In a nutshell, server configuration management (also popularly referred to as IT Automation) is a solution for turning your infrastructure administration into a codebase, describing all processes necessary for deploying a server in a set of provisioning scripts that can be versioned and easily reused. It can greatly improve the integrity of any server infrastructure over time.
In a previous guide, we talked about the main benefits of implementing a configuration management strategy for your server infrastructure, how configuration management tools work, and what these tools typically have in common.
This part of the series will walk you through the process of automating server provisioning using Ansible, a configuration management tool that provides a complete automation framework and orchestration capabilities, while maintaining a goal of ultimate simplicity and minimalism. We will focus on the language terminology, syntax, and features necessary for creating a simplified example to fully automate the deployment of an Ubuntu 18.04 web server using Apache.
The following list contains all steps we need to automate in order to reach our goal:
apt
cacheindex.html
file in the custom document rootWe’ll start by having a look at the terminology used by Ansible, followed by an overview of the main language features that can be used to write playbooks. At the end of the guide, you’ll find the contents of a full provisioning example to automate the steps described for setting up Apache on Ubuntu 18.04.
Note: this guide is intended to get you introduced to the Ansible language and how to write playbooks to automate your server provisioning. For a more introductory view of Ansible, including the steps necessary for installing and getting started with this tool, as well as how to run Ansible commands and playbooks, check our How to Install and Configure Ansible on Ubuntu 18.04 guide.
Before we can move to a more hands-on view of Ansible, it is important that we get acquainted with important terminology and concepts introduced by this tool.
The following list contains a quick overview of the most relevant terms used by Ansible:
INI
file that contains information about the servers you are managing.YAML
file containing a series of procedures that should be automated.A task defines a single automated step that should be executed by Ansible. It typically involves the usage of a module or the execution of a raw command. This is how a task looks:
- name: This is a task
apt: name=vim state=latest
The name
part is actually optional, but recommended, as it shows up in the output of the provisioning when the task is executed. The apt
part is a built-in Ansible module that abstracts the management of packages on Debian-based distributions. This example task tells Ansible that the package vim
should have its state changed to latest
, which will cause the package manager to install this package in case it is not installed yet.
Playbooks are YAML
files containing a series of directives to automate the provisioning of a server. The following example is a simple playbook that perform two tasks: updates the apt
cache and installs vim
afterwards:
---
- hosts: all
become: true
tasks:
- name: Update apt-cache
apt: update_cache=yes
- name: Install Vim
apt: name=vim state=latest
YAML
relies on indentation to serialize data structures. For that reason, when writing playbooks and especially when copying examples, you need to be extra careful to maintain the correct indentation.
Before the end of this guide we will see a more real-life example of a playbook, explained in detail. The next section will give you an overview of the most important elements and features that can be used to write Ansible playbooks.
Now that you are familiar with basic terminology and the overal format of playbooks and tasks in Ansible, we’ll learn about some playbook features that can help us creating more versatile automations.
There are different ways in which you can define variables in Ansible. The simplest way is by using the vars
section of a playbook. The example below defines a variable package
that later is used inside a task:
---
- hosts: all
become: true
vars:
package: vim
tasks:
- name: Install Package
apt: name={{ package }} state=latest
The package
variable has a global scope, which means it can be accessed from any point of the provisioning, even from included files and templates.
Loops are typically used to repeat a task using different input values. For instance, instead of creating 10 tasks for installing 10 different packages, you can create a single task and use a loop to repeat the task with all the different packages you want to install.
To create a loop within a task, include the option with_items
with an array of values. The content can be accessed through the loop variable item
, as shown in the example below:
- name: Install Packages
apt: name={{ item }} state=latest
with_items:
- vim
- git
- curl
You can also use an array variable to define your items:
---
- hosts: all
become: true
vars:
packages: [ 'vim', 'git', 'curl' ]
tasks:
- name: Install Package
apt: name={{ item }} state=latest
with_items: "{{ packages }}"
Conditionals can be used to dynamically decide whether or not a task should be executed, based on a variable or an output from a command, for instance.
The following example will only shutdown Debian based systems:
- name: Shutdown Debian Based Systems
command: /sbin/shutdown -t now
when: ansible_os_family == "Debian"
The conditional when
receives as argument an expression to be evaluated. The task only gets executed in case the expression is evaluated to true
. In our example, we tested a fact to check if the operating system is from the Debian family.
A common use case for conditionals in IT automation is when the execution of a task depends on the output of a command. With Ansible, the way we implement this is by registering a variable to hold the results of a command execution, and then testing this variable in a subsequent task. We can test for the command’s exit status (if failed or successful). We can also check for specific contents inside the output, although this might require the usage of regex expressions and string parsing commands.
The next example shows two conditional tasks based on the output from a php -v
command. We will test for the exit status of the command, since we know it will fail to execute in case PHP is not installed on this server. The ignore_errors
portion of the task is important to make sure the provisioning continues even when the command fails execution.
- name: Check if PHP is installed
register: php_installed
command: php -v
ignore_errors: true
- name: This task is only executed if PHP is installed
debug: var=php_install
when: php_installed|success
- name: This task is only executed if PHP is NOT installed
debug: msg='PHP is NOT installed'
when: php_installed|failed
The debug
module used here is a useful module for showing contents of variables or debug messages. It can either print a string (when using the msg
argument) or print the contents of a variable (when using the var
argument).
Templates are typically used to set up configuration files, allowing for the use of variables and other features intended to make these files more versatile and reusable. Ansible uses the Jinja2 template engine.
The following example is a template for setting up an Apache virtual host, using a variable for setting up the document root for this host:
<VirtualHost *:80>
ServerAdmin webmaster@localhost
DocumentRoot {{ doc_root }}
<Directory {{ doc_root }}>
AllowOverride All
Require all granted
</Directory>
</VirtualHost>
The built-in module template
is used to apply the template from a task. If you named the template file above vhost.tpl
, and you placed it in the same directory as your playbook, this is how you would apply the template to replace the default Apache virtual host:
- name: Change default Apache virtual host
template:
src: vhost.tpl
dest: /etc/apache2/sites-available/000-default.conf
Handlers are used to trigger a state change in a service, such as a restart or a stop. Even though they might look fairly similar to regular tasks, handlers are only executed when previously triggered from a notify
directive in a task. They are typically defined as an array in a handlers
section of the playbook, but they can also live in separate files.
Let’s take into consideration our previous template usage example, where we set up an Apache virtual host. If you want to make sure Apache is restarted after a virtual host change, you first need to create a handler for the Apache service. This is how handlers are defined inside a playbook:
handlers:
- name: restart apache
service: name=apache2 state=restarted
- name: other handler
service: name=other state=restarted
The name
directive here is important because it will be the unique identifier of this handler. To trigger this handler from a task, you should use the notify
option:
- name: Change default Apache virtual host
template:
src: vhost.tpl
dest: /etc/apache2/sites-available/000-default.conf
notify: restart apache
We’ve seen some of the most important features you can use to begin writing Ansible playbooks. In the next section, we’ll dive into a more real-life example of a playbook that will automate the installation and configuration of Apache on Ubuntu.
Now let’s have a look at a playbook that will automate the installation of an Apache web server within an Ubuntu 18.04 system, as discussed in this guide’s introduction.
The complete example, including the template file for setting up Apache and an HTML file to be served by the web server, can be found on Github. The folder also contains a Vagrantfile that lets you test the playbook in a simplified setup, using a virtual machine managed by Vagrant.
The full contents of the playbook are available here for your convenience:
- ---
- - hosts: all
- become: true
- vars:
- doc_root: /var/www/example
- tasks:
- - name: Update apt
- apt: update_cache=yes
-
- - name: Install Apache
- apt: name=apache2 state=latest
-
- - name: Create custom document root
- file: path={{ doc_root }} state=directory owner=www-data group=www-data
-
- - name: Set up HTML file
- copy: src=index.html dest={{ doc_root }}/index.html owner=www-data group=www-data mode=0644
-
- - name: Set up Apache virtual host file
- template: src=vhost.tpl dest=/etc/apache2/sites-available/000-default.conf
- notify: restart apache
- handlers:
- - name: restart apache
- service: name=apache2 state=restarted
-
Let’s examine each portion of this playbook in more detail:
hosts: all
The playbook starts by stating that it should be applied to all
hosts in your inventory (hosts: all
). It is possible to restrict the playbook’s execution to a specific host, or a group of hosts. This option can be overwritten at execution time.
become: true
The become: true
portion tells Ansible to use privilege escalation (sudo) for executing all the tasks in this playbook. This option can be overwritten on a task-by-task basis.
vars
Defines a variable, doc_root
, which is later used in a task. This section could contain multiple variables.
tasks
The section where the actual tasks are defined. The first task updates the apt
cache, and the second task installs the package apache2
.
The third task uses the built-in module file to create a directory to serve as our document root. This module can be used to manage files and directories.
The fourth task uses the module copy to copy a local file to the remote server. We’re copying a simple HTML file to be served as our website hosted by Apache.
handlers
Finally, we have the handlers
section, where the services are declared. We define the restart apache
handler that is notified from the fourth task, where the Apache template is applied.
Once you get the contents of this playbook downloaded to your Ansible control node, you can use ansible-playbook
to execute it on one or more nodes from your inventory. The following command will execute the playbook on all hosts from your default inventory file, using SSH keypair authentication to connect as the current system user:
- ansible-playbook playbook.yml
You can also use -l
to limit execution to a single host or a group of hosts from your inventory:
- ansible-playbook -l host_or_group playbook.yml
If you need to specify a different SSH user to connect to the remote server, you can include the argument -u user
to that command:
- ansible-playbook -l host_or_group playbook.yml -u remote-user
For more information on how to run Ansible commands and playbooks, please refer to our guide on How to Install and Configure Ansible on Ubuntu 18.04.
Ansible is a minimalist IT automation tool that has a low learning curve, using YAML
for its provisioning scripts. It has a great number of built-in modules that can be used to abstract tasks such as installing packages and working with templates. Its simplified infrastructure requirements and simple language can be a good fit for those who are getting started with configuration management. It might, however, lack some advanced features that you can find with more complex tools like Puppet and Chef.
In the next part of this series, we will see a practical overview of Puppet, a popular and well established configuration management tool that uses an expressive and powerful custom DSL based on Ruby to write provisioning scripts.
Thanks for learning with the DigitalOcean Community. Check out our offerings for compute, storage, networking, and managed databases.
Configuration management can drastically improve the integrity of servers over time by providing a framework for automating processes and keeping track of changes made to the system environment. This series will introduce you to the concepts behind Configuration Management and give you a practical overview of how to use Ansible, Puppet and Chef to automate server provisioning.
This textbox defaults to using Markdown to format your answer.
You can type !ref in this text area to quickly search our full set of tutorials, documentation & marketplace offerings and insert the link!
It would’ve been great if you’d described steps of how to run your example playbook. That is the main purpose of tutorials to provide detailed instructions in order to readers could repeat the steps and see the results. Without such instructions it is just an overview of the tool and its capabilities.
Hi good tutorial but needs updating to ansible 2.6 standard the code old pre 2.6 code
new updated code ansible 2.6 compatible
Also to run the playbook
add v for verbosity and help with debugging it helps a lot if anyone knows of a good ansible linter please let me know as could use it to debug spacing issues
Hope this helps
It would be a great idea if you could explain how to run playbooks: in example ansible-playbooks -i playbook.yml
Thanks for this article Erika! The examples were good - everything worked for me, at least.
As an alternative, for anyone interested, you can setup two DigitalOcean droplets to play with Ansible - one to act as controller host and the other to serve as the node you’re controlling. Then just add the following section to Erika’s playbook.yml script to open port 80 in ufw, and you should be able to view the sample page on the “node” droplet.
Could someone explain to me the templates part. I did not understand its syntax and what it is expected to do especially what is the ‘dest’ part for.
How to run: In file /etc/ansible/hosts add your IP address. Run this in your terminal:
ssh-copy-id username@IP
If u want run with specific user, after hosts:all in file playbook.yml add remote_user: usernameRun with
ansible-playbook playbook.yml --ask-sudo-pass
Tutorial is pretty good for Ansible playbooks ! But key point is missing, there is no speak about how to configure INI and how to execute Ansible scripts on your remote servers. For tutorial I think it is must have - how to execute it on your own server
This comment has been deleted