Skip to main content

Your submission was sent successfully! Close

Thank you for signing up for our newsletter!
In these regular emails you will find the latest updates from Canonical and upcoming events where you can meet our team.Close

Thank you for contacting us. A member of our team will be in touch shortly. Close

  1. Blog
  2. Article

Scott Moser
on 11 December 2014


Note: this blog post is applicable only to Ubuntu Core 16 (core16) from 2016, and the instructions it contains will not work on more recent versions of Ubuntu Core.

Snappy Ubuntu Core was announced this week.  In yesterday’s blog post (Snappy Ubuntu Core and uvtool) I showed how you can use uvtool to create and manage snappy instances.

Now that we’ve got that covered, let’s look deeper into a very cool feature – the ability to customize the instance and automate its startup and configuration.  For example, at instance creation time you can specify a snappy application to be installed.  cloud-init is what allows you to do this, and it is installed inside the Snappy image. cloud-init receives this information from the user in the form of ‘user-data’.

One of the formats that can be fed to cloud-init is called ‘cloud-config’.  cloud-config is yaml formatted data that is interpreted and acted on by cloud-init.  For Snappy, we’ve added a couple specific configuration values.  Those are included under the top level ‘snappy’.

  • ssh_enabled: determines if ‘ssh’ service is started or not.  By default ssh is not enabled.
  • packages: A list of snappy packages to install on first boot.  Items in this list are snappy package names.

When running inside snappy, cloud-init still provides many of the features it provides on traditional instances.  Some useful configuration entries:

  • runcmd: A list of commands run after boot has been completed. Commands are run as root. Each entry in the list can be a string or a list.  If the entry is a string, it is interpreted by ‘sh’.  If it is a list, it is executed as a command and arguments without shell interpretation.
  • ssh_authorized_keys: This is a list of strings.  Each key present will be put into the default user’s ssh authorized keys file.  Note that ssh authorized keys are also accepted via the cloud’s metadata service.
  • write_files: this allows you to write content to the filesystem.  The module is still expected to work, but the user will have to be aware that much of the filesystem is read-only. Specifically, writing to file system locations that are not writable is expected to fail.

Some cloud-init config modules are simply not going to work.  For example, traditional packages will not be installed by ‘apt’ as the root filesystem is read-only.

Example Cloud Config

Its always easiest to start from a working example.  Below is one that demonstrates the usage of the config options listed above.  Please note that user data intended to be consumed as cloud-config must contain the first line ‘#cloud-config‘.

#cloud-config
snappy:
ssh_enabled: True
packages:
– xkcd-webserver

write_files:
– content: |
#!/bin/sh
echo “==== Hello Snappy!  It is now $(date -R) ====”
permissions: ‘0755’
path: /writable/greet

runcmd:
– /writable/greet | tee /run/hello.log

Launching with uvtool

Follow yesterday’s blog post to get a functional tool.  Then, save the example config file above to a file, and launch you’re instance with it.

$ uvt-kvm create –wait –add-user-data=my-config.yaml snappy1 release=devel

Our user-data instructed cloud-init to do a number of different things. First, it wrote a file via ‘write_files’ to a writable space on disk, and then executed that file with ‘runcmd’. Lets verify that was done:

$ uvt-kvm ssh snappy1 cat /run/hello.log
==== Hello Snappy!  It is now Thu, 11 Dec 2014 18:16:34 +0000 ====

It also instructed cloud-init to install the Snappy ‘xkcd-webserver’ application.
$ uvt-kvm ssh snappy1 snappy versions
Part            Tag   Installed  Available  Fingerprint     Active
ubuntu-core     edge  141        –          7f068cb4fa876c  *
xkcd-webserver  edge  0.3.1      –          3a9152b8bff494  *

There we can see that xkcd-webserver was installed, lets check that it is running:

$ uvt-kvm ip snappy1
192.168.122.80
$ wget -O – –quiet http://192.168.122.80/ | grep <title>
<title>XKCD rocks!</title>

Launching on Azure

The same user-data listed above also works on Microsoft Azure.   Follow the instructions for setting up the azure command line tools, and then launch the instance with and provide the ‘–custom-data‘ flag.  A full command line might look like:
$ imgid=b39f27a8b8c64d52b05eac6a62ebad85__Ubuntu-core-devel-amd64-20141209-90-en-us-30GB
$ azure vm create snappy-test $imgid ubuntu \
–location “North Europe” –no-ssh-password \
–ssh-cert ~/.ssh/azure_pub.pem –ssh \

  –custom-data my-config.yaml

Have fun playing with cloud-init!

Related posts


Canonical
19 November 2024

Getting started with Azure IoT Operations on Ubuntu

Ubuntu Article

Introduction With the recent announcement of the release of Azure IoT Operations, Microsoft has provided its customers with a unified data plane offering significant improvements in node data capture, edge-based telemetry processing, and cloud-ingress.  Combining Azure IoT Operations with Ubuntu provides the perfect pairing to build secur ...


Edoardo Barbieri
29 October 2024

Meet Canonical at SPS 2024

Ubuntu Article

SPS (Smart Production Solutions) 2024 is almost here! With over 1,200 national and international exhibitors, SPS is the main gathering of industrial manufacturing to experience the latest trends and developments in the automation industry first-hand. Join Canonical, the company behind Ubuntu, at SPS 2024 to discuss open source innovation ...


gbeuzeboc
25 September 2024

TurtleBot3 OpenCR firmware update from a snap

IoT Article

The TurtleBot3 robot is a standard platform robot in the ROS community, and it’s a reference that Canonical knows well, since we’ve used it in our tutorials. As a matter of fact, we use it to demonstrate some of our work, such as distributing a ROS stack through snaps. This robot embeds two boards, a ...