Single-network Mesh Expansion
This example provides instructions to integrate VMs and bare metal hosts intoan Istio mesh deployed on Kubernetes.
Prerequisites
You have already set up Istio on Kubernetes. If you haven’t done so, you can find out how in the Installation guide.
Mesh expansion machines must have IP connectivity to the endpoints in the mesh. Thistypically requires a VPC or a VPN, as well as a container network thatprovides direct (without NAT or firewall deny) routing to the endpoints. The machineis not required to have access to the cluster IP addresses assigned by Kubernetes.
Mesh expansion VMs must have access to a DNS server that resolves names to cluster IP addresses. Optionsinclude exposing the Kubernetes DNS server through an internal load balancer, using a Core DNSserver, or configuring the IPs in any other DNS server accessible from the VM.
Install the Helm client. Helm is needed to enable mesh expansion.
The following instructions:
- Assume the expansion VM is running on GCE.
- Use Google platform-specific commands for some steps.
Installation steps
Setup consists of preparing the mesh for expansion and installing and configuring each VM.
Preparing the Kubernetes cluster for expansion
The first step when adding non-Kubernetes services to an Istio mesh is to configure the Istio installation itself, andgenerate the configuration files that let mesh expansion VMs connect to the mesh. To prepare thecluster for mesh expansion, run the following commands on a machine with cluster admin privileges:
Ensure that mesh expansion is enabled for the cluster. If you didn’t usethe
—set global.meshExpansion.enabled=true
flag when installing Helm,you can use one of the following two options depending on how you originally installedIstio on the cluster:- If you installed Istio with Helm and Tiller, run
helm upgrade
with the new option:
- If you installed Istio with Helm and Tiller, run
$ cd install/kubernetes/helm/istio
$ helm upgrade --set global.meshExpansion.enabled=true istio .
$ cd -
- If you installed Istio without Helm and Tiller, use
helm template
to update your configuration with the option and reapply withkubectl
:
$ kubectl create namespace istio-system
$ helm template install/kubernetes/helm/istio-init --name istio-init --namespace istio-system | kubectl apply -f -
$ cd install/kubernetes/helm/istio
$ helm template --set global.meshExpansion.enabled=true --namespace istio-system . > istio.yaml
$ kubectl apply -f istio.yaml
$ cd -
When updating configuration with Helm, you can either set the option on the command line, as in our examples, or addit to a .yaml
values file and pass it tothe command with —values
, which is the recommended approach when managing configurations with multiple options. Youcan see some sample values files in your Istio installation’s install/kubernetes/helm/istio
directory and find outmore about customizing Helm charts in the Helm documentation.
- Define the namespace the VM joins. This example uses the
SERVICE_NAMESPACE
environment variable to store the namespace. The value of this variable must match the namespace you use in the configuration files later on.
$ export SERVICE_NAMESPACE="default"
- Determine and store the IP address of the Istio ingress gateway since the mesh expansion machines access Citadel and Pilot through this IP address.
$ export GWIP=$(kubectl get -n istio-system service istio-ingressgateway -o jsonpath='{.status.loadBalancer.ingress[0].ip}')
$ echo $GWIP
35.232.112.158
- Generate a
cluster.env
configuration to deploy in the VMs. This file contains the Kubernetes cluster IP address rangesto intercept and redirect via Envoy. You specify the CIDR range when you install Kubernetes asservicesIpv4Cidr
.Replace$MY_ZONE
and$MY_PROJECT
in the following example commands with the appropriate values to obtain the CIDRafter installation:
$ ISTIO_SERVICE_CIDR=$(gcloud container clusters describe $K8S_CLUSTER --zone $MY_ZONE --project $MY_PROJECT --format "value(servicesIpv4Cidr)")
$ echo -e "ISTIO_CP_AUTH=MUTUAL_TLS\nISTIO_SERVICE_CIDR=$ISTIO_SERVICE_CIDR\n" > cluster.env
- Check the contents of the generated
cluster.env
file. It should be similar to the following example:
$ cat cluster.env
ISTIO_CP_AUTH=MUTUAL_TLS
ISTIO_SERVICE_CIDR=10.55.240.0/20
- If the VM only calls services in the mesh, you can skip this step. Otherwise, add the ports the VM exposesto the
cluster.env
file with the following command. You can change the ports later if necessary.
$ echo "ISTIO_INBOUND_PORTS=3306,8080" >> cluster.env
- Extract the initial keys the service account needs to use on the VMs.
$ kubectl -n $SERVICE_NAMESPACE get secret istio.default \
-o jsonpath='{.data.root-cert\.pem}' |base64 --decode > root-cert.pem
$ kubectl -n $SERVICE_NAMESPACE get secret istio.default \
-o jsonpath='{.data.key\.pem}' |base64 --decode > key.pem
$ kubectl -n $SERVICE_NAMESPACE get secret istio.default \
-o jsonpath='{.data.cert-chain\.pem}' |base64 --decode > cert-chain.pem
Setting up the VM
Next, run the following commands on each machine that you want to add to the mesh:
- Copy the previously created
cluster.env
and*.pem
files to the VM. For example:
$ export GCE_NAME="your-gce-instance"
$ gcloud compute scp --project=${MY_PROJECT} --zone=${MY_ZONE} {key.pem,cert-chain.pem,cluster.env,root-cert.pem} ${GCE_NAME}:~
- Install the Debian package with the Envoy sidecar.
$ gcloud compute ssh --project=${MY_PROJECT} --zone=${MY_ZONE} "${GCE_NAME}"
$ curl -L https://storage.googleapis.com/istio-release/releases/1.4.0/deb/istio-sidecar.deb > istio-sidecar.deb
$ sudo dpkg -i istio-sidecar.deb
- Add the IP address of the Istio gateway to
/etc/hosts
. Revisit the preparing the cluster section to learn how to obtain the IP address.The following example updates the/etc/hosts
file with the Istio gateway address:
$ echo "35.232.112.158 istio-citadel istio-pilot istio-pilot.istio-system" | sudo tee -a /etc/hosts
- Install
root-cert.pem
,key.pem
andcert-chain.pem
under/etc/certs/
.
$ sudo mkdir -p /etc/certs
$ sudo cp {root-cert.pem,cert-chain.pem,key.pem} /etc/certs
- Install
cluster.env
under/var/lib/istio/envoy/
.
$ sudo cp cluster.env /var/lib/istio/envoy
- Transfer ownership of the files in
/etc/certs/
and/var/lib/istio/envoy/
to the Istio proxy.
$ sudo chown -R istio-proxy /etc/certs /var/lib/istio/envoy
- Verify the node agent works:
$ sudo node_agent
....
CSR is approved successfully. Will renew cert in 1079h59m59.84568493s
- Start Istio using
systemctl
.
$ sudo systemctl start istio-auth-node-agent
$ sudo systemctl start istio
Send requests from VM workloads to Kubernetes services
After setup, the machine can access services running in the Kubernetes clusteror on other mesh expansion machines.
The following example shows accessing a service running in the Kubernetes cluster from a mesh expansion VM using/etc/hosts/
, in this case using a service from the Bookinfo example.
- First, on the cluster admin machine get the virtual IP address (
clusterIP
) for the service:
$ kubectl get svc productpage -o jsonpath='{.spec.clusterIP}'
10.55.246.247
- Then on the mesh expansion machine, add the service name and address to its
etc/hosts
file. You can then connect tothe cluster service from the VM, as in the example below:
$ echo "10.55.246.247 productpage.default.svc.cluster.local" | sudo tee -a /etc/hosts
$ curl -v productpage.default.svc.cluster.local:9080
< HTTP/1.1 200 OK
< content-type: text/html; charset=utf-8
< content-length: 1836
< server: envoy
... html content ...
The server: envoy
header indicates that the sidecar intercepted the traffic.
Running services on a mesh expansion machine
- Setup an HTTP server on the VM instance to serve HTTP traffic on port 8080:
$ gcloud compute ssh ${GCE_NAME}
$ python -m SimpleHTTPServer 8080
- Determine the VM instance’s IP address. For example, find the IP addressof the GCE instance with the following commands:
$ export GCE_IP=$(gcloud --format="value(networkInterfaces[0].networkIP)" compute instances describe ${GCE_NAME})
$ echo ${GCE_IP}
- Configure a service entry to enable service discovery for the VM. You can add VM services to the mesh using aservice entry. Service entries let you manually addadditional services to Pilot’s abstract model of the mesh. Once VM services are part of the mesh’s abstract model,other services can find and direct traffic to them. Each service entry configuration contains the IP addresses, ports,and appropriate labels of all VMs exposing a particular service, for example:
$ kubectl -n ${SERVICE_NAMESPACE} apply -f - <<EOF
apiVersion: networking.istio.io/v1alpha3
kind: ServiceEntry
metadata:
name: vmhttp
spec:
hosts:
- vmhttp.${SERVICE_NAMESPACE}.svc.cluster.local
ports:
- number: 8080
name: http
protocol: HTTP
resolution: STATIC
endpoints:
- address: ${GCE_IP}
ports:
http: 8080
labels:
app: vmhttp
version: "v1"
EOF
- The workloads in a Kubernetes cluster need a DNS mapping to resolve the domain names of VM services. Tointegrate the mapping with your own DNS system, use
istioctl register
and creates a Kubernetesselector-less
service, for example:
$ istioctl register -n ${SERVICE_NAMESPACE} vmhttp ${GCE_IP} 8080
Make sure you have already added the istioctl
client to your path, as described in the download page.
- 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
productpage-v1-8fcdcb496-xgkwg 2/2 Running 0 1d
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 vmhttp.${SERVICE_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 tosend traffic to a service running on a VM outside of the cluster and tested thatthe configuration worked.
Cleanup
Run the following commands to remove the expansion VM from the mesh’s abstractmodel.
$ istioctl deregister -n ${SERVICE_NAMESPACE} vmhttp ${GCE_IP}
2019-02-21T22:12:22.023775Z info Deregistered service successfull
$ kubectl delete ServiceEntry vmhttp -n ${SERVICE_NAMESPACE}
serviceentry.networking.istio.io "vmhttp" deleted
Troubleshooting
The following are some basic troubleshooting steps for common mesh expansion issues.
When making requests from a VM to the cluster, ensure you don’t run the requests as
root
oristio-proxy
user. By default, Istio excludes both users from interception.Verify the machine can reach the IP of the all workloads running in the cluster. For example:
$ kubectl get endpoints productpage -o jsonpath='{.subsets[0].addresses[0].ip}'
10.52.39.13
$ curl 10.52.39.13:9080
html output
- Check the status of the node agent and sidecar:
$ sudo systemctl status istio-auth-node-agent
$ sudo systemctl status istio
- Check that the processes are running. The following is an example of the processes you should see on the VM if you run
ps
, filtered foristio
:
$ ps aux | grep istio
root 6941 0.0 0.2 75392 16820 ? Ssl 21:32 0:00 /usr/local/istio/bin/node_agent --logtostderr
root 6955 0.0 0.0 49344 3048 ? Ss 21:32 0:00 su -s /bin/bash -c INSTANCE_IP=10.150.0.5 POD_NAME=demo-vm-1 POD_NAMESPACE=default exec /usr/local/bin/pilot-agent proxy > /var/log/istio/istio.log istio-proxy
istio-p+ 7016 0.0 0.1 215172 12096 ? Ssl 21:32 0:00 /usr/local/bin/pilot-agent proxy
istio-p+ 7094 4.0 0.3 69540 24800 ? Sl 21:32 0:37 /usr/local/bin/envoy -c /etc/istio/proxy/envoy-rev1.json --restart-epoch 1 --drain-time-s 2 --parent-shutdown-time-s 3 --service-cluster istio-proxy --service-node sidecar~10.150.0.5~demo-vm-1.default~default.svc.cluster.local
- Check the Envoy access and error logs:
$ tail /var/log/istio/istio.log
$ tail /var/log/istio/istio.err.log
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