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How can I conditionally copy output to a file without repeating echo/printf statements? [duplicate]

I know how to redirect stdout to a file:
exec > foo.log
echo test
this will put the 'test' into the foo.log file.
Now I want to redirect the output into the log file AND keep it on stdout
i.e. it can be done trivially from outside the script:
script | tee foo.log
but I want to do declare it within the script itself
I tried
exec | tee foo.log
but it didn't work.

#!/usr/bin/env bash
# Redirect stdout ( > ) into a named pipe ( >() ) running "tee"
exec > >(tee -i logfile.txt)
# Without this, only stdout would be captured - i.e. your
# log file would not contain any error messages.
# SEE (and upvote) the answer by Adam Spiers, which keeps STDERR
# as a separate stream - I did not want to steal from him by simply
# adding his answer to mine.
exec 2>&1
echo "foo"
echo "bar" >&2
Note that this is bash, not sh. If you invoke the script with sh myscript.sh, you will get an error along the lines of syntax error near unexpected token '>'.
If you are working with signal traps, you might want to use the tee -i option to avoid disruption of the output if a signal occurs. (Thanks to JamesThomasMoon1979 for the comment.)
Tools that change their output depending on whether they write to a pipe or a terminal (ls using colors and columnized output, for example) will detect the above construct as meaning that they output to a pipe.
There are options to enforce the colorizing / columnizing (e.g. ls -C --color=always). Note that this will result in the color codes being written to the logfile as well, making it less readable.

The accepted answer does not preserve STDERR as a separate file descriptor. That means
./script.sh >/dev/null
will not output bar to the terminal, only to the logfile, and
./script.sh 2>/dev/null
will output both foo and bar to the terminal. Clearly that's not
the behaviour a normal user is likely to expect. This can be
fixed by using two separate tee processes both appending to the same
log file:
#!/bin/bash
# See (and upvote) the comment by JamesThomasMoon1979
# explaining the use of the -i option to tee.
exec > >(tee -ia foo.log)
exec 2> >(tee -ia foo.log >&2)
echo "foo"
echo "bar" >&2
(Note that the above does not initially truncate the log file - if you want that behaviour you should add
>foo.log
to the top of the script.)
The POSIX.1-2008 specification of tee(1) requires that output is unbuffered, i.e. not even line-buffered, so in this case it is possible that STDOUT and STDERR could end up on the same line of foo.log; however that could also happen on the terminal, so the log file will be a faithful reflection of what could be seen on the terminal, if not an exact mirror of it. If you want the STDOUT lines cleanly separated from the STDERR lines, consider using two log files, possibly with date stamp prefixes on each line to allow chronological reassembly later on.

Solution for busybox, macOS bash, and non-bash shells
The accepted answer is certainly the best choice for bash. I'm working in a Busybox environment without access to bash, and it does not understand the exec > >(tee log.txt) syntax. It also does not do exec >$PIPE properly, trying to create an ordinary file with the same name as the named pipe, which fails and hangs.
Hopefully this would be useful to someone else who doesn't have bash.
Also, for anyone using a named pipe, it is safe to rm $PIPE, because that unlinks the pipe from the VFS, but the processes that use it still maintain a reference count on it until they are finished.
Note the use of $* is not necessarily safe.
#!/bin/sh
if [ "$SELF_LOGGING" != "1" ]
then
# The parent process will enter this branch and set up logging
# Create a named piped for logging the child's output
PIPE=tmp.fifo
mkfifo $PIPE
# Launch the child process with stdout redirected to the named pipe
SELF_LOGGING=1 sh $0 $* >$PIPE &
# Save PID of child process
PID=$!
# Launch tee in a separate process
tee logfile <$PIPE &
# Unlink $PIPE because the parent process no longer needs it
rm $PIPE
# Wait for child process, which is running the rest of this script
wait $PID
# Return the error code from the child process
exit $?
fi
# The rest of the script goes here

Inside your script file, put all of the commands within parentheses, like this:
(
echo start
ls -l
echo end
) | tee foo.log

Easy way to make a bash script log to syslog. The script output is available both through /var/log/syslog and through stderr. syslog will add useful metadata, including timestamps.
Add this line at the top:
exec &> >(logger -t myscript -s)
Alternatively, send the log to a separate file:
exec &> >(ts |tee -a /tmp/myscript.output >&2 )
This requires moreutils (for the ts command, which adds timestamps).

Using the accepted answer my script kept returning exceptionally early (right after 'exec > >(tee ...)') leaving the rest of my script running in the background. As I couldn't get that solution to work my way I found another solution/work around to the problem:
# Logging setup
logfile=mylogfile
mkfifo ${logfile}.pipe
tee < ${logfile}.pipe $logfile &
exec &> ${logfile}.pipe
rm ${logfile}.pipe
# Rest of my script
This makes output from script go from the process, through the pipe into the sub background process of 'tee' that logs everything to disc and to original stdout of the script.
Note that 'exec &>' redirects both stdout and stderr, we could redirect them separately if we like, or change to 'exec >' if we just want stdout.
Even thou the pipe is removed from the file system in the beginning of the script it will continue to function until the processes finishes. We just can't reference it using the file name after the rm-line.

Bash 4 has a coproc command which establishes a named pipe to a command and allows you to communicate through it.

Can't say I'm comfortable with any of the solutions based on exec. I prefer to use tee directly, so I make the script call itself with tee when requested:
# my script:
check_tee_output()
{
# copy (append) stdout and stderr to log file if TEE is unset or true
if [[ -z $TEE || "$TEE" == true ]]; then
echo '-------------------------------------------' >> log.txt
echo '***' $(date) $0 $# >> log.txt
TEE=false $0 $# 2>&1 | tee --append log.txt
exit $?
fi
}
check_tee_output $#
rest of my script
This allows you to do this:
your_script.sh args # tee
TEE=true your_script.sh args # tee
TEE=false your_script.sh args # don't tee
export TEE=false
your_script.sh args # tee
You can customize this, e.g. make tee=false the default instead, make TEE hold the log file instead, etc. I guess this solution is similar to jbarlow's, but simpler, maybe mine has limitations that I have not come across yet.

Neither of these is a perfect solution, but here are a couple things you could try:
exec >foo.log
tail -f foo.log &
# rest of your script
or
PIPE=tmp.fifo
mkfifo $PIPE
exec >$PIPE
tee foo.log <$PIPE &
# rest of your script
rm $PIPE
The second one would leave a pipe file sitting around if something goes wrong with your script, which may or may not be a problem (i.e. maybe you could rm it in the parent shell afterwards).

What is the cleanest way to create a non-linear pipeline?

What is the cleanest (simplest, most efficient, shortest, quickest, easiest, most elegant) way to create a non-linear pipeline like this in Bash?
I have three commands: mksock, irclogin, and ircpingpong. I want to pipe stdin, irclogin, and ircpingpong into mksock, and pipe mksock into stdout and ircpingpong. This means that mksock and ircpingpong are in a loop. I drew a diagram:
irclogin only needs to be run once and be the first input into mksock. After that, ircpingpong, and stdin should be accepted at any time. I am currently using pipes and a temporary file like this:
#!/bin/bash
server=127.0.0.1
port=6667
infifo=/tmp/ircin
outfifo=/tmp/ircout
pongfifo=/tmp/ircpong
rm $infifo
rm $outfifo
rm $pongfifo
mkfifo $infifo
mkfifo $outfifo
touch $pongfifo
( irclogin | cat - $infifo & tail -f $pongfifo; ) | mksock $server $port | tee $outfifo | stdbuf -oL ircpingpong > $pongfifo &
cat < $outfifo &
cat > $infifo
pkill tail
This works, but I want to know if there is a better way to do this. It bothers me that I am using a file rather than a pipe for looping back from ircpingpong to mksock using tail. Using a pipe didn't work because, to my understanding, something is written to the pipe before tail -f starts reading from it, and so it misses it.
It also bothers me that I have to kill tail at the end of the script, because it doesn't stop on it's own and would leave the socket connected even after the script has ended.

I can suggest a version without temporary files, and with two fifo-s:
fifo1=/tmp/fifo1
fifo2=/tmp/fifo2
rm $fifo1
rm $fifo2
mkfifo $fifo1
mkfifo $fifo2
ircpingpong < $fifo2 > $fifo1 &
(mksock <$fifo1|tee $fifo2 )&
irclogin >$fifo1 &
cat >$fifo1
The idea is to run all programs separately, and only ensure that input and output of each program is redirected properly according to this diagram:
Of course, ircpingpong must read stdin and write to stdout, irclogin must write to stdout, and mksock must read from stdin and write to stdout.

Here's something that uses just one fifo.
fifo=/tmp/myfifo
rm $fifo
mkfifo $fifo
((ircpingpong < $fifo &) && irclogin && cat) | mksock | tee $fifo
Add stdbuf as needed.
I don't know whether you will get your "something doesn't die on its own" problem; when I ctrl-c'ed the script, everything seemed to die.

Copy *unbuffered* stdout to file from within bash script itself

I want to copy stdout to a log file from within a bash script, meaning I don't want to call the script with output piped to tee, I want the script itself to handle it. I've successfully used this answer to accomplish this, using the following code:
#!/bin/bash
exec > >(sed "s/^/[${1}] /" | tee -a myscript.log)
exec 2>&1
# <rest of script>
echo "hello"
sleep 10
echo "world"
This works, but has the downside of output being buffered until the script is completed, as is also discussed in the linked answer. In the above example, both "hello" and "world" will show up in the log only after the 10 seconds have passed.
I am aware of the stdbuf command, and if running the script with
stdbuf -oL ./myscript.sh
then stdout is indeed continuously printed both to the file and the terminal.
However, I'd like this to be handled from within the script as well. Is there any way to combine these two solutions? I'd rather not resort to a wrapper script that simply calls the original script enclosed with "stdbuf -oL".

You can use a workaround and make the script execute itself with stdbuf, if a special argument is present:
#!/bin/bash
if [[ "$1" != __BUFFERED__ ]]; then
prog="$0"
stdbuf -oL "$prog" __BUFFERED__ "$#"
else
shift #discard __BUFFERED__
exec > >(sed "s/^/[${1}] /" | tee -a myscript.log)
exec 2>&1
# <rest of script>
echo "hello"
sleep 1
echo "world"
fi
This will mostly work:
if you run the script with ./test, it shows unbuffered [] hello\n[] world.
if you run the script with ./test 123 456, it shows [123] hello\n[123] world like you want.
it won't work, however, if you run it with bash test - $0 is set to test which is not your script. Fixing this is not in the scope of this question though.

The delay in your first solution is caused by sed, not by tee. Try this instead:
#!/bin/bash
exec 6>&1 2>&1>&>(tee -a myscript.log)
To "undo" the tee effect:
exec 1>&6 2>&6 6>&-

Hook all command output within bash

Just for fun I want to pipe all output text in a terminal to espeak. For example, after this is set up I should be able to type echo hi and hear "hi" spoken, or ls and hear my directory contents listed.
The only promising method to capture output I've found so far is from here: http://www.linuxjournal.com/content/bash-redirections-using-exec
This is what I have so far:
npipe=/tmp/$$.tmp
mknod $npipe p
tee /dev/tty <$npipe | espeak &
espeakpid=$!
exec 1>&-
exec 1>$npipe
trap "rm -f $npipe; kill $espeakpid" EXIT
It works (also printing a bunch of "Done" jobs), but creating the named pipe, removing with trap and printing the output with tee all just seems a bit messy. Is there a simpler way?

This is one way:
exec > >(exec tee >(exec xargs -n 1 -d '\n' espeak -- &>/dev/null))
If you want to be able to restore back to original output stream:
exec 3>&1 ## Store original stdout to fd 3.
exec 4> >(exec tee >(exec xargs -n 1 -d '\n' espeak -- &>/dev/null)) ## Open "espeak" as fd 4.
exec >&4 ## Redirect stdout to "espeak".
exec >&3 ## Redirect back to normal.
I use xargs -n 1 because espeak doesn't do anything until EOF is reached so we summon an instance of it per line. This can be customized of course, but there's your answer. And of course a while read loop can also be an option for this.
I also use exec's in process substitution to make sure we get rid of unnecessary subshells.

Seems like it's way easier than that - I just tested this and it works:
$ echo "these are not the droids you are looking for" | espeak --stdin
The --stdin flag is the key. From espeak's man page:
--stdin
Read text input from stdin instead of a file
And if what you want to hear is a very long output, I guess you can use xargs if you run into Argument list too long errors...

How to invoke bash, run commands inside the new shell, and then give control back to user?

This must either be really simple or really complex, but I couldn't find anything about it... I am trying to open a new bash instance, then run a few commands inside it, and give the control back to the user inside that same instance.
I tried:
$ bash -lic "some_command"
but this executes some_command inside the new instance, then closes it. I want it to stay open.
One more detail which might affect answers: if I can get this to work I will use it in my .bashrc as alias(es), so bonus points for an alias implementation!

bash --rcfile <(echo '. ~/.bashrc; some_command')
dispenses the creation of temporary files. Question on other sites:
https://serverfault.com/questions/368054/run-an-interactive-bash-subshell-with-initial-commands-without-returning-to-the
https://unix.stackexchange.com/questions/123103/how-to-keep-bash-running-after-command-execution

This is a late answer, but I had the exact same problem and Google sent me to this page, so for completeness here is how I got around the problem.
As far as I can tell, bash does not have an option to do what the original poster wanted to do. The -c option will always return after the commands have been executed.
Broken solution: The simplest and obvious attempt around this is:
bash -c 'XXXX ; bash'
This partly works (albeit with an extra sub-shell layer). However, the problem is that while a sub-shell will inherit the exported environment variables, aliases and functions are not inherited. So this might work for some things but isn't a general solution.
Better: The way around this is to dynamically create a startup file and call bash with this new initialization file, making sure that your new init file calls your regular ~/.bashrc if necessary.
# Create a temporary file
TMPFILE=$(mktemp)
# Add stuff to the temporary file
echo "source ~/.bashrc" > $TMPFILE
echo "<other commands>" >> $TMPFILE
echo "rm -f $TMPFILE" >> $TMPFILE
# Start the new bash shell
bash --rcfile $TMPFILE
The nice thing is that the temporary init file will delete itself as soon as it is used, reducing the risk that it is not cleaned up correctly.
Note: I'm not sure if /etc/bashrc is usually called as part of a normal non-login shell. If so you might want to source /etc/bashrc as well as your ~/.bashrc.

You can pass --rcfile to Bash to cause it to read a file of your choice. This file will be read instead of your .bashrc. (If that's a problem, source ~/.bashrc from the other script.)
Edit: So a function to start a new shell with the stuff from ~/.more.sh would look something like:
more() { bash --rcfile ~/.more.sh ; }
... and in .more.sh you would have the commands you want to execute when the shell starts. (I suppose it would be elegant to avoid a separate startup file -- you cannot use standard input because then the shell will not be interactive, but you could create a startup file from a here document in a temporary location, then read it.)

bash -c '<some command> ; exec /bin/bash'
will avoid additional shell sublayer

You can get the functionality you want by sourcing the script instead of running it. eg:
$cat script
cmd1
cmd2
$ . script
$ at this point cmd1 and cmd2 have been run inside this shell

Append to ~/.bashrc a section like this:
if [ "$subshell" = 'true' ]
then
# commands to execute only on a subshell
date
fi
alias sub='subshell=true bash'
Then you can start the subshell with sub.

The accepted answer is really helpful! Just to add that process substitution (i.e., <(COMMAND)) is not supported in some shells (e.g., dash).
In my case, I was trying to create a custom action (basically a one-line shell script) in Thunar file manager to start a shell and activate the selected Python virtual environment. My first attempt was:
urxvt -e bash --rcfile <(echo ". $HOME/.bashrc; . %f/bin/activate;")
where %f is the path to the virtual environment handled by Thunar.
I got an error (by running Thunar from command line):
/bin/sh: 1: Syntax error: "(" unexpected
Then I realized that my sh (essentially dash) does not support process substitution.
My solution was to invoke bash at the top level to interpret the process substitution, at the expense of an extra level of shell:
bash -c 'urxvt -e bash --rcfile <(echo "source $HOME/.bashrc; source %f/bin/activate;")'
Alternatively, I tried to use here-document for dash but with no success. Something like:
echo -e " <<EOF\n. $HOME/.bashrc; . %f/bin/activate;\nEOF\n" | xargs -0 urxvt -e bash --rcfile
P.S.: I do not have enough reputation to post comments, moderators please feel free to move it to comments or remove it if not helpful with this question.

With accordance with the answer by daveraja, here is a bash script which will solve the purpose.
Consider a situation if you are using C-shell and you want to execute a command
without leaving the C-shell context/window as follows,
Command to be executed: Search exact word 'Testing' in current directory recursively only in *.h, *.c files
grep -nrs --color -w --include="*.{h,c}" Testing ./
Solution 1: Enter into bash from C-shell and execute the command
bash
grep -nrs --color -w --include="*.{h,c}" Testing ./
exit
Solution 2: Write the intended command into a text file and execute it using bash
echo 'grep -nrs --color -w --include="*.{h,c}" Testing ./' > tmp_file.txt
bash tmp_file.txt
Solution 3: Run command on the same line using bash
bash -c 'grep -nrs --color -w --include="*.{h,c}" Testing ./'
Solution 4: Create a sciprt (one-time) and use it for all future commands
alias ebash './execute_command_on_bash.sh'
ebash grep -nrs --color -w --include="*.{h,c}" Testing ./
The script is as follows,
#!/bin/bash
# =========================================================================
# References:
# https://stackoverflow.com/a/13343457/5409274
# https://stackoverflow.com/a/26733366/5409274
# https://stackoverflow.com/a/2853811/5409274
# https://stackoverflow.com/a/2853811/5409274
# https://www.linuxquestions.org/questions/other-%2Anix-55/how-can-i-run-a-command-on-another-shell-without-changing-the-current-shell-794580/
# https://www.tldp.org/LDP/abs/html/internalvariables.html
# https://stackoverflow.com/a/4277753/5409274
# =========================================================================
# Enable following line to see the script commands
# getting printing along with their execution. This will help for debugging.
#set -o verbose
E_BADARGS=85
if [ ! -n "$1" ]
then
echo "Usage: `basename $0` grep -nrs --color -w --include=\"*.{h,c}\" Testing ."
echo "Usage: `basename $0` find . -name \"*.txt\""
exit $E_BADARGS
fi
# Create a temporary file
TMPFILE=$(mktemp)
# Add stuff to the temporary file
#echo "echo Hello World...." >> $TMPFILE
#initialize the variable that will contain the whole argument string
argList=""
#iterate on each argument
for arg in "$#"
do
#if an argument contains a white space, enclose it in double quotes and append to the list
#otherwise simply append the argument to the list
if echo $arg | grep -q " "; then
argList="$argList \"$arg\""
else
argList="$argList $arg"
fi
done
#remove a possible trailing space at the beginning of the list
argList=$(echo $argList | sed 's/^ *//')
# Echoing the command to be executed to tmp file
echo "$argList" >> $TMPFILE
# Note: This should be your last command
# Important last command which deletes the tmp file
last_command="rm -f $TMPFILE"
echo "$last_command" >> $TMPFILE
#echo "---------------------------------------------"
#echo "TMPFILE is $TMPFILE as follows"
#cat $TMPFILE
#echo "---------------------------------------------"
check_for_last_line=$(tail -n 1 $TMPFILE | grep -o "$last_command")
#echo $check_for_last_line
#if tail -n 1 $TMPFILE | grep -o "$last_command"
if [ "$check_for_last_line" == "$last_command" ]
then
#echo "Okay..."
bash $TMPFILE
exit 0
else
echo "Something is wrong"
echo "Last command in your tmp file should be removing itself"
echo "Aborting the process"
exit 1
fi

$ bash --init-file <(echo 'some_command')
$ bash --rcfile <(echo 'some_command')
In case you can't or don't want to use process substitution:
$ cat script
some_command
$ bash --init-file script
Another way:
$ bash -c 'some_command; exec bash'
$ sh -c 'some_command; exec sh'
sh-only way (dash, busybox):
$ ENV=script sh

Here is yet another (working) variant:
This opens a new gnome terminal, then in the new terminal it runs bash. The user's rc file is read first, then a command ls -la is sent for execution to the new shell before it turns interactive.
The last echo adds an extra newline that is needed to finish execution.
gnome-terminal -- bash -c 'bash --rcfile <( cat ~/.bashrc; echo ls -la ; echo)'
I also find it useful sometimes to decorate the terminal, e.g. with colorfor better orientation.
gnome-terminal --profile green -- bash -c 'bash --rcfile <( cat ~/.bashrc; echo ls -la ; echo)'