Web Accessibility MCP Server

An MCP server that provides web accessibility analysis capabilities using axe-core and Puppeteer.

Web Accessibility MCP Server

An MCP (Model Context Protocol) server that provides web accessibility analysis capabilities using axe-core and Puppeteer.

Features

Analyze web accessibility of any URL using axe-core
Simulate color blindness (protanopia, deuteranopia, tritanopia) using color matrices
Detailed reporting of accessibility violations
Support for custom user agents and selectors
Debug logging for troubleshooting
Comprehensive accessibility checks based on WCAG guidelines

Prerequisites

Node.js (v14 or higher)
npm

Installation

Installing via Smithery

To install Web Accessibility MCP Server for Claude Desktop automatically via Smithery:

npx -y @smithery/cli install @bilhasry-deriv/mcp-web-a11y --client claude

Manual Installation

Clone the repository:

git clone [repository-url]
cd mcp-web-a11y

Install dependencies:

npm install

Build the server:

npm run build

Configuration

Add the server to your MCP settings file (typically located at ~/Library/Application Support/Code/User/globalStorage/saoudrizwan.claude-dev/settings/cline_mcp_settings.json):

{
  "mcpServers": {
    "web-a11y": {
      "command": "node",
      "args": ["/path/to/mcp-web-a11y/build/index.js"],
      "disabled": false,
      "autoApprove": [],
      "env": {
        "MCP_OUTPUT_DIR": "/path/to/output/directory"
      }
    }
  }
}

Environment Variables

MCP_OUTPUT_DIR: Directory where screenshot outputs will be saved
- Required for the simulate_colorblind tool
- If not specified, defaults to './output' relative to the current working directory
- Must be an absolute path when configured in MCP settings

Usage

The server provides two tools: check_accessibility for analyzing web accessibility and simulate_colorblind for simulating color blindness.

Tool: check_accessibility

Checks the accessibility of a given URL using axe-core.

Parameters

url (required): The URL to analyze
waitForSelector (optional): CSS selector to wait for before analysis
userAgent (optional): Custom user agent string for the request

Example Usage

<use_mcp_tool>
<server_name>mcp-web-a11y</server_name>
<tool_name>check_accessibility</tool_name>
<arguments>
{
  "url": "https://example.com",
  "waitForSelector": ".main-content",
  "userAgent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/120.0.0.0 Safari/537.36"
}
</arguments>
</use_mcp_tool>

Tool: simulate_colorblind

Simulates how a webpage appears to users with different types of color blindness using color matrix transformations.

Color Blindness Types

The tool supports three types of color blindness simulation:

Protanopia (red-blind) - Uses matrix:

0.567, 0.433, 0
0.558, 0.442, 0
0, 0.242, 0.758

Deuteranopia (green-blind) - Uses matrix:

0.625, 0.375, 0
0.7, 0.3, 0
0, 0.3, 0.7

Tritanopia (blue-blind) - Uses matrix:

0.95, 0.05, 0
0, 0.433, 0.567
0, 0.475, 0.525

Parameters

url (required): The URL to capture
type (required): Type of color blindness to simulate ('protanopia', 'deuteranopia', or 'tritanopia')
outputPath (optional): Custom path for the screenshot output
userAgent (optional): Custom user agent string for the request

Example Usage

<use_mcp_tool>
<server_name>mcp-web-a11y</server_name>
<tool_name>simulate_colorblind</tool_name>
<arguments>
{
  "url": "https://example.com",
  "type": "deuteranopia",
  "outputPath": "colorblind_simulation.png"
}
</arguments>
</use_mcp_tool>

Response Format

check_accessibility Response

{
  "url": "analyzed-url",
  "timestamp": "ISO-timestamp",
  "violations": [
    {
      "impact": "serious|critical|moderate|minor",
      "description": "Description of the violation",
      "help": "Help text explaining the issue",
      "helpUrl": "URL to detailed documentation",
      "nodes": [
        {
          "html": "HTML of the affected element",
          "failureSummary": "Summary of what needs to be fixed"
        }
      ]
    }
  ],
  "passes": 42,
  "inapplicable": 45,
  "incomplete": 3
}

simulate_colorblind Response

{
  "url": "analyzed-url",
  "type": "colorblind-type",
  "outputPath": "path/to/screenshot.png",
  "timestamp": "ISO-timestamp",
  "message": "Screenshot saved with [type] simulation"
}

Error Handling

The server includes comprehensive error handling for common scenarios:

Network errors
Invalid URLs
Timeout issues
DNS resolution problems

Error responses will include detailed messages to help diagnose the issue.

Development

Project Structure

mcp-web-a11y/
├── src/
│   └── index.ts    # Main server implementation
├── build/          # Compiled JavaScript
├── output/         # Generated screenshots
├── package.json    # Project dependencies and scripts
└── tsconfig.json   # TypeScript configuration

Building

npm run build

This will:

Compile TypeScript to JavaScript
Make the output file executable
Place the compiled files in the build directory

Debugging

The server includes detailed debug logging that can be observed in the console output. This includes:

Network requests and responses
Page loading status
Selector waiting status
Any console messages from the analyzed page
Color simulation progress

Common Issues and Solutions

Timeout Errors
- Increase the timeout value in the code
- Check network connectivity
- Verify the URL is accessible
DNS Resolution Errors
- Verify the URL is correct
- Check network connectivity
- Try using the www subdomain
Selector Not Found
- Verify the selector exists on the page
- Wait for dynamic content to load
- Check the page source for the correct selector
Color Simulation Issues
- Ensure the page's colors are specified in a supported format (RGB, RGBA, or HEX)
- Check if the page uses dynamic color changes (may require additional wait time)
- Verify the screenshot output directory exists and is writable

Contributing

Fork the repository
Create a feature branch
Commit your changes
Push to the branch
Create a Pull Request

License

This project is licensed under the MIT License - see the LICENSE file for details.

Related Servers

Scout Monitoring MCP

sponsor

Put performance and error data directly in the hands of your AI assistant.

Alpha Vantage MCP Server

sponsor

Access financial market data: realtime & historical stock, ETF, options, forex, crypto, commodities, fundamentals, technical indicators, & more

Unity-MCP

A bridge between the Unity game engine and AI assistants using the Model Context Protocol (MCP).

Substrate MCP Server

A Model Context Protocol (MCP) server for Substrate blockchains, written in Rust.

NPM Sentinel MCP

An AI-powered MCP server for analyzing NPM package security, dependencies, and performance.

Baby-SkyNet

An autonomous memory management system for Claude AI, featuring multi-provider LLM integration and a persistent memory database.

MCP Yeoman Server

Search for and run Yeoman generator templates programmatically.

MCP Gateway

A gateway to translate MCP tool calls into HTTP API requests, configurable via YAML.

MCP Performance Analysis Server

A server for detecting critical performance issues in code, providing concise analysis and output.

Firebase MCP Server

You can use the Firebase MCP server to give AI-powered development tools the ability to work with your Firebase projects and your app's codebase.

Trustwise

Advanced evaluation tools for AI safety, alignment, and performance using the Trustwise API.

Figma Context MCP

Extract code, assets, and component structures from Figma designs to use within AI workflows.