Yes, you can certainly have an Auto Scaling group with:
- Minimum = 0
- Maximum = 1
- Alarm: When
ApproximateNumberOfMessagesVisible > 0 for 1 minute, Add 1 Instance
This will cause Auto Scaling to launch an instance when there are messages waiting in the queue. It will keep trying to launch more instances, but the Maximum setting will limit it to 1 instance.
Scaling-in when there are no messages is a little bit tricker.
Firstly, it can be difficult to actually know when to scale-in. If there are messages waiting to be processed, then
ApproximateNumberOfMessagesVisible will be greater than zero. However, there are no messages waiting, it doesn't necessarily mean you wish to scale-in because messages might be currently processing ("in flight"), as indicated by
ApproximateNumberOfMessagesNotVisible. So, you only want to scale-in if both of these are zero. Unfortunately, a CloudWatch alarm can only reference one metric, not two.
Secondly, when an Amazon SQS queue is empty, it does not send metrics to Amazon CloudWatch. This sort of makes sense, because queues are mostly empty, so it would be continually sending a zero metric. However, it causes a problem that CloudWatch does not receive a metric when the queue is empty. Instead, the alarm will enter the
Therefore, you could create your alarm as:
ApproximateNumberOfMessagesVisible = 0 for 15 minutes, Remove 1 instance but set the action to trigger on
INSUFFICIENT_DATA rather than
Note the suggested "15 minutes" delay to avoid thrashing instances. This is where instances are added and removed in rapid succession because messages are coming in regularly, but infrequently. Therefore, it is better to wait a while before deciding to scale-in.
This leaves the problem of having instances terminated while they are still processing messages. This can be avoided by taking advantage of Auto Scaling Lifecycle Hooks, which send a signal when an instance is about to be terminated, giving the application the opportunity to delay the termination until work is complete. Your application should then signal that it is ready for termination only when message processing has finished.
Much of the above depends upon:
- How often your application receives messages
- How long it takes to process a message
- The cost savings involved
If your messages are infrequent and simple to process, it might be worthwhile to continuously run a
t2.micro instance. At 2c/hour, the benefit of scaling-in is minor. Also, there is always the risk when adding and removing instances that you might actually pay more, because instances are charged by the hour -- running an instance for 30 minutes, terminating it, then launching another instance for 30 minutes will actually be charged as two hours.
Finally, you could consider using AWS Lambda instead of an Amazon EC2 instance. Lambda is ideal for short-lived code execution without requiring a server. It could totally remove the need to use Amazon EC2 instances, and you only pay while the Lambda function is actually running.