Docker / Kubernetes - My first Helm deploy
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Introduction
In this really a short post, we'll deploy default yamls into minikube nodes. The yaml files are created when we do helm create
.
Creating a Helm chart
Let's check the prerequisites:
$ helm version version.BuildInfo{Version:"v3.5.3", GitCommit:"041ce5a2c17a58be0fcd5f5e16fb3e7e95fea622", GitTreeState:"dirty", GoVersion:"go1.16.2"} $ minikube start --nodes 3 minikube v1.13.0 on Darwin 10.13.3 ...
Let's create a chart with a name my-first-chart:
$ helm create myFirstChart Creating my-first-chart
This will produce the following files:
my-first-chart ├── Chart.yaml ├── charts ├── templates │ ├── NOTES.txt │ ├── _helpers.tpl │ ├── deployment.yaml │ ├── hpa.yaml │ ├── ingress.yaml │ ├── service.yaml │ ├── serviceaccount.yaml │ └── tests │ └── test-connection.yaml └── values.yaml
Now, we can deploy it using a Helm command:
$ helm install my-release my-first-chart NAME: my-release LAST DEPLOYED: Tue Apr 20 14:13:46 2021 NAMESPACE: default STATUS: deployed REVISION: 1 NOTES: 1. Get the application URL by running these commands: export POD_NAME=$(kubectl get pods --namespace default -l "app.kubernetes.io/name=my-first-chart,app.kubernetes.io/instance=my-release" -o jsonpath="{.items[0].metadata.name}") export CONTAINER_PORT=$(kubectl get pod --namespace default $POD_NAME -o jsonpath="{.spec.containers[0].ports[0].containerPort}") echo "Visit http://127.0.0.1:8080 to use your application" kubectl --namespace default port-forward $POD_NAME 8080:$CONTAINER_PORT $ kubectl get all NAME READY STATUS RESTARTS AGE pod/my-release-my-first-chart-c77d79d6b-qfdcl 1/1 Running 0 14s NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE service/kubernetes ClusterIP 10.96.0.1 <none> 443/TCP 3d1h service/my-release-my-first-chart ClusterIP 10.107.76.249 <none> 80/TCP 14s NAME READY UP-TO-DATE AVAILABLE AGE deployment.apps/my-release-my-first-chart 1/1 1 1 14s NAME DESIRED CURRENT READY AGE replicaset.apps/my-release-my-first-chart-c77d79d6b 1 1 1 14s
Follow the instructions from the output:
$ export POD_NAME=$(kubectl get pods --namespace default -l "app.kubernetes.io/name=my-first-chart,app.kubernetes.io/instance=my-release" -o jsonpath="{.items[0].metadata.name}") $ export CONTAINER_PORT=$(kubectl get pod --namespace default $POD_NAME -o jsonpath="{.spec.containers[0].ports[0].containerPort}") $ echo $POD_NAME my-release-my-first-chart-c77d79d6b-qfdcl $ echo $CONTAINER_PORT 80 $ kubectl --namespace default port-forward $POD_NAME 8080:$CONTAINER_PORT Forwarding from 127.0.0.1:8080 -> 80 Forwarding from [::1]:8080 -> 80
To view the application, open a web browser:
Helm commands
- To see installed Helm charts:
$ helm ls NAME NAMESPACE REVISION UPDATED STATUS CHART APP VERSION my-release default 1 2021-04-20 14:26:35.682994 -0700 PDT deployedmy-first-chart-0.1.0 1.16.0
- To upgrade the charts:
$ helm upgrade my-release my-first-chart Release "my-release" has been upgraded. Happy Helming! NAME: my-release LAST DEPLOYED: Tue Apr 20 15:39:51 2021 NAMESPACE: default STATUS: deployed REVISION: 2 ...
- To list the releases:
$ helm history my-release REVISION UPDATED STATUS CHART APP VERSION DESCRIPTION 1 Tue Apr 20 14:26:35 2021 superseded my-first-chart-0.1.0 1.16.0 Install complete 2 Tue Apr 20 15:39:51 2021 deployed my-first-chart-0.1.0 1.16.0 Upgrade complete
- To delete a Helm chart:
$ helm delete my-release release "my-release" uninstalled $ helm ls NAME NAMESPACE REVISION UPDATED STATUS CHART APP VERSION
Docker & K8s
- Docker install on Amazon Linux AMI
- Docker install on EC2 Ubuntu 14.04
- Docker container vs Virtual Machine
- Docker install on Ubuntu 14.04
- Docker Hello World Application
- Nginx image - share/copy files, Dockerfile
- Working with Docker images : brief introduction
- Docker image and container via docker commands (search, pull, run, ps, restart, attach, and rm)
- More on docker run command (docker run -it, docker run --rm, etc.)
- Docker Networks - Bridge Driver Network
- Docker Persistent Storage
- File sharing between host and container (docker run -d -p -v)
- Linking containers and volume for datastore
- Dockerfile - Build Docker images automatically I - FROM, MAINTAINER, and build context
- Dockerfile - Build Docker images automatically II - revisiting FROM, MAINTAINER, build context, and caching
- Dockerfile - Build Docker images automatically III - RUN
- Dockerfile - Build Docker images automatically IV - CMD
- Dockerfile - Build Docker images automatically V - WORKDIR, ENV, ADD, and ENTRYPOINT
- Docker - Apache Tomcat
- Docker - NodeJS
- Docker - NodeJS with hostname
- Docker Compose - NodeJS with MongoDB
- Docker - Prometheus and Grafana with Docker-compose
- Docker - StatsD/Graphite/Grafana
- Docker - Deploying a Java EE JBoss/WildFly Application on AWS Elastic Beanstalk Using Docker Containers
- Docker : NodeJS with GCP Kubernetes Engine
- Docker : Jenkins Multibranch Pipeline with Jenkinsfile and Github
- Docker : Jenkins Master and Slave
- Docker - ELK : ElasticSearch, Logstash, and Kibana
- Docker - ELK 7.6 : Elasticsearch on Centos 7
- Docker - ELK 7.6 : Filebeat on Centos 7
- Docker - ELK 7.6 : Logstash on Centos 7
- Docker - ELK 7.6 : Kibana on Centos 7
- Docker - ELK 7.6 : Elastic Stack with Docker Compose
- Docker - Deploy Elastic Cloud on Kubernetes (ECK) via Elasticsearch operator on minikube
- Docker - Deploy Elastic Stack via Helm on minikube
- Docker Compose - A gentle introduction with WordPress
- Docker Compose - MySQL
- MEAN Stack app on Docker containers : micro services
- MEAN Stack app on Docker containers : micro services via docker-compose
- Docker Compose - Hashicorp's Vault and Consul Part A (install vault, unsealing, static secrets, and policies)
- Docker Compose - Hashicorp's Vault and Consul Part B (EaaS, dynamic secrets, leases, and revocation)
- Docker Compose - Hashicorp's Vault and Consul Part C (Consul)
- Docker Compose with two containers - Flask REST API service container and an Apache server container
- Docker compose : Nginx reverse proxy with multiple containers
- Docker & Kubernetes : Envoy - Getting started
- Docker & Kubernetes : Envoy - Front Proxy
- Docker & Kubernetes : Ambassador - Envoy API Gateway on Kubernetes
- Docker Packer
- Docker Cheat Sheet
- Docker Q & A #1
- Kubernetes Q & A - Part I
- Kubernetes Q & A - Part II
- Docker - Run a React app in a docker
- Docker - Run a React app in a docker II (snapshot app with nginx)
- Docker - NodeJS and MySQL app with React in a docker
- Docker - Step by Step NodeJS and MySQL app with React - I
- Installing LAMP via puppet on Docker
- Docker install via Puppet
- Nginx Docker install via Ansible
- Apache Hadoop CDH 5.8 Install with QuickStarts Docker
- Docker - Deploying Flask app to ECS
- Docker Compose - Deploying WordPress to AWS
- Docker - WordPress Deploy to ECS with Docker-Compose (ECS-CLI EC2 type)
- Docker - WordPress Deploy to ECS with Docker-Compose (ECS-CLI Fargate type)
- Docker - ECS Fargate
- Docker - AWS ECS service discovery with Flask and Redis
- Docker & Kubernetes : minikube
- Docker & Kubernetes 2 : minikube Django with Postgres - persistent volume
- Docker & Kubernetes 3 : minikube Django with Redis and Celery
- Docker & Kubernetes 4 : Django with RDS via AWS Kops
- Docker & Kubernetes : Kops on AWS
- Docker & Kubernetes : Ingress controller on AWS with Kops
- Docker & Kubernetes : HashiCorp's Vault and Consul on minikube
- Docker & Kubernetes : HashiCorp's Vault and Consul - Auto-unseal using Transit Secrets Engine
- Docker & Kubernetes : Persistent Volumes & Persistent Volumes Claims - hostPath and annotations
- Docker & Kubernetes : Persistent Volumes - Dynamic volume provisioning
- Docker & Kubernetes : DaemonSet
- Docker & Kubernetes : Secrets
- Docker & Kubernetes : kubectl command
- Docker & Kubernetes : Assign a Kubernetes Pod to a particular node in a Kubernetes cluster
- Docker & Kubernetes : Configure a Pod to Use a ConfigMap
- AWS : EKS (Elastic Container Service for Kubernetes)
- Docker & Kubernetes : Run a React app in a minikube
- Docker & Kubernetes : Minikube install on AWS EC2
- Docker & Kubernetes : Cassandra with a StatefulSet
- Docker & Kubernetes : Terraform and AWS EKS
- Docker & Kubernetes : Pods and Service definitions
- Docker & Kubernetes : Service IP and the Service Type
- Docker & Kubernetes : Kubernetes DNS with Pods and Services
- Docker & Kubernetes : Headless service and discovering pods
- Docker & Kubernetes : Scaling and Updating application
- Docker & Kubernetes : Horizontal pod autoscaler on minikubes
- Docker & Kubernetes : From a monolithic app to micro services on GCP Kubernetes
- Docker & Kubernetes : Rolling updates
- Docker & Kubernetes : Deployments to GKE (Rolling update, Canary and Blue-green deployments)
- Docker & Kubernetes : Slack Chat Bot with NodeJS on GCP Kubernetes
- Docker & Kubernetes : Continuous Delivery with Jenkins Multibranch Pipeline for Dev, Canary, and Production Environments on GCP Kubernetes
- Docker & Kubernetes : NodePort vs LoadBalancer vs Ingress
- Docker & Kubernetes : MongoDB / MongoExpress on Minikube
- Docker & Kubernetes : Load Testing with Locust on GCP Kubernetes
- Docker & Kubernetes : MongoDB with StatefulSets on GCP Kubernetes Engine
- Docker & Kubernetes : Nginx Ingress Controller on Minikube
- Docker & Kubernetes : Setting up Ingress with NGINX Controller on Minikube (Mac)
- Docker & Kubernetes : Nginx Ingress Controller for Dashboard service on Minikube
- Docker & Kubernetes : Nginx Ingress Controller on GCP Kubernetes
- Docker & Kubernetes : Kubernetes Ingress with AWS ALB Ingress Controller in EKS
- Docker & Kubernetes : Setting up a private cluster on GCP Kubernetes
- Docker & Kubernetes : Kubernetes Namespaces (default, kube-public, kube-system) and switching namespaces (kubens)
- Docker & Kubernetes : StatefulSets on minikube
- Docker & Kubernetes : RBAC
- Docker & Kubernetes Service Account, RBAC, and IAM
- Docker & Kubernetes - Kubernetes Service Account, RBAC, IAM with EKS ALB, Part 1
- Docker & Kubernetes : Helm Chart
- Docker & Kubernetes : My first Helm deploy
- Docker & Kubernetes : Readiness and Liveness Probes
- Docker & Kubernetes : Helm chart repository with Github pages
- Docker & Kubernetes : Deploying WordPress and MariaDB with Ingress to Minikube using Helm Chart
- Docker & Kubernetes : Deploying WordPress and MariaDB to AWS using Helm 2 Chart
- Docker & Kubernetes : Deploying WordPress and MariaDB to AWS using Helm 3 Chart
- Docker & Kubernetes : Helm Chart for Node/Express and MySQL with Ingress
- Docker & Kubernetes : Deploy Prometheus and Grafana using Helm and Prometheus Operator - Monitoring Kubernetes node resources out of the box
- Docker & Kubernetes : Deploy Prometheus and Grafana using kube-prometheus-stack Helm Chart
- Docker & Kubernetes : Istio (service mesh) sidecar proxy on GCP Kubernetes
- Docker & Kubernetes : Istio on EKS
- Docker & Kubernetes : Istio on Minikube with AWS EC2 for Bookinfo Application
- Docker & Kubernetes : Deploying .NET Core app to Kubernetes Engine and configuring its traffic managed by Istio (Part I)
- Docker & Kubernetes : Deploying .NET Core app to Kubernetes Engine and configuring its traffic managed by Istio (Part II - Prometheus, Grafana, pin a service, split traffic, and inject faults)
- Docker & Kubernetes : Helm Package Manager with MySQL on GCP Kubernetes Engine
- Docker & Kubernetes : Deploying Memcached on Kubernetes Engine
- Docker & Kubernetes : EKS Control Plane (API server) Metrics with Prometheus
- Docker & Kubernetes : Spinnaker on EKS with Halyard
- Docker & Kubernetes : Continuous Delivery Pipelines with Spinnaker and Kubernetes Engine
- Docker & Kubernetes : Multi-node Local Kubernetes cluster : Kubeadm-dind (docker-in-docker)
- Docker & Kubernetes : Multi-node Local Kubernetes cluster : Kubeadm-kind (k8s-in-docker)
- Docker & Kubernetes : nodeSelector, nodeAffinity, taints/tolerations, pod affinity and anti-affinity - Assigning Pods to Nodes
- Docker & Kubernetes : Jenkins-X on EKS
- Docker & Kubernetes : ArgoCD App of Apps with Heml on Kubernetes
- Docker & Kubernetes : ArgoCD on Kubernetes cluster
- Docker & Kubernetes : GitOps with ArgoCD for Continuous Delivery to Kubernetes clusters (minikube) - guestbook
Ph.D. / Golden Gate Ave, San Francisco / Seoul National Univ / Carnegie Mellon / UC Berkeley / DevOps / Deep Learning / Visualization