Load Balancing
In a Kubernetes cluster, depending on the flow of traffic direction, there are two kinds of load balancing:
Load balancing for the traffic within a Kubernetes cluster
Load balancing for the traffic coming from outside the cluster
Load Balancing for Internal Traffic
Load balancing within a Kubernetes cluster is accessed through a ClusterIP
service type. ClusterIP
presents a single IP address to the client and load balances the traffic going to this IP to the backend servers. The actual load balancing happens using iptables
or IPVS configuration. The kube-proxy
Kubernetes component programs these. The iptables
mode of operation uses DNAT rules to distribute direct traffic to real servers, whereas IPVS leverages in-kernel transport-layer load-balancing. Read a comparison between these two methods. By default, kube-proxy
runs in iptables
mode. The kube-proxy configuration can be altered by updating the kube-proxy
configmap in the kube-system
namespace.
Load Balancing for External Traffic
External traffic destined for the Kubernetes service requires a service of type LoadBalancer
, through which external clients connect to your internal service. Under the hood, it uses a load balancer provided by the underlying infrastructure to direct the traffic.
In DKP environments, the external load balancer must be configured without TLS termination.
In the Cloud
In cloud deployments, the load balancer is provided by the cloud provider. For example, in AWS, the service controller communicates with the AWS API to provision an ELB service which targets the cluster nodes.
On-premises
For an on-premises deployment, DKP ships with MetalLB, which provides load-balancing services. The environments that use MetalLB are pre-provisioned and vSpere infrastructures.
For more information on how to configure MetalB for these environments, refer to the following pages:
Custom Load Balancer for External Traffic
If you want to use a non-DKP load balancer for external traffic, see Install Kommander with an External Load Balancer.