Brian Coca recently submitted a jabber module for use with Ansible. This
module allows an Ansible playbook to connect to an XMPP service and just push
out a message, such as "all's well" or "I'm done", when, say, a
Playbook completes. In addition to the `mail' module (created by Dag Wieers and
heavily improved upon by yours truly :-), I thought I'd add two more.
The first is a module which fires off a message to an IRC channel.
That was posted to the channel by this play:
---
- hosts: all
tasks:
- local_action: irc port=6669
channel="#t1"
msg="Server {{ ansible_hostname }} completed at {{ ansible_date_time.iso8601 }}"
color=green
nick=ansibleIRC
The second (very similar) module I created works similarly, but notifies via MQTT. MQTT is
the new hotness in the Internet of Things (IoT), and we talked about it
here recently. Using this module, Ansible can "notify" by publishing an
arbitrary payload to an MQTT topic.
That subscription was published to by this play:
---
- hosts: all
tasks:
- local_action: mqtt
server=localhost
port=1883
topic=service/ansible/{{ ansible_hostname }}
payload="Server {{ ansible_hostname }} done at {{ ansible_date_time.iso8601 }}"
qos=0
retain=false
client_id=ans001
(Publishing topics to an MQTT broker would also be a neat way of watching Ansible
at work with a callback; maybe another time.)
Blinking dashboards turn me on. Really. I love seeing things move and blink.
Andrew Hazelden's post on monitoring a solar hot water system using a dashboard
created in SVG made a deep impression when I saw it, and I've been meaning to
experiment with that. As I've been doing things with MQTT, I thought I'd
finally give it a try, swiping bits of code created by Robert Hekkers.
What I have is an SVG file which can be updated in real-time using socket.io.
A Web browser loads an HTML resource from a Web server. A bit of JavaScript in the
page connects to a socket.io process and awaits data. On the other side, we push data
into that socket, and the JavaScript tweaks the SVG to make things do "blinkenlights".
The SVG is scalable (the 'S' in SVG'), so I can zoom into it:
I drew the SVG with Inkscape, using its "XML Editor" to change object identifiers to
something that makes sense to me. I'll be using the second level of the MQTT topic
(e.g. svgdash/smtp0) to name the SVG object.
Furthermore,
in the XML, I specify a type for the object: "num" will be a numeric value, and "slider"
is a bar with a maximum width of "maxw", which will be displayed to show a particular
level. The following example shows a "slider" for an object called "smtp0" (the left-most
SMTP server in the SVG). Note the "maxw" and "type" elements I added manually
<rect
style="fill:#e0e5de;....."
id="smtp0"
width="35.75985"
height="10.547414"
x="213.35257"
y="640.42432"
inkscape:label="#rect3549"
type="slider"
maxw="35" />
An MQTT client publishes to a specific topic, with a JSON payload containing
something like this:
{
"msg" : "ok",
"status" : 0,
"level" : 4193
}
The "msg" is a string which should probably be displayed on the SVG object. (Here
I show it on the top left.) "status" is a Nagios/Icinga-type status (OK, WARNING, CRITICAL).
"level" is used to fill objects of type "slider" or to post literally as text on objects
of type "num". You get the idea. I hope.
If I add a component to the network, I simply choose a new topic, update the SVG, refresh the Web page, and that's it. Nice. Of course, if I were half a designer/developer, I could use something like the beautiful Raphaël to do this "electrically".
The code I have is up for grabs, so do feel free to improve on this. Enjoy!
Update: watch the blinkenlights
iCurlHTTP is a nifty little program for iOS, which will shoot off an HTTP
GET or HEAD request.
Nice for testing.
via Daniel Stenberg
You are a UNIX/Linux administrator, and you use SSH? Print this out, get yourself a nice drink, make yourself comfortable, and read Managing SSH Keys for Automated Access - Current Recommended Practice.
Do it now.
He's talking about this book. :)
