utilities/…), which is one interpretation of "supposed to work", it says for n<&word that "if the digits in word do not represent a file descriptor already open for input, a redirection error shall result". So if you want to be careful about POSIX compatibility, then you should avoid that usage. – Greg Price May 4 '11 at 21:19
  • In that sense, the book's description is right and its example wrong, but the title is "A Practical Guide", after all. =) – Greg Price May 4 '11 at 21:21
  • @Alexandros Gezerlis: OK, updated the answer to describe what POSIX says. – Greg Price May 4 '11 at 21:33
  • @Greg Price: Thanks again, I think the answer is complete now, so I've gone ahead and accepted it. – Alexandros Gezerlis May 5 '11 at 0:02

If stdout is a tty, then it can safely be cloned for reading or writing. If stdout is a file, then it may not work. I think the example should be 4>&1. I agree with Greg that you can both read and write the clone descriptor, but requesting a redirection with <& is supposed to be done with source descriptors that are readable, and expecting stdout to be readable doesn't make sense. (Although I admit I don't have a reference for this claim.)

An example may make it clearer. With this script:


exec 3<&0
exec 4<&1

read -p "Reading from fd 3: " <&3
echo From fd 3: $REPLY >&2
read -p "Reading from fd 4: " <&4
echo From fd 4: $REPLY >&2

echo To fd 3 >&3
echo To fd 4 >&4

I get the following output (the stuff after the : on "Reading from" lines is typed at the terminal):

$ ./5878384b.sh
Reading from fd 3: foo
From fd 3: foo
Reading from fd 4: bar
From fd 4: bar
To fd 3
To fd 4
$ ./5878384b.sh < /dev/null
From fd 3:
Reading from fd 4: foo
From fd 4: foo
./5878384b.sh: line 12: echo: write error: Bad file descriptor
To fd 4
$ ./5878384b.sh > /dev/null
Reading from fd 3: foo
From fd 3: foo
./5878384b.sh: line 9: read: read error: 0: Bad file descriptor
From fd 4:
To fd 3
  • It is not immediately clear where "foo" and "bar" come from. This is a good example, but perhaps would be clearer if you invoked the script as "printf 'foo\nbar\n' | ./5878384.sh" – William Pursell May 4 '11 at 15:23
  • Thanks for the feedback. I'm leaning toward your viewpoint, but I was hoping for a specific reference (e.g. to the POSIX standard). I'm surprised how little authoritative material on exec and file descriptors is out there. – Alexandros Gezerlis May 4 '11 at 15:45
  • @William piping it in doesn't work, since the pipe only goes to stdin, but I tried to clarify which parts are input/output. Thanks for the suggestion. – Andy May 5 '11 at 18:08
  • The errors here have nothing to do with the exec, which is doing its job fine. Rather, they happen when you try to actually write or read to a file which was opened only for reading or writing, respectively. As a demonstration, you get the exact same errors if you write bash -c 'echo To fd 0 >&0' < /dev/null or bash -c 'read -p "Reading from fd 1: " <&1' > /dev/null. – Greg Price Sep 27 '11 at 5:08
  • In short, you can read only readable file descriptors, and write only writable file descriptors, and exec can't transmute one kind into the other no matter how you invoke it. But the question is about whether the actual <& versus >& forms in exec itself matter, and in bash and dash they don't, though POSIX says they are supposed to. – Greg Price Sep 27 '11 at 5:14

Mind the difference between file descriptors and IO streams such as stderr and stdout.

The redirecting operators are just redirecting IO streams via different file descriptors (IO stream handling mechanisms); they do not do any copying or duplicating of IO streams (that's what tee(1) is for).

See: File Descriptor 101

Another test to show that n<&m and n>&m are interchangeable would be "to use either style of 'n<&-' or 'n>&-' for closing a file descriptor, even if it doesn't match the read/write mode that the file descriptor was opened with" (http://www.gnu.org/s/hello/manual/autoconf/File-Descriptors.html).

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