Discover Awesome MCP Servers

EliteMCP

Analyzes directory structures with .gitignore awareness and executes Python code in secure sandboxed environments. Combines intelligent codebase analysis with safe code execution for development workflows.

Domain Availability Checker MCP

Domain Availability Checker MCP

dev-chrome-monitor

Enables interaction with Chromium browser instances through Puppeteer for inspecting dev builds, capturing screenshots, and automating UI interactions. Features permission-gated tools for secure browser navigation, DOM manipulation, and JavaScript evaluation.

FreshRSS MCP Server

Enables interaction with FreshRSS RSS feed readers through the Google Reader compatible API. Supports feed management, article reading/searching, and marking articles as read or starred.

MCP PDF Server

A Model Context Protocol (MCP) based server that efficiently manages PDF files, allowing AI coding tools like Cursor to read, summarize, and extract information from PDF datasheets to assist embedded development work.

Israel Statistics MCP

MCP server that provides programmatic access to the Israeli Central Bureau of Statistics (CBS) price indices and economic data

MCP Odoo Shell

A bridge server that provides access to an Odoo shell environment, allowing execution of Python code within an Odoo database context for model introspection and database operations.

Interzoid Weather City API MCP Server

An MCP server that provides access to the Interzoid GetWeatherCity API, allowing users to retrieve weather information for specified cities through natural language interactions.

OpenTelemetry MCP Server

Enables AI agents to query Prometheus metrics and Loki logs for intelligent alert investigation and troubleshooting. Provides service discovery, metric querying, log searching, and correlation tools to help identify root causes of issues.

Square MCP Server by CData

This read-only MCP Server allows you to connect to Square data from Claude Desktop through CData JDBC Drivers. Free (beta) read/write servers available at https://www.cdata.com/solutions/mcp

mcp-cli-catalog

An MCP server that publishes CLI tools on your machine for discoverability by LLMs

Awesome MCP Servers

Uma coleção abrangente de servidores do Protocolo de Contexto de Modelo (MCP).

mcp-servers

Servidores MCP (Minecraft Protocol) em um ambiente serverless.

Reddit MCP Server

An MCP server that enables AI assistants to access and interact with Reddit content through features like user analysis, post retrieval, subreddit statistics, and authenticated posting capabilities.

Content Server

Stores Organizations content

mcp-golang-http-server

Um servidor MCP simples exposto via SSE com ferramentas de exemplo, recursos e prompts.

Washington Law MCP Server

Provides offline access to Washington State's Revised Code of Washington (RCW) and Washington Administrative Code (WAC) for AI agents. Enables fast retrieval, full-text search, and navigation of all Washington state laws through natural language queries.

SAP BusinessObjects BI MCP Server by CData

This project builds a read-only MCP server. For full read, write, update, delete, and action capabilities and a simplified setup, check out our free CData MCP Server for SAP BusinessObjects BI (beta): https://www.cdata.com/download/download.aspx?sku=GJZK-V&type=beta

Mcp Akshare

AKShare é uma biblioteca de interface de dados financeiros baseada em Python, com o objetivo de implementar um conjunto de ferramentas para dados fundamentais, dados de mercado em tempo real e históricos, e dados derivados de produtos financeiros como ações, futuros, opções, fundos, câmbio, títulos, índices e criptomoedas, desde a coleta de dados, limpeza de dados até o armazenamento de dados, principalmente para fins de pesquisa acadêmica.

ETH Price Current Server

A minimal Model Context Protocol (MCP) server that fetches the current Ethereum (ETH) price in USD. Data source: the public CoinGecko API (no API key required). This MCP is designed to simulate malicious behavior, specifically an attempt to mislead LLM to return incorrect results.

A MCP server for Godot RAG

Este servidor MCP é usado para fornecer documentação do Godot ao modelo RAG do Godot.

MCP Demo Server

A minimal fastmcp demonstration server that provides a simple addition tool through the MCP protocol, supporting deployment via Docker with multiple transport modes.

Cars MCP Server

Okay, here's a basic example of how you might set up a simple Minecraft Protocol (MCP) server using Spring AI concepts. Keep in mind that this is a *very* high-level outline. Building a full MCP server is a complex undertaking. This example focuses on illustrating how Spring AI *could* be integrated for certain aspects, not on providing a complete, production-ready server. **Conceptual Overview** The core idea is to use Spring AI to handle certain aspects of the server logic, such as: * **Natural Language Command Processing:** Allow players to issue commands in natural language, which Spring AI can then translate into specific server actions. * **Dynamic Content Generation:** Use AI to generate quests, stories, or even world elements on the fly. * **NPC Behavior:** Control the behavior of non-player characters (NPCs) using AI models. **Simplified Example (Focusing on Command Processing)** Let's focus on the command processing aspect for this example. **1. Project Setup (Maven/Gradle)** You'll need a Spring Boot project. Here's a basic `pom.xml` (Maven) with the necessary dependencies: ```xml <?xml version="1.0" encoding="UTF-8"?> <project xmlns="http://maven.apache.org/POM/4.0.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 https://maven.apache.org/xsd/maven-4.0.0.xsd"> <modelVersion>4.0.0</modelVersion> <parent> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-parent</artifactId> <version>3.2.0</version> <!-- Use the latest Spring Boot version --> <relativePath/> <!-- lookup parent from repository --> </parent> <groupId>com.example</groupId> <artifactId>mcp-server</artifactId> <version>0.0.1-SNAPSHOT</version> <name>mcp-server</name> <description>Basic MCP Server with Spring AI</description> <properties> <java.version>17</java.version> <spring-ai.version>1.0.0-M2</spring-ai.version> <!-- Use the latest Spring AI version --> </properties> <dependencies> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter</artifactId> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-test</artifactId> <scope>test</scope> </dependency> <!-- Spring AI Dependencies --> <dependency> <groupId>org.springframework.ai</groupId> <artifactId>spring-ai-core</artifactId> <version>${spring-ai.version}</version> </dependency> <dependency> <groupId>org.springframework.ai</groupId> <artifactId>spring-ai-openai</artifactId> <version>${spring-ai.version}</version> </dependency> <!-- Netty for MCP Communication (Example) --> <dependency> <groupId>io.netty</groupId> <artifactId>netty-all</artifactId> <version>4.1.100.Final</version> <!-- Use the latest Netty version --> </dependency> <!-- Lombok for boilerplate code reduction --> <dependency> <groupId>org.projectlombok</groupId> <artifactId>lombok</artifactId> <optional>true</optional> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-configuration-processor</artifactId> <optional>true</optional> </dependency> </dependencies> <build> <plugins> <plugin> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-maven-plugin</artifactId> <configuration> <excludes> <exclude> <groupId>org.projectlombok</groupId> <artifactId>lombok</artifactId> </exclude> </excludes> </configuration> </plugin> </plugins> </build> <repositories> <repository> <id>spring-milestones</id> <name>Spring Milestones</name> <url>https://repo.spring.io/milestone</url> <snapshots> <enabled>false</enabled> </snapshots> </repository> </repositories> </project> ``` **Important:** * Replace `3.2.0` and `1.0.0-M2` with the latest stable versions of Spring Boot and Spring AI, respectively. * You'll need an OpenAI API key. Set it as an environment variable or in your `application.properties` file. * This example uses Netty for handling the network communication. You could use other libraries as well. **2. `application.properties` (or `application.yml`)** ```properties spring.ai.openai.api-key=YOUR_OPENAI_API_KEY ``` **3. MCP Server (Simplified with Netty)** ```java package com.example.mcpserver; import io.netty.bootstrap.ServerBootstrap; import io.netty.channel.*; import io.netty.channel.nio.NioEventLoopGroup; import io.netty.channel.socket.SocketChannel; import io.netty.channel.socket.nio.NioServerSocketChannel; import io.netty.handler.codec.string.StringDecoder; import io.netty.handler.codec.string.StringEncoder; import lombok.RequiredArgsConstructor; import org.springframework.ai.client.AiClient; import org.springframework.ai.prompt.PromptTemplate; import org.springframework.beans.factory.annotation.Value; import org.springframework.boot.CommandLineRunner; import org.springframework.boot.SpringApplication; import org.springframework.boot.autoconfigure.SpringBootApplication; import org.springframework.context.annotation.Bean; @SpringBootApplication public class McpServerApplication { public static void main(String[] args) { SpringApplication.run(McpServerApplication.class, args); } @Bean public CommandLineRunner run(McpServer mcpServer) { return args -> { mcpServer.start(); }; } @Bean public McpServer mcpServer(AiClient aiClient, @Value("${server.port:25565}") int port) { return new McpServer(aiClient, port); } } @RequiredArgsConstructor class McpServer { private final AiClient aiClient; private final int port; public void start() throws Exception { EventLoopGroup bossGroup = new NioEventLoopGroup(); EventLoopGroup workerGroup = new NioEventLoopGroup(); try { ServerBootstrap b = new ServerBootstrap(); b.group(bossGroup, workerGroup) .channel(NioServerSocketChannel.class) .childHandler(new ChannelInitializer<SocketChannel>() { @Override public void initChannel(SocketChannel ch) { ChannelPipeline p = ch.pipeline(); p.addLast(new StringDecoder(), new StringEncoder(), new McpServerHandler(aiClient)); } }) .option(ChannelOption.SO_BACKLOG, 128) .childOption(ChannelOption.SO_KEEPALIVE, true); // Bind and start to accept incoming connections. ChannelFuture f = b.bind(port).sync(); System.out.println("MCP Server started on port " + port); // Wait until the server socket is closed. // In this example, this does not happen, but you can do that to gracefully // shut down your server. f.channel().closeFuture().sync(); } finally { workerGroup.shutdownGracefully(); bossGroup.shutdownGracefully(); } } } @RequiredArgsConstructor class McpServerHandler extends ChannelInboundHandlerAdapter { private final AiClient aiClient; @Override public void channelRead(ChannelHandlerContext ctx, Object msg) { String command = (String) msg; System.out.println("Received command: " + command); // Use Spring AI to process the command String aiResponse = processCommand(command); // Send the response back to the client ctx.writeAndFlush(aiResponse + "\n"); } private String processCommand(String command) { // Define a prompt template for command processing String promptString = "You are a Minecraft server assistant. The player said: {command}. Determine the appropriate Minecraft command and explain it to the user. If the command is not valid, respond with an error message."; PromptTemplate promptTemplate = new PromptTemplate(promptString); // Create a prompt with the player's command org.springframework.ai.prompt.Prompt prompt = promptTemplate.create(org.springframework.ai.prompt.PromptTemplate.map("command", command)); // Call the AI model String aiResponse = aiClient.generate(prompt).getGeneration().getText(); return aiResponse; } @Override public void exceptionCaught(ChannelHandlerContext ctx, Throwable cause) { cause.printStackTrace(); ctx.close(); } } ``` **Explanation:** 1. **Dependencies:** The `pom.xml` includes Spring AI, Netty, and Lombok. 2. **`application.properties`:** Sets the OpenAI API key. 3. **`McpServerApplication`:** The main Spring Boot application class. It creates the `McpServer` bean and starts it when the application runs. 4. **`McpServer`:** This class uses Netty to create a simple TCP server. It listens for incoming connections on the specified port. 5. **`McpServerHandler`:** This class handles incoming messages (commands) from clients. * It receives the command as a string. * It uses Spring AI's `AiClient` to process the command. * It sends the AI-generated response back to the client. 6. **`processCommand`:** * Defines a prompt template that instructs the AI model to act as a Minecraft server assistant. * Creates a `Prompt` object with the player's command. * Calls the `AiClient` to generate a response based on the prompt. **How it Works:** 1. The server starts and listens for connections. 2. A player connects to the server. 3. The player sends a command (e.g., "I want to build a house"). 4. The `McpServerHandler` receives the command. 5. The `processCommand` method constructs a prompt for the AI model, including the player's command. 6. The `AiClient` sends the prompt to the OpenAI API. 7. The OpenAI API generates a response (e.g., "To build a house, you'll need wood, stone, and a crafting table. The command to get wood is `/give @p minecraft:oak_log 64`"). 8. The `McpServerHandler` sends the AI-generated response back to the player. **To Run:** 1. Make sure you have Java 17 or later installed. 2. Set the `spring.ai.openai.api-key` property in `application.properties` with your OpenAI API key. 3. Run the Spring Boot application. 4. Use a simple TCP client (like `netcat` or a custom client) to connect to the server on the specified port (default 25565). 5. Send commands to the server. **Important Considerations:** * **Security:** This is a *very* basic example and does not include any security measures. In a real-world MCP server, you would need to implement proper authentication, authorization, and input validation to prevent malicious attacks. * **MCP Protocol:** This example doesn't implement the full Minecraft Protocol. You would need to handle the protocol handshake, packet encoding/decoding, and other protocol-specific details. Libraries like `mc-netty` can help with this. * **Error Handling:** The error handling in this example is minimal. You should add more robust error handling to catch exceptions and provide informative error messages to the player. * **AI Model Cost:** Using OpenAI's API can incur costs. Be mindful of your usage and set up billing alerts. * **Prompt Engineering:** The quality of the AI's responses depends heavily on the prompt you provide. Experiment with different prompts to get the desired behavior. * **Rate Limiting:** The OpenAI API has rate limits. Implement rate limiting in your server to avoid exceeding these limits. * **Context Management:** For more complex interactions, you'll need to manage the context of the conversation with the player. This could involve storing the player's inventory, location, and other relevant information. **Further Development:** * **Implement the full MCP protocol:** Use a library like `mc-netty` to handle the protocol details. * **Add more AI-powered features:** * Dynamic quest generation. * NPC behavior control. * World generation. * **Improve the command processing:** * Add support for more complex commands. * Implement command validation. * Provide more helpful feedback to the player. * **Integrate with a Minecraft server API:** If you want to modify the game world directly, you'll need to integrate with a Minecraft server API like Bukkit or Spigot. **In Portuguese (Translation):** Aqui está um exemplo básico de como você pode configurar um servidor Minecraft Protocol (MCP) simples usando conceitos do Spring AI. Lembre-se de que este é um esboço *muito* geral. Construir um servidor MCP completo é uma tarefa complexa. Este exemplo se concentra em ilustrar como o Spring AI *poderia* ser integrado para certos aspectos, não em fornecer um servidor completo e pronto para produção. **Visão Geral Conceitual** A ideia central é usar o Spring AI para lidar com certos aspectos da lógica do servidor, como: * **Processamento de Comandos em Linguagem Natural:** Permitir que os jogadores emitam comandos em linguagem natural, que o Spring AI pode então traduzir em ações específicas do servidor. * **Geração Dinâmica de Conteúdo:** Usar IA para gerar missões, histórias ou até mesmo elementos do mundo em tempo real. * **Comportamento de NPCs:** Controlar o comportamento de personagens não jogáveis (NPCs) usando modelos de IA. **Exemplo Simplificado (Focando no Processamento de Comandos)** Vamos nos concentrar no aspecto do processamento de comandos para este exemplo. **1. Configuração do Projeto (Maven/Gradle)** Você precisará de um projeto Spring Boot. Aqui está um `pom.xml` básico (Maven) com as dependências necessárias: ```xml <?xml version="1.0" encoding="UTF-8"?> <project xmlns="http://maven.apache.org/POM/4.0.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 https://maven.apache.org/xsd/maven-4.0.0.xsd"> <modelVersion>4.0.0</modelVersion> <parent> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-parent</artifactId> <version>3.2.0</version> <!-- Use a versão mais recente do Spring Boot --> <relativePath/> <!-- lookup parent from repository --> </parent> <groupId>com.example</groupId> <artifactId>mcp-server</artifactId> <version>0.0.1-SNAPSHOT</version> <name>mcp-server</name> <description>Basic MCP Server with Spring AI</description> <properties> <java.version>17</java.version> <spring-ai.version>1.0.0-M2</spring-ai.version> <!-- Use a versão mais recente do Spring AI --> </properties> <dependencies> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter</artifactId> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-test</artifactId> <scope>test</scope> </dependency> <!-- Spring AI Dependencies --> <dependency> <groupId>org.springframework.ai</groupId> <artifactId>spring-ai-core</artifactId> <version>${spring-ai.version}</version> </dependency> <dependency> <groupId>org.springframework.ai</groupId> <artifactId>spring-ai-openai</artifactId> <version>${spring-ai.version}</version> </dependency> <!-- Netty for MCP Communication (Example) --> <dependency> <groupId>io.netty</groupId> <artifactId>netty-all</artifactId> <version>4.1.100.Final</version> <!-- Use a versão mais recente do Netty --> </dependency> <!-- Lombok for boilerplate code reduction --> <dependency> <groupId>org.projectlombok</groupId> <artifactId>lombok</artifactId> <optional>true</optional> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-configuration-processor</artifactId> <optional>true</optional> </dependency> </dependencies> <build> <plugins> <plugin> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-maven-plugin</artifactId> <configuration> <excludes> <exclude> <groupId>org.projectlombok</groupId> <artifactId>lombok</artifactId> </exclude> </excludes> </configuration> </plugin> </plugins> </build> <repositories> <repository> <id>spring-milestones</id> <name>Spring Milestones</name> <url>https://repo.spring.io/milestone</url> <snapshots> <enabled>false</enabled> </snapshots> </repository> </repositories> </project> ``` **Importante:** * Substitua `3.2.0` e `1.0.0-M2` pelas versões estáveis mais recentes do Spring Boot e Spring AI, respectivamente. * Você precisará de uma chave de API do OpenAI. Defina-a como uma variável de ambiente ou no seu arquivo `application.properties`. * Este exemplo usa Netty para lidar com a comunicação de rede. Você pode usar outras bibliotecas também. **2. `application.properties` (ou `application.yml`)** ```properties spring.ai.openai.api-key=SUA_CHAVE_API_OPENAI ``` **3. Servidor MCP (Simplificado com Netty)** ```java package com.example.mcpserver; import io.netty.bootstrap.ServerBootstrap; import io.netty.channel.*; import io.netty.channel.nio.NioEventLoopGroup; import io.netty.channel.socket.SocketChannel; import io.netty.channel.socket.nio.NioServerSocketChannel; import io.netty.handler.codec.string.StringDecoder; import io.netty.handler.codec.string.StringEncoder; import lombok.RequiredArgsConstructor; import org.springframework.ai.client.AiClient; import org.springframework.ai.prompt.PromptTemplate; import org.springframework.beans.factory.annotation.Value; import org.springframework.boot.CommandLineRunner; import org.springframework.boot.SpringApplication; import org.springframework.boot.autoconfigure.SpringBootApplication; import org.springframework.context.annotation.Bean; @SpringBootApplication public class McpServerApplication { public static void main(String[] args) { SpringApplication.run(McpServerApplication.class, args); } @Bean public CommandLineRunner run(McpServer mcpServer) { return args -> { mcpServer.start(); }; } @Bean public McpServer mcpServer(AiClient aiClient, @Value("${server.port:25565}") int port) { return new McpServer(aiClient, port); } } @RequiredArgsConstructor class McpServer { private final AiClient aiClient; private final int port; public void start() throws Exception { EventLoopGroup bossGroup = new NioEventLoopGroup(); EventLoopGroup workerGroup = new NioEventLoopGroup(); try { ServerBootstrap b = new ServerBootstrap(); b.group(bossGroup, workerGroup) .channel(NioServerSocketChannel.class) .childHandler(new ChannelInitializer<SocketChannel>() { @Override public void initChannel(SocketChannel ch) { ChannelPipeline p = ch.pipeline(); p.addLast(new StringDecoder(), new StringEncoder(), new McpServerHandler(aiClient)); } }) .option(ChannelOption.SO_BACKLOG, 128) .childOption(ChannelOption.SO_KEEPALIVE, true); // Bind and start to accept incoming connections. ChannelFuture f = b.bind(port).sync(); System.out.println("Servidor MCP iniciado na porta " + port); // Wait until the server socket is closed. // In this example, this does not happen, but you can do that to gracefully // shut down your server. f.channel().closeFuture().sync(); } finally { workerGroup.shutdownGracefully(); bossGroup.shutdownGracefully(); } } } @RequiredArgsConstructor class McpServerHandler extends ChannelInboundHandlerAdapter { private final AiClient aiClient; @Override public void channelRead(ChannelHandlerContext ctx, Object msg) { String command = (String) msg; System.out.println("Comando recebido: " + command); // Use Spring AI to process the command String aiResponse = processCommand(command); // Send the response back to the client ctx.writeAndFlush(aiResponse + "\n"); } private String processCommand(String command) { // Define a prompt template for command processing String promptString = "Você é um assistente de servidor Minecraft. O jogador disse: {command}. Determine o comando Minecraft apropriado e explique-o ao usuário. Se o comando não for válido, responda com uma mensagem de erro."; PromptTemplate promptTemplate = new PromptTemplate(promptString); // Create a prompt with the player's command org.springframework.ai.prompt.Prompt prompt = promptTemplate.create(org.springframework.ai.prompt.PromptTemplate.map("command", command)); // Call the AI model String aiResponse = aiClient.generate(prompt).getGeneration().getText(); return aiResponse; } @Override public void exceptionCaught(ChannelHandlerContext ctx, Throwable cause) { cause.printStackTrace(); ctx.close(); } } ``` **Explicação:** 1. **Dependências:** O `pom.xml` inclui Spring AI, Netty e Lombok. 2. **`application.properties`:** Define a chave de API do OpenAI. 3. **`McpServerApplication`:** A classe principal da aplicação Spring Boot. Ela cria o bean `McpServer` e o inicia quando a aplicação é executada. 4. **`McpServer`:** Esta classe usa Netty para criar um servidor TCP simples. Ele escuta as conexões de entrada na porta especificada. 5. **`McpServerHandler`:** Esta classe lida com as mensagens de entrada (comandos) dos clientes. * Ele recebe o comando como uma string. * Ele usa o `AiClient` do Spring AI para processar o comando. * Ele envia a resposta gerada pela IA de volta ao cliente. 6. **`processCommand`:** * Define um modelo de prompt que instrui o modelo de IA a atuar como um assistente de servidor Minecraft. * Cria um objeto `Prompt` com o comando do jogador. * Chama o `AiClient` para gerar uma resposta com base no prompt. **Como Funciona:** 1. O servidor inicia e escuta as conexões. 2. Um jogador se conecta ao servidor. 3. O jogador envia um comando (por exemplo, "Eu quero construir uma casa"). 4. O `McpServerHandler` recebe o comando. 5. O método `processCommand` constrói um prompt para o modelo de IA, incluindo o comando do jogador. 6. O `AiClient` envia o prompt para a API do OpenAI. 7. A API do OpenAI gera uma resposta (por exemplo, "Para construir uma casa, você precisará de madeira, pedra e uma mesa de trabalho. O comando para obter madeira é `/give @p minecraft:oak_log 64`"). 8. O `McpServerHandler` envia a resposta gerada pela IA de volta ao jogador. **Para Executar:** 1. Certifique-se de ter o Java 17 ou posterior instalado. 2. Defina a propriedade `spring.ai.openai.api-key` em `application.properties` com sua chave de API do OpenAI. 3. Execute a aplicação Spring Boot. 4. Use um cliente TCP simples (como `netcat` ou um cliente personalizado) para se conectar ao servidor na porta especificada (padrão 25565). 5. Envie comandos para o servidor. **Considerações Importantes:** * **Segurança:** Este é um exemplo *muito* básico e não inclui nenhuma medida de segurança. Em um servidor MCP real, você precisaria implementar autenticação, autorização e validação de entrada adequadas para evitar ataques maliciosos. * **Protocolo MCP:** Este exemplo não implementa o protocolo Minecraft completo. Você precisaria lidar com o handshake do protocolo, codificação/decodificação de pacotes e outros detalhes específicos do protocolo. Bibliotecas como `mc-netty` podem ajudar com isso. * **Tratamento de Erros:** O tratamento de erros neste exemplo é mínimo. Você deve adicionar um tratamento de erros mais robusto para capturar exceções e fornecer mensagens de erro informativas ao jogador. * **Custo do Modelo de IA:** O uso da API do OpenAI pode gerar custos. Esteja atento ao seu uso e configure alertas de faturamento. * **Engenharia de Prompt:** A qualidade das respostas da IA depende muito do prompt que você fornece. Experimente diferentes prompts para obter o comportamento desejado. * **Limitação de Taxa:** A API do OpenAI tem limites de taxa. Implemente a limitação de taxa em seu servidor para evitar exceder esses limites. * **Gerenciamento de Contexto:** Para interações mais complexas, você precisará gerenciar o contexto da conversa com o jogador. Isso pode envolver o armazenamento do inventário, localização e outras informações relevantes do jogador. **Desenvolvimento Adicional:** * **Implemente o protocolo MCP completo:** Use uma biblioteca como `mc-netty` para lidar com os detalhes do protocolo. * **Adicione mais recursos alimentados por IA:** * Geração dinâmica de missões. * Controle do comportamento de NPCs. * Geração de mundo. * **Melhore o processamento de comandos:** * Adicione suporte para comandos mais complexos. * Implemente a validação de comandos. * Forneça feedback mais útil ao jogador. * **Integre com uma API de servidor Minecraft:** Se você quiser modificar o mundo do jogo diretamente, precisará se integrar a uma API de servidor Minecraft como Bukkit ou Spigot. This provides a starting point. Remember to adapt and expand upon this example to create a more complete and functional MCP server. Good luck!

mcp-jenkins

A integração do Jenkins com o Protocolo de Contexto do Modelo (MCP) é uma implementação de código aberto que conecta o Jenkins com modelos de linguagem de IA seguindo a especificação MCP da Anthropic. Este projeto permite interações de IA seguras e contextuais com ferramentas do Jenkins, mantendo a privacidade e a segurança dos dados.

TWSE MCP Server

台灣證交所MCPServer