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	from __future__ import annotations

	import asyncio
	import hmac
	import http
	import logging
	import socket
	import sys
	from collections.abc import Awaitable, Generator, Iterable, Sequence
	from types import TracebackType
	from typing import Any, Callable, cast

	from ..exceptions import InvalidHeader
	from ..extensions.base import ServerExtensionFactory
	from ..extensions.permessage_deflate import enable_server_permessage_deflate
	from ..frames import CloseCode
	from ..headers import (
	build_www_authenticate_basic,
	parse_authorization_basic,
	validate_subprotocols,
	)
	from ..http11 import SERVER, Request, Response
	from ..protocol import CONNECTING, OPEN, Event
	from ..server import ServerProtocol
	from ..typing import LoggerLike, Origin, StatusLike, Subprotocol
	from .compatibility import asyncio_timeout
	from .connection import Connection, broadcast


	__all__ = [
	"broadcast",
	"serve",
	"unix_serve",
	"ServerConnection",
	"Server",
	"basic_auth",
	]


	class ServerConnection(Connection):
	"""
	:mod:`asyncio` implementation of a WebSocket server connection.

	:class:`ServerConnection` provides :meth:`recv` and :meth:`send` methods 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.

	The ``ping_interval``, ``ping_timeout``, ``close_timeout``, ``max_queue``,
	and ``write_limit`` arguments have the same meaning as in :func:`serve`.

	Args:
	protocol: Sans-I/O connection.
	server: Server that manages this connection.

	"""

	def __init__(
	self,
	protocol: ServerProtocol,
	server: Server,
	*,
	ping_interval: float \| None = 20,
	ping_timeout: float \| None = 20,
	close_timeout: float \| None = 10,
	max_queue: int \| None \| tuple[int \| None, int \| None] = 16,
	write_limit: int \| tuple[int, int \| None] = 2**15,
	) -> None:
	self.protocol: ServerProtocol
	super().__init__(
	protocol,
	ping_interval=ping_interval,
	ping_timeout=ping_timeout,
	close_timeout=close_timeout,
	max_queue=max_queue,
	write_limit=write_limit,
	)
	self.server = server
	self.request_rcvd: asyncio.Future[None] = self.loop.create_future()
	self.username: str # see basic_auth()

	def respond(self, status: StatusLike, text: str) -> Response:
	"""
	Create a plain text HTTP response.

	``process_request`` and ``process_response`` may call this method to
	return an HTTP response instead of performing the WebSocket opening
	handshake.

	You can modify the response before returning it, for example by changing
	HTTP headers.

	Args:
	status: HTTP status code.
	text: HTTP response body; it will be encoded to UTF-8.

	Returns:
	HTTP response to send to the client.

	"""
	return self.protocol.reject(status, text)

	async def handshake(
	self,
	process_request: (
	Callable[
	[ServerConnection, Request],
	Awaitable[Response \| None] \| Response \| None,
	]
	\| None
	) = None,
	process_response: (
	Callable[
	[ServerConnection, Request, Response],
	Awaitable[Response \| None] \| Response \| None,
	]
	\| None
	) = None,
	server_header: str \| None = SERVER,
	) -> None:
	"""
	Perform the opening handshake.

	"""
	await asyncio.wait(
	[self.request_rcvd, self.connection_lost_waiter],
	return_when=asyncio.FIRST_COMPLETED,
	)

	if self.request is not None:
	async with self.send_context(expected_state=CONNECTING):
	response = None

	if process_request is not None:
	try:
	response = process_request(self, self.request)
	if isinstance(response, Awaitable):
	response = await response
	except Exception as exc:
	self.protocol.handshake_exc = exc
	response = self.protocol.reject(
	http.HTTPStatus.INTERNAL_SERVER_ERROR,
	(
	"Failed to open a WebSocket connection.\n"
	"See server log for more information.\n"
	),
	)

	if response is None:
	if self.server.is_serving():
	self.response = self.protocol.accept(self.request)
	else:
	self.response = self.protocol.reject(
	http.HTTPStatus.SERVICE_UNAVAILABLE,
	"Server is shutting down.\n",
	)
	else:
	assert isinstance(response, Response) # help mypy
	self.response = response

	if server_header:
	self.response.headers["Server"] = server_header

	response = None

	if process_response is not None:
	try:
	response = process_response(self, self.request, self.response)
	if isinstance(response, Awaitable):
	response = await response
	except Exception as exc:
	self.protocol.handshake_exc = exc
	response = self.protocol.reject(
	http.HTTPStatus.INTERNAL_SERVER_ERROR,
	(
	"Failed to open a WebSocket connection.\n"
	"See server log for more information.\n"
	),
	)

	if response is not None:
	assert isinstance(response, Response) # help mypy
	self.response = response

	self.protocol.send_response(self.response)

	# self.protocol.handshake_exc is set when the connection is lost before
	# receiving a request, when the request cannot be parsed, or when the
	# handshake fails, including when process_request or process_response
	# raises an exception.

	# It isn't set when process_request or process_response sends an HTTP
	# response that rejects the handshake.

	if self.protocol.handshake_exc is not None:
	raise self.protocol.handshake_exc

	def process_event(self, event: Event) -> None:
	"""
	Process one incoming event.

	"""
	# First event - handshake request.
	if self.request is None:
	assert isinstance(event, Request)
	self.request = event
	self.request_rcvd.set_result(None)
	# Later events - frames.
	else:
	super().process_event(event)

	def connection_made(self, transport: asyncio.BaseTransport) -> None:
	super().connection_made(transport)
	self.server.start_connection_handler(self)


	class Server:
	"""
	WebSocket server returned by :func:`serve`.

	This class mirrors the API of :class:`asyncio.Server`.

	It keeps track of WebSocket connections in order to close them properly
	when shutting down.

	Args:
	handler: Connection handler. It receives the WebSocket connection,
	which is a :class:`ServerConnection`, in argument.
	process_request: Intercept the request during the opening handshake.
	Return an HTTP response to force the response. Return :obj:`None` to
	continue normally. When you force an HTTP 101 Continue response, the
	handshake is successful. Else, the connection is aborted.
	``process_request`` may be a function or a coroutine.
	process_response: Intercept the response during the opening handshake.
	Modify the response or return a new HTTP response to force the
	response. Return :obj:`None` to continue normally. When you force an
	HTTP 101 Continue response, the handshake is successful. Else, the
	connection is aborted. ``process_response`` may be a function or a
	coroutine.
	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.
	open_timeout: Timeout for opening connections in seconds.
	:obj:`None` disables the timeout.
	logger: Logger for this server.
	It defaults to ``logging.getLogger("websockets.server")``.
	See the :doc:`logging guide <../../topics/logging>` for details.

	"""

	def __init__(
	self,
	handler: Callable[[ServerConnection], Awaitable[None]],
	*,
	process_request: (
	Callable[
	[ServerConnection, Request],
	Awaitable[Response \| None] \| Response \| None,
	]
	\| None
	) = None,
	process_response: (
	Callable[
	[ServerConnection, Request, Response],
	Awaitable[Response \| None] \| Response \| None,
	]
	\| None
	) = None,
	server_header: str \| None = SERVER,
	open_timeout: float \| None = 10,
	logger: LoggerLike \| None = None,
	) -> None:
	self.loop = asyncio.get_running_loop()
	self.handler = handler
	self.process_request = process_request
	self.process_response = process_response
	self.server_header = server_header
	self.open_timeout = open_timeout
	if logger is None:
	logger = logging.getLogger("websockets.server")
	self.logger = logger

	# Keep track of active connections.
	self.handlers: dict[ServerConnection, asyncio.Task[None]] = {}

	# Task responsible for closing the server and terminating connections.
	self.close_task: asyncio.Task[None] \| None = None

	# Completed when the server is closed and connections are terminated.
	self.closed_waiter: asyncio.Future[None] = self.loop.create_future()

	@property
	def connections(self) -> set[ServerConnection]:
	"""
	Set of active connections.

	This property contains all connections that completed the opening
	handshake successfully and didn't start the closing handshake yet.
	It can be useful in combination with :func:`~broadcast`.

	"""
	return {connection for connection in self.handlers if connection.state is OPEN}

	def wrap(self, server: asyncio.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:`Server`
	- 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)

	async def conn_handler(self, connection: ServerConnection) -> None:
	"""
	Handle the lifecycle of a WebSocket connection.

	Since this method doesn't have a caller that can handle exceptions,
	it attempts to log relevant ones.

	It guarantees that the TCP connection is closed before exiting.

	"""
	try:
	async with asyncio_timeout(self.open_timeout):
	try:
	await connection.handshake(
	self.process_request,
	self.process_response,
	self.server_header,
	)
	except asyncio.CancelledError:
	connection.close_transport()
	raise
	except Exception:
	connection.logger.error("opening handshake failed", exc_info=True)
	connection.close_transport()
	return

	if connection.protocol.state is not OPEN:
	# process_request or process_response rejected the handshake.
	connection.close_transport()
	return

	try:
	connection.start_keepalive()
	await self.handler(connection)
	except Exception:
	connection.logger.error("connection handler failed", exc_info=True)
	await connection.close(CloseCode.INTERNAL_ERROR)
	else:
	await connection.close()

	except TimeoutError:
	# When the opening handshake times out, there's nothing to log.
	pass

	except Exception: # pragma: no cover
	# Don't leak connections on unexpected errors.
	connection.transport.abort()

	finally:
	# Registration is tied to the lifecycle of conn_handler() because
	# the server waits for connection handlers to terminate, even if
	# all connections are already closed.
	del self.handlers[connection]

	def start_connection_handler(self, connection: ServerConnection) -> None:
	"""
	Register a connection with this server.

	"""
	# The connection must be registered in self.handlers immediately.
	# If it was registered in conn_handler(), a race condition could
	# happen when closing the server after scheduling conn_handler()
	# but before it starts executing.
	self.handlers[connection] = self.loop.create_task(self.conn_handler(connection))

	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://github.com/python/cpython/issues/79033 for
	# details. This workaround can be removed when dropping Python < 3.11.
	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(connection.close(1001))
	for connection in self.handlers
	if connection.protocol.state is not 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.handlers:
	await asyncio.wait(self.handlers.values())

	# 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:`~ServerConnection.recv`: when the connection is closed,
	it raises :exc:`~websockets.exceptions.ConnectionClosedOK`;
	* :meth:`~ServerConnection.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: # pragma: no cover
	"""
	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) -> Server: # pragma: no cover
	return self

	async def __aexit__(
	self,
	exc_type: type[BaseException] \| None,
	exc_value: BaseException \| None,
	traceback: TracebackType \| None,
	) -> None: # pragma: no cover
	self.close()
	await self.wait_closed()


	# This is spelled in lower case because it's exposed as a callable in the API.
	class serve:
	"""
	Create a WebSocket server listening on ``host`` and ``port``.

	Whenever a client connects, the server creates a :class:`ServerConnection`,
	performs the opening handshake, and delegates to the ``handler`` coroutine.

	The handler receives the :class:`ServerConnection` instance, which you can
	use 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.

	This coroutine returns a :class:`Server` whose API mirrors
	:class:`asyncio.Server`. Treat it as an asynchronous context manager to
	ensure that the server will be closed::

	from websockets.asyncio.server import serve

	def handler(websocket):
	...

	# set this future to exit the server
	stop = asyncio.get_running_loop().create_future()

	async with serve(handler, host, port):
	await stop

	Alternatively, call :meth:`~Server.serve_forever` to serve requests and
	cancel it to stop the server::

	server = await serve(handler, host, port)
	await server.serve_forever()

	Args:
	handler: Connection handler. It receives the WebSocket connection,
	which is a :class:`ServerConnection`, 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.
	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.
	select_subprotocol: Callback for selecting a subprotocol among
	those supported by the client and the server. It receives a
	:class:`ServerConnection` (not a
	:class:`~websockets.server.ServerProtocol`!) instance and a list of
	subprotocols offered by the client. Other than the first argument,
	it has the same behavior as the
	:meth:`ServerProtocol.select_subprotocol
	<websockets.server.ServerProtocol.select_subprotocol>` method.
	process_request: Intercept the request during the opening handshake.
	Return an HTTP response to force the response or :obj:`None` to
	continue normally. When you force an HTTP 101 Continue response, the
	handshake is successful. Else, the connection is aborted.
	``process_request`` may be a function or a coroutine.
	process_response: Intercept the response during the opening handshake.
	Return an HTTP response to force the response or :obj:`None` to
	continue normally. When you force an HTTP 101 Continue response, the
	handshake is successful. Else, the connection is aborted.
	``process_response`` may be a function or a coroutine.
	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.
	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.
	open_timeout: Timeout for opening connections in seconds.
	:obj:`None` disables the timeout.
	ping_interval: Interval between keepalive pings in seconds.
	:obj:`None` disables keepalive.
	ping_timeout: Timeout for keepalive pings in seconds.
	:obj:`None` disables timeouts.
	close_timeout: Timeout for closing connections in seconds.
	:obj:`None` disables the timeout.
	max_size: Maximum size of incoming messages in bytes.
	:obj:`None` disables the limit.
	max_queue: High-water mark of the buffer where frames are received.
	It defaults to 16 frames. The low-water mark defaults to ``max_queue
	// 4``. You may pass a ``(high, low)`` tuple to set the high-water
	and low-water marks. If you want to disable flow control entirely,
	you may set it to ``None``, although that's a bad idea.
	write_limit: High-water mark of write buffer in bytes. It is passed to
	:meth:`~asyncio.WriteTransport.set_write_buffer_limits`. It defaults
	to 32 KiB. You may pass a ``(high, low)`` tuple to set the
	high-water and low-water marks.
	logger: Logger for this server.
	It defaults to ``logging.getLogger("websockets.server")``. See the
	:doc:`logging guide <../../topics/logging>` for details.
	create_connection: Factory for the :class:`ServerConnection` managing
	the connection. Set it to a wrapper or a subclass to customize
	connection handling.

	Any other keyword arguments are passed to 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 provide a preexisting TCP socket. You may call
	:func:`socket.create_server` (not to be confused with the event loop's
	:meth:`~asyncio.loop.create_server` method) to create a suitable server
	socket and customize it.

	* You can set ``start_serving`` to ``False`` to start accepting connections
	only after you call :meth:`~Server.start_serving()` or
	:meth:`~Server.serve_forever()`.

	"""

	def __init__(
	self,
	handler: Callable[[ServerConnection], Awaitable[None]],
	host: str \| None = None,
	port: int \| None = None,
	*,
	# WebSocket
	origins: Sequence[Origin \| None] \| None = None,
	extensions: Sequence[ServerExtensionFactory] \| None = None,
	subprotocols: Sequence[Subprotocol] \| None = None,
	select_subprotocol: (
	Callable[
	[ServerConnection, Sequence[Subprotocol]],
	Subprotocol \| None,
	]
	\| None
	) = None,
	process_request: (
	Callable[
	[ServerConnection, Request],
	Awaitable[Response \| None] \| Response \| None,
	]
	\| None
	) = None,
	process_response: (
	Callable[
	[ServerConnection, Request, Response],
	Awaitable[Response \| None] \| Response \| None,
	]
	\| None
	) = None,
	server_header: str \| None = SERVER,
	compression: str \| None = "deflate",
	# Timeouts
	open_timeout: float \| None = 10,
	ping_interval: float \| None = 20,
	ping_timeout: float \| None = 20,
	close_timeout: float \| None = 10,
	# Limits
	max_size: int \| None = 2**20,
	max_queue: int \| None \| tuple[int \| None, int \| None] = 16,
	write_limit: int \| tuple[int, int \| None] = 2**15,
	# Logging
	logger: LoggerLike \| None = None,
	# Escape hatch for advanced customization
	create_connection: type[ServerConnection] \| None = None,
	# Other keyword arguments are passed to loop.create_server
	**kwargs: Any,
	) -> None:
	if subprotocols is not None:
	validate_subprotocols(subprotocols)

	if compression == "deflate":
	extensions = enable_server_permessage_deflate(extensions)
	elif compression is not None:
	raise ValueError(f"unsupported compression: {compression}")

	if create_connection is None:
	create_connection = ServerConnection

	self.server = Server(
	handler,
	process_request=process_request,
	process_response=process_response,
	server_header=server_header,
	open_timeout=open_timeout,
	logger=logger,
	)

	if kwargs.get("ssl") is not None:
	kwargs.setdefault("ssl_handshake_timeout", open_timeout)
	if sys.version_info[:2] >= (3, 11): # pragma: no branch
	kwargs.setdefault("ssl_shutdown_timeout", close_timeout)

	def factory() -> ServerConnection:
	"""
	Create an asyncio protocol for managing a WebSocket connection.

	"""
	# Create a closure to give select_subprotocol access to connection.
	protocol_select_subprotocol: (
	Callable[
	[ServerProtocol, Sequence[Subprotocol]],
	Subprotocol \| None,
	]
	\| None
	) = None
	if select_subprotocol is not None:

	def protocol_select_subprotocol(
	protocol: ServerProtocol,
	subprotocols: Sequence[Subprotocol],
	) -> Subprotocol \| None:
	# mypy doesn't know that select_subprotocol is immutable.
	assert select_subprotocol is not None
	# Ensure this function is only used in the intended context.
	assert protocol is connection.protocol
	return select_subprotocol(connection, subprotocols)

	# This is a protocol in the Sans-I/O implementation of websockets.
	protocol = ServerProtocol(
	origins=origins,
	extensions=extensions,
	subprotocols=subprotocols,
	select_subprotocol=protocol_select_subprotocol,
	max_size=max_size,
	logger=logger,
	)
	# This is a connection in websockets and a protocol in asyncio.
	connection = create_connection(
	protocol,
	self.server,
	ping_interval=ping_interval,
	ping_timeout=ping_timeout,
	close_timeout=close_timeout,
	max_queue=max_queue,
	write_limit=write_limit,
	)
	return connection

	loop = asyncio.get_running_loop()
	if kwargs.pop("unix", False):
	self.create_server = loop.create_unix_server(factory, **kwargs)
	else:
	# mypy cannot tell that kwargs must provide sock when port is None.
	self.create_server = loop.create_server(factory, host, port, **kwargs) # type: ignore[arg-type]

	# async with serve(...) as ...: ...

	async def __aenter__(self) -> Server:
	return await self

	async def __aexit__(
	self,
	exc_type: type[BaseException] \| None,
	exc_value: BaseException \| None,
	traceback: TracebackType \| None,
	) -> None:
	self.server.close()
	await self.server.wait_closed()

	# ... = await serve(...)

	def __await__(self) -> Generator[Any, None, Server]:
	# Create a suitable iterator by calling __await__ on a coroutine.
	return self.__await_impl__().__await__()

	async def __await_impl__(self) -> Server:
	server = await self.create_server
	self.server.wrap(server)
	return self.server

	# ... = yield from serve(...) - remove when dropping Python < 3.10

	__iter__ = __await__


	def unix_serve(
	handler: Callable[[ServerConnection], Awaitable[None]],
	path: str \| None = None,
	**kwargs: Any,
	) -> Awaitable[Server]:
	"""
	Create 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's only available on Unix.

	It's useful for deploying a server behind a reverse proxy such as nginx.

	Args:
	handler: Connection handler. It receives the WebSocket connection,
	which is a :class:`ServerConnection`, in argument.
	path: File system path to the Unix socket.

	"""
	return serve(handler, unix=True, path=path, **kwargs)


	def is_credentials(credentials: Any) -> bool:
	try:
	username, password = credentials
	except (TypeError, ValueError):
	return False
	else:
	return isinstance(username, str) and isinstance(password, str)


	def basic_auth(
	realm: str = "",
	credentials: tuple[str, str] \| Iterable[tuple[str, str]] \| None = None,
	check_credentials: Callable[[str, str], Awaitable[bool] \| bool] \| None = None,
	) -> Callable[[ServerConnection, Request], Awaitable[Response \| None]]:
	"""
	Factory for ``process_request`` to enforce HTTP Basic Authentication.

	:func:`basic_auth` is designed to integrate with :func:`serve` as follows::

	from websockets.asyncio.server import basic_auth, serve

	async with serve(
	...,
	process_request=basic_auth(
	realm="my dev server",
	credentials=("hello", "iloveyou"),
	),
	):

	If authentication succeeds, the connection's ``username`` attribute is set.
	If it fails, the server responds with an HTTP 401 Unauthorized status.

	One of ``credentials`` or ``check_credentials`` must be provided; not both.

	Args:
	realm: Scope of protection. It should contain only ASCII characters
	because the encoding of non-ASCII characters is undefined. Refer to
	section 2.2 of :rfc:`7235` for details.
	credentials: Hard coded authorized credentials. It can be a
	``(username, password)`` pair or a list of such pairs.
	check_credentials: Function or coroutine that verifies credentials.
	It receives ``username`` and ``password`` arguments and returns
	whether they're valid.
	Raises:
	TypeError: If ``credentials`` or ``check_credentials`` is wrong.
	ValueError: If ``credentials`` and ``check_credentials`` are both
	provided or both not provided.

	"""
	if (credentials is None) == (check_credentials is None):
	raise ValueError("provide either credentials or check_credentials")

	if credentials is not None:
	if is_credentials(credentials):
	credentials_list = [cast(tuple[str, str], credentials)]
	elif isinstance(credentials, Iterable):
	credentials_list = list(cast(Iterable[tuple[str, str]], credentials))
	if not all(is_credentials(item) for item in credentials_list):
	raise TypeError(f"invalid credentials argument: {credentials}")
	else:
	raise TypeError(f"invalid credentials argument: {credentials}")

	credentials_dict = dict(credentials_list)

	def check_credentials(username: str, password: str) -> bool:
	try:
	expected_password = credentials_dict[username]
	except KeyError:
	return False
	return hmac.compare_digest(expected_password, password)

	assert check_credentials is not None # help mypy

	async def process_request(
	connection: ServerConnection,
	request: Request,
	) -> Response \| None:
	"""
	Perform HTTP Basic Authentication.

	If it succeeds, set the connection's ``username`` attribute and return
	:obj:`None`. If it fails, return an HTTP 401 Unauthorized responss.

	"""
	try:
	authorization = request.headers["Authorization"]
	except KeyError:
	response = connection.respond(
	http.HTTPStatus.UNAUTHORIZED,
	"Missing credentials\n",
	)
	response.headers["WWW-Authenticate"] = build_www_authenticate_basic(realm)
	return response

	try:
	username, password = parse_authorization_basic(authorization)
	except InvalidHeader:
	response = connection.respond(
	http.HTTPStatus.UNAUTHORIZED,
	"Unsupported credentials\n",
	)
	response.headers["WWW-Authenticate"] = build_www_authenticate_basic(realm)
	return response

	valid_credentials = check_credentials(username, password)
	if isinstance(valid_credentials, Awaitable):
	valid_credentials = await valid_credentials

	if not valid_credentials:
	response = connection.respond(
	http.HTTPStatus.UNAUTHORIZED,
	"Invalid credentials\n",
	)
	response.headers["WWW-Authenticate"] = build_www_authenticate_basic(realm)
	return response

	connection.username = username
	return None

	return process_request