DevOpsDreams

Environment Promotion Strategies for GitOps Pipelines: Branches, Paths, Tags, and Digests GitOps promotion is a data-model problem before it is a tooling problem. This guide compares branches, directories, tags, image digests, Flux automation, and Argo CD Image Updater trade-offs. TL;DR A reliable GitOps promotion strategy makes the promoted artifact, environment-specific configuration, approval record, and rollback target explicit. Directory-per-environment models are simple and auditable, branch-per-environment models isolate change history but create merge drift, tag or SHA promotion improves reproducibility, and image-digest promotion closes supply-chain gaps. Flux Image Automation and Argo CD Image Updater can reduce toil, but production promotion still needs protected branches, signed commits or tags, policy gates, drift detection, and a clear handoff to progressive delivery across clusters safely. Promotion is the movement of a reviewed artifact through explicit environment s...

Kubernetes Backup and Disaster Recovery with Velero In this article, we'll explore how to implement a robust backup and disaster recovery strategy for your Kubernetes cluster using Velero. We'll cover the basics of Velero, its features, and provide step-by-step instructions on how to set up and schedule backups. TL;DR Velero is a tool for backing up and restoring Kubernetes cluster resources and persistent volumes. We'll cover the basics of Velero and its features. We'll provide step-by-step instructions on how to set up and schedule backups. We'll discuss common pitfalls and best practices for implementing a robust backup and disaster recovery strategy. What is Velero? Velero is a tool for backing up and restoring Kubernetes cluster resources and persistent volumes. It provides a simple and efficient way to create backups of your cluster, which can be used for disaster recovery, migration, or replication to development and testing environments. Feat...

Applying SRE Error Budgets to Services Running on EKS In this article, we'll delve into the world of SRE error budgets and provide practical guidance on how to apply them to services running on Amazon EKS. TL;DR SRE error budgets are a way to measure and manage the risk of errors in a system. They help teams prioritize and allocate resources to mitigate errors. We'll cover the key concepts and provide a step-by-step guide to implementing error budgets on EKS. What are SRE Error Budgets? SRE (Site Reliability Engineering) error budgets are a way to measure and manage the risk of errors in a system. They help teams prioritize and allocate resources to mitigate errors, ensuring that the system remains reliable and available to users. In essence, error budgets are a way to quantify the acceptable level of errors in a system, allowing teams to make informed decisions about resource allocation and risk management. Why are Error Budgets Important? Error budgets are cr...

Chaos Engineering and Resilience Testing on Amazon EKS In this article, we'll explore how to implement chaos engineering and resilience testing on Amazon Elastic Kubernetes Service (EKS). We'll cover the basics of chaos engineering, how to set up a chaos mesh, and provide a step-by-step guide on how to run a chaos experiment on EKS. TL;DR Chaos engineering is a discipline that helps you build resilient systems by introducing failures in a controlled environment. We'll use Chaos Mesh, an open-source cloud-native chaos engineering platform, to set up a chaos mesh on EKS. We'll run a chaos experiment on EKS to test the resilience of our system. By the end of this article, you'll have a basic understanding of chaos engineering and how to implement it on EKS. What is Chaos Engineering? Chaos engineering is a discipline that helps you build resilient systems by introducing failures in a controlled environment. The goal of chaos engineering is to identi...