Test Management Tool
The tmt
tool provides a user-friendly way to work with tests.
You can comfortably create new tests, safely and easily run tests
across different environments, review test results, debug test
code and enable tests in the CI using a consistent and concise
config.
The python module and command-line tool implement the Metadata Specification which allows storing all needed test execution data directly within a git repository. Together with possibility to reference remote repositories it makes it easy to share test coverage across projects and distros.
The Flexible Metadata Format fmf
is used to store data in both
human and machine readable way close to the source code. Thanks to
inheritance and elasticity metadata are organized in the structure
efficiently, preventing unnecessary duplication.
There are several metadata levels defined by the specification:
Core attributes such as summary or description which are common across all levels are defined by the special L0 metadata.
Tests, or L1 metadata, define attributes which are closely related to individual test cases such as test script, framework, directory path where the test should be executed, maximum test duration or packages required to run the test.
Plans, also called L2 metadata, are used to group relevant tests and enable them in the CI. They describe how to discover tests for execution, how to provision the environment, how to prepare it for testing, how to execute tests and report test results.
Stories, which implement the L3 metadata, can be used to track implementation, test and documentation coverage for individual features or requirements. Thanks to this you can track everything in one place, including the project implementation progress.
Command line usage is straightforward:
tmt command [options]
Let's see which tests, plans and stories are available:
tmt
Initialize the metadata tree in the current directory, optionally with example content based on templates:
tmt init tmt init --template base
Run all or selected steps for each plan:
tmt run tmt run discover tmt run prepare execute
List tests, show details, check against the specification:
tmt test ls tmt test show tmt test lint
Create a new test, import test metadata from other formats:
tmt test create tmt test import
List plans, show details, check against the specification:
tmt plan ls tmt plan show tmt plan lint
List stories, check details, show coverage status:
tmt story ls tmt story show tmt story coverage
Many commands support regular expression filtering and other specific options:
tmt story ls cli tmt story show create tmt story coverage --implemented
Check help message of individual commands for the full list of available options.
Here is the list of the most frequently used commands and options.
The run command is used to execute test steps. By default all test steps are run. See the L2 Metadata specification for detailed description of individual steps. Here is a brief overview:
- discover
- Gather information about test cases to be executed.
- provision
- Provision an environment for testing or use localhost.
- prepare
- Prepare the environment for testing.
- execute
- Run tests using the specified executor.
- report
- Provide test results overview and send reports.
- finish
- Perform the finishing tasks and clean up provisioned guests.
Manage tests (L1 metadata). Check available tests, inspect their metadata, gather old metadata from various sources and stored them in the new fmf format.
- ls
- List available tests.
- show
- Show test details.
- lint
- Check tests against the L1 metadata specification.
- create
- Create a new test based on given template.
- import
- Convert old test metadata into the new fmf format.
Manage test plans (L2 metadata). Search for available plans. Explore detailed test step configuration.
- ls
- List available plans.
- show
- Show plan details.
- lint
- Check plans against the L2 metadata specification.
Manage user stories. Check available user stories. Explore coverage (test, implementation, documentation).
- ls
- List available stories.
- show
- Show story details.
- coverage
- Show code, test and docs coverage for given stories.
- export
- Export selected stories into desired format.
Various utility options.
--root PATH | Path to the metadata tree, current directory used by default. |
--verbose | Print additional information. |
--debug | Turn on debugging output. |
Check help message of individual commands for the full list of available options.
The main tmt
package provides the core features with a minimal
set of dependencies:
sudo dnf install tmt
In order to enable additional functionality, such as particular provision or report plugins, install the respective subpackage:
sudo dnf install tmt-test-convert sudo dnf install tmt-report-html sudo dnf install tmt-provision-container sudo dnf install tmt-provision-virtual
If you don't care about disk space and want to have all available features right at hand install everything:
sudo dnf install tmt-all
For CentOS and RHEL, first make sure that you have available the EPEL repository. You might also have to enable additional repositories:
sudo dnf config-manager --enable powertools # CentOS 8 sudo dnf config-manager --enable rhel-CRB # RHEL 8 sudo dnf install https://dl.fedoraproject.org/pub/epel/epel-release-latest-8.noarch.rpm sudo dnf config-manager --enable crb # CentOS 9 sudo dnf config-manager --enable rhel-CRB # RHEL 9 sudo dnf install https://dl.fedoraproject.org/pub/epel/epel-release-latest-9.noarch.rpm sudo dnf install tmt
For plugins which cannot work outside of VPN and so live within its walls you need to enable the internal copr repository first. Then you can install either everything or only those you need:
sudo dnf install tmt-redhat-all sudo dnf install tmt-redhat-*
Impatient to try the fresh features as soon as possible? Install
the latest greatest version from the copr
repository:
sudo dnf copr enable psss/tmt sudo dnf install tmt
Not sure, just want to try out how it works? Experiment safely and easily inside a container:
podman run -it --rm quay.io/testing-farm/tmt bash podman run -it --rm quay.io/testing-farm/tmt-all bash
When installing using pip
you might need to install additional
packages on your system:
sudo dnf install gcc redhat-rpm-config sudo dnf install {python3,libvirt,krb5,libpq}-devel pip install --user tmt
On other distributions than Fedora or RHEL the package names might be different. For example on Ubuntu to install all packages to have provision plugins working:
sudo apt install libkrb5-dev pkg-config libvirt-dev genisoimage qemu-kvm libvirt-daemon-system pip install --user "tmt[provision]"
Note: You can omit the --user
flag if in a virtual environment.
The rpm package includes a system wide script which enables the
command line completion for bash
so no additional config
should be needed. If you use a different installation method or
prefer another shell, see the instructions below.
For Bash, add this to ~/.bashrc
:
eval "$(_TMT_COMPLETE=source_bash tmt)"
For Zsh, add this to ~/.zshrc
:
eval "$(_TMT_COMPLETE=source_zsh tmt)"
For Fish, add this to ~/.config/fish/completions/tmt.fish
:
eval (env _TMT_COMPLETE=source_fish tmt)
Open a new shell to enable completion. Or run the eval
command
directly in your current shell to enable it temporarily.
This is however run every time you start a shell which can cause
some delay. To speed it up, write the generated script to a file
and then source it from your shell's configuration file. All
of this can be achieved using tmt setup completion
command.
By default, it outputs the completion script to the terminal but
it can also add it to your ~/.bashrc
or ~/.zshrc
using
the --install
option:
tmt setup completion {bash, zsh, fish} --install
The following exit codes are returned from tmt run
. Note that
you can use the --quiet
option to completely disable output
and only check for the exit code.
- 0
- At least one test passed, there was no fail, warn or error.
- 1
- There was a fail or warn identified, but no error.
- 2
- Errors occured during test execution.
- 3
- No test results found.
The list of available environment variables which can be used to adjust the execution.
The following environment variables can be used to modify
behaviour of the tmt
command.
- TMT_DEBUG
- Enable the desired debug level. Most of the commands support levels from 1 to 3. However, some of the plugins go even deeper when needed.
- TMT_PLUGINS
- Path to a directory with additional plugins. Multiple paths
separated with the
:
character can be provided as well. - TMT_WORKDIR_ROOT
- Path to root directory containing run workdirs. Defaults to
/var/tmp/tmt
. - NO_COLOR, TMT_NO_COLOR
Disable colors in the output, both the actual output and logging messages. Output only plain, non-colored text.
Two variables are accepted, one with the usual
TMT_
prefix, but tmt accepts alsoNO_COLOR
to support the NO_COLOR effort, see https://no-color.org/ for more information.- TMT_FORCE_COLOR
Enforce colors in the output, both the actual output and logging messages. Might come handy when tmt's output streams are not terminal-like, yet its output would be displayed by tools with ANSI color support. This is often the case of various CI systems.
Note that
TMT_FORCE_COLOR
takes priority overNO_COLOR
andTMT_NO_COLOR
. If user tries both to disable and enable colorization, output would be colorized.
The following environment variables are provided to the environment
during prepare
, execute
and finish
steps:
- TMT_TREE
- The full path of the working directory where the metadata tree is copied. This usually contains the whole git repository from which tests have been executed.
- TMT_PLAN_DATA
- Path to the common directory used for storing logs and other artifacts related to the whole plan execution. It is pulled back from the guest and available for inspection after the plan is completed.
The following environment variables are provided to the test during the execution:
- TMT_TEST_NAME
- The test name, as a resolved FMF object name starting with
/
from the root of the hierarchy. - TMT_TEST_DATA
- Path to the directory where test can store logs and other artifacts generated during its execution. These will be pulled back from the guest and available for inspection after the test execution is finished.
- TMT_TEST_SERIAL_NUMBER
- The serial number of running test in the whole plan. Each test is assigned its own serial number.
- TMT_TEST_METADATA
- Path to a YAML-formatted file with test metadata collected
during the
discover
step. - TMT_SOURCE_DIR
- Path to directory with downloaded and extracted sources if
the
dist-git-source
option was used in thediscover
step. - TMT_REBOOT_COUNT
During the test execution the
tmt-reboot
command can be used to request reboot of the guest. This variable contains number of reboots which already happened during the test. Value is set to0
if no reboot occurred.In order to keep backward-compatibility with older tests,
rhts-reboot
andrstrnt-reboot
commands are supported for requesting the reboot, variablesREBOOTCOUNT
andRSTRNT_REBOOTCOUNT
contain number of reboots as well.- TMT_TOPOLOGY_BASH, TMT_TOPOLOGY_YAML
- Paths of files describing existing guests, their roles and the
guest on which the test is running. Format of these files
is described in the
Guest Topology Format
section of the plan specification.
Each plugin option can be also specified via environment variable. Variables follow a naming scheme utilizing plugin name, step it belongs to, and the option name:
TMT_PLUGIN_${STEP}_${PLUGIN}_${OPTION}
All values are upper-cased, with dashes (-
) replaced by
underscores (_
).
For example, an execute plugin "tmt" would run with verbosity
equal to -vvv
:
TMT_PLUGIN_EXECUTE_TMT_VERBOSE=3 tmt run ... execute -h tmt ...
Command-line takes precedence over environment variables, therefore
-v
would undo the effect of environment variable, and reduce
verbosity to one level only:
TMT_PLUGIN_EXECUTE_TMT_VERBOSE=3 tmt run ... execute -h tmt -v ...
Environment variables - just like command-line options - take precedence over values stored in files. For example, consider the following discover step:
discover: how: fmf url: https://example.org/
The following commands would override the URL:
tmt run ... discover -h fmf --url https://actual.org/ ... TMT_PLUGIN_DISCOVER_FMF_URL=https://actual.org/ tmt run ...
For setting flag-like option, 0 and 1 are the expected value. For example, an interactive mode would be enabled in this run:
TMT_PLUGIN_EXECUTE_TMT_INTERACTIVE=1 tmt run ... execute -h tmt ...
Note
The following applies to situations when a plugin is specified on the command line only. Keys of plugins specified in fmf files would not be modified. This is a limit of the current implementation, and will be addressed in the future:
# Here the verbosity will not be increased since the plugin is # not mentioned on the command line: $ TMT_PLUGIN_DISCOVER_FMF_VERBOSE=2 tmt run -a # Here the environment variable will take effect: $ TMT_PLUGIN_DISCOVER_FMF_VERBOSE=2 tmt run -a discover -h fmf ...
Git: https://github.com/teemtee/tmt
Docs: http://tmt.readthedocs.io/
Stories: https://tmt.readthedocs.io/en/stable/stories.html
Issues: https://github.com/teemtee/tmt/issues
Releases: https://github.com/teemtee/tmt/releases
Copr: http://copr.fedoraproject.org/coprs/psss/tmt
PIP: https://pypi.org/project/tmt/
Metadata Specification: https://tmt.readthedocs.io/en/stable/spec.html
Flexible Metadata Format: http://fmf.readthedocs.io/
Packit & Testing Farm: https://packit.dev/testing-farm/
Petr Šplíchal, Miro Hrončok, Alexander Sosedkin, Lukáš Zachar, Petr Menšík, Leoš Pol, Miroslav Vadkerti, Pavel Valena, Jakub Heger, Honza Horák, Rachel Sibley, František Nečas, Michal Ruprich, Martin Kyral, Miloš Prchlík, Tomáš Navrátil, František Lachman, Patrik Kis, Ondrej Mosnáček, Andrea Ficková, Denis Karpelevich, Michal Srb, Jan Ščotka, Artem Zhukov, Vinzenz Feenstra, Inessa Vasilevskaya, Štěpán Němec, Robin Hack, Yulia Kopkova, Ondrej Moriš, Martin Zelený, Karel Šrot, František Zatloukal, Simon Walter, Petr Matyáš, Yariv Rachmani, Pavel Cahyna, Martin Litwora, Brian Grech, Vojtěch Eichler, Philip Daly, Vector Li, Evgeny Fedin, Guy Inger, Adrián Tomašov, Jan Havlín, Lukáš Kotek, Daniel Diblík, Laura Barcziova, Marián Konček, Marcin Sobczyk, Jiří Jabůrek, Huijing Hei, Tibor Dudlák, Jan Macků, Filip Vágner, Martin Hoyer, Iveta Česalová, Yi Zhang and Zhaojuan Guo.
Copyright Red Hat
This program is free software; you can redistribute it and/or modify it under the terms of the MIT License.