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Playbooks
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=========
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.. image:: http://ansible.cc/docs/_static/ansible_fest_2013.png
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:alt: ansiblefest 2013
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:target: http://ansibleworks.com/fest
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.. contents::
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:depth: 2
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:backlinks: top
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Introduction
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````````````
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Playbooks are a completely different way to use ansible than in task execution mode, and are
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particularly powerful. Simply put, playbooks are the basis for a really simple
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configuration management and multi-machine deployment system,
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unlike any that already exist, and one that is very well suited to deploying complex applications.
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Playbooks can declare configurations, but they can also orchestrate steps of
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any manual ordered process, even as different steps must bounce back and forth
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between sets of machines in particular orders. They can launch tasks
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synchronously or asynchronously.
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While you might run the main /usr/bin/ansible program for ad-hoc
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tasks, playbooks are more likely to be kept in source control and used
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to push out your configuration or assure the configurations of your
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remote systems are in spec.
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Let's dive in and see how they work. As you go, you may wish to open
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the `github examples directory <https://github.com/ansible/ansible/tree/devel/examples/playbooks>`_ in
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another tab, so you can apply the theory to what things look like in practice.
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There are also some full sets of playbooks illustrating a lot of these techniques in the
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`ansible-examples repository <https://github.com/ansible/ansible-examples>`_.
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Playbook Language Example
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`````````````````````````
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Playbooks are expressed in YAML format and have a minimum of syntax.
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Each playbook is composed of one or more 'plays' in a list.
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The goal of a play is map a group of hosts to some well defined roles, represented by
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things ansible called tasks. At the basic level, a task is nothing more than a call
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to an ansible module, which you should have learned about in earlier chapters.
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By composing a playbook of multiple 'plays', it is possible to
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orchestrate multi-machine deployments, running certain steps on all
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machines in the webservers group, then certain steps on the database
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server group, then more commands back on the webservers group, etc.
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For starters, here's a playbook that contains just one play::
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---
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- hosts: webservers
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vars:
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http_port: 80
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max_clients: 200
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user: root
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tasks:
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- name: ensure apache is at the latest version
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action: yum pkg=httpd state=latest
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- name: write the apache config file
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action: template src=/srv/httpd.j2 dest=/etc/httpd.conf
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notify:
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- restart apache
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- name: ensure apache is running
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action: service name=httpd state=started
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handlers:
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- name: restart apache
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action: service name=httpd state=restarted
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Below, we'll break down what the various features of the playbook language are.
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Basics
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``````
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Hosts and Users
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+++++++++++++++
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For each play in a playbook, you get to choose which machines in your infrastructure
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to target and what remote user to complete the steps (called tasks) as.
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The `hosts` line is a list of one or more groups or host patterns,
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separated by colons, as described in the :ref:`patterns`
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documentation. The `user` is just the name of the user account::
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---
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- hosts: webservers
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user: root
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Support for running things from sudo is also available::
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---
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- hosts: webservers
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user: yourname
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sudo: yes
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You can also use sudo on a particular task instead of the whole play::
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---
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- hosts: webservers
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user: yourname
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tasks:
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- service: name=nginx state=started
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sudo: yes
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You can also login as you, and then sudo to different users than root::
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---
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- hosts: webservers
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user: yourname
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sudo: yes
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sudo_user: postgres
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If you need to specify a password to sudo, run `ansible-playbook` with ``--ask-sudo-pass`` (`-K`).
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If you run a sudo playbook and the playbook seems to hang, it's probably stuck at the sudo prompt.
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Just `Control-C` to kill it and run it again with `-K`.
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.. important::
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When using `sudo_user` to a user other than root, the module
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arguments are briefly written into a random tempfile in /tmp.
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These are deleted immediately after the command is executed. This
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only occurs when sudoing from a user like 'bob' to 'timmy', not
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when going from 'bob' to 'root', or logging in directly as 'bob' or
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'root'. If this concerns you that this data is briefly readable
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(not writeable), avoid transferring uncrypted passwords with
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`sudo_user` set. In other cases, '/tmp' is not used and this does
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not come into play. Ansible also takes care to not log password
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parameters.
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Vars section
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++++++++++++
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The `vars` section contains a list of variables and values that can be used in the plays, like this::
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---
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- hosts: webservers
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user: root
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vars:
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http_port: 80
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van_halen_port: 5150
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other: 'magic'
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.. note::
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You can also keep variables in separate files and include them alongside inline `vars` with a `vars_files` declaration
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in the play. See the `Advanced Playbooks chapter <http://ansible.cc/docs/playbooks2.html#variable-file-separation>`_
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for more info.
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These variables can be used later in the playbook like this::
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$varname or ${varname} or {{ varname }}
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If you ever want to do anything complex like uppercasing a string, {{ varname }} is best, as it uses the Jinja2 templating engine. It is a good idea to get in the habit of using this form most of the time when the output is to be a string.
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If just referencing the value of another simple variable though, it's fine to say $x or ${x}. This is common for when a datastructure has a member that is the value of another datastructure.
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To learn more about Jinja2, you can optionally see the `Jinja2 docs <http://jinja.pocoo.org/docs/>`_ - though remember that Jinja2 loops and conditionals are only for 'templates' in Ansible, in playbooks, ansible has the 'when' and 'with' keywords for conditionals and loops.
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If there are discovered variables about the system, called 'facts', these variables bubble up back into the
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playbook, and can be used on each system just like explicitly set variables. Ansible provides several
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of these, prefixed with 'ansible', and are documented under 'setup' in the module documentation. Additionally,
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facts can be gathered by ohai and facter if they are installed. Facter variables are prefixed with ``facter_`` and Ohai variables are prefixed with ``ohai_``. These add extra dependencies and are only there for ease of users
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porting over from those other configuration systems.
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How about an example. If I wanted to write the hostname into the /etc/motd file, I could say::
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- name: write the motd
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action: template src=/srv/templates/motd.j2 dest=/etc/motd
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And in /srv/templates/motd.j2::
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You are logged into {{ facter_hostname }}
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But we're getting ahead of ourselves, as that just showed a task in a playbook. Let's talk about tasks.
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Tasks list
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++++++++++
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Each play contains a list of tasks. Tasks are executed in order, one
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at a time, against all machines matched by the host pattern,
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before moving on to the next task. It is important to understand that, within a play,
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all hosts are going to get the same task directives. It is the purpose of a play to map
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a selection of hosts to tasks.
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When running the playbook, which runs top to bottom, hosts with failed tasks are
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taken out of the rotation for the entire playbook. If things fail, simply correct the playbook file and rerun.
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The goal of each task is to execute a module, with very specific arguments.
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Variables, as mentioned above, can be used in arguments to modules.
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Modules are 'idempotent', meaning if you run them
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again, they will make the changes they are told to make to bring the
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system to the desired state. This makes it very safe to rerun
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the same playbook multiple times. They won't change things
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unless they have to change things.
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The `command` and `shell` modules will typically rerun the same command again,
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which is totally ok if the command is something like
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'chmod' or 'setsebool', etc. Though there is a 'creates' flag available which can
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be used to make these modules also idempotent.
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Every task should have a `name`, which is included in the output from
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running the playbook. This is output for humans, so it is
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nice to have reasonably good descriptions of each task step. If the name
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is not provided though, the string fed to 'action' will be used for
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output.
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Here is what a basic task looks like, as with most modules,
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the service module takes key=value arguments::
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tasks:
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- name: make sure apache is running
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action: service name=httpd state=running
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The `command` and `shell` modules are the one modules that just takes a list
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of arguments, and don't use the key=value form. This makes
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them work just like you would expect. Simple::
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tasks:
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- name: disable selinux
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action: command /sbin/setenforce 0
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The command and shell module care about return codes, so if you have a command
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who's successful exit code is not zero, you may wish to do this::
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tasks:
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- name: run this command and ignore the result
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action: shell /usr/bin/somecommand || /bin/true
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Or this::
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tasks:
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- name: run this command and ignore the result
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action: shell /usr/bin/somecommand
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ignore_errors: True
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If the action line is getting too long for comfort you can break it on
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a space and indent any continuation lines::
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tasks:
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- name: Copy ansible inventory file to client
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action: copy src=/etc/ansible/hosts dest=/etc/ansible/hosts
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owner=root group=root mode=0644
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Variables can be used in action lines. Suppose you defined
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a variable called 'vhost' in the 'vars' section, you could do this::
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tasks:
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- name: create a virtual host file for {{ vhost }}
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action: template src=somefile.j2 dest=/etc/httpd/conf.d/{{ vhost }}
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Those same variables are usable in templates, which we'll get to later.
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Now in a very basic playbook all the tasks will be listed directly in that play, though it will usually
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make more sense to break up tasks using the 'include:' directive. We'll show that a bit later.
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Action Shorthand
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````````````````
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.. versionadded: 0.8
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Rather than listing out the explicit word, "action:", like so::
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action: template src=templates/foo.j2 dest=/etc/foo.conf
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It is also possible to say:
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template: src=templates/foo.j2 dest=/etc/foo.conf
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The name of the module is simply followed by a colon and the arguments to that module. We think this is a lot more intuitive.
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Our documentation has not converted over to this new format just yet as many users may still be using older versions.
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You'll be able to use both formats forever.
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Running Operations On Change
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````````````````````````````
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As we've mentioned, modules are written to be 'idempotent' and can relay when
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they have made a change on the remote system. Playbooks recognize this and
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have a basic event system that can be used to respond to change.
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These 'notify' actions are triggered at the end of each block of tasks in a playbook, and will only be
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triggered once even if notified by multiple different tasks.
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For instance, multiple resources may indicate
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that apache needs to be restarted because they have changed a config file,
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but apache will only be bounced once to avoid unneccessary restarts.
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Here's an example of restarting two services when the contents of a file
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change, but only if the file changes::
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- name: template configuration file
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action: template src=template.j2 dest=/etc/foo.conf
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notify:
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- restart memcached
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- restart apache
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The things listed in the 'notify' section of a task are called
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handlers.
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Handlers are lists of tasks, not really any different from regular
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tasks, that are referenced by name. Handlers are what notifiers
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notify. If nothing notifies a handler, it will not run. Regardless
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of how many things notify a handler, it will run only once, after all
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of the tasks complete in a particular play.
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Here's an example handlers section::
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handlers:
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- name: restart memcached
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action: service name=memcached state=restarted
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- name: restart apache
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action: service name=apache state=restarted
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Handlers are best used to restart services and trigger reboots. You probably
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won't need them for much else.
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.. note::
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Notify handlers are always run in the order written.
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Roles are described later on. It's worth while to point out that handlers are
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automatically processed between 'pre_tasks', 'roles', 'tasks', and 'post_tasks'
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sections. If you ever want to flush all the handler commands immediately though,
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in 1.2 and later, you can::
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tasks:
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- shell: some tasks go here
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- meta: flush_handlers
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- shell: some other tasks
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In the above example any queued up handlers would be processed early when the 'meta'
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statement was reached. This is a bit of a niche case but can come in handy from
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time to time.
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Task Include Files And Encouraging Reuse
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````````````````````````````````````````
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Suppose you want to reuse lists of tasks between plays or playbooks. You can use
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include files to do this. Use of included task lists is a great way to define a role
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that system is going to fulfill. Remember, the goal of a play in a playbook is to map
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a group of systems into multiple roles. Let's see what this looks like...
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A task include file simply contains a flat list of tasks, like so::
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---
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# possibly saved as tasks/foo.yml
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- name: placeholder foo
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action: command /bin/foo
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- name: placeholder bar
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action: command /bin/bar
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Include directives look like this, and can be mixed in with regular tasks in a playbook::
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tasks:
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- include: tasks/foo.yml
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You can also pass variables into includes. We call this a 'parameterized include'.
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For instance, if deploying multiple wordpress instances, I could
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contain all of my wordpress tasks in a single wordpress.yml file, and use it like so::
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tasks:
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- include: wordpress.yml user=timmy
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- include: wordpress.yml user=alice
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- include: wordpress.yml user=bob
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Variables passed in can then be used in the included files. You can reference them like this::
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{{ user }}
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(In addition to the explicitly passed in parameters, all variables from
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the vars section are also available for use here as well.)
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Starting in 1.0, variables can also be passed to include files using an alternative syntax,
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which also supports structured variables::
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tasks:
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- include: wordpress.yml
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vars:
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user: timmy
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some_list_variable:
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- alpha
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- beta
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- gamma
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Playbooks can include other playbooks too, but that's mentioned in a later section.
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.. note::
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As of 1.0, task include statements can be used at arbitrary depth.
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They were previously limited to a single level, so task includes
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could not include other files containing task includes.
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Includes can also be used in the 'handlers' section, for instance, if you
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want to define how to restart apache, you only have to do that once for all
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of your playbooks. You might make a handlers.yml that looks like::
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---
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# this might be in a file like handlers/handlers.yml
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- name: restart apache
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action: service name=apache state=restarted
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And in your main playbook file, just include it like so, at the bottom
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of a play::
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handlers:
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- include: handlers/handlers.yml
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You can mix in includes along with your regular non-included tasks and handlers.
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Includes can also be used to import one playbook file into another. This allows
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you to define a top-level playbook that is composed of other playbooks.
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For example::
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- name: this is a play at the top level of a file
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hosts: all
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user: root
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tasks:
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- name: say hi
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tags: foo
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action: shell echo "hi..."
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- include: load_balancers.yml
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- include: webservers.yml
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- include: dbservers.yml
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Note that you cannot do variable substitution when including one playbook
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inside another.
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.. note::
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You can not conditionally path the location to an include file,
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like you can with 'vars_files'. If you find yourself needing to do
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this, consider how you can restructure your playbook to be more
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class/role oriented. This is to say you cannot use a 'fact' to
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decide what include file to use. All hosts contained within the
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play are going to get the same tasks. ('*when*' provides some
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ability for hosts to conditionally skip tasks).
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Roles
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`````
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Now that you have learned about vars_files, tasks, and handlers, what is the best way to organize your playbooks?
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The short answer is to use roles! Roles are automatic ways of automatically loading certain vars_files, tasks, and
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handlers based on a known file structure. Grouping content by roles also allows easy sharing of roles with other users.
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Roles are just automation around 'include' directives as redescribed above, and really don't contain much
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additional magic beyond some improvements to search path handling for referenced files. However, that can be a big thing!
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Example project structure::
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site.yml
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webservers.yml
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fooservers.yml
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roles/
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common/
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files/
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templates/
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tasks/
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handlers/
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vars/
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webservers/
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files/
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templates/
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tasks/
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handlers/
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vars/
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In a playbook, it would look like this::
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---
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- hosts: webservers
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roles:
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- common
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- webservers
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This designates the following behaviors, for each role 'x':
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- If roles/x/tasks/main.yml exists, tasks listed therein will be added to the play
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- If roles/x/handlers/main.yml exists, handlers listed therein will be added to the play
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- If roles/x/vars/main.yml exists, variables listed therein will be added to the play
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- Any copy tasks can reference files in roles/x/files/ without having to path them relatively or absolutely
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- Any template tasks can reference files in roles/x/templates/ without having to path them relatively or absolutely
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If any files are not present, they are just ignored. So it's ok to not have a 'vars/' subdirectory for the role,
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for instance.
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Note, you are still allowed to list tasks, vars_files, and handlers "loose" in playbooks without using roles,
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but roles are a good organizational feature and are highly recommended. if there are loose things in the playbook,
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the roles are evaluated first.
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Also, should you wish to parameterize roles, by adding variables, you can do so, like this::
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---
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- hosts: webservers
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roles:
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- common
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- { role: foo_app_instance, dir: '/opt/a', port: 5000 }
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- { role: foo_app_instance, dir: '/opt/b', port: 5001 }
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While it's probably not something you should do often, you can also conditionally apply roles like so::
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---
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- hosts: webservers
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roles:
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- { role: some_role, when: "ansible_os_family == 'RedHat'" }
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This works by applying the conditional to every task in the role. Conditionals are covered later on in
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the documentation.
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|
|
|
If the play still has a 'tasks' section, those tasks are executed after roles are applied.
|
|
|
|
If you want to define certain tasks to happen before AND after roles are applied, you can do this::
|
|
|
|
---
|
|
- hosts: webservers
|
|
pre_tasks:
|
|
- shell: echo 'hello'
|
|
roles:
|
|
- { role: some_role }
|
|
post_tasks:
|
|
- shell: echo 'goodbye'
|
|
|
|
Executing A Playbook
|
|
````````````````````
|
|
|
|
Now that you've learned playbook syntax, how do you run a playbook? It's simple.
|
|
Let's run a playbook using a parallelism level of 10::
|
|
|
|
ansible-playbook playbook.yml -f 10
|
|
|
|
Tips and Tricks
|
|
```````````````
|
|
|
|
Look at the bottom of the playbook execution for a summary of the nodes that were executed
|
|
and how they performed. General failures and fatal "unreachable" communication attempts are
|
|
kept separate in the counts.
|
|
|
|
If you ever want to see detailed output from successful modules as well as unsuccessful ones,
|
|
use the '--verbose' flag. This is available in Ansible 0.5 and later.
|
|
|
|
Also, in version 0.5 and later, Ansible playbook output is vastly upgraded if the cowsay
|
|
package is installed. Try it!
|
|
|
|
In version 0.7 and later, to see what hosts would be affected by a playbook before you run it, you
|
|
can do this::
|
|
|
|
ansible-playbook playbook.yml --list-hosts.
|
|
|
|
.. seealso::
|
|
|
|
:doc:`YAMLSyntax`
|
|
Learn about YAML syntax
|
|
:doc:`playbooks`
|
|
Review the basic Playbook language features
|
|
:doc:`playbooks2`
|
|
Learn about Advanced Playbook Features
|
|
:doc:`bestpractices`
|
|
Various tips about managing playbooks in the real world
|
|
:doc:`modules`
|
|
Learn about available modules
|
|
:doc:`moduledev`
|
|
Learn how to extend Ansible by writing your own modules
|
|
:doc:`patterns`
|
|
Learn about how to select hosts
|
|
`Github examples directory <https://github.com/ansible/ansible/tree/devel/examples/playbooks>`_
|
|
Complete playbook files from the github project source
|
|
`Mailing List <http://groups.google.com/group/ansible-project>`_
|
|
Questions? Help? Ideas? Stop by the list on Google Groups
|
|
|
|
|