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iac

Our infrastructure as code.

Base infrastructure

Base infrastructure means infrastructure required for Cellenics to be deployed. This broadly corresponds to the kubernetes cluster and closely related infrastructure. This infrastructure is deployed manually by launching the action Deploy Biomage infrastructure from the actions. The configuration for these infraustructure components are under infra/.

Changing base infrastructure

The github workflow that triggers an update to the base infrastructure with the files in infra/ is deploy-infra.yaml. At the moment, this workflow has to be manually triggered for the update to happen. To trigger an update, you have to:

  1. Go to the Deploy Biomage infrastructure actions. Select Deploy Biomage infrastructure workflow from the list of workflows.

  2. Click on Run workflow dropdown on the right side of the top workflow result. With this dropdown, you will configure the inputs with which the workflow will be run.

  3. Use worklow from defines which changes the build will be run wuth. Make sure it is set to master to avoid situations when infrastructure changes from other branch are deployed and we have unknown state.

  4. Select actions to perform defines what kind of changes you want to apply to the infrastructure. There are 2 options available to select from:

    • deploy and configure: If you've made changes that require re-creation of the cluster. For example: changing the EC2 node type.
    • configure: The default option. If you've made changes that only require update of the configuratio of the existing cluster. Most of the time, you will need to use option configure.
  5. After you've made your selections, click run workflow. This will update or recreate and update the cluster in the AWS region specified using the state of the iac repo in the branch selected in use workflow from.

The Kubernetes Cluster

The cluster is deployed using eksctl by the CI pipeline. The corresponding ClusterConfig is available under infra/cluster.yaml.

Note: per the eksctl documentation, node groups are immutable. If you want to change the node group type, storage size, or any other property, you must delete the old node group from the configuration, and add a new one with a different name. eksctl will then appropriately drain and set up node groups.

The name of the EKS cluster is always biomage-$ENVIRONMENT, where $ENVIRONMENT is the cluster environment (staging or production). You must add $ENVIRONMENT as an environment variable or substitute it accordingly when you run these commands.

Accessing the cluster

By default, eksctl only grants cluster admin rights to the user that created the cluster, i.e. the CI user for the GitHub repo. The file infra/cluster_admins contains a list of IAM users for whom admin rights will be granted. The file infra/cluster_users contains a list of IAM users that have only user rights granted.

1. Make sure you have the correct aws credentials set in your ~/.aws/credentials file.

To check if your credentials are correct, try running step 2. If step 2 fails with an error saying error: You must be logged in to the server (Unauthorized) this means that your current credentials are wrong. In that case, talk to Iva to give you correct ones.

2. Configure kube config to point to the right cluster.

This step guides you through how to configure your kubeconfig file in order to have access to the cluster locally. In a new terminal, execute the following commands:

# remove the old config so that accidental operations on the
# wrong cluster are prevented.
$ rm ~/.kube/config

# grant access to the cluster.
$ aws eks update-kubeconfig --name biomage-$ENVIRONMENT --region eu-west-1

# Verify that all worked fine: execute get nodes command
# If everything is working, you should see something similar to this:
# NAME                                           STATUS   ROLES    AGE   VERSION
# ip-192-168-33-132.eu-west-1.compute.internal   Ready    <none>   40h   v1
# ip-192-168-81-140.eu-west-1.compute.internal   Ready    <none>   40h   v1

$ kubectl get nodes

3. Access the cluster graphically

This step is optional and lets you use a nice intuitive user interface to interact with Kubernetes. Simply download and install lens and then follow the instructions specified there.

Ingress

Ingress into the cluster is managed by the AWS Load Balancer Controller.

After the AWS Load Balancer Controller is installed, the DNS of the hosted domain must be modified to redirect to the load balancer automatically. This is done automatically as a CloudFormation chart under infra/cf-route53.yaml.

Ingress resources need to specify the following in their annotations for them to be managed by the AWS Load Balancer Controller:

kubernetes.io/ingress.class: alb

This is automatically configured for the charts in this repository.

Important: When the cluster is (re)deployed, there may be a delay in the DNS changes propagating to all hosts on the internet. If redeploying the infrastructure to another region, make sure the old deployment still exists. There can only be one deployment bound to the domain at any given time. Destroying the old deployment before creating the new one will result in downtime.

Deployments

Deployments refer to the instances of various services running to use the single-cell pipeline, e.g. ui, api, worker copies. Deployments are managed automatically by Flux.

Flux

Flux is a GitOps Continuous Delivery platform. It is deployed on the cluster alongside all other base infrastructure. It manages custom resources called HelmRelease. A HelmRelease contains data identifying the Helm Chart that is to be deployed, as well as any custom configuration to the chart that may be necessary. Broadly, it is designed to automate manual helm install or helm upgrade operations.

Flux is granted read and write access to this repository by the deploy script. This is by automatically creating/updating a deploy key for this repository by the base infrastructure deployment workflow.

Releases

Flux running on the $ENVIRONMENT cluster is continuously scanning the releases/$ENVIRONMENT/ folder in this directory for updates. When a change to a file in the releases/$ENVIRONMENT/ folder is found, Flux will automaticlly apply those changes to the Helm chart release on the cluster. For example, if a ui deployment needs to run on a non-standard port, the HelmRelease resource corresponding to this deployment is pushed to GitHub, and these changes are automatically picked up applied on the cluster.

Each repository corresponding to a deployment is responsible for managing its own HelmRelease resource in this repository. See the section on CI for more details, and this explanation of how Flux works.

Important: Accordingly, the path releases/ is automatically populated by the CI/CD pipelines of various Biomage deployments. Do not commit, push, or submit a pull request to change manifests in this directory. Pull requests attempting to modify files except documentation in this directory will be automatically rejected.

Charts

The charts/ folder contains various pre-written charts that are widely useful for deployments. For example, the charts/nodejs chart is for deploying a Node.js server, which is used by both ui and api in their HelmRelease configurations.

AWS resources

AWS resources refer to things not described above that can be managed and configured using CloudFormation e.g. DynamoDB tables, ElastiCache Redis clusters, S3 buckets, etc. These are managed automatically by a GitHub action, and they are available under cf/.

General resources

Resources under cf/ are CloudFormation templates that describe a particular deployment. Changes to cf/ files are automatically picked up and deployed by the CI pipeline.

Important: Make sure each template covers a broadly related group of resources, ideally consisting of only one type of resource. This ensures applying changes is as easy as possible.

Each CloudFormation template must have an Environment parameter that accepts a valid cluster environment (staging, production) or development. The development environment is used by InfraMock for local mocking of the resource. Templates should use this variable to create environment-specific resources.

Important: Always use the available AWS::Region and AWS::AccountId variables when writing CloudFormation templates. This ensures that the resources are portable to various regions and account IDs.

IAM Roles for Service Accounts (IRSA) resources

These are a special type of resource, identified by files in the irsa-*.yaml format. They are used by AWS to grant a limited set of permissions to each deployment.

They are regular CloudFormation templates, but they must also accept an OIDCProvider parameter, which is automatically filled in by the pipeline when the changes are applied. This is used to ensure the role is only granted to the appropriate service account. See here for more details.

The AssumeRolePolicyDocument is filled in per the documentation above. Ensure that the policy follows least privilege in who can access the resources, at least specifying the correct deployment source and the name of the service account, e.g.:

system:serviceaccount:worker-*:deployment-runner

The permissions are configured as with any other IAM Role deployment. Make sure these follow best practice, with each resource appropriately scoped by account ID, region, environment, etc.

Continuous Integration

CI is managed by GitHub actions. Each repository has its own custom CI pipeline, but they broadly follow a Test > Build > Push image > Push HelmRelease pattern.

Images

Docker images are built by CI and pushed to AWS ECR. Each repository should have a container repository with the same name in ECR. This repository should be checked and created by CI if it is not present.

Deployment

Each repository is responsible for managing its own HelmRelease files. Each repository that deploys a HelmRelease should have a .flux.ci file that contains the base template that the CI pipeline will fill in and extend. The CI pipeline for a given project will push this filled template to this repository under releases/ for Flux to pick it up.

CI privileges

Each CI pipeline needs a certain set of permissions from both GitHub and AWS to operate. AWS privileges that should be available to the CI pipeline should be placed under .ci.yaml.

Changes to CI privileges must be deployed manually by someone with sufficient access by running biomage rotate-ci using biomage-utils.

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