@flux159/mcp-server-kubernetes
MCP Server for kubernetes management commands.
Installation
Claude Desktop
Installation Command
npxConfiguration
{
"mcpServers": {
"kubernetes": {
"command": "npx",
"args": ["mcp-server-kubernetes"]
}
}
}Instructions
The server will automatically connect to your current kubectl context. Make sure you have: 1. kubectl installed and in your PATH 2. A valid kubeconfig file with contexts configured 3. Access to a Kubernetes cluster configured for kubectl (e.g. minikube, Rancher Desktop, GKE, etc.) 4. Helm v3 installed and in your PATH (no Tiller required). Optional if you don't plan to use Helm. You can verify your connection by asking Claude to list your pods or create a test deployment.
README
MCP Server Kubernetes
MCP Server that can connect to a Kubernetes cluster and manage it.
Usage with Claude Desktop
{
"mcpServers": {
"kubernetes": {
"command": "npx",
"args": ["mcp-server-kubernetes"]
}
}
}
The server will automatically connect to your current kubectl context. Make sure you have:
- kubectl installed and in your PATH
- A valid kubeconfig file with contexts configured
- Access to a Kubernetes cluster configured for kubectl (e.g. minikube, Rancher Desktop, GKE, etc.)
- Helm v3 installed and in your PATH (no Tiller required). Optional if you don't plan to use Helm.
You can verify your connection by asking Claude to list your pods or create a test deployment.
Usage with mcp-chat
mcp-chat is a CLI chat client for MCP servers. You can use it to interact with the Kubernetes server.
npx mcp-chat --server "npx mcp-server-kubernetes"
Alternatively, pass it your existing Claude Desktop configuration file from above (Linux should pass the correct path to config):
Mac:
npx mcp-chat --config "~/Library/Application Support/Claude/claude_desktop_config.json"
Windows:
npx mcp-chat --config "%APPDATA%\Claude\claude_desktop_config.json"
Features
-
[x] Connect to a Kubernetes cluster
-
[x] List all pods
-
[x] List all services
-
[x] List all deployments
-
[x] List all nodes
-
[x] Create a pod
-
[x] Delete a pod
-
[x] Describe a pod
-
[x] List all namespaces
-
[x] Get logs from a pod for debugging (supports pods deployments jobs and label selectors)
-
[x] Support Helm v3 for installing charts
- Install charts with custom values
- Uninstall releases
- Upgrade existing releases
- Support for namespaces
- Support for version specification
- Support for custom repositories
-
[x] kubectl explain and kubectl api-resources support
-
[x] Get Kubernetes events from the cluster
-
[ ] Port forward to a pod
-
[ ] Choose namespace for next commands (memory)
Local Development
git clone https://github.com/Flux159/mcp-server-kubernetes.git
cd mcp-server-kubernetes
bun install
Development Workflow
- Start the server in development mode (watches for file changes):
bun run dev
- Run unit tests:
bun run test
- Build the project:
bun run build
- Local Testing with Inspector
npx @modelcontextprotocol/inspector node build/index.js
# Follow further instructions on terminal for Inspector link
- Local testing with mcp-chat
npm run chat
Project Structure
├── src/
│ ├── index.ts # Main server implementation
│ ├── types.ts # Type re-exports
│ ├── config/ # Configuration files
│ │ ├── container-templates.ts # Container configurations
│ │ ├── server-config.ts # Server settings
│ │ ├── deployment-config.ts # Deployment schemas
│ │ ├── namespace-config.ts # Namespace schemas
│ │ └── cleanup-config.ts # Resource cleanup configuration
│ ├── models/ # Data models and schemas
│ │ ├── response-schemas.ts # API response schemas
│ │ ├── resource-models.ts # Resource models
│ │ ├── tool-models.ts # Tool schemas
│ │ ├── helm-models.ts # Helm operation schemas
│ │ └── kubectl-models.ts # Kubectl operation schemas
│ ├── utils/ # Utility classes
│ │ └── kubernetes-manager.ts # K8s management
│ ├── resources/ # Resource handlers
│ │ └── handlers.ts # Resource implementation
│ └── tools/ # Tool implementations
│ ├── list_pods.ts # Pod listing operations
│ ├── list_services.ts # Service listing operations
│ ├── list_deployments.ts # Deployment listing operations
│ ├── list_nodes.ts # Node listing operations
│ ├── create_pod.ts # Pod creation operations
│ ├── delete_pod.ts # Pod deletion operations
│ ├── describe_pod.ts # Pod description operations
│ ├── get_logs.ts # Container logs operations
│ ├── get_events.ts # Kubernetes events operations
│ ├── helm-operations.ts # Helm chart operations
│ └── kubectl-operations.ts # Kubectl utility operations
├── tests/ # Test files
│ ├── unit.test.ts # Unit tests for basic operations
│ ├── helm.test.ts # Helm-specific tests
│ └── kubectl.test.ts # Kubectl-specific tests
├── .github/ # GitHub configuration
│ └── workflows/ # CI/CD workflows
│ ├── ci.yml # Continuous integration
│ └── cd.yml # Continuous deployment
├── Dockerfile # Docker container definition
├── LICENSE # MIT license
├── README.md # Project documentation
├── package.json # NPM package configuration
├── tsconfig.json # TypeScript configuration
└── vitest.config.ts # Test configuration
Contributing
- Fork the repository
- Create a feature branch
- Make your changes
- Add tests for new functionality
- Ensure all tests pass
- Submit a pull request
For bigger changes please open an issue first to discuss the proposed changes.
Architecture
This section describes the high-level architecture of the MCP Kubernetes server.
Request Flow
The sequence diagram below illustrates how requests flow through the system:
sequenceDiagram
participant Client
participant Transport as StdioTransport
participant Server as MCP Server
participant Handler as Request Handler
participant K8sManager as KubernetesManager
participant K8s as Kubernetes API
Client->>Transport: Send Request via STDIO
Transport->>Server: Forward Request
alt Tools Request
Server->>Handler: Route to tools handler
Handler->>K8sManager: Execute tool operation
K8sManager->>K8s: Make API call
K8s-->>K8sManager: Return result
K8sManager-->>Handler: Process response
Handler-->>Server: Return tool result
else Resource Request
Server->>Handler: Route to resource handler
Handler->>K8sManager: Get resource data
K8sManager->>K8s: Query API
K8s-->>K8sManager: Return data
K8sManager-->>Handler: Format response
Handler-->>Server: Return resource data
end
Server-->>Transport: Send Response
Transport-->>Client: Return Final Response
Publishing new release
Go to the releases page, click on "Draft New Release", click "Choose a tag" and create a new tag by typing out a new version number using "v{major}.{minor}.{patch}" semver format. Then, write a release title "Release v{major}.{minor}.{patch}" and description / changelog if necessary and click "Publish Release".
This will create a new tag which will trigger a new release build via the cd.yml workflow. Once successful, the new release will be published to npm. Note that there is no need to update the package.json version manually, as the workflow will automatically update the version number in the package.json file & push a commit to main.
Not planned
Authentication / adding clusters to kubectx.
About
MCP Server for kubernetes management commands
Topics
kubernetes infrastructure server mcp