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# Kubernetes Ingress Controller
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This guide explains how to use Træfik as an Ingress controller in a Kubernetes cluster.
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If you are not familiar with Ingresses in Kubernetes you might want to read the [Kubernetes user guide ](https://kubernetes.io/docs/concepts/services-networking/ingress/ )
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The config files used in this guide can be found in the [examples directory ](https://github.com/containous/traefik/tree/master/examples/k8s )
## Prerequisites
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1. A working Kubernetes cluster. If you want to follow along with this guide, you should setup [minikube ](https://kubernetes.io/docs/getting-started-guides/minikube/ )
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on your machine, as it is the quickest way to get a local Kubernetes cluster setup for experimentation and development.
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2. The `kubectl` binary should be [installed on your workstation ](https://kubernetes.io/docs/getting-started-guides/minikube/#download-kubectl ).
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### Role Based Access Control configuration (Kubernetes 1.6+ only)
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Kubernetes introduces [Role Based Access Control (RBAC) ](https://kubernetes.io/docs/admin/authorization/rbac/ ) in 1.6+ to allow fine-grained control of Kubernetes resources and API.
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If your cluster is configured with RBAC, you will need to authorize Træfik to use the Kubernetes API. There are two ways to set up the proper permission: Via namespace-specific RoleBindings or a single, global ClusterRoleBinding.
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RoleBindings per namespace enable to restrict granted permissions to the very namespaces only that Træfik is watching over, thereby following the least-privileges principle. This is the preferred approach if Træfik is not supposed to watch all namespaces, and the set of namespaces does not change dynamically. Otherwise, a single ClusterRoleBinding must be employed.
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!!! note
RoleBindings per namespace are available in Træfik 1.5 and later. Please use ClusterRoleBindings for older versions.
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For the sake of simplicity, this guide will use a ClusterRoleBinding:
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```yaml
---
kind: ClusterRole
apiVersion: rbac.authorization.k8s.io/v1beta1
metadata:
name: traefik-ingress-controller
rules:
- apiGroups:
- ""
resources:
- services
- endpoints
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- secrets
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verbs:
- get
- list
- watch
- apiGroups:
- extensions
resources:
- ingresses
verbs:
- get
- list
- watch
---
kind: ClusterRoleBinding
apiVersion: rbac.authorization.k8s.io/v1beta1
metadata:
name: traefik-ingress-controller
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: traefik-ingress-controller
subjects:
- kind: ServiceAccount
name: traefik-ingress-controller
namespace: kube-system
```
[examples/k8s/traefik-rbac.yaml ](https://github.com/containous/traefik/tree/master/examples/k8s/traefik-rbac.yaml )
```shell
kubectl apply -f https://raw.githubusercontent.com/containous/traefik/master/examples/k8s/traefik-rbac.yaml
```
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For namespaced restrictions, one RoleBinding is required per watched namespace along with a corresponding configuration of Træfik's `kubernetes.namespaces` parameter.
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## Deploy Træfik using a Deployment or DaemonSet
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It is possible to use Træfik with a [Deployment ](https://kubernetes.io/docs/concepts/workloads/controllers/deployment/ ) or a [DaemonSet ](https://kubernetes.io/docs/concepts/workloads/controllers/daemonset/ ) object,
whereas both options have their own pros and cons:
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- The scalability is much better when using a Deployment, because you will have a Single-Pod-per-Node model when using the DeaemonSet.
- It is possible to exclusively run a Service on a dedicated set of machines using taints and tolerations with a DaemonSet.
- On the other hand the DaemonSet allows you to access any Node directly on Port 80 and 443, where you have to setup a [Service ](https://kubernetes.io/docs/concepts/services-networking/service/ ) object with a Deployment.
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The Deployment objects looks like this:
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```yaml
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---
apiVersion: v1
kind: ServiceAccount
metadata:
name: traefik-ingress-controller
namespace: kube-system
---
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kind: Deployment
apiVersion: extensions/v1beta1
metadata:
name: traefik-ingress-controller
namespace: kube-system
labels:
k8s-app: traefik-ingress-lb
spec:
replicas: 1
selector:
matchLabels:
k8s-app: traefik-ingress-lb
template:
metadata:
labels:
k8s-app: traefik-ingress-lb
name: traefik-ingress-lb
spec:
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serviceAccountName: traefik-ingress-controller
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terminationGracePeriodSeconds: 60
containers:
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- image: traefik
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name: traefik-ingress-lb
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args:
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- --api
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- --kubernetes
---
kind: Service
apiVersion: v1
metadata:
name: traefik-ingress-service
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namespace: kube-system
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spec:
selector:
k8s-app: traefik-ingress-lb
ports:
- protocol: TCP
port: 80
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name: web
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- protocol: TCP
port: 8080
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name: admin
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type: NodePort
```
[examples/k8s/traefik-deployment.yaml ](https://github.com/containous/traefik/tree/master/examples/k8s/traefik-deployment.yaml )
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!!! note
The Service will expose two NodePorts which allow access to the ingress and the web interface.
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The DaemonSet objects looks not much different:
```yaml
---
apiVersion: v1
kind: ServiceAccount
metadata:
name: traefik-ingress-controller
namespace: kube-system
---
kind: DaemonSet
apiVersion: extensions/v1beta1
metadata:
name: traefik-ingress-controller
namespace: kube-system
labels:
k8s-app: traefik-ingress-lb
spec:
template:
metadata:
labels:
k8s-app: traefik-ingress-lb
name: traefik-ingress-lb
spec:
serviceAccountName: traefik-ingress-controller
terminationGracePeriodSeconds: 60
hostNetwork: true
containers:
- image: traefik
name: traefik-ingress-lb
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ports:
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- name: http
containerPort: 80
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hostPort: 80
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- name: admin
containerPort: 8080
securityContext:
privileged: true
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args:
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- -d
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- --api
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- --kubernetes
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---
kind: Service
apiVersion: v1
metadata:
name: traefik-ingress-service
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namespace: kube-system
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spec:
selector:
k8s-app: traefik-ingress-lb
ports:
- protocol: TCP
port: 80
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name: web
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- protocol: TCP
port: 8080
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name: admin
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type: NodePort
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```
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[examples/k8s/traefik-ds.yaml ](https://github.com/containous/traefik/tree/master/examples/k8s/traefik-ds.yaml )
To deploy Træfik to your cluster start by submitting one of the YAML files to the cluster with `kubectl` :
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```shell
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kubectl apply -f https://raw.githubusercontent.com/containous/traefik/master/examples/k8s/traefik-deployment.yaml
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```
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```shell
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kubectl apply -f https://raw.githubusercontent.com/containous/traefik/master/examples/k8s/traefik-ds.yaml
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```
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There are some significant differences between using Deployments and DaemonSets:
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- The Deployment has easier up and down scaling possibilities.
It can implement full pod lifecycle and supports rolling updates from Kubernetes 1.2.
At least one Pod is needed to run the Deployment.
- The DaemonSet automatically scales to all nodes that meets a specific selector and guarantees to fill nodes one at a time.
Rolling updates are fully supported from Kubernetes 1.7 for DaemonSets as well.
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### Check the Pods
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Now lets check if our command was successful.
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Start by listing the pods in the `kube-system` namespace:
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```shell
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kubectl --namespace=kube-system get pods
```
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```
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NAME READY STATUS RESTARTS AGE
kube-addon-manager-minikubevm 1/1 Running 0 4h
kubernetes-dashboard-s8krj 1/1 Running 0 4h
traefik-ingress-controller-678226159-eqseo 1/1 Running 0 7m
```
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You should see that after submitting the Deployment or DaemonSet to Kubernetes it has launched a Pod, and it is now running.
_It might take a few moments for kubernetes to pull the Træfik image and start the container._
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!!! note
You could also check the deployment with the Kubernetes dashboard, run
`minikube dashboard` to open it in your browser, then choose the `kube-system`
namespace from the menu at the top right of the screen.
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You should now be able to access Træfik on port 80 of your Minikube instance when using the DaemonSet:
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```sh
curl $(minikube ip)
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```
```
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404 page not found
```
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If you decided to use the deployment, then you need to target the correct NodePort, which can be seen when you execute `kubectl get services --namespace=kube-system` .
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```sh
curl $(minikube ip):< NODEPORT >
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```
```
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404 page not found
```
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!!! note
We expect to see a 404 response here as we haven't yet given Træfik any configuration.
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All further examples below assume a DaemonSet installation. Deployment users will need to append the NodePort when constructing requests.
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## Deploy Træfik using Helm Chart
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Instead of installing Træfik via an own object, you can also use the Træfik Helm chart.
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This allows more complex configuration via Kubernetes [ConfigMap ](https://kubernetes.io/docs/tasks/configure-pod-container/configmap/ ) and enabled TLS certificates.
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Install Træfik chart by:
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```shell
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helm install stable/traefik
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```
For more information, check out [the doc ](https://github.com/kubernetes/charts/tree/master/stable/traefik ).
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## Submitting An Ingress to the cluster.
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Lets start by creating a Service and an Ingress that will expose the [Træfik Web UI ](https://github.com/containous/traefik#web-ui ).
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```yaml
apiVersion: v1
kind: Service
metadata:
name: traefik-web-ui
namespace: kube-system
spec:
selector:
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k8s-app: traefik-ingress-lb
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ports:
- port: 80
targetPort: 8080
---
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: traefik-web-ui
namespace: kube-system
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annotations:
kubernetes.io/ingress.class: traefik
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spec:
rules:
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- host: traefik-ui.minikube
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http:
paths:
- backend:
serviceName: traefik-web-ui
servicePort: 80
```
[examples/k8s/ui.yaml ](https://github.com/containous/traefik/tree/master/examples/k8s/ui.yaml )
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```shell
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kubectl apply -f https://raw.githubusercontent.com/containous/traefik/master/examples/k8s/ui.yaml
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```
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Now lets setup an entry in our /etc/hosts file to route `traefik-ui.minikube` to our cluster.
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In production you would want to set up real dns entries.
You can get the ip address of your minikube instance by running `minikube ip`
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```shell
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echo "$(minikube ip) traefik-ui.minikube" | sudo tee -a /etc/hosts
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```
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We should now be able to visit [traefik-ui.minikube ](http://traefik-ui.minikube ) in the browser and view the Træfik Web UI.
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## Basic Authentication
It's possible to add additional authentication annotations in the Ingress rule.
The source of the authentication is a secret that contains usernames and passwords inside the key auth.
To read about basic auth limitations see the [Kubernetes Ingress ](/configuration/backends/kubernetes ) configuration page.
#### Creating the Secret
A. Use `htpasswd` to create a file containing the username and the base64-encoded password:
```shell
htpasswd -c ./auth myusername
```
You will be prompted for a password which you will have to enter twice.
`htpasswd` will create a file with the following:
```shell
cat auth
```
```
myusername:$apr1$78Jyn/1K$ERHKVRPPlzAX8eBtLuvRZ0
```
B. Now use `kubectl` to create a secret in the monitoring namespace using the file created by `htpasswd` .
```shell
kubectl create secret generic mysecret --from-file auth --namespace=monitoring
```
!!! note
Secret must be in same namespace as the ingress rule.
C. Create the ingress using the following annotations to specify basic auth and that the username and password is stored in `mysecret` .
- `ingress.kubernetes.io/auth-type: "basic"`
- `ingress.kubernetes.io/auth-secret: "mysecret"`
Following is a full ingress example based on Prometheus:
```yaml
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: prometheus-dashboard
namespace: monitoring
annotations:
kubernetes.io/ingress.class: traefik
ingress.kubernetes.io/auth-type: "basic"
ingress.kubernetes.io/auth-secret: "mysecret"
spec:
rules:
- host: dashboard.prometheus.example.com
http:
paths:
- backend:
serviceName: prometheus
servicePort: 9090
```
You can apply the example ingress as following:
```shell
kubectl create -f prometheus-ingress.yaml -n monitoring
```
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## Name based routing
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In this example we are going to setup websites for 3 of the United Kingdoms best loved cheeses, Cheddar, Stilton and Wensleydale.
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First lets start by launching the 3 pods for the cheese websites.
```yaml
---
kind: Deployment
apiVersion: extensions/v1beta1
metadata:
name: stilton
labels:
app: cheese
cheese: stilton
spec:
replicas: 2
selector:
matchLabels:
app: cheese
task: stilton
template:
metadata:
labels:
app: cheese
task: stilton
version: v0.0.1
spec:
containers:
- name: cheese
image: errm/cheese:stilton
ports:
- containerPort: 80
---
kind: Deployment
apiVersion: extensions/v1beta1
metadata:
name: cheddar
labels:
app: cheese
cheese: cheddar
spec:
replicas: 2
selector:
matchLabels:
app: cheese
task: cheddar
template:
metadata:
labels:
app: cheese
task: cheddar
version: v0.0.1
spec:
containers:
- name: cheese
image: errm/cheese:cheddar
ports:
- containerPort: 80
---
kind: Deployment
apiVersion: extensions/v1beta1
metadata:
name: wensleydale
labels:
app: cheese
cheese: wensleydale
spec:
replicas: 2
selector:
matchLabels:
app: cheese
task: wensleydale
template:
metadata:
labels:
app: cheese
task: wensleydale
version: v0.0.1
spec:
containers:
- name: cheese
image: errm/cheese:wensleydale
ports:
- containerPort: 80
```
[examples/k8s/cheese-deployments.yaml ](https://github.com/containous/traefik/tree/master/examples/k8s/cheese-deployments.yaml )
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```shell
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kubectl apply -f https://raw.githubusercontent.com/containous/traefik/master/examples/k8s/cheese-deployments.yaml
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```
Next we need to setup a service for each of the cheese pods.
```yaml
---
apiVersion: v1
kind: Service
metadata:
name: stilton
spec:
ports:
- name: http
targetPort: 80
port: 80
selector:
app: cheese
task: stilton
---
apiVersion: v1
kind: Service
metadata:
name: cheddar
spec:
ports:
- name: http
targetPort: 80
port: 80
selector:
app: cheese
task: cheddar
---
apiVersion: v1
kind: Service
metadata:
name: wensleydale
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annotations:
traefik.backend.circuitbreaker: "NetworkErrorRatio() > 0.5"
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spec:
ports:
- name: http
targetPort: 80
port: 80
selector:
app: cheese
task: wensleydale
```
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!!! note
We also set a [circuit breaker expression ](/basics/#backends ) for one of the backends by setting the `traefik.backend.circuitbreaker` annotation on the service.
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[examples/k8s/cheese-services.yaml ](https://github.com/containous/traefik/tree/master/examples/k8s/cheese-services.yaml )
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```shell
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kubectl apply -f https://raw.githubusercontent.com/containous/traefik/master/examples/k8s/cheese-services.yaml
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```
Now we can submit an ingress for the cheese websites.
```yaml
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: cheese
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annotations:
kubernetes.io/ingress.class: traefik
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spec:
rules:
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- host: stilton.minikube
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http:
paths:
- path: /
backend:
serviceName: stilton
servicePort: http
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- host: cheddar.minikube
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http:
paths:
- path: /
backend:
serviceName: cheddar
servicePort: http
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- host: wensleydale.minikube
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http:
paths:
- path: /
backend:
serviceName: wensleydale
servicePort: http
```
[examples/k8s/cheese-ingress.yaml ](https://github.com/containous/traefik/tree/master/examples/k8s/cheese-ingress.yaml )
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!!! note
we list each hostname, and add a backend service.
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```shell
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kubectl apply -f https://raw.githubusercontent.com/containous/traefik/master/examples/k8s/cheese-ingress.yaml
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```
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Now visit the [Træfik dashboard ](http://traefik-ui.minikube/ ) and you should see a frontend for each host.
Along with a backend listing for each service with a Server set up for each pod.
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If you edit your `/etc/hosts` again you should be able to access the cheese websites in your browser.
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```shell
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echo "$(minikube ip) stilton.minikube cheddar.minikube wensleydale.minikube" | sudo tee -a /etc/hosts
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```
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* [Stilton ](http://stilton.minikube/ )
* [Cheddar ](http://cheddar.minikube/ )
* [Wensleydale ](http://wensleydale.minikube/ )
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## Path based routing
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Now lets suppose that our fictional client has decided that while they are super happy about our cheesy web design, when they asked for 3 websites they had not really bargained on having to buy 3 domain names.
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No problem, we say, why don't we reconfigure the sites to host all 3 under one domain.
```yaml
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: cheeses
annotations:
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kubernetes.io/ingress.class: traefik
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traefik.frontend.rule.type: PathPrefixStrip
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spec:
rules:
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- host: cheeses.minikube
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http:
paths:
- path: /stilton
backend:
serviceName: stilton
servicePort: http
- path: /cheddar
backend:
serviceName: cheddar
servicePort: http
- path: /wensleydale
backend:
serviceName: wensleydale
servicePort: http
```
[examples/k8s/cheeses-ingress.yaml ](https://github.com/containous/traefik/tree/master/examples/k8s/cheeses-ingress.yaml )
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!!! note
we are configuring Træfik to strip the prefix from the url path with the `traefik.frontend.rule.type` annotation so that we can use the containers from the previous example without modification.
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```shell
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kubectl apply -f https://raw.githubusercontent.com/containous/traefik/master/examples/k8s/cheeses-ingress.yaml
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```
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```shell
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echo "$(minikube ip) cheeses.minikube" | sudo tee -a /etc/hosts
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```
You should now be able to visit the websites in your browser.
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* [cheeses.minikube/stilton ](http://cheeses.minikube/stilton/ )
* [cheeses.minikube/cheddar ](http://cheeses.minikube/cheddar/ )
* [cheeses.minikube/wensleydale ](http://cheeses.minikube/wensleydale/ )
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## Specifying priority for routing
Sometimes you need to specify priority for ingress route, especially when handling wildcard routes.
This can be done by adding annotation `traefik.frontend.priority` , i.e.:
```yaml
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: wildcard-cheeses
annotations:
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traefik.frontend.priority: "1"
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spec:
rules:
- host: *.minikube
http:
paths:
- path: /
backend:
serviceName: stilton
servicePort: http
kind: Ingress
metadata:
name: specific-cheeses
annotations:
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traefik.frontend.priority: "2"
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spec:
rules:
- host: specific.minikube
http:
paths:
- path: /
backend:
serviceName: stilton
servicePort: http
```
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Note that priority values must be quoted to avoid them being interpreted as numbers (which are illegal for annotations).
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## Forwarding to ExternalNames
When specifying an [ExternalName ](https://kubernetes.io/docs/concepts/services-networking/service/#services-without-selectors ),
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Træfik will forward requests to the given host accordingly and use HTTPS when the Service port matches 443.
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This still requires setting up a proper port mapping on the Service from the Ingress port to the (external) Service port.
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## Disable passing the Host header
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By default Træfik will pass the incoming Host header on to the upstream resource.
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There are times however where you may not want this to be the case.
For example if your service is of the ExternalName type.
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### Disable entirely
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Add the following to your toml config:
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```toml
disablePassHostHeaders = true
```
### Disable per ingress
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To disable passing the Host header per ingress resource set the `traefik.frontend.passHostHeader` annotation on your ingress to `false` .
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Here is an example ingress definition:
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```yaml
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: example
annotations:
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kubernetes.io/ingress.class: traefik
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traefik.frontend.passHostHeader: "false"
spec:
rules:
- host: example.com
http:
paths:
- path: /static
backend:
serviceName: static
servicePort: https
```
And an example service definition:
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```yaml
apiVersion: v1
kind: Service
metadata:
name: static
spec:
ports:
- name: https
port: 443
type: ExternalName
externalName: static.otherdomain.com
```
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If you were to visit `example.com/static` the request would then be passed onto `static.otherdomain.com/static` and s`tatic.otherdomain.com` would receive the request with the Host header being `static.otherdomain.com` .
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!!! note
The per ingress annotation overides whatever the global value is set to.
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So you could set `disablePassHostHeaders` to `true` in your toml file and then enable passing
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the host header per ingress if you wanted.
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## Partitioning the Ingress object space
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By default, Træfik processes every Ingress objects it observes. At times, however, it may be desirable to ignore certain objects. The following sub-sections describe common use cases and how they can be handled with Træfik.
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### Between Træfik and other Ingress controller implementations
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Sometimes Træfik runs along other Ingress controller implementations. One such example is when both Træfik and a cloud provider Ingress controller are active.
The `kubernetes.io/ingress.class` annotation can be attached to any Ingress object in order to control whether Træfik should handle it.
If the annotation is missing, contains an empty value, or the value `traefik` , then the Træfik controller will take responsibility and process the associated Ingress object. If the annotation contains any other value (usually the name of a different Ingress controller), Træfik will ignore the object.
### Between multiple Træfik Deployments
Sometimes multiple Træfik Deployments are supposed to run concurrently. For instance, it is conceivable to have one Deployment deal with internal and another one with external traffic.
For such cases, it is advisable to classify Ingress objects through a label and configure the `labelSelector` option per each Træfik Deployment accordingly. To stick with the internal/external example above, all Ingress objects meant for internal traffic could receive a `traffic-type: internal` label while objects designated for external traffic receive a `traffic-type: external` label. The label selectors on the Træfik Deployments would then be `traffic-type=internal` and `traffic-type=external` , respectively.
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## Production advice
### Resource limitations
The examples shown deliberately do not specify any [resource limitations ](https://kubernetes.io/docs/concepts/configuration/manage-compute-resources-container/ ) as there is no one size fits all.
In a production environment, however, it is important to set proper bounds, especially with regards to CPU:
- too strict and Traefik will be throttled while serving requests (as Kubernetes imposes hard quotas)
- too loose and Traefik may waste resources not available for other containers
When in doubt, you should measure your resource needs, and adjust requests and limits accordingly.