Bats is a TAP-compliant testing framework for Bash. It provides a simple way to verify that the UNIX programs you write behave as expected.
A Bats test file is a Bash script with special syntax for defining test cases. Under the hood, each test case is just a function with a description.
#!/usr/bin/env bats
@test "addition using bc" {
result="$(echo 2+2 | bc)"
[ "$result" -eq 4 ]
}
@test "addition using dc" {
result="$(echo 2 2+p | dc)"
[ "$result" -eq 4 ]
}
Bats is most useful when testing software written in Bash, but you can use it to test any UNIX program.
Test cases consist of standard shell commands. Bats makes use of Bash's
errexit
(set -e
) option when running test cases. If every command in the
test case exits with a 0
status code (success), the test passes. In this way,
each line is an assertion of truth.
Tuesday, September 19, 2017: This is a mirrored fork of Bats at
commit 0360811. It was created via git clone --bare
and git push --mirror
. See the Background section below for more information.
The following is a list of Bash versions that are currently supported by Bats. This list is composed of platforms that Bats has been tested on and is known to work on without issues.
-
Bash versions:
- Everything from
3.2.57(1)
and higher (macOS's highest version)
- Everything from
-
Operating systems:
- Arch Linux
- Alpine Linux
- Ubuntu Linux
- FreeBSD
10.x
and11.x
- macOS
- Windows 10
-
Latest version for the following Windows platforms:
- Git for Windows Bash (MSYS2 based)
- Windows Subsystem for Linux
- MSYS2
- Cygwin
On macOS, you can install Homebrew if you haven't already, then run:
$ brew install bats-core
You can install the Bats npm package via:
# To install globally:
$ npm install -g bats
# To install into your project and save it as one of the "devDependencies" in
# your package.json:
$ npm install --save-dev bats
Check out a copy of the Bats repository. Then, either add the Bats bin
directory to your $PATH
, or run the provided install.sh
command with the
location to the prefix in which you want to install Bats. For example, to
install Bats into /usr/local
,
$ git clone https://github.com/bats-core/bats-core.git
$ cd bats-core
$ ./install.sh /usr/local
Note that you may need to run install.sh
with sudo
if you do not have
permission to write to the installation prefix.
There is an official image on the Docker Hub:
$ docker run -it bats/bats:latest --version
Check out a copy of the Bats repository, then build a container image:
$ git clone https://github.com/bats-core/bats-core.git
$ cd bats-core
$ docker build --tag bats/bats:latest .
This creates a local Docker image called bats/bats:latest
based on Alpine
Linux
(to push to private registries, tag it with another organisation, e.g.
my-org/bats:latest
).
To run Bats' internal test suite (which is in the container image at
/opt/bats/test
):
$ docker run -it bats/bats:latest /opt/bats/test
To run a test suite from your local machine, mount in a volume and direct Bats to its path inside the container:
$ docker run -it -v "$(pwd):/code" bats/bats:latest /code/test
This is a minimal Docker image. If more tools are required this can be used as a
base image in a Dockerfile using FROM <Docker image>
. In the future there may
be images based on Debian, and/or with more tools installed (curl
and openssl
,
for example). If you require a specific configuration please search and +1 an
issue or raise a new issue.
Further usage examples are in the wiki.
Bats comes with two manual pages. After installation you can view them with man 1 bats
(usage manual) and man 7 bats
(writing test files manual). Also, you
can view the available command line options that Bats supports by calling Bats
with the -h
or --help
options. These are the options that Bats currently
supports:
Bats x.y.z
Usage: bats [-cr] [-f <regex>] [-p | -t] <test>...
bats [-h | -v]
<test> is the path to a Bats test file, or the path to a directory
containing Bats test files (ending with ".bats").
-c, --count Count the number of test cases without running any tests
-f, --filter Filter test cases by names matching the regular expression
-h, --help Display this help message
-p, --pretty Show results in pretty format (default for terminals)
-r, --recursive Include tests in subdirectories
-t, --tap Show results in TAP format
-v, --version Display the version number
For more information, see https://github.com/bats-core/bats-core
To run your tests, invoke the bats
interpreter with one or more paths to test
files ending with the .bats
extension, or paths to directories containing test
files. (bats
will only execute .bats
files at the top level of each
directory; it will not recurse unless you specify the -r
flag.)
Test cases from each file are run sequentially and in isolation. If all the test
cases pass, bats
exits with a 0
status code. If there are any failures,
bats
exits with a 1
status code.
When you run Bats from a terminal, you'll see output as each test is performed, with a check-mark next to the test's name if it passes or an "X" if it fails.
$ bats addition.bats
✓ addition using bc
✓ addition using dc
2 tests, 0 failures
If Bats is not connected to a terminal—in other words, if you run it from a continuous integration system, or redirect its output to a file—the results are displayed in human-readable, machine-parsable TAP format.
You can force TAP output from a terminal by invoking Bats with the --tap
option.
$ bats --tap addition.bats
1..2
ok 1 addition using bc
ok 2 addition using dc
Each Bats test file is evaluated n+1 times, where n is the number of test cases in the file. The first run counts the number of test cases, then iterates over the test cases and executes each one in its own process.
For more details about how Bats evaluates test files, see Bats Evaluation Process on the wiki.
Many Bats tests need to run a command and then make assertions about its exit
status and output. Bats includes a run
helper that invokes its arguments as a
command, saves the exit status and output into special global variables, and
then returns with a 0
status code so you can continue to make assertions in
your test case.
For example, let's say you're testing that the foo
command, when passed a
nonexistent filename, exits with a 1
status code and prints an error message.
@test "invoking foo with a nonexistent file prints an error" {
run foo nonexistent_filename
[ "$status" -eq 1 ]
[ "$output" = "foo: no such file 'nonexistent_filename'" ]
}
The $status
variable contains the status code of the command, and the
$output
variable contains the combined contents of the command's standard
output and standard error streams.
A third special variable, the $lines
array, is available for easily accessing
individual lines of output. For example, if you want to test that invoking foo
without any arguments prints usage information on the first line:
@test "invoking foo without arguments prints usage" {
run foo
[ "$status" -eq 1 ]
[ "${lines[0]}" = "usage: foo <filename>" ]
}
You may want to share common code across multiple test files. Bats includes a
convenient load
command for sourcing a Bash source file relative to the
location of the current test file. For example, if you have a Bats test in
test/foo.bats
, the command
load test_helper
will source the script test/test_helper.bash
in your test file. This can be
useful for sharing functions to set up your environment or load fixtures.
If you want to source a file using an absolute file path then the file extension must be included. For example
load /test_helpers/test_helper.bash
Tests can be skipped by using the skip
command at the point in a test you wish
to skip.
@test "A test I don't want to execute for now" {
skip
run foo
[ "$status" -eq 0 ]
}
Optionally, you may include a reason for skipping:
@test "A test I don't want to execute for now" {
skip "This command will return zero soon, but not now"
run foo
[ "$status" -eq 0 ]
}
Or you can skip conditionally:
@test "A test which should run" {
if [ foo != bar ]; then
skip "foo isn't bar"
fi
run foo
[ "$status" -eq 0 ]
}
You can define special setup
and teardown
functions, which run before and
after each test case, respectively. Use these to load fixtures, set up your
environment, and clean up when you're done.
You can include code in your test file outside of @test
functions. For
example, this may be useful if you want to check for dependencies and fail
immediately if they're not present. However, any output that you print in code
outside of @test
, setup
or teardown
functions must be redirected to
stderr
(>&2
). Otherwise, the output may cause Bats to fail by polluting the
TAP stream on stdout
.
Bats makes a separation between output from the code under test and output that forms the TAP stream (which is produced by Bats internals). This is done in order to produce TAP-compliant output. In the Printing to the terminal section, there are details on how to use file descriptor 3 to print custom text properly.
A side effect of using file descriptor 3 is that, under some circumstances, it
can cause Bats to block and execution to seem dead without reason. This can
happen if a child process is spawned in the background from a test. In this
case, the child process will inherit file descriptor 3. Bats, as the parent
process, will wait for the file descriptor to be closed by the child process
before continuing execution. If the child process takes a lot of time to
complete (eg if the child process is a sleep 100
command or a background
service that will run indefinitely), Bats will be similarly blocked for the same
amount of time.
To prevent this from happening, close FD 3 explicitly when running any command
that may launch long-running child processes, e.g. command_name 3>- &
.
Bats produces output compliant with version 12 of the TAP protocol. The
produced TAP stream is by default piped to a pretty formatter for human
consumption, but if Bats is called with the -t
flag, then the TAP stream is
directly printed to the console.
This has implications if you try to print custom text to the terminal. As
mentioned in File descriptor 3, bats provides a special
file descriptor, &3
, that you should use to print your custom text. Here are
some detailed guidelines to refer to:
-
Printing from within a test function:
-
To have text printed from within a test function you need to redirect the output to file descriptor 3, eg
echo 'text' >&3
. This output will become part of the TAP stream. You are encouraged to prepend text printed this way with a hash (egecho '# text' >&3
) in order to produce 100% TAP compliant output. Otherwise, depending on the 3rd-party tools you use to analyze the TAP stream, you can encounter unexpected behavior or errors. -
The pretty formatter that Bats uses by default to process the TAP stream will filter out and not print text output to file descriptor 3.
-
Text that is output directly to stdout or stderr (file descriptor 1 or 2), ie
echo 'text'
is considered part of the test function output and is printed only on test failures for diagnostic purposes, regardless of the formatter used (TAP or pretty).
-
-
Printing from within the
setup
orteardown
functions: The same hold true as for printing with test functions. -
Printing outside test or
setup
/teardown
functions:-
Regardless of where text is redirected to (stdout, stderr or file descriptor 3) text is immediately visible in the terminal.
-
Text printed in such a way, will disable pretty formatting. Also, it will make output non-compliant with the TAP spec. The reason for this is that each test file is evaluated n+1 times (as metioned earlier). The first run will cause such output to be produced before the plan line is printed, contrary to the spec that requires the plan line to be either the first or the last line of the output.
-
Due to internal pipes/redirects, output to stderr is always printed first.
-
There are several global variables you can use to introspect on Bats tests:
$BATS_TEST_FILENAME
is the fully expanded path to the Bats test file.$BATS_TEST_DIRNAME
is the directory in which the Bats test file is located.$BATS_TEST_NAMES
is an array of function names for each test case.$BATS_TEST_NAME
is the name of the function containing the current test case.$BATS_TEST_DESCRIPTION
is the description of the current test case.$BATS_TEST_NUMBER
is the (1-based) index of the current test case in the test file.$BATS_TMPDIR
is the location to a directory that may be used to store temporary files.
The Bats source code repository is hosted on GitHub. There you can file bugs on the issue tracker or submit tested pull requests for review.
For real-world examples from open-source projects using Bats, see Projects Using Bats on the wiki.
To learn how to set up your editor for Bats syntax highlighting, see Syntax Highlighting on the wiki.
See docs/CHANGELOG.md
.
The original Bats repository needed new maintainers, and has not been actively maintained since 2013. While there were volunteers for maintainers, attempts to organize issues, and outstanding PRs, the lack of write-access to the repo hindered progress severely.
The rough plan, originally outlined here is to create a new, mirrored mainline (this repo!). An excerpt:
1. Roadmap 1.0: There are already existing high-quality PRs, and often-requested features and issues, especially here at #196. Leverage these and consolidate into a single roadmap.
2. Create or choose a fork or mirror of this repo to use as the new mainline: Repoint existing PRs (whichever ones are possible) to the new mainline, get that repo to a stable 1.0. IMO we should create an organization and grant 2-3 people admin and write access.
Doing it this way accomplishes a number of things:
- Removes the dependency on the original maintainer
- Enables collaboration and contribution flow again
- Allows the possibility of merging back to original, or merging from original if or when the need arises
- Prevents lock-out by giving administrative access to more than one person, increases transferability
- We are
#bats
on freenode
© 2017-2018 bats-core organization
© 2011-2016 Sam Stephenson
Bats is released under an MIT-style license; see LICENSE.md
for details.