The extension for developers building applications to run in Kubernetes clusters and for DevOps staff troubleshooting Kubernetes applications.
Works with any Kubernetes anywhere (Azure, Minikube, AWS, GCP and more!).
Features include:
- View your clusters in an explorer tree view, and drill into workloads, services, pods and nodes.
- Browse Helm repos and install charts into your Kubernetes cluster.
- Intellisense for Kubernetes resources and Helm charts and templates.
- Edit Kubernetes resource manifests and apply them to your cluster.
- Build and run containers in your cluster from Dockerfiles in your project.
- View diffs of a resource's current state against the resource manifest in your Git repo
- Easily check out the Git commit corresponding to a deployed application.
- Run commands or start a shell within your application's pods.
- Get or follow logs and events from your clusters.
- Forward local ports to your application's pods.
- Create Helm charts using scaffolding and snippets.
- Bootstrap applications using Draft, and rapidly deploy and debug them to speed up the development loop.
- Watch resources in the cluster explorer and get live updates as they change
What's new in this version? See the change log to find out!
Open this extension in the Visual Studio Marketplace
The Kubernetes extension may need to invoke the following command line tools, depending on
which features you use. You will need kubectl
at minimum, and docker
or buildah
if you plan to
use the extension to build applications rather than only browse.
kubectl
docker
orbuildah
helm
draft
Optional tools:
az
(Azure CLI - only if using the extension to create or register Azure clusters)minikube
(only if you want to use it)git
(only if using the 'sync working copy to repository' feature)buildah
(can be used as an alternative container image build tool)
We recommend you install these binaries on your system PATH before using the extension. If these binaries aren't on your system PATH, then some commands may not work. If the extension needs one of the core Kubernetes tools and it's missing, it will offer to install it for you.
If you want to use the Kubernetes: Run
and Kubernetes: Debug
features
then you need to configure a user and repository for your container
images. This is required because these commands need pushing an image of your application
for your cluster to run it. To do this, add the following to your VS Code preferences
(File > Preferences):
{
"vsdocker.imageUser": "<your-image-prefix-here>",
}
where <your-image-prefix-here>
is something like docker.io/brendanburns
.
That's it! You're good to go.
By default, the extension uses the active kubeconfig file -- that is, the file
to which the KUBECONFIG environment variable points, or the default kubeconfig
if no KUBECONFIG environment variable exists. You can override this using the
vs-kubernetes.kubeconfig
setting in your user or workspace settings.
If you want to swap between multiple kubeconfig files, you can list them in the
vs-kubernetes.knownKubeconfigs
configuration setting and switch between them
using the Set Kubeconfig
command.
If you want to skip TLS verification for a particular cluster, you can edit your ~/.kube/config and set the insecure-skip-tls-verify: true
flag under the proper cluster:
- cluster:
insecure-skip-tls-verify: true
server: https://my-insecure-cluster:443
name: my-insecure-cluster:443
vs-kubernetes-tools
supports a number of commands for interacting with Kubernetes; these are accessible via the command menu (Ctrl+Shift+P
) and may be bound to keys in the normal way.
Kubernetes: Load
- Load a resource from the Kubernetes API and create a new editor window.Kubernetes: Get
- Get the status for a specific resource.Kubernetes: Follow Logs
- Follow logs for a pod in an output window.Kubernetes: Show Logs
- Show logs for a pod in an output window.Kubernetes: Follow Events
- Follow events on a selected namespace.Kubernetes: Show Events
- Show events on a selected namespace.Kubernetes: Watch
- Watch a specific resource or all resources of that object type, and update the cluster explorer as they changeKubernetes: Stop Watching
- Stop watching the specific resource
Kubernetes: Explain
- Use thekubectl explain ...
tool to annotate Kubernetes API objectsKubernetes: Create
- Create an object using the current documentKubernetes: Delete
- Delete an object contained in the current document.Kubernetes: Apply
- Apply changes to an object contained in the current document.Kubernetes: Expose
- Expose the object in the current document as a service.Kubernetes: Describe
- Describe the object in a terminal window.Kubernetes: Diff
- Show the difference between a local copy of the object, and that which is deployed to the cluster.
Kubernetes: Run
- Run the current application as a Kubernetes DeploymentKubernetes: Terminal
- Open an interactive terminal session in a pod of the Kubernetes DeploymentKubernetes: Exec
- Run a command in a pod of the Kubernetes DeploymentKubernetes: Debug (Launch)
- Run the current application as a Kubernetes Deployment and attach a debugging session to it (currently works only for Java/Node.js deployments). See Debug support on Kubernetes cluster for more details.Kubernetes: Debug (Attach)
- Attach a debugging session to an existing Kubernetes Deployment (currently works only for Java deployments). See Debug support on Kubernetes cluster for more details.Kubernetes: Remove Debug
- Remove the deployment and/or service created for aKubernetes Debug (Launch)
sessionKubernetes: Sync Working Copy to Cluster
- Checks out the version of the code that matches what is deployed in the cluster. (This relies on Docker image versions also being Git commit IDs, which the extension does if you use the Run command to build the container, but which typically doesn't work for containers/deployments done by other means.)
Kubernetes: Create Cluster
- Initiate the flow for creating a Kubernetes cluster with a selected cloud provider (eg: Azure), or creating a Minikube cluster locally.
Kubernetes: Add Existing Cluster
- Install and configure the Kubernetes command line tool (kubectl) from a cloud cluster, such as an Azure Container Service (ACS) or Azure Kubernetes Service (AKS) clusterKubernetes: Set as Current Cluster
- Select from a list of configured clusters to set the "current" cluster. Used for searching, displaying, and deploying Kubernetes resources.Kubernetes: Delete Context
- Remove a cluster's configuration from the kubeconfig file.Kubernetes: Set Kubeconfig
- Select from a list of known kubeconfig files (for users who keep different kubeconfig files for different environments).Kubernetes: Show Cluster Info
- For a cluster, show the status of Kubernetes Components (API Server, etcd, KubeDNS, etc.) in a terminal window.Kubernetes: Use Namespace
- Select from a list of namespaces to set the "current" namespace. Used for searching, displaying, and deploying Kubernetes resources.
Kubernetes: Add File
- Adds a file as a ConfigMap or a SecretKubernetes: Delete File
- Deletes a file from a ConfigMap or a Secret
Kubernetes: Open Dashboard
- Opens the Kubernetes Dashboard in your browser.Kubernetes: Port Forward
- Prompts user for a local port and a remote port to bind to on a Pod.
Minikube runs a local, single node Kubernetes cluster inside a VM. Support is currently experimental, and requires Minikube tools to be installed and available on your PATH.
Kubernetes: Start minikube
- Starts MinikubeKubernetes: Stop minikube
- Stops Minikube
Helm is the package manager for Kubernetes and provides a way for you to define, install and upgrade applications using 'charts.' This extension provides a set of tools for creating and testing Helm charts:
- Syntax highlighting for YAML + Helm Templates
- Autocomplete for Helm, Sprig, and Go Tpl functions
- Help text (on hover) for Helm, Sprig, and Go Tpl functions
- Snippets for quickly scaffolding new charts and templates
- Commands for...
Helm: Create Chart
- Create a new chartHelm: Get Release
- Get a helm release from the clusterHelm: Lint
- Lint your chartHelm: Preview Template
- Open a preview window and preview how your template will renderHelm: Template
- Run your chart through the template engineHelm: Dry Run
- Run a helm install --dry-run --debug on a remote cluster and get the results (NOTE: requires Tiller on the remote cluster)Helm: Version
- Get the Helm versionHelm: Insert Dependency
- Insert a dependency YAML fragmentHelm: Dependency Update
- Update a chart's dependenciesHelm: Package
- Package a chart directory into a chart archiveHelm: Convert to Template
- Create a template based on an existing resource or manifestHelm: Convert to Template Parameter
- Convert a fixed value in a template to a parameter in thevalues.yaml
file
- Code lenses for:
- requirements.yaml (Add and update dependencies)
- Right-click on a chart .tgz file, and choose inspect chart to preview all configurable chart values.
Draft is a tool to simplify the process of developing a new Kubernetes application, by creating the necessary deployment components and by keeping code in the cluster in sync with the code on your computer.
Draft: Create
- Set up Draft in the current folder (prerequisite forDraft: Up
)Draft: Up
- Runs Draft to package the current folder and push it to your cluster. To allow for cluster changes,Draft: Version
- Get the version of the local Draft client
NOTE: Draft itself is in 'draft' form and is not yet stable. So the extension support for Draft is strictly experimental - assumptions may break, and commands and behavior may change!
vs-kubernetes
- Parent for Kubernetes-related extension settingsvs-kubernetes.namespace
- The namespace to use for all commandsvs-kubernetes.kubectl-path
- File path to the kubectl binary. Note this is the binary file itself, not just the directory containing the file. On Windows, this must contain the.exe
extension.vs-kubernetes.helm-path
- File path to the helm binary. Note this is the binary file itself, not just the directory containing the file. On Windows, this must contain the.exe
extension.vs-kubernetes.draft-path
- File path to the draft binary. Note this is the binary file itself, not just the directory containing the file. On Windows, this must contain the.exe
extension.vs-kubernetes.minikube-path
- File path to the minikube binary. Note this is the binary file itself, not just the directory containing the file. On Windows, this must contain the.exe
extension.vs-kubernetes.kubectlVersioning
- By default, the extension uses thekubectl
binary you provide on the system PATH or in thevs-kubernetes.kubectl-path
configuration setting. If you set this setting toinfer
, then for each cluster the extension will attempt to identify the cluster version and download a compatiblekubectl
binary. This improves compatibility if you have multiple Kubernetes versions in play, but may be slower. Note: this setting is checked only when the extension loads; if you change it, you must reload the extension.vs-kubernetes.kubeconfig
- File path to the kubeconfig file you want to use. This overrides both the default kubeconfig and the KUBECONFIG environment variable.vs-kubernetes.knownKubeconfigs
- An array of file paths of kubeconfig files that you want to be able to quickly switch between using the Set Kubeconfig command.vs-kubernetes.autoCleanupOnDebugTerminate
- The flag to control whether to auto cleanup the created deployment and associated pod by the command "Kubernetes: Debug (Launch)". The cleanup action occurs when it failed to start debug session or debug session terminated. If not specified, the extension will prompt for whether to clean up or not. You might choose not to clean up if you wanted to view pod logs, etc.vs-kubernetes.outputFormat
- The output format that you prefer to view Kubernetes manifests in. One of "yaml" or "json". Defaults to "yaml".vs-kubernetes.resources-to-watch
- List of resources to be watched. To identify a resource the extension uses the label displayed in the cluster explorer. E.g. ["Pods", "Services", "Namespaces"].logsDisplay
- Where and how to display Kubernetes logs. One ofwebview
(display in a filterable HTML view) andterminal
(run the command in the VS Code terminal)vscode-kubernetes.enable-snap-flag
- Enables compatibility with instances of VS Code that were installed using snap.vs-kubernetes.disable-context-info-status-bar
- Disable displaying your current Kubernetes context in VS Code's status bar. When active, it can be used to switch context from the status bar.vs-kubernetes.disable-namespace-info-status-bar
- Disable displaying your current Kubernetes namespace in VS Code's status bar. When active, it can be used to switch namespace from the status bar.
vsdocker.imageUser
- Image prefix for the container images e.g. 'docker.io/brendanburns'checkForMinikubeUpgrade
- On extension startup, notify if a minikube upgrade is available. Defaults to true.disable-lint
- Disable all linting of Kubernetes filesdisable-linters
- Disable specific linters by name
For kubectl
, helm
and draft
the binaries do not need to be on the system PATH. You can configure the extension by specifying the locations using the appropriate vs-kubernetes -> vs-kubernetes.${tool}-path
configuration setting. See Extension Settings below.
The extension can install kubectl
, helm
and draft
for you if they are missing - choose Install dependencies when you see an error notification for the missing tool. This will set kubectl-path
, helm-path
and draft-path
entries in your configuration for the current OS (see "Portable extension configuration" below) - the programs will not be installed on the system PATH, but this will be sufficient for them to work with the extension.
If you are working with Azure Container Services or Azure Kubernetes Services, then you can install and configure kubectl
using the Kubernetes: Add Existing Cluster
command.
If you move your configuration file between machines with different OSes (and therefore different paths to binaries) you can override the following settings on a per-OS basis by appending .windows
, .mac
or .linux
to the setting name:
vs-kubernetes.kubectl-path
vs-kubernetes.helm-path
vs-kubernetes.draft-path
vs-kubernetes.minikube-path
For example, consider the following settings file:
{
"vs-kubernetes": {
"vs-kubernetes.kubectl-path": "/home/foo/kubernetes/bin/kubectl",
"vs-kubernetes.kubectl-path.windows": "c:\\Users\\foo\\kubernetes\\bin\\kubectl.exe"
}
}
The first path would be used when invoking kubectl
on Mac or Linux machines. The second would be used when invoking kubectl
on Windows machines.
The following commands support arguments in keybindings:
- Set Kubeconfig (command ID
extension.vsKubernetesUseKubeconfig
) - the keybinding can specify a string argument which is the kubeconfig file path to switch to. This allows you to set up specific keybindings for your favourite kubeconfigs.
The extension supports linting Kubernetes YAML files for potential problems or suggestions.
Here are the various linters, you can enable or disable them individually using the disable-linters
configuration value.
resource-limits
: Warn when a Pod is missing resource limits
Kubernetes: Debug
command currently works only with Node.js, Java, Python and .NET applications- For deeply nested Helm charts, template previews are generated against highest (umbrella) chart values (though for
Helm: Template
calls you can pick your chart) - When installing VS Code and/or kubectl through
snap
on a Linux system, you may face some permissions error which will prevent this extension to work correctly. As a workaround you can set up thevs-kubernetes.enable-snap-flag
setting totrue
in your user or workspace settings.
See the change log.
This extension collects telemetry data to help us build a better experience for building applications with Kubernetes and VS Code. We only collect the following data:
- Which commands are executed, and whether they are executed against an Azure, Minikube or other type of cluster.
- For the
Create Cluster
andAdd Existing Cluster
commands, the cluster type selected and the execution result (success/failure).
We do not collect any information about image names, paths, etc. We collect cluster type information only if the cluster is Azure or a local cluster such as Minikube. The extension respects the telemetry.enableTelemetry
setting which you can learn more about in our FAQ.
If you are building and running the extension from source, see CONTRIBUTING.md for prerequisites for the development environment.
If you are installing the extension from its VSIX, note that the machine will still need to reach the Visual Studio Marketplace in order to download extension dependencies. If the machine cannot reach the Marketplace, you will need to install these dependencies manually using their VSIXes. The list of extension dependencies can be found in package.json
, in the extensionDependencies
section.
This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.microsoft.com.
When you submit a pull request, a CLA-bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., label, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repos using our CLA.
This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact [email protected] with any additional questions or comments.
For technical information about contributing, see CONTRIBUTING.md.
This extension was born from the vs-kubernetes
extension by @brendandburns and
the vs-helm
extension by @technosophos.
The 'infer kubectl
version' feature was inspired by @jakepearson's k
utility
(https://github.com/jakepearson/k), and some parts of the design were based on his implementation.