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324 lines
15 KiB
Markdown
324 lines
15 KiB
Markdown
<!-- BEGIN MUNGE: UNVERSIONED_WARNING -->
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<!-- BEGIN STRIP_FOR_RELEASE -->
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<img src="http://kubernetes.io/img/warning.png" alt="WARNING"
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width="25" height="25">
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<img src="http://kubernetes.io/img/warning.png" alt="WARNING"
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width="25" height="25">
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<img src="http://kubernetes.io/img/warning.png" alt="WARNING"
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width="25" height="25">
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<img src="http://kubernetes.io/img/warning.png" alt="WARNING"
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width="25" height="25">
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<img src="http://kubernetes.io/img/warning.png" alt="WARNING"
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width="25" height="25">
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<h2>PLEASE NOTE: This document applies to the HEAD of the source tree</h2>
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If you are using a released version of Kubernetes, you should
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refer to the docs that go with that version.
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<strong>
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The latest release of this document can be found
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[here](http://releases.k8s.io/release-1.1/docs/user-guide/accessing-the-cluster.md).
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Documentation for other releases can be found at
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[releases.k8s.io](http://releases.k8s.io).
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</strong>
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--
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<!-- END STRIP_FOR_RELEASE -->
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<!-- END MUNGE: UNVERSIONED_WARNING -->
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# User Guide to Accessing the Cluster
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**Table of Contents**
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<!-- BEGIN MUNGE: GENERATED_TOC -->
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- [User Guide to Accessing the Cluster](#user-guide-to-accessing-the-cluster)
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- [Accessing the cluster API](#accessing-the-cluster-api)
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- [Accessing for the first time with kubectl](#accessing-for-the-first-time-with-kubectl)
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- [Directly accessing the REST API](#directly-accessing-the-rest-api)
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- [Using kubectl proxy](#using-kubectl-proxy)
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- [Without kubectl proxy](#without-kubectl-proxy)
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- [Programmatic access to the API](#programmatic-access-to-the-api)
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- [Accessing the API from a Pod](#accessing-the-api-from-a-pod)
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- [Accessing services running on the cluster](#accessing-services-running-on-the-cluster)
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- [Ways to connect](#ways-to-connect)
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- [Discovering builtin services](#discovering-builtin-services)
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- [Manually constructing apiserver proxy URLs](#manually-constructing-apiserver-proxy-urls)
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- [Examples](#examples)
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- [Using web browsers to access services running on the cluster](#using-web-browsers-to-access-services-running-on-the-cluster)
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- [Requesting redirects](#requesting-redirects)
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- [So Many Proxies](#so-many-proxies)
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<!-- END MUNGE: GENERATED_TOC -->
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## Accessing the cluster API
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### Accessing for the first time with kubectl
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When accessing the Kubernetes API for the first time, we suggest using the
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Kubernetes CLI, `kubectl`.
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To access a cluster, you need to know the location of the cluster and have credentials
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to access it. Typically, this is automatically set-up when you work through
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though a [Getting started guide](../getting-started-guides/README.md),
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or someone else setup the cluster and provided you with credentials and a location.
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Check the location and credentials that kubectl knows about with this command:
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```console
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$ kubectl config view
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```
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Many of the [examples](../../examples/) provide an introduction to using
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kubectl and complete documentation is found in the [kubectl manual](kubectl/kubectl.md).
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### Directly accessing the REST API
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Kubectl handles locating and authenticating to the apiserver.
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If you want to directly access the REST API with an http client like
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curl or wget, or a browser, there are several ways to locate and authenticate:
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- Run kubectl in proxy mode.
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- Recommended approach.
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- Uses stored apiserver location.
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- Verifies identity of apiserver using self-signed cert. No MITM possible.
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- Authenticates to apiserver.
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- In future, may do intelligent client-side load-balancing and failover.
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- Provide the location and credentials directly to the http client.
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- Alternate approach.
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- Works with some types of client code that are confused by using a proxy.
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- Need to import a root cert into your browser to protect against MITM.
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#### Using kubectl proxy
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The following command runs kubectl in a mode where it acts as a reverse proxy. It handles
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locating the apiserver and authenticating.
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Run it like this:
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```console
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$ kubectl proxy --port=8080 &
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```
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See [kubectl proxy](kubectl/kubectl_proxy.md) for more details.
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Then you can explore the API with curl, wget, or a browser, like so:
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```console
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$ curl http://localhost:8080/api/
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{
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"versions": [
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"v1"
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]
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}
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```
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#### Without kubectl proxy
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It is also possible to avoid using kubectl proxy by passing an authentication token
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directly to the apiserver, like this:
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```console
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$ APISERVER=$(kubectl config view | grep server | cut -f 2- -d ":" | tr -d " ")
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$ TOKEN=$(kubectl config view | grep token | cut -f 2 -d ":" | tr -d " ")
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$ curl $APISERVER/api --header "Authorization: Bearer $TOKEN" --insecure
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{
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"versions": [
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"v1"
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]
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}
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```
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The above example uses the `--insecure` flag. This leaves it subject to MITM
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attacks. When kubectl accesses the cluster it uses a stored root certificate
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and client certificates to access the server. (These are installed in the
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`~/.kube` directory). Since cluster certificates are typically self-signed, it
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may take special configuration to get your http client to use root
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certificate.
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On some clusters, the apiserver does not require authentication; it may serve
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on localhost, or be protected by a firewall. There is not a standard
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for this. [Configuring Access to the API](../admin/accessing-the-api.md)
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describes how a cluster admin can configure this. Such approaches may conflict
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with future high-availability support.
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### Programmatic access to the API
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There are [client libraries](../devel/client-libraries.md) for accessing the API
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from several languages. The Kubernetes project-supported
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[Go](http://releases.k8s.io/HEAD/pkg/client/)
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client library can use the same [kubeconfig file](kubeconfig-file.md)
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as the kubectl CLI does to locate and authenticate to the apiserver.
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See documentation for other libraries for how they authenticate.
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### Accessing the API from a Pod
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When accessing the API from a pod, locating and authenticating
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to the api server are somewhat different.
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The recommended way to locate the apiserver within the pod is with
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the `kubernetes` DNS name, which resolves to a Service IP which in turn
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will be routed to an apiserver.
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The recommended way to authenticate to the apiserver is with a
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[service account](service-accounts.md) credential. By kube-system, a pod
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is associated with a service account, and a credential (token) for that
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service account is placed into the filesystem tree of each container in that pod,
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at `/var/run/secrets/kubernetes.io/serviceaccount/token`.
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From within a pod the recommended ways to connect to API are:
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- run a kubectl proxy as one of the containers in the pod, or as a background
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process within a container. This proxies the
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Kubernetes API to the localhost interface of the pod, so that other processes
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in any container of the pod can access it. See this [example of using kubectl proxy
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in a pod](../../examples/kubectl-container/).
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- use the Go client library, and create a client using the `client.NewInCluster()` factory.
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This handles locating and authenticating to the apiserver.
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In each case, the credentials of the pod are used to communicate securely with the apiserver.
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## Accessing services running on the cluster
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The previous section was about connecting the Kubernetes API server. This section is about
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connecting to other services running on Kubernetes cluster. In Kubernetes, the
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[nodes](../admin/node.md), [pods](pods.md) and [services](services.md) all have
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their own IPs. In many cases, the node IPs, pod IPs, and some service IPs on a cluster will not be
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routable, so they will not be reachable from a machine outside the cluster,
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such as your desktop machine.
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### Ways to connect
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You have several options for connecting to nodes, pods and services from outside the cluster:
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- Access services through public IPs.
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- Use a service with type `NodePort` or `LoadBalancer` to make the service reachable outside
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the cluster. See the [services](services.md) and
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[kubectl expose](kubectl/kubectl_expose.md) documentation.
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- Depending on your cluster environment, this may just expose the service to your corporate network,
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or it may expose it to the internet. Think about whether the service being exposed is secure.
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Does it do its own authentication?
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- Place pods behind services. To access one specific pod from a set of replicas, such as for debugging,
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place a unique label on the pod it and create a new service which selects this label.
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- In most cases, it should not be necessary for application developer to directly access
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nodes via their nodeIPs.
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- Access services, nodes, or pods using the Proxy Verb.
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- Does apiserver authentication and authorization prior to accessing the remote service.
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Use this if the services are not secure enough to expose to the internet, or to gain
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access to ports on the node IP, or for debugging.
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- Proxies may cause problems for some web applications.
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- Only works for HTTP/HTTPS.
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- Described [here](#discovering-builtin-services).
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- Access from a node or pod in the cluster.
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- Run a pod, and then connect to a shell in it using [kubectl exec](kubectl/kubectl_exec.md).
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Connect to other nodes, pods, and services from that shell.
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- Some clusters may allow you to ssh to a node in the cluster. From there you may be able to
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access cluster services. This is a non-standard method, and will work on some clusters but
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not others. Browsers and other tools may or may not be installed. Cluster DNS may not work.
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### Discovering builtin services
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Typically, there are several services which are started on a cluster by kube-system. Get a list of these
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with the `kubectl cluster-info` command:
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```console
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$ kubectl cluster-info
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Kubernetes master is running at https://104.197.5.247
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elasticsearch-logging is running at https://104.197.5.247/api/v1/proxy/namespaces/kube-system/services/elasticsearch-logging
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kibana-logging is running at https://104.197.5.247/api/v1/proxy/namespaces/kube-system/services/kibana-logging
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kube-dns is running at https://104.197.5.247/api/v1/proxy/namespaces/kube-system/services/kube-dns
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grafana is running at https://104.197.5.247/api/v1/proxy/namespaces/kube-system/services/monitoring-grafana
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heapster is running at https://104.197.5.247/api/v1/proxy/namespaces/kube-system/services/monitoring-heapster
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```
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This shows the proxy-verb URL for accessing each service.
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For example, this cluster has cluster-level logging enabled (using Elasticsearch), which can be reached
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at `https://104.197.5.247/api/v1/proxy/namespaces/kube-system/services/elasticsearch-logging/` if suitable credentials are passed, or through a kubectl proxy at, for example:
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`http://localhost:8080/api/v1/proxy/namespaces/kube-system/services/elasticsearch-logging/`.
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(See [above](#accessing-the-cluster-api) for how to pass credentials or use kubectl proxy.)
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#### Manually constructing apiserver proxy URLs
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As mentioned above, you use the `kubectl cluster-info` command to retrieve the service's proxy URL. To create proxy URLs that include service endpoints, suffixes, and parameters, you simply append to the service's proxy URL:
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`http://`*`kubernetes_master_address`*`/`*`service_path`*`/`*`service_name`*`/`*`service_endpoint-suffix-parameter`*
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<!--- TODO: update this part of doc because it doesn't seem to be valid. What
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about namespaces? 'proxy' verb? -->
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##### Examples
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* To access the Elasticsearch service endpoint `_search?q=user:kimchy`, you would use: `http://104.197.5.247/api/v1/proxy/namespaces/kube-system/services/elasticsearch-logging/_search?q=user:kimchy`
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* To access the Elasticsearch cluster health information `_cluster/health?pretty=true`, you would use: `https://104.197.5.247/api/v1/proxy/namespaces/kube-system/services/elasticsearch-logging/_cluster/health?pretty=true`
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```json
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{
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"cluster_name" : "kubernetes_logging",
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"status" : "yellow",
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"timed_out" : false,
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"number_of_nodes" : 1,
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"number_of_data_nodes" : 1,
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"active_primary_shards" : 5,
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"active_shards" : 5,
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"relocating_shards" : 0,
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"initializing_shards" : 0,
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"unassigned_shards" : 5
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}
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```
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#### Using web browsers to access services running on the cluster
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You may be able to put an apiserver proxy url into the address bar of a browser. However:
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- Web browsers cannot usually pass tokens, so you may need to use basic (password) auth. Apiserver can be configured to accept basic auth,
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but your cluster may not be configured to accept basic auth.
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- Some web apps may not work, particularly those with client side javascript that construct urls in a
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way that is unaware of the proxy path prefix.
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## Requesting redirects
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The redirect capabilities have been deprecated and removed. Please use a proxy (see below) instead.
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## So Many Proxies
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There are several different proxies you may encounter when using Kubernetes:
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1. The [kubectl proxy](#directly-accessing-the-rest-api):
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- runs on a user's desktop or in a pod
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- proxies from a localhost address to the Kubernetes apiserver
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- client to proxy uses HTTP
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- proxy to apiserver uses HTTPS
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- locates apiserver
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- adds authentication headers
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1. The [apiserver proxy](#discovering-builtin-services):
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- is a bastion built into the apiserver
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- connects a user outside of the cluster to cluster IPs which otherwise might not be reachable
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- runs in the apiserver processes
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- client to proxy uses HTTPS (or http if apiserver so configured)
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- proxy to target may use HTTP or HTTPS as chosen by proxy using available information
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- can be used to reach a Node, Pod, or Service
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- does load balancing when used to reach a Service
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1. The [kube proxy](services.md#ips-and-vips):
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- runs on each node
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- proxies UDP and TCP
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- does not understand HTTP
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- provides load balancing
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- is just used to reach services
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1. A Proxy/Load-balancer in front of apiserver(s):
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- existence and implementation varies from cluster to cluster (e.g. nginx)
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- sits between all clients and one or more apiservers
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- acts as load balancer if there are several apiservers.
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1. Cloud Load Balancers on external services:
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- are provided by some cloud providers (e.g. AWS ELB, Google Cloud Load Balancer)
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- are created automatically when the Kubernetes service has type `LoadBalancer`
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- use UDP/TCP only
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- implementation varies by cloud provider.
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Kubernetes users will typically not need to worry about anything other than the first two types. The cluster admin
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will typically ensure that the latter types are setup correctly.
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[]()
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<!-- END MUNGE: GENERATED_ANALYTICS -->
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