from __future__ import annotations import contextlib import functools import inspect import re import traceback import types import typing import warnings from contextlib import asynccontextmanager from enum import Enum from starlette._exception_handler import wrap_app_handling_exceptions from starlette._utils import get_route_path, is_async_callable from starlette.concurrency import run_in_threadpool from starlette.convertors import CONVERTOR_TYPES, Convertor from starlette.datastructures import URL, Headers, URLPath from starlette.exceptions import HTTPException from starlette.middleware import Middleware from starlette.requests import Request from starlette.responses import PlainTextResponse, RedirectResponse, Response from starlette.types import ASGIApp, Lifespan, Receive, Scope, Send from starlette.websockets import WebSocket, WebSocketClose class NoMatchFound(Exception): """ Raised by `.url_for(name, **path_params)` and `.url_path_for(name, **path_params)` if no matching route exists. """ def __init__(self, name: str, path_params: dict[str, typing.Any]) -> None: params = ", ".join(list(path_params.keys())) super().__init__(f'No route exists for name "{name}" and params "{params}".') class Match(Enum): NONE = 0 PARTIAL = 1 FULL = 2 def iscoroutinefunction_or_partial(obj: typing.Any) -> bool: # pragma: no cover """ Correctly determines if an object is a coroutine function, including those wrapped in functools.partial objects. """ warnings.warn( "iscoroutinefunction_or_partial is deprecated, " "and will be removed in a future release.", DeprecationWarning, ) while isinstance(obj, functools.partial): obj = obj.func return inspect.iscoroutinefunction(obj) def request_response( func: typing.Callable[[Request], typing.Awaitable[Response] | Response], ) -> ASGIApp: """ Takes a function or coroutine `func(request) -> response`, and returns an ASGI application. """ async def app(scope: Scope, receive: Receive, send: Send) -> None: request = Request(scope, receive, send) async def app(scope: Scope, receive: Receive, send: Send) -> None: if is_async_callable(func): response = await func(request) else: response = await run_in_threadpool(func, request) await response(scope, receive, send) await wrap_app_handling_exceptions(app, request)(scope, receive, send) return app def websocket_session( func: typing.Callable[[WebSocket], typing.Awaitable[None]], ) -> ASGIApp: """ Takes a coroutine `func(session)`, and returns an ASGI application. """ # assert asyncio.iscoroutinefunction(func), "WebSocket endpoints must be async" async def app(scope: Scope, receive: Receive, send: Send) -> None: session = WebSocket(scope, receive=receive, send=send) async def app(scope: Scope, receive: Receive, send: Send) -> None: await func(session) await wrap_app_handling_exceptions(app, session)(scope, receive, send) return app def get_name(endpoint: typing.Callable[..., typing.Any]) -> str: if inspect.isroutine(endpoint) or inspect.isclass(endpoint): return endpoint.__name__ return endpoint.__class__.__name__ def replace_params( path: str, param_convertors: dict[str, Convertor[typing.Any]], path_params: dict[str, str], ) -> tuple[str, dict[str, str]]: for key, value in list(path_params.items()): if "{" + key + "}" in path: convertor = param_convertors[key] value = convertor.to_string(value) path = path.replace("{" + key + "}", value) path_params.pop(key) return path, path_params # Match parameters in URL paths, eg. '{param}', and '{param:int}' PARAM_REGEX = re.compile("{([a-zA-Z_][a-zA-Z0-9_]*)(:[a-zA-Z_][a-zA-Z0-9_]*)?}") def compile_path( path: str, ) -> tuple[typing.Pattern[str], str, dict[str, Convertor[typing.Any]]]: """ Given a path string, like: "/{username:str}", or a host string, like: "{subdomain}.mydomain.org", return a three-tuple of (regex, format, {param_name:convertor}). regex: "/(?P[^/]+)" format: "/{username}" convertors: {"username": StringConvertor()} """ is_host = not path.startswith("/") path_regex = "^" path_format = "" duplicated_params = set() idx = 0 param_convertors = {} for match in PARAM_REGEX.finditer(path): param_name, convertor_type = match.groups("str") convertor_type = convertor_type.lstrip(":") assert ( convertor_type in CONVERTOR_TYPES ), f"Unknown path convertor '{convertor_type}'" convertor = CONVERTOR_TYPES[convertor_type] path_regex += re.escape(path[idx : match.start()]) path_regex += f"(?P<{param_name}>{convertor.regex})" path_format += path[idx : match.start()] path_format += "{%s}" % param_name if param_name in param_convertors: duplicated_params.add(param_name) param_convertors[param_name] = convertor idx = match.end() if duplicated_params: names = ", ".join(sorted(duplicated_params)) ending = "s" if len(duplicated_params) > 1 else "" raise ValueError(f"Duplicated param name{ending} {names} at path {path}") if is_host: # Align with `Host.matches()` behavior, which ignores port. hostname = path[idx:].split(":")[0] path_regex += re.escape(hostname) + "$" else: path_regex += re.escape(path[idx:]) + "$" path_format += path[idx:] return re.compile(path_regex), path_format, param_convertors class BaseRoute: def matches(self, scope: Scope) -> tuple[Match, Scope]: raise NotImplementedError() # pragma: no cover def url_path_for(self, name: str, /, **path_params: typing.Any) -> URLPath: raise NotImplementedError() # pragma: no cover async def handle(self, scope: Scope, receive: Receive, send: Send) -> None: raise NotImplementedError() # pragma: no cover async def __call__(self, scope: Scope, receive: Receive, send: Send) -> None: """ A route may be used in isolation as a stand-alone ASGI app. This is a somewhat contrived case, as they'll almost always be used within a Router, but could be useful for some tooling and minimal apps. """ match, child_scope = self.matches(scope) if match == Match.NONE: if scope["type"] == "http": response = PlainTextResponse("Not Found", status_code=404) await response(scope, receive, send) elif scope["type"] == "websocket": websocket_close = WebSocketClose() await websocket_close(scope, receive, send) return scope.update(child_scope) await self.handle(scope, receive, send) class Route(BaseRoute): def __init__( self, path: str, endpoint: typing.Callable[..., typing.Any], *, methods: list[str] | None = None, name: str | None = None, include_in_schema: bool = True, middleware: typing.Sequence[Middleware] | None = None, ) -> None: assert path.startswith("/"), "Routed paths must start with '/'" self.path = path self.endpoint = endpoint self.name = get_name(endpoint) if name is None else name self.include_in_schema = include_in_schema endpoint_handler = endpoint while isinstance(endpoint_handler, functools.partial): endpoint_handler = endpoint_handler.func if inspect.isfunction(endpoint_handler) or inspect.ismethod(endpoint_handler): # Endpoint is function or method. Treat it as `func(request) -> response`. self.app = request_response(endpoint) if methods is None: methods = ["GET"] else: # Endpoint is a class. Treat it as ASGI. self.app = endpoint if middleware is not None: for cls, args, kwargs in reversed(middleware): self.app = cls(app=self.app, *args, **kwargs) if methods is None: self.methods = None else: self.methods = {method.upper() for method in methods} if "GET" in self.methods: self.methods.add("HEAD") self.path_regex, self.path_format, self.param_convertors = compile_path(path) def matches(self, scope: Scope) -> tuple[Match, Scope]: path_params: dict[str, typing.Any] if scope["type"] == "http": route_path = get_route_path(scope) match = self.path_regex.match(route_path) if match: matched_params = match.groupdict() for key, value in matched_params.items(): matched_params[key] = self.param_convertors[key].convert(value) path_params = dict(scope.get("path_params", {})) path_params.update(matched_params) child_scope = {"endpoint": self.endpoint, "path_params": path_params} if self.methods and scope["method"] not in self.methods: return Match.PARTIAL, child_scope else: return Match.FULL, child_scope return Match.NONE, {} def url_path_for(self, name: str, /, **path_params: typing.Any) -> URLPath: seen_params = set(path_params.keys()) expected_params = set(self.param_convertors.keys()) if name != self.name or seen_params != expected_params: raise NoMatchFound(name, path_params) path, remaining_params = replace_params( self.path_format, self.param_convertors, path_params ) assert not remaining_params return URLPath(path=path, protocol="http") async def handle(self, scope: Scope, receive: Receive, send: Send) -> None: if self.methods and scope["method"] not in self.methods: headers = {"Allow": ", ".join(self.methods)} if "app" in scope: raise HTTPException(status_code=405, headers=headers) else: response = PlainTextResponse( "Method Not Allowed", status_code=405, headers=headers ) await response(scope, receive, send) else: await self.app(scope, receive, send) def __eq__(self, other: typing.Any) -> bool: return ( isinstance(other, Route) and self.path == other.path and self.endpoint == other.endpoint and self.methods == other.methods ) def __repr__(self) -> str: class_name = self.__class__.__name__ methods = sorted(self.methods or []) path, name = self.path, self.name return f"{class_name}(path={path!r}, name={name!r}, methods={methods!r})" class WebSocketRoute(BaseRoute): def __init__( self, path: str, endpoint: typing.Callable[..., typing.Any], *, name: str | None = None, middleware: typing.Sequence[Middleware] | None = None, ) -> None: assert path.startswith("/"), "Routed paths must start with '/'" self.path = path self.endpoint = endpoint self.name = get_name(endpoint) if name is None else name endpoint_handler = endpoint while isinstance(endpoint_handler, functools.partial): endpoint_handler = endpoint_handler.func if inspect.isfunction(endpoint_handler) or inspect.ismethod(endpoint_handler): # Endpoint is function or method. Treat it as `func(websocket)`. self.app = websocket_session(endpoint) else: # Endpoint is a class. Treat it as ASGI. self.app = endpoint if middleware is not None: for cls, args, kwargs in reversed(middleware): self.app = cls(app=self.app, *args, **kwargs) self.path_regex, self.path_format, self.param_convertors = compile_path(path) def matches(self, scope: Scope) -> tuple[Match, Scope]: path_params: dict[str, typing.Any] if scope["type"] == "websocket": route_path = get_route_path(scope) match = self.path_regex.match(route_path) if match: matched_params = match.groupdict() for key, value in matched_params.items(): matched_params[key] = self.param_convertors[key].convert(value) path_params = dict(scope.get("path_params", {})) path_params.update(matched_params) child_scope = {"endpoint": self.endpoint, "path_params": path_params} return Match.FULL, child_scope return Match.NONE, {} def url_path_for(self, name: str, /, **path_params: typing.Any) -> URLPath: seen_params = set(path_params.keys()) expected_params = set(self.param_convertors.keys()) if name != self.name or seen_params != expected_params: raise NoMatchFound(name, path_params) path, remaining_params = replace_params( self.path_format, self.param_convertors, path_params ) assert not remaining_params return URLPath(path=path, protocol="websocket") async def handle(self, scope: Scope, receive: Receive, send: Send) -> None: await self.app(scope, receive, send) def __eq__(self, other: typing.Any) -> bool: return ( isinstance(other, WebSocketRoute) and self.path == other.path and self.endpoint == other.endpoint ) def __repr__(self) -> str: return f"{self.__class__.__name__}(path={self.path!r}, name={self.name!r})" class Mount(BaseRoute): def __init__( self, path: str, app: ASGIApp | None = None, routes: typing.Sequence[BaseRoute] | None = None, name: str | None = None, *, middleware: typing.Sequence[Middleware] | None = None, ) -> None: assert path == "" or path.startswith("/"), "Routed paths must start with '/'" assert ( app is not None or routes is not None ), "Either 'app=...', or 'routes=' must be specified" self.path = path.rstrip("/") if app is not None: self._base_app: ASGIApp = app else: self._base_app = Router(routes=routes) self.app = self._base_app if middleware is not None: for cls, args, kwargs in reversed(middleware): self.app = cls(app=self.app, *args, **kwargs) self.name = name self.path_regex, self.path_format, self.param_convertors = compile_path( self.path + "/{path:path}" ) @property def routes(self) -> list[BaseRoute]: return getattr(self._base_app, "routes", []) def matches(self, scope: Scope) -> tuple[Match, Scope]: path_params: dict[str, typing.Any] if scope["type"] in ("http", "websocket"): root_path = scope.get("root_path", "") route_path = get_route_path(scope) match = self.path_regex.match(route_path) if match: matched_params = match.groupdict() for key, value in matched_params.items(): matched_params[key] = self.param_convertors[key].convert(value) remaining_path = "/" + matched_params.pop("path") matched_path = route_path[: -len(remaining_path)] path_params = dict(scope.get("path_params", {})) path_params.update(matched_params) child_scope = { "path_params": path_params, # app_root_path will only be set at the top level scope, # initialized with the (optional) value of a root_path # set above/before Starlette. And even though any # mount will have its own child scope with its own respective # root_path, the app_root_path will always be available in all # the child scopes with the same top level value because it's # set only once here with a default, any other child scope will # just inherit that app_root_path default value stored in the # scope. All this is needed to support Request.url_for(), as it # uses the app_root_path to build the URL path. "app_root_path": scope.get("app_root_path", root_path), "root_path": root_path + matched_path, "endpoint": self.app, } return Match.FULL, child_scope return Match.NONE, {} def url_path_for(self, name: str, /, **path_params: typing.Any) -> URLPath: if self.name is not None and name == self.name and "path" in path_params: # 'name' matches "". path_params["path"] = path_params["path"].lstrip("/") path, remaining_params = replace_params( self.path_format, self.param_convertors, path_params ) if not remaining_params: return URLPath(path=path) elif self.name is None or name.startswith(self.name + ":"): if self.name is None: # No mount name. remaining_name = name else: # 'name' matches ":". remaining_name = name[len(self.name) + 1 :] path_kwarg = path_params.get("path") path_params["path"] = "" path_prefix, remaining_params = replace_params( self.path_format, self.param_convertors, path_params ) if path_kwarg is not None: remaining_params["path"] = path_kwarg for route in self.routes or []: try: url = route.url_path_for(remaining_name, **remaining_params) return URLPath( path=path_prefix.rstrip("/") + str(url), protocol=url.protocol ) except NoMatchFound: pass raise NoMatchFound(name, path_params) async def handle(self, scope: Scope, receive: Receive, send: Send) -> None: await self.app(scope, receive, send) def __eq__(self, other: typing.Any) -> bool: return ( isinstance(other, Mount) and self.path == other.path and self.app == other.app ) def __repr__(self) -> str: class_name = self.__class__.__name__ name = self.name or "" return f"{class_name}(path={self.path!r}, name={name!r}, app={self.app!r})" class Host(BaseRoute): def __init__(self, host: str, app: ASGIApp, name: str | None = None) -> None: assert not host.startswith("/"), "Host must not start with '/'" self.host = host self.app = app self.name = name self.host_regex, self.host_format, self.param_convertors = compile_path(host) @property def routes(self) -> list[BaseRoute]: return getattr(self.app, "routes", []) def matches(self, scope: Scope) -> tuple[Match, Scope]: if scope["type"] in ("http", "websocket"): headers = Headers(scope=scope) host = headers.get("host", "").split(":")[0] match = self.host_regex.match(host) if match: matched_params = match.groupdict() for key, value in matched_params.items(): matched_params[key] = self.param_convertors[key].convert(value) path_params = dict(scope.get("path_params", {})) path_params.update(matched_params) child_scope = {"path_params": path_params, "endpoint": self.app} return Match.FULL, child_scope return Match.NONE, {} def url_path_for(self, name: str, /, **path_params: typing.Any) -> URLPath: if self.name is not None and name == self.name and "path" in path_params: # 'name' matches "". path = path_params.pop("path") host, remaining_params = replace_params( self.host_format, self.param_convertors, path_params ) if not remaining_params: return URLPath(path=path, host=host) elif self.name is None or name.startswith(self.name + ":"): if self.name is None: # No mount name. remaining_name = name else: # 'name' matches ":". remaining_name = name[len(self.name) + 1 :] host, remaining_params = replace_params( self.host_format, self.param_convertors, path_params ) for route in self.routes or []: try: url = route.url_path_for(remaining_name, **remaining_params) return URLPath(path=str(url), protocol=url.protocol, host=host) except NoMatchFound: pass raise NoMatchFound(name, path_params) async def handle(self, scope: Scope, receive: Receive, send: Send) -> None: await self.app(scope, receive, send) def __eq__(self, other: typing.Any) -> bool: return ( isinstance(other, Host) and self.host == other.host and self.app == other.app ) def __repr__(self) -> str: class_name = self.__class__.__name__ name = self.name or "" return f"{class_name}(host={self.host!r}, name={name!r}, app={self.app!r})" _T = typing.TypeVar("_T") class _AsyncLiftContextManager(typing.AsyncContextManager[_T]): def __init__(self, cm: typing.ContextManager[_T]): self._cm = cm async def __aenter__(self) -> _T: return self._cm.__enter__() async def __aexit__( self, exc_type: type[BaseException] | None, exc_value: BaseException | None, traceback: types.TracebackType | None, ) -> bool | None: return self._cm.__exit__(exc_type, exc_value, traceback) def _wrap_gen_lifespan_context( lifespan_context: typing.Callable[ [typing.Any], typing.Generator[typing.Any, typing.Any, typing.Any] ], ) -> typing.Callable[[typing.Any], typing.AsyncContextManager[typing.Any]]: cmgr = contextlib.contextmanager(lifespan_context) @functools.wraps(cmgr) def wrapper(app: typing.Any) -> _AsyncLiftContextManager[typing.Any]: return _AsyncLiftContextManager(cmgr(app)) return wrapper class _DefaultLifespan: def __init__(self, router: Router): self._router = router async def __aenter__(self) -> None: await self._router.startup() async def __aexit__(self, *exc_info: object) -> None: await self._router.shutdown() def __call__(self: _T, app: object) -> _T: return self class Router: def __init__( self, routes: typing.Sequence[BaseRoute] | None = None, redirect_slashes: bool = True, default: ASGIApp | None = None, on_startup: typing.Sequence[typing.Callable[[], typing.Any]] | None = None, on_shutdown: typing.Sequence[typing.Callable[[], typing.Any]] | None = None, # the generic to Lifespan[AppType] is the type of the top level application # which the router cannot know statically, so we use typing.Any lifespan: Lifespan[typing.Any] | None = None, *, middleware: typing.Sequence[Middleware] | None = None, ) -> None: self.routes = [] if routes is None else list(routes) self.redirect_slashes = redirect_slashes self.default = self.not_found if default is None else default self.on_startup = [] if on_startup is None else list(on_startup) self.on_shutdown = [] if on_shutdown is None else list(on_shutdown) if on_startup or on_shutdown: warnings.warn( "The on_startup and on_shutdown parameters are deprecated, and they " "will be removed on version 1.0. Use the lifespan parameter instead. " "See more about it on https://www.starlette.io/lifespan/.", DeprecationWarning, ) if lifespan: warnings.warn( "The `lifespan` parameter cannot be used with `on_startup` or " "`on_shutdown`. Both `on_startup` and `on_shutdown` will be " "ignored." ) if lifespan is None: self.lifespan_context: Lifespan[typing.Any] = _DefaultLifespan(self) elif inspect.isasyncgenfunction(lifespan): warnings.warn( "async generator function lifespans are deprecated, " "use an @contextlib.asynccontextmanager function instead", DeprecationWarning, ) self.lifespan_context = asynccontextmanager( lifespan, ) elif inspect.isgeneratorfunction(lifespan): warnings.warn( "generator function lifespans are deprecated, " "use an @contextlib.asynccontextmanager function instead", DeprecationWarning, ) self.lifespan_context = _wrap_gen_lifespan_context( lifespan, ) else: self.lifespan_context = lifespan self.middleware_stack = self.app if middleware: for cls, args, kwargs in reversed(middleware): self.middleware_stack = cls(self.middleware_stack, *args, **kwargs) async def not_found(self, scope: Scope, receive: Receive, send: Send) -> None: if scope["type"] == "websocket": websocket_close = WebSocketClose() await websocket_close(scope, receive, send) return # If we're running inside a starlette application then raise an # exception, so that the configurable exception handler can deal with # returning the response. For plain ASGI apps, just return the response. if "app" in scope: raise HTTPException(status_code=404) else: response = PlainTextResponse("Not Found", status_code=404) await response(scope, receive, send) def url_path_for(self, name: str, /, **path_params: typing.Any) -> URLPath: for route in self.routes: try: return route.url_path_for(name, **path_params) except NoMatchFound: pass raise NoMatchFound(name, path_params) async def startup(self) -> None: """ Run any `.on_startup` event handlers. """ for handler in self.on_startup: if is_async_callable(handler): await handler() else: handler() async def shutdown(self) -> None: """ Run any `.on_shutdown` event handlers. """ for handler in self.on_shutdown: if is_async_callable(handler): await handler() else: handler() async def lifespan(self, scope: Scope, receive: Receive, send: Send) -> None: """ Handle ASGI lifespan messages, which allows us to manage application startup and shutdown events. """ started = False app: typing.Any = scope.get("app") await receive() try: async with self.lifespan_context(app) as maybe_state: if maybe_state is not None: if "state" not in scope: raise RuntimeError( 'The server does not support "state" in the lifespan scope.' ) scope["state"].update(maybe_state) await send({"type": "lifespan.startup.complete"}) started = True await receive() except BaseException: exc_text = traceback.format_exc() if started: await send({"type": "lifespan.shutdown.failed", "message": exc_text}) else: await send({"type": "lifespan.startup.failed", "message": exc_text}) raise else: await send({"type": "lifespan.shutdown.complete"}) async def __call__(self, scope: Scope, receive: Receive, send: Send) -> None: """ The main entry point to the Router class. """ await self.middleware_stack(scope, receive, send) async def app(self, scope: Scope, receive: Receive, send: Send) -> None: assert scope["type"] in ("http", "websocket", "lifespan") if "router" not in scope: scope["router"] = self if scope["type"] == "lifespan": await self.lifespan(scope, receive, send) return partial = None for route in self.routes: # Determine if any route matches the incoming scope, # and hand over to the matching route if found. match, child_scope = route.matches(scope) if match == Match.FULL: scope.update(child_scope) await route.handle(scope, receive, send) return elif match == Match.PARTIAL and partial is None: partial = route partial_scope = child_scope if partial is not None: #  Handle partial matches. These are cases where an endpoint is # able to handle the request, but is not a preferred option. # We use this in particular to deal with "405 Method Not Allowed". scope.update(partial_scope) await partial.handle(scope, receive, send) return route_path = get_route_path(scope) if scope["type"] == "http" and self.redirect_slashes and route_path != "/": redirect_scope = dict(scope) if route_path.endswith("/"): redirect_scope["path"] = redirect_scope["path"].rstrip("/") else: redirect_scope["path"] = redirect_scope["path"] + "/" for route in self.routes: match, child_scope = route.matches(redirect_scope) if match != Match.NONE: redirect_url = URL(scope=redirect_scope) response = RedirectResponse(url=str(redirect_url)) await response(scope, receive, send) return await self.default(scope, receive, send) def __eq__(self, other: typing.Any) -> bool: return isinstance(other, Router) and self.routes == other.routes def mount( self, path: str, app: ASGIApp, name: str | None = None ) -> None: # pragma: nocover route = Mount(path, app=app, name=name) self.routes.append(route) def host( self, host: str, app: ASGIApp, name: str | None = None ) -> None: # pragma: no cover route = Host(host, app=app, name=name) self.routes.append(route) def add_route( self, path: str, endpoint: typing.Callable[[Request], typing.Awaitable[Response] | Response], methods: list[str] | None = None, name: str | None = None, include_in_schema: bool = True, ) -> None: # pragma: nocover route = Route( path, endpoint=endpoint, methods=methods, name=name, include_in_schema=include_in_schema, ) self.routes.append(route) def add_websocket_route( self, path: str, endpoint: typing.Callable[[WebSocket], typing.Awaitable[None]], name: str | None = None, ) -> None: # pragma: no cover route = WebSocketRoute(path, endpoint=endpoint, name=name) self.routes.append(route) def route( self, path: str, methods: list[str] | None = None, name: str | None = None, include_in_schema: bool = True, ) -> typing.Callable: # type: ignore[type-arg] """ We no longer document this decorator style API, and its usage is discouraged. Instead you should use the following approach: >>> routes = [Route(path, endpoint=...), ...] >>> app = Starlette(routes=routes) """ warnings.warn( "The `route` decorator is deprecated, and will be removed in version 1.0.0." "Refer to https://www.starlette.io/routing/#http-routing for the recommended approach.", # noqa: E501 DeprecationWarning, ) def decorator(func: typing.Callable) -> typing.Callable: # type: ignore[type-arg] # noqa: E501 self.add_route( path, func, methods=methods, name=name, include_in_schema=include_in_schema, ) return func return decorator def websocket_route(self, path: str, name: str | None = None) -> typing.Callable: # type: ignore[type-arg] """ We no longer document this decorator style API, and its usage is discouraged. Instead you should use the following approach: >>> routes = [WebSocketRoute(path, endpoint=...), ...] >>> app = Starlette(routes=routes) """ warnings.warn( "The `websocket_route` decorator is deprecated, and will be removed in version 1.0.0. Refer to " # noqa: E501 "https://www.starlette.io/routing/#websocket-routing for the recommended approach.", # noqa: E501 DeprecationWarning, ) def decorator(func: typing.Callable) -> typing.Callable: # type: ignore[type-arg] # noqa: E501 self.add_websocket_route(path, func, name=name) return func return decorator def add_event_handler( self, event_type: str, func: typing.Callable[[], typing.Any] ) -> None: # pragma: no cover assert event_type in ("startup", "shutdown") if event_type == "startup": self.on_startup.append(func) else: self.on_shutdown.append(func) def on_event(self, event_type: str) -> typing.Callable: # type: ignore[type-arg] warnings.warn( "The `on_event` decorator is deprecated, and will be removed in version 1.0.0. " # noqa: E501 "Refer to https://www.starlette.io/lifespan/ for recommended approach.", DeprecationWarning, ) def decorator(func: typing.Callable) -> typing.Callable: # type: ignore[type-arg] # noqa: E501 self.add_event_handler(event_type, func) return func return decorator