Istio Usage in Kubeflow

Overview of how Kubeflow uses Istio

Kubeflow v0.6 onwards deploys Istio along with configuration to enable end-to-end authentication and access control. This setup is the foundation of multi-tenancy support in Kubeflow. A Kubeflow deployment without Istio is not possible.

A gentle introduction to Istio

Many modern applications are built using distributed microservice architecture. This ensures that each individual service is simple and has a well-defined responsibility. Complex systems and platforms are generally built by combining many such microservices. Each microservice defines its own APIs and the services interact with each other using these APIs in order to serve end-user requests.

The term service mesh is used to describe the network of microservices that make up such applications and the interactions between them. As a service mesh grows in size and complexity, it can become harder to understand and manage. Its requirements can include discovery, load balancing, failure recovery, metrics, and monitoring. A service mesh also often has more complex operational requirements, like A/B testing, canary rollouts, rate limiting, access control, and end-to-end authentication.

Istio is a pioneering and highly performant open source implementation of service mesh by Google. For further details, you can read the conceptual overview of Istio.

Why Kubeflow needs Istio

Kubeflow is a collection of tools, frameworks and services that are deployed together into a single Kubernetes cluster to enable end-to-end ML workflows. Most of these components or services are developed independently and help with different parts of the workflow. Developing a complete ML workflow or an ML development environment requires combining multiple services and components. Kubeflow provides the underlying infrastructure that makes it possible to put such disparate components together.

Kubeflow uses Istio as a uniform way to secure, connect, and monitor microservices.

For example, Kubeflow uses Istio for:

  • Securing service-to-service communication in a Kubeflow deployment with strong identity-based authentication and authorization.
  • A policy layer for supporting access controls and quotas.
  • Automatic metrics, logs, and traces for traffic within the deployment including cluster ingress and egress.

Istio in Kubeflow

The following diagram illustrates how user requests interact with services in Kubeflow. It walks through the process when a user requests to create a new notebook server via the Notebooks Servers UI accessible through the Kubeflow Central Dashboard.

Select active profile

  1. The user request is intercepted by an identification proxy which talks to a SSO service provider such as IAM on Cloud Services Provider or Active Directory/LDAP on-premises.
  2. When the user is authenticated, the request is modified by the Istio Gateway to include a JWT Header token containing the identity of the user. All requests throughout the service mesh carry this token along.
  3. The Istio RBAC policies are applied on the incoming request to validate the access to the service and the requested namespace. If either of those are inaccessible to the user, an error response is sent back.
  4. If the request is validated, it is forwarded to the appropriate controller (Notebooks Controller in this case).
  5. Notebooks Controller validates authorization with Kubernetes RBAC and creates the notebook pod in the namespace that the user requested.

Further actions by the user with the notebook to create training jobs or other resources in the namespace go through a similar process. Profiles Controller manages the creation of profiles, and creates and applies appropriate Istio policies. For more details, please see the docs about profiles and namespaces.

Deploying Kubeflow without Istio

Currently, it is not possible to deploy Kubeflow without Istio. Kubeflow needs the Istio Custom Resource Definitions (CRDs) to express the new route to access the created Notebook from the Gateway.

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