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21 KiB
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756 lines
21 KiB
Markdown
---
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category: tool
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tool: ansible
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contributors:
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- ["Jakub Muszynski" , "http://github.com/sirkubax"]
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- ["Pat Myron" , "https://github.com/patmyron"]
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- ["Divay Prakash", "https://github.com/divayprakash"]
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filename: LearnAnsible.txt
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---
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## Introduction
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```yaml
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---
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"{{ Ansible }}" is an orchestration tool written in Python.
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...
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```
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Ansible is (one of many) orchestration tools. It allows you to control your
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environment (infrastructure and code) and automate the manual tasks.
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Ansible has great integration with multiple operating systems (even Windows)
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and some hardware (switches, Firewalls, etc). It has multiple tools that
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integrate with the cloud providers. Almost every noteworthy cloud provider is
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present in the ecosystem (AWS, Azure, Google, DigitalOcean, OVH, etc...).
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But ansible is way more! It provides execution plans, an API, library, and callbacks.
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### Main pros and cons
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#### Pros
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* It is an agent-less tool. In most scenarios, it uses ssh as a transport layer.
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In some way you can use it as 'bash on steroids'.
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* It is very easy to start. If you are familiar with the concept of ssh - you already
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know Ansible (ALMOST).
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* It executes 'as is' - other tools (salt, puppet, chef - might execute in
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different scenario than you would expect)
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* Documentation is at the world-class standard!
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* Writing your own modules and extensions is fairly easy.
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* Ansible AWX is the open source version of Ansible Tower we have been waiting
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for, which provides an excellent UI.
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#### Cons
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* It is an agent-less tool - every agent consumes up to 16MB ram - in some
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environments, it may be noticable amount.
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* It is agent-less - you have to verify your environment consistency
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'on-demand' - there is no built-in mechanism that would warn you about some
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change automatically (this can be achieved with reasonable effort)
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* Official GUI - Ansible Tower - is great but expensive.
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* There is no 'small enterprise' payment plan, however Ansible AWX is the free
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open source version we were all waiting for.
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#### Neutral
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Migration - Ansible <-> Salt is fairly easy - so if you would need an
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event-driven agent environment - it would be a good choice to start quick with
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Ansible, and convert to Salt when needed.
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#### Some concepts
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Ansible uses ssh or paramiko as a transport layer. In a way you can imagine
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that you are using a ssh with API to perform your action. The simplest way is
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to execute remote command in more controlled way (still using ssh).
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On the other hand - in advanced scope - you can wrap Ansible (use python Ansible
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code as a library) with your own Python scripts! It would act a
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bit like Fabric then.
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## Example
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An example playbook to install apache and configure log level
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```yaml
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---
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- hosts: apache
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vars:
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apache2_log_level: "warn"
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handlers:
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- name: restart apache
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service:
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name: apache2
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state: restarted
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enabled: True
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notify:
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- Wait for instances to listen on port 80
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become: True
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- name: reload apache
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service:
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name: apache2
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state: reloaded
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notify:
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- Wait for instances to listen on port 80
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become: True
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- name: Wait for instances to listen on port 80
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wait_for:
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state: started
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host: localhost
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port: 80
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timeout: 15
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delay: 5
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tasks:
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- name: Update cache
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apt:
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update_cache: yes
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cache_valid_time: 7200
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become: True
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- name: Install packages
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apt:
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name={{ item }}
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with_items:
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- apache2
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- logrotate
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notify:
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- restart apache
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become: True
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- name: Configure apache2 log level
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lineinfile:
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dest: /etc/apache2/apache2.conf
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line: "LogLevel {{ apache2_log_level }}"
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regexp: "^LogLevel"
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notify:
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- reload apache
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become: True
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...
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```
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## Installation
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```bash
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# Universal way
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$ pip install ansible
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# Debian, Ubuntu
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$ apt-get install ansible
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```
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* [Appendix A - How do I install ansible](#infrastructure-as-a-code)
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* [Additional Reading.](http://docs.ansible.com/ansible/latest/intro_installation.html)
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### Your first ansible command (shell execution)
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```bash
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# Command pings localhost (defined in default inventory: /etc/ansible/hosts)
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$ ansible -m ping localhost
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# You should see this output
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localhost | SUCCESS => {
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"changed": false,
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"ping": "pong"
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}
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```
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### Shell Commands
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There are few commands you should know about
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* `ansible` (to run modules in CLI)
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* `ansible-playbook` (to run playbooks)
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* `ansible-vault` (to manage secrets)
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* `ansible-galaxy` (to install roles from github/galaxy)
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### Module
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A program (usually python) that executes, does some work and returns proper
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JSON output. This program performs specialized task/action (like manage
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instances in the cloud, execute shell command). The simplest module is called
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`ping` - it just returns a JSON with `pong` message.
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Example of modules:
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* Module: `ping` - the simplest module that is useful to verify host connectivity
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* Module: `shell` - a module that executes a shell command on a specified host(s).
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```bash
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$ ansible -m ping all
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$ ansible -m shell -a 'date; whoami' localhost #hostname_or_a_group_name
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```
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* Module: `command` - executes a single command that will not be processed
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through the shell, so variables like `$HOME` or operands like ``|` `;`` will not
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work. The command module is more secure, because it will not be affected by the
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user’s environment. For more complex commands - use shell module.
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```bash
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$ ansible -m command -a 'date; whoami' # FAILURE
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$ ansible -m command -a 'date' all
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$ ansible -m command -a 'whoami' all
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```
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* Module: `file` - performs file operations (stat, link, dir, ...)
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* Module: `raw` - executes a low-down and dirty SSH command, not going through
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the module subsystem (useful to install python2.7)
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### Task
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Execution of a single Ansible **module** is called a **task**. The simplest
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module is called `ping` as you could see above.
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Another example of the module that allows you to execute a command remotely on
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multiple resources is called `shell`. See above how you were using them already.
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### Playbook
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**Execution plan** written in a form of script file(s) is called **playbook**.
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Playbooks consist of multiple elements -
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* a list (or group) of hosts that 'the play' is executed against
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* `task(s)` or `role(s)` that are going to be executed
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* multiple optional settings (like default variables, and way more)
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Playbook script language is YAML. You can think that playbook is very advanced
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CLI script that you are executing.
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#### Example of the playbook
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This example-playbook would execute (on all hosts defined in inventory) two tasks:
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* `ping` that would return message *pong*
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* `shell` that execute three commands and return the output to our terminal
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```yaml
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- hosts: all
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tasks:
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- name: "ping all"
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ping:
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- name: "execute a shell command"
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shell: "date; whoami; df -h;"
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```
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Run the playbook with the command:
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```bash
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$ ansible-playbook path/name_of_the_playbook.yml
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```
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Note: Example playbook is explained in the next chapter: 'Roles'
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### More on ansible concept
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### Inventory
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An inventory is a set of objects or hosts, against which we are executing our
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playbooks or single tasks via shell commands. For these few minutes, let's
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assume that we are using the default ansible inventory (which in Debian based
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system is placed in `/etc/ansible/hosts`).
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```
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localhost
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[some_group]
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hostA.mydomain.com
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hostB.localdomain
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1.2.3.4
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[a_group_of_a_groups:children]
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some_group
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some_other_group
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```
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* [Additional Reading.](http://docs.ansible.com/ansible/latest/intro_inventory.html)
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### ansible-roles (a 'template-playbooks' with right structure)
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You already know that the tasks (modules) can be run via CLI. You also know the
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playbooks - the execution plans of multiple tasks (with variables and logic).
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A concept called `role` was introduced for parts of the code (playbooks) that
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should be reusable.
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**Role** is a structured way to manage your set of tasks, variables, handlers,
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default settings, and way more (meta, files, templates). Roles allow reusing
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the same parts of code in multiple playbooks (you can parametrize the role
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'further' during its execution). Its a great way to introduce `object oriented`
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management for your applications.
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Role can be included in your playbook (executed via your playbook).
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```yaml
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- hosts: all
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tasks:
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- name: "ping all"
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ping:
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- name: "execute a shell command"
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shell: "date; whoami; df -h;"
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roles:
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- some_role
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- { role: another_role, some_variable: 'learnxiny', tags: ['my_tag'] }
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pre_tasks:
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- name: some pre-task
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shell: echo 'this task is the last, but would be executed before roles, and before tasks'
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```
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#### For remaining examples we would use additional repository
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This example installs ansible in `virtualenv` so it is independent from the system.
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You need to initialize it into your shell-context with the `source environment.sh`
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command.
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We are going to use this repository with examples: [https://github.com/sirkubax/ansible-for-learnXinYminutes](https://github.com/sirkubax/ansible-for-learnXinYminutes)
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```bash
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$ # The following example contains a shell-prompt to indicate the venv and relative path
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$ git clone git@github.com:sirkubax/ansible-for-learnXinYminutes.git
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user@host:~/$ cd ansible-for-learnXinYminutes
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user@host:~/ansible-for-learnXinYminutes$ source environment.sh
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$
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$ # First lets execute the simple_playbook.yml
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(venv) user@host:~/ansible-for-learnXinYminutes$ ansible-playbook playbooks/simple_playbook.yml
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```
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Run the playbook with roles example
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```bash
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$ source environment.sh
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$ # Now we would run the above playbook with roles
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(venv) user@host:~/ansible-for-learnXinYminutes$ ansible-playbook playbooks/simple_role.yml
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```
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#### Role directory structure
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```
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roles/
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some_role/
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defaults/ # contains default variables
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files/ # for static files
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templates/ # for jinja templates
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tasks/ # tasks
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handlers/ # handlers
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vars/ # more variables (higher priority)
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meta/ # meta - package (role) info
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```
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#### Role Handlers
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Handlers are tasks that can be triggered (notified) during execution of a
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playbook, but they execute at the very end of a playbook. It is the best way to
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restart a service, check if the application port is active (successful
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deployment criteria), etc.
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Get familiar with how you can use roles in the simple_apache_role example
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```
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playbooks/roles/simple_apache_role/
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├── tasks
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│ └── main.yml
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└── templates
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└── main.yml
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```
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### ansible - variables
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Ansible is flexible - it has 21 levels of variable precedence.
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[read more](http://docs.ansible.com/ansible/latest/playbooks_variables.html#variable-precedence-where-should-i-put-a-variable)
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For now you should know that CLI variables have the top priority.
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You should also know, that a nice way to pool some data is a **lookup**
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### Lookups
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Awesome tool to query data from various sources!!! Awesome!
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query from:
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* pipe (load shell command output into variable!)
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* file
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* stream
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* etcd
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* password management tools
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* url
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```bash
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# read playbooks/lookup.yml
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# then run
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(venv) user@host:~/ansible-for-learnXinYminutes$ ansible-playbook playbooks/lookup.yml
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```
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You can use them in CLI too
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```yaml
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ansible -m shell -a 'echo "{{ my_variable }}"' -e 'my_variable="{{ lookup("pipe", "date") }}"' localhost
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ansible -m shell -a 'echo "{{ my_variable }}"' -e 'my_variable="{{ lookup("pipe", "hostname") }}"' all
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# Or use in playbook
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(venv) user@host:~/ansible-for-learnXinYminutes$ ansible-playbook playbooks/lookup.yml
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```
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### Register and Conditional
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#### Register
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Another way to dynamically generate the variable content is the `register` command.
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`Register` is also useful to store an output of a task and use its value
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for executing further tasks.
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```
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(venv) user@host:~/ansible-for-learnXinYminutes$ ansible-playbook playbooks/register_and_when.yml
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```
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```yaml
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---
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- hosts: localhost
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tasks:
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- name: check the system capacity
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shell: df -h /
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register: root_size
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- name: debug root_size
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debug:
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msg: "{{ root_size }}"
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- name: debug root_size return code
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debug:
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msg: "{{ root_size.rc }}"
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# when: example
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- name: Print this message when return code of 'check the system capacity' was ok
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debug:
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msg: "{{ root_size.rc }}"
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when: root_size.rc == 0
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...
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```
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#### Conditionals - when:
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You can define complex logic with Ansible and Jinja functions. Most common is
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usage of `when:`, with some variable (often dynamically generated in previous
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playbook steps with `register` or `lookup`)
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```yaml
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---
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- hosts: localhost
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tasks:
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- name: check the system capacity
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shell: df -h /
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when: some_variable in 'a string'
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roles:
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- { role: mid_nagios_probe, when: allow_nagios_probes }
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...
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```
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### ansible - tags, limit
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You should know about a way to increase efficiency by this simple functionality
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#### TAGS
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You can tag a task, role (and its tasks), include, etc, and then run only the
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tagged resources
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```
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ansible-playbook playbooks/simple_playbook.yml --tags=tagA,tag_other
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ansible-playbook playbooks/simple_playbook.yml -t tagA,tag_other
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There are special tags:
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always
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--skip-tags can be used to exclude a block of code
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--list-tags to list available tags
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```
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[Read more](http://docs.ansible.com/ansible/latest/playbooks_tags.html)
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#### LIMIT
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You can limit an execution of your tasks to defined hosts
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```
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ansible-playbook playbooks/simple_playbook.yml --limit localhost
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--limit my_hostname
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--limit groupname
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--limit some_prefix*
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--limit hostname:group #JM
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```
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### Templates
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Templates are a powerful way to deliver some (partially) dynamic content.
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Ansible uses **Jinja2** language to describe the template.
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```
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Some static content
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{{ a_variable }}
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{% for item in loop_items %}
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this line item is {{ item }}
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{% endfor %}
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```
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Jinja may have some limitations, but it is a powerful tool that you might like.
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Please examine this simple example that installs apache2 and generates
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index.html from the template
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"playbooks/roles/simple_apache_role/templates/index.html"
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```bash
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$ source environment.sh
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$ # Now we would run the above playbook with roles
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(venv) user@host:~/ansible-for-learnXinYminutes$ ansible-playbook playbooks/simple_role.yml --tags apache2
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```
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#### Jinja2 CLI
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You can use the jinja in the CLI too
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```bash
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ansible -m shell -a 'echo {{ my_variable }}' -e 'my_variable=something, playbook_parameter=twentytwo' localhost
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```
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In fact - jinja is used to template parts of the playbooks too
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```yaml
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# check part of this playbook: playbooks/roles/sys_debug/tasks/debug_time.yml
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- local_action: shell date +'%F %T'
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register: ts
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become: False
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changed_when: False
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- name: Timestamp
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debug: msg="{{ ts.stdout }}"
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when: ts is defined and ts.stdout is defined
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become: False
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```
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#### Jinja2 filters
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||
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Jinja is powerful. It has many built-in useful functions.
|
||
|
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```
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# get first item of the list
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{{ some_list | first() }}
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# if variable is undefined - use default value
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{{ some_variable | default('default_value') }}
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```
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[Read More](http://docs.ansible.com/ansible/latest/playbooks_filters.html)
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|
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### ansible-vault
|
||
|
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To maintain **infrastructure as code** you need to store secrets. Ansible
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provides a way to encrypt confidential files so you can store them in the
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repository, yet the files are decrypted on-the-fly during ansible execution.
|
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The best way to use it is to store the secret in some secure location, and
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configure ansible to use them during runtime.
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|
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```bash
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# Try (this would fail)
|
||
$ ansible-playbook playbooks/vault_example.yml
|
||
|
||
$ echo some_very_very_long_secret > ~/.ssh/secure_located_file
|
||
|
||
# in ansible.cfg set the path to your secret file
|
||
$ vi ansible.cfg
|
||
ansible_vault_password_file = ~/.ssh/secure_located_file
|
||
|
||
#or use env
|
||
$ export ANSIBLE_VAULT_PASSWORD_FILE=~/.ssh/secure_located_file
|
||
|
||
$ ansible-playbook playbooks/vault_example.yml
|
||
|
||
# encrypt the file
|
||
$ ansible-vault encrypt path/somefile
|
||
|
||
# view the file
|
||
$ ansible-vault view path/somefile
|
||
|
||
# check the file content:
|
||
$ cat path/somefile
|
||
|
||
# decrypt the file
|
||
$ ansible-vault decrypt path/somefile
|
||
```
|
||
|
||
### dynamic inventory
|
||
|
||
You might like to know, that you can build your inventory dynamically.
|
||
(For Ansible) inventory is just JSON with proper structure - if you can
|
||
deliver that to ansible - anything is possible.
|
||
|
||
You do not need to reinvent the wheel - there are plenty of ready to use
|
||
inventory scripts for the most popular Cloud providers and a lot of in-house
|
||
popular usecases.
|
||
|
||
[AWS example](http://docs.ansible.com/ansible/latest/intro_dynamic_inventory.html#example-aws-ec2-external-inventory-script)
|
||
|
||
```bash
|
||
$ etc/inv/ec2.py --refresh
|
||
$ ansible -m ping all -i etc/inv/ec2.py
|
||
```
|
||
|
||
[Read more](http://docs.ansible.com/ansible/latest/intro_dynamic_inventory.html)
|
||
|
||
### ansible profiling - callback
|
||
|
||
Playbook execution takes some time. It is OK. First make it run, then you may
|
||
like to speed things up. Since ansible 2.x there is built-in callback for task
|
||
execution profiling.
|
||
|
||
```
|
||
vi ansible.cfg
|
||
# set this to:
|
||
callback_whitelist = profile_tasks
|
||
```
|
||
|
||
### facts-cache and ansible-cmdb
|
||
|
||
You can pull some information about your environment from another host.
|
||
If the information does not change - you may consider using a facts_cache
|
||
to speed things up.
|
||
|
||
```
|
||
vi ansible.cfg
|
||
|
||
# if set to a persistent type (not 'memory', for example 'redis') fact values
|
||
# from previous runs in Ansible will be stored. This may be useful when
|
||
# wanting to use, for example, IP information from one group of servers
|
||
# without having to talk to them in the same playbook run to get their
|
||
# current IP information.
|
||
fact_caching = jsonfile
|
||
fact_caching_connection = ~/facts_cache
|
||
fact_caching_timeout = 86400
|
||
```
|
||
|
||
I like to use `jsonfile` as my backend. It allows to use another project
|
||
`ansible-cmdb` [(project on github)](https://github.com/fboender/ansible-cmdb) that generates a HTML page of your inventory
|
||
resources. A nice 'free' addition!
|
||
|
||
### Debugging ansible [chapter in progress]
|
||
|
||
When your job fails - it is good to be effective with debugging.
|
||
|
||
1. Increase verbosity by using multiple -v **[ -vvvvv]**
|
||
2. If variable is undefined -
|
||
`grep -R path_of_your_inventory -e missing_variable`
|
||
3. If variable (dictionary or a list) is undefined -
|
||
`grep -R path_of_your_inventory -e missing_variable`
|
||
4. Jinja template debug
|
||
5. Strange behaviour - try to run the code 'at the destination'
|
||
|
||
### Infrastructure as code
|
||
|
||
You already know, that ansible-vault allows you to store your confidential data
|
||
along with your code. You can go further - and define your
|
||
ansible installation and configuration as code.
|
||
See `environment.sh` to learn how to install the ansible itself inside a
|
||
`virtualenv` that is not attached to your operating system (can be changed by
|
||
non-privileged user), and as additional benefit - upgrading version of ansible
|
||
is as easy as installing new version in new virtualenv. What is more, you can
|
||
have multiple versions of Ansible present at the same time.
|
||
|
||
```bash
|
||
# recreate ansible 2.x venv
|
||
$ rm -rf venv2
|
||
$ source environment2.sh
|
||
|
||
# execute playbook
|
||
(venv2)$ ansible-playbook playbooks/ansible1.9_playbook.yml # would fail - deprecated syntax
|
||
|
||
# now lets install ansible 1.9.x next to ansible 2.x
|
||
(venv2)$ deactivate
|
||
$ source environment.1.9.sh
|
||
|
||
# execute playbook
|
||
(venv1.9)$ ansible-playbook playbooks/ansible1.9_playbook.yml # works!
|
||
|
||
# please note that you have both venv1.9 and venv2 present - you need to (de)activate one - that is all
|
||
```
|
||
|
||
#### become-user, become
|
||
|
||
In Ansible - to become `sudo` - use the `become` parameter. Use `become_user`
|
||
to specify the username.
|
||
|
||
```
|
||
- name: Ensure the httpd service is running
|
||
service:
|
||
name: httpd
|
||
state: started
|
||
become: true
|
||
```
|
||
|
||
Note: You may like to execute Ansible with `--ask-sudo-pass` or add the user to
|
||
sudoers file in order to allow non-supervised execution if you require 'admin'
|
||
privilages.
|
||
|
||
[Read more](http://docs.ansible.com/ansible/latest/become.html)
|
||
|
||
## Tips and tricks
|
||
|
||
#### --check -C
|
||
|
||
Always make sure that your playbook can execute in 'dry run' mode (--check),
|
||
and its execution is not declaring 'Changed' objects.
|
||
|
||
#### --diff -D
|
||
|
||
Diff is useful to see nice detail of the files changed.
|
||
It compare 'in memory' the files like `diff -BbruN fileA fileB`.
|
||
|
||
|
||
#### Execute hosts with 'regex'
|
||
|
||
```bash
|
||
ansible -m ping web*
|
||
```
|
||
|
||
#### Host groups can be joined, negated, etc
|
||
|
||
```bash
|
||
ansible -m ping web*:!backend:monitoring:&allow_change
|
||
```
|
||
|
||
#### Tagging
|
||
|
||
You should tag some (not all) objects - a task in a playbook, all tasks
|
||
included form a role, etc. It allows you to execute the chosen parts of the
|
||
playbook.
|
||
|
||
#### no_logs: True
|
||
|
||
You may see, that some roles print a lot of output in verbose mode. There is
|
||
also a debug module. This is the place where credentials may leak. Use `no_log`
|
||
to hide the output.
|
||
|
||
#### Debug module
|
||
|
||
allows to print a value to the screen - use it!
|
||
|
||
#### Register the output of a task
|
||
|
||
You can register the output (stdout), rc (return code), stderr of a task with
|
||
the `register` command.
|
||
|
||
#### Conditionals: when:
|
||
|
||
#### Loop: with, with\_items, with\_dict, with\_together
|
||
|
||
[Read more](http://docs.ansible.com/ansible/latest/playbooks_conditionals.html)
|
||
|
||
## Additional Resources
|
||
|
||
* [Servers For Hackers: An Ansible Tutorial](https://serversforhackers.com/c/an-ansible-tutorial)
|
||
* [A system administrator's guide to getting started with Ansible - FAST!](https://www.redhat.com/en/blog/system-administrators-guide-getting-started-ansible-fast)
|
||
* [Ansible Tower](https://www.ansible.com/products/tower) - Ansible Tower provides a web UI, dashboard and rest interface to ansible.
|
||
* [Ansible AWX](https://github.com/ansible/awx) - The Open Source version of Ansible Tower.
|