Hypper provides Kubernetes package management for cluster admins. It is a package manager built on Helm and inspired by other package managers like zypper.
Why build a package manager on a package manager? Helm is a package manager that tries to make few assumptions. For example, Custom Resource Definitions (CRD)s are a Kubernetes resource that extend the Kubernetes API. They can be used in various ways and there are pitfalls with them. Helm makes very few assumptions when it comes to them. Hypper is going to make some different assumptions which will result in different features.
As differences between Hypper and Helm arise they will be documented along with the reasons for the difference. This is in an effort to provide clarity.
When features from Hypper can be upstreamed into Helm they will be. In that way, Hypper can act as a testing ground for Helm. We do not expect that every feature will fit in upstream Helm.
A second element in the difference is that Helm, as a package manager, does not handle environment deployment operations. Those are left to higher level tools like Helmfile (a push model like Ansible) and the Flux Helm Operator (a pull model like Chef). Helm expects higher level tools will use Helm and charts for operating in different environments.
Hypper makes some assumptions that move it more towards the environment management. This is in a different way from Helmfile or the Flux Helm Operator, but further than Helm nevertheless.
When dealing with system level charts you may want to have them be installed in the same namespace or with the same release name everywhere. For example, when you install a cluster wide logging service. With Hypper, you can capture this information as an annotation and only specify a different one if you want to override the default. Then when you tell Hypper to install your service it will be installed to the same location, in a repeatable manner.
Sometimes you want to have a shared system dependency. For example, you may want to have just a single Prometheus or Istio in a cluster. When you install an application that depends on this shared dependency you want to install it if not present and leverage the existing one if present.
The additional metadata to signify these relationships will be stored as Helm chart annotations.
There are occasions where you may want a shared dependency to be optional. Instead of being checked and installed all the time you want Hypper to prompt you about using it. Or, you can tell it what to do using flags.
Hypper provides this ability for the direct chart you want to install and the additional metadata is stored in annotations.
Hypper provides both a client application you can use in a terminal and a SDK in Go that you can use for the development of your applications. The documentation provided here primarily focuses on chart customizations for Hypper and the client application.
The SDK documentation can be found at
The client source provides an example of using the SDK and is in the