Lib/multiprocessing/resource_tracker.py - platform/prebuilts/python/windows-x86 - Git at Google

 ###############################################################################
 # Server process to keep track of unlinked resources (like shared memory
 # segments, semaphores etc.) and clean them.
 #
 # On Unix we run a server process which keeps track of unlinked
 # resources. The server ignores SIGINT and SIGTERM and reads from a
 # pipe.  Every other process of the program has a copy of the writable
 # end of the pipe, so we get EOF when all other processes have exited.
 # Then the server process unlinks any remaining resource names.
 #
 # This is important because there may be system limits for such resources: for
 # instance, the system only supports a limited number of named semaphores, and
 # shared-memory segments live in the RAM. If a python process leaks such a
 # resource, this resource will not be removed till the next reboot.  Without
 # this resource tracker process, "killall python" would probably leave unlinked
 # resources.

 import os
 import signal
 import sys
 import threading
 import warnings

 from . import spawn
 from . import util

 __all__ = ['ensure_running', 'register', 'unregister']

 _HAVE_SIGMASK = hasattr(signal, 'pthread_sigmask')
 _IGNORED_SIGNALS = (signal.SIGINT, signal.SIGTERM)

 _CLEANUP_FUNCS = {
     'noop': lambda: None,
 }

 if os.name == 'posix':
     import _multiprocessing
     import _posixshmem

     _CLEANUP_FUNCS.update({
         'semaphore': _multiprocessing.sem_unlink,
         'shared_memory': _posixshmem.shm_unlink,
     })


 class ResourceTracker(object):

     def __init__(self):
         self._lock = threading.Lock()
         self._fd = None
         self._pid = None

     def _stop(self):
         with self._lock:
             if self._fd is None:
                 # not running
                 return

             # closing the "alive" file descriptor stops main()
             os.close(self._fd)
             self._fd = None

             os.waitpid(self._pid, 0)
             self._pid = None

     def getfd(self):
         self.ensure_running()
         return self._fd

     def ensure_running(self):
         '''Make sure that resource tracker process is running.

         This can be run from any process.  Usually a child process will use
         the resource created by its parent.'''
         with self._lock:
             if self._fd is not None:
                 # resource tracker was launched before, is it still running?
                 if self._check_alive():
                     # => still alive
                     return
                 # => dead, launch it again
                 os.close(self._fd)

                 # Clean-up to avoid dangling processes.
                 try:
                     # _pid can be None if this process is a child from another
                     # python process, which has started the resource_tracker.
                     if self._pid is not None:
                         os.waitpid(self._pid, 0)
                 except ChildProcessError:
                     # The resource_tracker has already been terminated.
                     pass
                 self._fd = None
                 self._pid = None

                 warnings.warn('resource_tracker: process died unexpectedly, '
                               'relaunching.  Some resources might leak.')

             fds_to_pass = []
             try:
                 fds_to_pass.append(sys.stderr.fileno())
             except Exception:
                 pass
             cmd = 'from multiprocessing.resource_tracker import main;main(%d)'
             r, w = os.pipe()
             try:
                 fds_to_pass.append(r)
                 # process will out live us, so no need to wait on pid
                 exe = spawn.get_executable()
                 args = [exe] + util._args_from_interpreter_flags()
                 args += ['-c', cmd % r]
                 # bpo-33613: Register a signal mask that will block the signals.
                 # This signal mask will be inherited by the child that is going
                 # to be spawned and will protect the child from a race condition
                 # that can make the child die before it registers signal handlers
                 # for SIGINT and SIGTERM. The mask is unregistered after spawning
                 # the child.
                 try:
                     if _HAVE_SIGMASK:
                         signal.pthread_sigmask(signal.SIG_BLOCK, _IGNORED_SIGNALS)
                     pid = util.spawnv_passfds(exe, args, fds_to_pass)
                 finally:
                     if _HAVE_SIGMASK:
                         signal.pthread_sigmask(signal.SIG_UNBLOCK, _IGNORED_SIGNALS)
             except:
                 os.close(w)
                 raise
             else:
                 self._fd = w
                 self._pid = pid
             finally:
                 os.close(r)

     def _check_alive(self):
         '''Check that the pipe has not been closed by sending a probe.'''
         try:
             # We cannot use send here as it calls ensure_running, creating
             # a cycle.
             os.write(self._fd, b'PROBE:0:noop\n')
         except OSError:
             return False
         else:
             return True

     def register(self, name, rtype):
         '''Register name of resource with resource tracker.'''
         self._send('REGISTER', name, rtype)

     def unregister(self, name, rtype):
         '''Unregister name of resource with resource tracker.'''
         self._send('UNREGISTER', name, rtype)

     def _send(self, cmd, name, rtype):
         self.ensure_running()
         msg = '{0}:{1}:{2}\n'.format(cmd, name, rtype).encode('ascii')
         if len(name) > 512:
             # posix guarantees that writes to a pipe of less than PIPE_BUF
             # bytes are atomic, and that PIPE_BUF >= 512
             raise ValueError('name too long')
         nbytes = os.write(self._fd, msg)
         assert nbytes == len(msg), "nbytes {0:n} but len(msg) {1:n}".format(
             nbytes, len(msg))


 _resource_tracker = ResourceTracker()
 ensure_running = _resource_tracker.ensure_running
 register = _resource_tracker.register
 unregister = _resource_tracker.unregister
 getfd = _resource_tracker.getfd

 def main(fd):
     '''Run resource tracker.'''
     # protect the process from ^C and "killall python" etc
     signal.signal(signal.SIGINT, signal.SIG_IGN)
     signal.signal(signal.SIGTERM, signal.SIG_IGN)
     if _HAVE_SIGMASK:
         signal.pthread_sigmask(signal.SIG_UNBLOCK, _IGNORED_SIGNALS)

     for f in (sys.stdin, sys.stdout):
         try:
             f.close()
         except Exception:
             pass

     cache = {rtype: set() for rtype in _CLEANUP_FUNCS.keys()}
     try:
         # keep track of registered/unregistered resources
         with open(fd, 'rb') as f:
             for line in f:
                 try:
                     cmd, name, rtype = line.strip().decode('ascii').split(':')
                     cleanup_func = _CLEANUP_FUNCS.get(rtype, None)
                     if cleanup_func is None:
                         raise ValueError(
                             f'Cannot register {name} for automatic cleanup: '
                             f'unknown resource type {rtype}')

                     if cmd == 'REGISTER':
                         cache[rtype].add(name)
                     elif cmd == 'UNREGISTER':
                         cache[rtype].remove(name)
                     elif cmd == 'PROBE':
                         pass
                     else:
                         raise RuntimeError('unrecognized command %r' % cmd)
                 except Exception:
                     try:
                         sys.excepthook(*sys.exc_info())
                     except:
                         pass
     finally:
         # all processes have terminated; cleanup any remaining resources
         for rtype, rtype_cache in cache.items():
             if rtype_cache:
                 try:
                     warnings.warn('resource_tracker: There appear to be %d '
                                   'leaked %s objects to clean up at shutdown' %
                                   (len(rtype_cache), rtype))
                 except Exception:
                     pass
             for name in rtype_cache:
                 # For some reason the process which created and registered this
                 # resource has failed to unregister it. Presumably it has
                 # died.  We therefore unlink it.
                 try:
                     try:
                         _CLEANUP_FUNCS[rtype](name)
                     except Exception as e:
                         warnings.warn('resource_tracker: %r: %s' % (name, e))
                 finally:
                     pass
	###############################################################################
	# Server process to keep track of unlinked resources (like shared memory
	# segments, semaphores etc.) and clean them.
	#
	# On Unix we run a server process which keeps track of unlinked
	# resources. The server ignores SIGINT and SIGTERM and reads from a
	# pipe. Every other process of the program has a copy of the writable
	# end of the pipe, so we get EOF when all other processes have exited.
	# Then the server process unlinks any remaining resource names.
	#
	# This is important because there may be system limits for such resources: for
	# instance, the system only supports a limited number of named semaphores, and
	# shared-memory segments live in the RAM. If a python process leaks such a
	# resource, this resource will not be removed till the next reboot. Without
	# this resource tracker process, "killall python" would probably leave unlinked
	# resources.

	import os
	import signal
	import sys
	import threading
	import warnings

	from . import spawn
	from . import util

	__all__ = ['ensure_running', 'register', 'unregister']

	_HAVE_SIGMASK = hasattr(signal, 'pthread_sigmask')
	_IGNORED_SIGNALS = (signal.SIGINT, signal.SIGTERM)

	_CLEANUP_FUNCS = {
	'noop': lambda: None,
	}

	if os.name == 'posix':
	import _multiprocessing
	import _posixshmem

	_CLEANUP_FUNCS.update({
	'semaphore': _multiprocessing.sem_unlink,
	'shared_memory': _posixshmem.shm_unlink,
	})


	class ResourceTracker(object):

	def __init__(self):
	self._lock = threading.Lock()
	self._fd = None
	self._pid = None

	def _stop(self):
	with self._lock:
	if self._fd is None:
	# not running
	return

	# closing the "alive" file descriptor stops main()
	os.close(self._fd)
	self._fd = None

	os.waitpid(self._pid, 0)
	self._pid = None

	def getfd(self):
	self.ensure_running()
	return self._fd

	def ensure_running(self):
	'''Make sure that resource tracker process is running.

	This can be run from any process. Usually a child process will use
	the resource created by its parent.'''
	with self._lock:
	if self._fd is not None:
	# resource tracker was launched before, is it still running?
	if self._check_alive():
	# => still alive
	return
	# => dead, launch it again
	os.close(self._fd)

	# Clean-up to avoid dangling processes.
	try:
	# _pid can be None if this process is a child from another
	# python process, which has started the resource_tracker.
	if self._pid is not None:
	os.waitpid(self._pid, 0)
	except ChildProcessError:
	# The resource_tracker has already been terminated.
	pass
	self._fd = None
	self._pid = None

	warnings.warn('resource_tracker: process died unexpectedly, '
	'relaunching. Some resources might leak.')

	fds_to_pass = []
	try:
	fds_to_pass.append(sys.stderr.fileno())
	except Exception:
	pass
	cmd = 'from multiprocessing.resource_tracker import main;main(%d)'
	r, w = os.pipe()
	try:
	fds_to_pass.append(r)
	# process will out live us, so no need to wait on pid
	exe = spawn.get_executable()
	args = [exe] + util._args_from_interpreter_flags()
	args += ['-c', cmd % r]
	# bpo-33613: Register a signal mask that will block the signals.
	# This signal mask will be inherited by the child that is going
	# to be spawned and will protect the child from a race condition
	# that can make the child die before it registers signal handlers
	# for SIGINT and SIGTERM. The mask is unregistered after spawning
	# the child.
	try:
	if _HAVE_SIGMASK:
	signal.pthread_sigmask(signal.SIG_BLOCK, _IGNORED_SIGNALS)
	pid = util.spawnv_passfds(exe, args, fds_to_pass)
	finally:
	if _HAVE_SIGMASK:
	signal.pthread_sigmask(signal.SIG_UNBLOCK, _IGNORED_SIGNALS)
	except:
	os.close(w)
	raise
	else:
	self._fd = w
	self._pid = pid
	finally:
	os.close(r)

	def _check_alive(self):
	'''Check that the pipe has not been closed by sending a probe.'''
	try:
	# We cannot use send here as it calls ensure_running, creating
	# a cycle.
	os.write(self._fd, b'PROBE:0:noop\n')
	except OSError:
	return False
	else:
	return True

	def register(self, name, rtype):
	'''Register name of resource with resource tracker.'''
	self._send('REGISTER', name, rtype)

	def unregister(self, name, rtype):
	'''Unregister name of resource with resource tracker.'''
	self._send('UNREGISTER', name, rtype)

	def _send(self, cmd, name, rtype):
	self.ensure_running()
	msg = '{0}:{1}:{2}\n'.format(cmd, name, rtype).encode('ascii')
	if len(name) > 512:
	# posix guarantees that writes to a pipe of less than PIPE_BUF
	# bytes are atomic, and that PIPE_BUF >= 512
	raise ValueError('name too long')
	nbytes = os.write(self._fd, msg)
	assert nbytes == len(msg), "nbytes {0:n} but len(msg) {1:n}".format(
	nbytes, len(msg))


	_resource_tracker = ResourceTracker()
	ensure_running = _resource_tracker.ensure_running
	register = _resource_tracker.register
	unregister = _resource_tracker.unregister
	getfd = _resource_tracker.getfd

	def main(fd):
	'''Run resource tracker.'''
	# protect the process from ^C and "killall python" etc
	signal.signal(signal.SIGINT, signal.SIG_IGN)
	signal.signal(signal.SIGTERM, signal.SIG_IGN)
	if _HAVE_SIGMASK:
	signal.pthread_sigmask(signal.SIG_UNBLOCK, _IGNORED_SIGNALS)

	for f in (sys.stdin, sys.stdout):
	try:
	f.close()
	except Exception:
	pass

	cache = {rtype: set() for rtype in _CLEANUP_FUNCS.keys()}
	try:
	# keep track of registered/unregistered resources
	with open(fd, 'rb') as f:
	for line in f:
	try:
	cmd, name, rtype = line.strip().decode('ascii').split(':')
	cleanup_func = _CLEANUP_FUNCS.get(rtype, None)
	if cleanup_func is None:
	raise ValueError(
	f'Cannot register {name} for automatic cleanup: '
	f'unknown resource type {rtype}')

	if cmd == 'REGISTER':
	cache[rtype].add(name)
	elif cmd == 'UNREGISTER':
	cache[rtype].remove(name)
	elif cmd == 'PROBE':
	pass
	else:
	raise RuntimeError('unrecognized command %r' % cmd)
	except Exception:
	try:
	sys.excepthook(*sys.exc_info())
	except:
	pass
	finally:
	# all processes have terminated; cleanup any remaining resources
	for rtype, rtype_cache in cache.items():
	if rtype_cache:
	try:
	warnings.warn('resource_tracker: There appear to be %d '
	'leaked %s objects to clean up at shutdown' %
	(len(rtype_cache), rtype))
	except Exception:
	pass
	for name in rtype_cache:
	# For some reason the process which created and registered this
	# resource has failed to unregister it. Presumably it has
	# died. We therefore unlink it.
	try:
	try:
	_CLEANUP_FUNCS[rtype](name)
	except Exception as e:
	warnings.warn('resource_tracker: %r: %s' % (name, e))
	finally:
	pass