--- title: FastAPI 🤝 FastMCP sidebarTitle: FastAPI description: Integrate FastMCP with FastAPI applications icon: bolt --- import { VersionBadge } from '/snippets/version-badge.mdx' FastMCP provides two powerful ways to integrate with FastAPI applications: 1. **[Generate an MCP server FROM your FastAPI app](#generating-an-mcp-server)** - Convert existing API endpoints into MCP tools 2. **[Mount an MCP server INTO your FastAPI app](#mounting-an-mcp-server)** - Add MCP functionality to your web application When generating an MCP server from FastAPI, FastMCP uses OpenAPIProvider (v3.0.0+) under the hood to source tools from your FastAPI app's OpenAPI spec. See [Providers](/servers/providers/overview) to understand how FastMCP sources components. Generating MCP servers from OpenAPI is a great way to get started with FastMCP, but in practice LLMs achieve **significantly better performance** with well-designed and curated MCP servers than with auto-converted OpenAPI servers. This is especially true for complex APIs with many endpoints and parameters. We recommend using the FastAPI integration for bootstrapping and prototyping, not for mirroring your API to LLM clients. See the post [Stop Converting Your REST APIs to MCP](https://www.jlowin.dev/blog/stop-converting-rest-apis-to-mcp) for more details. FastMCP does *not* include FastAPI as a dependency; you must install it separately to use this integration. ## Example FastAPI Application Throughout this guide, we'll use this e-commerce API as our example (click the `Copy` button to copy it for use with other code blocks): ```python [expandable] # Copy this FastAPI server into other code blocks in this guide from fastapi import FastAPI, HTTPException from pydantic import BaseModel # Models class Product(BaseModel): name: str price: float category: str description: str | None = None class ProductResponse(BaseModel): id: int name: str price: float category: str description: str | None = None # Create FastAPI app app = FastAPI(title="E-commerce API", version="1.0.0") # In-memory database products_db = { 1: ProductResponse( id=1, name="Laptop", price=999.99, category="Electronics" ), 2: ProductResponse( id=2, name="Mouse", price=29.99, category="Electronics" ), 3: ProductResponse( id=3, name="Desk Chair", price=299.99, category="Furniture" ), } next_id = 4 @app.get("/products", response_model=list[ProductResponse]) def list_products( category: str | None = None, max_price: float | None = None, ) -> list[ProductResponse]: """List all products with optional filtering.""" products = list(products_db.values()) if category: products = [p for p in products if p.category == category] if max_price: products = [p for p in products if p.price <= max_price] return products @app.get("/products/{product_id}", response_model=ProductResponse) def get_product(product_id: int): """Get a specific product by ID.""" if product_id not in products_db: raise HTTPException(status_code=404, detail="Product not found") return products_db[product_id] @app.post("/products", response_model=ProductResponse) def create_product(product: Product): """Create a new product.""" global next_id product_response = ProductResponse(id=next_id, **product.model_dump()) products_db[next_id] = product_response next_id += 1 return product_response @app.put("/products/{product_id}", response_model=ProductResponse) def update_product(product_id: int, product: Product): """Update an existing product.""" if product_id not in products_db: raise HTTPException(status_code=404, detail="Product not found") products_db[product_id] = ProductResponse( id=product_id, **product.model_dump(), ) return products_db[product_id] @app.delete("/products/{product_id}") def delete_product(product_id: int): """Delete a product.""" if product_id not in products_db: raise HTTPException(status_code=404, detail="Product not found") del products_db[product_id] return {"message": "Product deleted"} ``` All subsequent code examples in this guide assume you have the above FastAPI application code already defined. Each example builds upon this base application, `app`. ## Generating an MCP Server One of the most common ways to bootstrap an MCP server is to generate it from an existing FastAPI application. FastMCP will expose your FastAPI endpoints as MCP components (tools, by default) in order to expose your API to LLM clients. ### Basic Conversion Convert the FastAPI app to an MCP server with a single line: ```python {5} # Assumes the FastAPI app from above is already defined from fastmcp import FastMCP # Convert to MCP server mcp = FastMCP.from_fastapi(app=app) if __name__ == "__main__": mcp.run() ``` ### Adding Components Your converted MCP server is a full FastMCP instance, meaning you can add new tools, resources, and other components to it just like you would with any other FastMCP instance. ```python {8-11} # Assumes the FastAPI app from above is already defined from fastmcp import FastMCP # Convert to MCP server mcp = FastMCP.from_fastapi(app=app) # Add a new tool @mcp.tool def get_product(product_id: int) -> ProductResponse: """Get a product by ID.""" return products_db[product_id] # Run the MCP server if __name__ == "__main__": mcp.run() ``` ### Interacting with the MCP Server Once you've converted your FastAPI app to an MCP server, you can interact with it using the FastMCP client to test functionality before deploying it to an LLM-based application. ```python {3, } # Assumes the FastAPI app from above is already defined from fastmcp import FastMCP from fastmcp.client import Client import asyncio # Convert to MCP server mcp = FastMCP.from_fastapi(app=app) async def demo(): async with Client(mcp) as client: # List available tools tools = await client.list_tools() print(f"Available tools: {[t.name for t in tools]}") # Create a product result = await client.call_tool( "create_product_products_post", { "name": "Wireless Keyboard", "price": 79.99, "category": "Electronics", "description": "Bluetooth mechanical keyboard" } ) print(f"Created product: {result.data}") # List electronics under $100 result = await client.call_tool( "list_products_products_get", {"category": "Electronics", "max_price": 100} ) print(f"Affordable electronics: {result.data}") if __name__ == "__main__": asyncio.run(demo()) ``` ### Custom Route Mapping Because FastMCP's FastAPI integration is based on its [OpenAPI integration](/integrations/openapi), you can customize how endpoints are converted to MCP components in exactly the same way. For example, here we use a `RouteMap` to map all GET requests to MCP resources, and all POST/PUT/DELETE requests to MCP tools: ```python # Assumes the FastAPI app from above is already defined from fastmcp import FastMCP from fastmcp.server.providers.openapi import RouteMap, MCPType # Custom mapping rules mcp = FastMCP.from_fastapi( app=app, route_maps=[ # GET with path params → ResourceTemplates RouteMap( methods=["GET"], pattern=r".*\{.*\}.*", mcp_type=MCPType.RESOURCE_TEMPLATE ), # Other GETs → Resources RouteMap( methods=["GET"], pattern=r".*", mcp_type=MCPType.RESOURCE ), # POST/PUT/DELETE → Tools (default) ], ) # Now: # - GET /products → Resource # - GET /products/{id} → ResourceTemplate # - POST/PUT/DELETE → Tools ``` To learn more about customizing the conversion process, see the [OpenAPI Integration guide](/integrations/openapi). ### Authentication and Headers You can configure headers and other client options via the `httpx_client_kwargs` parameter. For example, to add authentication to your FastAPI app, you can pass a `headers` dictionary to the `httpx_client_kwargs` parameter: ```python {27-31} # Assumes the FastAPI app from above is already defined from fastmcp import FastMCP # Add authentication to your FastAPI app from fastapi import Depends, Header from fastapi.security import HTTPBearer, HTTPAuthorizationCredentials security = HTTPBearer() def verify_token(credentials: HTTPAuthorizationCredentials = Depends(security)): if credentials.credentials != "secret-token": raise HTTPException(status_code=401, detail="Invalid authentication") return credentials.credentials # Add a protected endpoint @app.get("/admin/stats", dependencies=[Depends(verify_token)]) def get_admin_stats(): return { "total_products": len(products_db), "categories": list(set(p.category for p in products_db.values())) } # Create MCP server with authentication headers mcp = FastMCP.from_fastapi( app=app, httpx_client_kwargs={ "headers": { "Authorization": "Bearer secret-token", } } ) ``` ## Mounting an MCP Server In addition to generating servers, FastMCP can facilitate adding MCP servers to your existing FastAPI application. You can do this by mounting the MCP ASGI application. ### Basic Mounting To mount an MCP server, you can use the `http_app` method on your FastMCP instance. This will return an ASGI application that can be mounted to your FastAPI application. ```python {23-30} from fastmcp import FastMCP from fastapi import FastAPI # Create MCP server mcp = FastMCP("Analytics Tools") @mcp.tool def analyze_pricing(category: str) -> dict: """Analyze pricing for a category.""" products = [p for p in products_db.values() if p.category == category] if not products: return {"error": f"No products in {category}"} prices = [p.price for p in products] return { "category": category, "avg_price": round(sum(prices) / len(prices), 2), "min": min(prices), "max": max(prices), } # Create ASGI app from MCP server mcp_app = mcp.http_app(path='/mcp') # Key: Pass lifespan to FastAPI app = FastAPI(title="E-commerce API", lifespan=mcp_app.lifespan) # Mount the MCP server app.mount("/analytics", mcp_app) # Now: API at /products/*, MCP at /analytics/mcp/ ``` ## Offering an LLM-Friendly API A common pattern is to generate an MCP server from your FastAPI app and serve both interfaces from the same application. This provides an LLM-optimized interface alongside your regular API: ```python # Assumes the FastAPI app from above is already defined from fastmcp import FastMCP from fastapi import FastAPI # 1. Generate MCP server from your API mcp = FastMCP.from_fastapi(app=app, name="E-commerce MCP") # 2. Create the MCP's ASGI app mcp_app = mcp.http_app(path='/mcp') # 3. Create a new FastAPI app that combines both sets of routes combined_app = FastAPI( title="E-commerce API with MCP", routes=[ *mcp_app.routes, # MCP routes *app.routes, # Original API routes ], lifespan=mcp_app.lifespan, ) # Now you have: # - Regular API: http://localhost:8000/products # - LLM-friendly MCP: http://localhost:8000/mcp # Both served from the same FastAPI application! ``` This approach lets you maintain a single codebase while offering both traditional REST endpoints and MCP-compatible endpoints for LLM clients. ## Key Considerations ### Operation IDs FastAPI operation IDs become MCP component names. Always specify meaningful operation IDs: ```python # Good - explicit operation_id @app.get("/users/{user_id}", operation_id="get_user_by_id") def get_user(user_id: int): return {"id": user_id} # Less ideal - auto-generated name @app.get("/users/{user_id}") def get_user(user_id: int): return {"id": user_id} ``` ### Lifespan Management When mounting MCP servers, always pass the lifespan context: ```python # Correct - lifespan passed, path="/" since we mount at /mcp mcp_app = mcp.http_app(path="/") app = FastAPI(lifespan=mcp_app.lifespan) app.mount("/mcp", mcp_app) # MCP endpoint at /mcp # Incorrect - missing lifespan app = FastAPI() app.mount("/mcp", mcp.http_app(path="/")) # Session manager won't initialize ``` If you're mounting an authenticated MCP server under a path prefix, see [Mounting Authenticated Servers](/deployment/http#mounting-authenticated-servers) for important OAuth routing considerations. ### CORS Middleware If your FastAPI app uses `CORSMiddleware` and you're mounting an OAuth-protected FastMCP server, avoid adding application-wide CORS middleware. FastMCP and the MCP SDK already handle CORS for OAuth routes, and layering CORS middleware can cause conflicts (such as 404 errors on `.well-known` routes or OPTIONS requests). If you need CORS on your own FastAPI routes, use the sub-app pattern: mount your API and FastMCP as separate apps, each with their own middleware, rather than adding top-level `CORSMiddleware` to the combined application. ### Combining Lifespans If your FastAPI app already has a lifespan (for database connections, startup tasks, etc.), you can't simply replace it with the MCP lifespan. Use `combine_lifespans` to run both: ```python from fastapi import FastAPI from fastmcp import FastMCP from fastmcp.utilities.lifespan import combine_lifespans from contextlib import asynccontextmanager # Your existing lifespan @asynccontextmanager async def app_lifespan(app: FastAPI): print("Starting up the app...") yield print("Shutting down the app...") # Create MCP server mcp = FastMCP("Tools") mcp_app = mcp.http_app(path="/") # Combine both lifespans app = FastAPI(lifespan=combine_lifespans(app_lifespan, mcp_app.lifespan)) app.mount("/mcp", mcp_app) # MCP endpoint at /mcp ``` `combine_lifespans` enters lifespans in order and exits in reverse order. ### Performance Tips 1. **Use in-memory transport for testing** - Pass MCP servers directly to clients 2. **Design purpose-built MCP tools** - Better than auto-converting complex APIs 3. **Keep tool parameters simple** - LLMs perform better with focused interfaces For more details on configuration options, see the [OpenAPI Integration guide](/integrations/openapi).