Loft Labs announced a partnership with Docker, Inc.,
a leading provider of cloud-native application development tools,
content, and services for developers, so that Docker Desktop users can
now set up and manage virtual Kubernetes clusters.
Recently, Docker announced the
launch of an extensions API (application programming interface) called
Docker Extensions that enables partners to extend Docker Desktop
capabilities with additional capabilities for developers. With this
announcement, Loft introduces an extension for open source vcluster that
makes it easy to create and manage virtual clusters in Docker Desktop.
"This
brings together two hugely popular technologies and integrates the
functions of vcluster for the users of Docker Desktop who are
increasingly working in Kubernetes," said Lukas Gentele, co-founder and
CEO, Loft Labs. "Using their familiar Docker Desktop, users are able to
set up as many different virtual Kubernetes clusters as needed for
development, testing, as well as production."
Now, millions of Docker Desktop developers can leverage open source vcluster running in Docker Desktop.
With vcluster, users can create virtual clusters which are easy to
pause and resume. This is ideal for developers that need to set up
different development and testing configurations which is easy to do and
can all be run as virtual clusters in Kubernetes - much like virtual
machines on a server.
Docker
Desktop runs on Linux, MacOS, and Windows machines and is used to build
and share containerized applications and microservices.
"Docker
is obsessed with developer ergonomics and is committed to filling and
improving the developer experience gap," said Jake Levirne, head of
product at Docker. "We welcome Loft Labs to the Docker Extension
marketplace, expanding the applications and capabilities available for
millions of registered Docker developers."
First launched in April 2021,
vcluster has quickly gained popularity with more than 500,000 downloads
and over 1,300 stars on GitHub. It is used to create lightweight
Kubernetes clusters that run inside the namespaces of underlying
Kubernetes clusters. Using virtual clusters solves the majority of
multi-tenancy issues of Kubernetes because they offer:
- Better isolation than simple namespace-based multi-tenancy;
- Reduced
cloud computing cost because virtual clusters are much more lightweight
and resource-efficient than spinning up separate single-tenant
clusters;
- Logical
separation and encapsulation of application workloads from the
underlying cluster's shared infrastructure workloads (such as shared
ingress controller or network plug-ins).
At
the same time, virtual cluster users can expect that their virtual
cluster behaves just like any regular Kubernetes cluster because vcluster is a certified Kubernetes distribution, which means that it passes all conformance tests that CNCF requires.
Virtual clusters are often used as development environments when
engineers are building, testing and debugging cloud-native software, but
they are also frequently used as ephemeral environments for executing
continuous integration/continuous delivery (CI/CD) pipelines.