virtualkubelet

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Published: Apr 2, 2023 License: Apache-2.0 Imports: 0 Imported by: 0

README

Virtual Kubelet

Go Reference

Virtual Kubelet is an open source Kubernetes kubelet implementation that masquerades as a kubelet for the purposes of connecting Kubernetes to other APIs. This allows the nodes to be backed by other services like ACI, AWS Fargate, IoT Edge, Tensile Kube etc. The primary scenario for VK is enabling the extension of the Kubernetes API into serverless container platforms like ACI and Fargate, though we are open to others. However, it should be noted that VK is explicitly not intended to be an alternative to Kubernetes federation.

Virtual Kubelet features a pluggable architecture and direct use of Kubernetes primitives, making it much easier to build on.

We invite the Kubernetes ecosystem to join us in empowering developers to build upon our base. Join our slack channel named, virtual-kubelet, within the Kubernetes slack group.

The best description is "Kubernetes API on top, programmable back."

Table of Contents

How It Works

The diagram below illustrates how Virtual-Kubelet works.

diagram

Usage

Virtual Kubelet is focused on providing a library that you can consume in your project to build a custom Kubernetes node agent.

See godoc for up to date instructions on consuming this project: https://godoc.org/github.com/virtual-kubelet/virtual-kubelet

There are implementations available for several providers, see those repos for details on how to deploy.

Current Features

  • create, delete and update pods
  • container logs, exec, and metrics
  • get pod, pods and pod status
  • capacity
  • node addresses, node capacity, node daemon endpoints
  • operating system
  • bring your own virtual network

Providers

This project features a pluggable provider interface developers can implement that defines the actions of a typical kubelet.

This enables on-demand and nearly instantaneous container compute, orchestrated by Kubernetes, without having VM infrastructure to manage and while still leveraging the portable Kubernetes API.

Each provider may have its own configuration file, and required environmental variables.

Providers must provide the following functionality to be considered a supported integration with Virtual Kubelet.

  1. Provides the back-end plumbing necessary to support the lifecycle management of pods, containers and supporting resources in the context of Kubernetes.
  2. Conforms to the current API provided by Virtual Kubelet.
  3. Does not have access to the Kubernetes API Server and has a well-defined callback mechanism for getting data like secrets or configmaps.
Admiralty Multi-Cluster Scheduler

Admiralty Multi-Cluster Scheduler mutates annotated pods into "proxy pods" scheduled on a virtual-kubelet node and creates corresponding "delegate pods" in remote clusters (actually running the containers). A feedback loop updates the statuses and annotations of the proxy pods to reflect the statuses and annotations of the delegate pods. You can find more details in the Admiralty Multi-Cluster Scheduler documentation.

Alibaba Cloud ECI Provider

Alibaba Cloud ECI(Elastic Container Instance) is a service that allow you run containers without having to manage servers or clusters.

You can find more details in the Alibaba Cloud ECI provider documentation.

Configuration File

The alibaba ECI provider will read configuration file specified by the --provider-config flag.

The example configure file is in the ECI provider repository.

Azure Container Instances Provider

The Azure Container Instances Provider allows you to utilize both typical pods on VMs and Azure Container instances simultaneously in the same Kubernetes cluster.

You can find detailed instructions on how to set it up and how to test it in the Azure Container Instances Provider documentation.

Configuration File

The Azure connector can use a configuration file specified by the --provider-config flag. The config file is in TOML format, and an example lives in providers/azure/example.toml.

AWS Fargate Provider

AWS Fargate is a technology that allows you to run containers without having to manage servers or clusters.

The AWS Fargate provider allows you to deploy pods to AWS Fargate. Your pods on AWS Fargate have access to VPC networking with dedicated ENIs in your subnets, public IP addresses to connect to the internet, private IP addresses to connect to your Kubernetes cluster, security groups, IAM roles, CloudWatch Logs and many other AWS services. Pods on Fargate can co-exist with pods on regular worker nodes in the same Kubernetes cluster.

Easy instructions and a sample configuration file is available in the AWS Fargate provider documentation. Please note that this provider is not currently supported.

Elotl Kip

Kip is a provider that runs pods in cloud instances, allowing a Kubernetes cluster to transparently scale workloads into a cloud. When a pod is scheduled onto the virtual node, Kip starts a right-sized cloud instance for the pod's workload and dispatches the pod onto the instance. When the pod is finished running, the cloud instance is terminated.

When workloads run on Kip, your cluster size naturally scales with the cluster workload, pods are strongly isolated from each other and the user is freed from managing worker nodes and strategically packing pods onto nodes.

HashiCorp Nomad Provider

HashiCorp Nomad provider for Virtual Kubelet connects your Kubernetes cluster with Nomad cluster by exposing the Nomad cluster as a node in Kubernetes. By using the provider, pods that are scheduled on the virtual Nomad node registered on Kubernetes will run as jobs on Nomad clients as they would on a Kubernetes node.

For detailed instructions, follow the guide here.

Liqo Provider

Liqo implements a provider for Virtual Kubelet designed to transparently offload pods and services to "peered" Kubernetes remote cluster. Liqo is capable of discovering neighbor clusters (using DNS, mDNS) and "peer" with them, or in other words, establish a relationship to share part of the cluster resources. When a cluster has established a peering, a new instance of the Liqo Virtual Kubelet is spawned to seamlessly extend the capacity of the cluster, by providing an abstraction of the resources of the remote cluster. The provider combined with the Liqo network fabric extends the cluster networking by enabling Pod-to-Pod traffic and multi-cluster east-west services, supporting endpoints on both clusters.

For detailed instruction, follow the guide here

OpenStack Zun Provider

OpenStack Zun provider for Virtual Kubelet connects your Kubernetes cluster with OpenStack in order to run Kubernetes pods on OpenStack Cloud. Your pods on OpenStack have access to OpenStack tenant networks because they have Neutron ports in your subnets. Each pod will have private IP addresses to connect to other OpenStack resources (i.e. VMs) within your tenant, optionally have floating IP addresses to connect to the internet, and bind-mount Cinder volumes into a path inside a pod's container.

./bin/virtual-kubelet --provider="openstack"

For detailed instructions, follow the guide here.

Tensile Kube Provider

Tensile kube is contributed by tencent games, which is provider for Virtual Kubelet connects your Kubernetes cluster with other Kubernetes clusters. This provider enables us extending Kubernetes to an unlimited one. By using the provider, pods that are scheduled on the virtual node registered on Kubernetes will run as jobs on other Kubernetes clusters' nodes.

Adding a New Provider via the Provider Interface

Providers consume this project as a library which implements the core logic of a Kubernetes node agent (Kubelet), and wire up their implementation for performing the neccessary actions.

There are 3 main interfaces:

PodLifecylceHandler

When pods are created, updated, or deleted from Kubernetes, these methods are called to handle those actions.

godoc#PodLifecylceHandler

type PodLifecycleHandler interface {
    // CreatePod takes a Kubernetes Pod and deploys it within the provider.
    CreatePod(ctx context.Context, pod *corev1.Pod) error

    // UpdatePod takes a Kubernetes Pod and updates it within the provider.
    UpdatePod(ctx context.Context, pod *corev1.Pod) error

    // DeletePod takes a Kubernetes Pod and deletes it from the provider.
    DeletePod(ctx context.Context, pod *corev1.Pod) error

    // GetPod retrieves a pod by name from the provider (can be cached).
    GetPod(ctx context.Context, namespace, name string) (*corev1.Pod, error)

    // GetPodStatus retrieves the status of a pod by name from the provider.
    GetPodStatus(ctx context.Context, namespace, name string) (*corev1.PodStatus, error)

    // GetPods retrieves a list of all pods running on the provider (can be cached).
    GetPods(context.Context) ([]*corev1.Pod, error)
}

There is also an optional interface PodNotifier which enables the provider to asynchronously notify the virtual-kubelet about pod status changes. If this interface is not implemented, virtual-kubelet will periodically check the status of all pods.

It is highly recommended to implement PodNotifier, especially if you plan to run a large number of pods.

godoc#PodNotifier

type PodNotifier interface {
    // NotifyPods instructs the notifier to call the passed in function when
    // the pod status changes.
    //
    // NotifyPods should not block callers.
    NotifyPods(context.Context, func(*corev1.Pod))
}

PodLifecycleHandler is consumed by the PodController which is the core logic for managing pods assigned to the node.

	pc, _ := node.NewPodController(podControllerConfig) // <-- instatiates the pod controller
	pc.Run(ctx) // <-- starts watching for pods to be scheduled on the node
NodeProvider

NodeProvider is responsible for notifying the virtual-kubelet about node status updates. Virtual-Kubelet will periodically check the status of the node and update Kubernetes accordingly.

godoc#NodeProvider

type NodeProvider interface {
    // Ping checks if the node is still active.
    // This is intended to be lightweight as it will be called periodically as a
    // heartbeat to keep the node marked as ready in Kubernetes.
    Ping(context.Context) error

    // NotifyNodeStatus is used to asynchronously monitor the node.
    // The passed in callback should be called any time there is a change to the
    // node's status.
    // This will generally trigger a call to the Kubernetes API server to update
    // the status.
    //
    // NotifyNodeStatus should not block callers.
    NotifyNodeStatus(ctx context.Context, cb func(*corev1.Node))
}

Virtual Kubelet provides a NaiveNodeProvider that you can use if you do not plan to have custom node behavior.

godoc#NaiveNodeProvider

NodeProvider gets consumed by the NodeController, which is core logic for managing the node object in Kubernetes.

	nc, _ := node.NewNodeController(nodeProvider, nodeSpec) // <-- instantiate a node controller from a node provider and a kubernetes node spec
	nc.Run(ctx) // <-- creates the node in kubernetes and starts up he controller
API endpoints

One of the roles of a Kubelet is to accept requests from the API server for things like kubectl logs and kubectl exec. Helpers for setting this up are provided here

Scrape Pod metrics

If you want to use HPA(Horizontal Pod Autoscaler) in your cluster, the provider should implement the GetStatsSummary function. Then metrics-server will be able to get the metrics of the pods on virtual-kubelet. Otherwise, you may see No metrics for pod on metrics-server, which means the metrics of the pods on virtual-kubelet are not collected.

Testing

Unit tests

Running the unit tests locally is as simple as make test.

End-to-end tests

Check out test/e2e for more details.

Known quirks and workarounds

Missing Load Balancer IP addresses for services
Providers that do not support service discovery

Kubernetes 1.9 introduces a new flag, ServiceNodeExclusion, for the control plane's Controller Manager. Enabling this flag in the Controller Manager's manifest allows Kubernetes to exclude Virtual Kubelet nodes from being added to Load Balancer pools, allowing you to create public facing services with external IPs without issue.

Workaround

Cluster requirements: Kubernetes 1.9 or above

Enable the ServiceNodeExclusion flag, by modifying the Controller Manager manifest and adding --feature-gates=ServiceNodeExclusion=true to the command line arguments.

Contributing

Virtual Kubelet follows the CNCF Code of Conduct. Sign the CNCF CLA to be able to make Pull Requests to this repo.

Monthly Virtual Kubelet Office Hours are held at 10am PST on the second Thursday of every month in this zoom meeting room. Check out the calendar here.

Our google drive with design specifications and meeting notes are here.

We also have a community slack channel named virtual-kubelet in the Kubernetes slack. You can also connect with the Virtual Kubelet community via the mailing list.

Documentation

Overview

Package virtualkubelet is currently just for providing docs for godoc.

Virtual Kubelet is a project which aims to provide a library that can be consumed by other projects to build a Kubernetes node agent that performs the same basic role as the Kubelet, but fully customize the behavior.

*Note*: Virtual Kubelet is not the Kubelet.

All of the business logic for virtual-kubelet is in the `node` package. The node package has controllers for managing the node in Kubernetes and running scheduled pods against a backend service. The backend service along with the code wrapping what is provided in the node package is what consumers of this project would implement. In the interest of not duplicating examples, please see that package on how to get started using virtual kubelet.

Virtual Kubelet supports propagation of logging and traces through a context. See the "log" and "trace" packages for how to use this.

Errors produced by and consumed from the node package are expected to conform to error types defined in the "errdefs" package in order to be able to understand the kind of failure that occurred and react accordingly.

Directories

Path Synopsis
cmd
Package errdefs defines the error types that are understood by other packages in this project.
Package errdefs defines the error types that are understood by other packages in this project.
internal
manager
Package manager provides access to kubernetes resources for providers.
Package manager provides access to kubernetes resources for providers.
log
Package log defines the interfaces used for logging in virtual-kubelet.
Package log defines the interfaces used for logging in virtual-kubelet.
klogv2
Package klogv2 implements a virtual-kubelet/log.Logger using klogv2 as a backend
Package klogv2 implements a virtual-kubelet/log.Logger using klogv2 as a backend
logrus
Package logrus implements a github.com/virtual-kubelet/virtual-kubelet/log.Logger using Logrus as a backend You can use this by creating a logrus logger and calling `FromLogrus(entry)`.
Package logrus implements a github.com/virtual-kubelet/virtual-kubelet/log.Logger using Logrus as a backend You can use this by creating a logrus logger and calling `FromLogrus(entry)`.
Package node implements the components for operating a node in Kubernetes.
Package node implements the components for operating a node in Kubernetes.
api
Package api implements HTTP handlers for handling requests that the kubelet would normally implement, such as pod logs, exec, etc.
Package api implements HTTP handlers for handling requests that the kubelet would normally implement, such as pod logs, exec, etc.
test
e2e
Package trace abstracts virtual-kubelet's tracing capabilities into a set of interfaces.
Package trace abstracts virtual-kubelet's tracing capabilities into a set of interfaces.
opencensus
Package opencensus implements a github.com/virtual-kubelet/virtual-kubelet/trace.Tracer using opencensus as a backend.
Package opencensus implements a github.com/virtual-kubelet/virtual-kubelet/trace.Tracer using opencensus as a backend.
opentelemetry
Package opentelemetry implements a github.com/virtual-kubelet/virtual-kubelet/trace.Tracer using openTelemetry as a backend.
Package opentelemetry implements a github.com/virtual-kubelet/virtual-kubelet/trace.Tracer using openTelemetry as a backend.

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