64eeececde
- Consolidate files - Update to Deployments - Use Ingress, add ingress controller help in README - Remove hardcoded namespace in postgres URI - Remove hardcoded IP addresses - Add readinessProbes
121 lines
5.2 KiB
Markdown
121 lines
5.2 KiB
Markdown
# Deploying dex on Kubernetes
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This document will allow you to set up dex in your Kubernetes cluster; the example configuration files are generally useful, but will need to be modified to meet the needs of your deployment. The places that are likely to need modification will be called out as often as possible in this document.
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## Prerequisites and Assumptions
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The document assumes that you already have a cluster with at least one worker up and running. The easiest way to bring up a small cluster for experimentation is the [coreos-kubernetes single node](coreos-kubernetes-single-node) Vagrant installer.
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The other assumption is that your Kubernetes cluster will be running an appropriate Ingress controller for your environment (see below, or for more advanced or cloud-specific options, see [the Kubernetes Ingress Docs](http://kubernetes.io/docs/user-guide/ingress/#ingress-controllers)).
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Additionally, make sure that a `dex.example.com` DNS or `/etc/hosts` entry has been made pointing to the ingress controller Node IP(s).
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[coreos-kubernetes-single-node](https://github.com/coreos/coreos-kubernetes/blob/master/single-node/README.md)
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## Create Ingress Controller
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If you do not already have an ingress controller in place, and if you'd like to use the latest kubernetes/contrib nginx ingress controller, simply run the following:
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```bash
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kubectl apply -f https://raw.githubusercontent.com/kubernetes/contrib/master/ingress/controllers/nginx/rc.yaml
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```
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## Start Postgres
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Dex needs a database to store information; these commands will create a Postgres service that dex can use. Note that this configuration is not suitable for production - if the container is destroyed, the data is gone forever.
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In production you should have a sufficiently fault-tolerant and secure (TLS enabled) Postgres deployment on a persistent volume with backup.
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```bash
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kubectl apply -f postgres.yaml
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```
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## Create your secrets.
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dex needs a secret key for encrypting private keys in the database. These can be stored as [Kubernetes secrets][k8s-secrets].
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[k8s-secrets]: http://kubernetes.io/v1.0/docs/user-guide/secrets.html
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The secret will be created as part of the next command, from `dex-overlord.yaml`
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If you would like to set up your own secret, you can do the following:
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```bash
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# For a real secret (i.e. not checked into this public repo), run the following
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# and comment out the secret in the dex-overlord.yaml file.
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dd if=/dev/random bs=1 count=32 2>/dev/null | base64 | tr -d '\n' | \
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kubectl create secret generic dex --from-file=key-secrets=/dev/stdin
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```
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## Start the Overlord
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Start the overlord. This will also initialize your database the first time it's run, and perform migrations when new versions are installed.
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```bash
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kubectl apply -f dex-overlord.yaml
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```
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Note: this will make the admin API available to any pod in the cluster. This API is very powerful, and allows the creation of admin users who can perform any action in dex, including creating, modifying and deleting other users. This will be fixed soon by requirng some sort of authentication.
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## Add a Connector
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This is bit of a hack; right now the only way to add connectors and register
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your first client is to use the `dexctl` tool talking directly to the
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database. Because the database is only routable inside the cluster, we do it
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inside a pod via `kubectl exec`. (note that if your DB is not running on the cluster, you can run the dexctl command directly against your database.)
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The other hacky thing is that this needs to happen before the workers start because workers do not (yet!) respond dynamically to connector configuration changes.
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First, start a shell session on the overlord pod.
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Once we're on the pod, we create a connectors file and upload it to dex.
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```bash
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DEX_OVERLORD_POD=$(kubectl get pod -l=app=dex,role=overlord -o template --template "{{ (index .items 0).metadata.name }}")
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kubectl exec $DEX_OVERLORD_POD -- /opt/dex/bin/dexctl --db-url='postgres://postgres@dex-postgres:5432/postgres?sslmode=disable' set-connector-configs '/etc/dex-connectors/connector.json'
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```
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## Start the Worker
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Start the worker. The worker is exposed as an external service so that end-users can access it.
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```bash
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kubectl apply -f dex-worker.yaml
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```
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## [Create a client](https://github.com/coreos/dex#registering-clients)
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We then `eval` that which creates the shell variables `DEX_APP_CLIENT_ID` and `DEX_APP_CLIENT_SECRET`
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```bash
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CALLBACK_URL='http://127.0.0.1:5555/callback'
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eval "$(kubectl exec $DEX_OVERLORD_POD -- /opt/dex/bin/dexctl --db-url='postgres://postgres@dex-postgres:5432/postgres?sslmode=disable' new-client $CALLBACK_URL )"
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```
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## Build and Run the Example App
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First, go to the root of the dex repo:
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```bash
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cd $GOPATH/src/github.com/coreos/dex
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```
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Now, build and run the example app.
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```bash
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./build
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./bin/example-app --client-id=$DEX_APP_CLIENT_ID --client-secret=$DEX_APP_CLIENT_SECRET --discovery=http://dex.example.com
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```
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Now you can register and log-in to your example app: Go to http://127.0.0.1:5555
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## Debugging
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### psql
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Here's how to get psql session.
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```bash
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DEX_PSQL_POD=$(kubectl get pod -l=app=postgres -o template --template "{{ (index .items 0).metadata.name }}")
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kubectl exec $DEX_PSQL_POD -ti -- psql 'postgres://postgres@dex-postgres:5432/postgres?sslmode=disable'
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```
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