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is there an alternative to "tee" which captures STDOUT/STDERR of the command being executed and exits with the same exit status as the processed command. Something as following:

eet -a some.log -- mycommand --foo --bar

Where "eet" is an imaginary alternative to "tee" :) (-a means append, -- separates the captured command) It shouldn't be hard to hack such a command but maybe it already exists and I'm not aware of it?


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I assume that the real question here is: how to tee output AND capture exit status. If so: possible duplicate of bash: tee output AND capture exit status –  lesmana May 13 '13 at 16:36

8 Answers 8

up vote 3 down vote accepted

Here's an eet. Works with every Bash I can get my hands on, from 2.05b to 4.0.

while [[ $# > 0 && $1 != -- ]]; do
    tee_args=("${tee_args[@]}" "$1")
# now ${tee_args[*]} has the arguments before --,
# and $* has the arguments after --

# redirect standard out through a pipe to tee
exec | tee "${tee_args[@]}"

# do the *real* exec of the desired program
exec "$@"

(pipefail and $PIPESTATUS are nice, but I recall them being introduced in 3.1 or thereabouts.)

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It's strange - but it doesn't work for me: jirka@debian:~/monitor$ exec | wc -c \\ 0 \\ jirka@debian:~/monitor$ exec echo a \\ a (\\ means newline) –  jpalecek Mar 10 '10 at 11:05


Assuming bash or zsh,

my_command >>my_log 2>&1

N.B. Sequence of redirection and duplication of STDERR onto STDOUT is significant!

Edit: Oops. Didn't realise you wanted to see the output on screen as well. This will of course direct all output to the file my_log.



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This sends all output to my_log, but unlike tee, it does not also show up on the console. –  Steve Madsen Jun 12 '09 at 13:26
@Steve, you're right. My bad. )-: –  Rob Wells Jun 12 '09 at 15:40

Stumbled upon a couple of interesting solutions here http://www.perlmonks.org/?node_id=597613.

1) There is $PIPESTATUS variable available in bash:

   false | tee /dev/null
   [ $PIPESTATUS -eq 0 ] || exit $PIPESTATUS

2) And the simplest prototype of "eet" in perl may look as follows:

   open MAKE, "command 2>&1 |" or die;
   open (LOGFILE, ">>some.log") or die;
   while (<MAKE>) { print LOGFILE $_; print }
   close MAKE; # to get $?
   my $exit = $? >> 8;
   close LOGFILE;
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exec 2>&1
exec "$@" | tee "$logfile"

Hopefully this works for you.

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Run this with arguments "foo false" -- should return with exit code 1 (from false), but I get 0 (presumably from tee). –  Steve Madsen Jun 12 '09 at 13:29
My bad. Have to do it the old fashioned pipe way. PIPE=/tmp/$$.pipe; mkfifo "$PIPE"; logfile="$1"; shift; tee "$logfile" <"$PIPE" &; "$@" 2>&1 >"$PIPE"; status=$?; rm "$PIPE"; exit $status –  Marko Teiste Jun 14 '09 at 8:37
{ mycommand --foo --bar 2>&1; ret=$?; } | tee -a some.log; (exit $ret)
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At least on bash, $ret is not available outside of the {list}, so this doesn't work. –  Steve Madsen Jun 12 '09 at 13:34

This works with bash:

  set -o pipefail
  mycommand --foo --bar | tee some.log

The parentheses are there to limit the effect of pipefail to just the one command.

From the bash(1) man page:

The return status of a pipeline is the exit status of the last command, unless the pipefail option is enabled. If pipefail is enabled, the pipeline's return status is the value of the last (rightmost) command to exit with a non-zero status, or zero if all commands exit successfully.
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Korn shell, ALL in 1 line:

foo; RET_VAL=$?; if test ${RET_VAL} != 0;then echo $RET_VAL; echo Error occurred!>/tmp/out.err;exit 2;fi |tee >>/tmp/out.err ; if test ${RET_VAL} != 0;then exit $RET_VAL;fi
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[EDIT] My bad, this does not work with bash because bash needs extra coddling when fiddling with file descriptors, I will update this as soon as I can. [/EDIT]

Pure Bourne shell solution:

exitstatus=`{ 3>&- command1; } 1>&3; printf $?` 3>&1 | command2
# $exitstatus now has command1's exit status.

This is the base upon which you could build your "eet". Slap in some commandline argument parsing and all that, turn command2 into "tee" with the relevant options, etc.

The VERY detailed explanation is as follows:

At the top level, the statement is just a pipe between two commands:

commandA | command2

commandA in turn breaks down to a single command with a redirection of file descriptor 3 to file descriptor 1 (stdout):

commandB 3>&1

This means that the shell will be expecting commandB to write something to file descriptor 3 - if file descriptor 3 is never opened, it would be an error. It also means that command2 will get whatever commandB outputs on both file descriptors 1 (stdout) and 3.

commandB in turn is a variable assignment using command substitution:


We know that variable assignments do not print anything on any file descriptors (and commandC's stdout is captured for the substitution), so we know that commandB as a whole will not output anything on stdout. command2 will thus only see what commandC writes to file descriptor 3.

And commandC is two commands, where the second command prints the exit status of the first:

commandD ; printf $?

So by now we know the variable assignment in the last step will contain the exit status of commandD.

Now, commandD decomposes to another basic redirection, of a comman's stdout to file descriptor 3:

commandE 1>&3

So now we know that the thing writing to file descriptor 3, and thus ultimately to command2, is commandE's stdout.

Finally: commandE is a "compound command" (you can also use a subshell here, but it's not as efficient), wrapping around another less commonly seen type of "redirection":

{ 3>&- command1; }

(That 3>&- is a bit tricky so we'll come back to it at the end.) So compound commands make that semicolon mandatory when the last command and the last brace are on the same line, that's why that is there. So we know compound commands return the exit code of their last command, and they inherit file descriptors like everything else, so we now know that command1's stdout flows out of the compound command, redirects to file descriptor 3 to avoid being caught by the command substitution, meanwhile the command substitution catches the remaining stdout of the printf which echoes out the exit status of command1 once it is done.

And now for the tricky bit: 3>&- says "close file descriptor 3". You may think, "why are you closing it when you just redirected command1's output to it?" Well, if you look carefully, you'll see that the close effects only command1 inside the compound command (inside the curly braces) specifically, while the redirection effects the entire compound command.

So here is what happens: by the time the individual commands of the compound command run, the shell opened file descriptor 3. Processes inherit file descriptors, so command1, by default, will run with file descriptor 3 open and pointing to the same place too. This is bad because occasionally, programs actually expect specific file descriptors to mean special things - they may behave differently when launched with file descriptor 3 open. The most robust solution is to just close file descriptor 3 (or whichever number you use) for just command1, so it runs as it would as if file descriptor 3 was never opened.

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