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drone-mcp

MCP.Pizza Chef: 0xKoda

drone-mcp is an MCP server designed to control DJI Tello drones through a standardized Model Context Protocol interface. It supports real-time drone command execution using Server-Sent Events, enabling MCP-compatible clients to perform takeoff, landing, movement, and rotation commands. The server includes robust error handling, logging, and CORS support for web clients, facilitating seamless integration and control of drones in various AI-enhanced workflows.

Use This MCP server To

Control DJI Tello drone via MCP-compatible clients Execute real-time drone commands using Server-Sent Events Integrate drone control into AI workflows and copilots Enable web clients to send commands to Tello drones Log and handle errors during drone operation Perform basic drone maneuvers: takeoff, land, move, rotate

README

Tello Drone MCP Server

A Model Context Protocol (MCP) server implementation for controlling the DJI Tello drone. This server allows any MCP-compatible client to control a Tello drone through a standardized interface.

This is under active development, read security considerations

Features

  • MCP Support
  • Real-time drone control through SSE (Server-Sent Events)
  • Robust error handling and logging
  • CORS-enabled for web clients (like mcp inspector)
  • Supports basic Tello drone commands:
    • Takeoff
    • Land
    • Move (up/down/left/right/forward/back)
    • Rotate (clockwise/counter-clockwise)

Prerequisites

  • Python 3.7+
  • DJI Tello drone
  • Network connection to the Tello drone
  • Root/sudo access (required for UDP socket binding)

Installation

  1. Clone this repository:
git clone <repository-url>
cd drone-mcp
  1. Install dependencies:
pip install -r requirements.txt

MCP Configuration

To enable your MCP client to connect to the Tello drone server, add the following configuration to your mcp.json file (usually located at ~/.cursor/mcp.json or in your project directory):

{
  "tello-drone": {
    "url": "http://localhost:3000/sse"
  }
}

This configuration allows MCP-enabled tools and models to automatically discover and connect to your Tello drone server.

Usage

  1. Connect to your Tello drone's WiFi network (usually starts with "TELLO-").

  2. Start the MCP server:

sudo python tello_mcp.py

The server will:

  • Initialize connection with the Tello drone
  • Start the MCP server on http://0.0.0.0:3000
  • Set up SSE endpoint at /sse
  • Handle messages at /message

Ensure the server is running before you plan to use it in your client (cursor, windsurf, code).

Available Tools

The server provides the following MCP tools:

1. Takeoff

{
    "name": "takeoff",
    "description": "Commands the Tello drone to take off",
    "inputSchema": {
        "type": "object",
        "properties": {}
    }
}

2. Land

{
    "name": "land",
    "description": "Commands the Tello drone to land",
    "inputSchema": {
        "type": "object",
        "properties": {}
    }
}

3. Move

{
    "name": "move",
    "description": "Moves the Tello drone in a specified direction",
    "inputSchema": {
        "type": "object",
        "properties": {
            "direction": {
                "type": "string",
                "enum": ["up", "down", "left", "right", "forward", "back"]
            },
            "distance": {
                "type": "integer",
                "minimum": 20,
                "maximum": 500
            }
        },
        "required": ["direction", "distance"]
    }
}

4. Rotate

{
    "name": "rotate",
    "description": "Rotates the Tello drone clockwise or counter-clockwise",
    "inputSchema": {
        "type": "object",
        "properties": {
            "direction": {
                "type": "string",
                "enum": ["cw", "ccw"]
            },
            "degrees": {
                "type": "integer",
                "minimum": 1,
                "maximum": 3600
            }
        },
        "required": ["direction", "degrees"]
    }
}

MCP Client Integration

To connect an MCP client:

  1. Start your server and Connect to the SSE endpoint:
GET http://localhost:3000/sse
  1. Prompt your MCP enabled model, which will communicate via SSE
event: endpoint
data: /message?sessionId=<session-id>
  1. Send initialize request:
{
    "jsonrpc": "2.0",
    "id": 1,
    "method": "initialize"
}
  1. List available tools:
{
    "jsonrpc": "2.0",
    "id": 2,
    "method": "listTools"
}
  1. Call a tool (example - takeoff):
{
    "jsonrpc": "2.0",
    "id": 3,
    "method": "callTool",
    "params": {
        "name": "takeoff",
        "arguments": {}
    }
}

Error Handling

The server implements comprehensive error handling:

  • Drone connection failures
  • Invalid commands
  • Network timeouts
  • Protocol errors
  • Invalid tool parameters

All errors are logged and returned as proper JSON-RPC 2.0 error responses.

Logging

The server logs to stderr with detailed information about:

  • Server startup/shutdown
  • Drone connection status
  • Command execution
  • Client connections
  • Error conditions

Security Considerations

  • The server requires root/sudo access to bind to UDP ports
  • No authentication is implemented (rely on network security)
  • CORS is enabled for all origins (*)
  • Use in a controlled environment only

Development

The server is built using:

  • Python's mcp library for protocol handling
  • Starlette for HTTP/SSE transport
  • Uvicorn as the ASGI server
  • Native Python socket library for drone UDP communication

Troubleshooting

  1. Server won't start:

    • Ensure you have sudo/root access
    • Check if the Tello's WiFi is connected
    • Verify no other process is using port 3000

  2. Drone won't connect:

    • Ensure drone is powered on
    • Check WiFi connection
    • Verify no other application is controlling the drone

  3. Commands fail:

    • Check drone battery level
    • Ensure drone is in a safe flying environment
    • Verify command parameters are within allowed ranges

License

MIT

Contributing

Welcome to contribute.

drone-mcp FAQ

What programming language is drone-mcp built with?
drone-mcp is built using Python 3.7 or higher, ensuring compatibility with modern Python environments.
How does drone-mcp communicate with the DJI Tello drone?
It uses UDP socket communication to send commands directly to the Tello drone over the network.
Can I control the drone from a web browser?
Yes, drone-mcp supports CORS and Server-Sent Events, allowing web clients like MCP Inspector to control the drone in real time.
What drone commands are supported by drone-mcp?
Basic commands such as takeoff, land, move (up/down/left/right/forward/back), and rotate (clockwise/counter-clockwise) are supported.
Is drone-mcp secure to use?
The project is under active development with security considerations documented; users should review these before deployment.
What are the prerequisites for running drone-mcp?
You need Python 3.7+, a DJI Tello drone, network access to the drone, and root/sudo access for UDP socket binding.
How does drone-mcp handle errors?
It includes robust error handling and logging to ensure reliable drone operation and troubleshooting.
Can drone-mcp be integrated with other MCP clients?
Yes, it is designed to work with any MCP-compatible client for flexible drone control.