Now let‘s bring the concept of the “cluster” back in. We could wrap our appserver in the same DynamicCluster
we used earlier, although then we’d need to define and configure the load balancer. But another blueprint, the ControlledDynamicWebAppCluster
, does this for us. It takes the same memberSpec
, so we can build a fully functional elastic 3-tier deployment of our hello-world-sql
application as follows:
{% highlight yaml %} {% readj example_yaml/appserver-clustered-w-db.yaml %} {% endhighlight %}
This sets up Nginx as the controller by default, but that can be configured using the controllerSpec
key. In fact, JBoss is the default appserver, and because configuration in Brooklyn is inherited by default, the same blueprint can be expressed more concisely as:
{% highlight yaml %} {% readj example_yaml/appserver-clustered-w-db-concise.yaml %} {% endhighlight %}
The other nicety supplied by the ControlledDynamicWebAppCluster
blueprint is that it aggregates sensors from the appserver, so we have access to things like webapp.reqs.perSec.windowed.perNode
. These are convenient for plugging in to policies! We can set up our blueprint to do autoscaling based on requests per second (keeping it in the range 10..100, with a maximum of 5 appserver nodes) as follows:
{% highlight yaml %} {% readj example_yaml/appserver-w-policy.yaml %} {% endhighlight %}
Use your favorite load-generation tool (jmeter
is one good example) to send a huge volume of requests against the server and see the policies kick in to resize it.