11 KiB
Ansible Skeleton
An opinionated skeleton that considerably simplifies setting up an Ansible project with a development environment powered by Vagrant.
Advantages include:
- It works on Linux, MacOS and Windows (that is normally unsupported by Ansible)
- You don't need to edit the
Vagrantfile
. Hosts are defined in a simple Yaml format (see below). Setting up a multiple-VM Vagrant environment becomes almost trivial. I gave a lightning talk about this at Config Management Camp 2016 Ghent (slides here).
See also the companion projects:
- ansible-role-skeleton: scaffolding code for multi-platform Ansible roles with Vagrant and Docker test environments
- vagrant-shell-skeleton: A Vagrant environment with shell provisioning.
- ansible-toolbox: useful scripts to be used in combination with the skeleton-projects.
If you like/use this role, please consider giving it a star. Thanks!
Installation
On the management node, make sure you have installed recent versions of:
- VirtualBox
- Vagrant
- Git and for Windows hosts also Git Bash. If you install Git with default settings (i.e. always click "Next" in the installer), you should be fine.
- Ansible (only on Mac/Linux)
You can either clone this project or use the provided initialization script.
When cloning, choose another name for the target directory.
> git clone https://github.com/bertvv/ansible-skeleton.git my-ansible-project
After cloning, it's best to remove the .git
directory and initialise a new repository. The history of the skeleton code is irrelevant for your Ansible project.
You can find an initialization script in my ansible-toolbox that automates the process (including creating an empty Git repository).
> atb-init my-ansible-project
This will download the latest version of the skeleton from Github, initialize a Git repository, do the first commit, and, optionally, install any specified role.
> atb-init my-ansible-project bertvv.el7 bertvv.httpd
This will create the skeleton and install roles bertvv.el7
and bertvv.httpd
from Ansible Galaxy.
Getting started
First, modify the Vagrantfile
to select your favourite base box. I use a CentOS 7 base box, from the Bento project. This is probably the only time you need to edit the Vagrantfile
.
The vagrant-hosts.yml
file specifies the nodes that are controlled by Vagrant. You should at least specify a name:
, other settings (see below) are optional. A host-only adapter is created and the given IP assigned to that interface. Other optional settings that can be specified:
VirtualBox configuration:
cpus
: The number of CPUs assigned to this VM.memory
: The memory size in MB, if you want to set a size different from the base box default.synced_folders
: A list of dicts that specify synced folders. Two keys,src:
(the directory on the host system) anddest:
(the mount point in the guest) are mandatory, another one,options:
is, well, optional. The possible options are the same ones as specified in the Vagrant documentation on synced folders. One caveat is that the option names should be prefixed with a colon, e.g.owner:
becomes:owner:
.
- name: srv002
synced_folders:
- src: test
dest: /tmp/test
- src: www
dest: /var/www/html
options:
:create: true
:owner: root
:group: root
:mount_options: ['dmode=0755', 'fmode=0644']
Network settings:
auto_config
: If set tofalse
, Vagrant will not attempt to configure the network interface.forwarded_ports
: A list of dicts with keyshost:
andguest:
specifying which host port should be forwarded to which port on the VM.intnet
: If set totrue
, the network interface will be attached to an internal network rather than a host-only adapter.ip:
The IP address for the VM.mac
: The MAC address to be assigned to the NIC. Several notations are accepted, including "Linux-style" (00:11:22:33:44:55
) and "Windows-style" (00-11-22-33-44-55
). The separator characters can be omitted altogether (001122334455
).netmask
: By default, the network mask is255.255.255.0
. If you want another one, it should be specified.
Provisioning:
playbook
: On this host, execute a different playbook than the defaultansible/site.yml
shell_always
: A list of dicts that specify commands to be run after booting the VM. There is one required key,cmd:
that contains the command and any options/arguments.
Adding hosts
As an example, a single host with hostname srv001
is already defined. If you want to add new nodes, you should edit the following files:
vagrant-hosts.yml
so a Vagrant box is created. A few examples that also illustrate the optional settings.
- name: srv002
ip: 192.168.56.11
auto_config: false
- name: srv003
ip: 172.16.0.3
netmask: 255.255.0.0
intnet: true
- name: srv004
ip: 192.168.56.14
mac: "00:03:DE:AD:BE:EF"
playbook: server.yml # defaults to site.yml
site.yml
to assign roles to your nodes, e.g.:
- hosts: srv003
become: true
roles:
- bertvv.rh-base
- bertvv.httpd
Defining groups
Ansible allows hosts to be organized into groups. In order to use this functionality, edit the file vagrant-groups.yml
. The file should contain a dict with group names as keys and lists of member hosts as values.
In this example, two groups, db
and web
are defined:
---
db:
- srv001
web:
- srv002
- srv003
Run with custom hosts/groups file
VAGRANT_HOSTS='custom-vagrant-hosts.yml' vagrant up
or
export VAGRANT_HOSTS='custom-vagrant-hosts.yml'
vagrant up
Likewise, set the environment variable VAGRANT_GROUPS
to use a custom groups file.
Worked example
Alice wants to set up an environment with several web servers, a load balancer and a database server. She first defines the groups:
# group-vars.yml
---
db:
- db001
lb:
- lb001
web:
- web001
- web002
- web003
Next, she assigns IP addresses to each VM in vagrant-hosts.yml
:
# vagrant-hosts.yml
---
- name: db001
ip: 192.168.56.10
- name: lb001
ip: 192.168.56.11
- name: web001
ip: 192.168.56.21
- name: web002
ip: 192.168.56.22
- name: web003
ip: 192.168.56.23
Next, she starts with the following master playbook site.yml
:
# ansible/site.yml
---
- hosts: all
tasks:
- debug:
msg: "This is {{ ansible_hostname }} in group {{ my_group }}"
The variable ansible_hostname
is initialized automatically by Ansible, but my_group
is not. Therefore, Alice defines it for each group, by editing an appropriately named Yaml file in ansible/group_vars/
(only web
and db
are shown here):
# ansible/group_vars/web.yml
---
my_group: web
# ansible/group_vars/db.yml
---
my_group: db
Next, she can run vagrant up
. The following transcript shows what you should see after running vagrant provision db001 web001
:
$ vagrant provision db001 web001
==> db001: Running provisioner: ansible...
db001: Running ansible-playbook...
PLAY [all] *********************************************************************
TASK [debug] *******************************************************************
ok: [db001] =>
msg: This is db001 in group db
PLAY RECAP *********************************************************************
db001 : ok=1 changed=0 unreachable=0 failed=0
==> web001: Running provisioner: ansible...
web001: Running ansible-playbook...
PLAY [all] *********************************************************************
TASK [debug] *******************************************************************
ok: [web001] =>
msg: This is web001 in group web
PLAY RECAP *********************************************************************
web001 : ok=1 changed=0 unreachable=0 failed=0
The master playbook can the be refined further, e.g.
# ansible/site.yml
---
- hosts: web
roles:
- bertvv.rh-base
- bertvv.httpd
- hosts: db
roles:
- bertvv.rh-base
- bertvv.mariadb
# ...
Role variables can then be defined in ansible/group_vars/
.
Running tests with BATS
There's a discussion on whether Unit tests are necessary for Ansible. Indeed, with its declarative nature, Ansible largely takes away the need to check for certain things independently from the playbook definitions. For a bit more background, be sure to read through this discussion about unit testing for Ansible on Google groups.
However, it is my opinion that playbooks don't cover everything (e.g. whether a config file generated from a template has the expected contents, given the values of variables used). I value some form of testing, independent of the configuration management system. Personally, I'm a fan of the Bash Automated Testing System (BATS). It's basically an extension of Bash, so anyone familiar with it should be able to use BATS.
Put your BATS test scripts in the test/
directory and they will become available on your guest VMs as a synced folder, mounted in /vagrant/test
. Scripts that you want to run on each host should be stored in the test/
directory itself, scripts for individual hosts should be stored in subdirectories with the same name as the host (see example below). Inside the VM, run
> sudo /vagrant/test/runbats.sh
to execute all tests relevant for that host. The script will install BATS if needed.
Suppose the test/
directory is structured like the example below:
test/
├── common.bats
├── runbats.sh
├── db001
│ └── db.bats
└── web001
└── web.bats
On host db001
, the scripts common.bats
and db.bats
will be executed, on host web001
, it's common.bats
and web.bats
.
Tests must be defined for each host individually. If you want to run identical tests on several hosts, it's best to create a symlink, e.g.:
$ ln -s web001 web002
Now, web.bats
will also be executed on host web002
.
Contributors
- Bert Van Vreckem (maintainer)
- Brian Stewart
- Jeroen De Meerleer
- Mathias Stadler