show
kubectl run nginx --image=nginx --restart=Never --port=80 --expose
# observe that a pod as well as a service are created
show
kubectl get svc nginx # services
kubectl get ep # endpoints
show
kubectl get svc nginx # get the IP (something like 10.108.93.130)
kubectl run busybox --rm --image=busybox -it --restart=Never -- sh
wget -O- IP:80
exit
IP=$(kubectl get svc nginx --template={{.spec.clusterIP}}) # get the IP (something like 10.108.93.130)
kubectl run busybox --rm --image=busybox -it --restart=Never --env="IP=$IP" -- wget -O- $IP:80 --timeout 2
# Tip: --timeout is optional, but it helps to get answer more quickly when connection fails (in seconds vs minutes)
Convert the ClusterIP to NodePort for the same service and find the NodePort port. Hit service using Node's IP. Delete the service and the pod at the end.
show
kubectl edit svc nginx
apiVersion: v1
kind: Service
metadata:
creationTimestamp: 2018-06-25T07:55:16Z
name: nginx
namespace: default
resourceVersion: "93442"
selfLink: /api/v1/namespaces/default/services/nginx
uid: 191e3dac-784d-11e8-86b1-00155d9f663c
spec:
clusterIP: 10.97.242.220
ports:
- port: 80
protocol: TCP
targetPort: 80
selector:
run: nginx
sessionAffinity: None
type: NodePort # change cluster IP to nodeport
status:
loadBalancer: {}
or
kubectl patch svc nginx -p '{"spec":{"type":"NodePort"}}'
kubectl get svc
# result:
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
kubernetes ClusterIP 10.96.0.1 <none> 443/TCP 1d
nginx NodePort 10.107.253.138 <none> 80:31931/TCP 3m
wget -O- NODE_IP:31931 # if you're using Kubernetes with Docker for Windows/Mac, try 127.0.0.1
#if you're using minikube, try minikube ip, then get the node ip such as 192.168.99.117
kubectl delete svc nginx # Deletes the service
kubectl delete pod nginx # Deletes the pod
Create a deployment called foo using image 'dgkanatsios/simpleapp' (a simple server that returns hostname) and 3 replicas. Label it as 'app=foo'. Declare that containers in this pod will accept traffic on port 8080 (do NOT create a service yet)
show
kubectl create deploy foo --image=dgkanatsios/simpleapp --port=8080 --replicas=3
kubectl label deployment foo --overwrite app=foo #This is optional since kubectl create deploy foo will create label app=foo by default
show
kubectl get pods -l app=foo -o wide # 'wide' will show pod IPs
kubectl run busybox --image=busybox --restart=Never -it --rm -- sh
wget -O- <POD_IP>:8080 # do not try with pod name, will not work
# try hitting all IPs generated after running 1st command to confirm that hostname is different
exit
# or
kubectl get po -o wide -l app=foo | awk '{print $6}' | grep -v IP | xargs -L1 -I '{}' kubectl run --rm -ti tmp --restart=Never --image=busybox -- wget -O- http://\{\}:8080
# or
kubectl get po -l app=foo -o jsonpath='{range .items[*]}{.status.podIP}{"\n"}{end}' | xargs -L1 -I '{}' kubectl run --rm -ti tmp --restart=Never --image=busybox -- wget -O- http://\{\}:8080
Create a service that exposes the deployment on port 6262. Verify its existence, check the endpoints
show
kubectl expose deploy foo --port=6262 --target-port=8080
kubectl get service foo # you will see ClusterIP as well as port 6262
kubectl get endpoints foo # you will see the IPs of the three replica pods, listening on port 8080
Create a temp busybox pod and connect via wget to foo service. Verify that each time there's a different hostname returned. Delete deployment and services to cleanup the cluster
show
kubectl get svc # get the foo service ClusterIP
kubectl run busybox --image=busybox -it --rm --restart=Never -- sh
wget -O- foo:6262 # DNS works! run it many times, you'll see different pods responding
wget -O- <SERVICE_CLUSTER_IP>:6262 # ClusterIP works as well
# you can also kubectl logs on deployment pods to see the container logs
kubectl delete svc foo
kubectl delete deploy foo
Create an nginx deployment of 2 replicas, expose it via a ClusterIP service on port 80. Create a NetworkPolicy so that only pods with labels 'access: granted' can access the deployment and apply it
kubernetes.io > Documentation > Concepts > Services, Load Balancing, and Networking > Network Policies
Note that network policies may not be enforced by default, depending on your k8s implementation. E.g. Azure AKS by default won't have policy enforcement, the cluster must be created with an explicit support for
netpol
https://docs.microsoft.com/en-us/azure/aks/use-network-policies#overview-of-network-policy
show
kubectl create deployment nginx --image=nginx --replicas=2
kubectl expose deployment nginx --port=80
kubectl describe svc nginx # see the 'app=nginx' selector for the pods
# or
kubectl get svc nginx -o yaml
vi policy.yaml
kind: NetworkPolicy
apiVersion: networking.k8s.io/v1
metadata:
name: access-nginx # pick a name
spec:
podSelector:
matchLabels:
app: nginx # selector for the pods
ingress: # allow ingress traffic
- from:
- podSelector: # from pods
matchLabels: # with this label
access: granted
# Create the NetworkPolicy
kubectl create -f policy.yaml
# Check if the Network Policy has been created correctly
# make sure that your cluster's network provider supports Network Policy (https://kubernetes.io/docs/tasks/administer-cluster/declare-network-policy/#before-you-begin)
kubectl run busybox --image=busybox --rm -it --restart=Never -- wget -O- http://nginx:80 --timeout 2 # This should not work. --timeout is optional here. But it helps to get answer more quickly (in seconds vs minutes)
kubectl run busybox --image=busybox --rm -it --restart=Never --labels=access=granted -- wget -O- http://nginx:80 --timeout 2 # This should be fine