Overview
What is Load Balancing?
Load balancing is a way of distributing traffic between multiple hosts within a single upstream cluster in order to effectively make use of available resources. There are many different ways of accomplishing this, so Envoy provides several different load balancing strategies. At a high level, we can break these strategies into two categories: global load balancing and distributed load balancing.
Distributed Load Balancing
Distributed load balancing refers to having Envoy itself determine how load should be distributed to the endpoints based on knowing the location of the upstream hosts.
Examples
Active health checking: by health checking upstream hosts, Envoy can adjust the weights of priorities and localities to account for unavailable hosts.
Zone aware routing: this can be used to make Envoy prefer closer endpoints without having to explicitly configure priorities in the control plane.
Load balancing algorithms: Envoy can use several different algorithms to use the provided weights to determine which host to select.
Global Load Balancing
Global load balancing refers to having a single, global authority that decides how load should be distributed between hosts. For Envoy, this would be done by the control plane, which is able to adjust the load applied to individual endpoints by specifying various parameters, such as priority, locality weight, endpoint weight and endpoint health.
A simple example would be to have the control plane assign hosts to different priorities based on network topology to ensure that hosts that require fewer network hops are preferred. This is similar to zone-aware routing, but is handled by the control plane instead of by Envoy. A benefit of doing it in the control plane is that it gets around some of the limitations of zone aware routing.
A more complicated setup could have resource usage being reported to the control plane, allowing it to adjust the weight of endpoints or localities to account for the current resource usage, attempting to route new requests to idle hosts over busy ones.
Both Distributed and Global
Most sophisticated deployments will make use of features from both categories. For instance, global load balancing could be used to define the high level routing priorities and weights, while distributed load balancing could be used to react to changes in the system (e.g. using active health checking). By combining these you can get the best of both worlds: a globally aware authority that can control the flow of traffic on the macro level while still having the individual proxies be able to react to changes on the micro level.