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Docker / Kubernetes - Configure a Pod to Use a ConfigMap

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Introduction

ConfigMaps allow us to decouple configuration artifacts from image content to keep containerized applications portable. This post provides a series of usage examples demonstrating how to create ConfigMaps and configure Pods using data stored in ConfigMaps.

configmap-gcp.png

Picture from Kubernetes Engine - ConfigMap

ConfigMaps bind configuration files, command-line arguments, environment variables, port numbers, and other configuration artifacts to our Pods' containers and system components at runtime.

ConfigMaps allow us to separate our configurations from our Pods and components, which helps keep our workloads portable, makes their configurations easier to change and manage, and prevents hardcoding configuration data to Pod specifications.

ConfigMaps are useful for storing and sharing non-sensitive, unencrypted configuration information. - Kubernetes Engine - ConfigMap







Create a ConfigMap Using kubectl create configmap

We can use the kubectl create configmap command to create configmaps from directories, files, or literal values:

ConfigMap-DataSource.png
ConfigMap-Syntax.png

Pictures from ConfigMap in Kubernetes | Concept & Demo (Review) | Kubernetes Tutorial

where <map-name> is the name we want to assign to the ConfigMap and <data-source> is the directory, file, or literal value to draw the data from.

The data source corresponds to a key-value pair in the ConfigMap, where

  1. key = the file name or the key we provided on the command line, and
  2. value = the file contents or the literal value we provided on the command line.

We can use kubectl describe or kubectl get to retrieve information about a ConfigMap.


Create ConfigMaps from directories

We can use kubectl create configmap to create a ConfigMap from multiple files in the same directory.

# Create the local directory
$ mkdir -p configure-pod-container/configmap/

# Download the sample files into `configure-pod-container/configmap/` directory
$ wget https://k8s.io/examples/configmap/game.properties -O configure-pod-container/configmap/game.properties
$ wget https://k8s.io/examples/configmap/ui.properties -O configure-pod-container/configmap/ui.properties


.
└── configure-pod-container
    └── configmap
        ├── game.properties
        └── ui.properties

$ cat game.properties 
enemies=aliens
lives=3
enemies.cheat=true
enemies.cheat.level=noGoodRotten
secret.code.passphrase=UUDDLRLRBABAS
secret.code.allowed=true

$ cat ui.properties 
color.good=purple
color.bad=yellow
allow.textmode=true
how.nice.to.look=fairlyNice


# Create the configmap
$ kubectl create configmap game-config --from-file=configure-pod-container/configmap/
configmap/game-config created

$ kubectl get configmap -o wide
NAME          DATA   AGE
game-config   2      10s

Note that kubectl create configmap command combines the contents of the configure-pod-container/configmap/ directory (game.properties and ui.properties) into the game-config configmap:

$ kubectl describe configmaps game-config
Name:         game-config
Namespace:    default
Labels:       <none>
Annotations:  <none>

Data
====
ui.properties:
----
color.good=purple
color.bad=yellow
allow.textmode=true
how.nice.to.look=fairlyNice

game.properties:
----
enemies=aliens
lives=3
enemies.cheat=true
enemies.cheat.level=noGoodRotten
secret.code.passphrase=UUDDLRLRBABAS
secret.code.allowed=true
secret.code.lives=30
Events:  <none>

The game.properties and ui.properties files in the configure-pod-container/configmap/ directory are represented in the data section of the ConfigMap.

Let's get the yaml file:

$ kubectl get configmaps game-config -o yaml
apiVersion: v1
data:
  game.properties: |-
    enemies=aliens
    lives=3
    enemies.cheat=true
    enemies.cheat.level=noGoodRotten
    secret.code.passphrase=UUDDLRLRBABAS
    secret.code.allowed=true
    secret.code.lives=30
  ui.properties: |
    color.good=purple
    color.bad=yellow
    allow.textmode=true
    how.nice.to.look=fairlyNice
kind: ConfigMap
metadata:
  creationTimestamp: "2019-03-26T03:39:03Z"
  name: game-config
  namespace: default
  resourceVersion: "1019330"
  selfLink: /api/v1/namespaces/default/configmaps/game-config
  uid: b36f6f8f-4f78-11e9-8571-080027c35fa9


Create ConfigMaps from files - 1

We can use kubectl create configmap to create a ConfigMap from an individual file, or from multiple files.

$ kubectl create configmap game-config-2 --from-file=configure-pod-container/configmap/game.properties
configmap/game-config-2 created

The configmap produced looks like this:

$ kubectl describe configmaps game-config-2
Name:         game-config-2
Namespace:    default
Labels:       <none>
Annotations:  <none>

Data
====
game.properties:
----
enemies=aliens
lives=3
enemies.cheat=true
enemies.cheat.level=noGoodRotten
secret.code.passphrase=UUDDLRLRBABAS
secret.code.allowed=true
secret.code.lives=30
Events:  <none>

We can pass in the "--from-file" argument multiple times to create a ConfigMap from multiple data sources:

$ kubectl delete configmap game-config-2
configmap "game-config-2" deleted

$ kubectl create configmap game-config-2 --from-file=configure-pod-container/configmap/game.properties --from-file=configure-pod-container/configmap/ui.properties
configmap/game-config-2 created

Describe the above game-config-2 configmap created:

$ kubectl describe configmaps game-config-2
Name:         game-config-2
Namespace:    default
Labels:       <none>
Annotations:  <none>

Data
====
game.properties:
----
enemies=aliens
lives=3
enemies.cheat=true
enemies.cheat.level=noGoodRotten
secret.code.passphrase=UUDDLRLRBABAS
secret.code.allowed=true
secret.code.lives=30
ui.properties:
----
color.good=purple
color.bad=yellow
allow.textmode=true
how.nice.to.look=fairlyNice

Events:  <none>


Create ConfigMaps from files - 2: Redis

Unlike the previous section, with redis sample, we'll provide a real world example of how to configure Redis using a ConfigMap.

Ref: Configuring Redis using a ConfigMap.

We'll create a ConfigMap, create a pod specification using the ConfigMap, create the pod, and then verify that the configuration was correctly applied.


We may want to follow the steps below to configure a Redis cache using data stored in a ConfigMap.

First create a ConfigMap from the redis-config file:

$ curl -OL https://k8s.io/examples/pods/config/redis-config

$ cat redis-config
maxmemory 2mb
maxmemory-policy allkeys-lru

$ kubectl create configmap example-redis-config --from-file=redis-config
configmap/example-redis-config created

Examine the created ConfigMap:

$ kubectl get configmap example-redis-config -o yaml
apiVersion: v1
data:
  redis-config: |
    maxmemory 2mb
    maxmemory-policy allkeys-lru
kind: ConfigMap
metadata:
  creationTimestamp: "2019-03-26T15:43:37Z"
  name: example-redis-config
  namespace: default
  resourceVersion: "1029909"
  selfLink: /api/v1/namespaces/default/configmaps/example-redis-config
  uid: eb90de22-4fdd-11e9-a4f4-080027c35fa9

Now, let's create a pod specification (redis-pod.yaml) that uses the config data stored in the ConfigMap. In this post, we'll use volumes with configMap type:

apiVersion: v1
kind: Pod
metadata:
  name: redis
spec:
  containers:
  - name: redis
    image: kubernetes/redis:v1
    env:
    - name: MASTER
      value: "true"
    ports:
    - containerPort: 6379
    resources:
      limits:
        cpu: "0.1"
    volumeMounts:
    - mountPath: /redis-master-data
      name: data
    - mountPath: /redis-master
      name: config
  volumes:
    - name: data
      emptyDir: {}
    - name: config
      configMap:
        name: example-redis-config
        items:
        - key: redis-config
          path: redis.conf

In the example, the config volume is mounted at /redis-master via volumeMounts and the volume name is config. The configMap contains two items: key (nothing but a file name) and path (target location where data resides inside the pod). It uses path to add the redis-config key to a file named redis.conf.

The file path for the redis config, therefore, is /redis-master/redis.conf.

Mount-Path.png

This is where the image will look for the config file for the redis master.


Let's create the pod:

$ kubectl create -f redis-pod.yaml
pod/redis created

$ kubectl get pod
NAME      READY   STATUS    RESTARTS   AGE
redis     1/1     Running   0          4s

Use kubectl exec to enter the pod and run the redis-cli tool to verify that the configuration was correctly applied:

$ kubectl logs redis
                _._                                                  
           _.-``__ ''-._                                             
      _.-``    `.  `_.  ''-._           Redis 2.8.19 (00000000/0) 64 bit
  .-`` .-```.  ```\/    _.,_ ''-._                                   
 (    '      ,       .-`  | `,    )     Running in stand alone mode
 |`-._`-...-` __...-.``-._|'` _.-'|     Port: 6379
 |    `-._   `._    /     _.-'    |     PID: 6
  `-._    `-._  `-./  _.-'    _.-'                                   
 |`-._`-._    `-.__.-'    _.-'_.-'|                                  
 |    `-._`-._        _.-'_.-'    |           http://redis.io        
  `-._    `-._`-.__.-'_.-'    _.-'                                   
 |`-._`-._    `-.__.-'    _.-'_.-'|                                  
 |    `-._`-._        _.-'_.-'    |                                  
  `-._    `-._`-.__.-'_.-'    _.-'                                   
      `-._    `-.__.-'    _.-'                                       
          `-._        _.-'                                           
              `-.__.-'                                               

[6] 26 Mar 16:46:18.762 # Server started, Redis version 2.8.19
[6] 26 Mar 16:46:18.766 # WARNING: The TCP backlog setting of 511 cannot be enforced because /proc/sys/net/core/somaxconn is set to the lower value of 128.
[6] 26 Mar 16:46:18.766 * The server is now ready to accept connections on port 6379

$ kubectl exec -it redis redis-cli
127.0.0.1:6379> CONFIG GET maxmemory
1) "maxmemory"
2) "2097152"
127.0.0.1:6379> CONFIG GET maxmemory-policy
1) "maxmemory-policy"
2) "allkeys-lru"
127.0.0.1:6379> 






Another sample of volume mount configMap from Configure a Pod to Use a ConfigMap.


configmap-multikeys.yaml:
apiVersion: v1
kind: ConfigMap
metadata:
  name: special-config
  namespace: default
data:
  SPECIAL_LEVEL: very
  SPECIAL_TYPE: charm    

In the following pod-configmap-volume.yaml file, we're adding the ConfigMap name under the volumes section of the Pod specification. This adds the ConfigMap data to the directory specified as volumeMounts.mountPath (in this case, /etc/config). The command section lists directory files with names that match the keys in ConfigMap:

apiVersion: v1
kind: Pod
metadata:
  name: test-pod
spec:
  containers:
    - name: test-container
      image: k8s.gcr.io/busybox
      command: [ "/bin/sh", "-c", "ls /etc/config/" ]
      volumeMounts:
      - name: config-volume
        mountPath: /etc/config
  volumes:
    - name: config-volume
      ConfigMap:
        # provide the name of the ConfigMap containing the files
        # we want to add to the container
        name: special-config
  restartPolicy: Never    


$ kubectl apply -f configmap-multikeys.yaml
configmap/special-config created

$ kubectl apply -f pod-configmap-volume.yaml
pod/test-pod created

When the pod runs, the command ls /etc/config/ produces the output below:

SPECIAL_LEVEL
SPECIAL_TYPE

$ kubectl describe cm special-config
Name:         special-config
Namespace:    default
Labels:       <none>
Annotations:  
Data
====
SPECIAL_LEVEL:
----
very
SPECIAL_TYPE:
----
charm
Events:  <none>

$ kubectl describe pods test-pod
Name:         test-pod
Namespace:    default
Priority:     0
Node:         minikube/172.17.0.2
Start Time:   Mon, 05 Apr 2021 18:51:39 -0700
Labels:       <none>
Annotations:  Status:  Succeeded
IP:           172.18.0.3
IPs:
  IP:  172.18.0.3
Containers:
  test-container:
    Container ID:  docker://f05888f6cb923f77a9ae1b8a2281f32667f812f70b95e18278c9795cd8626688
    Image:         k8s.gcr.io/busybox
    Image ID:      docker-pullable://gcr.io/google_containers/busybox@sha256:d8d3bc2c183ed2f9f10e7258f84971202325ee6011ba137112e01e30f206de67
    Port:          <none>
    Host Port:     <none>
    Command:
      /bin/sh
      -c
      ls /etc/config/
    State:          Terminated
      Reason:       Completed
      Exit Code:    0
      Started:      Mon, 05 Apr 2021 18:51:42 -0700
      Finished:     Mon, 05 Apr 2021 18:51:42 -0700
    Ready:          False
    Restart Count:  0
    Environment:    <none>
    Mounts:
      /etc/config from config-volume (rw)
      /var/run/secrets/kubernetes.io/serviceaccount from default-token-x768k (ro)
Conditions:
  Type              Status
  Initialized       True 
  Ready             False 
  ContainersReady   False 
  PodScheduled      True 
Volumes:
  config-volume:
    Type:      ConfigMap (a volume populated by a ConfigMap)
    Name:      special-config
    Optional:  false
  default-token-x768k:
    Type:        Secret (a volume populated by a Secret)
    SecretName:  default-token-x768k
    Optional:    false
QoS Class:       BestEffort
Node-Selectors:  <none>
Tolerations:     node.kubernetes.io/not-ready:NoExecute for 300s
                 node.kubernetes.io/unreachable:NoExecute for 300s
Events:
  Type    Reason     Age        From               Message
  ----    ------     ----       ----               -------
  Normal  Scheduled  <unknown>                     Successfully assigned default/test-pod to minikube
  Normal  Pulling    24m        kubelet, minikube  Pulling image "k8s.gcr.io/busybox"
  Normal  Pulled     24m        kubelet, minikube  Successfully pulled image "k8s.gcr.io/busybox" in 645.8707ms
  Normal  Created    24m        kubelet, minikube  Created container test-container
  Normal  Started    24m        kubelet, minikube  Started container test-container




Create ConfigMaps from literal values

We can use kubectl create configmap with the --from-literal argument to define a literal value from the command line:

$ kubectl create configmap special-config \
--from-literal=special.how=very \
--from-literal=special.type=charm
configmap/special-config created

We can pass in multiple key-value pairs. Each pair provided on the command line is represented as a separate entry in the data section of the ConfigMap. Note that this time the pod will look for "key" from env variables rather than from volumes.

apiVersion: v1
kind: Pod
metadata:
  name: config-literal-test-pod
spec:
  containers:
  - name: config-literal-test-container
    image: k8s.gcr.io/busybox
    command: ["/bin/sh", "-c", "env" ]
    env:
    - name: SPECIAL_LEVEL_KEY
      valueFrom:
        configMapKeyRef:
           name: special-config
           key: special.how
  restartPolicy: Never

Let's create a pod and check if it gets the value, "very":

$ kubectl create -f config-literal-test-pod.yaml
pod/config-literal-test-pod created

$ kubectl logs config-literal-test-pod | grep SPECIAL
SPECIAL_LEVEL_KEY=very






Create a ConfigMap from generator - v1.14+

kubectl supports kustomization.yaml since 1.14. We can also create a ConfigMap from generators and then apply it to create the object on the Apiserver. The generators should be specified in a kustomization.yaml inside a directory.



Generate ConfigMaps from files

To generate a ConfigMap from files configure-pod-container/configmap/kubectl/game.properties:

# Create a kustomization.yaml file with ConfigMapGenerator
$ cat <<EOF >./kustomization.yaml
configMapGenerator:
- name: game-config-4
  files:
  - configure-pod-container/configmap/kubectl/game.properties
EOF

$ cat ./kustomization.yaml
configMapGenerator:
- name: game-config-4
  files:
  - configure-pod-container/configmap/kubectl/game.properties

Apply the kustomization directory to create the ConfigMap object:

.
├── configure-pod-container
│   └── configmap
│       ├── game.properties
│       └── ui.properties
└── kustomization.yaml

$ kubectl apply -k .

But I'm currently using 1.13.4, and kubectl does not support kustomization.yaml with the version.



Docker & K8s

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  2. Docker install on EC2 Ubuntu 14.04
  3. Docker container vs Virtual Machine
  4. Docker install on Ubuntu 14.04
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  7. Working with Docker images : brief introduction
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  9. More on docker run command (docker run -it, docker run --rm, etc.)
  10. Docker Networks - Bridge Driver Network
  11. Docker Persistent Storage
  12. File sharing between host and container (docker run -d -p -v)
  13. Linking containers and volume for datastore
  14. Dockerfile - Build Docker images automatically I - FROM, MAINTAINER, and build context
  15. Dockerfile - Build Docker images automatically II - revisiting FROM, MAINTAINER, build context, and caching
  16. Dockerfile - Build Docker images automatically III - RUN
  17. Dockerfile - Build Docker images automatically IV - CMD
  18. Dockerfile - Build Docker images automatically V - WORKDIR, ENV, ADD, and ENTRYPOINT
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Ph.D. / Golden Gate Ave, San Francisco / Seoul National Univ / Carnegie Mellon / UC Berkeley / DevOps / Deep Learning / Visualization

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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 Part 1

Docker - ELK 7.6 : Kibana on Centos 7 Part 2

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

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 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

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 - ECS Fargate

Docker - AWS ECS service discovery with Flask and Redis

Docker & Kubernetes: minikube version: v1.31.2, 2023

Docker & Kubernetes 1 : 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 : Headless service and discovering pods

Docker & Kubernetes : Service IP and the Service Type

Docker & Kubernetes : Kubernetes DNS with Pods and Services

Docker & Kubernetes - Scaling and Updating application

Docker & Kubernetes : Horizontal pod autoscaler on minikubes

Docker & Kubernetes : NodePort vs LoadBalancer vs Ingress

Docker & Kubernetes : Load Testing with Locust on GCP Kubernetes

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 - 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 : MongoDB / MongoExpress on Minikube

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 : 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 : Docker_Helm_Chart_Node_Expess_MySQL_Ingress.php

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




Sponsor Open Source development activities and free contents for everyone.

Thank you.

- K Hong







Ansible 2.0



What is Ansible?

Quick Preview - Setting up web servers with Nginx, configure environments, and deploy an App

SSH connection & running commands

Ansible: Playbook for Tomcat 9 on Ubuntu 18.04 systemd with AWS

Modules

Playbooks

Handlers

Roles

Playbook for LAMP HAProxy

Installing Nginx on a Docker container

AWS : Creating an ec2 instance & adding keys to authorized_keys

AWS : Auto Scaling via AMI

AWS : creating an ELB & registers an EC2 instance from the ELB

Deploying Wordpress micro-services with Docker containers on Vagrant box via Ansible

Setting up Apache web server

Deploying a Go app to Minikube

Ansible with Terraform





Terraform



Introduction to Terraform with AWS elb & nginx

Terraform Tutorial - terraform format(tf) and interpolation(variables)

Terraform Tutorial - user_data

Terraform Tutorial - variables

Terraform 12 Tutorial - Loops with count, for_each, and for

Terraform Tutorial - creating multiple instances (count, list type and element() function)

Terraform Tutorial - State (terraform.tfstate) & terraform import

Terraform Tutorial - Output variables

Terraform Tutorial - Destroy

Terraform Tutorial - Modules

Terraform Tutorial - Creating AWS S3 bucket / SQS queue resources and notifying bucket event to queue

Terraform Tutorial - AWS ASG and Modules

Terraform Tutorial - VPC, Subnets, RouteTable, ELB, Security Group, and Apache server I

Terraform Tutorial - VPC, Subnets, RouteTable, ELB, Security Group, and Apache server II

Terraform Tutorial - Docker nginx container with ALB and dynamic autoscaling

Terraform Tutorial - AWS ECS using Fargate : Part I

Hashicorp Vault

HashiCorp Vault Agent

HashiCorp Vault and Consul on AWS with Terraform

Ansible with Terraform

AWS IAM user, group, role, and policies - part 1

AWS IAM user, group, role, and policies - part 2

Delegate Access Across AWS Accounts Using IAM Roles

AWS KMS

terraform import & terraformer import

Terraform commands cheat sheet

Terraform Cloud

Terraform 14

Creating Private TLS Certs





DevOps



Phases of Continuous Integration

Software development methodology

Introduction to DevOps

Samples of Continuous Integration (CI) / Continuous Delivery (CD) - Use cases

Artifact repository and repository management

Linux - General, shell programming, processes & signals ...

RabbitMQ...

MariaDB

New Relic APM with NodeJS : simple agent setup on AWS instance

Nagios on CentOS 7 with Nagios Remote Plugin Executor (NRPE)

Nagios - The industry standard in IT infrastructure monitoring on Ubuntu

Zabbix 3 install on Ubuntu 14.04 & adding hosts / items / graphs

Datadog - Monitoring with PagerDuty/HipChat and APM

Install and Configure Mesos Cluster

Cassandra on a Single-Node Cluster

Container Orchestration : Docker Swarm vs Kubernetes vs Apache Mesos

OpenStack install on Ubuntu 16.04 server - DevStack

AWS EC2 Container Service (ECS) & EC2 Container Registry (ECR) | Docker Registry

CI/CD with CircleCI - Heroku deploy

Introduction to Terraform with AWS elb & nginx

Docker & Kubernetes

Kubernetes I - Running Kubernetes Locally via Minikube

Kubernetes II - kops on AWS

Kubernetes III - kubeadm on AWS

AWS : EKS (Elastic Container Service for Kubernetes)

CI/CD Github actions

CI/CD Gitlab



DevOps / Sys Admin Q & A



(1A) - Linux Commands

(1B) - Linux Commands

(2) - Networks

(2B) - Networks

(3) - Linux Systems

(4) - Scripting (Ruby/Shell)

(5) - Configuration Management

(6) - AWS VPC setup (public/private subnets with NAT)

(6B) - AWS VPC Peering

(7) - Web server

(8) - Database

(9) - Linux System / Application Monitoring, Performance Tuning, Profiling Methods & Tools

(10) - Trouble Shooting: Load, Throughput, Response time and Leaks

(11) - SSH key pairs, SSL Certificate, and SSL Handshake

(12) - Why is the database slow?

(13) - Is my web site down?

(14) - Is my server down?

(15) - Why is the server sluggish?

(16A) - Serving multiple domains using Virtual Hosts - Apache

(16B) - Serving multiple domains using server block - Nginx

(16C) - Reverse proxy servers and load balancers - Nginx

(17) - Linux startup process

(18) - phpMyAdmin with Nginx virtual host as a subdomain

(19) - How to SSH login without password?

(20) - Log Rotation

(21) - Monitoring Metrics

(22) - lsof

(23) - Wireshark introduction

(24) - User account management

(25) - Domain Name System (DNS)

(26) - NGINX SSL/TLS, Caching, and Session

(27) - Troubleshooting 5xx server errors

(28) - Linux Systemd: journalctl

(29) - Linux Systemd: FirewallD

(30) - Linux: SELinux

(31) - Linux: Samba

(0) - Linux Sys Admin's Day to Day tasks





Jenkins



Install

Configuration - Manage Jenkins - security setup

Adding job and build

Scheduling jobs

Managing_plugins

Git/GitHub plugins, SSH keys configuration, and Fork/Clone

JDK & Maven setup

Build configuration for GitHub Java application with Maven

Build Action for GitHub Java application with Maven - Console Output, Updating Maven

Commit to changes to GitHub & new test results - Build Failure

Commit to changes to GitHub & new test results - Successful Build

Adding code coverage and metrics

Jenkins on EC2 - creating an EC2 account, ssh to EC2, and install Apache server

Jenkins on EC2 - setting up Jenkins account, plugins, and Configure System (JAVA_HOME, MAVEN_HOME, notification email)

Jenkins on EC2 - Creating a Maven project

Jenkins on EC2 - Configuring GitHub Hook and Notification service to Jenkins server for any changes to the repository

Jenkins on EC2 - Line Coverage with JaCoCo plugin

Setting up Master and Slave nodes

Jenkins Build Pipeline & Dependency Graph Plugins

Jenkins Build Flow Plugin

Pipeline Jenkinsfile with Classic / Blue Ocean

Jenkins Setting up Slave nodes on AWS

Jenkins Q & A





Puppet



Puppet with Amazon AWS I - Puppet accounts

Puppet with Amazon AWS II (ssh & puppetmaster/puppet install)

Puppet with Amazon AWS III - Puppet running Hello World

Puppet Code Basics - Terminology

Puppet with Amazon AWS on CentOS 7 (I) - Master setup on EC2

Puppet with Amazon AWS on CentOS 7 (II) - Configuring a Puppet Master Server with Passenger and Apache

Puppet master /agent ubuntu 14.04 install on EC2 nodes

Puppet master post install tasks - master's names and certificates setup,

Puppet agent post install tasks - configure agent, hostnames, and sign request

EC2 Puppet master/agent basic tasks - main manifest with a file resource/module and immediate execution on an agent node

Setting up puppet master and agent with simple scripts on EC2 / remote install from desktop

EC2 Puppet - Install lamp with a manifest ('puppet apply')

EC2 Puppet - Install lamp with a module

Puppet variable scope

Puppet packages, services, and files

Puppet packages, services, and files II with nginx Puppet templates

Puppet creating and managing user accounts with SSH access

Puppet Locking user accounts & deploying sudoers file

Puppet exec resource

Puppet classes and modules

Puppet Forge modules

Puppet Express

Puppet Express 2

Puppet 4 : Changes

Puppet --configprint

Puppet with Docker

Puppet 6.0.2 install on Ubuntu 18.04





Chef



What is Chef?

Chef install on Ubuntu 14.04 - Local Workstation via omnibus installer

Setting up Hosted Chef server

VirtualBox via Vagrant with Chef client provision

Creating and using cookbooks on a VirtualBox node

Chef server install on Ubuntu 14.04

Chef workstation setup on EC2 Ubuntu 14.04

Chef Client Node - Knife Bootstrapping a node on EC2 ubuntu 14.04





Elasticsearch search engine, Logstash, and Kibana



Elasticsearch, search engine

Logstash with Elasticsearch

Logstash, Elasticsearch, and Kibana 4

Elasticsearch with Redis broker and Logstash Shipper and Indexer

Samples of ELK architecture

Elasticsearch indexing performance



Vagrant



VirtualBox & Vagrant install on Ubuntu 14.04

Creating a VirtualBox using Vagrant

Provisioning

Networking - Port Forwarding

Vagrant Share

Vagrant Rebuild & Teardown

Vagrant & Ansible





Big Data & Hadoop Tutorials



Hadoop 2.6 - Installing on Ubuntu 14.04 (Single-Node Cluster)

Hadoop 2.6.5 - Installing on Ubuntu 16.04 (Single-Node Cluster)

Hadoop - Running MapReduce Job

Hadoop - Ecosystem

CDH5.3 Install on four EC2 instances (1 Name node and 3 Datanodes) using Cloudera Manager 5

CDH5 APIs

QuickStart VMs for CDH 5.3

QuickStart VMs for CDH 5.3 II - Testing with wordcount

QuickStart VMs for CDH 5.3 II - Hive DB query

Scheduled start and stop CDH services

CDH 5.8 Install with QuickStarts Docker

Zookeeper & Kafka Install

Zookeeper & Kafka - single node single broker

Zookeeper & Kafka - Single node and multiple brokers

OLTP vs OLAP

Apache Hadoop Tutorial I with CDH - Overview

Apache Hadoop Tutorial II with CDH - MapReduce Word Count

Apache Hadoop Tutorial III with CDH - MapReduce Word Count 2

Apache Hadoop (CDH 5) Hive Introduction

CDH5 - Hive Upgrade to 1.3 to from 1.2

Apache Hive 2.1.0 install on Ubuntu 16.04

Apache HBase in Pseudo-Distributed mode

Creating HBase table with HBase shell and HUE

Apache Hadoop : Hue 3.11 install on Ubuntu 16.04

Creating HBase table with Java API

HBase - Map, Persistent, Sparse, Sorted, Distributed and Multidimensional

Flume with CDH5: a single-node Flume deployment (telnet example)

Apache Hadoop (CDH 5) Flume with VirtualBox : syslog example via NettyAvroRpcClient

List of Apache Hadoop hdfs commands

Apache Hadoop : Creating Wordcount Java Project with Eclipse Part 1

Apache Hadoop : Creating Wordcount Java Project with Eclipse Part 2

Apache Hadoop : Creating Card Java Project with Eclipse using Cloudera VM UnoExample for CDH5 - local run

Apache Hadoop : Creating Wordcount Maven Project with Eclipse

Wordcount MapReduce with Oozie workflow with Hue browser - CDH 5.3 Hadoop cluster using VirtualBox and QuickStart VM

Spark 1.2 using VirtualBox and QuickStart VM - wordcount

Spark Programming Model : Resilient Distributed Dataset (RDD) with CDH

Apache Spark 2.0.2 with PySpark (Spark Python API) Shell

Apache Spark 2.0.2 tutorial with PySpark : RDD

Apache Spark 2.0.0 tutorial with PySpark : Analyzing Neuroimaging Data with Thunder

Apache Spark Streaming with Kafka and Cassandra

Apache Spark 1.2 with PySpark (Spark Python API) Wordcount using CDH5

Apache Spark 1.2 Streaming

Apache Drill with ZooKeeper install on Ubuntu 16.04 - Embedded & Distributed

Apache Drill - Query File System, JSON, and Parquet

Apache Drill - HBase query

Apache Drill - Hive query

Apache Drill - MongoDB query





Redis In-Memory Database



Redis vs Memcached

Redis 3.0.1 Install

Setting up multiple server instances on a Linux host

Redis with Python

ELK : Elasticsearch with Redis broker and Logstash Shipper and Indexer



GCP (Google Cloud Platform)



GCP: Creating an Instance

GCP: gcloud compute command-line tool

GCP: Deploying Containers

GCP: Kubernetes Quickstart

GCP: Deploying a containerized web application via Kubernetes

GCP: Django Deploy via Kubernetes I (local)

GCP: Django Deploy via Kubernetes II (GKE)





AWS (Amazon Web Services)



AWS : EKS (Elastic Container Service for Kubernetes)

AWS : Creating a snapshot (cloning an image)

AWS : Attaching Amazon EBS volume to an instance

AWS : Adding swap space to an attached volume via mkswap and swapon

AWS : Creating an EC2 instance and attaching Amazon EBS volume to the instance using Python boto module with User data

AWS : Creating an instance to a new region by copying an AMI

AWS : S3 (Simple Storage Service) 1

AWS : S3 (Simple Storage Service) 2 - Creating and Deleting a Bucket

AWS : S3 (Simple Storage Service) 3 - Bucket Versioning

AWS : S3 (Simple Storage Service) 4 - Uploading a large file

AWS : S3 (Simple Storage Service) 5 - Uploading folders/files recursively

AWS : S3 (Simple Storage Service) 6 - Bucket Policy for File/Folder View/Download

AWS : S3 (Simple Storage Service) 7 - How to Copy or Move Objects from one region to another

AWS : S3 (Simple Storage Service) 8 - Archiving S3 Data to Glacier

AWS : Creating a CloudFront distribution with an Amazon S3 origin

AWS : Creating VPC with CloudFormation

WAF (Web Application Firewall) with preconfigured CloudFormation template and Web ACL for CloudFront distribution

AWS : CloudWatch & Logs with Lambda Function / S3

AWS : Lambda Serverless Computing with EC2, CloudWatch Alarm, SNS

AWS : Lambda and SNS - cross account

AWS : CLI (Command Line Interface)

AWS : CLI (ECS with ALB & autoscaling)

AWS : ECS with cloudformation and json task definition

AWS : AWS Application Load Balancer (ALB) and ECS with Flask app

AWS : Load Balancing with HAProxy (High Availability Proxy)

AWS : VirtualBox on EC2

AWS : NTP setup on EC2

AWS: jq with AWS

AWS : AWS & OpenSSL : Creating / Installing a Server SSL Certificate

AWS : OpenVPN Access Server 2 Install

AWS : VPC (Virtual Private Cloud) 1 - netmask, subnets, default gateway, and CIDR

AWS : VPC (Virtual Private Cloud) 2 - VPC Wizard

AWS : VPC (Virtual Private Cloud) 3 - VPC Wizard with NAT

AWS : DevOps / Sys Admin Q & A (VI) - AWS VPC setup (public/private subnets with NAT)

AWS : OpenVPN Protocols : PPTP, L2TP/IPsec, and OpenVPN

AWS : Autoscaling group (ASG)

AWS : Setting up Autoscaling Alarms and Notifications via CLI and Cloudformation

AWS : Adding a SSH User Account on Linux Instance

AWS : Windows Servers - Remote Desktop Connections using RDP

AWS : Scheduled stopping and starting an instance - python & cron

AWS : Detecting stopped instance and sending an alert email using Mandrill smtp

AWS : Elastic Beanstalk with NodeJS

AWS : Elastic Beanstalk Inplace/Rolling Blue/Green Deploy

AWS : Identity and Access Management (IAM) Roles for Amazon EC2

AWS : Identity and Access Management (IAM) Policies, sts AssumeRole, and delegate access across AWS accounts

AWS : Identity and Access Management (IAM) sts assume role via aws cli2

AWS : Creating IAM Roles and associating them with EC2 Instances in CloudFormation

AWS Identity and Access Management (IAM) Roles, SSO(Single Sign On), SAML(Security Assertion Markup Language), IdP(identity provider), STS(Security Token Service), and ADFS(Active Directory Federation Services)

AWS : Amazon Route 53

AWS : Amazon Route 53 - DNS (Domain Name Server) setup

AWS : Amazon Route 53 - subdomain setup and virtual host on Nginx

AWS Amazon Route 53 : Private Hosted Zone

AWS : SNS (Simple Notification Service) example with ELB and CloudWatch

AWS : Lambda with AWS CloudTrail

AWS : SQS (Simple Queue Service) with NodeJS and AWS SDK

AWS : Redshift data warehouse

AWS : CloudFormation - templates, change sets, and CLI

AWS : CloudFormation Bootstrap UserData/Metadata

AWS : CloudFormation - Creating an ASG with rolling update

AWS : Cloudformation Cross-stack reference

AWS : OpsWorks

AWS : Network Load Balancer (NLB) with Autoscaling group (ASG)

AWS CodeDeploy : Deploy an Application from GitHub

AWS EC2 Container Service (ECS)

AWS EC2 Container Service (ECS) II

AWS Hello World Lambda Function

AWS Lambda Function Q & A

AWS Node.js Lambda Function & API Gateway

AWS API Gateway endpoint invoking Lambda function

AWS API Gateway invoking Lambda function with Terraform

AWS API Gateway invoking Lambda function with Terraform - Lambda Container

Amazon Kinesis Streams

Kinesis Data Firehose with Lambda and ElasticSearch

Amazon DynamoDB

Amazon DynamoDB with Lambda and CloudWatch

Loading DynamoDB stream to AWS Elasticsearch service with Lambda

Amazon ML (Machine Learning)

Simple Systems Manager (SSM)

AWS : RDS Connecting to a DB Instance Running the SQL Server Database Engine

AWS : RDS Importing and Exporting SQL Server Data

AWS : RDS PostgreSQL & pgAdmin III

AWS : RDS PostgreSQL 2 - Creating/Deleting a Table

AWS : MySQL Replication : Master-slave

AWS : MySQL backup & restore

AWS RDS : Cross-Region Read Replicas for MySQL and Snapshots for PostgreSQL

AWS : Restoring Postgres on EC2 instance from S3 backup

AWS : Q & A

AWS : Security

AWS : Security groups vs. network ACLs

AWS : Scaling-Up

AWS : Networking

AWS : Single Sign-on (SSO) with Okta

AWS : JIT (Just-in-Time) with Okta





Powershell 4 Tutorial



Powersehll : Introduction

Powersehll : Help System

Powersehll : Running commands

Powersehll : Providers

Powersehll : Pipeline

Powersehll : Objects

Powershell : Remote Control

Windows Management Instrumentation (WMI)

How to Enable Multiple RDP Sessions in Windows 2012 Server

How to install and configure FTP server on IIS 8 in Windows 2012 Server

How to Run Exe as a Service on Windows 2012 Server

SQL Inner, Left, Right, and Outer Joins





Git/GitHub Tutorial



One page express tutorial for GIT and GitHub

Installation

add/status/log

commit and diff

git commit --amend

Deleting and Renaming files

Undoing Things : File Checkout & Unstaging

Reverting commit

Soft Reset - (git reset --soft <SHA key>)

Mixed Reset - Default

Hard Reset - (git reset --hard <SHA key>)

Creating & switching Branches

Fast-forward merge

Rebase & Three-way merge

Merge conflicts with a simple example

GitHub Account and SSH

Uploading to GitHub

GUI

Branching & Merging

Merging conflicts

GIT on Ubuntu and OS X - Focused on Branching

Setting up a remote repository / pushing local project and cloning the remote repo

Fork vs Clone, Origin vs Upstream

Git/GitHub Terminologies

Git/GitHub via SourceTree II : Branching & Merging

Git/GitHub via SourceTree III : Git Work Flow

Git/GitHub via SourceTree IV : Git Reset

Git wiki - quick command reference






Subversion

Subversion Install On Ubuntu 14.04

Subversion creating and accessing I

Subversion creating and accessing II








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