Running a playbook without an inventory requires several command-line flags. Also, running a playbook against a single device is not a huge efficiency gain over making the same change manually. The next step to harnessing the full power of Ansible is to use an inventory file to organize your managed nodes into groups with information like the ansible_network_os
and the SSH user. A fully-featured inventory file can serve as the source of truth for your network. Using an inventory file, a single playbook can maintain hundreds of network devices with a single command. This page shows you how to build an inventory file, step by step.
ansible-vault
First, group your inventory logically. Best practice is to group servers and network devices by their What (application, stack or microservice), Where (datacenter or region), and When (development stage):
Avoid spaces, hyphens, and preceding numbers (use floor_19
, not 19th_floor
) in your group names. Group names are case sensitive.
This tiny example data center illustrates a basic group structure. You can group groups using the syntax [metagroupname:children]
and listing groups as members of the metagroup. Here, the group network
includes all leafs and all spines; the group datacenter
includes all network devices plus all webservers.
--- leafs: hosts: leaf01: ansible_host: 10.16.10.11 leaf02: ansible_host: 10.16.10.12 spines: hosts: spine01: ansible_host: 10.16.10.13 spine02: ansible_host: 10.16.10.14 network: children: leafs: spines: webservers: hosts: webserver01: ansible_host: 10.16.10.15 webserver02: ansible_host: 10.16.10.16 datacenter: children: network: webservers:
You can also create this same inventory in INI format.
[leafs] leaf01 leaf02 [spines] spine01 spine02 [network:children] leafs spines [webservers] webserver01 webserver02 [datacenter:children] network webservers
Next, you can set values for many of the variables you needed in your first Ansible command in the inventory, so you can skip them in the ansible-playbook
command. In this example, the inventory includes each network device’s IP, OS, and SSH user. If your network devices are only accessible by IP, you must add the IP to the inventory file. If you access your network devices using hostnames, the IP is not necessary.
--- leafs: hosts: leaf01: ansible_host: 10.16.10.11 ansible_network_os: vyos.vyos.vyos ansible_user: my_vyos_user leaf02: ansible_host: 10.16.10.12 ansible_network_os: vyos.vyos.vyos ansible_user: my_vyos_user spines: hosts: spine01: ansible_host: 10.16.10.13 ansible_network_os: vyos.vyos.vyos ansible_user: my_vyos_user spine02: ansible_host: 10.16.10.14 ansible_network_os: vyos.vyos.vyos ansible_user: my_vyos_user network: children: leafs: spines: webservers: hosts: webserver01: ansible_host: 10.16.10.15 ansible_user: my_server_user webserver02: ansible_host: 10.16.10.16 ansible_user: my_server_user datacenter: children: network: webservers:
When devices in a group share the same variable values, such as OS or SSH user, you can reduce duplication and simplify maintenance by consolidating these into group variables:
--- leafs: hosts: leaf01: ansible_host: 10.16.10.11 leaf02: ansible_host: 10.16.10.12 vars: ansible_network_os: vyos.vyos.vyos ansible_user: my_vyos_user spines: hosts: spine01: ansible_host: 10.16.10.13 spine02: ansible_host: 10.16.10.14 vars: ansible_network_os: vyos.vyos.vyos ansible_user: my_vyos_user network: children: leafs: spines: webservers: hosts: webserver01: ansible_host: 10.16.10.15 webserver02: ansible_host: 10.16.10.16 vars: ansible_user: my_server_user datacenter: children: network: webservers:
The syntax for variable values is different in inventory, in playbooks, and in the group_vars
files, which are covered below. Even though playbook and group_vars
files are both written in YAML, you use variables differently in each.
key=value
for variable values: ansible_network_os=vyos.vyos.vyos
..yml
or .yaml
extension, including playbooks and group_vars
files, you must use YAML syntax: key: value
.group_vars
files, use the full key
name: ansible_network_os: vyos.vyos.vyos
.key
name, which drops the ansible
prefix: network_os: vyos.vyos.vyos
.As your inventory grows, you may want to group devices by platform. This allows you to specify platform-specific variables easily for all devices on that platform:
--- leafs: hosts: leaf01: ansible_host: 10.16.10.11 leaf02: ansible_host: 10.16.10.12 spines: hosts: spine01: ansible_host: 10.16.10.13 spine02: ansible_host: 10.16.10.14 network: children: leafs: spines: vars: ansible_connection: ansible.netcommon.network_cli ansible_network_os: vyos.vyos.vyos ansible_user: my_vyos_user webservers: hosts: webserver01: ansible_host: 10.16.10.15 webserver02: ansible_host: 10.16.10.16 vars: ansible_user: my_server_user datacenter: children: network: webservers:
With this setup, you can run first_playbook.yml
with only two flags:
ansible-playbook -i inventory.yml -k first_playbook.yml
With the -k
flag, you provide the SSH password(s) at the prompt. Alternatively, you can store SSH and other secrets and passwords securely in your group_vars files with ansible-vault
. See Protecting sensitive variables with ansible-vault for details.
You can use the ansible-inventory CLI command to display the inventory as Ansible sees it.
$ ansible-inventory -i test.yml --list { "_meta": { "hostvars": { "leaf01": { "ansible_connection": "ansible.netcommon.network_cli", "ansible_host": "10.16.10.11", "ansible_network_os": "vyos.vyos.vyos", "ansible_user": "my_vyos_user" }, "leaf02": { "ansible_connection": "ansible.netcommon.network_cli", "ansible_host": "10.16.10.12", "ansible_network_os": "vyos.vyos.vyos", "ansible_user": "my_vyos_user" }, "spine01": { "ansible_connection": "ansible.netcommon.network_cli", "ansible_host": "10.16.10.13", "ansible_network_os": "vyos.vyos.vyos", "ansible_user": "my_vyos_user" }, "spine02": { "ansible_connection": "ansible.netcommon.network_cli", "ansible_host": "10.16.10.14", "ansible_network_os": "vyos.vyos.vyos", "ansible_user": "my_vyos_user" }, "webserver01": { "ansible_host": "10.16.10.15", "ansible_user": "my_server_user" }, "webserver02": { "ansible_host": "10.16.10.16", "ansible_user": "my_server_user" } } }, "all": { "children": [ "datacenter", "ungrouped" ] }, "datacenter": { "children": [ "network", "webservers" ] }, "leafs": { "hosts": [ "leaf01", "leaf02" ] }, "network": { "children": [ "leafs", "spines" ] }, "spines": { "hosts": [ "spine01", "spine02" ] }, "webservers": { "hosts": [ "webserver01", "webserver02" ] } }
ansible-vault
The ansible-vault
command provides encryption for files and/or individual variables like passwords. This tutorial will show you how to encrypt a single SSH password. You can use the commands below to encrypt other sensitive information, such as database passwords, privilege-escalation passwords and more.
First you must create a password for ansible-vault itself. It is used as the encryption key, and with this you can encrypt dozens of different passwords across your Ansible project. You can access all those secrets (encrypted values) with a single password (the ansible-vault password) when you run your playbooks. Here’s a simple example.
echo "my-ansible-vault-pw" > ~/my-ansible-vault-pw-file
ansible-vault encrypt_string --vault-id my_user@~/my-ansible-vault-pw-file 'VyOS_SSH_password' --name 'ansible_password'
If you prefer to type your ansible-vault password rather than store it in a file, you can request a prompt:
ansible-vault encrypt_string --vault-id my_user@prompt 'VyOS_SSH_password' --name 'ansible_password'
and type in the vault password for my_user
.
The --vault-id
flag allows different vault passwords for different users or different levels of access. The output includes the user name my_user
from your ansible-vault
command and uses the YAML syntax key: value
:
ansible_password: !vault | $ANSIBLE_VAULT;1.2;AES256;my_user 66386134653765386232383236303063623663343437643766386435663632343266393064373933 3661666132363339303639353538316662616638356631650a316338316663666439383138353032 63393934343937373637306162366265383461316334383132626462656463363630613832313562 3837646266663835640a313164343535316666653031353763613037656362613535633538386539 65656439626166666363323435613131643066353762333232326232323565376635 Encryption successful
This is an example using an extract from a YAML inventory, as the INI format does not support inline vaults:
... vyos: # this is a group in yaml inventory, but you can also do under a host vars: ansible_connection: ansible.netcommon.network_cli ansible_network_os: vyos.vyos.vyos ansible_user: my_vyos_user ansible_password: !vault | $ANSIBLE_VAULT;1.2;AES256;my_user 66386134653765386232383236303063623663343437643766386435663632343266393064373933 3661666132363339303639353538316662616638356631650a316338316663666439383138353032 63393934343937373637306162366265383461316334383132626462656463363630613832313562 3837646266663835640a313164343535316666653031353763613037656362613535633538386539 65656439626166666363323435613131643066353762333232326232323565376635 ...
To use an inline vaulted variables with an INI inventory you need to store it in a ‘vars’ file in YAML format, it can reside in host_vars/ or group_vars/ to be automatically picked up or referenced from a play via vars_files
or include_vars
.
To run a playbook with this setup, drop the -k
flag and add a flag for your vault-id
:
ansible-playbook -i inventory --vault-id my_user@~/my-ansible-vault-pw-file first_playbook.yml
Or with a prompt instead of the vault password file:
ansible-playbook -i inventory --vault-id my_user@prompt first_playbook.yml
To see the original value, you can use the debug module. Please note if your YAML file defines the ansible_connection
variable (as we used in our example), it will take effect when you execute the command below. To prevent this, please make a copy of the file without the ansible_connection variable.
cat vyos.yml | grep -v ansible_connection >> vyos_no_connection.yml ansible localhost -m debug -a var="ansible_password" -e "@vyos_no_connection.yml" --ask-vault-pass Vault password: localhost | SUCCESS => { "ansible_password": "VyOS_SSH_password" }
Warning
Vault content can only be decrypted with the password that was used to encrypt it. If you want to stop using one password and move to a new one, you can update and re-encrypt existing vault content with ansible-vault rekey myfile
, then provide the old password and the new password. Copies of vault content still encrypted with the old password can still be decrypted with old password.
For more details on building inventory files, see the introduction to inventory; for more details on ansible-vault, see the full Ansible Vault documentation.
Now that you understand the basics of commands, playbooks, and inventory, it’s time to explore some more complex Ansible Network examples.
© 2012–2018 Michael DeHaan
© 2018–2021 Red Hat, Inc.
Licensed under the GNU General Public License version 3.
https://docs.ansible.com/ansible/latest/network/getting_started/first_inventory.html