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Specs
- 1: v1beta1 specs
- 1.1: KluctlDeployment
1 - v1beta1 specs
gitops.kluctl.io/v1beta1
This is the v1beta1 API specification for defining continuous delivery pipelines of Kluctl Deployments.
Specification
1.1 - KluctlDeployment
The KluctlDeployment
API defines a deployment of a target
from a Kluctl Project.
Example
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: microservices-demo-prod
spec:
interval: 5m
source:
git:
url: https://github.com/kluctl/kluctl-examples.git
path: "./microservices-demo/3-templating-and-multi-env/"
timeout: 2m
target: prod
context: default
prune: true
delete: true
manual: true
In the above example a KluctlDeployment is being created that defines the deployment based on the Kluctl project.
The deployment is performed every 5 minutes. It will deploy the prod
target and then prune orphaned objects afterward.
When the KluctlDeployment gets deleted, delete: true
will cause the controller to actually delete the target
resources.
It uses the default
context provided by the default service account and thus overrides the context specified in the
target definition.
Spec fields
source
The KluctlDeployment spec.source
specifies the source repository to be used. Example:
Multiple source types are supported, as described in the following subsections.
Git source
Specifies a Git repository to load the project source from.
Example:
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: example
spec:
source:
git:
url: https://github.com/kluctl/kluctl-examples.git
path: path/to/project
ref:
branch: my-branch
credentials:
git:
- host: github.com
path: kluctl/*
secretRef:
name: git-credentials
...
The url
specifies the git clone url. It can either be a https or a git/ssh url. Git/Ssh url will require a secret
to be provided with credentials.
The path
specifies the subdirectory where the Kluctl project is located.
The ref
provides the Git reference to be used. The ref
field has the same format as in
git includes.
See Git authentication for details on authentication via the spec.credentials.git
field.
OCI source
Specifies a OCI artifact to load the project source from. The artifact must have been pushed via the kluctl oci push command.
Example:
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: example
spec:
source:
oci:
url: oci://ghcr.io/kluctl/kluctl-examples/simple
path: my-subdir
ref:
tag: latest
credentials:
oci:
- registry: ghcr.io
repository: kluctl/**
secretRef:
name: oci-credentials
...
The url
specifies the OCI repository url. It must use the oci://
scheme. It is not allowed to add tags or digests to
the url. Instead, use the dedicated ref
field.
The path
specifies the subdirectory where the Kluctl project is located.
The ref
provides the Git reference to be used. The ref
field has the same format as in
oci includes.
See OCI authentication for details on authentication via the spec.credentials.oci
field.
interval
See Reconciliation.
deployInterval
If set, the controller will periodically force a deployment, even if the rendered manifests have not changed. See Reconciliation for more details.
suspend
See Reconciliation.
target
spec.target
specifies the target to be deployed. It must exist in the Kluctl projects
kluctl.yaml targets list.
This field is optional and can be omitted if the referenced Kluctl project allows deployments without targets.
targetNameOverride
spec.targetNameOverride
will set or override the name of the target. This is equivalent to passing
--target-name-override
to kluctl deploy
.
context
spec.context
will override the context used while deploying. This is equivalent to passing --context
to
kluctl deploy
.
deployMode
By default, the operator will perform a full deployment, which is equivalent to using the kluctl deploy
command.
As an alternative, the controller can be instructed to only perform a kluctl poke-images
command. Please
see poke-images for details on the command. To do so, set spec.deployMode
field to poke-images
.
Example:
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: microservices-demo-prod
spec:
interval: 5m
source:
git:
url: https://github.com/kluctl/kluctl-examples.git
path: "./microservices-demo/3-templating-and-multi-env/"
timeout: 2m
target: prod
context: default
deployMode: poke-images
prune
To enable pruning, set spec.prune
to true
. This will cause the controller to run kluctl prune
after each
successful deployment.
delete
To enable deletion, set spec.delete
to true
. This will cause the controller to run kluctl delete
when the
KluctlDeployment gets deleted.
manual
spec.manual
enables manually approved/triggered deployments. This means, that deployments are performed in dry-run
mode until the most recent deployment is approved.
This feature is most useful in combination with the Kluctl Webui, which offers a visualisation and proper actions for this feature.
Internally, approval happens by setting spec.manualObjectsHash
to the objects hash of the approved command result.
args
spec.args
is an object representing arguments
passed to the deployment. Example:
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: example
spec:
interval: 5m
source:
git:
url: https://github.com/kluctl/kluctl-examples.git
path: "./microservices-demo/3-templating-and-multi-env/"
timeout: 2m
target: prod
context: default
args:
arg1: value1
arg2: value2
arg3:
k1: v1
k2: v2
The above example is equivalent to calling kluctl deploy -t prod -a arg1=value1 -a arg2=value2
.
images
spec.images
specifies a list of fixed images to be used by
image.get_image(...)
. Example:
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: example
spec:
interval: 5m
source:
git:
url: https://example.com
timeout: 2m
target: prod
images:
- image: nginx
resultImage: nginx:1.21.6
namespace: example-namespace
deployment: Deployment/example
- image: registry.gitlab.com/my-org/my-repo/image
resultImage: registry.gitlab.com/my-org/my-repo/image:1.2.3
The above example will cause the images.get_image("nginx")
invocations of the example
Deployment to return
nginx:1.21.6
. It will also cause all images.get_image("registry.gitlab.com/my-org/my-repo/image")
invocations
to return registry.gitlab.com/my-org/my-repo/image:1.2.3
.
The fixed images provided here take precedence over the ones provided in the target definition.
spec.images
is equivalent to calling kluctl deploy -t prod --fixed-image=nginx:example-namespace:Deployment/example=nginx:1.21.6 ...
and to kluctl deploy -t prod --fixed-images-file=fixed-images.yaml
with fixed-images.yaml
containing:
images:
- image: nginx
resultImage: nginx:1.21.6
namespace: example-namespace
deployment: Deployment/example
- image: registry.gitlab.com/my-org/my-repo/image
resultImage: registry.gitlab.com/my-org/my-repo/image:1.2.3
dryRun
spec.dryRun
is a boolean value that turns the deployment into a dry-run deployment. This is equivalent to calling
kluctl deploy -t prod --dry-run
.
noWait
spec.noWait
is a boolean value that disables all internal waiting (hooks and readiness). This is equivalent to calling
kluctl deploy -t prod --no-wait
.
forceApply
spec.forceApply
is a boolean value that causes kluctl to solve conflicts via force apply. This is equivalent to calling
kluctl deploy -t prod --force-apply
.
replaceOnError and forceReplaceOnError
spec.replaceOnError
and spec.forceReplaceOnError
are both boolean values that cause kluctl to perform a replace
after a failed apply. forceReplaceOnError
goes a step further and deletes and recreates the object in question.
These are equivalent to calling kluctl deploy -t prod --replace-on-error
and kluctl deploy -t prod --force-replace-on-error
.
abortOnError
spec.abortOnError
is a boolean value that causes kluctl to abort as fast as possible in case of errors. This is equivalent to calling
kluctl deploy -t prod --abort-on-error
.
includeTags, excludeTags, includeDeploymentDirs and excludeDeploymentDirs
spec.includeTags
and spec.excludeTags
are lists of tags to be used in inclusion/exclusion logic while deploying.
These are equivalent to calling kluctl deploy -t prod --include-tag <tag1>
and kluctl deploy -t prod --exclude-tag <tag2>
.
spec.includeDeploymentDirs
and spec.excludeDeploymentDirs
are lists of relative deployment directories to be used in
inclusion/exclusion logic while deploying. These are equivalent to calling kluctl deploy -t prod --include-tag <tag1>
and kluctl deploy -t prod --exclude-tag <tag2>
.
Reconciliation
The KluctlDeployment spec.interval
tells the controller at which interval to try reconciliations.
The interval time units are s
, m
and h
e.g. interval: 5m
, the minimum value should be over 60 seconds.
At each reconciliation run, the controller will check if any rendered objects have been changes since the last deployment and then perform a new deployment if changes are detected. Changes are tracked via a hash consisting of all rendered objects.
To enforce periodic full deployments even if nothing has changed, spec.deployInterval
can be used to specify an
interval at which forced deployments must be performed by the controller.
The KluctlDeployment reconciliation can be suspended by setting spec.suspend
to true
. Suspension will however not
prevent manual reconciliation requests via the kluctl gitops
sub-commands.
Manual requests/reconciliation
The controller can be told to reconcile the KluctlDeployment outside of the specified interval
by using the kluctl gitops
sub-commands.
On-demand reconciliation example:
$ kluctl gitops deploy --namespace my-namespace --name my-deployment
You can also perform manual requests while temporarily overriding deployment configurations, e.g.:
$ kluctl gitops deploy --namespace my-namespace --name my-deployment --force-apply
Local source overrides are also possible, allowing you to test changes before pushing them:
$ kluctl gitops diff --namespace my-namespace --name my-deployment --local-git-override=github.com/exaple-org/example-project=/local/path/to/modified/repo
When --namespace
and --name
are omitted, the CLI will try to auto-detect the deployment on the current cluster
and suggest the auto-detected deployment to you.
Kubeconfigs and RBAC
As Kluctl is meant to be a CLI-first tool, it expects a kubeconfig to be present while deployments are performed. The controller will generate such kubeconfigs on-the-fly before performing the actual deployment.
The kubeconfig can be generated from 3 different sources:
- The default impersonation service account specified at controller startup (via
--default-service-account
) - The service account specified via
spec.serviceAccountName
in the KluctlDeployment - The secret specified via
spec.kubeConfig
in the KluctlDeployment.
The behavior/functionality of 1. and 2. is comparable to how the kustomize-controller handles impersonation, with the difference that a kubeconfig with a “default” context is created in-between.
spec.kubeConfig
will simply load the kubeconfig from data.value
of the specified secret.
Kluctl targets specify a context name that is expected to
be present in the kubeconfig while deploying. As the context found in the generated kubeconfig does not necessarily
have the correct name, spec.context
can be used to while deploying. This is especially useful
when using service account based kubeconfigs, as these always have the same context with the name “default”.
Here is an example of a deployment that uses the service account “prod-service-account” and overrides the context appropriately (assuming the Kluctl cluster config for the given target expects a “prod” context):
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: example
namespace: kluctl-system
spec:
interval: 10m
source:
git:
url: https://github.com/kluctl/kluctl-examples.git
path: "./microservices-demo/3-templating-and-multi-env/"
target: prod
serviceAccountName: prod-service-account
context: default
Credentials
A KluctlDeployment
can specify multiple sets of credentials for different kind of repositories and registries. These
are specified through the spec.credentials
field, which specifies multiple list of credentials.
Git authentication
Git authentication can be specified via spec.credentials.git
, which is a list of credential configs. Each entry
specifies information to match Git repositories and a reference to a Kubernetes secret.
Each time the controller needs to access a git repository, it will iterate through this list and pick the first one matching.
Example:
...
spec:
source:
git:
url: https://github.com/my-org/my-repo.git
credentials:
git:
- host: github.com
path: my-org/*
secretRef:
name: my-git-secrets
...
Each entry has the following fields:
host
is required and specifies the hostname to apply this set of credentials. It can also be set to *
, meaning that
it will match all git hosts. *
will however be ignored for https based urls to avoid leaking credentials.
path
is optional and allows to filter for different paths on the same host. This is for example useful
when public Git providers are used, for example github.com. For these, you can for example use my-org/*
as pattern to
tell the controller that it should use this set of credentials only for projects below the my-org
GitHub organisation.
secretRef
is required and specifies the name of the secret that contains the actual credentials.
The following authentication types are supported through the referenced secret.
Basic access authentication
To authenticate towards a Git repository over HTTPS using basic access
authentication (in other words: using a username and password), the referenced
Secret is expected to contain .data.username
and .data.password
values.
---
apiVersion: v1
kind: Secret
metadata:
name: basic-access-auth
type: Opaque
data:
username: <BASE64>
password: <BASE64>
HTTPS Certificate Authority
To provide a Certificate Authority to trust while connecting with a Git
repository over HTTPS, the referenced Secret can contain a .data.caFile
value.
---
apiVersion: v1
kind: Secret
metadata:
name: https-ca-credentials
namespace: default
type: Opaque
data:
caFile: <BASE64>
SSH authentication
To authenticate towards a Git repository over SSH, the referenced Secret is
expected to contain identity
and known_hosts
fields. With the respective
private key of the SSH key pair, and the host keys of the Git repository.
---
apiVersion: v1
kind: Secret
metadata:
name: ssh-credentials
type: Opaque
stringData:
identity: |
-----BEGIN OPENSSH PRIVATE KEY-----
...
-----END OPENSSH PRIVATE KEY-----
known_hosts: |
github.com ecdsa-sha2-nistp256 AAAA...
Helm Repository authentication
Kluctl allows to integrate Helm Charts in two different ways. One is to pre-pull charts and put them into version control, making it unnecessary to pull them at deploy time. This option also means that you don’t have to take any special care on the controller side.
The other way is to let Kluctl pull Helm Charts at deploy time. In that case, you have to ensure that the controller has the necessary access to the Helm repositories.
Helm Repository authentication can be specified via spec.credentials.helm
, which is a list of credential configs. Each entry
specifies information to match Helm repositories and a reference to a Kubernetes secret.
Each time the controller needs to access a Helm repository, it will iterate through this list and pick the first one matching.
Example:
...
spec:
source:
git:
url: https://github.com/my-org/my-repo.git
credentials:
helm:
- host: my-repo.com
path: some-path/*
secretRef:
name: my-helm-secrets
...
Each entry has the following fields:
host
is required and specifies the hostname to apply this set of credentials.
path
is optional and allows to filter for different paths on the same host. The behavior is identical to how
Git credentials handle it.
secretRef
is required and specifies the name of the secret that contains the actual credentials.
The following authentication types are supported through the referenced secret.
Basic access authentication
To authenticate towards a Helm repository over HTTP/HTTPS using basic access
authentication (in other words: using a username and password), the referenced
Secret is expected to contain .data.username
and .data.password
values.
apiVersion: v1
kind: Secret
metadata:
name: my-helm-creds
namespace: kluctl-system
stringData:
username: my-user
password: my-password
TLS authentication
For TLS authentication, see the following example secret:
apiVersion: v1
kind: Secret
metadata:
name: my-helm-creds
namespace: kluctl-system
data:
certFile: <BASE64>
keyFile: <BASE64>
# NOTE: The following values can be supplied without the above values and for all other (e.g. basic) authentication types as well
caFile: <BASE64>
insecureSkipTlsVerify: "true" # this field is optional
passCredentialsAll: "true" # this field is optional
certFile
and keyFile
optionally specify a client certificate and key pair to use for client certificate based
authentication. caFile
specifies a CA bundle to use when TSL/https verification is performed.
If insecureSkipTlsVerify
is set to true
, TLS verification is skipped.
If passCredentialsAll
is set to true
, Kluctl will pass credentials to all domains. See https://helm.sh/docs/helm/helm_repo_add/ for details.
OCI registry authentication
OCI registry authentication can be specified via spec.credentials.oci
, which is a list of credential configs. Each entry
specifies information to match OCI registries and a reference to a Kubernetes secret.
Each time the controller needs to access an OCI registry, it will iterate through this list and pick the first one matching. This also includes OCI registry usages via the Helm integration.
Example:
...
spec:
source:
git:
url: https://github.com/my-org/my-repo.git
credentials:
oci:
- registry: docker.com
repository: my-org/*
secretRef:
name: my-oci-secrets
...
Each entry has the following fields:
registry
is required and specifies the registry name to apply this set of credentials.
repository
is optional and allows to filter for different repositories in the same registry. Wildcards can also be used.
If omitted, all repositories on the specified registry will match.
secretRef
is required and specifies the name of the secret that contains the actual credentials.
The following authentication types are supported through the referenced secret.
Basic access authentication
To authenticate towards an OCI registry over HTTP/HTTPS using basic access
authentication (in other words: using a username and password), the referenced
Secret is expected to contain .data.username
and .data.password
values.
apiVersion: v1
kind: Secret
metadata:
name: my-oci-secrets
namespace: kluctl-system
stringData:
username: my-user
password: my-password
Token based authentication
To authenticate via a bearer token, use specify .data.token
in the referenced secret.
apiVersion: v1
kind: Secret
metadata:
name: my-oci-secrets
namespace: kluctl-system
stringData:
token: my-token
TLS authentication
For TLS authentication, see the following example secret:
apiVersion: v1
kind: Secret
metadata:
name: my-oci-creds
namespace: kluctl-system
data:
certFile: <BASE64>
keyFile: <BASE64>
# NOTE: The following values can be supplied without the above values and for all other (e.g. basic) authentication types as well
caFile: <BASE64>
insecureSkipTlsVerify: "true" # this field is optional
plainHttp: "true" # this field is optional
certFile
and keyFile
optionally specify a client certificate and key pair to use for client certificate based
authentication. caFile
specifies a CA bundle to use when TSL/https verification is performed.
If insecureSkipTlsVerify
is set to true
, TLS verification is skipped.
If plainHttp
if set to true
, HTTPS is disabled and HTTP is used instead.
Deprecated ways of credentials configurations
Kluctl still supports the deprecated spec.source.credentials
, spec.source.secretRef
and spec.helmCredentials
fields
in the v1beta1
api version. These fields are however deprecated and will be removed in the next version bump.
Secrets Decryption
Kluctl offers a SOPS Integration that allows to use encrypted
manifests and variable sources in Kluctl deployments. Decryption by the controller is also supported and currently
mirrors how the Secrets Decryption configuration
of the Flux Kustomize Controller. To configure it in the KluctlDeployment
, simply set the decryption
field in the
spec:
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: example
namespace: kluctl-system
spec:
decryption:
provider: sops
secretRef:
name: sops-keys
...
The sops-keys
Secret has the same format as in the
Flux Kustomize Controller.
AWS KMS with IRSA
In addition to the AWS KMS Secret Entry
in the secret and the global AWS KMS
authentication via the controller’s service account, the Kluctl controller also supports using the IRSA role of the
impersonated service account of the KluctlDeployment
(specified via serviceAccountName
in the spec or
--default-service-account
):
apiVersion: v1
kind: ServiceAccount
metadata:
name: kluctl-deployment
namespace: kluctl-system
annotations:
eks.amazonaws.com/role-arn: arn:aws:iam::123456:role/my-irsa-enabled-role
---
kind: ClusterRoleBinding
apiVersion: rbac.authorization.k8s.io/v1
metadata:
name: kluctl-deployment
namespace: kluctl-system
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
# watch out, don't use cluster-admin if you don't trust the deployment
name: cluster-admin
subjects:
- kind: ServiceAccount
name: kluctl-deployment
namespace: kluctl-system
---
apiVersion: gitops.kluctl.io/v1beta1
kind: KluctlDeployment
metadata:
name: example
namespace: kluctl-system
spec:
serviceAccountName: kluctl-deployment
decryption:
provider: sops
# you can also leave out the secretRef if you don't provide addinional keys
secretRef:
name: sops-keys
...
Status
When the controller completes a deployments, it reports the result in the status
sub-resource.
A successful reconciliation sets the ready condition to true
.
...
status:
conditions:
- lastTransitionTime: "2022-07-07T11:48:14Z"
message: "deploy: ok"
reason: ReconciliationSucceeded
status: "True"
type: Ready
lastDeployResult:
...
lastPruneResult:
...
lastValidateResult:
...
You can wait for the controller to complete a reconciliation with:
$ kubectl wait kluctldeployment/backend --for=condition=ready
A failed reconciliation sets the ready condition to false
:
...
status:
conditions:
- lastTransitionTime: "2022-05-04T10:18:11Z"
message: target invalid-name not found in kluctl project
reason: PrepareFailed
status: "False"
type: Ready
lastDeployResult:
...
lastPruneResult:
...
lastValidateResult:
...
Note that the lastDeployResult, lastPruneResult and lastValidateResult are only updated on a successful reconciliation.