Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have a shell script which executes a various of commands like killing processes, copying files via scp, performing remote commands via ssh and etc...

The problem is that this script is hard to maintain and hard to unit test. Moreover, I want in the future to change it so it would work with xml config file, and I think that it cant be easily done with shell scripts. So, I want to transform it to a java application, but just running many commands with ProcessBuilder doesn't feel right.

On the other hand, searching for java solutions for each "problem" that today is easily solved in shell commands (like java ssh client, java API for linux processes and etc..), also doesn't feel right.

EDIT: I know for sure that my program will run in a linux environment, so cross platform is a non-issue here.

Any suggestion?

share|improve this question
1  
The reason why it is hard to maintain is that it is a "do it all" wrapper around basic functionality. In my opinion you are better off coding full applications (with exception handling and junit tests) around specific use cases, and possibly keep a set of limited shell scripts for specific maintainance tasks. –  Maarten Bodewes Jan 8 '12 at 13:12
    
/bin/sh can do a lot. If you can keep your configuration as a plain list of variables you can call "source"/"." to read it in. If you have an XML file write an XSLT script to create the list of variables. –  Thorbjørn Ravn Andersen Jan 8 '12 at 13:20

4 Answers 4

up vote 5 down vote accepted

I've used many languages for shell scripting; from Python, PHP, to Java - and I keep coming back to using the right tool for the job.

In the linux world, bash scripting is usually powerful enough, and perl has lots of good OS support.

It has surprised some of our developers in the past, that you can actually build functions within bash scripts, hand around state and manage a lot of what you'd normally expect. It's just another language, but with the command line at the heart of it.

UPDATE:

Another thing I'd add is follow the principle of least astonishment, which in this case means that you should write the code to be what those managing the system would expect. All too often I see Java programmers writing their deployment like Java programmers, not system administrators. If you're going to be handing these scripts over to a system administrator / operations role, then they are likely to be more familiar with shell scripts than a Java program they would have to compile.

On another note - treat your shell scripts like proper code. Put it in source control (my whole /etc is under Git management), have a bug tracking system, etc. It makes maintenance much easier.

share|improve this answer
    
Thanks for the reply. How would you perform unit tests for bash scripts? And how would you catch errors, assuming that one of the tasks that the script does today is calling another script which runs a given java program? –  AAaa Jan 8 '12 at 13:26
    
Handle errors how everything else does in unix - through exit codes. slac.stanford.edu/BFROOT/www/Computing/Environment/Tools/Batch/… –  brainzzy Jan 8 '12 at 13:29
1  
TDD and Bash has been answered many times before, here is one: stackoverflow.com/questions/1315624/… -- it's Worth noting that with testing shell scripts, it's usually the interactions with the processes you are calling out to that is hardest to test, regardless of whether it's in bash / or any other language. –  brainzzy Jan 8 '12 at 13:31
    
Lots of good advice in this answer. Python would be the right tool for this particular job (IMHO) –  Johnsyweb Jan 10 '12 at 14:51

Java isn't quite good for shell scripting, but Groovy (which is based on Java), might be better to write and mantain, and is fully compatible with Java

http://groovy.codehaus.org/Running

share|improve this answer
    
how do I call sqlplus $USER@$INSTANCE @$file | awk '{print $2}' from groovy? –  alf Jan 8 '12 at 14:03
1  

To me it sounds like you need the ease of shell scripting combined with the ability to maintain and test the code while still being able to do some higher level tasks within the language.

Luckily that's exactly where the dynamic languages shine (also called scripting languages). There's (in my personal order of preference) Python, Ruby, Perl, Groovy, and a few others.

share|improve this answer
    
which one in your opinion is with the smallest learning curve? –  AAaa Jan 8 '12 at 13:20
    
@Antti: have you found any of those other than Perl to have nice command line support, where you don't have to go around the houses? I've tried most of them and haven't found any to be as straight forward as writing shell scripts. –  brainzzy Jan 8 '12 at 13:24
1  
Python has the smallest learning curve in my opinion. It's true that there are cases where shell scripting is more straightforward, but on the other hand I find e.g. Python much more comfortable when writing any script that's longer than a few hundred lines. –  Antti Jan 8 '12 at 14:42

One slightly harebrained idea for "unit testing" shell scripts would be to have a wrapper script which executes your script in a controlled environment - namely that it defines functions which "mock" the real commands you don't want to execute (e.g. ssh() { }).

This would allow you to test the interactions you're interested in, without worrying about the other processes you're calling out to, as brainzzy describes. This is still very dependent on well designed bash code, but at least in theory it'd be possible, I think.

Demo:

$ cat /tmp/grep.sh
#!/bin/bash

# Simple program that relies on grep
echo -e "This is a test\nThis line doesn't match." | grep test

Unit Tester:

$ cat /tmp/unittest.sh
#!/bin/bash

grep() {
  echo "Mock GREP result"
}

. "$@"

Now if we run grep.sh directly, it searches as expected:

$ /tmp/grep.sh
This is a test

But if run from within the unittest script the grep is mocked by the function:

$ /tmp/unittest.sh /tmp/grep.sh
Mock GREP result

Allowing us to test whatever behavior we're trying to verify.

This has several limiting factors, like needing to be run from the same shell (the . command) meaning that if the script in turn calls other scripts, they will again be calling the real commands.

An alternative would be to define a set of scripts in a unit test directory, e.g.

$ ls /usr/local/unitbin
grep
ssh
svn

Then have the unit test script change the PATH the script runs from, e.g.:

$ cat /tmp/unittest.sh
#!/bin/bash

PATH=/usr/local/unitbin:$PATH "$@"

This should work for scripts that call other scripts in turn.


Both of these examples, like I said, are slightly ridiculous, and potentially more trouble than they're worth. I would definitely look to the other answers to this question before considering this path. But if you have bash code that you'd like to unit test, but can't run in a sandbox safely, one of these options might work for you.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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