Install Istio in Dual-Stack mode

Prerequisites

• Istio 1.17 or later.
• Kubernetes 1.23 or later configured for dual-stack operations.

Installation steps

If you want to use kind for your test, you can set up a dual stack cluster with the following command:

$ kind create cluster --name istio-ds --config - <<EOF
kind: Cluster
apiVersion: kind.x-k8s.io/v1alpha4
networking:
  ipFamily: dual
EOF

To enable dual-stack for Istio, you will need to modify your IstioOperator or Helm values with the following configuration.

apiVersion: install.istio.io/v1alpha1
kind: IstioOperator
spec:
  meshConfig:
    defaultConfig:
      proxyMetadata:
        ISTIO_DUAL_STACK: "true"
  values:
    pilot:
      env:
        ISTIO_DUAL_STACK: "true"
    # The below values are optional and can be used based on your requirements
    gateways:
      istio-ingressgateway:
        ipFamilyPolicy: RequireDualStack
      istio-egressgateway:
        ipFamilyPolicy: RequireDualStack

meshConfig:
  defaultConfig:
    proxyMetadata:
      ISTIO_DUAL_STACK: "true"
values:
  pilot:
    env:
      ISTIO_DUAL_STACK: "true"
  # The below values are optional and can be used based on your requirements
  gateways:
    istio-ingressgateway:
      ipFamilyPolicy: RequireDualStack
    istio-egressgateway:
      ipFamilyPolicy: RequireDualStack

$ istioctl install --set values.pilot.env.ISTIO_DUAL_STACK=true --set meshConfig.defaultConfig.proxyMetadata.ISTIO_DUAL_STACK="true" --set values.gateways.istio-ingressgateway.ipFamilyPolicy=RequireDualStack --set values.gateways.istio-egressgateway.ipFamilyPolicy=RequireDualStack -y

Verification

1. Create three namespaces:

   • dual-stack: tcp-echo will listen on both an IPv4 and IPv6 address.
   • ipv4: tcp-echo will listen on only an IPv4 address.
   • ipv6: tcp-echo will listen on only an IPv6 address.

   $ kubectl create namespace dual-stack
   $ kubectl create namespace ipv4
   $ kubectl create namespace ipv6
   

2. Enable sidecar injection on all of those namespaces as well as the default namespace:

   $ kubectl label --overwrite namespace default istio-injection=enabled
   $ kubectl label --overwrite namespace dual-stack istio-injection=enabled
   $ kubectl label --overwrite namespace ipv4 istio-injection=enabled
   $ kubectl label --overwrite namespace ipv6 istio-injection=enabled
   

3. Create tcp-echo deployments in the namespaces:

   ZipZipZip

   $ kubectl apply --namespace dual-stack -f @samples/tcp-echo/tcp-echo-dual-stack.yaml@
   $ kubectl apply --namespace ipv4 -f @samples/tcp-echo/tcp-echo-ipv4.yaml@
   $ kubectl apply --namespace ipv6 -f @samples/tcp-echo/tcp-echo-ipv6.yaml@
   

4. Deploy the sleep sample app to use as a test source for sending requests.

   Zip

   $ kubectl apply -f @samples/sleep/sleep.yaml@
   

5. Verify the traffic reaches the dual-stack pods:

   $ kubectl exec "$(kubectl get pod -l app=sleep -o jsonpath='{.items[0].metadata.name}')" -- sh -c "echo dualstack | nc tcp-echo.dual-stack 9000"
   hello dualstack
   

6. Verify the traffic reaches the IPv4 pods:

   $ kubectl exec "$(kubectl get pod -l app=sleep -o jsonpath='{.items[0].metadata.name}')" -- sh -c "echo ipv4 | nc tcp-echo.ipv4 9000"
   hello ipv4
   

7. Verify the traffic reaches the IPv6 pods:

   $ kubectl exec "$(kubectl get pod -l app=sleep -o jsonpath='{.items[0].metadata.name}')" -- sh -c "echo ipv6 | nc tcp-echo.ipv6 9000"
   hello ipv6
   

8. Verify the envoy listeners:

   $ istioctl proxy-config listeners "$(kubectl get pod -n dual-stack -l app=tcp-echo -o jsonpath='{.items[0].metadata.name}')" -n dual-stack --port 9000
   

   You will see listeners are now bound to multiple addresses, but only for dual stack services. Other services will only be listening on a single IP address.

   "name": "fd00:10:96::f9fc_9000",
   "address": {
       "socketAddress": {
           "address": "fd00:10:96::f9fc",
           "portValue": 9000
       }
   },
   "additionalAddresses": [
       {
           "address": {
               "socketAddress": {
                   "address": "10.96.106.11",
                   "portValue": 9000
               }
           }
       }
   ],
   

9. Verify virtual inbound addresses are configured to listen on both 0.0.0.0 and [::].

   "name": "virtualInbound",
   "address": {
       "socketAddress": {
           "address": "0.0.0.0",
           "portValue": 15006
       }
   },
   "additionalAddresses": [
       {
           "address": {
               "socketAddress": {
                   "address": "::",
                   "portValue": 15006
               }
           }
       }
   ],
   

10. Verify envoy endpoints are configured to route to both IPv4 and IPv6:

    $ istioctl proxy-config endpoints "$(kubectl get pod -l app=sleep -o jsonpath='{.items[0].metadata.name}')" --port 9000
    ENDPOINT                 STATUS      OUTLIER CHECK     CLUSTER
    10.244.0.19:9000         HEALTHY     OK                outbound|9000||tcp-echo.ipv4.svc.cluster.local
    10.244.0.26:9000         HEALTHY     OK                outbound|9000||tcp-echo.dual-stack.svc.cluster.local
    fd00:10:244::1a:9000     HEALTHY     OK                outbound|9000||tcp-echo.dual-stack.svc.cluster.local
    fd00:10:244::18:9000     HEALTHY     OK                outbound|9000||tcp-echo.ipv6.svc.cluster.local
    

Now you can experiment with dual-stack services in your environment!

Cleanup

1. Cleanup application namespaces and deployments

   Zip

   $ kubectl delete -f @samples/sleep/sleep.yaml@
   $ kubectl delete ns dual-stack ipv4 ipv6