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- # This file is part of Radicale - CalDAV and CardDAV server
- # Copyright © 2008 Nicolas Kandel
- # Copyright © 2008 Pascal Halter
- # Copyright © 2008-2017 Guillaume Ayoub
- # Copyright © 2017-2019 Unrud <unrud@outlook.com>
- # Copyright © 2024-2024 Peter Bieringer <pb@bieringer.de>
- #
- # This library is free software: you can redistribute it and/or modify
- # it under the terms of the GNU General Public License as published by
- # the Free Software Foundation, either version 3 of the License, or
- # (at your option) any later version.
- #
- # This library is distributed in the hope that it will be useful,
- # but WITHOUT ANY WARRANTY; without even the implied warranty of
- # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- # GNU General Public License for more details.
- #
- # You should have received a copy of the GNU General Public License
- # along with Radicale. If not, see <http://www.gnu.org/licenses/>.
- """
- Built-in WSGI server.
- """
- import http
- import select
- import socket
- import socketserver
- import ssl
- import sys
- import wsgiref.simple_server
- from typing import (Any, Callable, Dict, List, MutableMapping, Optional, Set,
- Tuple, Union)
- from urllib.parse import unquote
- from radicale import Application, config
- from radicale.log import logger
- COMPAT_EAI_ADDRFAMILY: int
- if hasattr(socket, "EAI_ADDRFAMILY"):
- COMPAT_EAI_ADDRFAMILY = socket.EAI_ADDRFAMILY # type:ignore[attr-defined]
- elif hasattr(socket, "EAI_NONAME"):
- # Windows and BSD don't have a special error code for this
- COMPAT_EAI_ADDRFAMILY = socket.EAI_NONAME
- COMPAT_EAI_NODATA: int
- if hasattr(socket, "EAI_NODATA"):
- COMPAT_EAI_NODATA = socket.EAI_NODATA
- elif hasattr(socket, "EAI_NONAME"):
- # Windows and BSD don't have a special error code for this
- COMPAT_EAI_NODATA = socket.EAI_NONAME
- COMPAT_IPPROTO_IPV6: int
- if hasattr(socket, "IPPROTO_IPV6"):
- COMPAT_IPPROTO_IPV6 = socket.IPPROTO_IPV6
- elif sys.platform == "win32":
- # HACK: https://bugs.python.org/issue29515
- COMPAT_IPPROTO_IPV6 = 41
- # IPv4 (host, port) and IPv6 (host, port, flowinfo, scopeid)
- ADDRESS_TYPE = Union[Tuple[Union[str, bytes, bytearray], int],
- Tuple[str, int, int, int]]
- def format_address(address: ADDRESS_TYPE) -> str:
- host, port, *_ = address
- if not isinstance(host, str):
- raise NotImplementedError("Unsupported address format: %r" %
- (address,))
- if host.find(":") == -1:
- return "%s:%d" % (host, port)
- else:
- return "[%s]:%d" % (host, port)
- class ParallelHTTPServer(socketserver.ThreadingMixIn,
- wsgiref.simple_server.WSGIServer):
- configuration: config.Configuration
- worker_sockets: Set[socket.socket]
- _timeout: float
- # We wait for child threads ourself (ThreadingMixIn)
- block_on_close: bool = False
- daemon_threads: bool = True
- def __init__(self, configuration: config.Configuration, family: int,
- address: Tuple[str, int], RequestHandlerClass:
- Callable[..., http.server.BaseHTTPRequestHandler]) -> None:
- self.configuration = configuration
- self.address_family = family
- super().__init__(address, RequestHandlerClass)
- self.worker_sockets = set()
- self._timeout = configuration.get("server", "timeout")
- def server_bind(self) -> None:
- if self.address_family == socket.AF_INET6:
- # Only allow IPv6 connections to the IPv6 socket
- self.socket.setsockopt(COMPAT_IPPROTO_IPV6, socket.IPV6_V6ONLY, 1)
- super().server_bind()
- def get_request( # type:ignore[override]
- self) -> Tuple[socket.socket, Tuple[ADDRESS_TYPE, socket.socket]]:
- # Set timeout for client
- request: socket.socket
- client_address: ADDRESS_TYPE
- request, client_address = super().get_request() # type:ignore[misc]
- if self._timeout > 0:
- request.settimeout(self._timeout)
- worker_socket, worker_socket_out = socket.socketpair()
- self.worker_sockets.add(worker_socket_out)
- # HACK: Forward `worker_socket` via `client_address` return value
- # to worker thread.
- # The super class calls `verify_request`, `process_request` and
- # `handle_error` with modified `client_address` value.
- return request, (client_address, worker_socket)
- def verify_request( # type:ignore[override]
- self, request: socket.socket, client_address_and_socket:
- Tuple[ADDRESS_TYPE, socket.socket]) -> bool:
- return True
- def process_request( # type:ignore[override]
- self, request: socket.socket, client_address_and_socket:
- Tuple[ADDRESS_TYPE, socket.socket]) -> None:
- # HACK: Super class calls `finish_request` in new thread with
- # `client_address_and_socket`
- return super().process_request(
- request, client_address_and_socket) # type:ignore[arg-type]
- def finish_request( # type:ignore[override]
- self, request: socket.socket, client_address_and_socket:
- Tuple[ADDRESS_TYPE, socket.socket]) -> None:
- # HACK: Unpack `client_address_and_socket` and call super class
- # `finish_request` with original `client_address`
- client_address, worker_socket = client_address_and_socket
- try:
- return self.finish_request_locked(request, client_address)
- finally:
- worker_socket.close()
- def finish_request_locked(self, request: socket.socket,
- client_address: ADDRESS_TYPE) -> None:
- return super().finish_request(
- request, client_address) # type:ignore[arg-type]
- def handle_error( # type:ignore[override]
- self, request: socket.socket,
- client_address_or_client_address_and_socket:
- Union[ADDRESS_TYPE, Tuple[ADDRESS_TYPE, socket.socket]]) -> None:
- # HACK: This method can be called with the modified
- # `client_address_and_socket` or the original `client_address` value
- e = sys.exc_info()[1]
- assert e is not None
- if isinstance(e, socket.timeout):
- logger.info("Client timed out", exc_info=True)
- else:
- logger.error("An exception occurred during request: %s",
- sys.exc_info()[1], exc_info=True)
- class ParallelHTTPSServer(ParallelHTTPServer):
- def server_bind(self) -> None:
- super().server_bind()
- # Wrap the TCP socket in an SSL socket
- certfile: str = self.configuration.get("server", "certificate")
- keyfile: str = self.configuration.get("server", "key")
- cafile: str = self.configuration.get("server", "certificate_authority")
- # Test if the files can be read
- for name, filename in [("certificate", certfile), ("key", keyfile),
- ("certificate_authority", cafile)]:
- type_name = config.DEFAULT_CONFIG_SCHEMA["server"][name][
- "type"].__name__
- source = self.configuration.get_source("server", name)
- if name == "certificate_authority" and not filename:
- continue
- try:
- open(filename).close()
- except OSError as e:
- raise RuntimeError(
- "Invalid %s value for option %r in section %r in %s: %r "
- "(%s)" % (type_name, name, "server", source, filename,
- e)) from e
- context = ssl.create_default_context(ssl.Purpose.CLIENT_AUTH)
- context.load_cert_chain(certfile=certfile, keyfile=keyfile)
- if cafile:
- context.load_verify_locations(cafile=cafile)
- context.verify_mode = ssl.CERT_REQUIRED
- self.socket = context.wrap_socket(
- self.socket, server_side=True, do_handshake_on_connect=False)
- def finish_request_locked( # type:ignore[override]
- self, request: ssl.SSLSocket, client_address: ADDRESS_TYPE
- ) -> None:
- try:
- try:
- request.do_handshake()
- except socket.timeout:
- raise
- except Exception as e:
- raise RuntimeError("SSL handshake failed: %s" % e) from e
- except Exception:
- try:
- self.handle_error(request, client_address)
- finally:
- self.shutdown_request(request) # type:ignore[attr-defined]
- return
- return super().finish_request_locked(request, client_address)
- class ServerHandler(wsgiref.simple_server.ServerHandler):
- # Don't pollute WSGI environ with OS environment
- os_environ: MutableMapping[str, str] = {}
- def log_exception(self, exc_info) -> None:
- logger.error("An exception occurred during request: %s",
- exc_info[1], exc_info=exc_info) # type:ignore[arg-type]
- class RequestHandler(wsgiref.simple_server.WSGIRequestHandler):
- """HTTP requests handler."""
- # HACK: Assigned in `socketserver.StreamRequestHandler`
- connection: socket.socket
- def log_request(self, code: Union[int, str] = "-",
- size: Union[int, str] = "-") -> None:
- pass # Disable request logging.
- def log_error(self, format_: str, *args: Any) -> None:
- logger.error("An error occurred during request: %s", format_ % args)
- def get_environ(self) -> Dict[str, Any]:
- env = super().get_environ()
- if isinstance(self.connection, ssl.SSLSocket):
- # The certificate can be evaluated by the auth module
- env["REMOTE_CERTIFICATE"] = self.connection.getpeercert()
- # Parent class only tries latin1 encoding
- env["PATH_INFO"] = unquote(self.path.split("?", 1)[0])
- return env
- def handle(self) -> None:
- """Copy of WSGIRequestHandler.handle with different ServerHandler"""
- self.raw_requestline = self.rfile.readline(65537)
- if len(self.raw_requestline) > 65536:
- self.requestline = ""
- self.request_version = ""
- self.command = ""
- self.send_error(414)
- return
- if not self.parse_request():
- return
- handler = ServerHandler(
- self.rfile, self.wfile, self.get_stderr(), self.get_environ()
- )
- handler.request_handler = self # type:ignore[attr-defined]
- app = self.server.get_app() # type:ignore[attr-defined]
- handler.run(app)
- def serve(configuration: config.Configuration,
- shutdown_socket: Optional[socket.socket] = None) -> None:
- """Serve radicale from configuration.
- `shutdown_socket` can be used to gracefully shutdown the server.
- The socket can be created with `socket.socketpair()`, when the other socket
- gets closed the server stops accepting new requests by clients and the
- function returns after all active requests are finished.
- """
- logger.info("Starting Radicale")
- # Copy configuration before modifying
- configuration = configuration.copy()
- configuration.update({"server": {"_internal_server": "True"}}, "server",
- privileged=True)
- use_ssl: bool = configuration.get("server", "ssl")
- server_class = ParallelHTTPSServer if use_ssl else ParallelHTTPServer
- application = Application(configuration)
- servers = {}
- try:
- hosts: List[Tuple[str, int]] = configuration.get("server", "hosts")
- for address_port in hosts:
- # retrieve IPv4/IPv6 address of address
- try:
- getaddrinfo = socket.getaddrinfo(address_port[0], address_port[1], 0, socket.SOCK_STREAM, socket.IPPROTO_TCP)
- except OSError as e:
- logger.warning("cannot retrieve IPv4 or IPv6 address of '%s': %s" % (format_address(address_port), e))
- continue
- logger.debug("getaddrinfo of '%s': %s" % (format_address(address_port), getaddrinfo))
- for (address_family, socket_kind, socket_proto, socket_flags, socket_address) in getaddrinfo:
- logger.debug("try to create server socket on '%s'" % (format_address(socket_address)))
- try:
- server = server_class(configuration, address_family, (socket_address[0], socket_address[1]), RequestHandler)
- except OSError as e:
- logger.warning("cannot create server socket on '%s': %s" % (format_address(socket_address), e))
- continue
- servers[server.socket] = server
- server.set_app(application)
- logger.info("Listening on %r%s",
- format_address(server.server_address),
- " with SSL" if use_ssl else "")
- if not servers:
- raise RuntimeError("No servers started")
- # Mainloop
- select_timeout = None
- if sys.platform == "win32":
- # Fallback to busy waiting. (select(...) blocks SIGINT on Windows.)
- select_timeout = 1.0
- max_connections: int = configuration.get("server", "max_connections")
- logger.info("Radicale server ready")
- while True:
- rlist: List[socket.socket] = []
- # Wait for finished clients
- for server in servers.values():
- rlist.extend(server.worker_sockets)
- # Accept new connections if max_connections is not reached
- if max_connections <= 0 or len(rlist) < max_connections:
- rlist.extend(servers)
- # Use socket to get notified of program shutdown
- if shutdown_socket is not None:
- rlist.append(shutdown_socket)
- rlist, _, _ = select.select(rlist, [], [], select_timeout)
- rset = set(rlist)
- if shutdown_socket in rset:
- logger.info("Stopping Radicale")
- break
- for server in servers.values():
- finished_sockets = server.worker_sockets.intersection(rset)
- for s in finished_sockets:
- s.close()
- server.worker_sockets.remove(s)
- rset.remove(s)
- if finished_sockets:
- server.service_actions()
- if rset:
- active_server = servers.get(rset.pop())
- if active_server:
- active_server.handle_request()
- finally:
- # Wait for clients to finish and close servers
- for server in servers.values():
- for s in server.worker_sockets:
- s.recv(1)
- s.close()
- server.server_close()
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