9.6 KiB
Get started with Flux v2
!!! note "Basic knowledge" This guide assumes you have some understanding of the core concepts and have read the introduction to Flux. The core concepts used in this guide are GitOps, Sources, Kustomization.
In this tutorial, you will deploy an application to a kubernetes cluster with Flux
and manage the cluster in a complete GitOps manner.
You'll be using a dedicated Git repository e.g. fleet-infra
to manage your Kubernetes clusters.
Prerequisites
In order to follow the guide, you will need a Kubernetes cluster version 1.16 or newer and kubectl version 1.18. For a quick local test, you can use Kubernetes kind. Any other Kubernetes setup will work as well though.
Flux is installed in a GitOps way and its manifest will be pushed to the repository,
so you will also need a GitHub account and a
personal access token
that can create repositories (check all permissions under repo
) to enable Flux do this.
Export your GitHub personal access token and username:
export GITHUB_TOKEN=<your-token>
export GITHUB_USER=<your-username>
Install the Flux CLI
To install the latest flux
release on MacOS and Linux using
Homebrew run:
brew install fluxcd/tap/flux
Or install flux
by downloading precompiled binaries using a Bash script:
curl -s https://toolkit.fluxcd.io/install.sh | sudo bash
The install script downloads the flux binary to /usr/local/bin
.
If using Arch Linux, install the latest stable version from AUR using either flux-bin (pre-built binary) or flux-go (locally built binary).
Binaries for macOS, Windows and Linux AMD64/ARM are available for download on the release page.
To configure your shell to load flux
bash completions add to your profile:
# ~/.bashrc or ~/.bash_profile
. <(flux completion bash)
zsh
, fish
, and powershell
are also supported with their own sub-commands.
Install Flux components
Create the cluster using Kubernetes kind or set the kubectl context to an existing cluster:
kind create cluster
kubectl cluster-info
Verify that your staging cluster satisfies the prerequisites with:
$ flux check --pre
► checking prerequisites
✔ kubectl 1.18.3 >=1.18.0
✔ kubernetes 1.18.2 >=1.16.0
✔ prerequisites checks passed
Run the bootstrap command:
flux bootstrap github \
--owner=$GITHUB_USER \
--repository=fleet-infra \
--branch=main \
--path=./clusters/my-cluster \
--personal
!!! hint "Multi-arch images"
The component images are published as multi-arch container images
with support for Linux amd64
, arm64
and armv7
(e.g. 32bit Raspberry Pi)
architectures.
The bootstrap command creates a repository if one doesn't exist, commits the manifests for the Flux components to the default branch at the specified path, and installs the Flux components. Then it configures the target cluster to synchronize with the specified path inside the repository.
If you wish to create the repository under a GitHub organization:
flux bootstrap github \
--owner=<organization> \
--repository=<repo-name> \
--branch=<organization default branch> \
--team=<team1-slug> \
--team=<team2-slug> \
--path=./clusters/my-cluster
Example output:
$ flux bootstrap github --owner=gitopsrun --team=devs --repository=fleet-infra --path=./clusters/my-cluster
► connecting to github.com
✔ repository created
✔ devs team access granted
✔ repository cloned
✚ generating manifests
✔ components manifests pushed
► installing components in flux-system namespace
deployment "source-controller" successfully rolled out
deployment "kustomize-controller" successfully rolled out
deployment "helm-controller" successfully rolled out
deployment "notification-controller" successfully rolled out
✔ install completed
► configuring deploy key
✔ deploy key configured
► generating sync manifests
✔ sync manifests pushed
► applying sync manifests
◎ waiting for cluster sync
✔ bootstrap finished
If you prefer GitLab, export GITLAB_TOKEN
env var and
use the command flux bootstrap gitlab.
!!! hint "Idempotency"
It is safe to run the bootstrap command as many times as you want.
If the Flux components are present on the cluster,
the bootstrap command will perform an upgrade if needed.
You can target a specific Flux version
with flux bootstrap --version=<semver>
.
Clone the git repository
We are going to drive app deployments in a GitOps manner, using the Git repository as the desired state for our cluster. Instead of applying the manifests directly to the cluster, Flux will apply it for us instead.
Therefore, we need to clone the repository to our local machine:
git clone https://github.com/$GITHUB_USER/fleet-infra
cd fleet-infra
Add podinfo repository to Flux
We will be using a public repository github.com/stefanprodan/podinfo, podinfo is a tiny web application made with Go.
Create a GitRepository manifest pointing to podinfo repository's master branch:
flux create source git podinfo \
--url=https://github.com/stefanprodan/podinfo \
--branch=master \
--interval=30s \
--export > ./clusters/my-cluster/podinfo-source.yaml
The above command generates the following manifest:
apiVersion: source.toolkit.fluxcd.io/v1beta1
kind: GitRepository
metadata:
name: podinfo
namespace: flux-system
spec:
interval: 30s
ref:
branch: master
url: https://github.com/stefanprodan/podinfo
Commit and push it to the fleet-infra
repository:
git add -A && git commit -m "Add podinfo GitRepository"
git push
Deploy podinfo application
We will create a Flux Kustomization manifest for podinfo. This configures Flux to build and apply the kustomize directory located in the podinfo repository.
flux create kustomization podinfo \
--source=podinfo \
--path="./kustomize" \
--prune=true \
--validation=client \
--interval=5m \
--export > ./clusters/my-cluster/podinfo-kustomization.yaml
The above command generates the following manifest:
apiVersion: kustomize.toolkit.fluxcd.io/v1beta1
kind: Kustomization
metadata:
name: podinfo
namespace: flux-system
spec:
interval: 5m0s
path: ./kustomize
prune: true
sourceRef:
kind: GitRepository
name: podinfo
validation: client
Commit and push the Kustomization
manifest to the repository:
git add -A && git commit -m "Add podinfo Kustomization"
git push
The structure of your repository should look like this:
fleet-infra
└── clusters/
└── my-cluster/
├── flux-system/
│ ├── gotk-components.yaml
│ ├── gotk-sync.yaml
│ └── kustomization.yaml
├── podinfo-kustomization.yaml
└── podinfo-source.yaml
Watch Flux sync the application
In about 30s the synchronization should start:
$ watch flux get kustomizations
NAME READY MESSAGE
flux-system True Applied revision: main/fc07af652d3168be329539b30a4c3943a7d12dd8
podinfo True Applied revision: master/855f7724be13f6146f61a893851522837ad5b634
When the synchronization finishes you can check that podinfo has been deployed on your cluster:
$ kubectl -n default get deployments,services
NAME READY UP-TO-DATE AVAILABLE AGE
deployment.apps/podinfo 2/2 2 2 108s
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
service/podinfo ClusterIP 10.100.149.126 <none> 9898/TCP,9999/TCP 108s
!!! tip From this moment forward, any changes made to the podinfo Kubernetes manifests in the master branch will be synchronised with your cluster.
If a Kubernetes manifest is removed from the podinfo repository, Flux will remove it from your cluster.
If you delete a Kustomization
from the fleet-infra repository, Flux will remove all Kubernetes objects that
were previously applied from that Kustomization
.
If you alter the podinfo deployment using kubectl edit
, the changes will be reverted to match
the state described in Git. When dealing with an incident, you can pause the reconciliation of a
kustomization with flux suspend kustomization <name>
. Once the debugging session
is over, you can re-enable the reconciliation with flux resume kustomization <name>
.
Multi-cluster Setup
To use Flux to manage more than one cluster or promote deployments from staging to production, take a look at the two approaches in the repositories listed below.