Job with Pod-to-Pod Communication
In this example, you will run a Job in Indexed completion mode configured such that the pods created by the Job can communicate with each other using pod hostnames rather than pod IP addresses.
Pods within a Job might need to communicate among themselves. The user workload running in each pod could query the Kubernetes API server to learn the IPs of the other Pods, but it's much simpler to rely on Kubernetes' built-in DNS resolution.
Jobs in Indexed completion mode automatically set the pods' hostname to be in the format of
${jobName}-${completionIndex}
. You can use this format to deterministically build
pod hostnames and enable pod communication without needing to create a client connection to
the Kubernetes control plane to obtain pod hostnames/IPs via API requests.
This configuration is useful for use cases where pod networking is required but you don't want to depend on a network connection with the Kubernetes API server.
Before you begin
You should already be familiar with the basic use of Job.
You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. It is recommended to run this tutorial on a cluster with at least two nodes that are not acting as control plane hosts. If you do not already have a cluster, you can create one by using minikube or you can use one of these Kubernetes playgrounds:
Your Kubernetes server must be at or later than version v1.21. To check the version, enterkubectl version
.Starting a Job with Pod-to-Pod Communication
To enable pod-to-pod communication using pod hostnames in a Job, you must do the following:
Set up a headless Service with a valid label selector for the pods created by your Job. The headless service must be in the same namespace as the Job. One easy way to do this is to use the
job-name: <your-job-name>
selector, since thejob-name
label will be automatically added by Kubernetes. This configuration will trigger the DNS system to create records of the hostnames of the pods running your Job.Configure the headless service as subdomain service for the Job pods by including the following value in your Job template spec:
subdomain: <headless-svc-name>
Example
Below is a working example of a Job with pod-to-pod communication via pod hostnames enabled. The Job is completed only after all pods successfully ping each other using hostnames.
apiVersion: v1
kind: Service
metadata:
name: headless-svc
spec:
clusterIP: None # clusterIP must be None to create a headless service
selector:
job-name: example-job # must match Job name
---
apiVersion: batch/v1
kind: Job
metadata:
name: example-job
spec:
completions: 3
parallelism: 3
completionMode: Indexed
template:
spec:
subdomain: headless-svc # has to match Service name
restartPolicy: Never
containers:
- name: example-workload
image: bash:latest
command:
- bash
- -c
- |
for i in 0 1 2
do
gotStatus="-1"
wantStatus="0"
while [ $gotStatus -ne $wantStatus ]
do
ping -c 1 example-job-${i}.headless-svc > /dev/null 2>&1
gotStatus=$?
if [ $gotStatus -ne $wantStatus ]; then
echo "Failed to ping pod example-job-${i}.headless-svc, retrying in 1 second..."
sleep 1
fi
done
echo "Successfully pinged pod: example-job-${i}.headless-svc"
done
After applying the example above, reach each other over the network
using: <pod-hostname>.<headless-service-name>
. You should see output similar to the following:
kubectl logs example-job-0-qws42
Failed to ping pod example-job-0.headless-svc, retrying in 1 second...
Successfully pinged pod: example-job-0.headless-svc
Successfully pinged pod: example-job-1.headless-svc
Successfully pinged pod: example-job-2.headless-svc
<pod-hostname>.<headless-service-name>
name format used
in this example would not work with DNS policy set to None
or Default
.
You can learn more about pod DNS policies here.