MetalLB is a load-balancer implementation for bare metal Kubernetes clusters, using standard routing protocols.
Despite the beta status of the project / API, MetalLB is known to be stable and reliable.
The project maturity page explains what that implies.
Kubernetes does not offer an implementation of network load balancers (Services of type LoadBalancer) for bare-metal clusters. The implementations of network load balancers that Kubernetes does ship with are all glue code that calls out to various IaaS platforms (GCP, AWS, Azure…). If you’re not running on a supported IaaS platform (GCP, AWS, Azure…), LoadBalancers will remain in the “pending” state indefinitely when created.
Bare-metal cluster operators are left with two lesser tools to bring user traffic into their clusters, “NodePort” and “externalIPs” services. Both of these options have significant downsides for production use, which makes bare-metal clusters second-class citizens in the Kubernetes ecosystem.
MetalLB aims to redress this imbalance by offering a network load balancer implementation that integrates with standard network equipment, so that external services on bare-metal clusters also “just work” as much as possible.
MetalLB requires the following to function:
Previous versions of MetalLB are configurable via a
configmap. However, starting from the version
v0.13.0, it will be possible to configure it only via CRs. A tool to convert old configmaps to CRs
is provided as a container image under
MetalLB implements a FRR Mode that uses an FRR container as the backend for handling BGP sessions. It provides features that are not available with the native BGP implementation, such as pairing BGP sessions with BFD sessions, and advertising IPV6 addresses.
Despite being less battle tested than the native BGP implementation, the FRR mode is currently used by those users that require either BFD or IPV6, and it is the only supported method in the MetalLB version distributed with OpenShift. The long term plan is to make it the only BGP implementation available in MetalLB.
Please see the installation section for instructions on how to enable it.
We welcome contributions in all forms. Please check out the contributing guide for more information.
One lightweight way you can contribute is to tell us that you’re using MetalLB, which will give us warm fuzzy feelings :).
We are a Cloud Native Computing Foundation sandbox project.