flux2-multi-tenancy

This repository serves as a starting point for managing multi-tenant clusters with Git and Flux v2.

Roles

Platform Admin

• Has cluster admin access to the fleet of clusters
• Has maintainer access to the fleet Git repository
• Manages cluster wide resources (CRDs, controllers, cluster roles, etc)
• Onboards the tenant’s main GitRepository and Kustomization
• Manages tenants by assigning namespaces, service accounts and role binding to the tenant's apps

Tenant

• Has admin access to the namespaces assigned to them by the platform admin
• Has maintainer access to the tenant Git repository and apps repositories
• Manages app deployments with GitRepositories and Kustomizations
• Manages app releases with HelmRepositories and HelmReleases

Repository structure

The platform admin repository contains the following top directories:

• clusters dir contains the Flux configuration per cluster
• infrastructure dir contains common infra tools such as admission controllers, CRDs and cluster-wide polices
• tenants dir contains namespaces, service accounts, role bindings and Flux custom resources for registering tenant repositories

├── clusters
│   ├── production
│   └── staging
├── infrastructure
│   ├── kyverno
│   └── kyverno-policies
└── tenants
    ├── base
    ├── production
    └── staging

A tenant repository contains the following top directories:

• base dir contains HelmRepository and HelmRelease manifests
• staging dir contains HelmRelease Kustomize patches for deploying pre-releases on the staging cluster
• production dir contains HelmRelease Kustomize patches for deploying stable releases on the production cluster

├── base
│   ├── kustomization.yaml
│   ├── podinfo-release.yaml
│   └── podinfo-repository.yaml
├── production
│   ├── kustomization.yaml
│   └── podinfo-values.yaml
└── staging
    ├── kustomization.yaml
    └── podinfo-values.yaml

Onboard tenants

The Flux CLI offers commands to generate the Kubernetes manifests needed to define tenants.

Assuming a platform admin wants to create a tenant named dev-team with access to the apps namespace.

Create the tenant base directory:

mkdir -p ./tenants/base/dev-team

Generate the namespace, service account and role binding for the dev-team:

flux create tenant dev-team --with-namespace=apps \
    --export > ./tenants/base/dev-team/rbac.yaml

Create the sync manifests for the tenant Git repository:

flux create source git dev-team \
    --namespace=apps \
    --url=https://github.com/<org>/<dev-team> \
    --branch=main \
    --export > ./tenants/base/dev-team/sync.yaml

flux create kustomization dev-team \
    --namespace=apps \
    --service-account=dev-team \
    --source=GitRepository/dev-team \
    --path="./" \
    --export >> ./tenants/base/dev-team/sync.yaml

Create the base kustomization.yaml file:

cd ./tenants/base/dev-team/ && kustomize create --autodetect

Create the staging overlay and set the path to the staging dir inside the tenant repository:

cat << EOF | tee ./tenants/staging/dev-team-patch.yaml
apiVersion: kustomize.toolkit.fluxcd.io/v1beta1
kind: Kustomization
metadata:
  name: dev-team
  namespace: apps
spec:
  path: ./staging
EOF

cat << EOF | tee ./tenants/staging/kustomization.yaml
apiVersion: kustomize.config.k8s.io/v1beta1
kind: Kustomization
resources:
  - ../base/dev-team
patchesStrategicMerge:
  - dev-team-patch.yaml
EOF

With the above configuration, the Flux instance running on the staging cluster will clone the dev-team's repository, and it will reconcile the ./staging directory from the tenant's repo using the dev-team service account. Since that service account is restricted to the apps namespace, the dev-team repository must contain Kubernetes objects scoped to the apps namespace only.

Enforce tenant isolation

To enforce tenant isolation, cluster admins must configure Flux to reconcile the Kustomization and HelmRelease kinds by impersonating a service account from the namespace where these objects are created. In order to make the spec.ServiceAccountName field mandatory, you should use a validation webhook, for example Kyverno or OPA Gatekeeper. On cluster bootstrap, you need to configure Flux to deploy the validation webhook and its policies before reconciling the tenants repositories.

Inside the clusters dir we define in which order the infrastructure items, and the tenant workloads are going to be reconciled on the staging and production clusters:

./clusters/
├── production
│   ├── infrastructure.yaml
│   └── tenants.yaml
└── staging
    ├── infrastructure.yaml
    └── tenants.yaml

First we setup the reconciliation of custom resource definitions and their controllers. For this example we'll use Kyverno:

apiVersion: kustomize.toolkit.fluxcd.io/v1beta1
kind: Kustomization
metadata:
  name: kyverno
  namespace: flux-system
spec:
  interval: 10m
  sourceRef:
    kind: GitRepository
    name: flux-system
  path: ./infrastructure/kyverno
  prune: true
  validation: client
  healthChecks:
    - apiVersion: apps/v1
      kind: Deployment
      name: kyverno
      namespace: kyverno

Then we setup cluster policies (Kyverno custom resources) to enforce tenant isolation:

apiVersion: kustomize.toolkit.fluxcd.io/v1beta1
kind: Kustomization
metadata:
  name: kyverno-policies
  namespace: flux-system
spec:
  dependsOn:
    - name: kyverno
  interval: 5m
  sourceRef:
    kind: GitRepository
    name: flux-system
  path: ./infrastructure/kyverno-policies
  prune: true
  validation: client

With dependsOn we tell Flux to install Kyverno before deploying the cluster policies.

And finally we setup the reconciliation for the tenants workloads with:

apiVersion: kustomize.toolkit.fluxcd.io/v1beta1
kind: Kustomization
metadata:
  name: tenants
  namespace: flux-system
spec:
  dependsOn:
    - name: kyverno-policies
  interval: 5m
  sourceRef:
    kind: GitRepository
    name: flux-system
  path: ./tenants/staging
  prune: true
  validation: client

With the above configuration, we ensure that the Kyverno validation webhook will reject Kustomizations and HelmReleases that don't specify a service account name when deployed in a tenant's namespace.

Bootstrap the staging cluster

Install the Flux CLI and fork this repository on your personal GitHub account and export your GitHub access token, username and repo name:

export GITHUB_TOKEN=<your-token>
export GITHUB_USER=<your-username>
export GITHUB_REPO=<repository-name>

Verify that your staging cluster satisfies the prerequisites with:

flux check --pre

Set the kubectl context to your staging cluster and bootstrap Flux:

flux bootstrap github \
    --context=staging \
    --owner=${GITHUB_USER} \
    --repository=${GITHUB_REPO} \
    --branch=main \
    --personal \
    --path=clusters/staging

The bootstrap command commits the manifests for the Flux components in clusters/staging/flux-system dir and creates a deploy key with read-only access on GitHub, so it can pull changes inside the cluster.

Wait for the staging cluster reconciliation to finish:

$ watch flux get kustomization
NAME            	READY  	MESSAGE                                                        	
flux-system     	True   	Applied revision: main/616001c38e7bc81b00ef2c65ac8cfd58140155b8	
kyverno         	Unknown	Reconciliation in progress
kyverno-policies	False  	Dependency 'flux-system/kyverno' is not ready
tenants         	False  	Dependency 'flux-system/kyverno-policies' is not ready

Verify that the tenant Git repository has been cloned:

$ flux -n apps get sources git
NAME    	READY	MESSAGE 
dev-team	True 	Fetched revision: dev-team/ca8ec25405cc03f2f374d2f35f9299d84ced01e4

Verify that the tenant Helm repository index has been downloaded:

$ flux -n apps get sources helm
NAME   	READY	MESSAGE
podinfo	True 	Fetched revision: 2020-10-28T10:09:58.648748663Z

Wait for the demo app to be installed:

$ watch flux -n apps get helmreleases
NAME   	READY	MESSAGE                         	REVISION	SUSPENDED 
podinfo	True 	Release reconciliation succeeded	5.0.3   	False 

Onboard tenants with private repositories

You can configure Flux to connect to a tenant repository using SSH or token-based authentication. The tenant credentials will be stored in the platform admin repository as a Kubernetes secret.

Encrypt Kubernetes secrets in Git

In order to store credentials safely in a Git repository, you can use Mozilla's SOPS CLI to encrypt Kubernetes secrets with OpenPGP or KMS.

Install gnupg and sops:

brew install gnupg sops

Generate a GPG key for Flux without specifying a passphrase and retrieve the GPG key ID:

$ gpg --full-generate-key
Email address: [email protected]

$ gpg --list-secret-keys [email protected]
sec   rsa3072 2020-09-06 [SC]
      1F3D1CED2F865F5E59CA564553241F147E7C5FA4

Create a Kubernetes secret in the flux-system namespace with the GPG private key:

gpg --export-secret-keys \
--armor 1F3D1CED2F865F5E59CA564553241F147E7C5FA4 |
kubectl create secret generic sops-gpg \
--namespace=flux-system \
--from-file=sops.asc=/dev/stdin

You should store the GPG private key in a safe place for disaster recovery, in case you need to rebuild the cluster from scratch. The GPG public key can be shared with the platform team, so anyone with write access to the platform repository can encrypt secrets.

Git over SSH

Generate a Kubernetes secret with the SSH and known host keys:

flux -n apps create secret git dev-team-auth \
    --url=ssh://[email protected]/<org>/<dev-team> \
    --export > ./tenants/base/dev-team/auth.yaml

Print the SSH public key and add it as a read-only deploy key to the dev-team repository:

yq read git-auth.yaml 'data."identity.pub"' | base64 --decode

Git over HTTP/S

Generate a Kubernetes secret with basic auth credentials:

flux -n apps create secret git dev-team-auth \
    --url=https://github.com/<org>/<dev-team> \
    --username=$GITHUB_USERNAME \
    --password=$GITHUB_TOKEN \
    --export > ./tenants/base/dev-team/auth.yaml

The GitHub token must have read-only access to the dev-team repository.

Configure Git authentication

Encrypt the dev-team-auth secret's data field with sops:

sops --encrypt \
    --pgp=1F3D1CED2F865F5E59CA564553241F147E7C5FA4 \
    --encrypted-regex '^(data|stringData)$' \
    --in-place ./tenants/base/dev-team/auth.yaml

Create the sync manifests for the tenant Git repository referencing the git-auth secret:

flux create source git dev-team \
    --namespace=apps \
    --url=https://github.com/<org>/<dev-team> \
    --branch=main \
    --secret-ref=dev-team-auth \
    --export > ./tenants/base/dev-team/sync.yaml

flux create kustomization dev-team \
    --namespace=apps \
    --service-account=dev-team \
    --source=GitRepository/dev-team \
    --path="./" \
    --export >> ./tenants/base/dev-team/sync.yaml

Create the base kustomization.yaml file:

cd ./tenants/base/dev-team/ && kustomize create --autodetect

Configure Flux to decrypt secrets using the sops-gpg key:

flux create kustomization tenants \
  --depends-on=kyverno-policies \
  --source=flux-system \
  --path="./tenants/staging" \
  --prune=true \
  --interval=5m \
  --validation=client \
  --decryption-provider=sops \
  --decryption-secret=sops-gpg \
  --export > ./clusters/staging/tenants.yaml

With the above configuration, the Flux instance running on the staging cluster will:

• create the tenant namespace, service account and role binding
• decrypt the tenant Git credentials using the GPG private key
• create the tenant Git credentials Kubernetes secret in the tenant namespace
• clone the tenant repository using the supplied credentials
• apply the ./staging directory from the tenant's repo using the tenant's service account

Testing

Any change to the Kubernetes manifests or to the repository structure should be validated in CI before a pull request is merged into the main branch and synced on the cluster.

This repository contains the following GitHub CI workflows:

• the test workflow validates the Kubernetes manifests and Kustomize overlays with kubeval
• the e2e workflow starts a Kubernetes cluster in CI and tests the staging setup by running Flux in Kubernetes Kind