发现优秀的 MCP 服务器

MCP Server with Gemini AI Integration

带有基本工具的 MCP 服务器客户端 (Dài yǒu jīběn gōngjù de MCP fúwùqì kèhùduān) This translates to: * **带有 (dài yǒu):** with, having * **基本 (jīběn):** basic, fundamental * **工具 (gōngjù):** tools * **的 (de):** possessive particle (like 's in English) * **MCP 服务器 (MCP fúwùqì):** MCP server (MCP is kept as is) * **客户端 (kèhùduān):** client

mcp-github-server

使用 GitHub API 实现模型上下文协议服务器。

Kubernetes MCP

An MCP server that enables interaction with Kubernetes resources through natural language interfaces like Goose CLI, allowing users to get, read, and patch Kubernetes resources.

ezmcp

易于使用的、专为SSE设计的MCP服务器框架。

duckduckgo-web-search MCP Server

DuckDuckGo Web Search MCP Server - 一个简单的网页搜索实现，用于 Claude Desktop，使用 DuckDuckGo API。

Telegram MCP Server

A Model Context Protocol server that enables Claude to interact with Telegram channels and groups through both direct API access and web scraping methods.

MeshSeeks

Multi-Agent Mesh Network MCP server that spawns specialized AI agents working in parallel to solve complex coding problems, providing 3.64x faster performance through distributed intelligence.

Remote MCP Server

A Cloudflare Workers-based implementation of the Model Context Protocol (MCP) server that enables AI assistants like Claude to interact with external tools through OAuth login.

Healthy Pokes

A calorie tracking MCP server that processes food photos and text descriptions to automatically log nutrition data to Google Sheets. Integrates with Apple Health for fitness metrics and provides SMS interface for convenient meal logging.

Letta MCP Server

镜子 (jìng zi)

MCP Personal Tools Server

A simple server implementing the Model Context Protocol (MCP) that exposes personal tools like note-taking for compatible MCP clients or agents.

G2N MCP Google Calendar SSE Server

使用 SSE 的 MCP 服务器，用于 Google 日历 API 集成。 (Alternatively, more literally: 用于 Google 日历 API 集成的、带有 SSE 的 MCP 服务器)

Work Note MCP Server

Enables automatic creation and management of weekly work reports in Korean through structured templates. Organizes work tasks and issues with automatic file management, backup/rollback, and 100% template compliance through JSON Schema validation.

Norwegian Business Registry MCP Server

Enables comprehensive access to the Norwegian Business Registry API for querying company information, board members, subsidiaries, organizational data, and voluntary organizations. Provides real-time access to over 1 million registered Norwegian entities with detailed corporate structure and governance data.

PostgreSQL MCP Server

A Model Context Protocol server providing dual transport (HTTP and Stdio) access to PostgreSQL databases, allowing AI assistants to query databases and fetch schema information through natural language.

test

test

testmcpgithubdemo

从 MCP 服务器演示创建。

DocsScraper

Scrape documentation for libraries and API's

BuildingLink MCP Server

MCP server that enables collection of data from BuildingLink, providing access to occupant profiles, vendors, deliveries, library items, announcements, and other building-related information.

bsc-multisend-mcp

An MCP server that enables agents to perform bulk BNB and BEP20 token transfers on BSC.

Laravel Artisan MCP Server

一个模型上下文协议 (MCP) 服务器，它允许通过 Claude 和其他 MCP 客户端安全地执行 Laravel Artisan 命令。

Yango Tech MCP Server

A server that enables seamless integration with Yango Tech e-commerce platform through Claude Desktop and Cursor IDE, allowing users to query orders, products, inventory and other business data using natural language.

MCP TTS Say

MCP服务器工具，用于文本转语音 (MCP fúwùqì gōngjù, yòng yú wénběn zhuǎn yǔyīn)

graphexpert2025

Okay, here are comprehensive notes on Graph Databases and MCP (presumably Minecraft Protocol) Servers, designed to provide enough context for a Language Model (LM) to quickly understand and contribute to Graph Database projects related to MCP Servers. **I. Graph Databases: Core Concepts** * **What are Graph Databases?** * A type of NoSQL database that uses graph structures with nodes, edges, and properties to store and represent data. Focus is on *relationships* between data points. * **Nodes (Vertices):** Represent entities (e.g., players, items, locations, events in a Minecraft server). * **Edges (Relationships):** Represent connections between entities (e.g., "player A *owns* item B", "player A *is_friend_with* player C", "player A *visited* location X"). Edges have direction (directed graph) or no direction (undirected graph). * **Properties:** Key-value pairs that store attributes of nodes and edges (e.g., a player node might have properties like "username", "level", "last_login"; an edge might have a property like "timestamp"). * **Why Use Graph Databases?** * **Relationship-Centric Data:** Excellent for data where relationships are as important as the data itself. Ideal for social networks, recommendation engines, knowledge graphs, fraud detection, and, as we'll see, Minecraft server analysis. * **Performance on Complex Relationships:** Graph databases excel at traversing relationships (finding all friends of a friend, finding the shortest path between two players). Relational databases often struggle with deep, complex joins. * **Flexibility:** Easier to evolve the data model than with relational databases. Adding new node types, edge types, and properties is generally straightforward. * **Intuitive Data Modeling:** The graph model often closely mirrors the real-world domain, making it easier to understand and design. * **Key Graph Database Concepts:** * **Graph Traversal:** The process of navigating the graph by following edges from node to node. This is the core operation in graph databases. * **Graph Algorithms:** Algorithms designed to analyze graph structures (e.g., shortest path, community detection, centrality measures). * **Query Languages:** Specialized languages for querying graph databases. The most common is **Cypher** (used by Neo4j). Gremlin is another popular option. * **ACID Properties:** Like relational databases, graph databases often provide ACID (Atomicity, Consistency, Isolation, Durability) properties to ensure data integrity. * **Popular Graph Database Systems:** * **Neo4j:** The most popular graph database. Mature, well-documented, and has a large community. Uses Cypher. * **Amazon Neptune:** A fully managed graph database service from AWS. Supports both Gremlin and SPARQL. * **JanusGraph:** A distributed, scalable graph database. Supports Gremlin. * **TigerGraph:** A high-performance graph database designed for complex analytics. Uses its own GSQL language. * **Example Cypher Query (Neo4j):** ```cypher // Find all friends of a player named "Alice" MATCH (alice:Player {username: "Alice"})-[:FRIENDS_WITH]->(friend:Player) RETURN friend.username; // Find all items owned by a player named "Bob" MATCH (bob:Player {username: "Bob"})-[:OWNS]->(item:Item) RETURN item.name; // Find the shortest path between two players MATCH (start:Player {username: "PlayerA"}), (end:Player {username: "PlayerB"}), p = shortestPath((start)-[*]-(end)) RETURN p ``` **II. Minecraft Protocol (MCP) Servers** * **What is the Minecraft Protocol?** * The communication protocol used between Minecraft clients and servers. It's a binary protocol that defines how clients send requests (e.g., player movement, chat messages, block placement) and how servers respond (e.g., world updates, player positions, chat messages). * **Not Officially Documented by Mojang:** The protocol is reverse-engineered and maintained by the community. This means it's subject to change with each Minecraft version update. * **Packets:** The fundamental unit of communication. Each packet has an ID and a data payload. The structure of the payload depends on the packet ID. * **Why is MCP Relevant to Graph Databases?** * **Data Source:** MCP provides a rich stream of data about player actions, world state, and server events. This data can be ingested into a graph database to build a comprehensive model of the Minecraft server. * **Real-time Analysis:** By processing MCP packets in real-time, you can update the graph database and perform real-time analysis of player behavior, server performance, and other metrics. * **Key MCP Concepts:** * **Packet IDs:** Unique identifiers for each type of packet (e.g., `0x00` for Handshake, `0x0F` for Player Position). These IDs change between Minecraft versions. * **Packet Payloads:** The data contained within a packet. The structure of the payload is defined by the packet ID and the Minecraft version. Data types include integers, strings, booleans, and arrays. * **Handshaking:** The initial process where the client and server establish a connection and negotiate the protocol version. * **State:** The connection goes through different states (Handshaking, Status, Login, Play) as the client authenticates and joins the game. * **Data Serialization/Deserialization:** Converting data between the binary format of the MCP and the data structures used in your programming language. * **Common MCP Packets of Interest (for Graph DB projects):** * **Player Position:** Tracks player movement. Useful for building player location graphs, identifying travel patterns, and detecting anomalies. * **Chat Message:** Captures player chat. Useful for sentiment analysis, identifying social connections, and detecting rule violations. * **Block Change:** Tracks block placement and destruction. Useful for analyzing building activity, identifying griefing, and tracking resource usage. * **Entity Spawn:** Tracks the creation of entities (players, mobs, items). Useful for analyzing population dynamics and tracking item flow. * **Entity Destroy:** Tracks the removal of entities. * **Join/Leave Game:** Tracks when players join and leave the server. Useful for analyzing player activity and server load. * **Tools and Libraries for Working with MCP:** * **PrismarineJS:** A JavaScript library for interacting with the Minecraft protocol. Well-maintained and supports many Minecraft versions. * **Python-Minecraft:** A Python library for interacting with the Minecraft protocol. * **Packet Libraries (Various Languages):** Many libraries exist in different languages that provide pre-built packet definitions and serialization/deserialization logic. Search for "[language] minecraft protocol library". * **Wireshark:** A network protocol analyzer that can be used to capture and inspect MCP packets. Useful for debugging and understanding the protocol. **III. Combining Graph Databases and MCP Servers: Project Ideas & Considerations** * **Example Project: Social Network Analysis** * **Nodes:** Players * **Edges:** `FRIENDS_WITH` (inferred from chat messages, party systems, etc.), `PLAYED_WITH` (inferred from being in the same location at the same time) * **Analysis:** Identify influential players, detect communities, recommend friends. * **Example Project: Griefing Detection** * **Nodes:** Players, Blocks, Locations * **Edges:** `PLACED`, `DESTROYED`, `NEAR` * **Analysis:** Identify patterns of block destruction that are indicative of griefing. Track the movement of players who are suspected of griefing. * **Example Project: Resource Tracking** * **Nodes:** Players, Items, Locations * **Edges:** `OWNS`, `MINED_FROM`, `PLACED_AT` * **Analysis:** Track the flow of resources through the server. Identify bottlenecks and potential exploits. * **Example Project: Dynamic World Map** * **Nodes:** Locations, Chunks * **Edges:** `ADJACENT_TO`, `CONTAINS` * **Analysis:** Visualize the world, track changes over time, identify areas of high activity. * **Key Considerations:** * **Minecraft Version Compatibility:** The MCP changes with each Minecraft version. Ensure your code and libraries are compatible with the target version. * **Data Volume:** Minecraft servers can generate a large amount of data. Choose a graph database that can handle the scale. * **Real-time vs. Batch Processing:** Decide whether you need to process MCP packets in real-time or whether batch processing is sufficient. Real-time processing requires more complex infrastructure. * **Data Cleaning and Transformation:** MCP data can be noisy and inconsistent. Implement data cleaning and transformation pipelines to ensure data quality. * **Privacy:** Be mindful of player privacy when collecting and storing data. Obtain consent where necessary and anonymize data where possible. * **Performance:** Graph database queries can be expensive. Optimize your queries and data model to ensure performance. Consider using indexes. * **Graph Database Schema Design:** Careful planning of your node and edge types, and their properties, is crucial for efficient querying and analysis. **IV. LM-Specific Considerations** * **Prompt Engineering:** When using an LM to work with this data, provide clear and specific prompts. For example: * "Write a Cypher query to find all players who have placed more than 100 diamond blocks in the last hour." * "Explain the purpose of the `Player Position` packet in the Minecraft protocol." * "Suggest a graph database schema for tracking player interactions on a Minecraft server." * **Contextual Information:** Provide the LM with relevant context about the Minecraft version, the graph database schema, and the specific project goals. * **Code Generation:** Use the LM to generate code snippets for interacting with the graph database and the MCP. Be sure to review and test the generated code carefully. * **Data Analysis:** Use the LM to analyze the data stored in the graph database. For example, you could ask the LM to identify trends in player behavior or to detect anomalies in the data. * **Fine-tuning:** Consider fine-tuning the LM on a dataset of Minecraft-related text and code to improve its performance on these tasks. **In summary, a successful Graph Database project for MCP Servers requires a solid understanding of both Graph Database principles and the intricacies of the Minecraft Protocol. By carefully designing your data model, choosing the right tools, and paying attention to performance and privacy, you can build powerful applications that unlock valuable insights from your Minecraft server data.** This comprehensive overview should provide a strong foundation for an LM to quickly grasp the key concepts and contribute effectively to Graph Database projects related to MCP Servers. Remember to tailor the information to the specific project requirements and to provide the LM with clear and specific instructions.

interactive-mcp

A Node.js/TypeScript MCP server that facilitates interactive communication between LLMs and users, allowing AI assistants to request user input, display notifications, and manage command-line chat sessions.

Project Overview

使用 MCP 服务器与 OpenAI 代理

wallet-inspector-mcp

wallet-inspector-mcp

BasicSec MCP Server

Enables DNS and email security analysis through passive and active scanning capabilities. Provides comprehensive domain security checks including SPF, DMARC, DNSSEC validation, MX record analysis, and SMTP connectivity testing.