I think that this can be perfectly achieved, but you need a small change in the approach.
You will not have 2 load balancers inside of EB, but instead, your beanstalk will describe the infrastructure starting in the second load balancer, set as internal, and then you will add another public load balancer that is pointing to the BE load balancer.
We can achieve this in a much easier way than the one proposed in AWS blog.
For this, your BE setup will be pretty much the same that you have, but:
- set the load balancer as type network. This is the only type that will allow you to have Static IPs in the load balancer.
- set the load balancer to be internal (inside of network configuration of beanstalk, set visibility as internal, and uncheck "assign public IP address to EC2 instances..."
- assign Elastic IPs to your load balancer, at least 2, in different availability zones.
- the rest of your Beanstalk stays as you have it.
Now create a public load balancer:
- This can be of any type you need. Maybe ALB if you want to do SSL termination or any other layer 7 magic. Also, it has to be public
- create a new target group. The Target type of this group should be IP.
- Register the 2 Elastic IPs of your network load balancer above.
- Add a listener to your ALB pointing to this target group
and this will do the magic. You will need to check how to do this in terraform, but the approach is quite straightforward so I'm sure terraform will let you do it.
The advantage of this as opposed to the AWS blog (that is designed for a quite different purpose), is that here the internal load balancer is network, while the external doesn't need to be. With the NLB being the internal one, you avoid a lot of overhead in the infrastructure and also avoid dynamic logic like the lambda they propose to register IP addresses.
With this approach, you get a much more declarative architecture, easier to describe in terraform and easier to maintain once in production.