HowTo:CS Launch
Introduction
This is a quick start guide for using the CS Launch website and kubernetes resources. It will walk you through setting up a basic website with database support. The first half showing using the web interface, and the second half shows how to do it through a command line interface.
Create a New Project
Access to CS Launch is made through projects. A project is a collection of kubernetes namespaces and resources. You can have access to multiple projects. Projects can be shared with other CS members. The default kubernetes cluster Endeavour only allows Faculty and Staff to create projects. After a Faculty member creates a project, it can be shared with CS students.
- Go to CS Launch website: https://launch.cs.vt.edu
- Click the login button to use your CS username and password to log in
- The main screen will show a list of kubernetes clusters you have access to, if the list is blank then you don't have access to any clusters
- Click on the cluster name where you want to create the new project
- This is your Cluster Dashboard
- From the menu on the left Click on Projects/Namespaces
- Click on the Create Project button
- Fill in the Name field with a cluster unique name for your project
- You add additional project members now or later after the project is created
- Click on the Create button
Create a New Namespace
Kubernetes uses namespaces to separate resources. The CS Launch resources groups namespaces into projects for access control. A project can contain multiple namespaces. At least one namespace is required before resources can be created in a project. To access a namespace you must be a member of the project the namespace is associated with. A namespace can only be associated with a single project.
- Navigate to the list of projects
- Click on Projects/Namespaces from the cluster dashboard
- Click on the Create Namespace button that is associated with the project you want to assign the namespace to
- Fill in the Name field with a cluster unique name. The namespace name can be the same as the project name as long as it follows the naming rules and is not already in use. Kubernetes namespace names must following DNS name rules: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#dns-label-names
- Click on the Create button
Launching a Database Using Helm
Kubernetes supports Helm charts to automate deployment of software. There are existing Helm charts for many popular software projects, such as databases. Using a Helm chart can make setting up and updating complex software much easier. This guide will walk you through deploying MariaDB using a Helm chart.
- Navigate to your Cluster Dashboard
- Click on Apps from the menu on the left
- Click on Charts underneath Apps
- We need to find the MariaDB chart
- Make sure to select Partners in the first drop down list
- Select Database from the catagories drop down list
- Click on the MariaDB tile
- Click on the Install button
- Select the namespace from the drop down list where you want the database deployed to
- Click on the Next button
- You will be presented with a long list of options and their default values in yaml format
- For our example, change the following options:
auth: database: cslaunch username: cslaunch password: 'Insecure' primary: persistence: size: 1Gi
- Click on the Install button
- It will take a minute or two for the deployment to complete. The site will give you a window to watch the progress, and report any errors that might occur.
- You should now have a running database, but no real way to access it yet
- Other pods in the same namespace will be able to connect to this database using the hostname
mariadb
Launch an App Using a Public Image
Next we will launch a web app called Adminer that will allow us to interact with our running database, and assign it a URL.
- Navigate to your Cluster Dashboard.
- Click on Workloads from the menu on the left.
- Click on the Create button.
- Select the Deployment tile as this type of deployment is best suited for our Adminer web app.
- Make sure to select the same namespace as the database.
- Fill in Name with a project unique name. Example:
test-adminer
The name must following DNS naming rules. - Fill in Container Image with the value
adminer:latest
This is a path to a docker image, and it resolves to the latest image from the adminer project on https://docker.io. - We need to tell kubernetes how this deployment will interact with the network by giving it a cluster IP.
- Click on the Add Port or Service button under Networking.
- Select ClusterIP under the Service Type drop down list
- Fill in Name with
tcp8080
under Networking. - Fill in Private Container Port with
8080
. TCP port 8080 is the port that the Adminer web app listens to.
- The rest of the options can be left on their default settings.
- Click on the Create button.
- The web app will start running, but we won't have a way to access it until we map a URL to the container, this is called an ingress in kubernetes.
Create Ingress to a Workload
Creating an ingress in kubernetes allows you to map an external URL to your running container so it can be accessed from anywhere on the Internet.
- Navigate to your Cluster Dashboard.
- Click on Service Discovery from the menu on the left.
- Click on Ingresses from the sub-menu on the left.
- Click on the Create button.
- Make sure to select the same namespace as the web app.
- Fill in Name with a project unique name. Example:
test-ingress
The name must follow DNS naming rules. - Fill in Request Host with the hostname of the URL you want to map to. Example:
test.endeavour.cs.vt.edu
The Endeavour cluster on CS Launch allows you to map any *.endeavour.cs.vt.edu hostname to your ingress. Additionally, a TLS certificate is used to automatically encrypt your ingress traffic.