Pretty much every product I've worked on over the years has involved some level of shell scripts (or batch files, PowerShell etc. on Windows). Even though we wrote the bulk of the code in Java or C++, there always seemed to be some integration or install tasks that were better done with a shell script.

The shell scripts thus become part of the shipped code and therefore need to be tested just like the compiled code. Does anyone have experience with some of the shell script unit test frameworks that are out there, such as shunit2 ? I'm mainly interested in Linux shell scripts for now; I'd like to know how well the test harness duplicate the functionality and ease of use of other xUnit frameworks, and how easy it is to integrate with continuous build systems such as CruiseControl or Hudson.

  • Roundup formalizes some tasks/tags for you. Once you get over the learning hump, it's quite useful. Personally, I like haridsv's approach better, because it doesn't require me to install another pkg. I have apply this approach to shell script and python testings.
    – todo
    Commented May 2, 2013 at 2:30
  • 1
    You can also check bashtest util: github.com/pahaz/bashtest (it`s simple way to write bash tests)
    – pahaz
    Commented Jul 25, 2016 at 17:17
  • 1
    Checkout this overview of almost every possible tool: medium.com/wemake-services/…
    – sobolevn
    Commented Nov 7, 2017 at 8:12
  • @sobolevn very nice article, thanks! Commented Nov 7, 2017 at 10:44

7 Answers 7


UPDATE 2019-03-01: My preference is bats now. I have used it for a few years on small projects. I like the clean, concise syntax. I have not integrated it with CI/CD frameworks, but its exit status does reflect the overall success/failure of the suite, which is better than shunit2 as described below.


I'm using shunit2 for shell scripts related to a Java/Ruby web application in a Linux environment. It's been easy to use, and not a big departure from other xUnit frameworks.

I have not tried integrating with CruiseControl or Hudson/Jenkins, but in implementing continuous integration via other means I've encountered these issues:

  • Exit status: When a test suite fails, shunit2 does not use a nonzero exit status to communicate the failure. So you either have to parse the shunit2 output to determine pass/fail of a suite, or change shunit2 to behave as some continuous integration frameworks expect, communicating pass/fail via exit status.
  • XML logs: shunit2 does not produce a JUnit-style XML log of results.
  • Pete, I am very close to releasing a unit test library which works for bash and ksh, very simple to use. Can you send me a link to the Junit-style XML log someplace so I can see what it contains? Also would you want exit status for a single failing test or at the end when completed, if > 0 test fail exit 1? The way I do it now is that there is a function you can call to get the # of tests which passed/failed.
    – Ethan Post
    Commented Mar 2, 2017 at 15:07
  • @EthanPost I no longer use/require XML logs. You might find help by googling for things like "xunit xml format". Things like this: xunit.github.io/docs/format-xml-v2.html Commented Mar 15, 2017 at 17:35
  • 2
    shunit now also exits with correct exit code: github.com/kward/shunit2/blob/…
    – Flamefire
    Commented May 23, 2019 at 14:35

Wondering why nobody mentioned BATS. It's up-to-date and TAP-compliant.


#!/usr/bin/env bats

@test "addition using bc" {
  result="$(echo 2+2 | bc)"
  [ "$result" -eq 4 ]


$ bats addition.bats
 ✓ addition using bc

1 tests, 0 failures
  • 1
    +1 for BATS! Judging by its github metrics (12 contributors, almost 2000 stars), this is the tool most people choose as their bash xUnit test runner. Commented Sep 10, 2015 at 16:59
  • 1
    +1: I've used BATS before a while back and was not entirely overwhelmed. Found this excellent (independent ?) Getting Started document today, followed it through and am now totally sold on BATS.
    – ssc
    Commented Feb 23, 2018 at 19:19
  • As I've read this answer my first impulse was "Nah, the maintainer doesn't respond to issues and it has some severe bugs but then I discovered that it has been forked since I've used it last time"
    – Andy
    Commented Jan 25, 2019 at 9:02

Roundup by @blake-mizerany sounds great, and I should make use of it in the future, but here is my "poor-man" approach for creating unit tests:

  • Separate everything testable as a function.
  • Move functions into an external file, say functions.sh and source it into the script. You can use source `dirname $0`/functions.sh for this purpose.
  • At the end of functions.sh, embed your test cases in the below if condition:

    if [[ "${BASH_SOURCE[0]}" == "${0}" ]]; then
  • Your tests are literal calls to the functions followed by simple checks for exit codes and variable values. I like to add a simple utility function like the below to make it easy to write:

    function assertEquals()
        msg=$1; shift
        expected=$1; shift
        actual=$1; shift
        if [ "$expected" != "$actual" ]; then
            echo "$msg EXPECTED=$expected ACTUAL=$actual"
            exit 2
  • Finally, run functions.sh directly to execute the tests.

Here is a sample to show the approach:

    function adder()
        return $(($1+$2))

        [[ "${BASH_SOURCE[0]}" == "${0}" ]] || exit 0
        function assertEquals()
            msg=$1; shift
            expected=$1; shift
            actual=$1; shift
            /bin/echo -n "$msg: "
            if [ "$expected" != "$actual" ]; then
                echo "FAILED: EXPECTED=$expected ACTUAL=$actual"
                echo PASSED

        adder 2 3
        assertEquals "adding two numbers" 5 $?
  • 2
    Nice, thanks - I really like the structured programming approach to shell scripts. Commented Mar 25, 2013 at 17:06
  • Very good observation there: 'Separate everything testable as a function'. It's important even if you don't (yet) write a test for it. It is a major factor in improving code readability. A couple of years back I started writing my (ksh) script according to this principle. Write everything as a function. Commented May 14, 2013 at 9:21
  • @HenkLangeveld Won't the exit 0 cause the "sourcee" (the one sourcing this) to exit as well? I think you are looking for return here.
    – haridsv
    Commented May 14, 2013 at 12:46
  • @haridsv Good question. When you source the file, you don't want to run the tests. By collecting all test-related code into a subshell, we don't spoil the runtime environment of the 'consumer'. That exit 0 only terminates the subshell. Commented May 15, 2013 at 20:01
  • @HenkLangeveld oops, you are right, I didn't pay attention to the parenthesis you added.
    – haridsv
    Commented May 16, 2013 at 5:36

I recently released new testing framework called shellspec.

shellspec is BDD style testing framework. It's works on POSIX compatible shell script including bash, dash, ksh, busybox etc.

Of course, the exit status reflects the result of running of the specs and it's has TAP-compliant formatter.

The specfile is close to natural language and easy to read, and also it's shell script compatible syntax.

#shellcheck shell=sh

Describe 'sample'
  Describe 'calc()'
    calc() { echo "$(($*))"; }

    It 'calculates the formula'
      When call calc 1 + 2
      The output should equal 3
  • Supported JUnit formatter in version 0.16.0. and also supported coverage, parallel execution and more. Commented Jul 4, 2019 at 19:32

In addition to roundup and shunit2 my overview of shell unit testing tools also included assert.sh and shelltestrunner.

I mostly agree with roundup author's critique of shunit2 (some of it subjective), so I excluded shunit2 after looking at the documentation and examples. Although, it did look familiar having some experience with jUnit.

In my opinion shelltestrunner is the most original of the tools I've looked at since it uses simple declarative syntax for test case definition. As usual, any level of abstraction gives some convenience at the cost of some flexibility. Even though, the simplicity is attractive I found the tool too limiting for the case I had, mainly because of the lack of a way to define setup/tearDown actions (for example, manipulate input files before a test, remove state files after a test, etc.).

I was at first a little confused that assert.sh only allows asserting either output or exit status, while I needed both. Long enough to write a couple of test cases using roundup. But I soon found the roundup's set -e mode inconvenient as non-zero exit status is expected in some cases as a means of communicating the result in addition to stdout, which makes the test case fail in said mode. One of the samples shows the solution:

status=$(set +e ; rup roundup-5 >/dev/null ; echo $?)

But what if I need both the non-zero exit status and the output? I could, of course, set +e before invocation and set -e after or set +e for the whole test case. But that's against the roundup's principle "Everything is an Assertion". So it felt like I'm starting to work against the tool.

By then I've realized the assert.sh's "drawback" of allowing to only assert either exit status or output is actually a non-issue as I can just pass in test with a compound expression like this

expected_output="the expectation"
assert_raises "test \"$output\" = \"$expected_output\" -a $status -eq 2"

As my needs were really basic (run a suite of tests, display that all went fine or what failed), I liked the simplicity of assert.sh, so that's what I chose.


You should try out the assert.sh lib, very handy, easy to use

local expected actual
assert_eq "$expected" "$actual" "not equivalent!"
# => x Hello == World :: not equivalent! 

I have recently encountered a very thorough review of existing Bash unit testing frameworks - https://github.com/dodie/testing-in-bash

Shellspec has been so far the best, however it still depends on what you would like to achieve.

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