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Legacy Device Debugger Server

БесплатноНе проверен

This MCP server helps debug legacy devices behind proxies in OT environments by analyzing web interfaces and generating custom rewrite rules to fix proxy-relate

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Описание

This MCP server helps debug legacy devices behind proxies in OT environments by analyzing web interfaces and generating custom rewrite rules to fix proxy-related issues.

README

An MCP (Model Context Protocol) server specifically designed for debugging legacy devices behind proxies in OT (Operational Technology) environments. This server helps support teams identify and fix proxy-related issues independently using custom header rewrite rules, eliminating the need to escalate to development teams.

Overview

Legacy devices in OT environments often have issues working behind proxies due to hardcoded IP addresses, hostname references, and outdated web technologies. This MCP server automates the debugging process and generates appropriate rewrite rules to fix these issues.

Features

🔍 Automated Page Analysis

  • Loads device web interfaces using Playwright
  • Detects network errors, console errors, and loading issues
  • Identifies broken resources and problematic URL patterns
  • Checks for WebSocket connection problems

🛠️ Custom Header Rewrite Rules Generation

  • Automatically generates proxy configuration rules
  • Supports various rule types: header manipulation, body rewriting, redirects
  • Handles common issues like device IP references and broken links

📋 Systematic Debugging Workflow

  • Follows established OT debugging procedures
  • Provides step-by-step analysis and recommendations
  • Generates actionable results for support teams

🌐 Network Analysis

  • Performs curl-like header analysis
  • Detects redirects to device IP/hostname
  • Identifies CSP and other proxy-blocking headers

Installation

# Clone the repository
git clone <repository-url>
cd legacy-device-debugger-mcp

# Install dependencies
npm install

# Install Playwright browsers
npx playwright install chromium

# Build the project
npm run build

Usage

As an MCP Server

Add to your MCP client configuration (e.g., Claude Desktop):

{
  "mcpServers": {
    "legacy-device-debugger": {
      "command": "node",
      "args": ["/absolute/path/to/legacy-device-debugger-mcp/build/index.js"]
    }
  }
}

Available Tools

1. analyze-device-page

Comprehensive analysis of a device's web interface.

Parameters:

  • deviceUrl (string): URL of the legacy device's web interface
  • timeout (number, optional): Timeout in milliseconds (default: 30000)

Example:

Please analyze this legacy device: http://192.168.1.100:8080

2. curl-analysis

HTTP header analysis similar to curl commands.

Parameters:

  • deviceUrl (string): URL of the legacy device

Example:

Perform curl analysis on http://192.168.1.100:8080

3. generate-rewrite-rules

Generate specific rewrite rules for common issues.

Parameters:

  • issueType: Type of issue (device_ip_references, broken_links, image_loading, etc.)
  • deviceUrl: Device URL
  • problemPattern (optional): Specific pattern causing issues
  • targetPath (optional): Specific path needing rewriting

Example:

Generate rewrite rules for broken_links issue on http://192.168.1.100:8080

4. debug-workflow

Complete debugging workflow following OT best practices.

Parameters:

  • deviceUrl: URL of the legacy device
  • deviceIP (optional): Device IP address if known
  • deviceHostname (optional): Device hostname if known

Example:

Run complete debug workflow for http://rtp-acl-bms:8080

Debugging Workflow

The server follows this systematic approach:

  1. Enable Default Rules & Basic Analysis

    • Check if web page loads at all
    • Identify partial loading issues
    • Detect broken images and resources
  2. Network Error Detection

    • Monitor 404/500 errors
    • Check for connection failures
    • Identify requests to device IP/hostname
  3. Header Analysis

    • Perform curl-like analysis
    • Check response headers for problematic patterns
    • Identify redirects and CSP issues
  4. Generate Rewrite Rules

    • Create appropriate proxy configuration
    • Handle common patterns like device IP references
    • Generate header manipulation rules
  5. Provide Recommendations

    • Actionable steps for support teams
    • Escalation guidance if needed
    • Direct access testing procedures

Common Use Cases

1. Device References Hardcoded IPs

Issue: Device web interface references its own IP address in resources Solution: Body rewrite rules to replace IP with external FQDN

2. Broken CSS/JS Loading

Issue: Stylesheets and scripts fail to load through proxy Solution: Header rewrite rules and resource path corrections

3. WebSocket Connection Issues

Issue: WebSocket connections bypass proxy or fail Solution: Protocol upgrade rules and hostname rewriting

4. Redirect to Device IP

Issue: Device redirects users to its internal IP Solution: Location header rewrite rules

Rewrite Rule Types

Header Rules

{
  "type": "header",
  "action": "add|replace|remove|append",
  "headerName": "X-Forwarded-Host",
  "headerValue": "{{DEVICE_EXTERNAL_FQDN}}"
}

Body Rules

{
  "type": "body",
  "action": "find_replace",
  "pattern": "rtp-acl-bms/static/jquery.min.js",
  "replacement": "{{DEVICE_EXTERNAL_FQDN}}/static/jquery.min.js"
}

Redirect Rules

{
  "type": "redirect",
  "action": "replace",
  "pattern": "{{DEVICE_IP}}",
  "replacement": "{{DEVICE_EXTERNAL_FQDN}}"
}

Development

Project Structure

├── src/
│   └── index.ts          # Main MCP server implementation
├── build/                # Compiled JavaScript
├── .vscode/
│   └── mcp.json         # MCP server configuration
├── .github/
│   └── copilot-instructions.md
└── README.md

Building

npm run build

Testing

# Test the server directly
npm run dev

# Test with MCP client
node build/index.js

Configuration Variables

The server uses these placeholder variables in generated rules:

  • {{DEVICE_EXTERNAL_FQDN}}: External FQDN for the device
  • {{DEVICE_INTERNAL_IP}}: Internal IP address of the device
  • {{DEVICE_IP}}: Generic device IP placeholder

Troubleshooting

Common Issues

  1. Playwright Installation

    npx playwright install chromium
    
  2. Permission Errors

    chmod +x build/index.js
    
  3. Module Resolution Ensure package.json has "type": "module"

Debug Mode

Set environment variable for verbose logging:

DEBUG=1 node build/index.js

Contributing

  1. Follow the established debugging workflow patterns
  2. Add appropriate error handling for network operations
  3. Generate actionable rewrite rules in the correct format
  4. Include comprehensive documentation

License

ISC License - see LICENSE file for details.

Support

For issues with legacy device debugging:

  1. Use the complete debug workflow first
  2. Check generated rewrite rules
  3. Test with direct device access
  4. Escalate to DevOps team with analysis results

from github.com/dark-scientist/mcp

Установка Legacy Device Debugger Server

У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.

▸ github.com/dark-scientist/mcp

FAQ

Legacy Device Debugger Server MCP бесплатный?

Да, Legacy Device Debugger Server MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для Legacy Device Debugger Server?

Нет, Legacy Device Debugger Server работает без API-ключей и переменных окружения.

Legacy Device Debugger Server — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить Legacy Device Debugger Server в Claude Desktop, Claude Code или Cursor?

Открой Legacy Device Debugger Server на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

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