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Kubernetes – An Enterprise Guide

You're reading from   Kubernetes – An Enterprise Guide Effectively containerize applications, integrate enterprise systems, and scale applications in your enterprise

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Product type Paperback
Published in Dec 2021
Publisher Packt
ISBN-13 9781803230030
Length 578 pages
Edition 2nd Edition
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Authors (2):
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Marc Boorshtein Marc Boorshtein
Author Profile Icon Marc Boorshtein
Marc Boorshtein
Scott Surovich Scott Surovich
Author Profile Icon Scott Surovich
Scott Surovich
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Toc

Table of Contents (17) Chapters Close

Preface 1. Docker and Container Essentials FREE CHAPTER 2. Deploying Kubernetes Using KinD 3. Kubernetes Bootcamp 4. Services, Load Balancing, ExternalDNS, and Global Balancing 5. Integrating Authentication into Your Cluster 6. RBAC Policies and Auditing 7. Deploying a Secured Kubernetes Dashboard 8. Extending Security Using Open Policy Agent 9. Node Security with GateKeeper 10. Auditing Using Falco, DevOps AI, and ECK 11. Backing Up Workloads 12. An Introduction to Istio 13. Building and Deploying Applications on Istio 14. Provisioning a Platform 15. Other Books You May Enjoy
16. Index

Understanding the need for containerization

You may have experienced a conversation like this at your office or school:

Developer: "Here's the new application. It went through weeks of testing and you are the first to get the new release."

….. A little while later …..

User: "It's not working. When I click the submit button, it shows an error about a missing dependency."

Developer: "That's weird; it's working fine on my machine."

This is one of the most frustrating things a developer can encounter when delivering an application. Often, the issues that creep up are related to a library that the developer had on their machine, but it wasn't included in the distribution of the package. It may seem like an easy fix for this would be to include all the libraries alongside the release, but what if this release contains a newer library that overwrites the older version, which may be required for a different application?

Developers need to consider their new releases, as well as any potential conflicts with any existing software on users' workstations. This often becomes a careful balancing act that requires larger deployment teams to test the application on different system configurations. It can also lead to additional rework for the developer or, in some extreme cases, full incompatibility with an existing application.

There have been various attempts to make application delivery easier over the years. First, there are solutions such as VMware's ThinApp, which virtualizes an application (not to be confused with virtualizing an operating system). It allows you to package the application and its dependencies into a single executable package. This packaging eliminates the issues of an application's dependencies conflicting with another application's dependencies since the application is in a self-contained package. This provided application isolation not only eliminates dependency issues but also provides an enhanced level of security and eases the burden of operating system migrations.

You may or may not have heard of application packaging, or the term application-on-a-stick, before reading this book. It sounds like a great solution to the "it worked on my machine" issue. There are many reasons it hasn't taken off as expected, though. For starters, most offerings are paid solutions that require a substantial investment. Besides licensing, they require a "clean PC," which means that for every application you want to virtualize, you need to start with a base system. The package you want to create uses the differences between the base installation and anything that was added after the initial system snapshot. The differences are then packaged into your distribution file, which can be executed on any workstation.

We've mentioned application virtualization to highlight that application issues such as "it works on my machine" have had different solutions over the years. Products such as ThinApp are just one attempt at solving the problem. Other attempts include running the application on a server using Citrix, Remote Desktop, Linux containers, chroot jails, and even virtual machines.

Understanding why Kubernetes is deprecating Docker

In December 2020, Kubernetes announced the deprecation of Docker as a supported container runtime. We thought it would be important to explain how the announcement affects any reason for using, or not using, Docker.

The announcement is only related to using Docker as the container runtime in a cluster – it is important to note that this is the only impact that removing Docker will have. You can still create new containers using Docker and they will run on any runtime that supports the Open Container Initiative (OCI) specification.

When you create a container using Docker, you are creating a container that is OCI compliant, so it will still run on Kubernetes clusters that are running any Kubernetes-compatible container runtime.

To fully explain the impact and the alternatives that will be supported, we need to understand what a container runtime is. A high-level definition would be that a container runtime is the software layer that runs and manages containers. Like many components that make up a Kubernetes cluster, the runtime is not included as part of Kubernetes – it is a pluggable module that needs to be supplied by a vendor, or by you, to create a functioning cluster.

There are many technical reasons that led up to the decision to deprecate Docker, but at a high level, the main concerns were:

  • Docker contains multiple pieces inside of the Docker executable to support its own remote API and user experience (UX). Kubernetes only requires one component in the executable, dockerd, which is the runtime process that manages containers. All other pieces of the executable contribute nothing to using Docker in a Kubernetes cluster. These extra components made the binary bloated, and could lead to additional bugs, security, or performance issues.
  • Docker does not conform to the Container Runtime Interface (CRI) standard, which was introduced to create a set of standards to easily integrate container runtimes in Kubernetes. Since it doesn't comply, the Kubernetes team has had extra work that only caters to supporting Docker.

When it comes to local container testing and development, you can still use Docker on your workstation or server. Building on the previous statement, if you build a container on Docker and the container successfully runs on your Docker runtime system, it will run on a Kubernetes cluster that is not using Docker as the runtime.

Removing Docker will have very little impact on most users of Kubernetes in new clusters. Containers will still run using any standard method, as they would with Docker as the container runtime. If you happen to manage a cluster, you may need to learn new commands when you troubleshoot a Kubernetes node – you will not have a Docker command on the node to look at running containers, or to clean up volumes, etc…

At the time of writing this chapter, Kubernetes supports the following runtimes in place of Docker:

This list will evolve; you can always view the latest supported runtimes on the Kubernetes Git at https://github.com/kubernetes/community/blob/master/contributors/devel/sig-node/container-runtime-interface.md.

Since we are focusing on general containers and we will be using Docker as our runtime to create KinD clusters, we will not go into too many details on the alternative runtimes. They are only being mentioned here to explain the alternatives that can be used on a cluster.

For more details on the impact of deprecating Docker, refer to the article called Don't Panic: Kubernetes and Docker on the Kubernetes.io site at https://kubernetes.io/blog/2020/12/02/dont-panic-kubernetes-and-docker/.

Now, let's introduce Docker and how you can use it to create and manage containers.

Introducing Docker

The industry and even end users needed something that was easier and cheaper – enter Docker containers. Containers are not a new technology; they have been used in various forms for years. What Docker did was make them accessible to the average developer.

Docker brought an abstraction layer to the masses. It was easy to use and didn't require a clean PC for every application before creating a package, thus offering a solution for dependency issues, but most attractive of all, it was free. Docker became a standard for many projects on GitHub, where teams would often create a Docker container and distribute the Docker image or Dockerfile to team members, providing a standard testing or development environment. This adoption by end users is what eventually brought Docker to the enterprise and, ultimately, what made it the standard it has become today.

While there are many books on Docker, this book focuses on the base topics of Docker that are used to interact with containers. This book will be focusing on what you will need to know when trying to use a local Kubernetes environment. There is a long and interesting history of Docker and how it evolved into the standard container image format that we use today. We encourage you to read about the company and how they ushered in the container world we know today.

While our focus is not to teach Docker inside out, we felt that those of you who are new to Docker would benefit from a quick primer on general container concepts.

If you have some Docker experience and understand terminology such as ephemeral and stateless, feel free to continue to the Installing Docker section.

You have been reading a chapter from
Kubernetes – An Enterprise Guide - Second Edition
Published in: Dec 2021
Publisher: Packt
ISBN-13: 9781803230030
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