How Network Automation is Different
Network automation leverages the basic Ansible concepts, but there are important differences in how the network modules work. This introduction prepares you to understand the exercises in this guide.
Execution on the control node
Unlike most Ansible modules, network modules do not run on the managed nodes. From a user’s point of view, network modules work like any other modules. They work with ad hoc commands, playbooks, and roles. Behind the scenes, however, network modules use a different methodology than the other (Linux/Unix and Windows) modules use. Ansible is written and executed in Python. Because the majority of network devices can not run Python, the Ansible network modules are executed on the Ansible control node, where ansible
or ansible-playbook
runs.
Network modules also use the control node as a destination for backup files, for those modules that offer a backup
option. With Linux/Unix modules, where a configuration file already exists on the managed node(s), the backup file gets written by default in the same directory as the new, changed file. Network modules do not update configuration files on the managed nodes, because network configuration is not written in files. Network modules write backup files on the control node, usually in the backup directory under the playbook root directory.
Multiple communication protocols
Because network modules execute on the control node instead of on the managed nodes, they can support multiple communication protocols. The communication protocol (XML over SSH, CLI over SSH, API over HTTPS) selected for each network module depends on the platform and the purpose of the module. Some network modules support only one protocol; some offer a choice. The most common protocol is CLI over SSH. You set the communication protocol with the ansible_connection
variable:
Value of ansible_connection |
Protocol |
Requires |
Persistent? |
---|---|---|---|
ansible.netcommon.network_cli |
CLI over SSH |
network_os setting |
yes |
ansible.netcommon.netconf |
XML over SSH |
network_os setting |
yes |
ansible.netcommon.httpapi |
API over HTTP/HTTPS |
network_os setting |
yes |
local |
depends on provider |
provider setting |
no |
Note
ansible.netcommon.httpapi
deprecates eos_eapi
and nxos_nxapi
. See Httpapi Plugins for details and an example.
The ansible_connection: local
has been deprecated. Please use one of the persistent connection types listed above instead. With persistent connections, you can define the hosts and credentials only once, rather than in every task. You also need to set the network_os
variable for the specific network platform you are communicating with. For more details on using each connection type on various platforms, see the platform-specific pages.
Collections organized by network platform
A network platform is a set of network devices with a common operating system that can be managed by an Ansible collection, for example:
Arista: arista.eos
Cisco: cisco.ios, cisco.iosxr, cisco.nxos
Juniper: junipernetworks.junos
VyOS vyos.vyos
All modules within a network platform share certain requirements. Some network platforms have specific differences - see the platform-specific documentation for details.
Privilege Escalation: enable
mode, become
, and authorize
Several network platforms support privilege escalation, where certain tasks must be done by a privileged user. On network devices this is called the enable
mode (the equivalent of sudo
in *nix administration). Ansible network modules offer privilege escalation for those network devices that support it. For details of which platforms support enable
mode, with examples of how to use it, see the platform-specific documentation.
Using become
for privilege escalation
Use the top-level Ansible parameter become: yes
with become_method: enable
to run a task, play, or playbook with escalated privileges on any network platform that supports privilege escalation. You must use either connection: network_cli
or connection: httpapi
with become: yes
with become_method: enable
. If you are using network_cli
to connect Ansible to your network devices, a group_vars
file would look like:
ansible_connection: ansible.netcommon.network_cli
ansible_network_os: cisco.ios.ios
ansible_become: yes
ansible_become_method: enable
For more information, see Become and Networks