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When scripting in bash or any other shell in *NIX, while running a command that will take more than a few seconds, a progress bar is needed.

For example, copying a big file, opening a big tar file.

What ways do you recommend to add progress bars to shell scripts?

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22 Answers 22

up vote 304 down vote accepted

You can implement this by overwriting a line. Use \r to go back to the beginning of the line without writing \n to the terminal.

Write \n when you're done to advance the line.

Use echo -ne to:

  1. not print \n and
  2. to recognize escape sequences like \r.

Here's a demo:

echo -ne '#####                     (33%)\r'
sleep 1
echo -ne '#############             (66%)\r'
sleep 1
echo -ne '#######################   (100%)\r'
echo -ne '\n'
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I've allways wanted to know this. That's an epiphany for me!!!! Thanks! – Hugo Oct 27 '08 at 17:22
According to the echo man page (at least on MacOS X) sh/bash use their own built-in echo command that doesn't accept "-n" ... so in order to accomplish the same thing you need to put \r\c at the end of the string, instead of just \r – Justin Jenkins Apr 2 '12 at 1:17
The portable way to output this is to use printf instead of echo. – Jens May 30 '12 at 10:52
for printf we would have to use this format: printf "#### (50%%)\r", it wouldn't work with single quotes and percent sign needs to be escaped. – nurettin Sep 10 '13 at 9:55
The question was "How do I do progress bars" with an example of copying files. I focused on the "graphics" problem, not the calculation of how far along a file copy operation is. – Mitch Haile May 25 '14 at 5:00

Some posts have showed how to display the command's progress. In order to calculate it, you'll need to see how much you've progressed. On BSD systems some commands, such as dd(1), accept a SIGINFO signal, and will report their progress. On Linux systems some commands will respond similarly to SIGUSR1. If this facility is available, you can pipe your input through dd to monitor the number of bytes processed.

Alternatively, you can use lsof to obtain the offset of the file's read pointer, and thereby calculate the progress. I've written a command, named pmonitor, that displays the progress of processing a specified process or file. With it you can do things, such as the following.

$ pmonitor -c gzip
/home/dds/data/mysql-2015-04-01.sql.gz 58.06%

An earlier version of Linux and FreeBSD shell scripts appears on my blog.

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This is awesome, I always forget to pipe things through pv :-) I think my "stat" command works a bit differently, my (Linux) version of this script: – unhammer Jul 29 '14 at 12:46
Great post, always love it when awk's into play! – ShellFish May 29 at 1:42

use the linux command pv:

it doesn't know the size if it's in the middle of the stream, but it gives a speed and total and from there you can figure out how long it should take and get feedback so you know it hasn't hung.

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While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – Sasha Salauyou Apr 19 at 0:11

GNU tar has a useful option which gives a functionality of a simple progress bar.

(...) Another available checkpoint action is ‘dot’ (or ‘.’). It instructs tar to print a single dot on the standard listing stream, e.g.:

$ tar -c --checkpoint=1000 --checkpoint-action=dot /var

The same effect may be obtained by:

$ tar -c --checkpoint=.1000 /var
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A simpler method that works on my system using the pipeview ( pv ) utility.


tar -Ocf - $srcdir | pv -i 1 -w 50 -berps `du -bs $srcdir | awk '{print $1}'` | 7za a -si $outfile
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You may also be interested in how to do a spinner:

Can I do a spinner in Bash?


echo -n ' '
while true
    printf "\b${sp:i++%${#sp}:1}"

Each time the loop iterates, it displays the next character in the sp string, wrapping around as it reaches the end. (i is the position of the current character to display and ${#sp} is the length of the sp string).

The \b string is replaced by a 'backspace' character. Alternatively, you could play with \r to go back to the beginning of the line.

If you want it to slow down, put a sleep command inside the loop (after the printf).

A POSIX equivalent would be:

printf ' '
while true; do
    printf '\b%.1s' "$sp"

If you already have a loop which does a lot of work, you can call the following function at the beginning of each iteration to update the spinner:

spin() {
   printf "\b${sp:sc++:1}"
   ((sc==${#sp})) && sc=0
endspin() {
   printf "\r%s\n" "$@"

until work_done; do
   some_work ...
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Much shorter version, fully portable*: while :;do for s in / - \\ \|; do printf "\r$s";sleep .1;done;done (*: sleep may require ints rather than decimals) – Adam Katz Aug 19 at 20:13
@Daenyth. Thanks. Kindly where we should call the command that we need to watch it is progress using the previous code? – goro Aug 24 at 15:33

Got an easy progress bar function that i wrote the other day:

# 1. Create ProgressBar function
# 1.1 Input is currentState($1) and totalState($2)
function ProgressBar {
# Process data
    let _progress=(${1}*100/${2}*100)/100
    let _done=(${_progress}*4)/10
    let _left=40-$_done
# Build progressbar string lengths
    _fill=$(printf "%${_done}s")
    _empty=$(printf "%${_left}s")

# 1.2 Build progressbar strings and print the ProgressBar line
# 1.2.1 Output example:
# Progress : [########################################] 100%
printf "\rProgress : [${_fill// /#}${_empty// /-}] ${_progress}%%"


# Variables

# This accounts as the "totalState" variable for the ProgressBar function

# Proof of concept
for number in $(seq ${_start} ${_end})
    sleep 0.1
    ProgressBar ${number} ${_end}
printf '\nFinished!\n'

Or snag it from,

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My solution displays the percentage of the tarball that is currently being uncompressed and written. I use this when writing out 2GB root filesystem images. You really need a progress bar for these things. What I do is use gzip --list to get the total uncompressed size of the tarball. From that I calculate the blocking-factor needed to divide the file into 100 parts. Finally, I print a checkpoint message for each block. For a 2GB file this gives about 10MB a block. If that is too big then you can divide the BLOCKING_FACTOR by 10 or 100, but then it's harder to print pretty output in terms of a percentage.

Assuming you are using Bash then you can use the following shell function

untar_progress () 
  BLOCKING_FACTOR=$(gzip --list ${TARBALL} |
    perl -MPOSIX -ane '$.==2 && print ceil $F[1]/50688')
  tar --blocking-factor=${BLOCKING_FACTOR} --checkpoint=1 \
    --checkpoint-action='ttyout=Wrote %u%  \r' -zxf ${TARBALL}
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First of all bar is not the only one pipe progress meter. The other (maybe even more known) is pv (pipe viewer).

Secondly bar and pv can be used for example like this:

$ bar file1 | wc -l 
$ pv file1 | wc -l

or even:

$ tail -n 100 file1 | bar | wc -l
$ tail -n 100 file1 | pv | wc -l

one useful trick if you want to make use of bar and pv in commands that are working with files given in arguments, like e.g. copy file1 file2, is to use process substitution:

$ copy <(bar file1) file2
$ copy <(pv file1) file2

Process substitution is a bash magic thing that creates temporary fifo pipe files /dev/fd/ and connect stdout from runned process (inside parenthesis) through this pipe and copy sees it just like an ordinary file (with one exception, it can only read it forwards).


bar command itself allows also for copying. After man bar:

bar --in-file /dev/rmt/1cbn --out-file \
     tape-restore.tar --size 2.4g --buffer-size 64k

But process substitution is in my opinion more generic way to do it. An it uses cp program itself.

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This lets you visualize that a command is still executing:

while :;do echo -n .;sleep 1;done &
trap "kill $!" EXIT  #Die with parent if we die prematurely
tar zxf packages.tar.gz; # or any other command here
kill $! && trap " " EXIT #Kill the loop and unset the trap or else the pid might get reassigned and we might end up killing a completely different process

This will create an infinite while loop that executes in the background and echoes a "." every second. This will display . in the shell. Run the tar command or any a command you want. When that command finishes executing then kill the last job running in the background - which is the infinite while loop.

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Couldn't another job start in the background during execution and potentially get killed instead of the progress loop? – Dave Apr 24 at 13:28

Most unix commands will not give you the sort of direct feedback from which you can do this. Some will give you output on stdout or stderr that you can use.

For something like tar you could use the -v switch and pipe the output to a program that updates a small animation for each line it reads. As tar writes out a list of files it's unravelled the program can update the animation. To do a percent complete you would have to know the number of files and count the lines.

cp doesn't give this sort of output as far as I know. To monitor the progress of cp you would have to monitor the source and destination files and watch the size of the destination. You could write a small c program using the stat (2) system call to get the file size. This would read the size of the source then poll the destination file and update a % complete bar based on the size of the file written to date.

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for me easiest to use and best looking so far is command pv or bar like some guy already wrote

for example: need to make a backup of entire drive with dd

normally you use dd if="$input_drive_path" of="$output_file_path"

with pv you can make it like this :

dd if="$input_drive_path" | pv | dd of="$output_file_path"

and the progress goes directly to STDOUT as this:

    7.46GB 0:33:40 [3.78MB/s] [  <=>                                            ]

after it is done summary comes up

    15654912+0 records in
    15654912+0 records out
    8015314944 bytes (8.0 GB) copied, 2020.49 s, 4.0 MB/s
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To indicate progress of activity

while true; do sleep 0.25 && echo -ne "\r\\" && sleep 0.25 && echo -ne "\r|" && sleep 0.25 && echo -ne "\r/" && sleep 0.25 && echo -ne "\r-"; done;

To indicate progress of activity

while true; do sleep 0.25 && echo -ne "\rActivity: \\" && sleep 0.25 && echo -ne "\rActivity: |" && sleep 0.25 && echo -ne "\rActivity: /" && sleep 0.25 && echo -ne "\rActivity: -"; done;

To indicate progress of activity

while true; do sleep 0.25 && echo -ne "\r" && sleep 0.25 && echo -ne "\r>" && sleep 0.25 && echo -ne "\r>>" && sleep 0.25 && echo -ne "\r>>>"; sleep 0.25 && echo -ne "\r>>>>"; done;

To indicate progress of activity

while true; do sleep .25 && echo -ne "\r:Active:" && sleep .25 && echo -ne "\r:aCtive:" && sleep .25 && echo -ne "\r:acTive:" && sleep .25 && echo -ne "\r:actIve:" && sleep .25 && echo -ne "\r:actiVe:" && sleep .25 && echo -ne "\r:activE:"; done;

One can use flags/variables inside the while loop to check and display the value/extent of progress

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I did a pure shell version for an embedded system taking advantage of:

  • /usr/bin/dd's SIGUSR1 signal handling feature.

    Basically, if you send a 'kill SIGUSR1 $(pid_of_running_dd_process)', it'll output a summary of throughput speed and amount transferred.

  • backgrounding dd and then querying it regularly for updates, and generating hash ticks like old-school ftp clients used to.

  • Using /dev/stdout as the destination for non-stdout friendly programs like scp

The end result allows you to take any file transfer operation and get progress update that looks like old-school FTP 'hash' output where you'd just get a hash mark for every X bytes.

This is hardly production quality code, but you get the idea. I think it's cute.

For what it's worth, the actual byte-count might not be reflected correctly in the number of hashes - you may have one more or less depending on rounding issues. Don't use this as part of a test script, it's just eye-candy. And, yes, I'm aware this is terribly inefficient - it's a shell script and I make no apologies for it.

Examples with wget, scp and tftp provided at the end. It should work with anything that has emits data. Make sure to use /dev/stdout for programs that aren't stdout friendly.

# Copyright (C) Nathan Ramella ( 2010 
# LGPLv2 license
# If you use this, send me an email to say thanks and let me know what your product
# is so I can tell all my friends I'm a big man on the internet!

progress_filter() {

        local START=$(date +"%s")
        local SIZE=1
        local DURATION=1
        local BLKSZ=51200
        local TMPFILE=/tmp/tmpfile
        local PROGRESS=/tmp/tftp.progress
        local BYTES_LAST_CYCLE=0
        local BYTES_THIS_CYCLE=0

        rm -f ${PROGRESS}

        dd bs=$BLKSZ of=${TMPFILE} 2>&1 \
                | grep --line-buffered -E '[[:digit:]]* bytes' \
                | awk '{ print $1 }' >> ${PROGRESS} &

        # Loop while the 'dd' exists. It would be 'more better' if we
        # actually looked for the specific child ID of the running 
        # process by identifying which child process it was. If someone
        # else is running dd, it will mess things up.

        # My PID handling is dumb, it assumes you only have one running dd on
        # the system, this should be fixed to just get the PID of the child
        # process from the shell.

        while [ $(pidof dd) -gt 1 ]; do

                # PROTIP: You can sleep partial seconds (at least on linux)
                sleep .5    

                # Force dd to update us on it's progress (which gets
                # redirected to $PROGRESS file.
                # dumb pid handling again
                pkill -USR1 dd

                local BYTES_THIS_CYCLE=$(tail -1 $PROGRESS)

                # Don't print anything unless we've got 1 block or more.
                # This allows for stdin/stderr interactions to occur
                # without printing a hash erroneously.

                # Also makes it possible for you to background 'scp',
                # but still use the /dev/stdout trick _even_ if scp
                # (inevitably) asks for a password. 
                # Fancy!

                if [ $XFER_BLKS -gt 0 ]; then
                        printf "#%0.s" $(seq 0 $XFER_BLKS)

        local SIZE=$(stat -c"%s" $TMPFILE)
        local NOW=$(date +"%s")

        if [ $NOW -eq 0 ]; then

        local DURATION=$(($NOW-$START))
        local BYTES_PER_SECOND=$(( SIZE / DURATION ))
        local KBPS=$((SIZE/DURATION/1024))
        local MD5=$(md5sum $TMPFILE | awk '{ print $1 }')

        # This function prints out ugly stuff suitable for eval() 
        # rather than a pretty string. This makes it a bit more 
        # flexible if you have a custom format (or dare I say, locale?)

        printf "\nDURATION=%d\nBYTES=%d\nKBPS=%f\nMD5=%s\n" \
            $DURATION \
            $SIZE \
            $KBPS \


echo "wget"
wget -q -O /dev/stdout | progress_filter

echo "tftp"
tftp -l /dev/stdout -g -r something/firmware.bin | progress_filter

echo "scp"
scp user@ /dev/stdout | progress_filter
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Once I also had a busy script which was occupied for hours without showing any progress. So I implemented a function which mainly includes the techniques of the previous answers:

# Updates the progress bar
# Parameters: 1. Percentage value
  if [ $# -eq 1 ];
    if [[ $1 == [0-9]* ]];
      if [ $1 -ge 0 ];
        if [ $1 -le 100 ];
          local val=$1
          local max=100

          echo -n "["

          for j in $(seq $max);
            if [ $j -lt $val ];
              echo -n "="
              if [ $j -eq $max ];
                echo -n "]"
                echo -n "."

          echo -ne " "$val"%\r"

          if [ $val -eq $max ];
            echo ""

update_progress_bar 0
# Further (time intensive) actions and progress bar updates
update_progress_bar 100
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You could roll up those first four ifs into a single if statement with a series of ANDs, since you don't have any specific code within any of them: if [ $# -eq 1 ] && [[ $1 == [0-9]* ]] && [ $1 -ge 0 ] && [ $1 -le 100 ]; You could also circumvent the for loops and shorten your code with printf and command substitution: printf "["; printf "%.0=" $(seq $val); printf "%.0." $(seq $[ $val+1 ] $max); printf "] %s%%\r" $val; – CaffeineConnoisseur Jul 22 '14 at 1:16

In case you have to show a temporal progress bar (by knowing in advance the showing time), you can use Python as follows:

from time import sleep
import sys

if len(sys.argv) != 3:
    print "Usage:", sys.argv[0], "<total_time>", "<progressbar_size>"



for i in range(int(TOTTIME)+1):
    s = "[%-"+str(int(BARSIZE))+"s] %d%% "
    sys.stdout.write(s % ('='*int(BARRATE*i), int(PERCRATE*i)))
    SLEEPTIME = 1.0
    if i == int(TOTTIME): SLEEPTIME = 0.1
print ""

Then, assuming you saved the Python script as, it's possible to show the progress bar from your bash script by running the following command:

python 10 50

It would show a progress bar sized 50 characters and "running" for 10 seconds.

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I used an answer from Creating string of repeated characters in shell script for char repeating. I have two relatively small bash versions for scripts that need to display progress bar (for example, a loop that goes through many files, but not useful for big tar files or copy operations). The faster one consists of two functions, one to prepare the strings for bar display:

preparebar() {
# $1 - bar length
# $2 - bar char
    barspaces=$(printf "%*s" "$1")
    barchars=$(printf "%*s" "$1" | tr ' ' "$2")

and one to display a progress bar:

progressbar() {
# $1 - number (-1 for clearing the bar)
# $2 - max number
    if [ $1 -eq -1 ]; then
        printf "\r  $barspaces\r"
        printf "\r[%.${barch}s%.${barsp}s]\r" "$barchars" "$barspaces"

It could be used as:

preparebar 50 "#"

which means prepare strings for bar with 50 "#" characters, and after that:

progressbar 35 80

will display the number of "#" characters that corresponds to 35/80 ratio:

[#####################                             ]

Be aware that function displays the bar on the same line over and over until you (or some other program) prints a newline. If you put -1 as first parameter, the bar would be erased:

progressbar -1 80

The slower version is all in one function:

progressbar() {
# $1 - number
# $2 - max number
# $3 - number of '#' characters
    if [ $1 -eq -1 ]; then
        printf "\r  %*s\r" "$3"
        printf "\r[%*s" "$i" | tr ' ' '#'
        printf "%*s]\r" "$j"

and it can be used as (the same example as above):

progressbar 35 80 50

If you need progressbar on stderr, just add >&2 at the end of each printf command.

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To make a tar progress bar

tar xzvf pippo.tgz |xargs -L 19 |xargs -I@ echo -n "."

Where "19" is the number of files in the tar divided the length of the intended progress bar. Example: the .tgz contains 140 files and you'll want a progress bar of 76 ".", you can put -L 2.

You'll need nothing else.

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This is specific to tar, so unless the shell script only consist of tar command, it doesn't really apply to OP's case. – doubleDown Oct 20 '12 at 4:30

If you don't mind against using additional packages - there is an awesome tool, which shows colored information bar while copying data stream -

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easyer to install is Tom Feiner's answer: bar – rubo77 Sep 30 '13 at 7:07

I had the same thing to do today and based on Diomidis answer, here is how I did it (linux debian 6.0.7). Maybe, that could help you :


echo "getting script inode"
inode=`ls -i ./ | cut -d" " -f1`
echo $inode

echo "getting the script size"
size=`cat | wc -c`
echo $size

echo "executing script"
./ &
echo "child pid = $pid"

while true; do
        let offset=`lsof -o0 -o -p $pid | grep $inode | awk -F" " '{print $7}' | cut -d"t" -f 2`
        let percent=100*$offset/$size
        echo -ne " $percent %\r"
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can you explain what offset calculate . – deven98602 May 9 '13 at 7:46
When I start this script as root, I get the error: lsof: WARNING: can't stat() fuse.gvfsd-fuse file system /home/rubo77/.gvfs Output information may be incomplete. – rubo77 Sep 30 '13 at 11:30
And, I get the error: progressbar: Zeile 17: let: offset=: Syntax Fehler: Operator erwartet. (Fehlerverursachendes Zeichen ist \"=\"). if I call this script and call it with cd /tmp/; echo "sleep 5">; bash on Ubuntu 13.04 – rubo77 Sep 30 '13 at 11:37

I couldn't find bash throbber topic so pasting example code here

#!/usr/bin/env bash

C="0" # count
while [ $C -lt 20 ]
    case "$(($C % 4))" in
        0) char="/"
        1) char="-"
        2) char="\\"
        3) char="|"

    sleep .2
    echo -ne $char "\r"
echo -e 'done\r'
share|improve this answer
I would call this a spinner, not a progressbar – rubo77 Sep 30 '13 at 11:23
Thats true indeed – sobi3ch Oct 1 '13 at 10:33

This is only applicable using gnome zenity. Zenity provides a great native interface to bash scripts:

From Zenity Progress Bar Example:

echo "10" ; sleep 1
echo "# Updating mail logs" ; sleep 1
echo "20" ; sleep 1
echo "# Resetting cron jobs" ; sleep 1
echo "50" ; sleep 1
echo "This line will just be ignored" ; sleep 1
echo "75" ; sleep 1
echo "# Rebooting system" ; sleep 1
echo "100" ; sleep 1
) |
zenity --progress \
  --title="Update System Logs" \
  --text="Scanning mail logs..." \

if [ "$?" = -1 ] ; then
        zenity --error \
          --text="Update canceled."
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