Daniel Bodky
A universal truth and recurring theme in the DevOps world is automation. From providing infrastructure to testing code to deploying to production, many parts of the DevOps lifecycle get automated already. One popular technology for managing infrastructure and configuration in an automated way is Ansible, but are we fully utilizing its capabilities yet?
This presentation will give a broad overview of Ansible and its architecture and use-cases, before exploring a relatively new feature, Event-driven Ansible (EDA). Analzying applications of event-driven Ansible, participants will see that automated management is nice, but automatic management is awesome, not just regarding DevOps principles, but also in terms of reaction times, the human tendency for minor mistakes, and toil for operators.
Participants will get first-hand insights into Ansible, its strengths, weaknesses, and the potential of event-driven automation within the DevOps world.
Note
The below content is a copy of the lab repository's README for convenience.
This is a lab designed to demonstrate Ansible and how Event-Driven Ansible (EDA) builds on top of its capabilities.
The setup is done with Ansible, too. It will install Ansible, EDA, Prometheus, and Alertmanager on a VM to demonstrate some of the capabilities of EDA.
To follow along with this lab in its entirety, you will need three VMs:
Note
If you want to skip Ansible basics and go straight to EDA, you'll need just the eda-controller.example.com VM and can skip the others.
| VM name | OS |
|---|---|
| eda-controller.example.com | CentOS/Rocky 8.9 |
| company.example.com | CentOS/Rocky 8.9 |
| webshop.example.com | Ubuntu 22.04 |
You'll need to be able to SSH to each of these VMs as root using SSH keys.
git clone https://github.com/mocdaniel/lab-event-driven-ansible.git
cd lab-event-driven-ansible
python3 -m venv .venv
source .venv/bin/activatepip install -r requirements.txt---
# hosts.yml
webservers:
hosts:
webshop.example.com:
ansible_host: <ip-address>
webserver: apache2
company.example.com:
ansible_host: <ip-address>
webserver: httpd
eda_controller:
hosts:
eda-controller.example.com:
ansible_host: <ip-address>ansible-galaxy install -r requirements.ymlAfter you created the inventory file and filled in the IP addresses, you can run the setup playbook:
ansible-playbook playbooks/setup.ymlCaution
Due to a known bug with Python on MacOS, you need to run export NO_PROXY="*" on MacOS before running the playbook
Ansible from the CLI via ansible
The first example installs a webserver on all hosts in the webservers group. The installed webserver is defined as a host variable in the inventory file hosts.yml (see above).
ansible \
webservers \
-m package \
-a 'name="{{ webserver }}"' \
--one-lineAfterwards, we can start the webserver on all hosts in the webservers group.
ansible \
webservers \
-m service \
-a 'name="{{ webserver }}" state=started' \
--one-lineGo on and check if the web servers are running on the respective hosts.
[!HINT] Ansible is idempotent - try running the commands again and see how the output differs.
Ansible from the CLI via ansible-playbook
The second example utilizes the following playbook to gather and display information for all hosts in the webservers group, utilizing the example role from the lab repository.
---
- name: Example role
hosts: webservers
gather_facts: false
vars:
greeting: "Hello World!"
pre_tasks:
- name: Say Hello
ansible.builtin.debug:
msg: "{{ greeting }}"
roles:
- role: example
post_tasks:
- name: Say goodbye
ansible.builtin.debug:
msg: Goodbye!ansible-playbook \
playbooks/example.ymlReceive Generic Events via Webhook
If you followed the setup instructions for the EDA lab, you should already have a running EDA instance on the eda-controller.example.com VM.
If you navigate to /etc/edacontroller/rulebook.yml on the VM, you'll see the following rulebook:
---
- name: Listen to webhook events
hosts: all
sources:
- ansible.eda.webhook:
host: 0.0.0.0
port: 5000
rules:
- name: Debug event output
condition: 1 == 1
action:
debug:
msg: "{{ event }}"
- name: Listen to Alertmanager alerts
hosts: all
sources:
- ansible.eda.alertmanager:
host: 0.0.0.0
port: 9000
data_alerts_path: alerts
data_host_path: labels.instance
data_path_separator: .
rules:
- name: Restart MySQL server
condition: event.alert.labels.alertname == 'MySQL not running' and event.alert.status == 'firing'
action:
run_module:
name: ansible.builtin.service
module_args:
name: mysql
state: restarted
- name: Debug event output
condition: 1 == 1
action:
debug:
msg: "{{ event }}"
For this part of the lab, the first rule is the one we're interested in: It listens to a generic webhook on port 5000 and prints the event's metadata to its logs.
To test this, we can use the curl command to send a POST request to the webhook /endpoint from the VM itself:
curl \
-X POST \
-H "Content-Type: application/json" \
-d '{"foo": "bar"}' \
http://localhost:5000/endpointIf you now check the logs of the EDA controller, you should see the following output:
journalctl -fu eda-controller
Jan 11 16:35:29 eda-controller ansible-rulebook[56882]: {'payload': {'foo': 'bar'}, 'meta': {'endpoint': 'endpoint',
'headers': {'Host': 'localhost:5000', 'User-Agent': 'curl/7.76.1', 'Accept': '*/*', 'Content-Length': '21',
'Content-Type': 'application/x-www-form-urlencoded'}, 'source': {'name': 'ansible.eda.webhook', 'type': 'ansible.eda.webhook'},
'received_at': '2024-01-11T15:35:29.798401Z', 'uuid': '6ebf8dd2-60a2-455a-9383-97b81f535366'}}A rule that always evaluates to true is not very useful, so let's change the rule to only print the the value of foo if the foo key is present in the event's payload, and no foo :( otherwise:
---
- name: Listen to webhook events
hosts: all
sources:
- ansible.eda.webhook:
host: 0.0.0.0
port: 5000
rules:
- name: Foo
condition: event.payload.foo is defined
action:
debug:
msg: "{{ event.payload.foo }}"
- name: No foo
condition: 1 == 1
action:
debug:
msg: "no foo :("Send the same curl request again and check the logs, you should see a line saying bar now.
Let's also try a curl request with a different payload:
curl \
-X POST \
-H "Content-Type: application/json" \
-d '{"bar": "baz"}' \
http://localhost:5000/endpointThis time, the output should be no foo :(.
Restarting Services Automatically with EDA
The last lab is more of a demo - it shows how you can use EDA to automatically react on events observed by Prometheus and Alertmanager.
For this demo, the second ruleset in our rulebook is the one we're interested in:
- name: Listen to Alertmanager alerts
hosts: all
sources:
- ansible.eda.alertmanager:
host: 0.0.0.0
port: 9000
data_alerts_path: alerts
data_host_path: labels.instance
data_path_separator: .
rules:
- name: Restart MySQL server
condition: event.alert.labels.alertname == 'MySQL not running' and event.alert.status == 'firing'
action:
run_playbook:
name: ./playbook.yml
- name: Debug event output
condition: 1 == 1
action:
debug:
msg: "{{ event }}"With this rule, we can restart our MySQL server if it's not running! But how do we get the event to trigger? With Prometheus and Alertmanager!
When you ran the setup playbook, it installed Prometheus and Alertmanager on the eda-controller.example.com VM. You can access the Prometheus UI at http://<eda-controller-ip>:9090 and the Alertmanager UI at http://<eda-controller-ip>:9093.
It also installed a Prometheus exporter for the MySQL database that runs on the server.
With this setup, we can now shut down our MySQL server and see what happens - make sure to watch the output of the EDA controller's logs:
systemctl stop mysql
journalctl -fu edacontrollerWithin 30-90 seconds, you should see EDA running our playbook and restarting the MySQL server. You can track that process by watching the Prometheus/Alertmanager UIs for firing alerts.
Once you see the playbook being executed in the logs, you can check the MySQL state once more:
systemctl status mysqlMySQL should be up and running again!