Discover Awesome MCP Servers

MCP SBOM Server

A Model Context Protocol server that performs Trivy scans to generate Software Bill of Materials (SBOM) in CycloneDX format.

Tulip MCP Server

Enables LLMs to interact with the Tulip manufacturing platform, providing access to tables, records, machines, stations, interfaces, users, and other manufacturing operations through the Tulip API.

Isaac Sim MCP Extension and MCP Server

Isaac 模拟 MCP 扩展和服务器

mcp-git

Provides comprehensive Git operations as tools for AI assistants and applications. This server enables AI systems to interact with Git repositories, allowing to initialize, fetch, commit, log, status, etc..

MPC Docs Server

一个简单的模型上下文协议服务器，可以从 Langchain、Llama Index 和 OpenAI 官方文档中搜索和检索相关的文档片段。

DINO-X Image Detection MCP Server

Empower LLMs with fine-grained visual understanding — detect, localize, and describe anything in images with natural language prompts.

Windows MCP

A lightweight open-source server that enables AI agents to interact with the Windows operating system, allowing for file navigation, application control, UI interaction, and QA testing without requiring computer vision.

M-Team MCP Server

Enables AI assistants to interact with the M-Team private torrent tracker API for searching resources, retrieving torrent details, and downloading torrent files. It provides a bridge for Model Context Protocol clients to manage and access private tracker content through natural language.

302_basic_mcp

提供搜索、代码运行、计算器和网页解析等基本功能。

Reachy Mini MCP Server

Enables natural language control of Reachy Mini robots for tasks like head movement, camera capture, and performing choreographed dances or emotions. It includes local, low-latency text-to-speech capabilities with synchronized head animations for lifelike interaction.

mcp-this

Dynamically exposes CLI/bash commands as MCP tools and creates structured AI prompt templates through simple YAML configuration files, enabling users to transform any command-line tool into an MCP-compatible interface without writing code.

Excel Search MCP

Enables AI models to search, read, and analyze Excel files from your local file system with support for multiple worksheets, text search, and JSON data conversion.

synter-mcp-server

MCP server for AI agents to manage ad campaigns across Google, Meta, LinkedIn, Microsoft, Reddit, TikTok, and more

Agentic MCP Client

一个独立的代理运行器，它使用 MCP（模型上下文协议）工具，通过 Anthropic Claude、AWS BedRock 和 OpenAI API 执行任务。它使 AI 代理能够在云环境中自主运行，并安全地与各种系统交互。

AutoCAD MCP Server

一个服务器，它通过像 Claude 这样的大型语言模型，实现与 AutoCAD 的自然语言交互，允许用户使用对话式命令来创建和修改图纸。

template-mcp-server

Okay, here's a PDM template structure and some key considerations for developing an MCP (Minecraft Protocol) server, translated into Chinese. I'll provide both the English and Chinese versions. **English Version (with explanations):** This template focuses on a modular and scalable approach. It's a starting point; you'll need to adapt it to your specific needs. ``` mcp_server/ ├── pyproject.toml # PDM configuration file ├── src/ │ ├── mcp_server/ # Main package directory │ │ ├── __init__.py # Makes 'mcp_server' a package │ │ ├── core/ # Core server logic │ │ │ ├── __init__.py │ │ │ ├── server.py # Main server class (handling connections, etc.) │ │ │ ├── client.py # Represents a connected client │ │ │ ├── protocol.py # Handles Minecraft protocol parsing/serialization │ │ │ └── event_loop.py # Asynchronous event loop management (if using asyncio) │ │ ├── networking/ # Networking related code │ │ │ ├── __init__.py │ │ │ ├── connection_handler.py # Handles new connections │ │ │ ├── packet_handler.py # Dispatches packets to appropriate handlers │ │ ├── modules/ # Optional: Modular features (e.g., chat, world management) │ │ │ ├── __init__.py │ │ │ ├── chat/ │ │ │ │ ├── __init__.py │ │ │ │ ├── chat_module.py │ │ │ ├── world/ │ │ │ │ ├── __init__.py │ │ │ │ ├── world_module.py │ │ ├── config/ # Configuration management │ │ │ ├── __init__.py │ │ │ ├── config.py # Loads and manages server configuration │ │ ├── utils/ # Utility functions │ │ │ ├── __init__.py │ │ │ ├── logger.py # Logging setup │ │ │ ├── data_structures.py # Custom data structures │ │ └── main.py # Entry point to start the server │ ├── tests/ # Unit tests │ │ ├── __init__.py │ │ ├── core/ │ │ │ ├── test_server.py │ │ │ ├── test_protocol.py │ ├── README.md # Project documentation │ └── LICENSE # License information ``` **Explanation of Key Components:** * **`pyproject.toml`:** PDM's configuration file. Defines dependencies, build settings, etc. Example: ```toml [project] name = "mcp_server" version = "0.1.0" description = "A Minecraft Protocol Server" authors = [{name = "Your Name", email = "your.email@example.com"}] dependencies = [ "cryptography", # For encryption (if needed) "asyncio", # For asynchronous operations (highly recommended) # Add other dependencies here ] [build-system] requires = ["pdm-backend"] build-backend = "pdm.backend" ``` * **`src/mcp_server/core/server.py`:** The heart of the server. Handles: * Socket creation and listening. * Accepting new client connections. * Managing client connections. * Server lifecycle (start, stop). * **`src/mcp_server/core/client.py`:** Represents a single connected Minecraft client. Handles: * Reading data from the client's socket. * Writing data to the client's socket. * Client authentication (login). * Client state (e.g., position, health). * **`src/mcp_server/core/protocol.py`:** Crucial for understanding and implementing the Minecraft protocol. Handles: * Packet parsing (converting raw bytes from the client into meaningful data). * Packet serialization (converting data into raw bytes to send to the client). * Protocol version handling (different Minecraft versions have different protocols). This is a *complex* area. You'll likely need to refer to the Minecraft protocol documentation (e.g., Wiki.vg). * **`src/mcp_server/networking/packet_handler.py`:** Receives parsed packets from `protocol.py` and dispatches them to the appropriate handlers (e.g., a chat handler for chat messages, a movement handler for player movement). * **`src/mcp_server/modules/`:** A place for optional features. This promotes modularity. For example, a chat module could handle chat messages, a world module could manage the game world. * **`src/mcp_server/config/config.py`:** Loads server configuration from a file (e.g., a JSON or YAML file). This allows you to easily change server settings without modifying the code. * **`src/mcp_server/utils/logger.py`:** Sets up logging for the server. Good logging is essential for debugging and monitoring. * **`src/mcp_server/main.py`:** The entry point of your server application. It typically: * Loads the server configuration. * Initializes the server. * Starts the server's main loop. **Key Considerations:** * **Asynchronous Programming (asyncio):** Minecraft servers need to handle many concurrent connections. Using `asyncio` is *highly* recommended for efficient handling of these connections. * **Minecraft Protocol:** The Minecraft protocol is complex and changes between versions. Refer to [https://wiki.vg/Protocol](https://wiki.vg/Protocol) for detailed information. Consider using a library that helps with protocol handling (though many are outdated). Be prepared to implement a significant portion of the protocol yourself. * **Security:** Implement proper security measures to prevent attacks (e.g., authentication, rate limiting, input validation). * **World Generation:** You'll need to implement world generation if you want a playable world. This is a complex topic in itself. * **Performance:** Optimize your code for performance. Profile your server to identify bottlenecks. * **Testing:** Write unit tests to ensure your code is working correctly. **Chinese Translation:** ``` mcp_server/ ├── pyproject.toml # PDM 配置文件 ├── src/ │ ├── mcp_server/ # 主包目录 │ │ ├── __init__.py # 使 'mcp_server' 成为一个包 │ │ ├── core/ # 核心服务器逻辑 │ │ │ ├── __init__.py │ │ │ ├── server.py # 主服务器类 (处理连接等) │ │ │ ├── client.py # 代表一个已连接的客户端 │ │ │ ├── protocol.py # 处理 Minecraft 协议的解析/序列化 │ │ │ └── event_loop.py # 异步事件循环管理 (如果使用 asyncio) │ │ ├── networking/ # 网络相关代码 │ │ │ ├── __init__.py │ │ │ ├── connection_handler.py # 处理新连接 │ │ │ ├── packet_handler.py # 将数据包分发到适当的处理程序 │ │ ├── modules/ # 可选: 模块化功能 (例如，聊天，世界管理) │ │ │ ├── __init__.py │ │ │ ├── chat/ │ │ │ │ ├── __init__.py │ │ │ │ ├── chat_module.py │ │ │ ├── world/ │ │ │ │ ├── __init__.py │ │ │ │ ├── world_module.py │ │ ├── config/ # 配置管理 │ │ │ ├── __init__.py │ │ │ ├── config.py # 加载和管理服务器配置 │ │ ├── utils/ # 实用函数 │ │ │ ├── __init__.py │ │ │ ├── logger.py # 日志设置 │ │ │ ├── data_structures.py # 自定义数据结构 │ │ └── main.py # 启动服务器的入口点 │ ├── tests/ # 单元测试 │ │ ├── __init__.py │ │ ├── core/ │ │ │ ├── test_server.py │ │ │ ├── test_protocol.py │ ├── README.md # 项目文档 │ └── LICENSE # 许可证信息 ``` **Chinese Explanation of Key Components (Simplified):** * **`pyproject.toml`:** PDM 的配置文件，定义依赖项、构建设置等。 * **`src/mcp_server/core/server.py`:** 服务器的核心，处理套接字创建、监听、客户端连接和服务器生命周期。 * **`src/mcp_server/core/client.py`:** 代表一个连接的 Minecraft 客户端，处理客户端数据的读取和写入、身份验证和客户端状态。 * **`src/mcp_server/core/protocol.py`:** 至关重要，用于理解和实现 Minecraft 协议。 处理数据包解析（将客户端的原始字节转换为有意义的数据）和数据包序列化（将数据转换为原始字节以发送到客户端）。 * **`src/mcp_server/networking/packet_handler.py`:** 接收来自 `protocol.py` 的已解析数据包，并将它们分发到适当的处理程序（例如，聊天消息的聊天处理程序，玩家移动的移动处理程序）。 * **`src/mcp_server/modules/`:** 可选功能的存放地，促进模块化。 * **`src/mcp_server/config/config.py`:** 从文件加载服务器配置，允许您轻松更改服务器设置，而无需修改代码。 * **`src/mcp_server/utils/logger.py`:** 设置服务器的日志记录。 良好的日志记录对于调试和监控至关重要。 * **`src/mcp_server/main.py`:** 服务器应用程序的入口点。 **Chinese Key Considerations:** * **异步编程 (asyncio):** Minecraft 服务器需要处理许多并发连接。 强烈建议使用 `asyncio` 来有效处理这些连接。 * **Minecraft 协议:** Minecraft 协议很复杂，并且在不同版本之间会发生变化。 请参阅 [https://wiki.vg/Protocol](https://wiki.vg/Protocol) 获取详细信息。 考虑使用一个帮助处理协议的库（尽管许多库已过时）。 准备好自己实现协议的很大一部分。 * **安全性:** 实施适当的安全措施以防止攻击（例如，身份验证、速率限制、输入验证）。 * **世界生成:** 如果您想要一个可玩的世界，您需要实现世界生成。 这本身就是一个复杂的话题。 * **性能:** 优化您的代码以提高性能。 分析您的服务器以识别瓶颈。 * **测试:** 编写单元测试以确保您的代码正常工作。 **Important Notes:** * This is a *template*. You'll need to fill in the details. * The Minecraft protocol is the most challenging part. Start with a simple version of the protocol and gradually add more features. * Consider using existing libraries for tasks like networking and data serialization, but be aware that many Minecraft-specific libraries are outdated. * Good luck! Developing an MCP server is a complex but rewarding project.

Reachy Claude MCP

Integrates the Reachy Mini robot or its simulation with Claude Code to provide interactive physical feedback through emotions, speech, and celebratory animations. It features advanced capabilities like sentiment analysis, semantic problem search, and cross-project memory to enhance the developer experience.

MS Access MCP Explorer

针对 Microsoft Access 数据库的 MCP 服务器

Simplicate MCP Server

Enables AI assistants to securely access and interact with Simplicate business data including CRM, projects, timesheets, and invoices through natural language. Supports searching across resources and retrieving detailed information about organizations, contacts, and project data.

Cloudflare Playwright MCP

Enables AI assistants to control a browser through Playwright automation tools deployed on Cloudflare Workers. Supports web automation tasks like navigation, typing, clicking, and taking screenshots through natural language commands.

nft-analytics-mcp

An MCP server that delivers NFT collection analytics powered by data from Dune Analytics.

Cloudflare MCP Logging

A template for deploying MCP servers as Cloudflare Workers with integrated LogPush and R2 storage for detailed execution logging. It enables remote tool execution and provides utilities for retrieving logs directly from Cloudflare R2 buckets.

commercetools Commerce MCP

Enables AI agents to interact with commercetools APIs to manage products, categories, orders, carts, and customer data. It provides a comprehensive set of tools for both read-only and full-access operations through secure authentication methods.

UI Flowchart Creator

允许用户通过在 MCP 兼容系统中易于使用的 API 生成用户界面和交互的可视化效果，从而创建 UI 流程图。

TEST MCP USDT MCP Server

Enables AI agents and LLMs to interact with the TEST MCP USDT API through standardized tools using the Model Context Protocol. It provides a containerized environment for executing USDT-related API operations and asynchronous tool handling.

Tello Drone MCP Server

用于控制无人机的 MCP 服务器 (Yòng yú kòngzhì wúrénjī de MCP fúwùqì)

Dependency Checker MCP Server

Enables security scanning for npm dependencies by checking manifest and lockfiles against the OSV.dev and Socket.dev vulnerability databases. It provides tools to detect vulnerabilities in specific packages and retrieve detailed technical reports for identified security issues.

MCP Inspector Server

A basic MCP server template that provides a foundation for building custom tools, resources, and prompts. Serves as a starting point for developers to create their own MCP server functionality.

Skills Registry MCP Server

Enables intelligent discovery and management of Claude Skills through semantic search, ratings, favorites, and community curation. Provides tools to search, upload, rate, and organize skills with natural language queries and comprehensive metadata.