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Mastering Docker

You're reading from   Mastering Docker Unlock new opportunities using Docker's most advanced features

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Product type Paperback
Published in Oct 2018
Publisher
ISBN-13 9781789616606
Length 426 pages
Edition 3rd Edition
Tools
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Authors (2):
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Scott Gallagher Scott Gallagher
Author Profile Icon Scott Gallagher
Scott Gallagher
Russ McKendrick Russ McKendrick
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Russ McKendrick
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Toc

Table of Contents (17) Chapters Close

Preface 1. Docker Overview FREE CHAPTER 2. Building Container Images 3. Storing and Distributing Images 4. Managing Containers 5. Docker Compose 6. Windows Containers 7. Docker Machine 8. Docker Swarm 9. Docker and Kubernetes 10. Running Docker in Public Clouds 11. Portainer - A GUI for Docker 12. Docker Security 13. Docker Workflows 14. Next Steps with Docker 15. Assessments 16. Other Books You May Enjoy

Understanding Docker

Before we look at installing Docker, let's begin by getting an understanding of the problems that the Docker technology aims to solve.

Developers

The company behind Docker has always described the program as fixing the "it works on my machine" problem. This problem is best summed up by an image, based on the Disaster Girl meme, which simply had the tagline Worked fine in dev, ops problem now, that started popping up in presentations, forums, and Slack channels a few years ago. While it is funny, it is unfortunately an all-too-real problem and one I have personally been on the receiving end of - let's take a look at an example of what is meant by this.

The problem

Even in a world where DevOps best practices are followed, it is still all too easy for a developer's working environment to not match the final production environment.

For example, a developer using the macOS version of, say, PHP will probably not be running the same version as the Linux server that hosts the production code. Even if the versions match, you then have to deal with differences in the configuration and overall environment on which the version of PHP is running, such as differences in the way file permissions are handled between different operating system versions, to name just one potential problem.

All of this comes to a head when it is time for a developer to deploy their code to the host and it doesn't work. So, should the production environment be configured to match the developer's machine, or should developers only do their work in environments that match those used in production?

In an ideal world, everything should be consistent, from the developer's laptop all the way through to your production servers; however, this utopia has traditionally been difficult to achieve. Everyone has their way of working and their own personal preferences—enforcing consistency across multiple platforms is difficult enough when there is a single engineer working on the systems, let alone a team of engineers working with a team of potentially hundreds of developers.

The Docker solution

Using Docker for Mac or Docker for Windows, a developer can easily wrap their code in a container that they have either defined themselves, or created as a Dockerfile while working alongside a sys-admin or operations team. We will be covering this in Chapter 2, Building Container Images, as well as Docker Compose files, which we will go into more detail about in Chapter 5, Docker Compose.

They can continue to use their chosen IDE and maintain their workflows when working with the code. As we will see in the upcoming sections of this chapter, installing and using Docker is not difficult; in fact, considering how much of a chore it was to maintain consistent environments in the past, even with automation, Docker feels a little too easy—almost like cheating.

Operators

I have been working in operations for more years than I would like to admit, and the following problem has cropped regularly.

The problem

Let's say you are looking after five servers: three load-balanced web servers, and two database servers that are in a master or slave configuration dedicated to running Application 1. You are using a tool, such as Puppet or Chef, to automatically manage the software stack and configuration across your five servers.

Everything is going great, until you are told, We need to deploy Application 2 on the same servers that are running Application 1. On the face of it, this is no problem—you can tweak your Puppet or Chef configuration to add new users, vhosts, pull the new code down, and so on. However, you notice that Application 2 requires a higher version of the software that you are running for Application 1.

To make matters worse, you already know that Application 1 flat out refuses to work with the new software stack, and that Application 2 is not backwards compatible.

Traditionally, this leaves you with a few choices, all of which just add to the problem in one way or another:

  1. Ask for more servers? While this traditionally is probably the safest technical solution, it does not automatically mean that there will be the budget for additional resources.
  2. Re-architect the solution? Taking one of the web and database servers out of the load balancer or replication, and redeploying them with the software stack for Application 2, may seem like the next easiest option from a technical point of view. However, you are introducing single points of failure for Application 2, and also reducing the redundancy for Application 1: there was probably a reason why you were running three web and two database servers in the first place.
  3. Attempt to install the new software stack side-by-side on your servers? Well, this certainly is possible and may seem like a good short-term plan to get the project out of the door, but it could leave you with a house of cards that could come tumbling down when the first critical security patch is needed for either software stack.

The Docker solution

This is where Docker starts to come into its own. If you have Application 1 running across your three web servers in containers, you may actually be running more than three containers; in fact, you could already be running six, doubling up on the containers, allowing you to run rolling deployments of your application without reducing the availability of Application 1.

Deploying Application 2 in this environment is as easy as simply launching more containers across your three hosts and then routing to the newly deployed application using your load balancer. As you are just deploying containers, you do not need to worry about the logistics of deploying, configuring, and managing two versions of the same software stack on the same server.

We will work through an example of this exact scenario in Chapter 5, Docker Compose.

Enterprise

Enterprises suffer from the same problems described previously, as they have both developers and operators; however, they have both of these entities on a much larger scale, and there is also a lot more risk involved.

The problem

Because of the aforementioned risk, along with the fact that any downtime could cost sales or impact reputation, enterprises need to test every deployment before it is released. This means that new features and fixes are stuck in a holding pattern while the following takes place:

  • Test environments are spun up and configured
  • Applications are deployed across the newly launched environments
  • Test plans are executed and the application and configuration are tweaked until the tests pass
  • Requests for change are written, submitted, and discussed to get the updated application deployed to production

This process can take anywhere from a few days to a few weeks, or even months, depending on the complexity of the application and the risk the change introduces. While the process is required to ensure continuity and availability for the enterprise at a technological level, it does potentially introduce risk at the business level. What if you have a new feature stuck in this holding pattern and a competitor releases a similar—or worse still—the same feature, ahead of you?

This scenario could be just as damaging to sales and reputation as the downtime that the process was put in place to protect you against in the first place.

The Docker solution

Let me start by saying that Docker does not remove the need for a process, such as the one just described, to exist or be followed. However, as we have already touched upon, it does make things a lot easier as you are already working consistently. It means that your developers have been working with the same container configuration that is running in production. This means that it is not much of a step for the methodology to be applied to your testing.

For example, when a developer checks their code that they know works on their local development environment (as that is where they have been doing all of their work), your testing tool can launch the same containers to run your automated tests against. Once the containers have been used, they can be removed to free up resources for the next lot of tests. This means that, all of a sudden, your testing process and procedures are a lot more flexible, and you can continue to reuse the same environment, rather than redeploying or reimaging servers for the next set of testing.

This streamlining of the process can be taken as far as having your new application containers push all the way through to production.

The quicker this process can be completed, the quicker you can confidently launch new features or fixes and keep ahead of the curve.

You have been reading a chapter from
Mastering Docker - Third Edition
Published in: Oct 2018
Publisher:
ISBN-13: 9781789616606
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