125 lines
6.0 KiB
Markdown
125 lines
6.0 KiB
Markdown
# Kubernetes authentication through dex
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## Overview
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This document covers setting up the [Kubernetes OpenID Connect token authenticator plugin][k8s-oidc] with dex.
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Token responses from OpenID Connect providers include a signed JWT called an ID Token. ID Tokens contain names, emails, unique identifiers, and in dex's case, a set of groups that can be used to identify the user. OpenID Connect providers, like dex, publish public keys; the Kubernetes API server understands how to use these to verify ID Tokens.
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The authentication flow looks like:
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1. OAuth2 client logs a user in through dex.
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2. That client uses the returned ID Token as a bearer token when talking to the Kubernetes API.
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3. Kubernetes uses dex's public keys to verify the ID Token.
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4. A claim designated as the username (and optionally group information) will be associated with that request.
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Username and group information can be combined with Kubernetes [authorization plugins][k8s-authz], such as roles based access control (RBAC), to enforce policy.
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## Configuring the OpenID Connect plugin
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Configuring the API server to use the OpenID Connect [authentication plugin][k8s-oidc] requires:
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* Deploying an API server with specific flags.
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* Dex is running on HTTPS.
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* Custom CA files must be accessible by the API server (likely through volume mounts).
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* Dex is accessible to both your browser and the Kubernetes API server.
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Use the following flags to point your API server(s) at dex. `dex.example.com` should be replaced by whatever DNS name or IP address dex is running under.
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```
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--oidc-issuer-url=https://dex.example.com:32000
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--oidc-client-id=example-app
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--oidc-ca-file=/etc/kubernetes/ssl/openid-ca.pem
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--oidc-username-claim=email
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--oidc-groups-claim=groups
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```
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Additional notes:
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* The API server configured with OpenID Connect flags doesn't require dex to be available upfront.
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* Other authenticators, such as client certs, can still be used.
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* Dex doesn't need to be running when you start your API server.
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* Kubernetes only trusts ID Tokens issued to a single client.
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* As a work around dex allows clients to [trust other clients][trusted-peers] to mint tokens on their behalf.
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* If a claim other than "email" is used for username, for example "sub", it will be prefixed by `"(value of --oidc-issuer-url)#"`. This is to namespace user controlled claims which may be used for privilege escalation.
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## Deploying dex on Kubernetes
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The dex repo contains scripts for running dex on a Kubernetes cluster with authentication through GitHub. The dex service is exposed using a [node port][node-port] on port 32000. This likely requires a custom `/etc/hosts` entry pointed at one of the cluster's workers.
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Because dex uses `ThirdPartyResources` to store state, no external database is needed. For more details see the [storage documentation](storage.md#kubernetes-third-party-resources).
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There are many different ways to spin up a Kubernetes development cluster, each with different host requirements and support for API server reconfiguration. At this time, this guide does not have copy-pastable examples, but can recommend the following methods for spinning up a cluster:
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* [coreos-kubernetes][coreos-kubernetes] repo for vagrant and VirtualBox users.
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* [coreos-baremetal][coreos-baremetal] repo for Linux QEMU/KVM users.
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To run dex on Kubernetes perform the following steps:
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1. Generate TLS assets for dex.
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2. Spin up a Kubernetes cluster with the appropriate flags and CA volume mount.
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3. Create a secret containing your [GitHub OAuth2 client credentials][github-oauth2].
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4. Deploy dex.
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The TLS assets can be created using the following command:
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```
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$ cd examles/k8s
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$ ./gencert.sh
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```
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The created `ssl/ca.pem` must then be mounted into your API server deployment. Once the cluster is up and correctly configured, use kubectl to add the serving certs as secrets.
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```
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$ kubectl create secret tls dex.example.com.tls --cert=ssl/cert.pem --key=ssl/key.pem
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```
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Then create a secret for the GitHub OAuth2 client.
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```
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$ kubectl create secret \
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generic github-client \
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--from-literal=client-id=$GITHUB_CLIENT_ID \
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--from-literal=client-secret=$GITHUB_CLIENT_SECRET
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```
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Finally, create the dex deployment, configmap, and node port service.
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```
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$ kubectl create -f dex.yaml
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```
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__Caveats:__ No health checking is configured because dex does its own TLS termination complicating the setup. This is a known issue and can be tracked [here][dex-healthz].
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## Logging into the cluster
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The `example-app` can be used to log into the cluster and get an ID Token. To build the app, you can run `make` in the root of the repo and it will build the `example-app` binary in the repo's `bin` directory. To build the `example-app` requires at least a 1.7 version of Go.
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```
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$ ./bin/example-app --issuer https://dex.example.com:32000 --issuer-root-ca examples/k8s/ssl/ca.pem
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```
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Please note that the `example-app` will listen at http://127.0.0.1:5555 and can be changed with the `--listen` flag.
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Once the example app is running, choose the GitHub option and grant access to dex to view your profile.
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The default redirect uri is http://127.0.0.1:5555/callback and can be changed with the `--redirect-uri` flag and should correspond with your configmap.
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The printed ID Token can then be used as a bearer token to authenticate against the API server.
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```
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$ token='(id token)'
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$ curl -H "Authorization: Bearer $token" -k https://( API server host ):443/api/v1/nodes
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```
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[k8s-authz]: http://kubernetes.io/docs/admin/authorization/
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[k8s-oidc]: http://kubernetes.io/docs/admin/authentication/#openid-connect-tokens
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[trusted-peers]: https://godoc.org/github.com/coreos/dex/storage#Client
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[coreos-kubernetes]: https://github.com/coreos/coreos-kubernetes/
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[coreos-baremetal]: https://github.com/coreos/coreos-baremetal/
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[dex-healthz]: https://github.com/coreos/dex/issues/682
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[github-oauth2]: https://github.com/settings/applications/new
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[node-port]: http://kubernetes.io/docs/user-guide/services/#type-nodeport
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[coreos-kubernetes]: https://github.com/coreos/coreos-kubernetes
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[coreos-baremetal]: https://github.com/coreos/coreos-baremetal
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