This repository contains a reference GCP Platform Configuration for Crossplane. It's a great starting point for building internal cloud platforms with GCP and offer a self-service API to your internal development teams.
This platform provides APIs to provision fully configured GKE clusters, with secure networking, and stateful cloud services (Cloud SQL for PostgreSQL) designed to securely connect to the nodes in each GKE cluster — all composed using cloud service primitives from the Official Upbound GCP Provider. App deployments can securely connect to the infrastructure they need using secrets distributed directly to the app namespace.
This reference platform outlines a specialized API for generating an GKE cluster (XCluster) that incorporates XRs from the specified configurations:
- upbound-configuration-app
- upbound-configuration-gcp-database
- upbound-configuration-gcp-gke
- upbound-configuration-gcp-network
- upbound-configuration-gitops-flux
- upbound-configuration-observability-oss
graph LR;
MyApp(My App)---MyCluster(XRC: my-cluster);
MyCluster---XRD1(XRD: XCluster);
MyApp---MyDB(XRC: my-db);
MyDB---XRD2(XRD: XPostgreSQLInstance);
subgraph Configuration:upbound/platform-ref-gcp;
XRD1---Composition(XGKE, XNetwork, XServices);
XRD2---Composition2(Composition);
end
subgraph Provider:upbound/provider-gcp
Composition---Network.MRs(MRs: Network, Subnetwork);
Composition---GKE.MRs(MRs: Cluster, NodePool, ServiceAccount, ServiceAccountKey, ProjectIAMMember);
Composition2---Postgres.MRs(MRs: DatabaseInstance, User, Connection, GlobalAddress);
end
style MyApp color:#000,fill:#e6e6e6,stroke:#000,stroke-width:2px
style MyCluster color:#000,fill:#D68A82,stroke:#000,stroke-width:2px
style MyDB color:#000,fill:#D68A82,stroke:#000,stroke-width:2px
style Configuration:upbound/platform-ref-gcp fill:#f1d16d,opacity:0.3
style Provider:upbound/provider-gcp fill:#81CABB,opacity:0.3
style XRD1 color:#000,fill:#f1d16d,stroke:#000,stroke-width:2px,stroke-dasharray: 5 5
style XRD2 color:#000,fill:#f1d16d,stroke:#000,stroke-width:2px,stroke-dasharray: 5 5
style Composition color:#000,fill:#f1d16d,stroke:#000,stroke-width:2px
style Composition2 color:#000,fill:#f1d16d,stroke:#000,stroke-width:2px
style Network.MRs color:#000,fill:#81CABB,stroke:#000,stroke-width:2px
style GKE.MRs color:#000,fill:#81CABB,stroke:#000,stroke-width:2px
style Postgres.MRs color:#000,fill:#81CABB,stroke:#000,stroke-width:2px
Learn more about Composite Resources in the Crossplane Docs.
Before we can install the reference platform we want to install the up
CLI.
This is a utility that makes following this quickstart guide easier. Everything
described here can also be done in a declarative approach which we highly
recommend for any production type use-case.
To install up
run this install script:
curl -sL https://cli.upbound.io | sh
See up docs for more install options.
To intstall crossplane
CLI follow https://docs.crossplane.io/latest/cli/#installing-the-cli
For installing the platform we need a running Crossplane control plane. We are using Universal Crossplane (UXP) . Ensure that your kubectl context is pointing to the correct Kubernetes cluster or for example create a kind cluster:
kind create cluster
Finally install UXP into the upbound-system
namespace:
up uxp install --set='args[0]=--enable-usages'
We will need Usages alpha feature for the correct deployment and eventual de-provisioning of this reference platform.
You can validate the install by inspecting all installed components:
kubectl get all -n upbound-system
Now you can install this reference platform. It's packaged as a Crossplane configuration package so there is a single command to install it:
up ctp configuration install xpkg.upbound.io/upbound/platform-ref-gcp:v0.9.0
Validate the install by inspecting the provider and configuration packages:
kubectl get configurations,configurationrevisions
kubectl get configurations --watch
After all Configurations are ready, you can check the status of associated Providers that were pulled as dependencies
kubectl get providers,providerrevision
Check the marketplace for the latest version of this platform.
Before we can use the reference platform we need to configure it with GCP credentials.
Create a JSON gcp.json
key file containing the GCP account credentials. GCP provides documentation on how to create a key file.
Example gcp.json
key should look similar to the structure below:
{
"type": "service_account",
"project_id": "caramel-goat-354919",
"private_key_id": "e97e40a4a27661f12345678f4bd92139324dbf46",
"private_key": "-----BEGIN PRIVATE KEY-----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\nmjtDm7wtLVlTswYhP6AP69RoMQ==\n-----END PRIVATE KEY-----\n",
"client_email": "[email protected]",
"client_id": "103735491955093092925",
"auth_uri": "https://accounts.google.com/o/oauth2/auth",
"token_uri": "https://oauth2.googleapis.com/token",
"auth_provider_x509_cert_url": "https://www.googleapis.com/oauth2/v1/certs",
"client_x509_cert_url": "https://www.googleapis.com/robot/v1/metadata/x509/my-sa-313%40caramel-goat-354919.iam.gserviceaccount.com"
}
kubectl create secret generic gcp-creds -n upbound-system --from-file=credentials=./gcp.json
Ensure that the following roles are added to your service account:
roles/compute.networkAdmin
roles/container.admin
roles/iam.serviceAccountUser
roles/iam.securityAdmin
roles/iam.serviceAccountAdmin
roles/iam.serviceAccountKeyAdmin
roles/cloudsql.admin
It is convenient to assign roles with gcloud
CLI, e.g.
gcloud projects add-iam-policy-binding --role="$ROLE" $PROJECT_ID --member "serviceAccount:$SA"
kubectl apply -f https://raw.githubusercontent.com/upbound/platform-ref-gcp/main/examples/gcp-default-provider.yaml
See provider-gcp docs for more detailed configuration options.
🎉 Congratulations. You have just installed your first Crossplane powered platform!
Application developers can now use the platform to request resources which than will provisioned in GCP. This would usually done by bundling a claim as part of the application code. In our example here we simply create the claims directly:
Create a custom defined cluster:
kubectl apply -f https://raw.githubusercontent.com/upbound/platform-ref-gcp/main/examples/cluster-claim.yaml
Create a custom defined database:
kubectl apply -f https://raw.githubusercontent.com/upbound/platform-ref-gcp/main/examples/mariadb-claim.yaml
NOTE: The database abstraction relies on the cluster claim to be ready - it uses the same network to have connectivity with the EKS cluster.
Now deploy the sample application:
kubectl apply -f examples/app-claim.yaml
NOTE: application has a strong dependency on mariadb type of the database
You can verify status by inspecting the claims, composites and managed resources:
kubectl get claim,composite,managed
To get nice representation of the Claim deployment status you can use crossplane beta trace command
crossplane beta trace cluster.aws.platformref.upbound.io/platform-ref-aws
If you see an error about the compute.globalAddresses.list
permission for the project, try running the following gcloud command:
gcloud projects add-iam-policy-binding HOST_PROJECT_NAME \
--member=serviceAccount:service-HOST_PROJECT_NUMBER@service-networking.iam.gserviceaccount.com \
--role=roles/servicenetworking.serviceAgent
This recommendation is an excerpt from the official GCP documentation
To delete the provisioned resources, you would simply delete the claims again:
kubectl delete -f https://raw.githubusercontent.com/upbound/platform-ref-gcp/main/examples/cluster-claim.yaml,https://raw.githubusercontent.com/upbound/platform-ref-gcp/main/examples/mariadb-claim.yaml,https://raw.githubusercontent.com/upbound/platform-ref-gcp/main/examples/app-claim.yaml
To uninstall the provider & platform configuration:
kubectl delete configurations.pkg.crossplane.io upbound-platform-ref-gcp
kubectl delete configurations.pkg.crossplane.io upbound-configuration-app
kubectl delete configurations.pkg.crossplane.io upbound-configuration-gcp-database
kubectl delete configurations.pkg.crossplane.io upbound-configuration-gcp-gke
kubectl delete configurations.pkg.crossplane.io upbound-configuration-gcp-network
kubectl delete configurations.pkg.crossplane.io upbound-configuration-gitops-flux
kubectl delete configurations.pkg.crossplane.io upbound-configuration-observability-oss
kubectl delete provider.pkg.crossplane.io crossplane-contrib-provider-helm
kubectl delete provider.pkg.crossplane.io crossplane-contrib-provider-kubernetes
kubectl delete provider.pkg.crossplane.io grafana-provider-grafana
kubectl delete provider.pkg.crossplane.io upbound-provider-family-gcp
kubectl delete provider.pkg.crossplane.io upbound-provider-gcp-cloudplatform
kubectl delete provider.pkg.crossplane.io upbound-provider-gcp-compute
kubectl delete provider.pkg.crossplane.io upbound-provider-gcp-container
kubectl delete provider.pkg.crossplane.io upbound-provider-gcp-servicenetworking
kubectl delete provider.pkg.crossplane.io upbound-provider-gcp-sql
kubectl delete function.pkg.crossplane.io crossplane-contrib-function-patch-and-transform
So far we have used the existing reference platform but haven't made any changes. Lets change this and customize the platform by ensuring that GKE Cluster is deployed to Frankfurt (eu-central-1) and that clusters are limitted to 10 nodes.
For the following examples we are using my-org
and my-platform
:
ORG=my-org
PLATFORM=my-platform
First you need to create a free Upbound account to push your custom platform. Afterwards you can log in:
up login
To make your changes clone this repository:
git clone https://github.com/upbound/platform-ref-gcp.git $PLATFORM && cd $PLATFORM
To share your new platform you need to build and distribute this package.
To build the package use the up xpkg build
command:
up xpkg build --name package.xpkg --package-root=. --examples-root=examples --ignore=".github/workflows/*.yaml,.github/workflows/*.yml,examples/*.yaml,.work/uptest-datasource.yaml"
Afterwards you can push it to the marketplace. It will be not automatically listed but the OCI repository will be publicly accessible.
TAG=v0.1.0
up repo -a $ORG create ${PLATFORM}
up xpkg push ${ORG}/${PLATFORM}:${TAG} -f package.xpkg
Now to use your custom platform, you can pull the Configuration package from your repository
up ctp configuration install xpkg.upbound.io/${ORG}/${PLATFORM}:${TAG} --package-pull-secrets=personal-pull-secret
For alternative declarative installation approach see the example Configuration manifest. Please update to your org, platform and tag before applying.
🎉 Congratulations. You have just build and installed your first custom Crossplane powered platform!
For any questions, thoughts and comments don't hesitate to reach out or drop by slack.crossplane.io, and say hi!