ZeroDownTime Kubernetes platform - https://kubezero.com
Go to file
2024-11-05 03:01:45 +00:00
.ci Merge latest ci-tools-lib 2024-10-28 16:20:49 +00:00
admin fix: adjust flow to new kubeadm flows 2024-11-04 13:43:46 +00:00
charts chore(deps): update kubezero-argo-dependencies 2024-11-05 03:01:45 +00:00
docs chore: re-add lfs objects 2024-11-04 13:48:02 +00:00
scripts Ci: make dev_apply work from local files 2024-05-23 21:22:27 +00:00
.gitattributes Initial commit 2020-05-01 14:57:31 +01:00
.gitignore chore: some cleanup, new tools script to check cgroup memory limits 2021-04-14 16:06:29 +02:00
.helmdocsignore CI/CD tools update 2021-01-21 10:53:53 +00:00
.versionrc chore: checkin diffs to sync desktop 2021-05-12 16:32:33 +02:00
cliff.toml fix: various minor tweaks and updates 2021-08-25 16:02:21 +02:00
Dockerfile feat: upgrade to Kube v1.30.6, Istio SMTP fix 2024-10-23 10:55:38 +00:00
LICENSE.md Initial commit 2020-05-01 14:57:31 +01:00
Makefile docs: update all chart READMEs 2024-10-16 13:37:57 +00:00
README.md doc: update support timelines 2024-08-19 15:50:12 +01:00
renovate.json ci: remove custom renovate config 2024-07-23 13:08:58 +00:00

KubeZero - Zero Down Time Kubernetes platform

KubeZero is a Kubernetes distribution providing an integrated container platform so you can focus on your applications.

Design philosophy

  • Focus on security and simplicity over feature creep
  • No vendor lock in, most components are optional and could be easily changed as needed
  • No premium services / subscriptions required
  • Staying up to date and contributing back to upstream projects, like alpine-cloud-images and others
  • Cloud provider agnostic, bare-metal/self-hosted
  • Organic Open Source / open and permissive licenses over closed-source solutions
  • Corgi approved 🐶

Architecture

aws_architecture

Version / Support Matrix

KubeZero releases track the same minor version of Kubernetes. Any 1.30.X-Y release of Kubezero supports any Kubernetes cluster 1.30.X.

KubeZero is distributed as a collection of versioned Helm charts, allowing custom upgrade schedules and module versions as needed.

%%{init: {'theme':'dark'}}%%
gantt
    title KubeZero Support Timeline
    dateFormat  YYYY-MM-DD
    section 1.28
    beta     :128b, 2024-03-01, 2024-04-30
    release  :after 128b, 2024-08-31
    section 1.29
    beta     :129b, 2024-07-01, 2024-07-31
    release  :after 129b, 2024-11-30
    section 1.30
    beta     :130b, 2024-09-01, 2024-10-31
    release  :after 130b, 2025-02-28

Upstream release policy

Components

OS

  • all compute nodes are running on Alpine V3.20
  • 1 or 2 GB encrypted root file system
  • no external dependencies at boot time, apart from container registries
  • minimal attack surface
  • extremely small memory footprint / overhead
  • cri-o container runtime incl. AppArmor support

GitOps

  • cli / cmd line install
  • optional full ArgoCD support and integration
  • rootless CI/CD build platform to build containers as part of a CI pipeline, using podman / fuse device plugin support
  • containerized AI models via integrated out of the box support for Nvidia GPU workers as well as AWS Neuron

Control plane

  • all Kubernetes components compiled against Alpine OS using buildmode=pie
  • support for single node control plane for small clusters / test environments to reduce costs
  • access to control plane from within the VPC only by default ( VPN access required for Admin tasks )
  • controller nodes are used for various platform admin controllers / operators to reduce costs and noise on worker nodes

AWS integrations

  • IAM roles for service accounts allowing each pod to assume individual IAM roles
  • access to meta-data services is blocked all workload containers on all nodes
  • all IAM roles are maintained via CloudBender automation
  • aws-node-termination handler integrated
  • support for spot instances per worker group incl. early draining etc.
  • support for Inf1 instances part of AWS Neuron.

Network

  • Cilium using Geneve encapsulation, incl. increased MTU allowing flexible / more containers per worker node compared to eg. AWS VPC CNI
  • Multus support for multiple network interfaces per pod, eg. additional AWS CNI
  • no restrictions on IP space / sizing from the underlying VPC architecture

Storage

  • flexible EBS support incl. zone awareness
  • EFS support via automated EFS provisioning for worker groups via CloudBender automation
  • local storage provider (OpenEBS LVM) for latency sensitive high performance workloads
  • CSI Snapshot controller and Gemini snapshot groups and retention

Ingress

  • AWS Network Loadbalancer and Istio Ingress controllers
  • no additional costs per exposed service
  • real client source IP available to workloads via HTTP header and access logs
  • ACME SSL Certificate handling via cert-manager incl. renewal etc.
  • support for TCP services
  • optional rate limiting support
  • optional full service mesh

Metrics

  • Prometheus support for all components, incl. out of cluster EC2 instances (node_exporter)
  • automated service discovery allowing instant access to common workload metrics
  • pre-configured Grafana dashboards and alerts
  • Alertmanager events via SNSAlertHub to Slack, Google, Matrix, etc.

Logging

  • all container logs are enhanced with Kubernetes and AWS metadata to provide context for each message
  • flexible ElasticSearch setup, leveraging the ECK operator, for easy maintenance & minimal admin knowledge required, incl. automated backups to S3
  • Kibana allowing easy search and dashboards for all logs, incl. pre configured index templates and index management
  • fluentd-concerter service providing queuing during highload as well as additional parsing options
  • lightweight fluent-bit agents on each node requiring minimal resources forwarding logs secure via TLS to fluentd-concenter