This quickstart guide covers the necessary steps to deploy two OpenShift Container Platform (OCP) clusters on AWS with full stack automation, also known as installer-provisioned infrastructure (IPI). Once the OpenShift clusters are deployed, we deploy Submariner to interconnect the two clusters. Since the two clusters share the same Cluster and Service CIDR ranges, Globalnet will be enabled.
Before we begin, the following tools need to be downloaded and added to your $PATH:
Please ensure that the tools you downloaded above are compatible with your OpenShift Container Platform version. For more information, please refer to the official OpenShift documentation.
Configure the AWS CLI with the settings required to interact with AWS. These include your security credentials, the default AWS Region, and the default output format:
$ aws configure
AWS Access Key ID [None]: ....
AWS Secret Access Key [None]: ....
Default region name [None]: ....
Default output format [None]: text
In this step you will deploy cluster-a using the default IP CIDR ranges:
| Pod CIDR | Service CIDR |
|---|---|
| 10.128.0.0/14 | 172.30.0.0/16 |
openshift-install create install-config --dir cluster-a
openshift-install create cluster --dir cluster-a
When the cluster deployment completes, directions for accessing your cluster, including a link to its web console and credentials for the
kubeadmin user, display in your terminal.
In this step you will deploy cluster-b using the same default IP CIDR ranges:
| Pod CIDR | Service CIDR |
|---|---|
| 10.128.0.0/14 | 172.30.0.0/16 |
openshift-install create install-config --dir cluster-b
openshift-install create cluster --dir cluster-b
When the cluster deployment completes, directions for accessing your cluster, including a link to its web console and credentials for the
kubeadmin user, display in your terminal.
subctlDownload the subctl binary and make it available on your PATH.
curl -Ls https://get.submariner.io | bash
export PATH=$PATH:~/.local/bin
echo export PATH=\$PATH:~/.local/bin >> ~/.profile
If you have Go and the source code, you can build and install subctl instead:
cd go/src/submariner-io/subctl
go build -o $GOBIN/subctl github.com/submariner-io/subctl/cmd
(and ensure your go/bin directory is on your PATH).
Submariner Gateway nodes need to be able to accept traffic over UDP ports (4500 and 4490 by default). Submariner also uses UDP port 4800 to encapsulate traffic from the worker and master nodes to the Gateway nodes, and TCP port 8080 to retrieve metrics from the Gateway nodes. Additionally, the default OpenShift deployment does not allow assigning an elastic public IP to existing worker nodes, which may be necessary on one end of the tunnel connection.
subctl cloud prepare is a command designed to update your OpenShift installer provisioned infrastructure for Submariner deployments,
handling the requirements specified above.
The default EC2 instance type for the Submariner gateway node is c5d.large,
optimized for better CPU which is found to be a bottleneck for IPsec and Wireguard drivers.
Please ensure that the AWS Region you deploy to supports this instance type.
Alternatively, you can choose to deploy using a different instance type.
Prepare OpenShift-on-AWS cluster-a for Submariner:
export KUBECONFIG=cluster-a/auth/kubeconfig
subctl cloud prepare aws --ocp-metadata path/to/cluster-a/metadata.json
Prepare OpenShift-on-AWS cluster-b for Submariner:
export KUBECONFIG=cluster-b/auth/kubeconfig
subctl cloud prepare aws --ocp-metadata path/to/cluster-b/metadata.json
Note that certain parameters, such as the tunnel UDP port and AWS instance type for the gateway, can be customized. For example:
subctl cloud prepare aws --ocp-metadata path/to/metadata.json --natt-port 4501 --gateway-instance m4.xlarge
Submariner can be deployed in HA mode by setting the gateways flag:
subctl cloud prepare aws --ocp-metadata path/to/metadata.json --gateways 3
To install Submariner with multi-cluster service discovery and support for overlapping CIDRs follow the steps below.
subctl deploy-broker --kubeconfig cluster-a/auth/kubeconfig --globalnet
subctl join --kubeconfig cluster-a/auth/kubeconfig broker-info.subm --clusterid cluster-a
subctl join --kubeconfig cluster-b/auth/kubeconfig broker-info.subm --clusterid cluster-b
To manually verify the deployment, follow the steps below using either a headless or ClusterIP nginx service deployed in cluster-b.
export KUBECONFIG=cluster-b/auth/kubeconfig
kubectl -n default create deployment nginx --image=nginxinc/nginx-unprivileged:stable-alpine
kubectl -n default expose deployment nginx --port=8080
subctl export service --namespace default nginx
export KUBECONFIG=cluster-b/auth/kubeconfig
kubectl -n default create deployment nginx --image=nginxinc/nginx-unprivileged:stable-alpine
kubectl -n default expose deployment nginx --port=8080 --cluster-ip=None
subctl export service --namespace default nginx
Run nettest from cluster-a to access the nginx service:
export KUBECONFIG=cluster-a/auth/kubeconfig
kubectl -n default run tmp-shell --rm -i --tty --image quay.io/submariner/nettest -- /bin/bash
curl nginx.default.svc.clusterset.local:8080
To access a Service in a specific cluster, prefix the query with <cluster-id> as follows:
curl cluster-b.nginx.default.svc.clusterset.local:8080
A StatefulSet uses a headless Service. Create a web.yaml as follows:
apiVersion: v1
kind: Service
metadata:
name: nginx-ss
labels:
app.kubernetes.io/instance: nginx-ss
app.kubernetes.io/name: nginx-ss
spec:
ports:
- port: 80
name: web
clusterIP: None
selector:
app.kubernetes.io/instance: nginx-ss
app.kubernetes.io/name: nginx-ss
---
apiVersion: apps/v1
kind: StatefulSet
metadata:
name: web
spec:
serviceName: "nginx-ss"
replicas: 2
selector:
matchLabels:
app.kubernetes.io/instance: nginx-ss
app.kubernetes.io/name: nginx-ss
template:
metadata:
labels:
app.kubernetes.io/instance: nginx-ss
app.kubernetes.io/name: nginx-ss
spec:
containers:
- name: nginx-ss
image: nginxinc/nginx-unprivileged:stable-alpine
ports:
- containerPort: 80
name: web
Use this yaml to create a StatefulSet web with nginx-ss as the Headless Service.
export KUBECONFIG=cluster-a/auth/kubeconfig
kubectl -n default apply -f web.yaml
subctl export service -n default nginx-ss
curl nginx-ss.default.svc.clusterset.local:8080
To access the Service in a specific cluster, prefix the query with <cluster-id>:
curl cluster-a.nginx-ss.default.svc.clusterset.local:8080
To access an individual pod in a specific cluster, prefix the query with <pod-hostname>.<cluster-id>:
curl web-0.cluster-a.nginx-ss.default.svc.clusterset.local:8080
The contexts on both config files are named admin and need to be modified before running the verify command.
Here is how this can be done using yq:
yq e -i '.contexts[0].name = "cluster-a" | .current-context = "cluster-a"' cluster-a/auth/kubeconfig
yq e -i '.contexts[0].context.user = "admin-a" | .users[0].name = "admin-a"' cluster-a/auth/kubeconfig
yq e -i '.contexts[0].name = "cluster-b" | .current-context = "cluster-a"' cluster-b/auth/kubeconfig
yq e -i '.contexts[0].context.user = "admin-b" | .users[0].name = "admin-b"' cluster-b/auth/kubeconfig
(if you’re using yq 4.18.1 or later, you can use yq -i instead of yq e -i).
More generally, see the Kubernetes documentation on accessing multiple clusters using configuration files.
This will perform automated verifications between the clusters.
export KUBECONFIG=cluster-a/auth/kubeconfig:cluster-b/auth/kubeconfig
subctl verify --context cluster-a --tocontext cluster-b --only service-discovery,connectivity --verbose