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# Copyright (C) Dnspython Contributors, see LICENSE for text of ISC license import socket import ssl import selectors import struct import threading import time import aioquic.quic.configuration # type: ignore import aioquic.quic.connection # type: ignore import aioquic.quic.events # type: ignore import dns.inet from dns.quic._common import ( BaseQuicStream, BaseQuicConnection, BaseQuicManager, QUIC_MAX_DATAGRAM, ) # Avoid circularity with dns.query if hasattr(selectors, "PollSelector"): _selector_class = selectors.PollSelector # type: ignore else: _selector_class = selectors.SelectSelector # type: ignore class SyncQuicStream(BaseQuicStream): def __init__(self, connection, stream_id): super().__init__(connection, stream_id) self._wake_up = threading.Condition() self._lock = threading.Lock() def wait_for(self, amount, expiration): timeout = self._timeout_from_expiration(expiration) while True: with self._lock: if self._buffer.have(amount): return self._expecting = amount with self._wake_up: self._wake_up.wait(timeout) self._expecting = 0 def receive(self, timeout=None): expiration = self._expiration_from_timeout(timeout) self.wait_for(2, expiration) with self._lock: (size,) = struct.unpack("!H", self._buffer.get(2)) self.wait_for(size, expiration) with self._lock: return self._buffer.get(size) def send(self, datagram, is_end=False): data = self._encapsulate(datagram) self._connection.write(self._stream_id, data, is_end) def _add_input(self, data, is_end): if self._common_add_input(data, is_end): with self._wake_up: self._wake_up.notify() def close(self): with self._lock: self._close() def __enter__(self): return self def __exit__(self, exc_type, exc_val, exc_tb): self.close() with self._wake_up: self._wake_up.notify() return False class SyncQuicConnection(BaseQuicConnection): def __init__(self, connection, address, port, source, source_port, manager): super().__init__(connection, address, port, source, source_port, manager) self._socket = socket.socket(self._af, socket.SOCK_DGRAM, 0) self._socket.connect(self._peer) (self._send_wakeup, self._receive_wakeup) = socket.socketpair() self._receive_wakeup.setblocking(False) self._socket.setblocking(False) if self._source is not None: try: self._socket.bind( dns.inet.low_level_address_tuple(self._source, self._af) ) except Exception: self._socket.close() raise self._handshake_complete = threading.Event() self._worker_thread = None self._lock = threading.Lock() def _read(self): count = 0 while count < 10: count += 1 try: datagram = self._socket.recv(QUIC_MAX_DATAGRAM) except BlockingIOError: return with self._lock: self._connection.receive_datagram(datagram, self._peer[0], time.time()) def _drain_wakeup(self): while True: try: self._receive_wakeup.recv(32) except BlockingIOError: return def _worker(self): sel = _selector_class() sel.register(self._socket, selectors.EVENT_READ, self._read) sel.register(self._receive_wakeup, selectors.EVENT_READ, self._drain_wakeup) while not self._done: (expiration, interval) = self._get_timer_values(False) items = sel.select(interval) for (key, _) in items: key.data() with self._lock: self._handle_timer(expiration) datagrams = self._connection.datagrams_to_send(time.time()) for (datagram, _) in datagrams: try: self._socket.send(datagram) except BlockingIOError: # we let QUIC handle any lossage pass self._handle_events() def _handle_events(self): while True: with self._lock: event = self._connection.next_event() if event is None: return if isinstance(event, aioquic.quic.events.StreamDataReceived): with self._lock: stream = self._streams.get(event.stream_id) if stream: stream._add_input(event.data, event.end_stream) elif isinstance(event, aioquic.quic.events.HandshakeCompleted): self._handshake_complete.set() elif isinstance( event, aioquic.quic.events.ConnectionTerminated ) or isinstance(event, aioquic.quic.events.StreamReset): with self._lock: self._done = True def write(self, stream, data, is_end=False): with self._lock: self._connection.send_stream_data(stream, data, is_end) self._send_wakeup.send(b"\x01") def run(self): if self._closed: return self._worker_thread = threading.Thread(target=self._worker) self._worker_thread.start() def make_stream(self): self._handshake_complete.wait() with self._lock: stream_id = self._connection.get_next_available_stream_id(False) stream = SyncQuicStream(self, stream_id) self._streams[stream_id] = stream return stream def close_stream(self, stream_id): with self._lock: super().close_stream(stream_id) def close(self): with self._lock: if self._closed: return self._manager.closed(self._peer[0], self._peer[1]) self._closed = True self._connection.close() self._send_wakeup.send(b"\x01") self._worker_thread.join() class SyncQuicManager(BaseQuicManager): def __init__(self, conf=None, verify_mode=ssl.CERT_REQUIRED): super().__init__(conf, verify_mode, SyncQuicConnection) self._lock = threading.Lock() def connect(self, address, port=853, source=None, source_port=0): with self._lock: (connection, start) = self._connect(address, port, source, source_port) if start: connection.run() return connection def closed(self, address, port): with self._lock: super().closed(address, port) def __enter__(self): return self def __exit__(self, exc_type, exc_val, exc_tb): # Copy the itertor into a list as exiting things will mutate the connections # table. connections = list(self._connections.values()) for connection in connections: connection.close() return False