from __future__ import annotations import base64 import binascii import email.utils import http from typing import Generator, List, Optional, Sequence, Tuple, cast from .connection import CONNECTING, OPEN, SERVER, Connection, State from .datastructures import Headers, MultipleValuesError from .exceptions import ( InvalidHandshake, InvalidHeader, InvalidHeaderValue, InvalidOrigin, InvalidStatus, InvalidUpgrade, NegotiationError, ) from .extensions import Extension, ServerExtensionFactory from .headers import ( build_extension, parse_connection, parse_extension, parse_subprotocol, parse_upgrade, ) from .http import USER_AGENT from .http11 import Request, Response from .typing import ( ConnectionOption, ExtensionHeader, LoggerLike, Origin, Subprotocol, UpgradeProtocol, ) from .utils import accept_key # See #940 for why lazy_import isn't used here for backwards compatibility. from .legacy.server import * # isort:skip # noqa __all__ = ["ServerConnection"] class ServerConnection(Connection): """ Sans-I/O implementation of a WebSocket server connection. Args: origins: acceptable values of the ``Origin`` header; include :obj:`None` in the list if the lack of an origin is acceptable. This is useful for defending against Cross-Site WebSocket Hijacking attacks. extensions: list of supported extensions, in order in which they should be tried. subprotocols: list of supported subprotocols, in order of decreasing preference. state: initial state of the WebSocket connection. max_size: maximum size of incoming messages in bytes; :obj:`None` to disable the limit. logger: logger for this connection; defaults to ``logging.getLogger("websockets.client")``; see the :doc:`logging guide <../topics/logging>` for details. """ def __init__( self, origins: Optional[Sequence[Optional[Origin]]] = None, extensions: Optional[Sequence[ServerExtensionFactory]] = None, subprotocols: Optional[Sequence[Subprotocol]] = None, state: State = CONNECTING, max_size: Optional[int] = 2**20, logger: Optional[LoggerLike] = None, ): super().__init__( side=SERVER, state=state, max_size=max_size, logger=logger, ) self.origins = origins self.available_extensions = extensions self.available_subprotocols = subprotocols def accept(self, request: Request) -> Response: """ Create a handshake response to accept the connection. If the connection cannot be established, the handshake response actually rejects the handshake. You must send the handshake response with :meth:`send_response`. You can modify it before sending it, for example to add HTTP headers. Args: request: WebSocket handshake request event received from the client. Returns: Response: WebSocket handshake response event to send to the client. """ try: ( accept_header, extensions_header, protocol_header, ) = self.process_request(request) except InvalidOrigin as exc: request._exception = exc self.handshake_exc = exc if self.debug: self.logger.debug("! invalid origin", exc_info=True) return self.reject( http.HTTPStatus.FORBIDDEN, f"Failed to open a WebSocket connection: {exc}.\n", ) except InvalidUpgrade as exc: request._exception = exc self.handshake_exc = exc if self.debug: self.logger.debug("! invalid upgrade", exc_info=True) response = self.reject( http.HTTPStatus.UPGRADE_REQUIRED, ( 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" ), ) response.headers["Upgrade"] = "websocket" return response except InvalidHandshake as exc: request._exception = exc self.handshake_exc = exc if self.debug: self.logger.debug("! invalid handshake", exc_info=True) return self.reject( http.HTTPStatus.BAD_REQUEST, f"Failed to open a WebSocket connection: {exc}.\n", ) except Exception as exc: request._exception = exc self.handshake_exc = exc self.logger.error("opening handshake failed", exc_info=True) return self.reject( http.HTTPStatus.INTERNAL_SERVER_ERROR, ( "Failed to open a WebSocket connection.\n" "See server log for more information.\n" ), ) headers = Headers() headers["Date"] = email.utils.formatdate(usegmt=True) headers["Upgrade"] = "websocket" headers["Connection"] = "Upgrade" headers["Sec-WebSocket-Accept"] = accept_header if extensions_header is not None: headers["Sec-WebSocket-Extensions"] = extensions_header if protocol_header is not None: headers["Sec-WebSocket-Protocol"] = protocol_header headers["Server"] = USER_AGENT self.logger.info("connection open") return Response(101, "Switching Protocols", headers) def process_request( self, request: Request ) -> Tuple[str, Optional[str], Optional[str]]: """ Check a handshake request and negotiate extensions and subprotocol. This function doesn't verify that the request is an HTTP/1.1 or higher GET request and doesn't check the ``Host`` header. These controls are usually performed earlier in the HTTP request handling code. They're the responsibility of the caller. Args: request: WebSocket handshake request received from the client. Returns: Tuple[str, Optional[str], Optional[str]]: ``Sec-WebSocket-Accept``, ``Sec-WebSocket-Extensions``, and ``Sec-WebSocket-Protocol`` headers for the handshake response. Raises: InvalidHandshake: if the handshake request is invalid; then the server must return 400 Bad Request error. """ headers = request.headers connection: List[ConnectionOption] = sum( [parse_connection(value) for value in headers.get_all("Connection")], [] ) if not any(value.lower() == "upgrade" for value in connection): raise InvalidUpgrade( "Connection", ", ".join(connection) if connection else None ) upgrade: List[UpgradeProtocol] = sum( [parse_upgrade(value) for value in headers.get_all("Upgrade")], [] ) # For compatibility with non-strict implementations, ignore case when # checking the Upgrade header. The RFC always uses "websocket", except # in section 11.2. (IANA registration) where it uses "WebSocket". if not (len(upgrade) == 1 and upgrade[0].lower() == "websocket"): raise InvalidUpgrade("Upgrade", ", ".join(upgrade) if upgrade else None) try: key = headers["Sec-WebSocket-Key"] except KeyError as exc: raise InvalidHeader("Sec-WebSocket-Key") from exc except MultipleValuesError as exc: raise InvalidHeader( "Sec-WebSocket-Key", "more than one Sec-WebSocket-Key header found" ) from exc try: raw_key = base64.b64decode(key.encode(), validate=True) except binascii.Error as exc: raise InvalidHeaderValue("Sec-WebSocket-Key", key) from exc if len(raw_key) != 16: raise InvalidHeaderValue("Sec-WebSocket-Key", key) try: version = headers["Sec-WebSocket-Version"] except KeyError as exc: raise InvalidHeader("Sec-WebSocket-Version") from exc except MultipleValuesError as exc: raise InvalidHeader( "Sec-WebSocket-Version", "more than one Sec-WebSocket-Version header found", ) from exc if version != "13": raise InvalidHeaderValue("Sec-WebSocket-Version", version) accept_header = accept_key(key) self.origin = self.process_origin(headers) extensions_header, self.extensions = self.process_extensions(headers) protocol_header = self.subprotocol = self.process_subprotocol(headers) return ( accept_header, extensions_header, protocol_header, ) def process_origin(self, headers: Headers) -> Optional[Origin]: """ Handle the Origin HTTP request header. Args: headers: WebSocket handshake request headers. Returns: Optional[Origin]: origin, if it is acceptable. 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 self.origins is not None: if origin not in self.origins: raise InvalidOrigin(origin) return origin def process_extensions( self, headers: Headers, ) -> 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. :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: WebSocket handshake request headers. Returns: Tuple[Optional[str], List[Extension]]: ``Sec-WebSocket-Extensions`` HTTP response header and list of accepted 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 self.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 self.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 def process_subprotocol(self, headers: Headers) -> Optional[Subprotocol]: """ Handle the Sec-WebSocket-Protocol HTTP request header. Args: headers: WebSocket handshake request headers. Returns: Optional[Subprotocol]: Subprotocol, if one was selected; this is also the value of the ``Sec-WebSocket-Protocol`` response header. 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 self.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, self.available_subprotocols ) return subprotocol def select_subprotocol( self, client_subprotocols: Sequence[Subprotocol], server_subprotocols: Sequence[Subprotocol], ) -> Optional[Subprotocol]: """ Pick a subprotocol among those offered by the client. If several subprotocols are supported by the client and the server, the default implementation selects the preferred subprotocols by giving equal value to the priorities of the client and the server. If no common subprotocol is supported by the client and the server, it proceeds without a subprotocol. This is unlikely to be the most useful implementation in practice, as many servers providing a subprotocol will require that the client uses that subprotocol. Args: client_subprotocols: list of subprotocols offered by the client. server_subprotocols: list of subprotocols available on the server. Returns: Optional[Subprotocol]: Subprotocol, if a common subprotocol was found. """ subprotocols = set(client_subprotocols) & set(server_subprotocols) if not subprotocols: return None priority = lambda p: ( client_subprotocols.index(p) + server_subprotocols.index(p) ) return sorted(subprotocols, key=priority)[0] def reject( self, status: http.HTTPStatus, text: str, ) -> Response: """ Create a handshake response to reject the connection. A short plain text response is the best fallback when failing to establish a WebSocket connection. You must send the handshake response with :meth:`send_response`. You can modify it before sending it, for example to alter HTTP headers. Args: status: HTTP status code. text: HTTP response body; will be encoded to UTF-8. Returns: Response: WebSocket handshake response event to send to the client. """ body = text.encode() headers = Headers( [ ("Date", email.utils.formatdate(usegmt=True)), ("Connection", "close"), ("Content-Length", str(len(body))), ("Content-Type", "text/plain; charset=utf-8"), ("Server", USER_AGENT), ] ) response = Response(status.value, status.phrase, headers, body) # When reject() is called from accept(), handshake_exc is already set. # If a user calls reject(), set handshake_exc to guarantee invariant: # "handshake_exc is None if and only if opening handshake succeded." if self.handshake_exc is None: self.handshake_exc = InvalidStatus(response) self.logger.info("connection failed (%d %s)", status.value, status.phrase) return response def send_response(self, response: Response) -> None: """ Send a handshake response to the client. Args: response: WebSocket handshake response event to send. """ if self.debug: code, phrase = response.status_code, response.reason_phrase self.logger.debug("> HTTP/1.1 %d %s", code, phrase) for key, value in response.headers.raw_items(): self.logger.debug("> %s: %s", key, value) if response.body is not None: self.logger.debug("> [body] (%d bytes)", len(response.body)) self.writes.append(response.serialize()) if response.status_code == 101: assert self.state is CONNECTING self.state = OPEN else: self.send_eof() self.parser = self.discard() next(self.parser) # start coroutine def parse(self) -> Generator[None, None, None]: if self.state is CONNECTING: request = yield from Request.parse(self.reader.read_line) if self.debug: self.logger.debug("< GET %s HTTP/1.1", request.path) for key, value in request.headers.raw_items(): self.logger.debug("< %s: %s", key, value) self.events.append(request) yield from super().parse()