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I'm a bit confused about the use of the Elastic IP service offered by Amazazon Web Services. I guess the main idea is that I can switch to a new version of the web application with no downtime following this simple procedure:

  1. Deploy the new version on a new EC2 instance
  2. Configure the new version properly and test it using a staging DB
  3. Once properly tested, make this new version use the live DB
  4. Associate the Elastic IP to this instance
  5. Terminate all the useless services (staging DB and old EC2 instance)

Is this the common way to deploy a new version of a web application?

Now, what if the application is scaled on more instances? I configured the auto scaling in the Elastic Beanstalk settings and this created a load balancer (I can it see in the EC2 section of the AWS Management Console). The problem is that I apparently cannot associate the Elastic IP with the load balancer, I have to associate it with an existing instance. To which instance should I associate it to? I'm confused...

Sorry if some questions may sound stupid but I'm only a programmer and this is the first time I set up a cloud system.

Thank you!

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up vote 53 down vote accepted

Elastic Load Balancing (ELB) does not work with Amazon EC2 Elastic IP addresses, in fact the two concepts do not go together at all.

Elasticity via Elastic Load Balancing

Rather, ELB is usually used via CNAME records (but see below), and this provides the first level of elasticity/availability by allowing the aliased DNS address to change the IP of the ELB(s) in use, if need be. The second level of elasticity/availability is performed by the load balancer when distributing the traffic between the EC2 instances you have registered.

Think of it this way: The CNAME never changes (just like the Elastic IP address) and the replacement of EC2 instances is handled via the load balancer, Auto Scaling, or yourself (by registering/unregistering instances).

This is explained in more detail within Shlomo Swidler's excellent analysis The “Elastic” in “Elastic Load Balancing”: ELB Elasticity and How to Test it, which in turn refers to the recently provided Best Practices in Evaluating Elastic Load Balancing by AWS, which confirm his analysis and provide a good overall read regarding the Architecture of the Elastic Load Balancing Service and How It Works in itself (but lacks the illustrative step by step samples Shlomo provides).

Domain Names

Please note that the former limitation requiring a CNAME has meanwhile been addressed by respective additions to Amazon Route 53 to allow the root domain (or Zone Apex) being used as well, see section Aliases and the Zone Apex within Moving Ahead With Amazon Route 53 for a quick overview and Using Domain Names with Elastic Load Balancing for details.

Elasticity via Elastic Beanstalk

First and foremost, AWS Elastic Beanstalk uses Elastic Load Balancing in turn as described above. On top if that, it adds application lifecycle management:

AWS Elastic Beanstalk is an even easier way for you to quickly deploy and manage applications in the AWS cloud. You simply upload your application, and Elastic Beanstalk automatically handles the deployment details of capacity provisioning, load balancing, auto-scaling, and application health monitoring. [...] [emphasis mine]

This is achieved by adding the concept of an Environment into the mix, which is explained in the Architectural Overview:

The environment is the heart of the application. [...] When you create an environment, AWS Elastic Beanstalk provisions the resources required to run your application. AWS resources created for an environment include one elastic load balancer (ELB in the diagram), an Auto Scaling group, and one or more Amazon EC2 instances.

Please note that Every environment has a CNAME (URL) that points to a load balancer, i.e. just like using an ELB on its own.

All this comes together in Managing and Configuring Applications and Environments, which discusses some of the most important features of AWS Elastic Beanstalk in detail, including usage examples using the AWS Management Console, CLI, and the APIs.

Zero Downtime

Its hard to identify the most relevant part for illustration purposes, but Deploying Versions With Zero Downtime precisely addresses your use case and implies all required preceding steps (e.g. Creating New Application Versions and Launching New Environments), so reading section AWS Management Console might give you the best overall picture how this platform works.

Good luck!

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In addition to the options described in Steffen's awesome answer, Elastic Beanstalk seems to have very recently enabled Elastic IP as an option if you don't need the full features of an Elastic Load Balancer (like auto-scaling beyond one instance).

I describe the option in my answer to a similar question. Elastic Beanstalk now allows you to choose between two Environment Types, and the Single-instance option creates an Elastic IP.

Dropdown with options "Single instance" and "Load balancing, autoscaling".

I think using an ELB will be the preferable option in most cases, but e.g. for a staging server it is nice to have an alternative that is less complex (and cheaper).

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Be warned that the EIP gets released and a new one assigned if you rebuild the Elastic Beanstalk environment...which is kind of dumb. – Tony Gutierrez Nov 10 '15 at 4:24

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