Book Image

Kubernetes and Docker - An Enterprise Guide

By : Scott Surovich, Marc Boorshtein
Book Image

Kubernetes and Docker - An Enterprise Guide

By: Scott Surovich, Marc Boorshtein

Overview of this book

Containerization has changed the DevOps game completely, with Docker and Kubernetes playing important roles in altering the flow of app creation and deployment. This book will help you acquire the knowledge and tools required to integrate Kubernetes clusters in an enterprise environment. The book begins by introducing you to Docker and Kubernetes fundamentals, including a review of basic Kubernetes objects. You’ll then get to grips with containerization and understand its core functionalities, including how to create ephemeral multinode clusters using kind. As you make progress, you’ll learn about cluster architecture, Kubernetes cluster deployment, and cluster management, and get started with application deployment. Moving on, you’ll find out how to integrate your container to a cloud platform and integrate tools including MetalLB, externalDNS, OpenID connect (OIDC), pod security policies (PSPs), Open Policy Agent (OPA), Falco, and Velero. Finally, you will discover how to deploy an entire platform to the cloud using continuous integration and continuous delivery (CI/CD). By the end of this Kubernetes book, you will have learned how to create development clusters for testing applications and Kubernetes components, and be able to secure and audit a cluster by implementing various open-source solutions including OpenUnison, OPA, Falco, Kibana, and Velero.
Table of Contents (20 chapters)
Section 1: Docker and Container Fundamentals
Section 2: Creating Kubernetes Development Clusters, Understanding objects, and Exposing Services
Section 3: Running Kubernetes in the Enterprise


  1. A Kubernetes control plane does not include which of the following components?

    A. api-server

    B. kube-scheduler

    C. Etcd

    D. Ingress controller

  2. What is the name of the component that keeps all of the cluster information?

    A. api-server

    B. Master controller

    C. kubelet

    D. Etcd

  3. Which component is responsible for selecting the node that will run a workload?

    A. kubelet

    B. api-server

    C. kube-scheduler

    D. Pod-scheduler

  4. Which option would you add to a kubectl command to see additional output from a command?

    A. Verbose

    B. -v

    C. –verbose

    D. -log

  5. Which service type creates a randomly generated port, allowing incoming traffic to any worker node on the assigned port to access the service?

    A. LoadBalancer

    B. ClusterIP

    C. None—it's the default for all services

    D. NodePort

  6. If you need to deploy an application on a Kubernetes cluster that requires known node names and a controlled startup of each Pod, which object would you create?

    A. StatefulSet

    B. Deployment

    C. ReplicaSet...