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Weave Flux FAQ |
60 |
- General questions
- Technical questions
- Does it work only with one git repository?
- Do I have to put my application code and config in the same git repo?
- Is there any special directory layout I need in my git repo?
- Why does Flux need a git ssh key with write access?
- Does Flux automatically sync changes back to git?
- How do I give Flux access to an image registry?
- How often does Flux check for new images?
- How often does Flux check for new git commits (and can I make it sync faster)?
- How do I use my own deploy key?
- How do I use a private git host (or one that's not github.com, gitlab.com, bitbucket.org, or dev.azure.com)?
- Will Flux delete resources that are no longer in the git repository?
- Why does my CI pipeline keep getting triggered?
- Can I restrict the namespaces that Flux can see or operate on?
- Can I change the namespace Flux puts things in by default?
- Can I temporarily make Flux ignore a deployment?
- How can I prevent Flux overriding the replicas when using HPA?
- Can I disable Flux registry scanning?
- Flux Helm Operator questions
- I'm using SSL between Helm and Tiller. How can I configure Flux to use the certificate?
- I've deleted a HelmRelease file from Git. Why is the Helm release still running on my cluster?
- I've manually deleted a Helm release. Why is Flux not able to restore it?
- I have a dedicated Kubernetes cluster per environment and I want to use the same Git repo for all. How can I do that?
Also see
- the introduction for Flux's design principles
- the troubleshooting section
Flux automates the process of deploying new configuration and container images to Kubernetes.
It synchronises all manifests in a repository with a Kubernetes cluster. It also monitors container registries for new images and updates the manifests accordingly.
The amount of functionality contained within Flux warrants a dedicated application/service. An equivalent script could easily get too large to maintain and reuse.
Anyway, we've already done it for you!
Automation is a principle of lean development. It reduces waste, to provide efficiency gains. It empowers employees by removing dull tasks. It mitigates against failure by avoiding silly mistakes.
That's where we started a while ago. But we discovered that automating deployments was more urgent for our own purposes.
Staging deployments with clever routing is useful, but it's a later level of operational maturity.
There are some pretty good solutions for service routing: Envoy, Istio for example. We may return to the matter of staged deployments.
There are builds from CI for each merge to master branch. See quay.io/weaveworks/flux and quay.io/weaveworks/helm-operator.
At present, yes it works only with a single git repository containing Kubernetes manifests. You can have as many git repositories with application code as you like, to be clear -- see below.
There's no principled reason for this, it's just a consequence of time and effort being in finite supply. If you have a use for multiple git repo support, please comment in fluxcd#1164.
In the meantime, for some use cases you can run more than one Flux daemon and point them at different repos. If you do this, consider trimming the RBAC permissions you give each daemon's service account.
This Flux (daemon) operator project may be of use for managing multiple daemons.
Nope, but they can be if you want to keep them together. Flux doesn't need to know about your application code, since it deals with container images (i.e., once your application code has already been built).
Nope. Flux doesn't place any significance on the directory structure, and will descend into subdirectories in search of YAMLs. It avoids directories that look like Helm charts.
If you have YAML files in the repo that aren't for applying to
Kubernetes, use --git-path
to constrain where Flux starts looking.
See also requirements.md for a little more explanation.
There are a number of Flux commands and API calls which will update the git repo in the course of applying the command. This is done to ensure that git remains the single source of truth.
For example, if you use the following fluxctl
command:
fluxctl release --controller=deployment/foo --update-image=bar:v2
The image tag will be updated in the git repository upon applying the command.
For more information about Flux commands see the fluxctl docs.
No. It applies changes to git only when a Flux command or API call makes them.
Flux transparently looks at the image pull secrets that you attach to workloads and service accounts, and thereby uses the same credentials that Kubernetes uses for pulling each image. In general, if your pods are running, then Kubernetes has pulled the images, and Flux should be able to access them too.
There are exceptions:
- One way of supplying credentials in Kubernetes is to put them on each node; Flux does not have access to those credentials.
- In some environments, authorisation provided by the platform is
used instead of image pull secrets:
- Google Container Registry works this way; Flux will automatically attempt to use platform-provided credentials when scanning images in GCR.
- Amazon Elastic Container Registry (ECR) has its own authentication using IAM. If your worker nodes can read from ECR, then Flux will be able to access it too.
To work around exceptional cases, you can mount a docker config into
the Flux container. See the argument --docker-config
in the daemon
arguments
reference.
See also Why are my images not showing up in the list of images?
- Flux scans image registries for metadata as quickly as it can, given rate limiting; and,
- checks if any automated workloads needs updates every five minutes, by default.
The latter default is quite conservative, so you can try lowering it
(it's set with the flag --registry-poll-interval
).
Please don't increase the rate limiting numbers (--registry-rps
and --registry-burst
) -- it's possible to get blacklisted by image
registries if you spam them with requests.
If you are using GCP/GKE/GCR, you will likely want much lower rate limits. Please see weaveworks/flux#1016 for specific advice.
Short answer: every five minutes; and yes.
There are two flags that control how often Flux syncs the cluster with git. They are
-
--git-poll-interval
, which controls how often it looks for new commits -
--sync-interval
, which controls how often it will apply what's in git, to the cluster, absent new commits.
Both of these have five minutes as the default. When there are new
commits, it will run a sync then and there, so in practice syncs
happen more often than --sync-interval
.
If you want to be more responsive to new commits, then give a shorter
duration for --git-poll-interval
, so it will check more often.
It is less useful to shorten the duration for --sync-interval
, since
that just controls how often it will sync without there being new
commits. Reducing it below a minute or so may hinder Flux, since syncs
can take tens of seconds, leaving not much time to do other
operations.
Flux uses a k8s secret to hold the git ssh deploy key. It is possible to provide your own.
First delete the secret (if it exists):
kubectl delete secret flux-git-deploy
Then create a new secret named flux-git-deploy
, using your key as the content of the secret:
kubectl create secret generic flux-git-deploy --from-file=identity=/full/path/to/key
Now restart fluxd to re-read the k8s secret (if it is running):
kubectl delete $(kubectl get pod -o name -l name=flux)
How do I use a private git host (or one that's not github.com, gitlab.com, bitbucket.org, or dev.azure.com)?
As part of using git+ssh securely from the Flux daemon, we make sure
StrictHostKeyChecking
is on in the
SSH config. This
mitigates against man-in-the-middle attacks.
We bake host keys for github.com
, gitlab.com
, bitbucket.org
, and dev.azure.com
into the image to cover some common cases. If you're using another
service, or running your own git host, you need to supply your own
host key(s).
How to do this is documented in standalone-setup.md.
Not at present. It's tricky to come up with a safe and unsurprising way for this to work. There's discussion of some possibilities in weaveworks/flux#738.
There's a couple of reasons this can happen.
The first is that Flux pushes commits to your git repo, and if that
repo is configured to go through CI, usually those commits will
trigger a build. You can avoid this by supplying the flag --ci-skip
so that Flux's commit will append [ci skip]
to its commit
messages. Many CI systems will treat that as meaning they should not
run a build for that commit. You can use --ci-skip-message
, if you
need a different piece of text appended to commit messages.
The other thing that can trigger CI is that Flux pushes a tag to the
upstream git repo whenever it has applied new commits. This acts as a
"high water mark" for Flux to know which commits have already been
seen. The default name for this tag is flux-sync
, but it can be
changed with the flags --git-sync-tag
and --git-label
. The
simplest way to avoid triggering builds is to exclude this tag from
builds -- how to do that will depend on how your CI system is
configured.
Here's the relevant docs for some common CI systems:
Yes, though support for this is experimental at the minute.
Flux will only operate on the namespaces that its service account has access to; so the most effective way to restrict it to certain namespaces is to use Kubernetes' role-based access control (RBAC) to make a service account that has restricted access itself. You may need to experiment to find the most restrictive permissions that work for your case.
You will need to use the (experimental) command-line flag
--k8s-namespace-whitelist
to enumerate the namespaces that Flux
attempts to scan for workloads.
Yes. The fluxd image has a "kubeconfig" file baked in, which specifies
a default namespace of "default"
. That means any manifest not
specifying a namespace (in .metadata.namespace
) will be given the
namespace "default"
when applied to the cluster.
You can override this by mounting your own "kubeconfig" file into the
container from a configmap, and using the KUBECONFIG
environment
entry to point to it. The example
deployment shows how to do this, in
commented out sections -- it needs extra bits of config in three
places (the volume
, volumeMount
, and env
entries).
The easiest way to create a suitable "kubeconfig" will be to adapt the
file that is baked into the image. Save that
locally as my-kubeconfig
, edit it to change the default namespace,
then create the configmap, in the same namespace you run flux in, with
something like:
kubectl create configmap flux-kubeconfig --from-file=config=./my-kubeconfig
Be aware that the expected location ($HOME/.kube/
) of the
kubeconfig
file is also used by kubectl
to cache API responses,
and mounting from a configmap will make it read-only and thus
effectively disable the caching. For that reason, take care to mount
your configmap elsewhere in the filesystem, as the example shows.
Yes. The easiest way to do that is to use the following annotation in the manifest files:
flux.weave.works/ignore: true
To stop ignoring these annotated resources, you simply remove the annotation from the manifests in git. A live example can be seen here. This will work for any type of resource.
Sometimes it might be easier to annotate a running resource in
the cluster as opposed to committing a change to git. Please note
that this will only work with resources of the type namespace
and the set of controllers in
resourcekinds.go,
namely deployment
, daemonset
, cronjob
, statefulset
and
fluxhelmrelease
).
If the annotation is just carried in the cluster, the easiest way to remove it is to run:
kubectl annotate <resource> "flux.weave.works/ignore"-
Mixing both kinds of annotations (in-git and in-cluster), can make it a bit hard to figure out how/where to undo the change (cf flux#1211).
The full story is this: Flux looks at the files and the running resources when deciding whether what to apply. But it gets the running resources by exporting them from the cluster, and that only returns the kinds of resource mentioned above. So, annotating a running resource only works if it's one of those kinds; putting the annotation in the file always works.
When using a horizontal pod autoscaler you have to remove the spec.replicas
from your deployment definition.
If the replicas field is not present in Git, Flux will not override the replica count set by the HPA.
You can exclude images from being scanned by providing a list of glob expressions using the registry-exclude-image
flag.
Exclude images from Docker Hub and Quay.io:
--registry-exclude-image=docker.io/*,quay.io/*
And the Helm install equivalent (note the \,
separator):
--set registry.excludeImage="docker.io/*\,quay.io/*"
Exclude images containing test
in the FQN:
--registry-exclude-image=*test*
Disable image scanning for all images:
--registry-exclude-image=*
When installing Flux, you can supply the CA and client-side certificate using the helmOperator.tls
options,
more details here.
Flux doesn't delete resources, there is an issue opened about this topic on GitHub. In order to delete a Helm release first remove the file from Git and afterwards run:
kubectl delete helmrelease/my-release
The Flux Helm operator will receive the delete event and will purge the Helm release.
If you delete a Helm release with helm delete my-release
, the release name can't be reused.
You need to use the helm delete --purge
option only then Flux will be able reinstall a release.
I have a dedicated Kubernetes cluster per environment and I want to use the same Git repo for all. How can I do that?
Option 1
For each cluster create a directory in your config repo.
When installing Flux Helm chart set the Git path using --set git.path=k8s/cluster-name
and set a unique label for each cluster --set git.label=cluster-name
.
You can have one or more shared dirs between clusters. Assuming your shared dir is located
at k8s/common
set the Git path as --set git.path="k8s/common\,k8s/cluster-name"
.
Option 2
For each cluster create a Git branch in your config repo.
When installing Flux Helm chart set the Git branch using --set git.branch=cluster-name
and set a unique label for each cluster --set git.label=cluster-name
.