- Installation types
- Installation in the UNIX account Python environment
- Installation in a virtualenv Python environment
- Installation from Ansible Galaxy
DebOps can be installed in different ways depending on your needs:
- As a Python package in a Python environment of a given UNIX account. Different UNIX accounts can use their own versions of DebOps.
- As a Python package in a Python virtualenv environment. A given UNIX account can use different versions of DebOps by switching to each virtualenv environment.
- As an Ansible Collection installed from the Ansible Galaxy using the ansible-galaxy command. This is a good solution if you are interested only in specific DebOps roles and you don't want to use the additional scripts to manage your environments.
In any case, the installation will be performed on a Linux, macOS or Windows (WSL) computer which will be called the "Ansible Controller". This machine will be used to execute Ansible commands against other, remote hosts which will be managed using DebOps roles and playbooks.
DebOps doesn't use any active services on the Ansible Controller host in the
infrastructure that is managed, therefore you might consider a laptop or
a virtual machine which can be turned off or put offline when not in use, for
better security. You should consider using an encrypted filesystem for DebOps
project directories due to sensitive nature of some of the data stored in the
secret/ directory, like passwords,
Certificate Authority files, etc.
The debops Python package includes the DebOps roles and playbooks of a given release, as well as a custom Python module which provides additional functionality in DebOps roles, for example a way to override files and templates without the need to modify the roles, or a way to "inject" additional tasks into specific roles. You can also use a set of scripts which let you create new "project directories" for your environments and execute DebOps playbooks in a convenient way.
Ansible is an optional installation dependency of the
package. This allows you to use your own Ansible installation (either in
a different Python environment, or from OS packages) with DebOps.
Some of the DebOps roles require optional Python modules not required by Ansible:
- This is a Python library that provides various functions related to DNS
queries. Some of the DebOps roles rely on DNS records to get information
about the environment, like addresses of centralized services provided via
DNS SRV records. In Ansible, this library is required by the
- This is a Python library which can be used to interface with the LDAP
servers. The Ansible community.general.ldap_attr module and
Ansible community.general.ldap_entry module use it. You will need to
install it if you want to manage LDAP using DebOps roles. It's available as
python-ldapAPT package in Debian, it can also be installed via PyPI.
- This module provides a compatibility layer between Python 2.7 and Python 3.x versions. It allows creation of code that can be run in both old and new Python environments without changes.
- This is a Python library which can be used to manipulate IP addresses in
different ways. It's used by the
ipaddr()Ansible filter plugin used in some of the DebOps roles. On Debian, it's available in the python-netaddr APT packages, it can also be installed via PyPI.
- This is a Python library which is used by the Ansible
password()lookup plugin to encrypt passwords on the Ansible Controller. This is required in DebOps roles that use debops.secret role to generate random passwords and store them in the
secret/directory. The library is available on Debian as the
python-passlibAPT package, it can also be installed via PyPI.
- This is a Python library which is used by the DebOps custom Jinja filters
to_tomlwhich are used by some roles that configure software using TOML as configuration data format.
You can install them using your distribution packages on Debian or Ubuntu by running the command:
sudo apt install python3-future python3-ldap python3-netaddr \ python3-dnspython python3-passlib python3-toml
The missing Python dependencies will be automatically installed with the
debops Python packages, however some of them, like the
python3-ldap package, are distributed only as sources and require the build
environment to be available. On Debian or Ubuntu you can install the required
packages by running the command:
sudo apt install build-essential python3-dev libffi-dev libssl-dev \ libsasl2-dev libldap2-dev python3-pip
To install DebOps and Ansible on your user account, execute the command:
pip3 install --user debops[ansible]
The above command will install the
debops Python package, as well as
ansible Python package with optional dependencies used by DebOps roles.
They will be installed in the
directory, the scripts and other binaries will be installed in
~/.local/bin directory which should be included in your
debops Python package contains its own set of DebOps roles
and playbooks, which can be accessed by the debops script,
you don't need to install the monorepo separately.
To install only the
debops Python package, without additional dependencies,
you can use the command:
pip3 install --user debops
In this case you will have to install Ansible and other optional dependencies required by DebOps separately.
The latest stable Ansible release is required to run DebOps playbooks and roles. Older Ansible releases may work for a time, but support for them is not guaranteed by the DebOps project.
Ansible can be installed in a variety of methods, you can choose your preferred one depending on the platform you use for the Ansible Controller. There are some caveats on specific platforms, described below.
On the current Debian Stable release, you might need to install the ansible package from the Backports repository. DebOps development follows the stable Ansible releases, because of that the version of Ansible included in a Debian Stable release might not be sufficient anymore.
If you want to, you can build your own Ansible
.debpackage from the git source repository. The debops.ansible role contains a shell script, bootstrap-ansible, which can be used to automatically build a Debian package suitable for DebOps.
- The debops.pki role requires Bash 4.x or higher on the Ansible Controller for the management of the internal Certificate Authority. On macOS, you might need to upgrade an existing Bash 3.x installation before using DebOps.
- The git tool is used to manage DebOps monorepo installation or updates by the debops-update command.
- The gpg command is used by the debops-padlock script to encrypt and decrypt files with EncFS passphrase. It's usually already installed by the operating system.
- The FUSE-based
EncFSfilesystem can be used to manage an encrypted volume which holds the contents of the
secret/directory. This is an optional feature, useful if you want to protect your passwords, X.509 certificates and other confidental data while not in use, for example in a git repository.
- You can use git-crypt to transparently encrypt files in the
secret/directory when committing to a Git repository. Unlike
EncFS, the files are not encrypted on your local hard disk, and the path names are not encrypted at all. The excellent 'Using git-crypt' section on the website or in the man page will get you started.
- This command is used to generate unique UUID strings for hosts which are then
stored as Ansible facts. On Debian, it's available in the
The installation of DebOps in a Python virtual environment is similar to installation in the UNIX account Python environment. Importantly, some of the Python packages required by DebOps are not distributed in a binary format and require to be compiled. On Debian or Ubuntu, you have to install the required development packages:
sudo apt install build-essential python3-virtualenv virtualenv python3-dev \ libffi-dev libssl-dev libsasl2-dev libldap2-dev python3-pip
After that, you can create a new Python virtualenv environment in a selected directory and "enter" it by executing the commands:
virtualenv ~/src/venv/debops cd ~/src/venv/debops source bin/activate
The current shell prompt will change to indicate that you are in a Python virtual environment. Now, to install DebOps with Ansible included in the environment, you can run the command:
pip3 install debops[ansible]
Or, to install only DebOps without Ansible (for example, you want to use the Ansible from outside of the environment), you can execute the command:
pip3 install debops
To exit the current Python virtual environment, you can run the command:
This will change your current shell prompt again, which will indicate that you are now beyond the environment.
This functionality is fully supported since DebOps v2.0.0+.
DebOps is available on Ansible Galaxy, a central database of Ansible roles. The project is published there as a set of Ansible Collections, with Ansible roles and playbooks split into multiple "packages" due to the number of available roles. To install them on your Ansible Controller, you have to use the ansible-galaxy command provided with Ansible.
To install the DebOps Collections, run the command:
ansible-galaxy collection install debops.debops
You can also install DebOps as a Collection directly from the monorepo using the command:
ansible-galaxy collection install git+https://github.com/debops/debops#/ansible/,master
This will install the collection from the
master branch of the repository.
This form can also be used in the
requirements.yml file, like this:
--- collections: - name: 'git+https://github.com/debops/debops#/ansible/,master'
After saving the file, you can use the command:
ansible-galaxy install -r requirements.yml
to install the collection.
The DebOps Collections will be available in the directory:
debops.debops Collection includes the playbooks provided with DebOps
which can be used to execute roles after setting up the required Ansible
inventory. Various roles that use custom lookup or filter plugins are modified
to use them from the Collections as well, but otherwise the roles should have
the same functionality as those included in the DebOps Python package or in the
Read the documentation about using Ansible Collections in Playbooks for more details and examples.