- Migrate to Flux
- GitOps workflow steps
- GitOps configuration reference
- GitOps annotations
- Automatic drift remediation
- Related topics
- Troubleshooting
Using GitOps with the agent for Kubernetes (deprecated)
- Introduced in GitLab 13.7.
-
Introduced in GitLab 14.0, the
resource_inclusions
andresource_exclusions
attributes were removed andreconcile_timeout
,dry_run_strategy
,prune
,prune_timeout
,prune_propagation_policy
, andinventory_policy
attributes were added. - Moved from GitLab Premium to GitLab Free in 15.3.
-
Changed to make the
id
attribute optional in GitLab 15.7. - Specifying a branch, tag, or commit reference to fetch the Kubernetes manifest files introduced in GitLab 15.7.
This diagram shows the repositories and main actors in a GitOps deployment:
For details, view the architecture documentation.
Migrate to Flux
You should migrate your legacy GitOps deployments so they can be
deployed with Flux. To migrate, configure Flux to deploy manifests
with Kustomize. If you don’t have a kustomization.yaml
file in
the given path, it is generated automatically.
Prerequisites:
-
A configuration like:
manifest_projects: - id: my-group/my-project default_namespace: production paths: - glob: 'environments/production/**/*.yaml'
- A Flux installation with manifests in
environments/flux-system
. - You use a deploy token to access GitLab.
- Your cluster can access GitLab over HTTPS.
To migrate:
-
Create a file called
environments/flux-system/production.yaml
with the following contents:# This manifest was generated by flux. DO NOT EDIT. --- apiVersion: source.toolkit.fluxcd.io/v1 kind: GitRepository metadata: name: production namespace: flux-system spec: interval: 1m0s ref: branch: main secretRef: name: gitlab-deploy-token url: https://gitlab.example.com/my-group/my-project.git --- apiVersion: kustomize.toolkit.fluxcd.io/v1 kind: Kustomization metadata: name: production namespace: flux-system spec: interval: 10m0s path: ./environments/production prune: true sourceRef: kind: GitRepository name: production
-
Optional. Because
agentk
uses thedefault_namespace
by default, you might need to add akustomization.yaml
file to/environments/production/
and list the relevant resources. For example:apiVersion: kustomize.config.k8s.io/v1beta1 kind: Kustomization namespace: default resources: - relative/path/to-your/resource-1.yaml - relative/path/to-your/resource-2.yaml
When you commit the
kustomization.yaml
file to the repository, a reconciliation with Flux andagentk
is triggered. Becauseagentk
can’t handle the Kustomization file, it logs errors when you commit the file. -
To ensure Flux has taken over the management of the resource, check for the resource in the
status.inventory
value of theproduction
Flux Kustomization object:kubectl get kustomization production -n flux-system -o json | jq '.status.inventory.entries'
-
Remove the entry from the
manifest_projects
list.
After you migrate, your GitOps deployments deploy with Flux. To get the most out of your Flux integration, see the Flux Kustomization CRD and GitLab Flux documentation.
GitOps workflow steps
To update a Kubernetes cluster by using GitOps, complete the following steps.
- Ensure you have a working Kubernetes cluster, and that the manifests are in a GitLab project.
- In the same project, register and install the GitLab agent.
- Configure the agent configuration file so that the agent monitors the project for changes to the Kubernetes manifests. Use the GitOps configuration reference for guidance.
Any time you commit updates to your Kubernetes manifests, the agent updates the cluster.
GitOps configuration reference
The following snippet shows an example of the possible keys and values for the GitOps section of an agent configuration file (config.yaml
).
gitops:
manifest_projects:
- id: gitlab-org/cluster-integration/gitlab-agent
ref: # either `branch`, `tag` or `commit` can be specified
branch: production
# commit: <mysha>
# tag: v1.0
default_namespace: my-ns
paths:
# Read all YAML files from this directory.
- glob: '/team1/app1/*.yaml'
# Read all .yaml files from team2/apps and all subdirectories.
- glob: '/team2/apps/**/*.yaml'
# If 'paths' is not specified or is an empty list, the configuration below is used.
- glob: '/**/*.{yaml,yml,json}'
reconcile_timeout: 3600s
dry_run_strategy: none
prune: true
prune_timeout: 3600s
prune_propagation_policy: foreground
inventory_policy: must_match
Keyword | Description |
---|---|
manifest_projects | Projects where your Kubernetes manifests are stored. The agent monitors the files in the repositories in these projects. When manifest files change, the agent deploys the changes to the cluster. |
id | Path to a Git repository that has Kubernetes manifests in YAML or JSON format. No authentication mechanisms are supported. Default is the agent configuration repository. |
ref | Optional. Git reference in the configured Git repository to fetch the Kubernetes manifest files from. If not specified or empty, the default branch is used. If specified, it must contain either branch , tag , or commit . |
ref.branch | Branch name in the configured Git repository to fetch the Kubernetes manifest files from. |
ref.tag | Tag name in the configured Git repository to fetch the Kubernetes manifest files from. |
ref.commit | Commit SHA in the configured Git repository to fetch the Kubernetes manifest files from. |
default_namespace | Namespace to use if not set explicitly in object manifest. Also used for inventory ConfigMap objects. |
paths | Repository paths to scan for manifest files. Directories with names that start with a dot (.) are ignored. |
paths[].glob | Required. See doublestar and the match function for globbing rules. |
reconcile_timeout | Determines whether the applier should wait until all applied resources have been reconciled, and if so, how long to wait. Default is 3600 seconds (1 hour). |
dry_run_strategy | Determines whether changes should be performed. Can be: none , client , or server . Default is none . |
prune | Determines whether pruning of previously applied objects should happen after apply. Default is true . |
prune_timeout | Determines whether to wait for all resources to be fully deleted after pruning, and if so, how long to wait. Default is 3600 seconds (1 hour). |
prune_propagation_policy | The deletion propagation policy that should be used for pruning. Can be: orphan , background , or foreground . Default is foreground . |
inventory_policy | Determines whether an inventory object can take over objects that belong to another inventory object or don’t belong to any inventory object. This is done by determining if the apply/prune operation can go through for a resource based on comparison of the inventory-id value in the package and the owning-inventory annotation (config.k8s.io/owning-inventory ) in the live object. Can be: must_match , adopt_if_no_inventory , or adopt_all . Default is must_match . |
GitOps annotations
The GitLab agent for Kubernetes has annotations you can use to:
- Sort resources: Apply or delete resources in a specific order.
- Use apply-time mutation: Dynamically substitute fields from one resource configuration to another.
The agent has default sorting, but with annotations, you can fine-tune the order and apply time-value injection.
To provide the GitOps functionality, the GitLab agent for Kubernetes uses the cli-utils
library,
a Kubernetes SIG project. For more information, see the available annotations in the cli-utils
documentation.
Automatic drift remediation
Drift happens when the current configuration of an infrastructure resource differs from its desired configuration. Typically, this is caused by manually editing resources directly rather than via the used infrastructure-as-code mechanism. Minimizing the risk of drift helps to ensure configuration consistency and successful operations.
In GitLab, the agent for Kubernetes regularly compares the desired state from the git
repository with
the actual state from the Kubernetes cluster. Deviations from the git
state are fixed at every check. These checks
happen automatically every 5 minutes. They are not configurable.
The agent uses server-side applies.
As a result, every field in a resource can have different managers. Only fields managed by git
are checked for drift. This facilitates the use of in-cluster controllers to modify resources like
Horizontal Pod Autoscalers.
Related topics
- GitOps working examples for training and demos
- Self-paced classroom workshop (Uses AWS EKS, but you can use for other Kubernetes clusters)
- Managing Kubernetes secrets in a GitOps workflow
- Application and manifest repository example
Troubleshooting
Avoiding conflicts when you have multiple projects
The agent watches each glob pattern set under a project’s paths
section independently, and makes updates to the cluster concurrently.
If changes are found at multiple paths, when the agent attempts to update the cluster,
a conflict can occur.
To prevent this from happening, consider storing a logical group of manifests in a single place and reference them only once to avoid overlapping globs.
For example, both of these globs match *.yaml
files in the root directory
and could cause conflicts:
gitops:
manifest_projects:
- id: project1
paths:
- glob: '/**/*.yaml'
- glob: '/*.yaml'
Instead, specify a single glob that matches all *.yaml
files recursively:
gitops:
manifest_projects:
- id: project1
paths:
- glob: '/**/*.yaml'
Use multiple agents or projects
If you store your Kubernetes manifests in separate GitLab projects, update your agent configuration file with the location of these projects.