# legacy-routing The exported era classifier. `classify_inbound_request(body, headers=...)` from `mcp.shared.inbound` is the body-primary test for "is this a 2026-era request?"; wrap it as `classify_era()` to route eras to different backends in your own ASGI/ingress layer. Unlike most SDKs, the Python SDK's built-in `streamable_http_app()` already serves **sessionful** 2025 alongside stateless 2026 on one `/mcp` route — so the predicate is for when you need *different* arms (per-era auth, separate ports, an existing v1 deployment to keep), not to make dual-era work at all. Also shown: the CORS recipe (methods, request headers, and `expose_headers`) browser-based MCP clients need. ## Run it ```bash # HTTP only — the predicate is an HTTP-transport concern. The client # self-hosts the app on a free port, runs, then tears it down. uv run python -m stories.legacy_routing.client --http # same, against the lowlevel-API server variant uv run python -m stories.legacy_routing.client --http --server server_lowlevel # against a server you run yourself (real uvicorn on :8000) uv run python -m stories.legacy_routing.server --port 8000 & SERVER_PID=$! uv run python -m stories.legacy_routing.client --http http://127.0.0.1:8000/mcp kill "$SERVER_PID" ``` ## What to look at - `client.py` — two visible connections to the SAME `/mcp` endpoint from one `targets()` factory: `Client(targets(), mode=mode)` (default `"auto"` → `server/discover` → the modern arm) and `Client(targets(), mode="legacy")` (the `initialize` handshake → the legacy arm). Each asserts `which_arm` reports the era the built-in router actually dispatched to. The era decision is one explicit `mode=` argument at construction. - `client.py` — the predicate then shown directly against a modern body, a legacy body, and a malformed-modern body. The runnable `build_app()` uses the SDK's built-in router; the predicate itself is exercised as a pure function — see the user-land composition recipe below for wiring it into your own ingress. - `server.py` `classify_era` — the tri-state wrapper. `InboundModernRoute` → `"modern"`; rung-1 `INVALID_PARAMS` (no envelope keys) → `"legacy"`; any other `InboundLadderRejection` is a malformed-modern request to **reject**, not route to legacy. When headers are supplied, both `Mcp-Protocol-Version` and `Mcp-Method` must mirror the body — a disagreement (or an unsupported version) is what produces that third arm; `client.py` shows both. - `server.py` `build_app` — `streamable_http_app()` + `CORSMiddleware`. The `which_arm` tool reads `ctx.request_context.protocol_version` to prove which path the built-in router took. - `server_lowlevel.py` — the CORS recipe re-used from `server.py` (the `MCP_*` header and method constants); `build_app` wires `lowlevel.Server` instead of `MCPServer` and reads `ctx.protocol_version` directly. The predicate is tier-agnostic, so `classify_era` lives only in `server.py`. ## User-land composition (when you need different backends) There is no `legacy="reject"` flag yet. To route eras to different handlers, buffer the body, classify, replay: ```python async def mcp_endpoint(scope, receive, send): body, replay = await buffer_body(receive) # your ASGI helper headers = {k.decode("ascii").lower(): v.decode("latin-1") for k, v in scope["headers"]} match classify_era(json.loads(body or b"{}"), headers): case "legacy": await my_existing_v1_manager.handle_request(scope, replay, send) case "modern": await modern_manager.handle_request(scope, replay, send) case rejection: await send_jsonrpc_error(send, rejection) # map via ERROR_CODE_HTTP_STATUS ``` Non-POST verbs (`GET` standalone-SSE, `DELETE` session termination) are sessionful-2025-only — route them straight to the legacy arm. ## Two ports instead of one Run two `uvicorn` processes from the same `build_app()` on different ports and put `classify_era()` (or a header check) in your ingress. Useful when the two eras need different auth, rate limits, or scaling. ## Caveats - The SDK's **built-in** routing is currently header-only — a 2026 client that omits `MCP-Protocol-Version` is mis-routed to legacy. `classify_inbound_request()` is body-primary and is what the built-in moves to in a later release; user-land routing with the predicate is already correct today. - `ctx.request_context.protocol_version` is the interim 2-hop reach; a later release will shorten it. - DNS-rebinding protection is on by default; the harness disables it (`NO_DNS_REBIND`) because the in-process httpx client sends no `Origin`. Drop the kwarg for a real deployment. - `mcp.shared.inbound` is a deep import path — a shorter re-export is planned before beta. ## Spec - [Versioning — backward compatibility](https://modelcontextprotocol.io/specification/draft/basic/versioning) - [Transports — protocol version header](https://modelcontextprotocol.io/specification/2025-11-25/basic/transports) ## See also `dual_era/` (the simple case: one factory, built-in routing, no predicate), `stateless_legacy/` (`stateless_http=True`), `starlette_mount/` (mount inside FastAPI).