What is the difference between sh and source?

source: source filename [arguments]
    Read and execute commands from FILENAME and return.  The pathnames
    in $PATH are used to find the directory containing FILENAME.  If any
    ARGUMENTS are supplied, they become the positional parameters when
    FILENAME is executed.

And for man sh:

       bash - GNU Bourne-Again SHell

       bash [options] [file]

       Bash is Copyright (C) 1989-2004 by the Free Software Foundation, Inc.

       Bash  is  an sh-compatible command language interpreter that executes commands read from the standard input or from a file.  Bash also incorporates
       useful features from the Korn and C shells (ksh and csh).

       Bash is intended to be a conformant implementation of the IEEE POSIX Shell and Tools specification (IEEE Working Group 1003.2).

When you call source (or its alias .), you load and execute a bash script into the current bash process. So you can

  • read variables set in the sourced script,
  • use functions defined within it.
  • and even execute forks and/or subprocess if script do this.

When you call sh, you initiate a fork (sub-process or child) that runs a new session of /bin/sh, which is usually a symbolic link to bash. In this case, environment variables set by the sub-script would be dropped when the sub-script finishes.

Caution: sh could be a symlink to another shell.

Practical sample

For example, if you want to change current working directory by a specific manner, you could not do

$ cat <<eof >myCd2Doc.sh
cd /usr/share/doc

$ chmod +x myCd2Doc.sh

This won't do what you expect:

$ cd /tmp
$ pwd
$ ~/myCd2Doc.sh
$ pwd

because current working dir is part of environment and myCd2Doc.sh would run in a subshell.


$ cat >myCd2Doc.source <<eof
# Shell source file
myCd2Doc() {
    cd /usr/share/doc

$ . myCd2Doc.source
$ cd /tmp
$ pwd
$ myCd2Doc
$ pwd

Have a look at mycd function!! (With completion based on Associative Array).

Execution level $SHLVL

$ cd /tmp
printf %b '\43\41/bin/bash\necho This is level \44SHLVL.\n' >qlvl.sh

$ bash qlvl.sh 
This is level 2.

$ source qlvl.sh 
This is level 1.

Recursion (when a script run from itself)

$ cat <<eoqlvl2 >qlvl2.sh 

export startLevel recursionLimit=5
echo This is level $SHLVL started:${startLevel:=$SHLVL}.
(( SHLVL < recursionLimit )) && ./qlvl2.sh
$ chmod +x qlvl2.sh

$ ./qlvl2.sh 
This is level 2 started:2.
This is level 3 started:2.
This is level 4 started:2.
This is level 5 started:2.

$ source qlv2.sh 
This is level 1 started:1.
This is level 2 started:1.
This is level 3 started:1.
This is level 4 started:1.
This is level 5 started:1.

A little futher

$ sed '$a ps --sid $SID fw' qlvl.sh >qlvl3.sh
$ chmod +x qlvl3.sh 
$ export SID
$ read SID < <(ps ho sid $$)
$ echo $SID $$
8983 8983

( Current PID ($$ == process Id) are same identifier than SID (session ID). It's not alway true.)

$ ./qlvl3.sh 
This is level 2.
 8983 pts/10   Ss     0:00 /bin/bash
10266 pts/10   S+     0:00  \_ /bin/bash ./qlvl3.sh
10267 pts/10   R+     0:00      \_ ps --sid 8983 fw

$ . qlvl3.sh 
This is level 1.
 8983 pts/10   Ss     0:00 /bin/bash
10428 pts/10   R+     0:00  \_ ps --sid 8983 fw

Dot . is an alias of source. So the only difference between two command are slash replaced by space.

And a final test:

$ printf %b '\43\41/bin/bash\necho Ending this.\nsleep 1;exit 0\n' >finalTest.sh

$ bash finalTest.sh 
Ending this.

$ source finalTest.sh
Ending this.

... You may notice a different behaviour between the two syntaxes. ;-)

| improve this answer | |
  • 1
    Should also note that any environment variables that aren't exported won't be available to a script that is invoked under a new shell. – Will Vousden Mar 14 '15 at 17:09
  • (The same goes for aliases and shell functions.) – Will Vousden Mar 14 '15 at 17:15
  • @WillVousden: Alias seem not to be exportable at all, you could export variables and/or functions, but not aliases. – F. Hauri Mar 14 '15 at 18:26
  • Yep, I don't think aliases can be exported. – Will Vousden Mar 14 '15 at 18:35

The main difference is that they are executed in a different process.

So if you source a file foo which does a cd, the sourcing shell (e.g. your interactive shell in the terminal) is affected (and its current directory will change)

If you execute sh foo the cd does not affect the sourcing shell, only the freshly created sh process running foo

Read the Advanced Bash Scripting Guide.

That difference is not specific to Linux; every Posix implementation would have it.

| improve this answer | |
  • 2
    No, do not read the Advanced Bash (in fact they mean Bug) Scripting Guide – gniourf_gniourf Dec 9 '12 at 10:13
  • 1
    Why do you think the ABSG is wrong for newbies? It teaches a lot of useful things.... What alternative guide do you suggest? – Basile Starynkevitch Dec 9 '12 at 10:14
  • It teaches the worse bash practices. Just look at the first examples, you'll understand how terrible it is: uppercase variable names, useless uses of cats, ... – gniourf_gniourf Dec 9 '12 at 10:16
  • 1
    Then suggest an alternative better tutorial document. I think it is good enough for newbies... – Basile Starynkevitch Dec 9 '12 at 10:18
  • 1
    One alternative is mywiki.wooledge.org/BashGuide and there are links to more at wiki.bash-hackers.org/scripting/tutoriallist – tripleee Apr 2 '16 at 7:28

As others have mentioned, when you run sh test.sh, any changes that test.sh makes to your shell environment won't persist after the process has ended.

However, also note that any element of your environment that isn't exported (e.g., variables, aliases, and shell functions) won't be available to the code in test.sh when it is executed as a subprocess (i.e. with sh test.sh).

For example:

$ cat > test.sh
echo $foo
$ foo=bar
$ sh test.sh
$ . test.sh

Example 2:

lap@my-ThinkPad:~$ cat test.sh
cd /etc
lap@my-ThinkPad:~$ sh test.sh 
lap@my-ThinkPad:~$ pwd
lap@my-ThinkPad:~$ source test.sh 
lap@my-ThinkPad:/etc$ pwd
| improve this answer | |

source (or . ) - runs inside current shell and changes its attribute/environment.

sh do fork and runs in a subshell and hence can't change attributes/environment.

For example

My shell script is -

elite12!rg6655:~/sh_pr [33]$ cat changeDir.sh
cd /home/elt/rg6655/sh_pr/justdir
echo $$

My Current Shell -

elite12!rg6655:~/sh_pr [32]$ echo $$

Process id of my current shell is 3272

Running with the source -

elite12!rg6655:~/sh_pr [34]$ source changeDir.sh

Observer two things - 1) The process id (3272) is same as my shell, which confirms source executes in the current shell. 2) cd command worked and directory got changed to justdir.

Running with sh -

elite12!rg6655:~/sh_pr [31]$ sh changeDir.sh

In this case, process id (13673) is different and directory remains the same which means it is running in a different process or subshell.

| improve this answer | |

When you execute a program with sh command:

  • your terminal will use sh or Bourne Shell to execute the program .
  • a new process is created because Bash makes an exact copy of itself . this child process has the same environment as its parent, only the process ID number is different. (this process called forking )
  • you need to need to have execution permission to execute it ( since it is forking )

and when you use source command :

  • you execute the program with your default interpreter
  • you execute the process in your current terminal ( technically your *nix command interpreted )
  • Since the program will be executed in current terminal you dont need to give it execution permission
| improve this answer | |
  • You don't need execute permission to invoke by passing it as an argument to sh (e.g. sh test.sh). You only need it if you want to invoke it directly (e.g. ./test.sh). – Will Vousden Mar 14 '15 at 17:11

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.