197 lines
9.4 KiB
Markdown
197 lines
9.4 KiB
Markdown
---
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title: Learn to use the Pinniped Concierge
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description: See how the Pinniped Concierge works to provide a uniform login flow across different Kubernetes clusters.
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cascade:
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layout: docs
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menu:
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docs:
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name: Concierge with Webhook
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parent: tutorials
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weight: 100
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---
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## Overview
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This tutorial shows how to use the Pinniped Concierge on Kubernetes clusters.
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If you would like to learn how to use the Pinniped Supervisor and Concierge together to
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provided federated identity with a single sign-on user experience to many Kubernetes clusters,
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please instead see this other tutorial:
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- [Concierge with Supervisor: a complete example of every step, demonstrated using GKE clusters]({{< ref "concierge-and-supervisor-demo" >}})
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Installing and trying the Pinniped Concierge on any cluster consists of the following general steps. See the next section below
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for a more specific example of installing onto a local kind cluster, including the exact commands to use for that case.
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1. [Install the Concierge]({{< ref "../howto/install-concierge" >}}).
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1. [Install the Pinniped command-line tool]({{< ref "../howto/install-cli" >}}).
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1. Configure the Concierge with a
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[JWT]({{< ref "../howto/concierge/configure-concierge-jwt" >}}) or
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[webhook]({{< ref "../howto/concierge/configure-concierge-webhook" >}}) authenticator.
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1. Generate a kubeconfig using the Pinniped command-line tool (run `pinniped get kubeconfig --help` for more information).
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1. Run `kubectl` commands using the generated kubeconfig. The Pinniped Concierge will automatically be used for authentication during those commands.
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Please be aware that using the Concierge without the Supervisor is an advanced use case, not the typical use case.
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For example, the Supervisor issues cluster-scoped credentials that cannot be replayed against other clusters,
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so using the Concierge without the Supervisor removes that protection. You might have designed another system to provide
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that protection, but if not then please carefully consider the security implications.
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## Prerequisites
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1. A Kubernetes cluster of a type supported by Pinniped as described in [architecture](/docs/background/architecture).
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Don't have a cluster handy? Consider using [kind](https://kind.sigs.k8s.io/) on your local machine.
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See below for an example of using kind.
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1. An authenticator of a type supported by Pinniped as described in [architecture](/docs/background/architecture).
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Don't have an authenticator of a type supported by Pinniped handy? No problem, there is a demo authenticator
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available. Start by installing local-user-authenticator on the same cluster where you would like to try Pinniped
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by following the directions in [deploy/local-user-authenticator/README.md](https://github.com/vmware-tanzu/pinniped/blob/main/deploy/local-user-authenticator/README.md).
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See below for an example of deploying this on kind.
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1. A kubeconfig where the current context points to the cluster and has administrator-like
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privileges on that cluster.
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## Example of deploying on kind
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[kind](https://kind.sigs.k8s.io) is a tool for creating and managing Kubernetes clusters on your local machine
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which uses Docker containers as the cluster's nodes. This is a convenient way to try out Pinniped on a local
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non-production cluster.
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The following steps deploy the latest release of Pinniped on kind using the local-user-authenticator component
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as the authenticator.
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1. Install the tools required for the following steps.
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- [Install kind](https://kind.sigs.k8s.io/docs/user/quick-start/), if not already installed. For example, `brew install kind` on macOS.
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- kind depends on Docker. If not already installed, [install Docker](https://docs.docker.com/get-docker/), for example `brew cask install docker` on macOS.
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- This demo requires `kubectl`, which comes with Docker, or can be [installed separately](https://kubernetes.io/docs/tasks/tools/install-kubectl/).
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- This demo requires a tool capable of generating a `bcrypt` hash to interact with
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the webhook. The example below uses `htpasswd`, which is installed on most macOS systems, and can be
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installed on some Linux systems via the `apache2-utils` package (for example, `apt-get install
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apache2-utils`).
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1. Create a new Kubernetes cluster using `kind create cluster`. Optionally provide a cluster name using the `--name` flag.
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kind automatically updates your kubeconfig to point to the new cluster as a user with administrator-like permissions.
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1. Deploy the local-user-authenticator app. This is a demo authenticator. In production, you would configure
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an authenticator that works with your real identity provider, and therefore would not need to deploy or configure local-user-authenticator.
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```sh
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kubectl apply -f https://get.pinniped.dev/{{< latestversion >}}/install-local-user-authenticator.yaml
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```
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The `install-local-user-authenticator.yaml` file includes the default deployment options.
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If you would prefer to customize the available options, please
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see [deploy/local-user-authenticator/README.md](https://github.com/vmware-tanzu/pinniped/blob/main/deploy/local-user-authenticator/README.md)
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for instructions on how to deploy using `ytt`.
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1. Create a test user named `pinny-the-seal` in the local-user-authenticator namespace.
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```sh
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kubectl create secret generic pinny-the-seal \
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--namespace local-user-authenticator \
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--from-literal=groups=group1,group2 \
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--from-literal=passwordHash=$(htpasswd -nbBC 10 x password123 | sed -e "s/^x://")
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```
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1. Fetch the auto-generated CA bundle for the local-user-authenticator's HTTP TLS endpoint.
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```sh
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kubectl get secret local-user-authenticator-tls-serving-certificate --namespace local-user-authenticator \
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-o jsonpath={.data.caCertificate} \
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| tee /tmp/local-user-authenticator-ca-base64-encoded
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```
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1. Deploy the Pinniped Concierge.
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```sh
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kubectl apply -f https://get.pinniped.dev/{{< latestversion >}}/install-pinniped-concierge-crds.yaml
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kubectl apply -f https://get.pinniped.dev/{{< latestversion >}}/install-pinniped-concierge-resources.yaml
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```
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The `install-pinniped-concierge-crds.yaml` file contains the Concierge CustomResourceDefinitions.
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These define the custom APIs that you use to configure and interact with the Concierge.
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The `install-pinniped-concierge-resources.yaml` file includes the rest of the Concierge resources with default deployment options.
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If you would prefer to customize the available options, please see the [Concierge installation guide]({{< ref "../howto/install-concierge" >}})
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for instructions on how to deploy using `ytt`.
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1. Create a `WebhookAuthenticator` object to configure the Pinniped Concierge to authenticate using local-user-authenticator.
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```bash
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cat <<EOF | kubectl create -f -
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apiVersion: authentication.concierge.pinniped.dev/v1alpha1
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kind: WebhookAuthenticator
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metadata:
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name: local-user-authenticator
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spec:
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endpoint: https://local-user-authenticator.local-user-authenticator.svc/authenticate
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tls:
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certificateAuthorityData: $(cat /tmp/local-user-authenticator-ca-base64-encoded)
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EOF
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```
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1. Download the latest version of the Pinniped command-line tool for your platform.
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On macOS or Linux, you can do this using Homebrew:
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```sh
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brew install vmware-tanzu/pinniped/pinniped-cli
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```
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On other platforms, see the [command-line installation guide]({{< ref "../howto/install-cli" >}}) for more details.
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1. Generate a kubeconfig for the current cluster. Use `--static-token` to include a token which should
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allow you to authenticate as the user that you created previously.
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```sh
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pinniped get kubeconfig \
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--static-token "pinny-the-seal:password123" \
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--concierge-authenticator-type webhook \
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--concierge-authenticator-name local-user-authenticator \
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> /tmp/pinniped-kubeconfig
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```
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1. Try using the generated kubeconfig to issue arbitrary `kubectl` commands as
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the `pinny-the-seal` user.
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```sh
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kubectl --kubeconfig /tmp/pinniped-kubeconfig \
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get pods -n pinniped-concierge
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```
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Because this user has no RBAC permissions on this cluster, the previous command
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results in the error `Error from server (Forbidden): pods is forbidden: User "pinny-the-seal" cannot list resource "pods" in API group "" in the namespace "pinniped-concierge"`.
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However, this does prove that you are authenticated and acting as the `pinny-the-seal` user.
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1. As the administrator user, create RBAC rules for the test user to give them permissions to perform actions on the cluster.
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For example, grant the test user permission to view all cluster resources.
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```sh
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kubectl create clusterrolebinding pinny-can-read \
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--clusterrole view \
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--user pinny-the-seal
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```
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1. Use the generated kubeconfig to issue arbitrary `kubectl` commands as the `pinny-the-seal` user.
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```sh
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kubectl --kubeconfig /tmp/pinniped-kubeconfig \
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get pods -n pinniped-concierge
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```
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The user has permission to list pods, so the command succeeds this time.
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Pinniped has provided authentication into the cluster for your `kubectl` command. 🎉
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1. Carry on issuing as many `kubectl` commands as you'd like as the `pinny-the-seal` user.
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Each invocation uses Pinniped for authentication.
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You may find it convenient to set the `KUBECONFIG` environment variable rather than passing `--kubeconfig` to each invocation.
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```sh
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export KUBECONFIG=/tmp/pinniped-kubeconfig
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kubectl get namespaces
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kubectl get pods -A
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```
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