Internal development platform binary launcher.
WORK IN PROGRESS: This tool is in a pre-release stage and is under active development.
Spin up a complete internal developer platform using industry standard technologies like Kubernetes, Argo, and backstage with only Docker required as a dependency.
This can be useful in several ways:
- Create a single binary which can demonstrate an IDP reference implementation.
- Use within CI to perform integration testing.
- Use as a local development environment for IDP engineers.
If you are interested in running idpbuilder in Codespaces through your browser, check out the Codespaces section.
Download the latest release with the commands:
version=$(curl -Ls -o /dev/null -w %{url_effective} https://github.com/cnoe-io/idpbuilder/releases/latest)
version=${version##*/}
curl -L -o ./idpbuilder.tar.gz "https://github.com/cnoe-io/idpbuilder/releases/download/${version}/idpbuilder-$(uname | awk '{print tolower($0)}')-$(uname -m | sed 's/x86_64/amd64/').tar.gz"
tar xzf idpbuilder.tar.gz
./idpbuilder version
# example output
# idpbuilder 0.3.0 go1.21.5 linux/amd64
Alternatively, you can download the latest binary from the latest release page.
The most basic command which creates a Kubernetes Cluster (Kind cluster) with the core packages installed.
./idpbuilder create
What are the core packages?
-
ArgoCD is the GitOps solution to deploy manifests to Kubernetes clusters. In this project, a package is an ArgoCD application.
-
Gitea server is the in-cluster Git server that ArgoCD can be configured to sync resources from. You can sync from local file systems to this.
-
Ingress-nginx is used as a method to access in-cluster resources such as ArgoCD UI and Gitea UI.
Name Version Argo CD v2.10.7 Gitea v9.5.1 Nginx v1.8.1
The default manifests for the core packages are available here. See the contribution doc for more information on how core packages are installed and configured.
Once idpbuilder finishes provisioning cluster and packages, you can access GUIs by going to the following addresses in your browser.
You can obtain credentials for them by running the following command:
./idpbuilder get secrets
The "get secrets" command
The get secrets
command retrieves the following:
- ArgoCD initial admin password.
- Gitea admin user credentials.
- Any secrets labeled with
cnoe.io/cli-secret=true
.
You can think of the command as executing the following kubectl commands:
kubectl -n argocd get secret argocd-initial-admin-secret
kubectl get secrets -n gitea gitea-admin-secret
kubectl get secrets -A -l cnoe.io/cli-secret=true
In addition, secrets labeled with cnoe.io/package-name
can be specified with the -p
flag. For example, for Gitea:
./idpbuilder get secrets -p gitea
For more advanced use cases, check out the examples directory.
You can specify the kubernetes version by using the --kube-version
flag. Supported versions are available here.
./idpbuilder create --kube-version v1.27.3
If you want to specify your own kind configuration file, use the --kind-config
flag.
./idpbuilder create --build-name local --kind-config ./my-kind.yaml`
If you want to specify ArgoCD configmap.
./idpbuilder create --package-custom-file=argocd:pkg/k8s/test-resources/input/argocd-cm.yaml
Run the following commands for available flags and subcommands:
./idpbuilder --help
./idpbuilder create --help
Idpbuilder supports specifying custom packages using the flag --package-dir
flag. This flag expects a directory containing ArgoCD application files.
Examples of using custom packages are available in the example directory. Let's take a look at this example. This defines two custom package directories to deploy to the cluster.
To deploy these packages, run the following commands from this repository's root.
./idpbuilder create --package-dir examples/basic/package1 --package-dir examples/basic/package2
Running this command should create three additional ArgoCD applications in your cluster.
$ kubectl get Applications -n argocd -l example=basic
NAME SYNC STATUS HEALTH STATUS
guestbook Synced Healthy
guestbook2 Synced Healthy
my-app Synced Healthy
Let's break this down. The first package directory defines an application. This corresponds to the my-app
application above. In this application, we want to deploy manifests from local machine in GitOps way.
The directory contains an ArgoCD application file. This is a normal ArgoCD application file except for one field.
apiVersion: argoproj.io/v1alpha1
kind: Application
spec:
source:
repoURL: cnoe://manifests
The cnoe://
prefix in the repoURL
field indicates that we want to sync from a local directory.
Values after cnoe://
is treated as a relative path from this file. In this example, we are instructing idpbuilder to make ArgoCD sync from files in the manifests directory.
As a result the following actions were taken by idpbuilder:
- Create a Gitea repository.
- Fill the repository with contents from the manifests directory.
- Update the Application spec to use the newly created repository.
You can verify this by going to this address in your browser: https://gitea.cnoe.localtest.me:8443/giteaAdmin/idpbuilder-localdev-my-app-manifests
This is the repository that corresponds to the manifests folder.
It contains a file called alpine.yaml
, synced from the manifests
directory above.
You can also view the updated Application spec by going to this address: https://argocd.cnoe.localtest.me:8443/applications/argocd/my-app
The second package directory defines two normal ArgoCD applications referencing a remote repository. They are applied as-is.
If you'd like to contribute to the project or know the architecture and internals of this project, check out the contribution doc.
- Create a Codespaces instance.
- Wait for it to be ready. It may take several minutes.
- Get the latest release of idpbuilder:
version=$(curl -Ls -o /dev/null -w %{url_effective} https://github.com/cnoe-io/idpbuilder/releases/latest) version=${version##*/} curl -L -o ./idpbuilder.tar.gz "https://github.com/cnoe-io/idpbuilder/releases/download/${version}/idpbuilder-$(uname | awk '{print tolower($0)}')-$(uname -m | sed 's/x86_64/amd64/').tar.gz" tar xzf idpbuilder.tar.gz
- Run idpbuilder:
idpbuilder create --protocol http \ --host ${CODESPACE_NAME}-8080.${GITHUB_CODESPACES_PORT_FORWARDING_DOMAIN} \ --port 8080 --use-path-routing
- Because Codespaces gives a single externally routable host name for an instance, idpbuilder must deploy with path based routing.
This means ArgoCD and Gitea UIs are given with the following commands.
- ArgoCD:
echo https://${CODESPACE_NAME}-8080.${GITHUB_CODESPACES_PORT_FORWARDING_DOMAIN}/argocd
- Gitea:
echo https://${CODESPACE_NAME}-8080.${GITHUB_CODESPACES_PORT_FORWARDING_DOMAIN}/gitea
- ArgoCD:
- Note that not all examples work with path based routing.
We are actively working to include more patterns and examples of extending idpbuilder to get started easily.