Ansible playbooks
Ansible Playbooks offer a repeatable, reusable, simple configuration management and multi-machine deployment system, one that is well suited to deploying complex applications. If you need to execute a task with Ansible more than once, write a playbook and put it under source control. Then you can use the playbook to push out new configuration or confirm the configuration of remote systems. The playbooks in the ansible-examples repository illustrate many useful techniques. You may want to look at these in another tab as you read the documentation.
Playbooks can:
declare configurations
orchestrate steps of any manual ordered process, on multiple sets of machines, in a defined order
launch tasks synchronously or asynchronously
Playbook syntax
Playbooks are expressed in YAML format with a minimum of syntax. If you are not familiar with YAML, look at our overview of YAML Syntax and consider installing an add-on for your text editor (see Other Tools and Programs) to help you write clean YAML syntax in your playbooks.
A playbook is composed of one or more ‘plays’ in an ordered list. The terms ‘playbook’ and ‘play’ are sports analogies. Each play executes part of the overall goal of the playbook, running one or more tasks. Each task calls an Ansible module.
Playbook execution
A playbook runs in order from top to bottom. Within each play, tasks also run in order from top to bottom. Playbooks with multiple ‘plays’ can orchestrate multi-machine deployments, running one play on your webservers, then another play on your database servers, then a third play on your network infrastructure, and so on. At a minimum, each play defines two things:
the managed nodes to target, using a pattern
at least one task to execute
Note
In Ansible 2.10 and later, we recommend you use the fully-qualified collection name in your playbooks to ensure the correct module is selected, because multiple collections can contain modules with the same name (for example, user
). See Using collections in a playbook.
In this example, the first play targets the web servers; the second play targets the database servers.
---
- name: Update web servers
hosts: webservers
remote_user: root
tasks:
- name: Ensure apache is at the latest version
ansible.builtin.yum:
name: httpd
state: latest
- name: Write the apache config file
ansible.builtin.template:
src: /srv/httpd.j2
dest: /etc/httpd.conf
- name: Update db servers
hosts: databases
remote_user: root
tasks:
- name: Ensure postgresql is at the latest version
ansible.builtin.yum:
name: postgresql
state: latest
- name: Ensure that postgresql is started
ansible.builtin.service:
name: postgresql
state: started
Your playbook can include more than just a hosts line and tasks. For example, the playbook above sets a remote_user
for each play. This is the user account for the SSH connection. You can add other Playbook Keywords at the playbook, play, or task level to influence how Ansible behaves. Playbook keywords can control the connection plugin, whether to use privilege escalation, how to handle errors, and more. To support a variety of environments, Ansible lets you set many of these parameters as command-line flags, in your Ansible configuration, or in your inventory. Learning the precedence rules for these sources of data will help you as you expand your Ansible ecosystem.
Task execution
By default, Ansible executes each task in order, one at a time, against all machines matched by the host pattern. Each task executes a module with specific arguments. When a task has executed on all target machines, Ansible moves on to the next task. You can use strategies to change this default behavior. Within each play, Ansible applies the same task directives to all hosts. If a task fails on a host, Ansible takes that host out of the rotation for the rest of the playbook.
When you run a playbook, Ansible returns information about connections, the name
lines of all your plays and tasks, whether each task has succeeded or failed on each machine, and whether each task has made a change on each machine. At the bottom of the playbook execution, Ansible provides a summary of the nodes that were targeted and how they performed. General failures and fatal “unreachable” communication attempts are kept separate in the counts.
Desired state and ‘idempotency’
Most Ansible modules check whether the desired final state has already been achieved, and exit without performing any actions if that state has been achieved, so that repeating the task does not change the final state. Modules that behave this way are often called ‘idempotent.’ Whether you run a playbook once, or multiple times, the outcome should be the same. However, not all playbooks and not all modules behave this way. If you are unsure, test your playbooks in a sandbox environment before running them multiple times in production.
Running playbooks
To run your playbook, use the ansible-playbook command.
ansible-playbook playbook.yml -f 10
Use the --verbose
flag when running your playbook to see detailed output from successful modules as well as unsuccessful ones.
Running playbooks in check mode
Ansible’s check mode allows you to execute a playbook without applying any alterations to your systems. You can use check mode to test playbooks before implementing them in a production environment.
To run a playbook in check mode, you can pass the -C
or --check
flag to the ansible-playbook
command:
ansible-playbook --check playbook.yaml
Executing this command will run the playbook normally, but instead of implementing any modifications, Ansible will simply provide a report on the changes it would have made. This report encompasses details such as file modifications, command execution, and module calls.
Check mode offers a safe and practical approach to examine the functionality of your playbooks without risking unintended changes to your systems. Moreover, it is a valuable tool for troubleshooting playbooks that are not functioning as expected.
Ansible-Pull
Should you want to invert the architecture of Ansible, so that nodes check in to a central location, instead of pushing configuration out to them, you can.
The ansible-pull
is a small script that will checkout a repo of configuration instructions from git, and then
run ansible-playbook
against that content.
Assuming you load balance your checkout location, ansible-pull
scales essentially infinitely.
Run ansible-pull --help
for details.
There’s also a clever playbook available to configure ansible-pull
through a crontab from push mode.
Verifying playbooks
You may want to verify your playbooks to catch syntax errors and other problems before you run them. The ansible-playbook command offers several options for verification, including --check
, --diff
, --list-hosts
, --list-tasks
, and --syntax-check
. The Tools for validating playbooks describes other tools for validating and testing playbooks.
ansible-lint
You can use ansible-lint for detailed, Ansible-specific feedback on your playbooks before you execute them. For example, if you run ansible-lint
on the playbook called verify-apache.yml
near the top of this page, you should get the following results:
$ ansible-lint verify-apache.yml
[403] Package installs should not use latest
verify-apache.yml:8
Task/Handler: ensure apache is at the latest version
The ansible-lint default rules page describes each error. For [403]
, the recommended fix is to change state: latest
to state: present
in the playbook.
See also
- ansible-lint
Learn how to test Ansible Playbooks syntax
- YAML Syntax
Learn about YAML syntax
- General tips
Tips for managing playbooks in the real world
- Collection Index
Browse existing collections, modules, and plugins
- Should you develop a module?
Learn to extend Ansible by writing your own modules
- Patterns: targeting hosts and groups
Learn about how to select hosts
- GitHub examples directory
Complete end-to-end playbook examples
- Mailing List
Questions? Help? Ideas? Stop by the list on Google Groups