Book Image

Learn Kubernetes Security

By : Kaizhe Huang, Pranjal Jumde
5 (1)
Book Image

Learn Kubernetes Security

5 (1)
By: Kaizhe Huang, Pranjal Jumde

Overview of this book

Kubernetes is an open source orchestration platform for managing containerized applications. Despite widespread adoption of the technology, DevOps engineers might be unaware of the pitfalls of containerized environments. With this comprehensive book, you'll learn how to use the different security integrations available on the Kubernetes platform to safeguard your deployments in a variety of scenarios. Learn Kubernetes Security starts by taking you through the Kubernetes architecture and the networking model. You'll then learn about the Kubernetes threat model and get to grips with securing clusters. Throughout the book, you'll cover various security aspects such as authentication, authorization, image scanning, and resource monitoring. As you advance, you'll learn about securing cluster components (the kube-apiserver, CoreDNS, and kubelet) and pods (hardening image, security context, and PodSecurityPolicy). With the help of hands-on examples, you'll also learn how to use open source tools such as Anchore, Prometheus, OPA, and Falco to protect your deployments. By the end of this Kubernetes book, you'll have gained a solid understanding of container security and be able to protect your clusters from cyberattacks and mitigate cybersecurity threats.
Table of Contents (19 chapters)
Section 1: Introduction to Kubernetes
Section 2: Securing Kubernetes Deployments and Clusters
Section 3: Learning from Mistakes and Pitfalls

Component interactions

Kubernetes components work collaboratively to ensure the microservices running inside the cluster are functioning as expected. If you deploy a microservice as a DaemonSet, then the Kubernetes components will make sure there will be one pod running the microservice in every node, no more, no less. So what happens behind the scenes? Let's look at a diagram to show the components' interaction at a high level:

Figure 3.1 – Interactions between Kubernetes components

A quick recap on what these components do:

  • kube-apiserver: The Kubernetes API server (kube-apiserver) is a control plane component that validates and configures data for objects.
  • etcd: etcd is a high-availability key-value store used to store data such as configuration, state, and metadata.
  • kube-scheduler: kube-scheduler is a default scheduler for Kubernetes. It watches for newly created pods and assigns the pods to nodes.
  • kube-controller-manager...