"""Tests for `ServerRunner` and the free-function drivers. The kernel tests run end-to-end over `JSONRPCDispatcher` with a real lowlevel `Server` as the registry. The `connected_runner` helper starts both sides and (by default) performs the initialize handshake, so each test exercises only the behaviour under test. Driver tests (`serve_connection`, `serve_one`, `aclose_shielded`) follow at the bottom. """ from collections.abc import AsyncIterator, Mapping from contextlib import asynccontextmanager from dataclasses import dataclass, field, replace from functools import partial from typing import Any, cast import anyio import anyio.abc import pytest from mcp_types import ( CLIENT_CAPABILITIES_META_KEY, CLIENT_INFO_META_KEY, INTERNAL_ERROR, INVALID_PARAMS, INVALID_REQUEST, LATEST_PROTOCOL_VERSION, METHOD_NOT_FOUND, PROTOCOL_VERSION_META_KEY, UNSUPPORTED_PROTOCOL_VERSION, ClientCapabilities, ErrorData, Implementation, InitializeRequestParams, JSONRPCRequest, ListToolsResult, NotificationParams, PaginatedRequestParams, ProgressNotificationParams, RequestParams, SetLevelRequestParams, Tool, ) from mcp_types.version import ( LATEST_HANDSHAKE_VERSION, LATEST_MODERN_VERSION, MODERN_PROTOCOL_VERSIONS, OLDEST_SUPPORTED_VERSION, ) import mcp.server.runner from mcp.server.caching import CacheHint from mcp.server.connection import Connection, NotifyOnlyOutbound from mcp.server.context import ServerRequestContext from mcp.server.lowlevel.server import NotificationOptions, Server from mcp.server.models import InitializationOptions from mcp.server.runner import ( ServerRunner, _extract_meta, _has_modern_envelope, _initialize_after_modern_data, _NoServerRequestsDispatchContext, aclose_shielded, serve_connection, serve_dual_era_loop, serve_one, ) from mcp.server.session import ServerSession from mcp.shared.dispatcher import CallOptions from mcp.shared.exceptions import MCPError, NoBackChannelError from mcp.shared.jsonrpc_dispatcher import JSONRPCDispatcher from mcp.shared.message import MessageMetadata, SessionMessage from mcp.shared.peer import dump_params from mcp.shared.transport_context import TransportContext from ..shared.conftest import jsonrpc_pair from ..shared.test_dispatcher import Recorder, echo_handlers Ctx = ServerRequestContext[dict[str, Any], Any] def _initialize_params() -> dict[str, Any]: return InitializeRequestParams( protocol_version=LATEST_HANDSHAKE_VERSION, capabilities=ClientCapabilities(), client_info=Implementation(name="test-client", version="1.0"), ).model_dump(by_alias=True, exclude_none=True) _seen_ctx: list[Ctx] = [] SrvT = Server[dict[str, Any]] @pytest.fixture def server() -> SrvT: """A lowlevel Server with one tools/list handler registered.""" _seen_ctx.clear() async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: _seen_ctx.append(ctx) return ListToolsResult(tools=[Tool(name="t", input_schema={"type": "object"})]) return Server(name="test-server", version="0.0.1", on_list_tools=list_tools) @asynccontextmanager async def connected_runner( server: SrvT, *, initialized: bool = True, init_options: InitializationOptions | None = None, connection: Connection | None = None, ) -> AsyncIterator[tuple[JSONRPCDispatcher[TransportContext], ServerRunner[dict[str, Any]]]]: """Yield `(client, runner)` running over an in-memory JSON-RPC dispatcher pair. Starts the client (echo handlers) and the server-side dispatcher loop (kernel `on_request`/`on_notify` + `aclose_shielded` teardown - the `serve_connection` shape) in a task group, wraps the body in `anyio.fail_after(5)`, and cancels on exit. When `initialized` is true the helper performs the real `initialize` request before yielding, so tests start past the init-gate via the public path. `connection` defaults to `Connection.for_loop(server_dispatcher)`. Pass a factory-built connection (e.g. `Connection.from_envelope(...)`) to exercise the born-ready path; the kernel reads it as a fact and is mode-agnostic. """ client, server_d, close = jsonrpc_pair() assert isinstance(client, JSONRPCDispatcher) and isinstance(server_d, JSONRPCDispatcher) if connection is None: connection = Connection.for_loop(server_d) runner = ServerRunner( server=server, connection=connection, lifespan_state={}, init_options=init_options, ) c_req, c_notify = echo_handlers(Recorder()) body_exc: BaseException | None = None async def _drive(*, task_status: anyio.abc.TaskStatus[None]) -> None: try: await server_d.run(runner.on_request, runner.on_notify, task_status=task_status) finally: await aclose_shielded(connection) async with anyio.create_task_group() as tg: await tg.start(client.run, c_req, c_notify) await tg.start(_drive) try: with anyio.fail_after(5): if initialized: await client.send_raw_request("initialize", _initialize_params()) yield client, runner except BaseException as e: # Capture and re-raise outside the task group so test failures # surface as the original exception, not an ExceptionGroup wrapper. body_exc = e close() if body_exc is not None: raise body_exc @pytest.mark.anyio async def test_connected_runner_propagates_body_exception_unwrapped(server: SrvT): """The harness re-raises body exceptions as-is, not as `ExceptionGroup`.""" with pytest.raises(RuntimeError, match="boom"): async with connected_runner(server): raise RuntimeError("boom") @pytest.mark.anyio async def test_runner_handles_initialize_and_populates_connection(server: SrvT): async with connected_runner(server, initialized=False) as (client, runner): result = await client.send_raw_request("initialize", _initialize_params()) assert result["serverInfo"]["name"] == "test-server" assert "tools" in result["capabilities"] assert runner.connection.client_params is not None assert runner.connection.client_params.client_info.name == "test-client" assert runner.connection.protocol_version == LATEST_HANDSHAKE_VERSION assert runner.connection.initialize_accepted is True @pytest.mark.anyio async def test_runner_initialize_opens_gate_but_event_fires_only_after_initialized_notification(server: SrvT): """`initialize` commits the gate flag and peer info, but the public `connection.initialized` event waits for `notifications/initialized` (the point from which the spec permits server-initiated requests).""" async with connected_runner(server, initialized=False) as (client, runner): await client.send_raw_request("initialize", _initialize_params()) assert runner.connection.initialize_accepted is True assert not runner.connection.initialized.is_set() await client.notify("notifications/initialized", None) await runner.connection.initialized.wait() @pytest.mark.anyio async def test_runner_gates_requests_before_initialize(server: SrvT): async with connected_runner(server, initialized=False) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("tools/list", None) assert exc.value.error == ErrorData(code=INVALID_PARAMS, message="Invalid request parameters", data="") # ping is exempt from the gate assert await client.send_raw_request("ping", None) == {} @pytest.mark.anyio async def test_runner_unknown_method_before_initialize_raises_method_not_found(server: SrvT): """An unknown method is METHOD_NOT_FOUND even before initialize: JSON-RPC 2.0 reserves -32601 for it, and clients probing a server before the handshake key off that code. The init gate only applies to methods the server actually serves.""" async with connected_runner(server, initialized=False) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("x/unknown", None) assert exc.value.error == ErrorData(code=METHOD_NOT_FOUND, message="Method not found", data="x/unknown") @pytest.mark.anyio async def test_runner_spec_method_without_handler_before_initialize_raises_method_not_found(server: SrvT): """A spec method the server doesn't serve is METHOD_NOT_FOUND even before initialize: -32601 means "not available on this server", so probing clients get the same answer in every initialization state (the fixture server registers no resources handlers).""" async with connected_runner(server, initialized=False) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("resources/list", None) assert exc.value.error == ErrorData(code=METHOD_NOT_FOUND, message="Method not found", data="resources/list") @pytest.mark.anyio async def test_runner_custom_method_with_handler_is_still_gated_before_initialize(server: SrvT): """A custom-registered method is a known method: before initialize it is rejected by the init gate, not answered with METHOD_NOT_FOUND.""" async def greet(ctx: Ctx, params: RequestParams | None) -> Any: raise NotImplementedError # the gate rejects the request first server.add_request_handler("custom/greet", RequestParams, greet) async with connected_runner(server, initialized=False) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("custom/greet", None) assert exc.value.error == ErrorData(code=INVALID_PARAMS, message="Invalid request parameters", data="") @pytest.mark.anyio async def test_runner_routes_to_handler_and_builds_context(server: SrvT): async with connected_runner(server) as (client, runner): result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" ctx = _seen_ctx[0] assert isinstance(ctx, ServerRequestContext) assert ctx.lifespan_context == {} assert isinstance(ctx.session, ServerSession) assert ctx.session.protocol_version == runner.connection.protocol_version assert ctx.request_id is not None assert ctx.protocol_version == LATEST_HANDSHAKE_VERSION @pytest.mark.anyio async def test_runner_builds_a_fresh_session_per_request(server: SrvT): """`ctx.session` is built per-request from the per-request `DispatchContext` and the connection's standalone outbound; it is not connection-scoped.""" async with connected_runner(server) as (client, _): await client.send_raw_request("tools/list", None) await client.send_raw_request("tools/list", None) assert _seen_ctx[0].session is not _seen_ctx[1].session @pytest.mark.anyio async def test_runner_spec_method_with_no_handler_raises_method_not_found(server: SrvT): async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("resources/list", None) assert exc.value.error == ErrorData(code=METHOD_NOT_FOUND, message="Method not found", data="resources/list") @pytest.mark.anyio async def test_runner_non_spec_method_with_no_handler_raises_method_not_found(server: SrvT): """Upfront validation is gated to spec methods, so a non-spec method skips it and reaches handler lookup.""" async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("nonexistent/method", None) assert exc.value.error == ErrorData(code=METHOD_NOT_FOUND, message="Method not found", data="nonexistent/method") @pytest.mark.anyio async def test_runner_malformed_params_for_unregistered_spec_method_raises_invalid_params(server: SrvT): """A spec method with malformed params is INVALID_PARAMS even with no handler.""" async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("tools/call", {"name": 123}) assert exc.value.error == ErrorData(code=INVALID_PARAMS, message="Invalid request parameters", data="") @pytest.mark.anyio async def test_runner_rejects_snake_case_initialize_params(server: SrvT): """Inbound wire payloads validate alias-only; Python field names are not accepted (`protocol_version` must arrive as `protocolVersion`).""" snake = { "protocol_version": LATEST_HANDSHAKE_VERSION, "capabilities": {}, "client_info": {"name": "c", "version": "0"}, } async with connected_runner(server, initialized=False) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("initialize", snake) assert exc.value.error.code == INVALID_PARAMS @pytest.mark.anyio async def test_runner_initialize_with_absent_params_returns_invalid_params_and_stays_alive(server: SrvT): """Re-covers what the old `tests/issues/test_malformed_input.py` pinned: a malformed `initialize` is rejected and the runner keeps serving.""" async with connected_runner(server, initialized=False) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("initialize", None) assert exc.value.error.code == INVALID_PARAMS result = await client.send_raw_request("initialize", _initialize_params()) assert result["serverInfo"]["name"] == "test-server" @pytest.mark.anyio async def test_runner_rejects_snake_case_params_for_custom_handler(server: SrvT): """Custom-method handlers (which skip the spec-method gate) still validate alias-only at the per-handler boundary.""" async def handler(ctx: Ctx, params: ProgressNotificationParams) -> dict[str, Any]: return {"ok": True} server.add_request_handler("custom/progress", ProgressNotificationParams, handler) async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("custom/progress", {"progress_token": 1, "progress": 0.5}) assert exc.value.error.code == INVALID_PARAMS result = await client.send_raw_request("custom/progress", {"progressToken": 1, "progress": 0.5}) assert result == {"ok": True} @pytest.mark.anyio async def test_runner_on_notify_drops_snake_case_params(server: SrvT, caplog: pytest.LogCaptureFixture): """Notification params validate alias-only; snake_case is dropped as malformed.""" async def handler(ctx: Ctx, params: ProgressNotificationParams) -> None: raise NotImplementedError server.add_notification_handler("notifications/roots/list_changed", ProgressNotificationParams, handler) async with connected_runner(server) as (client, _): await client.notify("notifications/roots/list_changed", {"progress_token": 1, "progress": 0.5}) await client.send_raw_request("tools/list", None) assert "dropped 'notifications/roots/list_changed': malformed params" in caplog.text @pytest.mark.anyio async def test_runner_on_notify_drops_a_spec_notification_absent_at_the_negotiated_version( server: SrvT, caplog: pytest.LogCaptureFixture ): """`notifications/roots/list_changed` is a client notification but not at 2026-07-28; the version gate drops it before handler lookup.""" barrier = anyio.Event() async def dropped(ctx: Ctx, params: NotificationParams) -> None: raise NotImplementedError # the version gate drops the notification first async def on_barrier(ctx: Ctx, params: NotificationParams) -> None: barrier.set() server.add_notification_handler("notifications/roots/list_changed", NotificationParams, dropped) # A custom (non-spec) method bypasses the version gate, so it reaches its # handler regardless of which spec notifications exist at the pinned version. server.add_notification_handler("custom/barrier", NotificationParams, on_barrier) with caplog.at_level("DEBUG", logger="mcp.server.runner"): async with connected_runner(server) as (client, runner): runner.connection.protocol_version = "2026-07-28" await client.notify("notifications/roots/list_changed", None) await client.notify("custom/barrier", None) await barrier.wait() assert "dropped 'notifications/roots/list_changed': not defined at 2026-07-28" in caplog.text @pytest.mark.anyio async def test_runner_on_notify_server_direction_spec_method_routes_to_a_registered_handler(server: SrvT): """`notifications/message` is a spec method but server-to-client only; on a server it is a custom registration (proxy use) and must reach the handler, not the client-direction version gate.""" seen: list[NotificationParams] = [] async def handler(ctx: Ctx, params: NotificationParams) -> None: seen.append(params) server.add_notification_handler("notifications/message", NotificationParams, handler) async with connected_runner(server) as (client, _): await client.notify("notifications/message", {"level": "info", "data": "x"}) await client.send_raw_request("tools/list", None) assert len(seen) == 1 @pytest.mark.anyio async def test_runner_on_notify_initialized_sets_flag_and_connection_event(server: SrvT): async with connected_runner(server, initialized=False) as (client, runner): await client.notify("notifications/initialized", None) await runner.connection.initialized.wait() assert runner.connection.initialize_accepted is True @pytest.mark.anyio async def test_runner_on_notify_malformed_initialized_does_not_initialize( server: SrvT, caplog: pytest.LogCaptureFixture ): """A malformed `notifications/initialized` drops like any other malformed notification and leaves the connection uninitialized.""" async with connected_runner(server, initialized=False) as (client, runner): await client.notify("notifications/initialized", {"_meta": 42}) await anyio.wait_all_tasks_blocked() assert runner.connection.initialize_accepted is False assert not runner.connection.initialized.is_set() assert "dropped 'notifications/initialized': malformed params" in caplog.text @pytest.mark.anyio async def test_runner_on_notify_initialized_routes_to_registered_handler_after_state_set(server: SrvT): """A handler registered for `notifications/initialized` fires after the runner flips the init state, so it observes an initialized connection.""" seen: list[bool] = [] delivered = anyio.Event() async def on_initialized(ctx: Ctx, params: NotificationParams | None) -> None: seen.append(runner.connection.initialize_accepted and runner.connection.initialized.is_set()) delivered.set() server.add_notification_handler("notifications/initialized", NotificationParams, on_initialized) async with connected_runner(server, initialized=False) as (client, runner): await client.notify("notifications/initialized", {"_meta": {"k": "v"}}) await delivered.wait() assert seen == [True] def test_server_add_request_handler_rejects_initialize(): async def handler(ctx: Ctx, params: InitializeRequestParams) -> dict[str, Any]: raise NotImplementedError server: SrvT = Server(name="s") with pytest.raises(ValueError, match="Server.middleware"): server.add_request_handler("initialize", InitializeRequestParams, handler) assert server.get_request_handler("initialize") is None @pytest.mark.anyio async def test_runner_on_notify_routes_to_registered_handler(server: SrvT): seen: list[tuple[Any, Any]] = [] delivered = anyio.Event() async def on_roots_changed(ctx: Ctx, params: NotificationParams | None) -> None: seen.append((ctx, params)) if len(seen) == 2: delivered.set() server.add_notification_handler("notifications/roots/list_changed", NotificationParams, on_roots_changed) async with connected_runner(server) as (client, _): await client.notify("notifications/roots/list_changed", None) await client.notify("notifications/roots/list_changed", {}) await delivered.wait() assert isinstance(seen[0][0], ServerRequestContext) # Absent and present-but-empty wire params both validate to the defaults model. assert seen[0][1] == NotificationParams() assert isinstance(seen[1][1], NotificationParams) @pytest.mark.anyio async def test_runner_on_notify_handler_exception_is_swallowed_and_logged( server: SrvT, caplog: pytest.LogCaptureFixture ): """A notification handler crashing must not tear down the connection.""" async def boom(ctx: Ctx, params: NotificationParams | None) -> None: raise RuntimeError("notification handler boom") server.add_notification_handler("notifications/roots/list_changed", NotificationParams, boom) async with connected_runner(server) as (client, _): await client.notify("notifications/roots/list_changed", None) # Connection still alive: a request after the crashing handler succeeds. result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" assert "notification handler for 'notifications/roots/list_changed' raised" in caplog.text @pytest.mark.anyio async def test_runner_on_notify_drops_malformed_params(server: SrvT, caplog: pytest.LogCaptureFixture): """Malformed notification params are logged and dropped, not raised.""" async def on_level(ctx: Ctx, params: SetLevelRequestParams) -> None: raise NotImplementedError server.add_notification_handler("notifications/roots/list_changed", SetLevelRequestParams, on_level) async with connected_runner(server) as (client, _): await client.notify("notifications/roots/list_changed", {"level": "not-a-level"}) result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" assert "dropped 'notifications/roots/list_changed': malformed params" in caplog.text @pytest.mark.anyio async def test_runner_on_notify_drops_absent_params_when_model_requires_them( server: SrvT, caplog: pytest.LogCaptureFixture ): """A params-less progress notification is dropped, not delivered as None. `on_progress` is typed to receive a non-Optional `ProgressNotificationParams`; the previous server validated the full notification union and dropped this as malformed before dispatch. """ async def on_progress(ctx: Ctx, params: ProgressNotificationParams) -> None: raise NotImplementedError server.add_notification_handler("notifications/progress", ProgressNotificationParams, on_progress) async with connected_runner(server) as (client, _): await client.notify("notifications/progress", None) result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" assert "dropped 'notifications/progress': malformed params" in caplog.text assert "notification handler for" not in caplog.text @pytest.mark.anyio async def test_runner_absent_wire_params_reaches_request_handler_as_defaults_model(): """A request with no `params` member on the wire reaches the handler as the params model with its defaults, never `None`. The in-SDK client always attaches `_meta`, so a middleware rewrites `ctx.params` to `None` to model what an external client sends. """ seen: list[PaginatedRequestParams | None] = [] async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: seen.append(params) return ListToolsResult(tools=[]) async def drop_params(ctx: Ctx, call_next: Any) -> Any: return await call_next(replace(ctx, params=None) if ctx.method == "tools/list" else ctx) server: SrvT = Server(name="s", on_list_tools=list_tools) server.middleware.append(drop_params) async with connected_runner(server) as (client, _): await client.send_raw_request("tools/list", None) assert seen == [PaginatedRequestParams()] @pytest.mark.anyio async def test_runner_absent_wire_params_for_required_params_custom_method_is_invalid_params(): """A custom method whose `params_type` has required fields rejects absent wire params as INVALID_PARAMS rather than invoking the handler with None.""" class GreetParams(RequestParams): name: str async def greet(ctx: Ctx, params: GreetParams) -> dict[str, Any]: raise NotImplementedError async def drop_params(ctx: Ctx, call_next: Any) -> Any: return await call_next(replace(ctx, params=None) if ctx.method == "custom/greet" else ctx) server: SrvT = Server(name="s") server.add_request_handler("custom/greet", GreetParams, greet) server.middleware.append(drop_params) async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("custom/greet", {"name": "x"}) assert exc.value.error.code == INVALID_PARAMS @pytest.mark.anyio async def test_runner_on_notify_drops_before_init_and_unknown_methods(server: SrvT): seen: list[Any] = [] async def on_roots(ctx: Ctx, params: NotificationParams | None) -> None: seen.append(params) server.add_notification_handler("notifications/roots/list_changed", NotificationParams, on_roots) async with connected_runner(server, initialized=False) as (client, _): await client.notify("notifications/roots/list_changed", None) # before init: dropped await client.notify("notifications/initialized", None) await client.notify("notifications/unknown", None) # no handler: dropped await client.notify("notifications/roots/list_changed", None) # post-init: delivered await anyio.wait_all_tasks_blocked() assert seen == [NotificationParams()] # only the post-init one reached the handler @pytest.mark.anyio async def test_runner_server_middleware_wraps_every_request_including_initialize(server: SrvT): seen: list[tuple[str, Any]] = [] async def ctx_mw(ctx: Ctx, call_next: Any) -> Any: seen.append((ctx.method, ctx.params)) return await call_next(ctx) server.middleware.append(ctx_mw) async with connected_runner(server) as (client, _): await client.send_raw_request("ping", None) await client.send_raw_request("tools/list", {"_meta": {"k": "v"}}) assert [m for m, _ in seen] == ["initialize", "ping", "tools/list"] # params arrive raw (Mapping), not as a validated model assert seen[2][1] == {"_meta": {"k": "v"}} @pytest.mark.anyio async def test_runner_middleware_raise_after_call_next_on_initialize_leaves_connection_uninitialized(server: SrvT): """A middleware failure after `call_next()` on `initialize` reaches the client as an error and skips the state commit: the pre-init gate stays closed and `connection.initialized` never fires.""" async def reject_initialize(ctx: Ctx, call_next: Any) -> Any: result = await call_next(ctx) if ctx.method == "initialize": raise MCPError(code=INTERNAL_ERROR, message="rejected by middleware") return result server.middleware.append(reject_initialize) async with connected_runner(server, initialized=False) as (client, runner): with pytest.raises(MCPError) as exc: await client.send_raw_request("initialize", _initialize_params()) assert exc.value.error.message == "rejected by middleware" with pytest.raises(MCPError) as gate_exc: await client.send_raw_request("tools/list", None) assert gate_exc.value.error == ErrorData(code=INVALID_PARAMS, message="Invalid request parameters", data="") # ping passes through the middleware untouched assert await client.send_raw_request("ping", None) == {} assert runner.connection.initialize_accepted is False assert runner.connection.client_params is None assert not runner.connection.initialized.is_set() @pytest.mark.anyio async def test_runner_server_middleware_observes_method_not_found_via_call_next_raise(server: SrvT): seen: list[tuple[str, type[BaseException] | None]] = [] async def observe(ctx: Ctx, call_next: Any) -> Any: try: return await call_next(ctx) except MCPError as e: seen.append((ctx.method, type(e))) raise server.middleware.append(observe) async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("nonexistent/method", None) assert exc.value.error.code == METHOD_NOT_FOUND assert seen == [("nonexistent/method", MCPError)] @pytest.mark.anyio async def test_runner_server_middleware_wraps_notifications(server: SrvT): """The same chain wraps `_on_notify`: it sees `notifications/initialized`, pre-init drops, and registered notification handlers, with `ctx.request_id is None`.""" seen: list[tuple[str, bool]] = [] async def observe(ctx: Ctx, call_next: Any) -> Any: seen.append((ctx.method, ctx.request_id is None)) return await call_next(ctx) async def on_roots(ctx: Ctx, params: NotificationParams | None) -> None: return None server.add_notification_handler("notifications/roots/list_changed", NotificationParams, on_roots) server.middleware.append(observe) async with connected_runner(server, initialized=False) as (client, _): await client.notify("notifications/roots/list_changed", None) # pre-init drop, still observed await client.notify("notifications/initialized", None) await client.notify("notifications/roots/list_changed", None) await anyio.wait_all_tasks_blocked() assert seen == [ ("notifications/roots/list_changed", True), ("notifications/initialized", True), ("notifications/roots/list_changed", True), ] def test_extract_meta_returns_none_for_absent_or_malformed(): """Context construction is independent of `_meta` validity; the params validation inside `call_next()` is what surfaces the error.""" assert _extract_meta(None) is None assert _extract_meta({}) is None assert _extract_meta({"_meta": "not-a-dict"}) is None assert _extract_meta({"_meta": {"progressToken": []}}) is None assert _extract_meta({"_meta": {"progressToken": "x", "k": 1}}) == {"progress_token": "x", "k": 1} def test_extract_meta_round_trips_through_dump_params(): """Forwarding an inbound `ctx.meta` outbound (`meta=ctx.meta`) re-emits the wire key `progressToken`, not the Python field name `_extract_meta` validation produced.""" meta = _extract_meta({"_meta": {"progressToken": 7, "k": 1}}) assert meta is not None assert dump_params(None, dict(meta)) == {"_meta": {"progressToken": 7, "k": 1}} @pytest.mark.anyio async def test_runner_server_middleware_runs_outermost_first(server: SrvT): order: list[str] = [] def make_mw(tag: str) -> Any: async def mw(ctx: Ctx, call_next: Any) -> Any: order.append(f"{tag}-in") result = await call_next(ctx) order.append(f"{tag}-out") return result return mw server.middleware.extend([make_mw("a"), make_mw("b")]) async with connected_runner(server) as (client, _): order.clear() # drop the wrap of the helper's `initialize` await client.send_raw_request("tools/list", None) assert order == ["a-in", "b-in", "b-out", "a-out"] @pytest.mark.anyio async def test_runner_handler_returning_none_yields_empty_result(server: SrvT): async def set_level(ctx: Ctx, params: SetLevelRequestParams) -> None: return None server.add_request_handler("logging/setLevel", SetLevelRequestParams, set_level) async with connected_runner(server) as (client, _): result = await client.send_raw_request("logging/setLevel", {"level": "info"}) assert result == {} @pytest.mark.anyio async def test_runner_handler_returning_error_data_produces_jsonrpc_error(server: SrvT): """A handler returning `ErrorData` reaches the client as a JSON-RPC error, not a success result, matching `BaseSession._send_response`.""" async def set_level(ctx: Ctx, params: SetLevelRequestParams) -> ErrorData: return ErrorData(code=INVALID_PARAMS, message="bad level", data={"got": params.level}) server.add_request_handler("logging/setLevel", SetLevelRequestParams, set_level) async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("logging/setLevel", {"level": "info"}) assert exc.value.error == ErrorData(code=INVALID_PARAMS, message="bad level", data={"got": "info"}) @pytest.mark.anyio async def test_runner_server_middleware_observes_handler_error_data_as_mcp_error(server: SrvT): """A handler returning `ErrorData` raises `MCPError` inside `call_next()`, so observation middleware records the failure instead of seeing a successful-looking `ErrorData` return.""" seen: list[MCPError] = [] async def observe(ctx: Ctx, call_next: Any) -> Any: try: return await call_next(ctx) except MCPError as e: seen.append(e) raise async def set_level(ctx: Ctx, params: SetLevelRequestParams) -> ErrorData: return ErrorData(code=INVALID_PARAMS, message="bad level") server.middleware.append(observe) server.add_request_handler("logging/setLevel", SetLevelRequestParams, set_level) async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("logging/setLevel", {"level": "info"}) assert exc.value.error == ErrorData(code=INVALID_PARAMS, message="bad level") assert [e.error.message for e in seen] == ["bad level"] @pytest.mark.anyio async def test_runner_middleware_returning_error_data_produces_jsonrpc_error(server: SrvT): """A middleware that short-circuits with an `ErrorData` return gets the same treatment as a handler return: the wire sees a JSON-RPC error.""" async def short_circuit(ctx: Ctx, call_next: Any) -> Any: return ErrorData(code=INVALID_PARAMS, message="denied") server.middleware.append(short_circuit) async with connected_runner(server, initialized=False) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("tools/list", None) assert exc.value.error == ErrorData(code=INVALID_PARAMS, message="denied") @pytest.mark.anyio async def test_runner_handler_returning_unsupported_type_surfaces_as_error(server: SrvT): async def bad_return(ctx: Ctx, params: PaginatedRequestParams | None) -> int: return 42 # cast: deliberately registering a handler with a bad return type to # exercise the runtime check; pyright would (correctly) reject it otherwise. server.add_request_handler("tools/list", PaginatedRequestParams, cast(Any, bad_return)) async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("tools/list", None) assert exc.value.error.code == 0 assert "int" in exc.value.error.message @pytest.mark.anyio async def test_runner_with_born_ready_connection_skips_init_gate(server: SrvT): """A `Connection.from_envelope` connection is born ready: the kernel's init-gate is open without any handshake. The kernel is mode-agnostic - the same `on_request` reads `connection.initialize_accepted` as a fact.""" born_ready = Connection.from_envelope(LATEST_HANDSHAKE_VERSION, None, None) async with connected_runner(server, initialized=False, connection=born_ready) as (client, runner): assert runner.connection.initialize_accepted is True assert runner.connection.initialized.is_set() result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" @pytest.mark.anyio async def test_server_add_request_handler_routes_custom_method_with_validated_params(server: SrvT): """Custom methods outside the spec `ClientRequest` union skip upfront validation and route to the registered handler.""" class GreetParams(RequestParams): name: str received: list[GreetParams] = [] async def greet(ctx: Ctx, params: GreetParams) -> dict[str, Any]: received.append(params) return {"greeting": f"hello {params.name}"} server.add_request_handler("custom/greet", GreetParams, greet) async with connected_runner(server) as (client, _): result = await client.send_raw_request("custom/greet", {"name": "world"}) assert result == {"greeting": "hello world"} assert isinstance(received[0], GreetParams) assert received[0].name == "world" @pytest.mark.anyio async def test_runner_spec_method_with_invalid_params_is_invalid_params_at_the_negotiated_version(server: SrvT): async with connected_runner(server) as (client, runner): assert runner.connection.protocol_version == LATEST_HANDSHAKE_VERSION with pytest.raises(MCPError) as exc: await client.send_raw_request("tools/call", {"name": 42}) assert exc.value.error.code == INVALID_PARAMS @pytest.mark.anyio async def test_runner_handler_returning_malformed_dict_for_spec_method_is_internal_error(server: SrvT): async def bad_result(ctx: Ctx, params: PaginatedRequestParams | None) -> dict[str, Any]: return {"tools": 42} server.add_request_handler("tools/list", PaginatedRequestParams, bad_result) async with connected_runner(server) as (client, _): with pytest.raises(MCPError) as exc: await client.send_raw_request("tools/list", None) assert exc.value.error.code == INTERNAL_ERROR assert exc.value.error.message == "Handler returned an invalid result" # Result body must not reach the client; detail belongs in the server log. assert exc.value.error.data is None @pytest.mark.anyio async def test_runner_handler_returning_typed_monolith_result_passes_outbound_validation(server: SrvT): async with connected_runner(server) as (client, _): result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" @pytest.mark.anyio async def test_runner_outbound_sieve_drops_2026_only_result_keys_at_a_pre_2026_version(server: SrvT): """The handler's `resultType`/`ttlMs`/`cacheScope` are sieved out so a 2025 client sees only schema fields.""" async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: return ListToolsResult(tools=[Tool(name="t", input_schema={"type": "object"})], ttl_ms=5, cache_scope="public") server.add_request_handler("tools/list", PaginatedRequestParams, list_tools) async with connected_runner(server) as (client, runner): assert runner.connection.protocol_version == "2025-11-25" result = await client.send_raw_request("tools/list", None) assert result == {"tools": [{"name": "t", "inputSchema": {"type": "object"}}]} @pytest.mark.anyio async def test_runner_outbound_sieve_drops_configured_cache_hints_at_a_pre_2026_version(): """A `cache_hints` map fills the typed result before serialization, so the same sieve that strips handler-set fields strips configured ones too - a 2025 client never sees `ttlMs`/`cacheScope`.""" async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: return ListToolsResult(tools=[Tool(name="t", input_schema={"type": "object"})]) server: SrvT = Server( "test-server", on_list_tools=list_tools, cache_hints={"tools/list": CacheHint(ttl_ms=60_000, scope="public")}, ) async with connected_runner(server) as (client, runner): assert runner.connection.protocol_version == "2025-11-25" result = await client.send_raw_request("tools/list", None) assert result == {"tools": [{"name": "t", "inputSchema": {"type": "object"}}]} @pytest.mark.anyio async def test_runner_server_direction_spec_method_routes_to_a_registered_handler(server: SrvT): """`roots/list` is a spec method but server-to-client only; on a server it is a custom registration (proxy use) and must reach the handler, not the client-direction version gate.""" async def list_roots(ctx: Ctx, params: RequestParams) -> dict[str, Any]: return {"roots": [{"uri": "file:///workspace"}]} server.add_request_handler("roots/list", RequestParams, list_roots) async with connected_runner(server) as (client, _): result = await client.send_raw_request("roots/list", None) assert result == {"roots": [{"uri": "file:///workspace"}]} @pytest.mark.anyio async def test_runner_spec_method_absent_at_the_negotiated_version_is_method_not_found(server: SrvT): """`server/discover` is a spec method (in `MONOLITH_REQUESTS`) but only at 2026-07-28; on a 2025 session it must be METHOD_NOT_FOUND even with a registered handler.""" async def discover(ctx: Ctx, params: RequestParams) -> Any: raise NotImplementedError # the version gate rejects the request first server.add_request_handler("server/discover", RequestParams, discover) async with connected_runner(server) as (client, runner): assert runner.connection.protocol_version == "2025-11-25" with pytest.raises(MCPError) as exc: await client.send_raw_request("server/discover", None) assert exc.value.error == ErrorData(code=METHOD_NOT_FOUND, message="Method not found", data="server/discover") @pytest.mark.anyio async def test_on_request_rejects_initialize_at_modern_version_with_method_not_found(server: SrvT): """Spec-mandated: `initialize` has no `CLIENT_REQUESTS` row at the modern version; kernel dispatch (not the inbound classifier) rejects it.""" born_ready = Connection.from_envelope(LATEST_MODERN_VERSION, None, None) async with connected_runner(server, initialized=False, connection=born_ready) as (client, runner): assert runner.connection.protocol_version == LATEST_MODERN_VERSION with pytest.raises(MCPError) as exc: await client.send_raw_request("initialize", _initialize_params()) assert exc.value.error.code == METHOD_NOT_FOUND @pytest.mark.anyio async def test_on_request_dispatches_custom_method_registered_via_add_request_handler(server: SrvT): """SDK-defined: a method outside `SPEC_CLIENT_METHODS` skips the version gate and reaches its registered handler at any negotiated version.""" async def echo(ctx: Ctx, params: RequestParams) -> dict[str, Any]: return {"echoed": True} server.add_request_handler("myorg/echo", RequestParams, echo) born_ready = Connection.from_envelope(LATEST_MODERN_VERSION, None, None) async with connected_runner(server, initialized=False, connection=born_ready) as (client, _): result = await client.send_raw_request("myorg/echo", None) assert result == {"echoed": True} @pytest.mark.anyio async def test_runner_middleware_short_circuit_on_a_wrong_version_spec_method_skips_the_sieve(server: SrvT): """A server-tier middleware that returns without calling `call_next` for a spec method absent at the negotiated version owns the result shape; the outbound sieve has no `(method, version)` row and must not raise.""" async def short_circuit(ctx: Ctx, call_next: Any) -> Any: if ctx.method == "server/discover": return {"ok": True} return await call_next(ctx) server.middleware.append(short_circuit) async with connected_runner(server) as (client, runner): assert runner.connection.protocol_version == "2025-11-25" result = await client.send_raw_request("server/discover", None) assert result == {"ok": True} @pytest.mark.anyio async def test_runner_custom_method_result_is_not_surface_validated(server: SrvT): """No `SERVER_RESULTS` row for a custom method, so its result reaches the client as-is.""" async def custom(ctx: Ctx, params: RequestParams) -> dict[str, Any]: return {"anything": "goes"} server.add_request_handler("custom/greet", RequestParams, custom) async with connected_runner(server) as (client, _): result = await client.send_raw_request("custom/greet", None) assert result == {"anything": "goes"} @pytest.mark.anyio async def test_runner_initialize_result_reflects_init_options(): async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: raise NotImplementedError server: SrvT = Server(name="caps-test", on_list_tools=list_tools, instructions="be nice") init_options = server.create_initialization_options(NotificationOptions(tools_changed=True), {"ext": {"k": "v"}}) async with connected_runner(server, initialized=False, init_options=init_options) as (client, _): result = await client.send_raw_request("initialize", _initialize_params()) assert result["capabilities"]["tools"]["listChanged"] is True assert result["capabilities"]["experimental"] == {"ext": {"k": "v"}} assert result["serverInfo"]["name"] == "caps-test" assert result["instructions"] == "be nice" @pytest.mark.anyio async def test_runner_initialize_echoes_supported_version_and_falls_back_to_latest(server: SrvT): oldest = OLDEST_SUPPORTED_VERSION async with connected_runner(server, initialized=False) as (client, _): params = {**_initialize_params(), "protocolVersion": oldest} result = await client.send_raw_request("initialize", params) assert result["protocolVersion"] == oldest async with connected_runner(server, initialized=False) as (client, _): params = {**_initialize_params(), "protocolVersion": "1999-01-01"} result = await client.send_raw_request("initialize", params) assert result["protocolVersion"] == LATEST_HANDSHAKE_VERSION @pytest.mark.anyio async def test_runner_connection_exit_stack_unwinds_after_run_returns(server: SrvT) -> None: """`runner.connection.exit_stack` is closed when the dispatcher loop ends.""" cleaned: list[int] = [] async def _append(i: int) -> None: cleaned.append(i) async with connected_runner(server) as (client, runner): for i in (1, 2, 3): runner.connection.exit_stack.push_async_callback(_append, i) await client.send_raw_request("tools/list", None) assert cleaned == [] assert cleaned == [3, 2, 1] @pytest.mark.anyio async def test_runner_exit_stack_cleanup_exception_is_logged_not_propagated( server: SrvT, caplog: pytest.LogCaptureFixture ) -> None: """A raising cleanup callback is caught and logged; `run()` exits cleanly.""" cleaned: list[str] = [] async def _ok() -> None: cleaned.append("ok") async def _boom() -> None: raise RuntimeError("cleanup failed") async with connected_runner(server) as (client, runner): runner.connection.exit_stack.push_async_callback(_ok) runner.connection.exit_stack.push_async_callback(_boom) await client.send_raw_request("tools/list", None) assert cleaned == ["ok"] assert "connection exit_stack cleanup raised" in caplog.text @pytest.mark.anyio async def test_runner_exit_stack_blocking_cleanup_abandoned_after_grace( server: SrvT, monkeypatch: pytest.MonkeyPatch, caplog: pytest.LogCaptureFixture ) -> None: """A cleanup callback that never returns is abandoned once the grace period elapses: `run()` exits, later callbacks in the unwind are cancelled at their first checkpoint, and a warning is logged. Grace 0 means the deadline is already expired on entry, so the abandonment is immediate.""" monkeypatch.setattr(mcp.server.runner, "_EXIT_STACK_CLOSE_TIMEOUT", 0) ran: list[str] = [] release = anyio.Event() async def _abandoned() -> None: # LIFO unwind: pushed first, so it runs after the blocker. By then the # deadline has fired, so this checkpoint raises and the line below is # unreachable (if abandonment broke, the missing warning fails the # caplog assert). await anyio.sleep(0) raise NotImplementedError async def _blocker() -> None: ran.append("blocker started") await release.wait() raise NotImplementedError async with connected_runner(server) as (client, runner): runner.connection.exit_stack.push_async_callback(_abandoned) runner.connection.exit_stack.push_async_callback(_blocker) await client.send_raw_request("tools/list", None) assert ran == ["blocker started"] assert "abandoning remaining callbacks" in caplog.text @pytest.mark.anyio async def test_runner_exit_stack_fast_cleanup_completes_within_grace( server: SrvT, caplog: pytest.LogCaptureFixture ) -> None: """Well-behaved cleanup callbacks run to completion under the bounded unwind and no abandonment warning is logged. Uses the production grace; the deadline never delays a fast unwind, it only bounds a hung one.""" cleaned: list[int] = [] async def _append(i: int) -> None: await anyio.sleep(0) cleaned.append(i) async with connected_runner(server) as (client, runner): for i in (1, 2): runner.connection.exit_stack.push_async_callback(_append, i) await client.send_raw_request("tools/list", None) assert cleaned == [2, 1] assert "abandoning remaining callbacks" not in caplog.text # --- aclose_shielded ----------------------------------------------------------- @pytest.mark.anyio async def test_aclose_shielded_runs_callbacks_under_outer_cancellation(): """The shield lets per-connection cleanup run even when the enclosing scope is being cancelled.""" cleaned: list[int] = [] conn = Connection.from_envelope(LATEST_PROTOCOL_VERSION, None, None) async def _append() -> None: await anyio.sleep(0) cleaned.append(1) conn.exit_stack.push_async_callback(_append) with anyio.CancelScope() as scope: scope.cancel() await aclose_shielded(conn) assert cleaned == [1] # --- serve_one / serve_connection --------------------------------------------- @dataclass class _StubDispatchContext: """Minimal `DispatchContext` for `serve_one` driver tests. The modern entry hands a per-request context to `serve_one`; this stub satisfies the protocol structurally with no real back-channel. """ request_id: int | str | None transport: TransportContext = field(default_factory=lambda: TransportContext(kind="direct", can_send_request=False)) message_metadata: MessageMetadata = None cancel_requested: anyio.Event = field(default_factory=anyio.Event) can_send_request: bool = False async def send_raw_request( self, method: str, params: Mapping[str, Any] | None, opts: CallOptions | None = None ) -> dict[str, Any]: raise NotImplementedError async def notify(self, method: str, params: Mapping[str, Any] | None, opts: CallOptions | None = None) -> None: raise NotImplementedError async def progress(self, progress: float, total: float | None = None, message: str | None = None) -> None: raise NotImplementedError async def _append_async(dst: list[int], v: int) -> None: dst.append(v) _LIFESPAN: dict[str, Any] = {} @pytest.mark.anyio async def test_serve_one_runs_handler_and_returns_result_dict(server: SrvT): """The single-exchange driver: builds the kernel, runs `on_request` once, returns the agnostic result dict, and tears down `connection.exit_stack`.""" conn = Connection.from_envelope(LATEST_HANDSHAKE_VERSION, None, None) cleaned: list[int] = [] conn.exit_stack.push_async_callback(_append_async, cleaned, 1) result = await serve_one( server, _StubDispatchContext(9), "tools/list", None, connection=conn, lifespan_state=_LIFESPAN ) assert result["tools"][0]["name"] == "t" assert cleaned == [1] ctx = _seen_ctx[0] assert ctx.protocol_version == LATEST_HANDSHAKE_VERSION @pytest.mark.anyio async def test_serve_one_propagates_error_and_still_closes_exit_stack(server: SrvT): """SDK-defined: a kernel-produced error (here `METHOD_NOT_FOUND` for an unregistered method) propagates as `MCPError`, and the per-request exit stack is closed on the error path too.""" conn = Connection.from_envelope(LATEST_HANDSHAKE_VERSION, None, None) cleaned: list[int] = [] conn.exit_stack.push_async_callback(_append_async, cleaned, 1) with pytest.raises(MCPError) as exc_info: await serve_one( server, _StubDispatchContext(2), "resources/list", None, connection=conn, lifespan_state=_LIFESPAN ) assert exc_info.value.error.code == METHOD_NOT_FOUND assert cleaned == [1] @pytest.mark.anyio async def test_serve_one_reads_connection_protocol_version_as_a_fact(server: SrvT): """`serve_one` builds the kernel over the entry's `Connection`; the kernel reads `connection.protocol_version` for the version gate. A `from_envelope` connection at a modern version rejects a method absent there.""" conn = Connection.from_envelope(LATEST_MODERN_VERSION, None, None) with pytest.raises(MCPError) as exc_info: await serve_one( server, _StubDispatchContext(1), "logging/setLevel", {"level": "info"}, connection=conn, lifespan_state=_LIFESPAN, ) assert exc_info.value.error.code == METHOD_NOT_FOUND @pytest.mark.anyio async def test_serve_connection_drives_dispatcher_loop_and_tears_down(server: SrvT): """The loop-mode driver: `serve_connection` builds the kernel, hands `on_request`/`on_notify` to `dispatcher.run()`, and `aclose_shielded`s the connection on the way out.""" client, server_d, close = jsonrpc_pair() assert isinstance(client, JSONRPCDispatcher) and isinstance(server_d, JSONRPCDispatcher) conn = Connection.for_loop(server_d) cleaned: list[int] = [] conn.exit_stack.push_async_callback(_append_async, cleaned, 1) c_req, c_notify = echo_handlers(Recorder()) async with anyio.create_task_group() as tg: await tg.start(client.run, c_req, c_notify) await tg.start(partial(serve_connection, server, server_d, connection=conn, lifespan_state=_LIFESPAN)) with anyio.fail_after(5): await client.send_raw_request("initialize", _initialize_params()) result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" assert cleaned == [] close() assert cleaned == [1] assert conn.protocol_version == LATEST_HANDSHAKE_VERSION assert conn.client_params is not None # --- serve_dual_era_loop ---------------------------------------------------- def _modern_envelope(version: str = LATEST_MODERN_VERSION) -> dict[str, Any]: return { PROTOCOL_VERSION_META_KEY: version, CLIENT_INFO_META_KEY: {"name": "test-client", "version": "1.0"}, CLIENT_CAPABILITIES_META_KEY: {}, } def _modern_params(version: str = LATEST_MODERN_VERSION, **params: Any) -> dict[str, Any]: return {**params, "_meta": _modern_envelope(version)} @asynccontextmanager async def dual_era_client(server: SrvT) -> AsyncIterator[tuple[JSONRPCDispatcher[TransportContext], Recorder]]: """Yield `(client, recorder)` speaking raw frames to a `serve_dual_era_loop` server. The driver owns its dispatcher and connection, so unlike `connected_runner` the harness hands it bare streams and performs no handshake: each test drives the era lock itself. """ c2s_send, c2s_recv = anyio.create_memory_object_stream[SessionMessage | Exception](32) s2c_send, s2c_recv = anyio.create_memory_object_stream[SessionMessage | Exception](32) def builder(_meta: object) -> TransportContext: return TransportContext(kind="jsonrpc", can_send_request=True) client: JSONRPCDispatcher[TransportContext] = JSONRPCDispatcher(s2c_recv, c2s_send, transport_builder=builder) recorder = Recorder() c_req, c_notify = echo_handlers(recorder) body_exc: BaseException | None = None async with anyio.create_task_group() as tg: await tg.start(client.run, c_req, c_notify) tg.start_soon(partial(serve_dual_era_loop, server, c2s_recv, s2c_send, lifespan_state=_LIFESPAN)) try: with anyio.fail_after(5): yield client, recorder except BaseException as e: body_exc = e tg.cancel_scope.cancel() if body_exc is not None: raise body_exc @pytest.mark.anyio async def test_dual_era_loop_discover_locks_modern_and_serves_envelope_requests(server: SrvT): """`server/discover` over the loop returns a DiscoverResult and locks the connection modern: envelope-bearing feature requests are then served single-exchange, and a later legacy `initialize` is rejected with -32022 naming the modern versions.""" async with dual_era_client(server) as (client, _): discover = await client.send_raw_request("server/discover", _modern_params()) assert LATEST_MODERN_VERSION in discover["supportedVersions"] assert "tools" in discover["capabilities"] result = await client.send_raw_request("tools/list", _modern_params()) assert result["tools"][0]["name"] == "t" with pytest.raises(MCPError) as exc_info: await client.send_raw_request("initialize", _initialize_params()) assert exc_info.value.error.code == UNSUPPORTED_PROTOCOL_VERSION assert exc_info.value.error.data == { "supported": list(MODERN_PROTOCOL_VERSIONS), "requested": LATEST_HANDSHAKE_VERSION, } @pytest.mark.anyio async def test_dual_era_loop_pinned_modern_request_locks_without_a_probe(server: SrvT): """A pinned-modern client sends no probe: its first envelope-bearing feature request locks the connection modern directly.""" async with dual_era_client(server) as (client, _): result = await client.send_raw_request("tools/list", _modern_params()) assert result["tools"][0]["name"] == "t" with pytest.raises(MCPError) as exc_info: await client.send_raw_request("initialize", _initialize_params()) assert exc_info.value.error.code == UNSUPPORTED_PROTOCOL_VERSION @pytest.mark.anyio async def test_dual_era_loop_initialize_after_modern_lock_without_a_parseable_version(server: SrvT): """An `initialize` with no string protocolVersion still gets the supported list in the -32022 data (the typed payload needs a `requested` string).""" async with dual_era_client(server) as (client, _): await client.send_raw_request("server/discover", _modern_params()) with pytest.raises(MCPError) as exc_info: await client.send_raw_request("initialize", {"capabilities": {}}) assert exc_info.value.error.code == UNSUPPORTED_PROTOCOL_VERSION assert exc_info.value.error.data == {"supported": list(MODERN_PROTOCOL_VERSIONS)} @pytest.mark.anyio async def test_dual_era_loop_initialize_locks_legacy_and_rejects_modern_traffic(server: SrvT): """After a successful handshake the connection is legacy for its lifetime: envelope-bearing requests (including a triple-stamped `server/discover`) are rejected with INVALID_REQUEST while plain legacy requests keep working.""" async with dual_era_client(server) as (client, _): init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION with pytest.raises(MCPError) as discover_exc: await client.send_raw_request("server/discover", _modern_params()) with pytest.raises(MCPError) as envelope_exc: await client.send_raw_request("tools/list", _modern_params()) result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" assert discover_exc.value.error.code == INVALID_REQUEST assert envelope_exc.value.error.code == INVALID_REQUEST assert "locked to the legacy handshake era" in discover_exc.value.error.message @pytest.mark.anyio async def test_dual_era_loop_bare_discover_after_legacy_lock_is_byte_identical(server: SrvT): """A bare `server/discover` on a legacy-locked connection falls through to the loop runner's per-version surface validation - the same METHOD_NOT_FOUND shape a handshake-only server produced, byte for byte (released probing clients key on it).""" async with dual_era_client(server) as (client, _): await client.send_raw_request("initialize", _initialize_params()) with pytest.raises(MCPError) as exc_info: await client.send_raw_request("server/discover", None) assert exc_info.value.error.code == METHOD_NOT_FOUND assert exc_info.value.error.message == "Method not found" assert exc_info.value.error.data == "server/discover" @pytest.mark.anyio async def test_dual_era_loop_unsupported_modern_version_rejects_without_locking(server: SrvT): """A probe at an unknown modern version gets -32022 with the supported list, and the rejection does not lock the era: the legacy handshake still succeeds afterwards (the released auto clients' retry/fallback contract).""" async with dual_era_client(server) as (client, _): with pytest.raises(MCPError) as exc_info: await client.send_raw_request("server/discover", _modern_params(version="2099-01-01")) init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION assert exc_info.value.error.code == UNSUPPORTED_PROTOCOL_VERSION assert exc_info.value.error.data == { "supported": list(MODERN_PROTOCOL_VERSIONS), "requested": "2099-01-01", } @pytest.mark.anyio async def test_dual_era_loop_bare_discover_rejects_without_locking(server: SrvT): """A `server/discover` with no envelope triple is INVALID_PARAMS - never -32022, so a released auto client's code-keyed fallback predicate takes the legacy branch - and the connection can still complete the handshake.""" async with dual_era_client(server) as (client, _): with pytest.raises(MCPError) as exc_info: await client.send_raw_request("server/discover", None) init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION assert exc_info.value.error.code == INVALID_PARAMS assert exc_info.value.error.code != UNSUPPORTED_PROTOCOL_VERSION @pytest.mark.anyio async def test_dual_era_loop_ping_before_any_lock_stays_exempt_and_neutral(server: SrvT): """A pre-handshake `ping` is answered (the init-gate exemption) and does not lock an era: the connection can still go modern.""" async with dual_era_client(server) as (client, _): assert await client.send_raw_request("ping", None) == {} result = await client.send_raw_request("tools/list", _modern_params()) assert result["tools"][0]["name"] == "t" @pytest.mark.anyio async def test_dual_era_loop_modern_request_without_envelope_rejects(server: SrvT): """On a modern-locked connection every request is classified: one without the envelope triple is INVALID_PARAMS.""" async with dual_era_client(server) as (client, _): await client.send_raw_request("server/discover", _modern_params()) with pytest.raises(MCPError) as exc_info: await client.send_raw_request("tools/list", None) assert exc_info.value.error.code == INVALID_PARAMS @pytest.mark.anyio async def test_dual_era_loop_rejects_subscriptions_listen_on_modern(server: SrvT): """`subscriptions/listen` is rejected before dispatch on the stream-pair modern path (the registered handler assumes the HTTP entry's stream semantics) - and like every failed request it does not lock the era, so the legacy handshake stays available.""" async with dual_era_client(server) as (client, _): with pytest.raises(MCPError) as exc_info: await client.send_raw_request("subscriptions/listen", _modern_params()) init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION assert exc_info.value.error.code == METHOD_NOT_FOUND assert "not served over this transport" in exc_info.value.error.message @pytest.mark.anyio async def test_dual_era_loop_malformed_envelope_content_never_locks(server: SrvT): """The envelope triple with mis-shaped values fails the request but never locks the era: the lock commits only when a modern request SUCCEEDS, so a buggy client's initialize fallback still works (it must never see -32022 for a request that failed).""" params: dict[str, Any] = {"_meta": {**_modern_envelope(), CLIENT_INFO_META_KEY: 42}} async with dual_era_client(server) as (client, _): with pytest.raises(MCPError) as exc_info: await client.send_raw_request("tools/list", params) init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION assert exc_info.value.error.code == INVALID_PARAMS assert exc_info.value.error.code != UNSUPPORTED_PROTOCOL_VERSION @pytest.mark.anyio async def test_dual_era_loop_failed_modern_request_never_locks(server: SrvT): """A well-formed modern request for an unknown method fails without locking; the next modern request locks on its own success.""" async with dual_era_client(server) as (client, _): with pytest.raises(MCPError) as exc_info: await client.send_raw_request("nope/missing", _modern_params()) init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION assert exc_info.value.error.code == METHOD_NOT_FOUND @pytest.mark.anyio async def test_dual_era_loop_initialize_with_envelope_takes_the_handshake_path(server: SrvT): """`initialize` is legacy-distinctive by definition - it does not exist at modern versions - so stamping the envelope triple on it still runs the handshake and locks legacy.""" init_params = {**_initialize_params(), **_modern_params()} async with dual_era_client(server) as (client, _): init = await client.send_raw_request("initialize", init_params) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION with pytest.raises(MCPError) as exc_info: await client.send_raw_request("tools/list", _modern_params()) assert exc_info.value.error.code == INVALID_REQUEST @pytest.mark.anyio async def test_dual_era_loop_modern_notification_dispatches_at_locked_version(server: SrvT): """Notifications carry no envelope, so on a modern-locked connection they dispatch with the locked protocol version.""" seen_versions: list[str] = [] handled = anyio.Event() async def on_custom(ctx: Ctx, params: NotificationParams | None) -> None: seen_versions.append(ctx.protocol_version) handled.set() server.add_notification_handler("notifications/custom", NotificationParams, on_custom) async with dual_era_client(server) as (client, _): await client.send_raw_request("server/discover", _modern_params()) await client.notify("notifications/custom", None) await handled.wait() assert seen_versions == [LATEST_MODERN_VERSION] @pytest.mark.anyio async def test_dual_era_loop_legacy_notifications_reach_the_loop_runner(server: SrvT): """Before/after a legacy lock, notifications flow through the loop runner exactly as under `serve_loop`.""" handled = anyio.Event() async def on_custom(ctx: Ctx, params: NotificationParams | None) -> None: handled.set() server.add_notification_handler("notifications/custom", NotificationParams, on_custom) async with dual_era_client(server) as (client, _): await client.send_raw_request("initialize", _initialize_params()) await client.notify("notifications/custom", None) await handled.wait() @pytest.mark.anyio async def test_dual_era_loop_modern_server_notifications_ride_the_pipe(server: SrvT): """A modern handler's standalone notification reaches the client over the duplex stream - the notify-only outbound forwards it.""" async def emit(ctx: Ctx, params: RequestParams | None) -> dict[str, Any]: await ctx.session.send_tool_list_changed() return {} server.add_request_handler("x/emit", RequestParams, emit) async with dual_era_client(server) as (client, recorder): await client.send_raw_request("x/emit", _modern_params()) await recorder.notified.wait() assert recorder.notifications[0][0] == "notifications/tools/list_changed" @pytest.mark.anyio async def test_dual_era_loop_modern_refuses_server_initiated_requests(server: SrvT): """A modern handler attempting a server-initiated request gets `NoBackChannelError` from the standalone channel: the modern protocol forbids the frame, duplex pipe or not.""" async def wants_roots(ctx: Ctx, params: RequestParams | None) -> dict[str, Any]: await ctx.session.list_roots() # pyright: ignore[reportDeprecated] return {} # pragma: no cover - list_roots raises server.add_request_handler("x/roots", RequestParams, wants_roots) async with dual_era_client(server) as (client, _): with pytest.raises(MCPError) as exc_info: await client.send_raw_request("x/roots", _modern_params()) assert exc_info.value.error.code == INVALID_REQUEST assert "no back-channel" in exc_info.value.error.message @pytest.mark.anyio async def test_dual_era_loop_late_modern_success_does_not_overwrite_a_committed_legacy_lock(): """The era settles exactly once, on the FIRST client-visible success: a modern request that was already in flight when a legacy handshake committed may still complete - its response stands - but the connection stays legacy, so the handshaked client is never stranded.""" entered = anyio.Event() release = anyio.Event() async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: entered.set() await release.wait() return ListToolsResult(tools=[Tool(name="t", input_schema={"type": "object"})]) parked = Server(name="parked-server", version="0.0.1", on_list_tools=list_tools) async with dual_era_client(parked) as (client, _): modern_result: dict[str, Any] = {} async def modern_call() -> None: modern_result.update(await client.send_raw_request("tools/list", _modern_params())) async with anyio.create_task_group() as tg: tg.start_soon(modern_call) # The modern dispatch is parked in its handler before the # handshake frame is even written, so the initialize commits first. await entered.wait() init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION release.set() assert modern_result["tools"][0]["name"] == "t" # The straggler's success did not move the era: plain legacy requests # still serve (a modern overwrite would demand the envelope triple). result = await client.send_raw_request("tools/list", None) assert result["tools"][0]["name"] == "t" @pytest.mark.anyio async def test_dual_era_loop_modern_success_cancelled_away_at_the_response_write_never_locks(): """A peer cancel that lands while the handler is finishing means the dispatcher replaces the computed result with "Request cancelled" - the client never sees the success, so the era must not lock and the legacy handshake must stay available.""" entered = anyio.Event() release = anyio.Event() async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: entered.set() # Survive the interrupt-mode scope cancel so the handler completes # with the cancel pending - the cancellation is then delivered at the # dispatcher's response-write checkpoint, after the era commit ran. with anyio.CancelScope(shield=True): await release.wait() return ListToolsResult(tools=[]) parked = Server(name="parked-server", version="0.0.1", on_list_tools=list_tools) async with dual_era_client(parked) as (client, _): failures: list[MCPError] = [] async def modern_call() -> None: with pytest.raises(MCPError) as exc_info: await client.send_raw_request("tools/list", _modern_params()) failures.append(exc_info.value) async with anyio.create_task_group() as tg: tg.start_soon(modern_call) await entered.wait() # First request on a fresh dispatcher pair, so its id is 1. await client.notify("notifications/cancelled", {"requestId": 1}) # The read loop handles frames in order: this marker's response # proves the cancel was processed before the handler resumes. with pytest.raises(MCPError): await client.send_raw_request("probe/marker", None) release.set() assert failures[0].error.message == "Request cancelled" # The cancelled-away success never locked the era. init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION @pytest.mark.anyio async def test_dual_era_loop_maps_unmapped_handler_exceptions_like_the_modern_http_entry(): """An unmapped handler exception on a modern request surfaces as the generic INTERNAL_ERROR - the same boundary as the modern HTTP entry - so handler internals never reach the wire. (The dispatcher's code-0 catch-all is a handshake-era compat pin and stays legacy-only.) The failed request never locks, so the handshake stays available.""" async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: raise RuntimeError("handler internals") exploding = Server(name="exploding-server", version="0.0.1", on_list_tools=list_tools) async with dual_era_client(exploding) as (client, _): with pytest.raises(MCPError) as exc_info: await client.send_raw_request("tools/list", _modern_params()) init = await client.send_raw_request("initialize", _initialize_params()) assert init["protocolVersion"] == LATEST_HANDSHAKE_VERSION assert exc_info.value.error.code == INTERNAL_ERROR assert exc_info.value.error.message == "Internal server error" assert "handler internals" not in str(exc_info.value.error) @pytest.mark.anyio async def test_dual_era_loop_raise_exceptions_reraises_unmapped_modern_handler_exceptions(): """Debug mode keeps its contract on the modern path: an unmapped handler exception still propagates out of the loop instead of being swallowed into the generic INTERNAL_ERROR mapping.""" async def list_tools(ctx: Ctx, params: PaginatedRequestParams | None) -> ListToolsResult: raise RuntimeError("boom") exploding = Server(name="exploding-server", version="0.0.1", on_list_tools=list_tools) c2s_send, c2s_recv = anyio.create_memory_object_stream[SessionMessage | Exception](8) s2c_send, s2c_recv = anyio.create_memory_object_stream[SessionMessage | Exception](8) frame = JSONRPCRequest(jsonrpc="2.0", id=1, method="tools/list", params=_modern_params()) with pytest.RaisesGroup(RuntimeError, flatten_subgroups=True, allow_unwrapped=True): async with anyio.create_task_group() as tg, c2s_send, c2s_recv, s2c_send, s2c_recv: tg.start_soon( partial( serve_dual_era_loop, exploding, c2s_recv, s2c_send, lifespan_state=_LIFESPAN, raise_exceptions=True ) ) with anyio.fail_after(5): # pragma: no branch - group exit misreports the with arcs await c2s_send.send(SessionMessage(message=frame)) # The dispatcher answers on the wire before re-raising; waiting # for the answer keeps the streams open until the handler ran. await s2c_recv.receive() @pytest.mark.anyio async def test_dual_era_loop_custom_method_with_mis_shaped_envelope_values_still_routes(): """A mis-shaped clientInfo envelope value degrades to not-supplied - the `Connection.from_envelope` coercion the modern HTTP entry uses - so a custom method (no kernel params surface to re-reject it) serves identically on both transports, with `client_params is None`.""" seen: list[object] = [] async def greet(ctx: Ctx, params: RequestParams | None) -> dict[str, Any]: seen.append(ctx.session.client_params) return {"ok": True} greeter = Server(name="greeter-server", version="0.0.1") greeter.add_request_handler("custom/greet", RequestParams, greet) params = _modern_params() params["_meta"][CLIENT_INFO_META_KEY] = "not-an-object" async with dual_era_client(greeter) as (client, _): result = await client.send_raw_request("custom/greet", params) assert result == {"ok": True} assert seen == [None] def test_has_modern_envelope_requires_the_full_key_triple(): assert not _has_modern_envelope(None) assert not _has_modern_envelope({}) assert not _has_modern_envelope({"_meta": None}) assert not _has_modern_envelope({"_meta": {"progressToken": 1}}) partial_meta = {k: v for k, v in _modern_envelope().items() if k != CLIENT_CAPABILITIES_META_KEY} assert not _has_modern_envelope({"_meta": partial_meta}) assert _has_modern_envelope(_modern_params()) def test_initialize_after_modern_data_arms(): typed = _initialize_after_modern_data({"protocolVersion": LATEST_HANDSHAKE_VERSION}) assert typed == {"supported": list(MODERN_PROTOCOL_VERSIONS), "requested": LATEST_HANDSHAKE_VERSION} assert _initialize_after_modern_data(None) == {"supported": list(MODERN_PROTOCOL_VERSIONS)} assert _initialize_after_modern_data({"protocolVersion": 7}) == {"supported": list(MODERN_PROTOCOL_VERSIONS)} class _RecordingInnerDctx: """Minimal `DispatchContext` double recording delegated calls.""" def __init__(self) -> None: self.transport = TransportContext(kind="jsonrpc", can_send_request=True) self.can_send_request = True self.request_id = 7 self.message_metadata = None self.cancel_requested = anyio.Event() self.notifies: list[str] = [] self.progresses: list[float] = [] async def send_raw_request( self, method: str, params: Mapping[str, Any] | None, opts: CallOptions | None = None ) -> dict[str, Any]: raise AssertionError("must never be reached through the denying wrapper") # pragma: no cover async def notify(self, method: str, params: Mapping[str, Any] | None, opts: CallOptions | None = None) -> None: self.notifies.append(method) async def progress(self, progress: float, total: float | None = None, message: str | None = None) -> None: self.progresses.append(progress) @pytest.mark.anyio async def test_no_server_requests_dispatch_context_denies_requests_and_delegates_the_rest(): inner = _RecordingInnerDctx() wrapper = _NoServerRequestsDispatchContext(inner) assert wrapper.can_send_request is False # The transport metadata is masked to agree with the wrapper's denial. assert wrapper.transport == TransportContext(kind="jsonrpc", can_send_request=False) assert wrapper.request_id == 7 assert wrapper.message_metadata is None assert wrapper.cancel_requested is inner.cancel_requested with pytest.raises(NoBackChannelError): await wrapper.send_raw_request("roots/list", None) await wrapper.notify("notifications/progress", None) await wrapper.progress(0.5) assert inner.notifies == ["notifications/progress"] assert inner.progresses == [0.5] def test_no_server_requests_dispatch_context_passes_an_already_denying_transport_through(): inner = _RecordingInnerDctx() inner.transport = TransportContext(kind="jsonrpc", can_send_request=False) assert _NoServerRequestsDispatchContext(inner).transport is inner.transport @pytest.mark.anyio async def test_notify_only_outbound_forwards_notifications_and_refuses_requests(): inner = _RecordingInnerDctx() outbound = NotifyOnlyOutbound(inner) await outbound.notify("notifications/tools/list_changed", None) assert inner.notifies == ["notifications/tools/list_changed"] with pytest.raises(NoBackChannelError): await outbound.send_raw_request("ping", None) @pytest.mark.anyio async def test_dual_era_client_propagates_body_exception_unwrapped(server: SrvT): """The harness re-raises body exceptions as-is, not as `ExceptionGroup`.""" with pytest.raises(RuntimeError, match="boom"): async with dual_era_client(server): raise RuntimeError("boom")