IT-SDK-Openshift

Main-Source: https://docs.openshift.com/container-platform/3.11/welcome/index.html

CI/CD 1: https://www.youtube.com/watch?v=65BnTLcDAJI

CI/CD 2: https://www.youtube.com/watch?v=wSFyg6Etwx8

OKD (OpenShift): https://www.youtube.com/watch?v=ZkFIozGY0IA

---
oc new-app <docker-image> --name <name>
oc new-app <image-stream> --name <name>
oc import-image <docker-image> --confirm

oc login -u dev -p dev
oc new-project myproject
oc status
oc new-app --search katalonstudio/katalon
oc new-app katalonstudio/katalon --name kat
oc expose service/katalon
oc get route/katalon
oc get imagestream -o name

oc get all -o name
oc get all -o name
oc describe route/katalon
oc describe imagestream/katalon
oc get all --selector app=katalon -o name
oc delete all --selector app=katalon

Source: https://github.com/openshift/openshift-docs/blob/master/cli_reference/cli_by_example_content.adoc

An introduction to the concepts and types in OpenShift

 // View all projects you have access to
 $ oc projects

 // See a list of all services in the current project
 $ oc get svc

 // Describe a deployment configuration in detail
 $ oc describe dc mydeploymentconfig

 // Show the images tagged into an image stream
 $ oc describe is ruby-centos7

Log in to an OpenShift server

 // Log in interactively
 $ oc login

 // Log in to the given server with the given certificate authority file
 $ oc login localhost:8443 --certificate-authority=/path/to/cert.crt

 // Log in to the given server with the given credentials (will not prompt interactively)
 $ oc login localhost:8443 --username=myuser --password=mypass

Request a new project

 // Create a new project with minimal information
 $ oc new-project web-team-dev

 // Create a new project with a display name and description
 $ oc new-project web-team-dev --display-name="Web Team Development" --description="Development project for the web team."

Create a new application

 // Create an application based on the source code in the current git repository (with a public remote) and a container image
 $ oc new-app . --docker-image=repo/langimage

 // Create a Ruby application based on the provided [image]~[source code] combination
 $ oc new-app openshift/ruby-20-centos7~https://github.com/openshift/ruby-hello-world.git

 // Use the public Docker Hub MySQL image to create an app. Generated artifacts will be labeled with db=mysql
 $ oc new-app mysql -l db=mysql

 // Use a MySQL image in a private registry to create an app and override application artifacts' names
 $ oc new-app --docker-image=myregistry.com/mycompany/mysql --name=private

 // Create an application from a remote repository using its beta4 branch
 $ oc new-app https://github.com/openshift/ruby-hello-world#beta4

 // Create an application based on a stored template, explicitly setting a parameter value
 $ oc new-app --template=ruby-helloworld-sample --param=MYSQL_USER=admin

 // Create an application from a remote repository and specify a context directory
 $ oc new-app https://github.com/youruser/yourgitrepo --context-dir=src/build

 // Create an application based on a template file, explicitly setting a parameter value
 $ oc new-app --file=./example/myapp/template.json --param=MYSQL_USER=admin

Show an overview of the current project

 // Show an overview of the current project
 $ oc status

Switch to another project

 // Switch to 'myapp' project
 $ oc project myapp

 // Display the project currently in use
 $ oc project

Starts a new build

 // Starts build from build config matching the name "golang"
 $ oc start-build golang

 // Starts build from build matching the name "golang-1"
 $ oc start-build --from-build=golang-1

 // Starts build from build config matching the name "golang" and watches the logs until the build
 // completes or fails
 $ oc start-build golang --follow

Show container logs from the build container

 // Stream logs from the latest build for build config "golang" to stdout
 $ oc logs -f bc/golang
 // Stream logs from the first build for build config "golang" to stdout
 $ oc logs -f --version=1 bc/golang
 // Stream logs from build "golang-1" to stdout
 $ oc logs -f build/golang-1

View, start, cancel, or retry rollouts

 // Display information for the 'database' DeploymentConfig
 $ oc describe dc/database

 // Start a new deployment based on the 'database' DeploymentConfig
 $ oc rollout latest dc/database

 // View the status of the latest rollout
 $ oc rollout status dc/database

 // View the history of the 'database' DeploymentConfig
 $ oc rollout history dc/database

Show logs from the deployment process

 // Stream logs from the latest deployment for deployment config "frontend" to stdout
 // Note that if the deployment process is successful, logs from the application will
 // be returned.
 $ oc logs -f dc/frontend
 // Return the logs from the first deployment for deployment config "database" to stdout
 // Note that if the deployment process was successful, logs from the application will
 // be returned.
 $ oc logs --version=1 dc/database

Revert part of an application back to a previous deployment

 // Perform a rollback
 $ oc rollout undo dc/foo

 // See what the rollback will look like, but don't perform the rollback
 $ oc rollout undo dc/foo --dry-run

 // Perform a rollback to a specific revision
 $ oc rollout undo dc/foo --to-revision=2

Create a new build configuration

 // Create a build config based on the source code in the current git repository (with a public remote) and a container image
 $ oc new-build . --docker-image=repo/langimage

 // Create a NodeJS build config based on the provided [image]~[source code] combination
 $ oc new-build openshift/nodejs-010-centos7~https://bitbucket.com/user/nodejs-app

 // Create a build config from a remote repository using its beta2 branch
 $ oc new-build https://github.com/openshift/ruby-hello-world#beta2

Cancel a pending or running build

 // Cancel the build with the given name
 $ oc cancel-build 1da32cvq

 // Cancel the named build and print the build logs
 $ oc cancel-build 1da32cvq --dump-logs

 // Cancel the named build and create a new one with the same parameters
 $ oc cancel-build 1da32cvq --restart

Imports images from a container image registry

 $ oc import-image mystream

Change the number of pods in a deployment

 // Scale replication controller named 'foo' to 3.
 $ oc scale --replicas=3 replicationcontrollers foo

 // If the replication controller named foo's current size is 2, scale foo to 3.
 $ oc scale --current-replicas=2 --replicas=3 replicationcontrollers foo

Tag existing images into image streams

 // Tag the current image for the image stream 'openshift/ruby' and tag '2.0' into the image stream 'yourproject/ruby with tag 'tip'.
 $ oc tag openshift/ruby:2.0 yourproject/ruby:tip

 // Tag a specific image.
 $ oc tag openshift/ruby@sha256:6b646fa6bf5e5e4c7fa41056c27910e679c03ebe7f93e361e6515a9da7e258cc yourproject/ruby:tip

 // Tag an external container image.
 $ oc tag --source=docker openshift/origin:latest yourproject/ruby:tip

 // Remove the specified spec tag from an image stream.
 $ openshift cli tag openshift/origin:latest -d

Display one or many resources

 // List all pods in ps output format.
 $ oc get pods

 // List a single replication controller with specified ID in ps output format.
 $ oc get replicationController 1234-56-7890-234234-456456

 // List a single pod in JSON output format.
 $ oc get -o json pod 1234-56-7890-234234-456456

 // Return only the status value of the specified pod.
 $ oc get -o template pod 1234-56-7890-234234-456456 --template=Template:.currentState.status

Show details of a specific resource

 // Provide details about the ruby-20-centos7 image repository
 $ oc describe imageRepository ruby-20-centos7

 // Provide details about the ruby-sample-build build configuration
 $ oc describe bc ruby-sample-build

Edit a resource on the server

 // Edit the service named 'docker-registry':
 $ oc edit svc/docker-registry

 // Edit the DeploymentConfig named 'my-deployment':
 $ oc edit dc/my-deployment

 // Use an alternative editor
 $ OC_EDITOR="nano" oc edit dc/my-deployment

 // Edit the service 'docker-registry' in JSON using the v1beta3 API format:
 $ oc edit svc/docker-registry --output-version=v1beta3 -o json

Update the environment on a resource with a pod template

 // Update deployment 'registry' with a new environment variable
 $ oc set env dc/registry STORAGE_DIR=/local

 // List the environment variables defined on a deployment 'registry'
 $ oc set env dc/registry --list

 // List the environment variables defined on all pods
 $ oc set env pods --all --list

 // Output a YAML object with updated environment for deployment 'registry'
 // Does not alter the object on the server
 $ oc set env dc/registry STORAGE_DIR=/local -o yaml

 // Update all replication controllers in the project to have ENV=prod
 $ oc set env replicationControllers --all ENV=prod

 // Remove the environment variable ENV from all deployment configs
 $ oc set env deploymentConfigs --all ENV-

 // Remove the environment variable ENV from a pod definition on disk and update the pod on the server
 $ oc set env -f pod.json ENV-

 // Set some of the local shell environment into a deployment on the server
 $ env | grep RAILS_ | oc set env -e - dc/registry

Update volume on a resource with a pod template

 // Add new volume of type 'emptyDir' for deployment config 'registry' and mount under /opt inside the containers
 // The volume name is auto generated
 $ oc set volume dc/registry --add --mount-path=/opt

 // Add new volume 'v1' with secret 'magic' for pod 'p1'
 $ oc set volume pod/p1 --add --name=v1 -m /etc --type=secret --secret-name=magic

 // Add new volume to pod 'p1' based on gitRepo (or other volume sources not supported by --type)
 $ oc set volume pod/p1 --add -m /repo --source=<json-string>

 // Add emptyDir volume 'v1' to a pod definition on disk and update the pod on the server
 $ oc set volume -f pod.json --add --name=v1

 // Create a new persistent volume and overwrite existing volume 'v1' for replication controller 'r1'
 $ oc set volume rc/r1 --add --name=v1 -t persistentVolumeClaim --claim-name=pvc1 --overwrite

 // Change pod 'p1' mount point to /data for volume v1
 $ oc set volume pod p1 --add --name=v1 -m /data --overwrite

 // Remove all volumes for pod 'p1'
 $ oc set volume pod/p1 --remove --confirm

 // Remove volume 'v1' from deployment config 'registry'
 $ oc set volume dc/registry --remove --name=v1

 // Unmount volume v1 from container c1 on pod p1 and remove the volume v1 if it is not referenced by any containers on pod p1
 $ oc set volume pod/p1 --remove --name=v1 --containers=c1

 // List volumes defined on replication controller 'r1'
 $ oc set volume rc r1 --list

 // List volumes defined on all pods
 $ oc set volume pods --all --list

 // Output json object with volume info for pod 'p1' but don't alter the object on server
 $ oc set volume pod/p1 --add --name=v1 --mount=/opt -o json

Update the labels on a resource

 // Update pod 'foo' with the label 'unhealthy' and the value 'true'.
 $ oc label pods foo unhealthy=true

 // Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.
 $ oc label --overwrite pods foo status=unhealthy

 // Update all pods in the namespace
 $ oc label pods --all status=unhealthy

 // Update pod 'foo' only if the resource is unchanged from version 1.
 $ oc label pods foo status=unhealthy --resource-version=1

 // Update pod 'foo' by removing a label named 'bar' if it exists.
 // Does not require the --overwrite flag.
 $ oc label pods foo bar-

Expose a replicated application as a service or route

 // Create a route based on service ruby-hello-world. The new route will re-use the ruby-hello-world labels
 $ oc expose svc/ruby-hello-world

 // Create a route and specify your own label and route name
 $ oc expose svc/ruby-hello-world -l name=myroute --name=fromdowntown

ifdef::openshift-enterprise,openshift-origin,openshift-dedicated[]

 // Create a route and specify a hostname
 $ oc expose svc/ruby-hello-world --hostname=www.example.com

endif::[]

 // Expose a deployment configuration as a service and use the specified port
 $ oc expose dc/ruby-hello-world --port=8080

Autoscale an application

 // Auto scale a deployment config "foo", with the number of pods between 2 to 10, target CPU utilization at a default value that server applies
 $ oc autoscale dc/foo --min=2 --max=10

 // Auto scale a replication controller "foo", with the number of pods between 1 to 5, target CPU utilization at 80%
 $ oc autoscale rc/foo --max=5 --cpu-percent=80

ifdef::openshift-enterprise,openshift-origin,openshift-dedicated[]

Securely expose containers via a route

 // Create a secure edge-terminated route using the specified
 // certificates/keys and hostname.  If the certificates/keys
 // are not specified, those from the router will be re-used.
 $ oc create route edge --service=frontend \
     --cert=${MASTER_CONFIG_DIR}/ca.crt \
     --key=${MASTER_CONFIG_DIR}/ca.key \
     --ca-cert=${MASTER_CONFIG_DIR}/ca.crt \
     --hostname=www.example.com

 // Create a secure passthrough route.
 $ oc create route passthrough --service=registry

 // Create a secure reencrypt-terminated route in
 // a similar fashion to edge.  The only additional
 // requirement is to specify a destination CA certificate.
 $ oc create route reencrypt --service=backend --dest-ca-cert=ca.crt

endif::[]

ifdef::openshift-online[]

Securely expose containers via a route

 // Create a secure edge-terminated route.
 $ oc create route edge --service=frontend

 // Create a secure passthrough route.
 oc create route passthrough --service=frontend

endif::[]

Delete a resource by filename, stdin, resource and ID, or by resources and label selector.

 // Delete a pod using the type and ID specified in pod.json.
 $ oc delete -f pod.json

 // Delete a pod based on the type and ID in the JSON passed into stdin.
 $ cat pod.json | oc delete -f -

 // Delete pods and services with label name=myLabel.
 $ oc delete pods,services -l name=myLabel

 // Delete a pod with ID 1234-56-7890-234234-456456.
 $ oc delete pod 1234-56-7890-234234-456456

 // Delete all pods
 $ oc delete pods --all

Print the logs for a container in a pod.

 // Returns snapshot of ruby-container logs from pod backend.
 $ oc logs backend -c ruby-container

 // Starts streaming of ruby-container logs from pod backend.
 // Both NAME and TYPE/NAME syntax are supported for pods.
 $ oc logs -f pod/backend -c ruby-container

Execute a command in a container.

 // Get output from running 'date' in ruby-container from pod 123456-7890
 $ oc exec -p 123456-7890 -c ruby-container date

 // Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-780 and sends stdout/stderr from 'bash' back to the client
 $ oc exec -p 123456-7890 -c ruby-container -i -t -- bash -il

Open a remote shell session to a container. It will default to the first container if none is specified.

 // Open a shell session on the first container in pod 123456-7890
 $ oc rsh 123456-7890

 // Run the command 'cat /etc/resolv.conf' inside pod 123456-7890
 $ oc rsh 123456-7890 cat /etc/resolv.conf

Forward one or more local ports to a pod.

 // Listens on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod
 $ oc port-forward -p mypod 5000 6000

 // Listens on port 8888 locally, forwarding to 5000 in the pod
 $ oc port-forward -p mypod 8888:5000

 // Listens on a random port locally, forwarding to 5000 in the pod
 $ oc port-forward -p mypod :5000

 // Listens on a random port locally, forwarding to 5000 in the pod
 $ oc port-forward -p mypod 0:5000

Run a proxy to the Kubernetes API server

 // Run a proxy to Kubernetes apiserver on port 8011, serving static content from ./local/www/
 $ oc proxy --port=8011 --www=./local/www/

 // Run a proxy to Kubernetes apiserver, changing the api prefix to k8s-api
 // This makes e.g. the pods api available at localhost:8011/k8s-api/v1beta3/pods/
 $ oc proxy --api-prefix=k8s-api

Create a resource by filename or stdin

 // Create a pod using the data in pod.json.
 $ oc create -f pod.json

 // Create a pod based on the JSON passed into stdin.
 $ cat pod.json | oc create -f -

Update a resource by filename or stdin.

 // Update a pod using the data in pod.json.
 $ oc replace -f pod.json

 // Update a pod based on the JSON passed into stdin.
 $ cat pod.json | oc replace -f -

Process a template into list of resources

 // Convert template.json file into resource list
 $ oc process -f template.json

 // Process template while passing a user-defined label
 $ oc process -f template.json -l name=mytemplate

 // Convert stored template into resource list
 $ oc process foo

 // Convert template.json into resource list
 $ cat template.json | oc process -f -

== Export resources so they can be used elsewhere==[NOTE] `oc export` is deprecated. See link:https://docs.openshift.com/container-platform/3.11/release_notes/ocp_3_11_release_notes.html#ocp-311-notable-technical-changes[Notable Technical Changes] for more details.

 // export the services and deployment configurations labeled name=test
 oc get -o yaml --export svc,dc -l name=test

 // export to JSON
 oc get -o json --export service

Create a new secret based on a key file or on files within a directory

[ons="nowrap"]

 // Create a new secret named my-secret with a key named ssh-privatekey
 $ oc create secret generic my-secret --from-file=ssh-privatekey=<path/to/ssh/private/key>

 // Create a new secret named my-secret with keys named ssh-privatekey and ssh-publickey instead of the names of the keys on disk
 $ oc create secret generic my-secret --from-file=ssh-privatekey=<path/to/ssh/private/key> --from-file=ssh-publickey=<path/to/ssh/public/key>

 // Create a new secret named my-secret with keys for each file in the folder "bar"
 $ oc create secret generic my-secret --from-file=<path/to/bar>

End the current server session

 // Logout
 $ oc logout

Display merged kubeconfig settings or a specified kubeconfig file.

 // Show Merged kubeconfig settings.
 $ oc config view

 // Get the password for the e2e user
 $ oc config view -o template --template='Template:Range .usersTemplate:If eq .name "e2e"Template:Index .user.passwordTemplate:EndTemplate:End'

Set a cluster entry in kubeconfig

 // Set only the server field on the e2e cluster entry without touching other values.
 $ oc config set-cluster e2e --server=https://1.2.3.4

 // Embed certificate authority data for the e2e cluster entry
 $ oc config set-cluster e2e --certificate-authority=~/.kube/e2e/kubernetes.ca.crt

 // Disable cert checking for the dev cluster entry
 $ oc config set-cluster e2e --insecure-skip-tls-verify=true

Set a user entry in kubeconfig

 // Set only the "client-key" field on the "cluster-admin"
 // entry, without touching other values:
 $ oc config set-credentials cluster-admin --client-key=~/.kube/admin.key

 // Set basic auth for the "cluster-admin" entry
 $ oc config set-credentials cluster-admin --username=admin --password=uXFGweU9l35qcif

 // Embed client certificate data in the "cluster-admin" entry
 $ oc config set-credentials cluster-admin --client-certificate=~/.kube/admin.crt --embed-certs=true

Set a context entry in kubeconfig

 // Set the user field on the gce context entry without touching other values
 $ oc config set-context gce --user=cluster-admin

Change configuration files for the client

 // Change the config context to use
 oc config use-context my-context

 // Set the value of a config preference
 oc config set preferences.some true