score-k8s
is a reference implementation of the Score specification for Kubernetes. It converts Score files into a YAML file containing Kubernetes manifests that can be packaged or installed through kubectl apply
. score-k8s
is used primarily for demonstration and reference purposes but may be used for pre-production/production use if necessary.
This implementation supports most aspects of the Score specification and provides a powerful resource provisioning system for supplying and customising the dynamic configuration of attached services such as databases, queues, storage, and other network or storage APIs.
The user runs score-k8s init
in their project to initialise the empty state and default provisioners
1b. The user can import, copy, or download a custom set of extended resource provisioners that they or their platform team have developed specific to the target cluster.
The user runs score-k8s generate
to add Score files to the project and generate a manifests.yaml
file. Multiple score files can be added and the resulting manifests will include all workloads and all resources together.
Iterate by changing the score files, and re-running generate
.
The manifests can then be validated and deployed through kubectl apply -f manifests.yaml
.
To remove the resources from the cluster, the same kubectl delete -f manifests.yaml
can be used.
score-k8s
supports all features of the Score Workload specification.
score-k8s
supports a full resource provisioning system which converts workload artefacts into outputs and/or a set of Kubernetes manifests. The resource system works similarly to score-compose
with one or more YAML files describing how to provision a set of supported resources. Users and teams can supply their own provisioners files to extend this set.
Provisioners are loaded from any *.provisioners.yaml
files in the local .score-k8s
directory, and matched to the resources by the type
and optional class
and id
fields. Matches are performed with a first-match policy, so default provisioners can be overridden by supplying a custom provisioner with the same type
.
Generally, users will want to copy in the provisioners files that work with their cluster. For example, if the cluster has Postgres or MySQL operators installed, then custom provisioners can be written to provision a database using the operator-specific CRDs with any clustering and backup mechanisms configured.
For details of how the standard "template" provisioner works, see the template://example-provisioners/example-provisioner
provisioner here. For details of how the standard "cmd" provisioner works, see the cmd://bash#example-provisioner
provisioner here.
score-k8s
comes with out-of-the-box support for:
Type | Class | Params | Output |
---|---|---|---|
volume | default | (none) | source |
redis | default | (none) | host , port , username , password |
postgres | default | (none) | host , port , name (aka database ), username , password |
mysql | default | (none) | host , port , name (aka database ), username , password |
dns | default | (none) | host |
route | default | host , path , port |
|
mongodb | default | (none) | host , port , username , password , name , connection |
ampq | default | (none) | host , port , username , password , vhost |
mssql | default | (none) | server , port , database , password |
s3 | default | (none) | endpoint , region , bucket , access_key_id , secret_key |
Users are encouraged to write their own custom provisioners to support new resource types or to modify the implementations above.
$ score-k8s init --help
The init subcommand will prepare the current directory for working with score-k8s and write the initial
empty state and default provisioners file into the '.score-k8s' subdirectory.
The '.score-k8s' directory contains state that will be used to generate any Kubernetes resource manifests including
potentially sensitive data and raw secrets, so this should not be checked into generic source control.
Usage:
score-k8s init [flags]
Examples:
# Initialise a new score-k8s project
score-k8s init
# Or disable the default score file generation if you already have a score file
score-k8s init --no-sample
# Optionally loading in provisoners from a remote url
score-k8s init --provisioners https://raw.githubusercontent.com/user/repo/main/example.yaml
Flags:
-f, --file string The score file to initialize (default "score.yaml")
-h, --help help for init
--no-sample Disable generation of the sample score file
--provisioners stringArray A provisioners file to install. May be specified multiple times. Supports http://host/file, https://host/file, git-ssh://git@host/repo.git/file, git-https://host/repo.git/file and oci://[registry/][namespace/]repository[:tag|@digest][#file] formats.
$ score-k8s generate --help
The generate command will convert Score files in the current Score state into a combined set of Kubernetes
manifests. All resources and links between Workloads will be resolved and provisioned as required.
"score-k8s init" MUST be run first. An error will be thrown if the project directory is not present.
Usage:
score-k8s generate [flags]
Examples:
# Specify Score files
score-k8s generate score.yaml *.score.yaml
# Regenerate without adding new score files
score-k8s generate
# Provide a default container image for any containers with image=.
score-k8s generate score.yaml --image=nginx:latest
# Provide overrides when one score file is provided
score-k8s generate score.yaml --override-file=./overrides.score.yaml --override-property=metadata.key=value
# Patch resulting manifests
score-k8s generate score.yaml --patch-manifests */*/metadata.annotations.key=value --patch-manifests Deployment/foo/spec.replicas=4
Flags:
-h, --help help for generate
--image string An optional container image to use for any container with image == '.'
-o, --output string The output manifests file to write the manifests to (default "manifests.yaml")
--override-property stringArray An optional set of path=key overrides to set or remove
--overrides-file string An optional file of Score overrides to merge in
--patch-manifests stringArray An optional set of <kind|*>/<name|*>/path=key operations for the output manifests
$ score-k8s completion --help
Generate the autocompletion script for score-k8s for the specified shell.
See each sub-command's help for details on how to use the generated script.
Usage:
score-k8s completion [command]
Available Commands:
bash Generate the autocompletion script for bash
fish Generate the autocompletion script for fish
powershell Generate the autocompletion script for powershell
zsh Generate the autocompletion script for zsh
Flags:
-h, --help help for completion
Global Flags:
--quiet Mute any logging output
-v, --verbose count Increase log verbosity and detail by specifying this flag one or more times
Use "score-k8s completion [command] --help" for more information about a command.
Either, install through Homebrew for macOS and supported Linux distributions:
$ brew install score-spec/tap/score-k8s
# to upgrade an existing installation, tr
$ brew upgrade score-k8s
Or, download the binaries for your platform from the latest Github releases:
$ wget https://github.com/score-spec/score-k8s/releases/download/<x.y.z>/score-k8s_<x.y.z>_<os_system>.tar.gz
Or, install the Go module directly (Go > 1.23):
$ go install -v github.com/score-spec/score-k8s/cmd/score-k8s@latest
Alternative installation guides and implementations can be found in the Score docs.
Kubernetes is a complex environment to provide defaults for since there are so many different ways to configure it and so many different ways to deploy the same resource. For example, should a Database be provisioned using a Helm chart, a set of manifests, an operator CRD, a cloud-specific operator CRD? These are not questions that have easy default answers and so we encourage users to build and share a set of custom provisioners depending on the cluster they aim to deploy to.
zz-
prefix?The provisioner files are loaded in lexicographic order, the zz
prefix helps to ensure that the defaults are loaded last and that any custom provisioners have precedence.
score-k8s
generates a Deployment by default or when the k8s.score.dev/kind
workload metadata annotation is set to Deployment
. If the annotation is set to StatefulSet
it will generate a set and allow the use of claim templates as outputs from volume resources.
score-k8s
will always generate a deployment or set with 1 replica. The workload should be scaled to multiple replicas through either:
kubectl scale --replicas=3 deployment/my-workload
).kubectl apply -k
.--patch-manifests
CLI option to do --patch-manifests 'Deployment/my-workload/spec.replicas=3'
.Right now, no namespace is specified in the generated manifests so they will obey any --namespace
passed to the kubctl apply
command. All secret references are assumed to be in the same namespace as the workloads.
score-k8s
with with kind
(Kubernetes in docker)?The main requirement is that the route resource provisioner assumes that the Gateway API implementation is available with a named Gateway "default".
Setup the cluster:
$ kind create cluster
$ kubectl --context kind-kind apply -f https://github.com/kubernetes-sigs/gateway-api/releases/download/v1.1.0/standard-install.yaml
$ helm --kube-context kind-kind install ngf oci://ghcr.io/nginxinc/charts/nginx-gateway-fabric --create-namespace -n nginx-gateway --set service.type=ClusterIP
$ kubectl --context kind-kind apply -f - <<EOF
apiVersion: gateway.networking.k8s.io/v1
kind: Gateway
metadata:
name: default
spec:
gatewayClassName: nginx
listeners:
- name: http
port: 80
protocol: HTTP
EOF
Then if you want to call the gateway routes, open a port forward:
$ kubectl --context kind-kind -n nginx-gateway port-forward service/ngf-nginx-gateway-fabric 8080:80
And DNS resources can be accessed on http://
$ score-k8s resources get-outputs 'dns.default#demo-app.dns' --format '{{.host}}'
Resource cleanup has not been implemented yet. The only mechanism today is limited to deleting the Kubernetes manifests output by a template provisioner. As a workaround, the YAML structure in .score-k8s/state.yaml
can be interpreted to determine what side effects need to be cleaned up.
Learn how to connect and engage with our community here.
Our general contributor guidelines can be found in CONTRIBUTING.md. Please note that some repositories may have additional guidelines. For more information on our governance model, please refer to GOVERNANCE.md.
You can find our documentation at docs.score.dev.
See Roadmap. You can submit an idea anytime.