Python MCP Sandbox
An interactive Python code execution environment that allows users and LLMs to safely execute Python code and install packages in isolated Docker containers.
README
MCP Sandbox
中文文档 | English
Python MCP Sandbox is an interactive Python code execution tool that allows users and LLMs to safely execute Python code and install packages in isolated Docker containers.
Features
- 🐳 Docker Isolation: Securely run Python code in isolated Docker containers
- 📦 Package Management: Easily install and manage Python packages
- 📊 File Generation: Support for generating files and accessing them via web links
Installation
# Clone the repository
git clone https://github.com/JohanLi233/python-mcp-sandbox.git
cd python-mcp-sandbox
uv venv
# Activate venv
# Start the server
uv run mcp_sandbox.py
The default SSE endpoint is http://localhost:8000/sse, and you can interact with it via the MCP Inspector through SSE or any other client that supports SSE connections.
Available Tools
- create_sandbox: Creates a new Python Docker sandbox and returns its ID for subsequent code execution and package installation
- list_sandboxes: Lists all existing sandboxes (Docker containers) for reuse
- execute_python_code: Executes Python code in a specified Docker sandbox
- install_package_in_sandbox: Installs Python packages in a specified Docker sandbox
- check_package_installation_status: Checks if a package is installed or installation status in a Docker sandbox
Project Structure
python-mcp-sandbox/
├── main.py # Application entry point
├── requirements.txt # Project dependencies
├── Dockerfile # Docker configuration for Python containers
├── results/ # Directory for generated files
├── mcp_sandbox/ # Main package directory
│ ├── __init__.py
│ ├── models.py # Pydantic models
│ ├── api/ # API related components
│ │ ├── __init__.py
│ │ └── routes.py # API route definitions
│ ├── core/ # Core functionality
│ │ ├── __init__.py
│ │ ├── docker_manager.py # Docker container management
│ │ └── mcp_tools.py # MCP tools
│ └── utils/ # Utilities
│ ├── __init__.py
│ ├── config.py # Configuration constants
│ ├── file_manager.py # File management
│ └── task_manager.py # Periodic task management
└── README.md # Project documentation
Example Prompt
I've configured a Python code execution sandbox for you. You can run Python code using the following steps:
1. First, use the "list_sandboxes" tool to view all existing sandboxes (Docker containers).
- You can reuse an existing sandbox_id if a sandbox exists, do not create a new one.
- If you need a new sandbox, use the "create_sandbox" tool.
- Each sandbox is an isolated Python environment, and the sandbox_id is required for all subsequent operations.
2. If you need to install packages, use the "install_package_in_sandbox" tool
- Parameters: sandbox_id and package_name (e.g., numpy, pandas)
- This starts asynchronous installation and returns immediately with status
3. After installing packages, you can check their installation status using the "check_package_installation_status" tool
- Parameters: sandbox_id and package_name (name of the package to check)
- If the package is still installing, you need to check again using this tool
4. Use the "execute_python_code" tool to run your code
- Parameters: sandbox_id and code (Python code)
- Returns output, errors and links to any generated files
- All generated files are stored inside the sandbox, and file_links are direct HTTP links for inline viewing
Example workflow:
- Use list_sandboxes to check for available sandboxes, if no available sandboxes, use create_sandbox to create a new one → Get sandbox_id
- Use install_package_in_sandbox to install necessary packages (like pandas, matplotlib), with the sandbox_id parameter
- Use check_package_installation_status to verify package installation, with the same sandbox_id parameter
- Use execute_python_code to run your code, with the sandbox_id parameter
Code execution happens in a secure sandbox. Generated files (images, CSVs, etc.) will be provided as direct HTTP links, which can viewed inline in the browser.
Remember not to use plt.show() in your Python code. For visualizations:
- Save figures to files using plt.savefig() instead of plt.show()
- For data, use methods like df.to_csv() or df.to_excel() to save as files
- All saved files will automatically appear as HTTP links in the results, which you can open or embed directly.
Recommended Servers
playwright-mcp
A Model Context Protocol server that enables LLMs to interact with web pages through structured accessibility snapshots without requiring vision models or screenshots.
Magic Component Platform (MCP)
An AI-powered tool that generates modern UI components from natural language descriptions, integrating with popular IDEs to streamline UI development workflow.
Audiense Insights MCP Server
Enables interaction with Audiense Insights accounts via the Model Context Protocol, facilitating the extraction and analysis of marketing insights and audience data including demographics, behavior, and influencer engagement.
VeyraX MCP
Single MCP tool to connect all your favorite tools: Gmail, Calendar and 40 more.
graphlit-mcp-server
The Model Context Protocol (MCP) Server enables integration between MCP clients and the Graphlit service. Ingest anything from Slack to Gmail to podcast feeds, in addition to web crawling, into a Graphlit project - and then retrieve relevant contents from the MCP client.
Kagi MCP Server
An MCP server that integrates Kagi search capabilities with Claude AI, enabling Claude to perform real-time web searches when answering questions that require up-to-date information.
E2B
Using MCP to run code via e2b.
Neon Database
MCP server for interacting with Neon Management API and databases
Exa Search
A Model Context Protocol (MCP) server lets AI assistants like Claude use the Exa AI Search API for web searches. This setup allows AI models to get real-time web information in a safe and controlled way.
Qdrant Server
This repository is an example of how to create a MCP server for Qdrant, a vector search engine.