Virtual Machines in Multi-Network Meshes
This example provides instructions to integrate a VM or a bare metal host into a multi-network Istio mesh deployed on Kubernetes using gateways. This approach doesn’t require VPN connectivity or direct network access between the VM, the bare metal and the clusters.
Prerequisites
One or more Kubernetes clusters with versions: 1.16, 1.17, 1.18, 1.19.
Virtual machines (VMs) must have IP connectivity to the Ingress gateways in the mesh.
Services in the cluster must be accessible through the Ingress gateway.
Installation steps
Setup consists of preparing the mesh for expansion and installing and configuring each VM.
Preparing your environment
When expanding Istio’s mesh capabilities to VMs across multiple networks (where the VM is in a network where traffic cannot directly route to pods in the Kubernetes cluster, for example), we’ll need to take advantage of Istio’s split-horizon DNS capabilities.
Before we get started, you should prepare a VM and connect it to the Istio control plane through the Ingress Gateway. These steps are detailed in Setup: Install: Virtual Machine Installation.
Note There are a few alterations to that document as follows:
You must alter the VM set up instructions based on the suggestions in this section!
- When we create the
IstioOperator
resource, we need to specify which networks we expect, and how to treat them - When creating the
cluster.env
we need to specify which network in which the VM belongs - We need to create a
Gateway
resource to allow application traffic from the VM to the workload items running in the mesh
Installing the Istio Control Plane
When following the Virtual Machine Installation setup guide to install the control plane, we will need to tweak the installation as follows:
Specify the expected networks in the mesh, including the
vm-network
$ cat <<EOF> ./vmintegration.yaml apiVersion: install.istio.io/v1alpha1 kind: IstioOperator spec: values: global: meshExpansion: enabled: true multiCluster: clusterName: kube-cluster network: main-network meshNetworks: main-network: endpoints: - fromRegistry: kube-cluster gateways: - registryServiceName: istio-ingressgateway.istio-system.svc.cluster.local port: 443 EOF
Install with the virtual-machine features enabled:
$ istioctl install -f ./vmintegration.yaml
Specify the network for the VM sidecar
When following the Virtual Machine Installation setup guide for creating the cluster.env
file we need to tweak the installation by adding the following entry:
` ``` $ echo “ISTIO_META_NETWORK=vm-network” >> cluster.env
### Create Gateway for application traffic
The last step is to create a `Gateway` resource that allows application traffic from the VMs to route correctly.
`
apiVersion: networking.istio.io/v1alpha3 kind: Gateway metadata: name: cluster-aware-gateway namespace: istio-system spec: selector: istio: ingressgateway servers:
- port:
number: 443
name: tls
protocol: TLS
tls:
mode: AUTO_PASSTHROUGH
hosts:
- “*.local”
``
- “*.local”
Applying this gateway will route any of the traffic from the VM destined for the workloads in the mesh running on *.local
At this point, you can continue with the Setup Virtual Machine documentation.
Verify setup
After setup, the machine can access services running in the Kubernetes cluster or on other VMs. When a service on the VM tries to access a service in the mesh running on Kubernetes, the endpoints (i.e., IPs) for those services will be the ingress gateway on the Kubernetes Cluster. To verify that, on the VM run the following command (assuming you have a service named httpbin
on the Kubernetes cluster):
` ``` $ curl -v localhost:15000/clusters | grep httpbin
This should show endpoints for `httpbin` that point to the ingress gateway similar to this:
`
outbound|8000||httpbin.default.svc.cluster.local::34.72.46.113:443::cx_active::1 outbound|8000||httpbin.default.svc.cluster.local::34.72.46.113:443::cx_connect_fail::0 outbound|8000||httpbin.default.svc.cluster.local::34.72.46.113:443::cx_total::1 outbound|8000||httpbin.default.svc.cluster.local::34.72.46.113:443::rq_active::0
The IP `34.72.46.113` in this case is the ingress gateway public endpoint.
### Send requests from VM workloads to Kubernetes services
At this point we should be able to send traffic to `httpbin.default.svc.cluster.local` and get a response from the server. You may have to set up DNS in `/etc/hosts` to map the `httpbin.default.svc.cluster.local` domain name to an IP since the IP will not resolve. In this case, the IP should be an IP that gets routed to the local Istio Proxy sidecar. You can use the IP from the `ISTIO_SERVICE_CIDR` variable in the `cluster.env` file you created in the [Setup Virtual Machine documentation]($6fd1e49b0570af87.md).
`
$ curl -v httpbin.default.svc.cluster.local:8000/headers
``
Running services on the added VM
Setup an HTTP server on the VM instance to serve HTTP traffic on port 8080:
$ python -m SimpleHTTPServer 8080
Note, you may have to open firewalls to be able to access the 8080 port on your VM
Add VM services to the mesh
Add a service to the Kubernetes cluster into a namespace (in this example,
<vm-namespace>
) where you prefer to keep resources (likeService
,ServiceEntry
,WorkloadEntry
,ServiceAccount
) with the VM services:$ cat <<EOF | kubectl -n <vm-namespace> apply -f - apiVersion: v1 kind: Service metadata: name: cloud-vm labels: app: cloud-vm spec: ports: - port: 8080 name: http-vm targetPort: 8080 selector: app: cloud-vm EOF
Lastly create a workload with the external IP of the VM (substitute
VM_IP
with the IP of your VM):$ cat <<EOF | kubectl -n <vm-namespace> apply -f - apiVersion: networking.istio.io/v1beta1 kind: WorkloadEntry metadata: name: "cloud-vm" namespace: "<vm-namespace>" spec: address: "${VM_IP}" labels: app: cloud-vm serviceAccount: "<service-account>" EOF
Deploy a pod running the
sleep
service in the Kubernetes cluster, and wait until it is ready:$ kubectl apply -f @samples/sleep/sleep.yaml@ $ kubectl get pod NAME READY STATUS RESTARTS AGE sleep-88ddbcfdd-rm42k 2/2 Running 0 1s ...
Send a request from the
sleep
service on the pod to the VM’s HTTP service:$ kubectl exec -it sleep-88ddbcfdd-rm42k -c sleep -- curl cloud-vm.${VM_NAMESPACE}.svc.cluster.local:8080
You should see something similar to the output below.
<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 3.2 Final//EN"><html> <title>Directory listing for /</title> <body> <h2>Directory listing for /</h2> <hr> <ul> <li><a href=".bashrc">.bashrc</a></li> <li><a href=".ssh/">.ssh/</a></li> ... </body>
Congratulations! You successfully configured a service running in a pod within the cluster to send traffic to a service running on a VM outside of the cluster and tested that the configuration worked.
Cleanup
At this point, you can remove the VM resources from the Kubernetes cluster in the <vm-namespace>
namespace.
See also
Deploy Istio and connect a workload running within a virtual machine to it.
Bookinfo with a Virtual Machine
Run the Bookinfo application with a MySQL service running on a virtual machine within your mesh.
Example Application using Virtual Machines in a Single Network Mesh
Learn how to add a service running on a virtual machine to your single-network Istio mesh.
Provision and manage DNS certificates in Istio.
A more secure way to manage Istio webhooks.
Demystifying Istio’s Sidecar Injection Model
De-mystify how Istio manages to plugin its data-plane components into an existing deployment.