Web crawling and RAG implementation that enables AI agents to scrape websites and perform semantic search over the crawled content, storing everything in Supabase for persistent knowledge retrieval.
Web Crawling and RAG Capabilities for AI Agents and AI Coding Assistants
A powerful implementation of the Model Context Protocol (MCP) integrated with Crawl4AI and Supabase for providing AI agents and AI coding assistants with advanced web crawling and RAG capabilities.
With this MCP server, you can scrape anything and then use that knowledge anywhere for RAG.
The primary goal is to bring this MCP server into Archon as I evolve it to be more of a knowledge engine for AI coding assistants to build AI agents. This first version of the Crawl4AI/RAG MCP server will be improved upon greatly soon, especially making it more configurable so you can use different embedding models and run everything locally with Ollama.
This MCP server provides tools that enable AI agents to crawl websites, store content in a vector database (Supabase), and perform RAG over the crawled content. It follows the best practices for building MCP servers based on the Mem0 MCP server template I provided on my channel previously.
The Crawl4AI RAG MCP server is just the beginning. Here s where we re headed:
Integration with Archon: Building this system directly into Archon to create a comprehensive knowledge engine for AI coding assistants to build better AI agents.
Multiple Embedding Models: Expanding beyond OpenAI to support a variety of embedding models, including the ability to run everything locally with Ollama for complete control and privacy.
Advanced RAG Strategies: Implementing sophisticated retrieval techniques like contextual retrieval, late chunking, and others to move beyond basic "naive lookups" and significantly enhance the power and precision of the RAG system, especially as it integrates with Archon.
Enhanced Chunking Strategy: Implementing a Context 7-inspired chunking approach that focuses on examples and creates distinct, semantically meaningful sections for each chunk, improving retrieval precision.
Performance Optimization: Increasing crawling and indexing speed to make it more realistic to "quickly" index new documentation to then leverage it within the same prompt in an AI coding assistant.
The server provides four essential web crawling and search tools:
crawl_single_page: Quickly crawl a single web page and store its content in the vector databasesmart_crawl_url: Intelligently crawl a full website based on the type of URL provided (sitemap, llms-full.txt, or a regular webpage that needs to be crawled recursively)get_available_sources: Get a list of all available sources (domains) in the databaseperform_rag_query: Search for relevant content using semantic search with optional source filteringClone this repository:
git clone https://github.com/coleam00/mcp-crawl4ai-rag.git
cd mcp-crawl4ai-ragBuild the Docker image:
docker build -t mcp/crawl4ai-rag --build-arg PORT=8051 .Create a .env file based on the configuration section below
Clone this repository:
git clone https://github.com/coleam00/mcp-crawl4ai-rag.git
cd mcp-crawl4ai-ragInstall uv if you don t have it:
pip install uvCreate and activate a virtual environment:
uv venv
.venvScriptsactivate
# on Mac/Linux: source .venv/bin/activateInstall dependencies:
uv pip install -e .
crawl4ai-setupCreate a .env file based on the configuration section below
Before running the server, you need to set up the database with the pgvector extension:
Go to the SQL Editor in your Supabase dashboard (create a new project first if necessary)
Create a new query and paste the contents of crawled_pages.sql
Run the query to create the necessary tables and functions
Create a .env file in the project root with the following variables:
# MCP Server Configuration
HOST=0.0.0.0
PORT=8051
TRANSPORT=sse
# OpenAI API Configuration
OPENAI_API_KEY=your_openai_api_key
# Supabase Configuration
SUPABASE_URL=your_supabase_project_url
SUPABASE_SERVICE_KEY=your_supabase_service_keydocker run --env-file .env -p 8051:8051 mcp/crawl4ai-raguv run src/crawl4ai_mcp.pyThe server will start and listen on the configured host and port.
Once you have the server running with SSE transport, you can connect to it using this configuration:
{
"mcpServers": {
"crawl4ai-rag": {
"transport": "sse",
"url": "http://localhost:8051/sse"
}
}
}Note for Windsurf users: Use
serverUrlinstead ofurlin your configuration:{ "mcpServers": { "crawl4ai-rag": { "transport": "sse", "serverUrl": "http://localhost:8051/sse" } } }Note for Docker users: Use
host.docker.internalinstead oflocalhostif your client is running in a different container. This will apply if you are using this MCP server within n8n!
Add this server to your MCP configuration for Claude Desktop, Windsurf, or any other MCP client:
{
"mcpServers": {
"crawl4ai-rag": {
"command": "python",
"args": ["path/to/crawl4ai-mcp/src/crawl4ai_mcp.py"],
"env": {
"TRANSPORT": "stdio",
"OPENAI_API_KEY": "your_openai_api_key",
"SUPABASE_URL": "your_supabase_url",
"SUPABASE_SERVICE_KEY": "your_supabase_service_key"
}
}
}
}{
"mcpServers": {
"crawl4ai-rag": {
"command": "docker",
"args": ["run", "--rm", "-i",
"-e", "TRANSPORT",
"-e", "OPENAI_API_KEY",
"-e", "SUPABASE_URL",
"-e", "SUPABASE_SERVICE_KEY",
"mcp/crawl4ai"],
"env": {
"TRANSPORT": "stdio",
"OPENAI_API_KEY": "your_openai_api_key",
"SUPABASE_URL": "your_supabase_url",
"SUPABASE_SERVICE_KEY": "your_supabase_service_key"
}
}
}
}This implementation provides a foundation for building more complex MCP servers with web crawling capabilities. To build your own:
@mcp.tool() decoratorutils.py file for any helper functions you need