clang-r433403/python3/Lib/multiprocessing/resource_sharer.py - platform/prebuilts/clang/host/windows-x86 - Git at Google

 #
 # We use a background thread for sharing fds on Unix, and for sharing sockets on
 # Windows.
 #
 # A client which wants to pickle a resource registers it with the resource
 # sharer and gets an identifier in return.  The unpickling process will connect
 # to the resource sharer, sends the identifier and its pid, and then receives
 # the resource.
 #

 import os
 import signal
 import socket
 import sys
 import threading

 from . import process
 from .context import reduction
 from . import util

 __all__ = ['stop']


 if sys.platform == 'win32':
     __all__ += ['DupSocket']

     class DupSocket(object):
         '''Picklable wrapper for a socket.'''
         def __init__(self, sock):
             new_sock = sock.dup()
             def send(conn, pid):
                 share = new_sock.share(pid)
                 conn.send_bytes(share)
             self._id = _resource_sharer.register(send, new_sock.close)

         def detach(self):
             '''Get the socket.  This should only be called once.'''
             with _resource_sharer.get_connection(self._id) as conn:
                 share = conn.recv_bytes()
                 return socket.fromshare(share)

 else:
     __all__ += ['DupFd']

     class DupFd(object):
         '''Wrapper for fd which can be used at any time.'''
         def __init__(self, fd):
             new_fd = os.dup(fd)
             def send(conn, pid):
                 reduction.send_handle(conn, new_fd, pid)
             def close():
                 os.close(new_fd)
             self._id = _resource_sharer.register(send, close)

         def detach(self):
             '''Get the fd.  This should only be called once.'''
             with _resource_sharer.get_connection(self._id) as conn:
                 return reduction.recv_handle(conn)


 class _ResourceSharer(object):
     '''Manager for resources using background thread.'''
     def __init__(self):
         self._key = 0
         self._cache = {}
         self._lock = threading.Lock()
         self._listener = None
         self._address = None
         self._thread = None
         util.register_after_fork(self, _ResourceSharer._afterfork)

     def register(self, send, close):
         '''Register resource, returning an identifier.'''
         with self._lock:
             if self._address is None:
                 self._start()
             self._key += 1
             self._cache[self._key] = (send, close)
             return (self._address, self._key)

     @staticmethod
     def get_connection(ident):
         '''Return connection from which to receive identified resource.'''
         from .connection import Client
         address, key = ident
         c = Client(address, authkey=process.current_process().authkey)
         c.send((key, os.getpid()))
         return c

     def stop(self, timeout=None):
         '''Stop the background thread and clear registered resources.'''
         from .connection import Client
         with self._lock:
             if self._address is not None:
                 c = Client(self._address,
                            authkey=process.current_process().authkey)
                 c.send(None)
                 c.close()
                 self._thread.join(timeout)
                 if self._thread.is_alive():
                     util.sub_warning('_ResourceSharer thread did '
                                      'not stop when asked')
                 self._listener.close()
                 self._thread = None
                 self._address = None
                 self._listener = None
                 for key, (send, close) in self._cache.items():
                     close()
                 self._cache.clear()

     def _afterfork(self):
         for key, (send, close) in self._cache.items():
             close()
         self._cache.clear()
         self._lock._at_fork_reinit()
         if self._listener is not None:
             self._listener.close()
         self._listener = None
         self._address = None
         self._thread = None

     def _start(self):
         from .connection import Listener
         assert self._listener is None, "Already have Listener"
         util.debug('starting listener and thread for sending handles')
         self._listener = Listener(authkey=process.current_process().authkey)
         self._address = self._listener.address
         t = threading.Thread(target=self._serve)
         t.daemon = True
         t.start()
         self._thread = t

     def _serve(self):
         if hasattr(signal, 'pthread_sigmask'):
             signal.pthread_sigmask(signal.SIG_BLOCK, signal.valid_signals())
         while 1:
             try:
                 with self._listener.accept() as conn:
                     msg = conn.recv()
                     if msg is None:
                         break
                     key, destination_pid = msg
                     send, close = self._cache.pop(key)
                     try:
                         send(conn, destination_pid)
                     finally:
                         close()
             except:
                 if not util.is_exiting():
                     sys.excepthook(*sys.exc_info())


 _resource_sharer = _ResourceSharer()
 stop = _resource_sharer.stop
	#
	# We use a background thread for sharing fds on Unix, and for sharing sockets on
	# Windows.
	#
	# A client which wants to pickle a resource registers it with the resource
	# sharer and gets an identifier in return. The unpickling process will connect
	# to the resource sharer, sends the identifier and its pid, and then receives
	# the resource.
	#

	import os
	import signal
	import socket
	import sys
	import threading

	from . import process
	from .context import reduction
	from . import util

	__all__ = ['stop']


	if sys.platform == 'win32':
	__all__ += ['DupSocket']

	class DupSocket(object):
	'''Picklable wrapper for a socket.'''
	def __init__(self, sock):
	new_sock = sock.dup()
	def send(conn, pid):
	share = new_sock.share(pid)
	conn.send_bytes(share)
	self._id = _resource_sharer.register(send, new_sock.close)

	def detach(self):
	'''Get the socket. This should only be called once.'''
	with _resource_sharer.get_connection(self._id) as conn:
	share = conn.recv_bytes()
	return socket.fromshare(share)

	else:
	__all__ += ['DupFd']

	class DupFd(object):
	'''Wrapper for fd which can be used at any time.'''
	def __init__(self, fd):
	new_fd = os.dup(fd)
	def send(conn, pid):
	reduction.send_handle(conn, new_fd, pid)
	def close():
	os.close(new_fd)
	self._id = _resource_sharer.register(send, close)

	def detach(self):
	'''Get the fd. This should only be called once.'''
	with _resource_sharer.get_connection(self._id) as conn:
	return reduction.recv_handle(conn)


	class _ResourceSharer(object):
	'''Manager for resources using background thread.'''
	def __init__(self):
	self._key = 0
	self._cache = {}
	self._lock = threading.Lock()
	self._listener = None
	self._address = None
	self._thread = None
	util.register_after_fork(self, _ResourceSharer._afterfork)

	def register(self, send, close):
	'''Register resource, returning an identifier.'''
	with self._lock:
	if self._address is None:
	self._start()
	self._key += 1
	self._cache[self._key] = (send, close)
	return (self._address, self._key)

	@staticmethod
	def get_connection(ident):
	'''Return connection from which to receive identified resource.'''
	from .connection import Client
	address, key = ident
	c = Client(address, authkey=process.current_process().authkey)
	c.send((key, os.getpid()))
	return c

	def stop(self, timeout=None):
	'''Stop the background thread and clear registered resources.'''
	from .connection import Client
	with self._lock:
	if self._address is not None:
	c = Client(self._address,
	authkey=process.current_process().authkey)
	c.send(None)
	c.close()
	self._thread.join(timeout)
	if self._thread.is_alive():
	util.sub_warning('_ResourceSharer thread did '
	'not stop when asked')
	self._listener.close()
	self._thread = None
	self._address = None
	self._listener = None
	for key, (send, close) in self._cache.items():
	close()
	self._cache.clear()

	def _afterfork(self):
	for key, (send, close) in self._cache.items():
	close()
	self._cache.clear()
	self._lock._at_fork_reinit()
	if self._listener is not None:
	self._listener.close()
	self._listener = None
	self._address = None
	self._thread = None

	def _start(self):
	from .connection import Listener
	assert self._listener is None, "Already have Listener"
	util.debug('starting listener and thread for sending handles')
	self._listener = Listener(authkey=process.current_process().authkey)
	self._address = self._listener.address
	t = threading.Thread(target=self._serve)
	t.daemon = True
	t.start()
	self._thread = t

	def _serve(self):
	if hasattr(signal, 'pthread_sigmask'):
	signal.pthread_sigmask(signal.SIG_BLOCK, signal.valid_signals())
	while 1:
	try:
	with self._listener.accept() as conn:
	msg = conn.recv()
	if msg is None:
	break
	key, destination_pid = msg
	send, close = self._cache.pop(key)
	try:
	send(conn, destination_pid)
	finally:
	close()
	except:
	if not util.is_exiting():
	sys.excepthook(*sys.exc_info())


	_resource_sharer = _ResourceSharer()
	stop = _resource_sharer.stop