Ansible Network Examples
This document describes some examples of using Ansible to manage your network infrastructure.
Prerequisites
This example requires the following:
Ansible 2.10 (or higher) installed. See Installing Ansible for more information.
One or more network devices that are compatible with Ansible.
Basic understanding of YAML YAML Syntax.
Basic understanding of Jinja2 templates. See Templating (Jinja2) for more information.
Basic Linux command line use.
Basic knowledge of network switch & router configurations.
Groups and variables in an inventory file
An inventory
file is a YAML or INI-like configuration file that defines the mapping of hosts into groups.
In our example, the inventory file defines the groups eos
, ios
, vyos
and a “group of groups” called switches
. Further details about subgroups and inventory files can be found in the Ansible inventory Group documentation.
Because Ansible is a flexible tool, there are a number of ways to specify connection information and credentials. We recommend using the [my_group:vars]
capability in your inventory file.
[all:vars]
# these defaults can be overridden for any group in the [group:vars] section
ansible_connection=ansible.netcommon.network_cli
ansible_user=ansible
[switches:children]
eos
ios
vyos
[eos]
veos01 ansible_host=veos-01.example.net
veos02 ansible_host=veos-02.example.net
veos03 ansible_host=veos-03.example.net
veos04 ansible_host=veos-04.example.net
[eos:vars]
ansible_become=yes
ansible_become_method=enable
ansible_network_os=arista.eos.eos
ansible_user=my_eos_user
ansible_password=my_eos_password
[ios]
ios01 ansible_host=ios-01.example.net
ios02 ansible_host=ios-02.example.net
ios03 ansible_host=ios-03.example.net
[ios:vars]
ansible_become=yes
ansible_become_method=enable
ansible_network_os=cisco.ios.ios
ansible_user=my_ios_user
ansible_password=my_ios_password
[vyos]
vyos01 ansible_host=vyos-01.example.net
vyos02 ansible_host=vyos-02.example.net
vyos03 ansible_host=vyos-03.example.net
[vyos:vars]
ansible_network_os=vyos.vyos.vyos
ansible_user=my_vyos_user
ansible_password=my_vyos_password
If you use ssh-agent, you do not need the ansible_password
lines. If you use ssh keys, but not ssh-agent, and you have multiple keys, specify the key to use for each connection in the [group:vars]
section with ansible_ssh_private_key_file=/path/to/correct/key
. For more information on ansible_ssh_
options see Connecting to hosts: behavioral inventory parameters.
Warning
Never store passwords in plain text.
Ansible vault for password encryption
The “Vault” feature of Ansible allows you to keep sensitive data such as passwords or keys in encrypted files, rather than as plain text in your playbooks or roles. These vault files can then be distributed or placed in source control. See Using encrypted variables and files for more information.
Here’s what it would look like if you specified your SSH passwords (encrypted with Ansible Vault) among your variables:
ansible_connection: ansible.netcommon.network_cli
ansible_network_os: vyos.vyos.vyos
ansible_user: my_vyos_user
ansible_ssh_pass: !vault |
$ANSIBLE_VAULT;1.1;AES256
39336231636137663964343966653162353431333566633762393034646462353062633264303765
6331643066663534383564343537343334633031656538370a333737656236393835383863306466
62633364653238323333633337313163616566383836643030336631333431623631396364663533
3665626431626532630a353564323566316162613432373738333064366130303637616239396438
9853
Common inventory variables
The following variables are common for all platforms in the inventory, though they can be overwritten for a particular inventory group or host.
- ansible_connection:
Ansible uses the ansible-connection setting to determine how to connect to a remote device. When working with Ansible Networking, set this to an appropriate network connection option, such as
ansible.netcommon.network_cli
, so Ansible treats the remote node as a network device with a limited Execution Environment. Without this setting, Ansible would attempt to use ssh to connect to the remote and execute the Python script on the network device, which would fail because Python generally isn’t available on network devices.- ansible_network_os:
Informs Ansible which Network platform this hosts corresponds to. This is required when using the
ansible.netcommon.*
connection options.- ansible_user:
The user to connect to the remote device (switch) as. Without this the user that is running
ansible-playbook
would be used. Specifies which user on the network device the connection- ansible_password:
The corresponding password for
ansible_user
to log in as. If not specified SSH key will be used.- ansible_become:
If enable mode (privilege mode) should be used, see the next section.
- ansible_become_method:
Which type of become should be used, for
network_cli
the only valid choice isenable
.
Privilege escalation
Certain network platforms, such as Arista EOS and Cisco IOS, have the concept of different privilege modes. Certain network modules, such as those that modify system state including users, will only work in high privilege states. Ansible supports become
when using connection: ansible.netcommon.network_cli
. This allows privileges to be raised for the specific tasks that need them. Adding become: yes
and become_method: enable
informs Ansible to go into privilege mode before executing the task, as shown here:
[eos:vars]
ansible_connection=ansible.netcommon.network_cli
ansible_network_os=arista.eos.eos
ansible_become=yes
ansible_become_method=enable
For more information, see the using become with network modules guide.
Jump hosts
If the Ansible control node does not have a direct route to the remote device and you need to use a Jump Host, please see the Ansible Network Proxy Command guide for details on how to achieve this.
Example 1: collecting facts and creating backup files with a playbook
Ansible facts modules gather system information ‘facts’ that are available to the rest of your playbook.
Ansible Networking ships with a number of network-specific facts modules. In this example, we use the _facts
modules arista.eos.eos_facts, cisco.ios.ios_facts and vyos.vyos.vyos_facts to connect to the remote networking device. As the credentials are not explicitly passed with module arguments, Ansible uses the username and password from the inventory file.
Ansible’s “Network Fact modules” gather information from the system and store the results in facts prefixed with ansible_net_
. The data collected by these modules is documented in the Return Values section of the module docs, in this case arista.eos.eos_facts and vyos.vyos.vyos_facts. We can use the facts, such as ansible_net_version
late on in the “Display some facts” task.
To ensure we call the correct mode (*_facts
) the task is conditionally run based on the group defined in the inventory file, for more information on the use of conditionals in Ansible Playbooks see Basic conditionals with when.
In this example, we will create an inventory file containing some network switches, then run a playbook to connect to the network devices and return some information about them.
Step 1: Creating the inventory
First, create a file called inventory
, containing:
[switches:children]
eos
ios
vyos
[eos]
eos01.example.net
[ios]
ios01.example.net
[vyos]
vyos01.example.net
Step 2: Creating the playbook
Next, create a playbook file called facts-demo.yml
containing the following:
- name: "Demonstrate connecting to switches"
hosts: switches
gather_facts: no
tasks:
###
# Collect data
#
- name: Gather facts (eos)
arista.eos.eos_facts:
when: ansible_network_os == 'arista.eos.eos'
- name: Gather facts (ios)
cisco.ios.ios_facts:
when: ansible_network_os == 'cisco.ios.ios'
- name: Gather facts (vyos)
vyos.vyos.vyos_facts:
when: ansible_network_os == 'vyos.vyos.vyos'
###
# Demonstrate variables
#
- name: Display some facts
debug:
msg: "The hostname is {{ ansible_net_hostname }} and the OS is {{ ansible_net_version }}"
- name: Facts from a specific host
debug:
var: hostvars['vyos01.example.net']
- name: Write facts to disk using a template
copy:
content: |
#jinja2: lstrip_blocks: True
EOS device info:
{% for host in groups['eos'] %}
Hostname: {{ hostvars[host].ansible_net_hostname }}
Version: {{ hostvars[host].ansible_net_version }}
Model: {{ hostvars[host].ansible_net_model }}
Serial: {{ hostvars[host].ansible_net_serialnum }}
{% endfor %}
IOS device info:
{% for host in groups['ios'] %}
Hostname: {{ hostvars[host].ansible_net_hostname }}
Version: {{ hostvars[host].ansible_net_version }}
Model: {{ hostvars[host].ansible_net_model }}
Serial: {{ hostvars[host].ansible_net_serialnum }}
{% endfor %}
VyOS device info:
{% for host in groups['vyos'] %}
Hostname: {{ hostvars[host].ansible_net_hostname }}
Version: {{ hostvars[host].ansible_net_version }}
Model: {{ hostvars[host].ansible_net_model }}
Serial: {{ hostvars[host].ansible_net_serialnum }}
{% endfor %}
dest: /tmp/switch-facts
run_once: yes
###
# Get running configuration
#
- name: Backup switch (eos)
arista.eos.eos_config:
backup: yes
register: backup_eos_location
when: ansible_network_os == 'arista.eos.eos'
- name: backup switch (vyos)
vyos.vyos.vyos_config:
backup: yes
register: backup_vyos_location
when: ansible_network_os == 'vyos.vyos.vyos'
- name: Create backup dir
file:
path: "/tmp/backups/{{ inventory_hostname }}"
state: directory
recurse: yes
- name: Copy backup files into /tmp/backups/ (eos)
copy:
src: "{{ backup_eos_location.backup_path }}"
dest: "/tmp/backups/{{ inventory_hostname }}/{{ inventory_hostname }}.bck"
when: ansible_network_os == 'arista.eos.eos'
- name: Copy backup files into /tmp/backups/ (vyos)
copy:
src: "{{ backup_vyos_location.backup_path }}"
dest: "/tmp/backups/{{ inventory_hostname }}/{{ inventory_hostname }}.bck"
when: ansible_network_os == 'vyos.vyos.vyos'
Step 3: Running the playbook
To run the playbook, run the following from a console prompt:
ansible-playbook -i inventory facts-demo.yml
This should return output similar to the following:
PLAY RECAP
eos01.example.net : ok=7 changed=2 unreachable=0 failed=0
ios01.example.net : ok=7 changed=2 unreachable=0 failed=0
vyos01.example.net : ok=6 changed=2 unreachable=0 failed=0
Step 4: Examining the playbook results
Next, look at the contents of the file we created containing the switch facts:
cat /tmp/switch-facts
You can also look at the backup files:
find /tmp/backups
If ansible-playbook fails, please follow the debug steps in Network Debug and Troubleshooting Guide.
Example 2: simplifying playbooks with platform-independent modules
(This example originally appeared in the Deep Dive on cli_command for Network Automation blog post by Sean Cavanaugh -@IPvSean).
If you have two or more network platforms in your environment, you can use the platform-independent modules to simplify your playbooks. You can use platform-independent modules such as ansible.netcommon.cli_command
or ansible.netcommon.cli_config
in place of the platform-specific modules such as arista.eos.eos_config
, cisco.ios.ios_config
, and junipernetworks.junos.junos_config
. This reduces the number of tasks and conditionals you need in your playbooks.
Note
Platform-independent modules require the ansible.netcommon.network_cli connection plugin.
Sample playbook with platform-specific modules
This example assumes three platforms, Arista EOS, Cisco NXOS, and Juniper JunOS. Without the platform-independent modules, a sample playbook might contain the following three tasks with platform-specific commands:
---
- name: Run Arista command
arista.eos.eos_command:
commands: show ip int br
when: ansible_network_os == 'arista.eos.eos'
- name: Run Cisco NXOS command
cisco.nxos.nxos_command:
commands: show ip int br
when: ansible_network_os == 'cisco.nxos.nxos'
- name: Run Vyos command
vyos.vyos.vyos_command:
commands: show interface
when: ansible_network_os == 'vyos.vyos.vyos'
Simplified playbook with cli_command
platform-independent module
You can replace these platform-specific modules with the platform-independent ansible.netcommon.cli_command
module as follows:
---
- hosts: network
gather_facts: false
connection: ansible.netcommon.network_cli
tasks:
- name: Run cli_command on Arista and display results
block:
- name: Run cli_command on Arista
ansible.netcommon.cli_command:
command: show ip int br
register: result
- name: Display result to terminal window
debug:
var: result.stdout_lines
when: ansible_network_os == 'arista.eos.eos'
- name: Run cli_command on Cisco IOS and display results
block:
- name: Run cli_command on Cisco IOS
ansible.netcommon.cli_command:
command: show ip int br
register: result
- name: Display result to terminal window
debug:
var: result.stdout_lines
when: ansible_network_os == 'cisco.ios.ios'
- name: Run cli_command on Vyos and display results
block:
- name: Run cli_command on Vyos
ansible.netcommon.cli_command:
command: show interfaces
register: result
- name: Display result to terminal window
debug:
var: result.stdout_lines
when: ansible_network_os == 'vyos.vyos.vyos'
If you use groups and group_vars by platform type, this playbook can be further simplified to :
---
- name: Run command and print to terminal window
hosts: routers
gather_facts: false
tasks:
- name: Run show command
ansible.netcommon.cli_command:
command: "{{show_interfaces}}"
register: command_output
You can see a full example of this using group_vars and also a configuration backup example at Platform-independent examples.
Using multiple prompts with the ansible.netcommon.cli_command
The ansible.netcommon.cli_command
also supports multiple prompts.
---
- name: Change password to default
ansible.netcommon.cli_command:
command: "{{ item }}"
prompt:
- "New password"
- "Retype new password"
answer:
- "mypassword123"
- "mypassword123"
check_all: True
loop:
- "configure"
- "rollback"
- "set system root-authentication plain-text-password"
- "commit"
See the ansible.netcommon.cli_command for full documentation on this command.
Implementation Notes
Demo variables
Although these tasks are not needed to write data to disk, they are used in this example to demonstrate some methods of accessing facts about the given devices or a named host.
Ansible hostvars
allows you to access variables from a named host. Without this we would return the details for the current host, rather than the named host.
For more information, see Information about Ansible: magic variables.
Get running configuration
The arista.eos.eos_config and vyos.vyos.vyos_config modules have a backup:
option that when set will cause the module to create a full backup of the current running-config
from the remote device before any changes are made. The backup file is written to the backup
folder in the playbook root directory. If the directory does not exist, it is created.
To demonstrate how we can move the backup file to a different location, we register the result and move the file to the path stored in backup_path
.
Note that when using variables from tasks in this way we use double quotes ("
) and double curly-brackets ({{...}}
to tell Ansible that this is a variable.
Troubleshooting
If you receive an connection error please double check the inventory and playbook for typos or missing lines. If the issue still occurs follow the debug steps in Network Debug and Troubleshooting Guide.