notes/software/Kubernetes.md
2023-08-26 11:34:11 -06:00

113 lines
4.6 KiB
Markdown
Raw Permalink Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

# Vocabulary
https://kubernetes.io/docs/tutorials/kubernetes-basics/explore/explore-intro/ - Good summary of the different parts
## Cluster
The largest unit, a kubernetes cluster is a collection of one or more worker machines (virtual or physical machines), and the control plane.
## Control plane
A control plane is in charge of managing worker nodes and pods in a cluster.
## Node
[A node](https://kubernetes.io/docs/tutorials/kubernetes-basics/explore/explore-intro/) is a virtual or physical machine that in Kubernetes, and is managed by the control plane. A Node can have multiple pods, and the control plane is in charge of scheduling pods across nodes.
Each node runs at least:
- A Kubelet, the process responsible for handling communication between the control plane and the node. It manages the pods and containers running on a machine
- A [container runtime](https://kubernetes.io/docs/setup/production-environment/container-runtimes/) responsible for pulling the container image from a registry, unpacking the container, and running the application. Examples include containerd and docker.
## Deployment
A [deployment](https://kubernetes.io/docs/tutorials/kubernetes-basics/deploy-app/deploy-intro/) instructs kubernetes how to create and update instances of an application. It can be imagined similar to a blueprint. The term 'deployment' may also refer to the group of pods and replicas defined by one or more configuration files.
## Pod
A [pod](https://kubernetes.io/docs/tutorials/kubernetes-basics/explore/explore-intro/) is an abstraction that represents a group of one or more application containers, and shared resources. Some shared include storage and a private network. They are meant to represent a logical host, and a rough parallel might be a physical machine running a service, although this machine may have multiple network adapters. A deployment creates pods, and not containers.
## ReplicaSet
A [ReplicaSet](https://kubernetes.io/docs/concepts/workloads/controllers/replicaset/), often referred to as a pod replica, is an identical copy of pod. They can be used for many things, most commonly high availability and load balancing.
## Service
A [service](https://kubernetes.io/docs/concepts/services-networking/service/) in Kubernetes is is an abstraction that defines a logical set of Pods and a policy to access them. A Service is defined using YAML or JSON, and is primarily used to expose a network application that's running on one or more Pods in a cluster. They also route traffic across a set of Pods, allowing Pods to die and replicate without impacting the application.
## `kubectl`
`kubectl` is the Kubernetes command line tool used to run commands against clusters. You can use `kubectl` to deploy applications, inspect and manage cluster resources, and view logs. The general format of the command follows `kubectl [action] [resource]`
## `minikube`
`minikube` creates a local Kubernetes cluster for development. It can be configured to deploy on bare metal, containers (like docker), or a VM (QEMU).
# Commands
## Common commands
- **kubectl get** - list resources
- **kubectl describe** - show detailed information about a resource
- **kubectl logs** - print the logs from a container in a pod
- **kubectl exec** - execute a command on a container in a pod
## Start `minikube`
```
minikube start
```
## Stop `minikube`
```
minikube stop
```
## Expose services running in minikube
```
minikube services
```
## View the dashboard for `minikube`(run in new terminal window)
```
minikube dashboard
```
## Check that `kubectl` is configured to talk to the cluster
```
kubectl version
```
## View nodes in the server
```
kubectl get nodes
```
## List deployments
```
kubectl get deployments
```
## Start a proxy to access the private network
```
kubectl proxy
```
## Access the API of a pod (through the proxy)
```
curl http://localhost:8001/api/v1/namespaces/default/pods/$POD_NAME/
```
Where `$POD_NAME` is the name of a pod, you can get this information with `kubectl get pods`
## Start a Bash session in a Pod's container
```
kubectl exec --ti $POD_NAME -- bash
```
## Create a new Service and expose it to external traffic
```
kubectl expose deployment/kubernetes-bootcamp --type="NodePort" --port 8080
```
## Apply a new label to pods
```
kubectl label pods "$POD_NAME" version=v1
```
## See if a Service is load-balancing traffic
```
kubectl describe services/$SERVICE_NAME
```
## Set a different desired amount of replicas for a deployment
```
kubectl scale deployments/$DEPLOYMENT_NAME --replicas=$DESIRED_NUM_OF_REPLICAS
```
# Tutorials
https://kubernetes.io/docs/tutorials/hello-minikube/
https://kubernetes.io/docs/tutorials/kubernetes-basics/