from __future__ import annotations import asyncio import email.utils import functools import http import inspect import logging import socket import warnings from types import TracebackType from typing import ( Any, Awaitable, Callable, Generator, Iterable, List, Optional, Sequence, Set, Tuple, Type, Union, cast, ) from ..datastructures import Headers, HeadersLike, MultipleValuesError from ..exceptions import ( AbortHandshake, InvalidHandshake, InvalidHeader, InvalidMessage, InvalidOrigin, InvalidUpgrade, NegotiationError, ) from ..extensions import Extension, ServerExtensionFactory from ..extensions.permessage_deflate import enable_server_permessage_deflate from ..headers import ( build_extension, parse_extension, parse_subprotocol, validate_subprotocols, ) from ..http import USER_AGENT from ..protocol import State from ..typing import ExtensionHeader, LoggerLike, Origin, StatusLike, Subprotocol from .compatibility import asyncio_timeout from .handshake import build_response, check_request from .http import read_request from .protocol import WebSocketCommonProtocol __all__ = ["serve", "unix_serve", "WebSocketServerProtocol", "WebSocketServer"] HeadersLikeOrCallable = Union[HeadersLike, Callable[[str, Headers], HeadersLike]] HTTPResponse = Tuple[StatusLike, HeadersLike, bytes] class WebSocketServerProtocol(WebSocketCommonProtocol): """ WebSocket server connection. :class:`WebSocketServerProtocol` provides :meth:`recv` and :meth:`send` coroutines for receiving and sending messages. It supports asynchronous iteration to receive messages:: async for message in websocket: await process(message) The iterator exits normally when the connection is closed with close code 1000 (OK) or 1001 (going away) or without a close code. It raises a :exc:`~websockets.exceptions.ConnectionClosedError` when the connection is closed with any other code. You may customize the opening handshake in a subclass by overriding :meth:`process_request` or :meth:`select_subprotocol`. Args: ws_server: WebSocket server that created this connection. See :func:`serve` for the documentation of ``ws_handler``, ``logger``, ``origins``, ``extensions``, ``subprotocols``, ``extra_headers``, and ``server_header``. See :class:`~websockets.legacy.protocol.WebSocketCommonProtocol` for the documentation of ``ping_interval``, ``ping_timeout``, ``close_timeout``, ``max_size``, ``max_queue``, ``read_limit``, and ``write_limit``. """ is_client = False side = "server" def __init__( self, ws_handler: Union[ Callable[[WebSocketServerProtocol], Awaitable[Any]], Callable[[WebSocketServerProtocol, str], Awaitable[Any]], # deprecated ], ws_server: WebSocketServer, *, logger: Optional[LoggerLike] = None, origins: Optional[Sequence[Optional[Origin]]] = None, extensions: Optional[Sequence[ServerExtensionFactory]] = None, subprotocols: Optional[Sequence[Subprotocol]] = None, extra_headers: Optional[HeadersLikeOrCallable] = None, server_header: Optional[str] = USER_AGENT, process_request: Optional[ Callable[[str, Headers], Awaitable[Optional[HTTPResponse]]] ] = None, select_subprotocol: Optional[ Callable[[Sequence[Subprotocol], Sequence[Subprotocol]], Subprotocol] ] = None, open_timeout: Optional[float] = 10, **kwargs: Any, ) -> None: if logger is None: logger = logging.getLogger("websockets.server") super().__init__(logger=logger, **kwargs) # For backwards compatibility with 6.0 or earlier. if origins is not None and "" in origins: warnings.warn("use None instead of '' in origins", DeprecationWarning) origins = [None if origin == "" else origin for origin in origins] # For backwards compatibility with 10.0 or earlier. Done here in # addition to serve to trigger the deprecation warning on direct # use of WebSocketServerProtocol. self.ws_handler = remove_path_argument(ws_handler) self.ws_server = ws_server self.origins = origins self.available_extensions = extensions self.available_subprotocols = subprotocols self.extra_headers = extra_headers self.server_header = server_header self._process_request = process_request self._select_subprotocol = select_subprotocol self.open_timeout = open_timeout def connection_made(self, transport: asyncio.BaseTransport) -> None: """ Register connection and initialize a task to handle it. """ super().connection_made(transport) # Register the connection with the server before creating the handler # task. Registering at the beginning of the handler coroutine would # create a race condition between the creation of the task, which # schedules its execution, and the moment the handler starts running. self.ws_server.register(self) self.handler_task = self.loop.create_task(self.handler()) async def handler(self) -> None: """ Handle the lifecycle of a WebSocket connection. Since this method doesn't have a caller able to handle exceptions, it attempts to log relevant ones and guarantees that the TCP connection is closed before exiting. """ try: try: async with asyncio_timeout(self.open_timeout): await self.handshake( origins=self.origins, available_extensions=self.available_extensions, available_subprotocols=self.available_subprotocols, extra_headers=self.extra_headers, ) except asyncio.TimeoutError: # pragma: no cover raise except ConnectionError: raise except Exception as exc: if isinstance(exc, AbortHandshake): status, headers, body = exc.status, exc.headers, exc.body elif isinstance(exc, InvalidOrigin): if self.debug: self.logger.debug("! invalid origin", exc_info=True) status, headers, body = ( http.HTTPStatus.FORBIDDEN, Headers(), f"Failed to open a WebSocket connection: {exc}.\n".encode(), ) elif isinstance(exc, InvalidUpgrade): if self.debug: self.logger.debug("! invalid upgrade", exc_info=True) status, headers, body = ( http.HTTPStatus.UPGRADE_REQUIRED, Headers([("Upgrade", "websocket")]), ( f"Failed to open a WebSocket connection: {exc}.\n" f"\n" f"You cannot access a WebSocket server directly " f"with a browser. You need a WebSocket client.\n" ).encode(), ) elif isinstance(exc, InvalidHandshake): if self.debug: self.logger.debug("! invalid handshake", exc_info=True) status, headers, body = ( http.HTTPStatus.BAD_REQUEST, Headers(), f"Failed to open a WebSocket connection: {exc}.\n".encode(), ) else: self.logger.error("opening handshake failed", exc_info=True) status, headers, body = ( http.HTTPStatus.INTERNAL_SERVER_ERROR, Headers(), ( b"Failed to open a WebSocket connection.\n" b"See server log for more information.\n" ), ) headers.setdefault("Date", email.utils.formatdate(usegmt=True)) if self.server_header is not None: headers.setdefault("Server", self.server_header) headers.setdefault("Content-Length", str(len(body))) headers.setdefault("Content-Type", "text/plain") headers.setdefault("Connection", "close") self.write_http_response(status, headers, body) self.logger.info( "connection rejected (%d %s)", status.value, status.phrase ) await self.close_transport() return try: await self.ws_handler(self) except Exception: self.logger.error("connection handler failed", exc_info=True) if not self.closed: self.fail_connection(1011) raise try: await self.close() except ConnectionError: raise except Exception: self.logger.error("closing handshake failed", exc_info=True) raise except Exception: # Last-ditch attempt to avoid leaking connections on errors. try: self.transport.close() except Exception: # pragma: no cover pass finally: # Unregister the connection with the server when the handler task # terminates. Registration is tied to the lifecycle of the handler # task because the server waits for tasks attached to registered # connections before terminating. self.ws_server.unregister(self) self.logger.info("connection closed") async def read_http_request(self) -> Tuple[str, Headers]: """ Read request line and headers from the HTTP request. If the request contains a body, it may be read from ``self.reader`` after this coroutine returns. Raises: InvalidMessage: if the HTTP message is malformed or isn't an HTTP/1.1 GET request. """ try: path, headers = await read_request(self.reader) except asyncio.CancelledError: # pragma: no cover raise except Exception as exc: raise InvalidMessage("did not receive a valid HTTP request") from exc if self.debug: self.logger.debug("< GET %s HTTP/1.1", path) for key, value in headers.raw_items(): self.logger.debug("< %s: %s", key, value) self.path = path self.request_headers = headers return path, headers def write_http_response( self, status: http.HTTPStatus, headers: Headers, body: Optional[bytes] = None ) -> None: """ Write status line and headers to the HTTP response. This coroutine is also able to write a response body. """ self.response_headers = headers if self.debug: self.logger.debug("> HTTP/1.1 %d %s", status.value, status.phrase) for key, value in headers.raw_items(): self.logger.debug("> %s: %s", key, value) if body is not None: self.logger.debug("> [body] (%d bytes)", len(body)) # Since the status line and headers only contain ASCII characters, # we can keep this simple. response = f"HTTP/1.1 {status.value} {status.phrase}\r\n" response += str(headers) self.transport.write(response.encode()) if body is not None: self.transport.write(body) async def process_request( self, path: str, request_headers: Headers ) -> Optional[HTTPResponse]: """ Intercept the HTTP request and return an HTTP response if appropriate. You may override this method in a :class:`WebSocketServerProtocol` subclass, for example: * to return an HTTP 200 OK response on a given path; then a load balancer can use this path for a health check; * to authenticate the request and return an HTTP 401 Unauthorized or an HTTP 403 Forbidden when authentication fails. You may also override this method with the ``process_request`` argument of :func:`serve` and :class:`WebSocketServerProtocol`. This is equivalent, except ``process_request`` won't have access to the protocol instance, so it can't store information for later use. :meth:`process_request` is expected to complete quickly. If it may run for a long time, then it should await :meth:`wait_closed` and exit if :meth:`wait_closed` completes, or else it could prevent the server from shutting down. Args: path: request path, including optional query string. request_headers: request headers. Returns: Optional[Tuple[StatusLike, HeadersLike, bytes]]: :obj:`None` to continue the WebSocket handshake normally. An HTTP response, represented by a 3-uple of the response status, headers, and body, to abort the WebSocket handshake and return that HTTP response instead. """ if self._process_request is not None: response = self._process_request(path, request_headers) if isinstance(response, Awaitable): return await response else: # For backwards compatibility with 7.0. warnings.warn( "declare process_request as a coroutine", DeprecationWarning ) return response return None @staticmethod def process_origin( headers: Headers, origins: Optional[Sequence[Optional[Origin]]] = None ) -> Optional[Origin]: """ Handle the Origin HTTP request header. Args: headers: request headers. origins: optional list of acceptable origins. Raises: InvalidOrigin: if the origin isn't acceptable. """ # "The user agent MUST NOT include more than one Origin header field" # per https://www.rfc-editor.org/rfc/rfc6454.html#section-7.3. try: origin = cast(Optional[Origin], headers.get("Origin")) except MultipleValuesError as exc: raise InvalidHeader("Origin", "more than one Origin header found") from exc if origins is not None: if origin not in origins: raise InvalidOrigin(origin) return origin @staticmethod def process_extensions( headers: Headers, available_extensions: Optional[Sequence[ServerExtensionFactory]], ) -> Tuple[Optional[str], List[Extension]]: """ Handle the Sec-WebSocket-Extensions HTTP request header. Accept or reject each extension proposed in the client request. Negotiate parameters for accepted extensions. Return the Sec-WebSocket-Extensions HTTP response header and the list of accepted extensions. :rfc:`6455` leaves the rules up to the specification of each :extension. To provide this level of flexibility, for each extension proposed by the client, we check for a match with each extension available in the server configuration. If no match is found, the extension is ignored. If several variants of the same extension are proposed by the client, it may be accepted several times, which won't make sense in general. Extensions must implement their own requirements. For this purpose, the list of previously accepted extensions is provided. This process doesn't allow the server to reorder extensions. It can only select a subset of the extensions proposed by the client. Other requirements, for example related to mandatory extensions or the order of extensions, may be implemented by overriding this method. Args: headers: request headers. extensions: optional list of supported extensions. Raises: InvalidHandshake: to abort the handshake with an HTTP 400 error. """ response_header_value: Optional[str] = None extension_headers: List[ExtensionHeader] = [] accepted_extensions: List[Extension] = [] header_values = headers.get_all("Sec-WebSocket-Extensions") if header_values and available_extensions: parsed_header_values: List[ExtensionHeader] = sum( [parse_extension(header_value) for header_value in header_values], [] ) for name, request_params in parsed_header_values: for ext_factory in available_extensions: # Skip non-matching extensions based on their name. if ext_factory.name != name: continue # Skip non-matching extensions based on their params. try: response_params, extension = ext_factory.process_request_params( request_params, accepted_extensions ) except NegotiationError: continue # Add matching extension to the final list. extension_headers.append((name, response_params)) accepted_extensions.append(extension) # Break out of the loop once we have a match. break # If we didn't break from the loop, no extension in our list # matched what the client sent. The extension is declined. # Serialize extension header. if extension_headers: response_header_value = build_extension(extension_headers) return response_header_value, accepted_extensions # Not @staticmethod because it calls self.select_subprotocol() def process_subprotocol( self, headers: Headers, available_subprotocols: Optional[Sequence[Subprotocol]] ) -> Optional[Subprotocol]: """ Handle the Sec-WebSocket-Protocol HTTP request header. Return Sec-WebSocket-Protocol HTTP response header, which is the same as the selected subprotocol. Args: headers: request headers. available_subprotocols: optional list of supported subprotocols. Raises: InvalidHandshake: to abort the handshake with an HTTP 400 error. """ subprotocol: Optional[Subprotocol] = None header_values = headers.get_all("Sec-WebSocket-Protocol") if header_values and available_subprotocols: parsed_header_values: List[Subprotocol] = sum( [parse_subprotocol(header_value) for header_value in header_values], [] ) subprotocol = self.select_subprotocol( parsed_header_values, available_subprotocols ) return subprotocol def select_subprotocol( self, client_subprotocols: Sequence[Subprotocol], server_subprotocols: Sequence[Subprotocol], ) -> Optional[Subprotocol]: """ Pick a subprotocol among those supported by the client and the server. If several subprotocols are available, select the preferred subprotocol by giving equal weight to the preferences of the client and the server. If no subprotocol is available, proceed without a subprotocol. You may provide a ``select_subprotocol`` argument to :func:`serve` or :class:`WebSocketServerProtocol` to override this logic. For example, you could reject the handshake if the client doesn't support a particular subprotocol, rather than accept the handshake without that subprotocol. Args: client_subprotocols: list of subprotocols offered by the client. server_subprotocols: list of subprotocols available on the server. Returns: Optional[Subprotocol]: Selected subprotocol, if a common subprotocol was found. :obj:`None` to continue without a subprotocol. """ if self._select_subprotocol is not None: return self._select_subprotocol(client_subprotocols, server_subprotocols) subprotocols = set(client_subprotocols) & set(server_subprotocols) if not subprotocols: return None return sorted( subprotocols, key=lambda p: client_subprotocols.index(p) + server_subprotocols.index(p), )[0] async def handshake( self, origins: Optional[Sequence[Optional[Origin]]] = None, available_extensions: Optional[Sequence[ServerExtensionFactory]] = None, available_subprotocols: Optional[Sequence[Subprotocol]] = None, extra_headers: Optional[HeadersLikeOrCallable] = None, ) -> str: """ Perform the server side of the opening handshake. Args: origins: list of acceptable values of the Origin HTTP header; include :obj:`None` if the lack of an origin is acceptable. extensions: list of supported extensions, in order in which they should be tried. subprotocols: list of supported subprotocols, in order of decreasing preference. extra_headers: arbitrary HTTP headers to add to the response when the handshake succeeds. Returns: str: path of the URI of the request. Raises: InvalidHandshake: if the handshake fails. """ path, request_headers = await self.read_http_request() # Hook for customizing request handling, for example checking # authentication or treating some paths as plain HTTP endpoints. early_response_awaitable = self.process_request(path, request_headers) if isinstance(early_response_awaitable, Awaitable): early_response = await early_response_awaitable else: # For backwards compatibility with 7.0. warnings.warn("declare process_request as a coroutine", DeprecationWarning) early_response = early_response_awaitable # The connection may drop while process_request is running. if self.state is State.CLOSED: # This subclass of ConnectionError is silently ignored in handler(). raise BrokenPipeError("connection closed during opening handshake") # Change the response to a 503 error if the server is shutting down. if not self.ws_server.is_serving(): early_response = ( http.HTTPStatus.SERVICE_UNAVAILABLE, [], b"Server is shutting down.\n", ) if early_response is not None: raise AbortHandshake(*early_response) key = check_request(request_headers) self.origin = self.process_origin(request_headers, origins) extensions_header, self.extensions = self.process_extensions( request_headers, available_extensions ) protocol_header = self.subprotocol = self.process_subprotocol( request_headers, available_subprotocols ) response_headers = Headers() build_response(response_headers, key) if extensions_header is not None: response_headers["Sec-WebSocket-Extensions"] = extensions_header if protocol_header is not None: response_headers["Sec-WebSocket-Protocol"] = protocol_header if callable(extra_headers): extra_headers = extra_headers(path, self.request_headers) if extra_headers is not None: response_headers.update(extra_headers) response_headers.setdefault("Date", email.utils.formatdate(usegmt=True)) if self.server_header is not None: response_headers.setdefault("Server", self.server_header) self.write_http_response(http.HTTPStatus.SWITCHING_PROTOCOLS, response_headers) self.logger.info("connection open") self.connection_open() return path class WebSocketServer: """ WebSocket server returned by :func:`serve`. This class provides the same interface as :class:`~asyncio.Server`, notably the :meth:`~asyncio.Server.close` and :meth:`~asyncio.Server.wait_closed` methods. It keeps track of WebSocket connections in order to close them properly when shutting down. Args: logger: Logger for this server. It defaults to ``logging.getLogger("websockets.server")``. See the :doc:`logging guide <../../topics/logging>` for details. """ def __init__(self, logger: Optional[LoggerLike] = None): if logger is None: logger = logging.getLogger("websockets.server") self.logger = logger # Keep track of active connections. self.websockets: Set[WebSocketServerProtocol] = set() # Task responsible for closing the server and terminating connections. self.close_task: Optional[asyncio.Task[None]] = None # Completed when the server is closed and connections are terminated. self.closed_waiter: asyncio.Future[None] def wrap(self, server: asyncio.base_events.Server) -> None: """ Attach to a given :class:`~asyncio.Server`. Since :meth:`~asyncio.loop.create_server` doesn't support injecting a custom ``Server`` class, the easiest solution that doesn't rely on private :mod:`asyncio` APIs is to: - instantiate a :class:`WebSocketServer` - give the protocol factory a reference to that instance - call :meth:`~asyncio.loop.create_server` with the factory - attach the resulting :class:`~asyncio.Server` with this method """ self.server = server for sock in server.sockets: if sock.family == socket.AF_INET: name = "%s:%d" % sock.getsockname() elif sock.family == socket.AF_INET6: name = "[%s]:%d" % sock.getsockname()[:2] elif sock.family == socket.AF_UNIX: name = sock.getsockname() # In the unlikely event that someone runs websockets over a # protocol other than IP or Unix sockets, avoid crashing. else: # pragma: no cover name = str(sock.getsockname()) self.logger.info("server listening on %s", name) # Initialized here because we need a reference to the event loop. # This should be moved back to __init__ when dropping Python < 3.10. self.closed_waiter = server.get_loop().create_future() def register(self, protocol: WebSocketServerProtocol) -> None: """ Register a connection with this server. """ self.websockets.add(protocol) def unregister(self, protocol: WebSocketServerProtocol) -> None: """ Unregister a connection with this server. """ self.websockets.remove(protocol) def close(self, close_connections: bool = True) -> None: """ Close the server. * Close the underlying :class:`~asyncio.Server`. * When ``close_connections`` is :obj:`True`, which is the default, close existing connections. Specifically: * Reject opening WebSocket connections with an HTTP 503 (service unavailable) error. This happens when the server accepted the TCP connection but didn't complete the opening handshake before closing. * Close open WebSocket connections with close code 1001 (going away). * Wait until all connection handlers terminate. :meth:`close` is idempotent. """ if self.close_task is None: self.close_task = self.get_loop().create_task( self._close(close_connections) ) async def _close(self, close_connections: bool) -> None: """ Implementation of :meth:`close`. This calls :meth:`~asyncio.Server.close` on the underlying :class:`~asyncio.Server` object to stop accepting new connections and then closes open connections with close code 1001. """ self.logger.info("server closing") # Stop accepting new connections. self.server.close() # Wait until all accepted connections reach connection_made() and call # register(). See https://bugs.python.org/issue34852 for details. await asyncio.sleep(0) if close_connections: # Close OPEN connections with close code 1001. After server.close(), # handshake() closes OPENING connections with an HTTP 503 error. close_tasks = [ asyncio.create_task(websocket.close(1001)) for websocket in self.websockets if websocket.state is not State.CONNECTING ] # asyncio.wait doesn't accept an empty first argument. if close_tasks: await asyncio.wait(close_tasks) # Wait until all TCP connections are closed. await self.server.wait_closed() # Wait until all connection handlers terminate. # asyncio.wait doesn't accept an empty first argument. if self.websockets: await asyncio.wait( [websocket.handler_task for websocket in self.websockets] ) # Tell wait_closed() to return. self.closed_waiter.set_result(None) self.logger.info("server closed") async def wait_closed(self) -> None: """ Wait until the server is closed. When :meth:`wait_closed` returns, all TCP connections are closed and all connection handlers have returned. To ensure a fast shutdown, a connection handler should always be awaiting at least one of: * :meth:`~WebSocketServerProtocol.recv`: when the connection is closed, it raises :exc:`~websockets.exceptions.ConnectionClosedOK`; * :meth:`~WebSocketServerProtocol.wait_closed`: when the connection is closed, it returns. Then the connection handler is immediately notified of the shutdown; it can clean up and exit. """ await asyncio.shield(self.closed_waiter) def get_loop(self) -> asyncio.AbstractEventLoop: """ See :meth:`asyncio.Server.get_loop`. """ return self.server.get_loop() def is_serving(self) -> bool: """ See :meth:`asyncio.Server.is_serving`. """ return self.server.is_serving() async def start_serving(self) -> None: # pragma: no cover """ See :meth:`asyncio.Server.start_serving`. Typical use:: server = await serve(..., start_serving=False) # perform additional setup here... # ... then start the server await server.start_serving() """ await self.server.start_serving() async def serve_forever(self) -> None: # pragma: no cover """ See :meth:`asyncio.Server.serve_forever`. Typical use:: server = await serve(...) # this coroutine doesn't return # canceling it stops the server await server.serve_forever() This is an alternative to using :func:`serve` as an asynchronous context manager. Shutdown is triggered by canceling :meth:`serve_forever` instead of exiting a :func:`serve` context. """ await self.server.serve_forever() @property def sockets(self) -> Iterable[socket.socket]: """ See :attr:`asyncio.Server.sockets`. """ return self.server.sockets async def __aenter__(self) -> WebSocketServer: # pragma: no cover return self async def __aexit__( self, exc_type: Optional[Type[BaseException]], exc_value: Optional[BaseException], traceback: Optional[TracebackType], ) -> None: # pragma: no cover self.close() await self.wait_closed() class Serve: """ Start a WebSocket server listening on ``host`` and ``port``. Whenever a client connects, the server creates a :class:`WebSocketServerProtocol`, performs the opening handshake, and delegates to the connection handler, ``ws_handler``. The handler receives the :class:`WebSocketServerProtocol` and uses it to send and receive messages. Once the handler completes, either normally or with an exception, the server performs the closing handshake and closes the connection. Awaiting :func:`serve` yields a :class:`WebSocketServer`. This object provides a :meth:`~WebSocketServer.close` method to shut down the server:: stop = asyncio.Future() # set this future to exit the server server = await serve(...) await stop await server.close() :func:`serve` can be used as an asynchronous context manager. Then, the server is shut down automatically when exiting the context:: stop = asyncio.Future() # set this future to exit the server async with serve(...): await stop Args: ws_handler: Connection handler. It receives the WebSocket connection, which is a :class:`WebSocketServerProtocol`, in argument. host: Network interfaces the server binds to. See :meth:`~asyncio.loop.create_server` for details. port: TCP port the server listens on. See :meth:`~asyncio.loop.create_server` for details. create_protocol: Factory for the :class:`asyncio.Protocol` managing the connection. It defaults to :class:`WebSocketServerProtocol`. Set it to a wrapper or a subclass to customize connection handling. logger: Logger for this server. It defaults to ``logging.getLogger("websockets.server")``. See the :doc:`logging guide <../../topics/logging>` for details. compression: The "permessage-deflate" extension is enabled by default. Set ``compression`` to :obj:`None` to disable it. See the :doc:`compression guide <../../topics/compression>` for details. origins: Acceptable values of the ``Origin`` header, for defending against Cross-Site WebSocket Hijacking attacks. Include :obj:`None` in the list if the lack of an origin is acceptable. extensions: List of supported extensions, in order in which they should be negotiated and run. subprotocols: List of supported subprotocols, in order of decreasing preference. extra_headers (Union[HeadersLike, Callable[[str, Headers], HeadersLike]]): Arbitrary HTTP headers to add to the response. This can be a :data:`~websockets.datastructures.HeadersLike` or a callable taking the request path and headers in arguments and returning a :data:`~websockets.datastructures.HeadersLike`. server_header: Value of the ``Server`` response header. It defaults to ``"Python/x.y.z websockets/X.Y"``. Setting it to :obj:`None` removes the header. process_request (Optional[Callable[[str, Headers], \ Awaitable[Optional[Tuple[StatusLike, HeadersLike, bytes]]]]]): Intercept HTTP request before the opening handshake. See :meth:`~WebSocketServerProtocol.process_request` for details. select_subprotocol: Select a subprotocol supported by the client. See :meth:`~WebSocketServerProtocol.select_subprotocol` for details. open_timeout: Timeout for opening connections in seconds. :obj:`None` disables the timeout. See :class:`~websockets.legacy.protocol.WebSocketCommonProtocol` for the documentation of ``ping_interval``, ``ping_timeout``, ``close_timeout``, ``max_size``, ``max_queue``, ``read_limit``, and ``write_limit``. Any other keyword arguments are passed the event loop's :meth:`~asyncio.loop.create_server` method. For example: * You can set ``ssl`` to a :class:`~ssl.SSLContext` to enable TLS. * You can set ``sock`` to a :obj:`~socket.socket` that you created outside of websockets. Returns: WebSocketServer: WebSocket server. """ def __init__( self, ws_handler: Union[ Callable[[WebSocketServerProtocol], Awaitable[Any]], Callable[[WebSocketServerProtocol, str], Awaitable[Any]], # deprecated ], host: Optional[Union[str, Sequence[str]]] = None, port: Optional[int] = None, *, create_protocol: Optional[Callable[..., WebSocketServerProtocol]] = None, logger: Optional[LoggerLike] = None, compression: Optional[str] = "deflate", origins: Optional[Sequence[Optional[Origin]]] = None, extensions: Optional[Sequence[ServerExtensionFactory]] = None, subprotocols: Optional[Sequence[Subprotocol]] = None, extra_headers: Optional[HeadersLikeOrCallable] = None, server_header: Optional[str] = USER_AGENT, process_request: Optional[ Callable[[str, Headers], Awaitable[Optional[HTTPResponse]]] ] = None, select_subprotocol: Optional[ Callable[[Sequence[Subprotocol], Sequence[Subprotocol]], Subprotocol] ] = None, open_timeout: Optional[float] = 10, ping_interval: Optional[float] = 20, ping_timeout: Optional[float] = 20, close_timeout: Optional[float] = None, max_size: Optional[int] = 2**20, max_queue: Optional[int] = 2**5, read_limit: int = 2**16, write_limit: int = 2**16, **kwargs: Any, ) -> None: # Backwards compatibility: close_timeout used to be called timeout. timeout: Optional[float] = kwargs.pop("timeout", None) if timeout is None: timeout = 10 else: warnings.warn("rename timeout to close_timeout", DeprecationWarning) # If both are specified, timeout is ignored. if close_timeout is None: close_timeout = timeout # Backwards compatibility: create_protocol used to be called klass. klass: Optional[Type[WebSocketServerProtocol]] = kwargs.pop("klass", None) if klass is None: klass = WebSocketServerProtocol else: warnings.warn("rename klass to create_protocol", DeprecationWarning) # If both are specified, klass is ignored. if create_protocol is None: create_protocol = klass # Backwards compatibility: recv() used to return None on closed connections legacy_recv: bool = kwargs.pop("legacy_recv", False) # Backwards compatibility: the loop parameter used to be supported. _loop: Optional[asyncio.AbstractEventLoop] = kwargs.pop("loop", None) if _loop is None: loop = asyncio.get_event_loop() else: loop = _loop warnings.warn("remove loop argument", DeprecationWarning) ws_server = WebSocketServer(logger=logger) secure = kwargs.get("ssl") is not None if compression == "deflate": extensions = enable_server_permessage_deflate(extensions) elif compression is not None: raise ValueError(f"unsupported compression: {compression}") if subprotocols is not None: validate_subprotocols(subprotocols) factory = functools.partial( create_protocol, # For backwards compatibility with 10.0 or earlier. Done here in # addition to WebSocketServerProtocol to trigger the deprecation # warning once per serve() call rather than once per connection. remove_path_argument(ws_handler), ws_server, host=host, port=port, secure=secure, open_timeout=open_timeout, ping_interval=ping_interval, ping_timeout=ping_timeout, close_timeout=close_timeout, max_size=max_size, max_queue=max_queue, read_limit=read_limit, write_limit=write_limit, loop=_loop, legacy_recv=legacy_recv, origins=origins, extensions=extensions, subprotocols=subprotocols, extra_headers=extra_headers, server_header=server_header, process_request=process_request, select_subprotocol=select_subprotocol, logger=logger, ) if kwargs.pop("unix", False): path: Optional[str] = kwargs.pop("path", None) # unix_serve(path) must not specify host and port parameters. assert host is None and port is None create_server = functools.partial( loop.create_unix_server, factory, path, **kwargs ) else: create_server = functools.partial( loop.create_server, factory, host, port, **kwargs ) # This is a coroutine function. self._create_server = create_server self.ws_server = ws_server # async with serve(...) async def __aenter__(self) -> WebSocketServer: return await self async def __aexit__( self, exc_type: Optional[Type[BaseException]], exc_value: Optional[BaseException], traceback: Optional[TracebackType], ) -> None: self.ws_server.close() await self.ws_server.wait_closed() # await serve(...) def __await__(self) -> Generator[Any, None, WebSocketServer]: # Create a suitable iterator by calling __await__ on a coroutine. return self.__await_impl__().__await__() async def __await_impl__(self) -> WebSocketServer: server = await self._create_server() self.ws_server.wrap(server) return self.ws_server # yield from serve(...) - remove when dropping Python < 3.10 __iter__ = __await__ serve = Serve def unix_serve( ws_handler: Union[ Callable[[WebSocketServerProtocol], Awaitable[Any]], Callable[[WebSocketServerProtocol, str], Awaitable[Any]], # deprecated ], path: Optional[str] = None, **kwargs: Any, ) -> Serve: """ Start a WebSocket server listening on a Unix socket. This function is identical to :func:`serve`, except the ``host`` and ``port`` arguments are replaced by ``path``. It is only available on Unix. Unrecognized keyword arguments are passed the event loop's :meth:`~asyncio.loop.create_unix_server` method. It's useful for deploying a server behind a reverse proxy such as nginx. Args: path: File system path to the Unix socket. """ return serve(ws_handler, path=path, unix=True, **kwargs) def remove_path_argument( ws_handler: Union[ Callable[[WebSocketServerProtocol], Awaitable[Any]], Callable[[WebSocketServerProtocol, str], Awaitable[Any]], ] ) -> Callable[[WebSocketServerProtocol], Awaitable[Any]]: try: inspect.signature(ws_handler).bind(None) except TypeError: try: inspect.signature(ws_handler).bind(None, "") except TypeError: # pragma: no cover # ws_handler accepts neither one nor two arguments; leave it alone. pass else: # ws_handler accepts two arguments; activate backwards compatibility. # Enable deprecation warning and announce deprecation in 11.0. # warnings.warn("remove second argument of ws_handler", DeprecationWarning) async def _ws_handler(websocket: WebSocketServerProtocol) -> Any: return await cast( Callable[[WebSocketServerProtocol, str], Awaitable[Any]], ws_handler, )(websocket, websocket.path) return _ws_handler return cast( Callable[[WebSocketServerProtocol], Awaitable[Any]], ws_handler, )