Discover Awesome MCP Servers

MCP Worktree Voting Server

Enables parallel implementation of tasks using git worktrees, allowing you to create multiple variants of a solution, evaluate them side-by-side, and select the best one.

Human-Controlled MCP Server

Connects Claude to a human operator through a web interface, allowing Claude to ask questions, request searches, or seek decisions that are answered by a human in real-time. Instead of automated tools, Claude gets responses directly from you through a beautiful web dashboard.

Zhipu Web Search MCP

Por favor, proporciona el texto en inglés que deseas que traduzca. Necesito el texto original para poder traducirlo al español.

Nextcloud MCP Server

Connects AI assistants to Nextcloud instances with 90+ tools for managing notes, calendars, contacts, files, recipes, and more through natural language conversations. Supports semantic search and multiple deployment options.

linkedmcp

linkedmcp

cascade-mcp-server

Repositorio del servidor Cascade MCP

Data Commons MCP Server

Enables AI agents to query and retrieve public statistical data from Data Commons through search and observation tools. Provides access to demographic, economic, and other statistical indicators for analysis and research.

Playwright MCP HTTP Server

Provides browser automation capabilities via HTTP endpoints by wrapping the official Playwright MCP package, enabling serverless deployments and cloud environments where STDIO-based communication is not possible.

MCP Run Python

Enables secure execution of Python code in a sandboxed WebAssembly environment using Pyodide and Deno. Automatically handles package management and captures complete execution results including stdout, stderr, and return values.

Docsmith MCP

Enables processing of Excel, Word, and PDF documents through reading, writing, and metadata extraction. It leverages a secure Pyodide WebAssembly environment to handle document parsing with support for paginated results.

Minimalist Knowledge Base MCP

Enables LLMs to manage file-based knowledge bases with dual storage (Markdown + SQLite). Supports creating, searching, and organizing articles across multiple knowledge bases with full-text search capabilities.

Model Hub MCP

An MCP server that retrieves and provides AI model information from OpenAI, Anthropic, and Google through a unified interface.

MCP Server Template

A starter template for creating Model Context Protocol servers that integrate with Claude Desktop and other MCP-compatible clients. Provides a configurable tool system, Docker support, and TypeScript-ready structure for building custom MCP servers.

mcp-tailscale

Production-ready MCP server for Tailscale management with 48 tools across 9 domains: Devices, DNS/Split DNS, ACL policies, Auth Keys, Users, Webhooks, Posture Integrations, Tailnet Settings, and Diagnostics. Supports stdio and SSE transport with Bearer token authentication. Built with TypeScript strict mode, Zod validation, and zero shell execution. AGPL-3.0 + Commercial dual-licensed.

VS Code Settings MCP Server

Enables AI assistants to programmatically read, update, and manage Visual Studio Code settings across user and workspace scopes. It provides cross-platform support for automating VS Code configuration through the Model Context Protocol.

MCP Ethical Hacking

Here's a sample ethical hacking security plan for educational purposes. Remember, this is a simplified example and a real-world plan would be much more detailed and specific to the organization. **Title:** Ethical Hacking Security Assessment Plan - [School/Organization Name] **1. Introduction** * **Purpose:** This document outlines the plan for a controlled ethical hacking assessment of [School/Organization Name]'s network and systems. The goal is to identify vulnerabilities and weaknesses that could be exploited by malicious actors, allowing for proactive remediation and improved security posture. This assessment is for educational purposes and will be conducted with the full knowledge and consent of [School/Organization Name]. * **Scope:** This assessment will focus on [Specify areas, e.g., web applications, internal network, wireless network, specific servers]. It will *not* include [Specify exclusions, e.g., student data, critical infrastructure, physical security]. * **Objectives:** * Identify vulnerabilities in [Specify systems/applications]. * Assess the effectiveness of existing security controls. * Provide recommendations for remediation and improvement. * Provide a learning experience for students involved in the assessment. * **Disclaimer:** This assessment is designed to simulate real-world attacks in a controlled environment. Every effort will be made to avoid disruption to normal operations. However, there is always a small risk of unforeseen consequences. All activities will be conducted ethically and legally, adhering to the principles of responsible disclosure. **2. Team and Roles** * **Ethical Hacking Team:** * **Team Lead:** [Name, Credentials/Experience] - Responsible for overall planning, execution, and reporting. * **Team Members:** [Names, Roles/Specializations, e.g., Network Security Specialist, Web Application Security Specialist] - Responsible for specific tasks within the assessment. * **[School/Organization Name] Liaison:** [Name, Title] - Point of contact for communication, approvals, and coordination. * **Legal Counsel (if applicable):** [Name] - Provides legal oversight and ensures compliance. **3. Methodology** * **Phases:** * **Planning & Reconnaissance:** Defining the scope, gathering information about the target systems, and obtaining necessary permissions. * **Scanning:** Identifying open ports, services, and potential vulnerabilities using automated tools (e.g., Nmap, Nessus). * **Vulnerability Assessment:** Analyzing scan results to identify exploitable vulnerabilities. * **Exploitation (Controlled):** Attempting to exploit identified vulnerabilities in a controlled and documented manner. *This phase will only be conducted with explicit permission and under strict supervision.* * **Reporting:** Documenting all findings, including vulnerabilities, exploitation attempts, and recommendations for remediation. * **Tools:** [List of tools to be used, e.g., Nmap, Metasploit, Burp Suite, Wireshark]. *Only open-source or licensed tools will be used.* * **Rules of Engagement:** * All activities must be pre-approved by the [School/Organization Name] Liaison. * No data will be intentionally destroyed or modified. * Access to sensitive data will be minimized and handled with utmost confidentiality. * Any discovered vulnerabilities will be immediately reported to the [School/Organization Name] Liaison. * The assessment will be stopped immediately if it poses a significant risk to the organization's operations. * The ethical hacking team will adhere to all applicable laws and regulations. **4. Communication Plan** * **Regular Updates:** The Ethical Hacking Team will provide regular updates to the [School/Organization Name] Liaison on the progress of the assessment. * **Emergency Contact:** [Name, Phone Number] - Contact person in case of any unexpected issues or emergencies. * **Reporting:** A detailed report will be provided to the [School/Organization Name] Liaison upon completion of the assessment. **5. Reporting** * The final report will include: * Executive Summary: A high-level overview of the assessment and its findings. * Methodology: A description of the methods used during the assessment. * Vulnerability Assessment: A detailed description of each identified vulnerability, including its severity, potential impact, and recommended remediation steps. * Exploitation Results: A summary of any successful exploitation attempts. * Recommendations: Specific recommendations for improving the organization's security posture. * Appendix: Supporting documentation, such as scan reports and screenshots. **6. Legal and Ethical Considerations** * **Informed Consent:** [School/Organization Name] has provided informed consent for this assessment. * **Confidentiality:** All information obtained during the assessment will be treated as confidential. * **Data Protection:** All data will be handled in accordance with applicable data protection laws and regulations. * **Compliance:** The assessment will be conducted in compliance with all applicable laws and regulations. **7. Timeline** * [Start Date] - [End Date]: Detailed schedule of activities, including planning, scanning, vulnerability assessment, exploitation (if applicable), and reporting. **8. Approval** * [Signature of Team Lead] * [Signature of [School/Organization Name] Liaison] * [Date] **Important Considerations for Educational Use:** * **Supervision:** All activities must be closely supervised by experienced instructors. * **Limited Scope:** The scope of the assessment should be carefully limited to avoid any potential harm to real-world systems. * **Simulated Environments:** Whenever possible, use simulated environments (e.g., virtual machines, lab networks) for hands-on exercises. * **Ethical Discussions:** Emphasize the importance of ethical behavior and responsible disclosure. * **Legal Compliance:** Ensure that all activities comply with applicable laws and regulations. This is a basic framework. You'll need to adapt it to your specific educational context and the systems you'll be assessing. Good luck! Now, here's the translation to Spanish: **Plan de Evaluación de Seguridad de Hacking Ético - [Nombre de la Escuela/Organización]** **1. Introducción** * **Propósito:** Este documento describe el plan para una evaluación controlada de hacking ético de la red y los sistemas de [Nombre de la Escuela/Organización]. El objetivo es identificar vulnerabilidades y debilidades que podrían ser explotadas por actores maliciosos, permitiendo la remediación proactiva y la mejora de la postura de seguridad. Esta evaluación tiene fines educativos y se llevará a cabo con el pleno conocimiento y consentimiento de [Nombre de la Escuela/Organización]. * **Alcance:** Esta evaluación se centrará en [Especificar áreas, por ejemplo, aplicaciones web, red interna, red inalámbrica, servidores específicos]. *No* incluirá [Especificar exclusiones, por ejemplo, datos de estudiantes, infraestructura crítica, seguridad física]. * **Objetivos:** * Identificar vulnerabilidades en [Especificar sistemas/aplicaciones]. * Evaluar la eficacia de los controles de seguridad existentes. * Proporcionar recomendaciones para la remediación y la mejora. * Proporcionar una experiencia de aprendizaje para los estudiantes involucrados en la evaluación. * **Descargo de responsabilidad:** Esta evaluación está diseñada para simular ataques del mundo real en un entorno controlado. Se hará todo lo posible para evitar la interrupción de las operaciones normales. Sin embargo, siempre existe un pequeño riesgo de consecuencias imprevistas. Todas las actividades se llevarán a cabo de manera ética y legal, adhiriéndose a los principios de divulgación responsable. **2. Equipo y Roles** * **Equipo de Hacking Ético:** * **Líder del Equipo:** [Nombre, Credenciales/Experiencia] - Responsable de la planificación general, la ejecución y la presentación de informes. * **Miembros del Equipo:** [Nombres, Roles/Especializaciones, por ejemplo, Especialista en Seguridad de Redes, Especialista en Seguridad de Aplicaciones Web] - Responsables de tareas específicas dentro de la evaluación. * **Enlace de [Nombre de la Escuela/Organización]:** [Nombre, Título] - Punto de contacto para la comunicación, las aprobaciones y la coordinación. * **Asesor Legal (si corresponde):** [Nombre] - Proporciona supervisión legal y garantiza el cumplimiento. **3. Metodología** * **Fases:** * **Planificación y Reconocimiento:** Definir el alcance, recopilar información sobre los sistemas objetivo y obtener los permisos necesarios. * **Escaneo:** Identificar puertos abiertos, servicios y posibles vulnerabilidades utilizando herramientas automatizadas (por ejemplo, Nmap, Nessus). * **Evaluación de Vulnerabilidades:** Analizar los resultados del escaneo para identificar vulnerabilidades explotables. * **Explotación (Controlada):** Intentar explotar las vulnerabilidades identificadas de manera controlada y documentada. *Esta fase solo se llevará a cabo con permiso explícito y bajo estricta supervisión.* * **Informes:** Documentar todos los hallazgos, incluidas las vulnerabilidades, los intentos de explotación y las recomendaciones para la remediación. * **Herramientas:** [Lista de herramientas que se utilizarán, por ejemplo, Nmap, Metasploit, Burp Suite, Wireshark]. *Solo se utilizarán herramientas de código abierto o con licencia.* * **Reglas de Compromiso:** * Todas las actividades deben ser aprobadas previamente por el Enlace de [Nombre de la Escuela/Organización]. * No se destruirán ni modificarán datos intencionalmente. * El acceso a datos confidenciales se minimizará y se manejará con la máxima confidencialidad. * Cualquier vulnerabilidad descubierta se informará inmediatamente al Enlace de [Nombre de la Escuela/Organización]. * La evaluación se detendrá inmediatamente si representa un riesgo significativo para las operaciones de la organización. * El equipo de hacking ético se adherirá a todas las leyes y regulaciones aplicables. **4. Plan de Comunicación** * **Actualizaciones Periódicas:** El Equipo de Hacking Ético proporcionará actualizaciones periódicas al Enlace de [Nombre de la Escuela/Organización] sobre el progreso de la evaluación. * **Contacto de Emergencia:** [Nombre, Número de Teléfono] - Persona de contacto en caso de problemas inesperados o emergencias. * **Informes:** Se proporcionará un informe detallado al Enlace de [Nombre de la Escuela/Organización] al finalizar la evaluación. **5. Informes** * El informe final incluirá: * Resumen Ejecutivo: Una descripción general de alto nivel de la evaluación y sus hallazgos. * Metodología: Una descripción de los métodos utilizados durante la evaluación. * Evaluación de Vulnerabilidades: Una descripción detallada de cada vulnerabilidad identificada, incluida su gravedad, impacto potencial y pasos de remediación recomendados. * Resultados de la Explotación: Un resumen de cualquier intento de explotación exitoso. * Recomendaciones: Recomendaciones específicas para mejorar la postura de seguridad de la organización. * Apéndice: Documentación de respaldo, como informes de escaneo y capturas de pantalla. **6. Consideraciones Legales y Éticas** * **Consentimiento Informado:** [Nombre de la Escuela/Organización] ha proporcionado consentimiento informado para esta evaluación. * **Confidencialidad:** Toda la información obtenida durante la evaluación se tratará como confidencial. * **Protección de Datos:** Todos los datos se manejarán de acuerdo con las leyes y regulaciones de protección de datos aplicables. * **Cumplimiento:** La evaluación se llevará a cabo en cumplimiento de todas las leyes y regulaciones aplicables. **7. Cronograma** * [Fecha de Inicio] - [Fecha de Finalización]: Cronograma detallado de actividades, incluida la planificación, el escaneo, la evaluación de vulnerabilidades, la explotación (si corresponde) y la presentación de informes. **8. Aprobación** * [Firma del Líder del Equipo] * [Firma del Enlace de [Nombre de la Escuela/Organización]] * [Fecha] **Consideraciones Importantes para el Uso Educativo:** * **Supervisión:** Todas las actividades deben ser supervisadas de cerca por instructores experimentados. * **Alcance Limitado:** El alcance de la evaluación debe limitarse cuidadosamente para evitar cualquier daño potencial a los sistemas del mundo real. * **Entornos Simulados:** Siempre que sea posible, utilice entornos simulados (por ejemplo, máquinas virtuales, redes de laboratorio) para ejercicios prácticos. * **Discusiones Éticas:** Enfatice la importancia del comportamiento ético y la divulgación responsable. * **Cumplimiento Legal:** Asegúrese de que todas las actividades cumplan con las leyes y regulaciones aplicables. Este es un marco básico. Deberá adaptarlo a su contexto educativo específico y a los sistemas que evaluará. ¡Buena suerte!

ModelScope Image MCP Server

Enables users to generate high-quality images using ModelScope's Qwen-Image model through natural language prompts. Supports async task processing with both image URL and base64 encoded data output options.

Todo Markdown MCP Server

An MCP server that allows AI assistants to manage todo lists stored in a simple markdown file, supporting creation, reading, updating, and deletion of todo items with persistent IDs.

MetaTrader 5 MCP Server

Provides read-only access to MetaTrader 5 market data, trading history, and technical analysis through Python execution. Supports querying price data, calculating indicators, creating charts, and generating forecasts with Prophet and ML models.

crazyrouter-mcp

Access 627+ AI models through one API key — chat with GPT-5/Claude/Gemini, generate images with DALL-E 3/Midjourney/Flux, create videos with Sora 2/Kling/Veo 3, and more via Crazyrouter.

OpenVan MCP Server

OpenVan MCP Server exposes OpenVan.camp public APIs over the Model Context Protocol: fuel prices across 125+ countries, VanSky weather suitability scores (0–100), VanBasket food price index, currency exchange rates, vanlife events (expos, festivals, meetups) and aggregated news stories in 7 languages. 11 read-only tools, no authentication, 120 req/min rate limit, CC BY 4.0 license. Remote Streamab

MCP Google Sheets Server

Enables reading, writing, and managing Google Sheets documents with support for batch operations, formatting, charts, and conditional formatting through the Model Context Protocol.

Document Reader MCP Server

Enables reading and processing various document formats including Word, PDF, RTF, and text files. Supports extracting media elements like images and links, with features for PDF page range selection and automatic text encoding detection.

LinkedIn Profile Data Mining

Enables comprehensive LinkedIn profile search, data extraction, and contact enrichment using Google Search, Apollo.io, and AI-powered analysis. Includes automated data mining workflows with database storage and CSV export capabilities.

Flint Note

Provides an agent-first note-taking system designed from the ground up for AI collaboration. Organizes your notes as a local vault of ordinary markdown files with semantic note types.

Ambient Code Platform MCP Server

Enables delegation of agentic sessions to Kubernetes-hosted Claude agents running on the Ambient Code Platform. Supports creating, managing, and communicating with remote AI agent sessions through OpenShift authentication.

Disney Parks MCP Server

Provides access to Disney parks data including attractions, dining locations, height requirements, Lightning Lane status, and other park information for Walt Disney World and Disneyland resorts through structured queries and fuzzy search.

MCPHub

A unified gateway and dashboard that aggregates multiple MCP servers into a single endpoint for streamlined management by AI clients. It features a centralized YAML configuration, a web-based monitoring dashboard, and hot-reload support for managing filesystem, GitHub, and database tools.