Run Your First Command and Playbook
Put the concepts you learned to work with this quick tutorial. Install Ansible, execute a network configuration command manually, execute the same command with Ansible, then create a playbook so you can execute the command any time on multiple network devices.
Prerequisites
Before you work through this tutorial you need:
Ansible 2.10 (or higher) installed
One or more network devices that are compatible with Ansible
Basic Linux command line knowledge
Basic knowledge of network switch & router configuration
Install Ansible
Install Ansible using your preferred method. See Installing Ansible. Then return to this tutorial.
Confirm the version of Ansible (must be >= 2.10):
ansible --version
Establish a manual connection to a managed node
To confirm your credentials, connect to a network device manually and retrieve its configuration. Replace the sample user and device name with your real credentials. For example, for a VyOS router:
ssh my_vyos_user@vyos.example.net
show config
exit
This manual connection also establishes the authenticity of the network device, adding its RSA key fingerprint to your list of known hosts. (If you have connected to the device before, you have already established its authenticity.)
Run your first network Ansible command
Instead of manually connecting and running a command on the network device, you can retrieve its configuration with a single, stripped-down Ansible command:
ansible all -i vyos.example.net, -c ansible.netcommon.network_cli -u my_vyos_user -k -m vyos.vyos.vyos_facts -e ansible_network_os=vyos.vyos.vyos
- The flags in this command set seven values:
the host group(s) to which the command should apply (in this case, all)
the inventory (-i, the device or devices to target - without the trailing comma -i points to an inventory file)
the connection method (-c, the method for connecting and executing ansible)
the user (-u, the username for the SSH connection)
the SSH connection method (-k, please prompt for the password)
the module (-m, the Ansible module to run, using the fully qualified collection name (FQCN))
an extra variable ( -e, in this case, setting the network OS value)
NOTE: If you use ssh-agent
with ssh keys, Ansible loads them automatically. You can omit -k
flag.
Note
If you are running Ansible in a virtual environment, you will also need to add the variable ansible_python_interpreter=/path/to/venv/bin/python
Create and run your first network Ansible Playbook
If you want to run this command every day, you can save it in a playbook and run it with ansible-playbook
instead of ansible
. The playbook can store a lot of the parameters you provided with flags at the command line, leaving less to type at the command line. You need two files for this - a playbook and an inventory file.
Download
first_playbook.yml
, which looks like this:
---
- name: Network Getting Started First Playbook
connection: ansible.netcommon.network_cli
gather_facts: false
hosts: all
tasks:
- name: Get config for VyOS devices
vyos.vyos.vyos_facts:
gather_subset: all
- name: Display the config
debug:
msg: "The hostname is {{ ansible_net_hostname }} and the OS is {{ ansible_net_version }}"
The playbook sets three of the seven values from the command line above: the group (hosts: all
), the connection method (connection: ansible.netcommon.network_cli
) and the module (in each task). With those values set in the playbook, you can omit them on the command line. The playbook also adds a second task to show the config output. When a module runs in a playbook, the output is held in memory for use by future tasks instead of written to the console. The debug task here lets you see the results in your shell.
Run the playbook with the command:
ansible-playbook -i vyos.example.net, -u ansible -k -e ansible_network_os=vyos.vyos.vyos first_playbook.yml
The playbook contains one play with two tasks, and should generate output like this:
$ ansible-playbook -i vyos.example.net, -u ansible -k -e ansible_network_os=vyos.vyos.vyos first_playbook.yml
PLAY [Network Getting Started First Playbook]
***************************************************************************************************************************
TASK [Get config for VyOS devices]
***************************************************************************************************************************
ok: [vyos.example.net]
TASK [Display the config]
***************************************************************************************************************************
ok: [vyos.example.net] => {
"msg": "The hostname is vyos and the OS is VyOS 1.1.8"
}
Now that you can retrieve the device config, try updating it with Ansible. Download
first_playbook_ext.yml
, which is an extended version of the first playbook:
---
- name: Network Getting Started First Playbook Extended
connection: ansible.netcommon.network_cli
gather_facts: false
hosts: all
tasks:
- name: Get config for VyOS devices
vyos.vyos.vyos_facts:
gather_subset: all
- name: Display the config
debug:
msg: "The hostname is {{ ansible_net_hostname }} and the OS is {{ ansible_net_version }}"
- name: Update the hostname
vyos.vyos.vyos_config:
backup: yes
lines:
- set system host-name vyos-changed
- name: Get changed config for VyOS devices
vyos.vyos.vyos_facts:
gather_subset: all
- name: Display the changed config
debug:
msg: "The new hostname is {{ ansible_net_hostname }} and the OS is {{ ansible_net_version }}"
The extended first playbook has five tasks in a single play. Run it with the same command you used above. The output shows you the change Ansible made to the config:
$ ansible-playbook -i vyos.example.net, -u ansible -k -e ansible_network_os=vyos.vyos.vyos first_playbook_ext.yml
PLAY [Network Getting Started First Playbook Extended]
************************************************************************************************************************************
TASK [Get config for VyOS devices]
**********************************************************************************************************************************
ok: [vyos.example.net]
TASK [Display the config]
*************************************************************************************************************************************
ok: [vyos.example.net] => {
"msg": "The hostname is vyos and the OS is VyOS 1.1.8"
}
TASK [Update the hostname]
*************************************************************************************************************************************
changed: [vyos.example.net]
TASK [Get changed config for VyOS devices]
*************************************************************************************************************************************
ok: [vyos.example.net]
TASK [Display the changed config]
*************************************************************************************************************************************
ok: [vyos.example.net] => {
"msg": "The new hostname is vyos-changed and the OS is VyOS 1.1.8"
}
PLAY RECAP
************************************************************************************************************************************
vyos.example.net : ok=5 changed=1 unreachable=0 failed=0
Gathering facts from network devices
The gather_facts
keyword now supports gathering network device facts in standardized key/value pairs. You can feed these network facts into further tasks to manage the network device.
You can also use the new gather_network_resources
parameter with the network *_facts
modules (such as arista.eos.eos_facts) to return just a subset of the device configuration, as shown below.
- hosts: arista
gather_facts: True
gather_subset: interfaces
module_defaults:
arista.eos.eos_facts:
gather_network_resources: interfaces
The playbook returns the following interface facts:
"network_resources": {
"interfaces": [
{
"description": "test-interface",
"enabled": true,
"mtu": "512",
"name": "Ethernet1"
},
{
"enabled": true,
"mtu": "3000",
"name": "Ethernet2"
},
{
"enabled": true,
"name": "Ethernet3"
},
{
"enabled": true,
"name": "Ethernet4"
},
{
"enabled": true,
"name": "Ethernet5"
},
{
"enabled": true,
"name": "Ethernet6"
},
]
}
Note that gather_network_resources
renders configuration data as facts for all supported resources (interfaces, bgp, ospf, and so on), whereas, gather_subset
is primarily used to fetch operational data.
You can store these facts and use them directly in another task, such as with the eos_interfaces resource module.