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Demo of how Gateway API can be used with Cilium

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cilium-gateway-api

The main purpose of this repository is to demonstrate how Cilium implements the ☸ Gateway-API standard. Here is the related blog post.

⚠️⚠️ Deprecated please refer to the Cloud Native Reference repo for an up to date example ⚠️⚠️

overview

This repository also is a reference for configuring a platform with the following key points:

  • An EKS cluster deployed using Terraform (here for details)
  • Cilium is installed as the drop-in replacement of the AWS CNI in kube-proxy less mode AND using a distinct daemonSet for Envoy (L7 loadbalancing)
  • Everything is deployed the GitOps way using Flux
  • Crossplane is used to configure IAM permissions required by the platform components
  • Manage DNS records automatically using External-DNS
  • Manage secrets from AWS secrets manager using External-Secrets

🔄 Dependencies matter

graph TD;
    Namespaces-->CRDs;
    CRDs-->Observability;
    CRDs-->Security;
    CRDs-->Infrastructure;
    Crossplane-->Infrastructure;
    Crossplane-->Security;
    Observability-->Apps;
    Infrastructure-->Apps;
    Security-->Apps;
    Security-->Observability;
    Security-->Infrastructure
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This diagram can be hard to understand so these are the key information:

  • Namespaces are the first resources to be created, all other resources may be namespace scoped
  • CRDs that allow to extend Kubernetes capabilities must be present in order to use them in all other applications when needed.
  • Crossplane creates IRSA permissions which are required by some components
  • Security defines external-secrets that are needed by some applications in order to start. Furthermore there may be kyverno mutating policies that must be there before the resources they are targeting.

⚙️ Flux variables substitutions

Variables substitions is a very powerful Flux's feature that allows to reduce at its bare minimum code deduplication.

This has been covered in this previous article.

❓ How is Crossplane used

Basically Crossplane allows to provision and manage Cloud Infrastructure (and even more) using the native Kubernetes features.

It needs to be installed and set up in three successive steps:

  1. Installation of the Kubernetes operator
  2. Deployment of the AWS provider, which provides custom resources, including AWS roles, policies, etc.
  3. Installation of compositions that will generate AWS resources.

There is a unique composition here: irsa that allows to provide fine-grained permissions to a few Kubernetes operators.

⚠️ This repository sets up a central EKS management cluster, and there are some security considerations to be aware of, particularly concerning AWS permissions. Specifically, Crossplane is able to manage (and even create) IAM roles with the prefix xplane-. Thus, if it's compromised, there's a potential to create a role with full admin privileges.

IRSA example with external-dns

I utilize a Compostion provided by Upbound (the company behind Crossplane) available here. I've made minor adjustments to ensure that it works fine with the Terraform/Flux bootstrapping approach used in this repository.

Here's is how to use the composition:

apiVersion: aws.platformref.upbound.io/v1alpha1
kind: IRSA
metadata:
    name: xplane-external-dns-${cluster_name}
spec:
    deletionPolicy: Delete
    parameters:
        condition: StringEquals
        # Reference: https://kubernetes-sigs.github.io/external-dns/v0.13.4/tutorials/aws/#iam-policy
        policyDocument: |
            {
                "Version": "2012-10-17",
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Action": [
                            "route53:ChangeResourceRecordSets"
                        ],
                        "Resource": [
                            "arn:aws:route53:::hostedzone/*"
                        ]
                    },
                    {
                        "Effect": "Allow",
                        "Action": [
                            "route53:ListHostedZones",
                            "route53:ListResourceRecordSets"
                        ],
                        "Resource": [
                            "*"
                        ]
                    }
                ]
            }

        serviceAccount:
            name: external-dns
            namespace: kube-system

This is pretty straightforward! We define the policy and the serviceAccount to which it has to be associated then we have to wait a few seconds until the claims are ready and synced.

ℹ️ Under the hood each IRSA resource creates 3 things: A role, a rolePolicy and a rolePolicyAttachment.

kubectl get irsa --all-namespaces
NAMESPACE     NAME                                         SYNCED   READY   CONNECTION-SECRET   AGE
kube-system   xplane-external-dns-mycluster-0              True     True                        30m
kube-system   xplane-loadbalancer-controller-mycluster-0   True     True                        30m
security      xplane-cert-manager-mycluster-0              True     True                        32m
security      xplane-external-secrets-mycluster-0          True     True                        32m

CI

2 things are checked

  • The terraform code quality, conformance and security using pre-commit-terraform.
  • The kustomize and Kubernetes conformance using kubeconform and building the kustomize configuration.

In order to run the CI checks locally just run the following command

ℹ️ It requires task to be installed

 task check

The same tasks are run in Github Actions.

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