pym/portage/locks.py - mirrors/cros/chromiumos/third_party/portage_tool - Git at Google

 # portage: Lock management code
 # Copyright 2004-2013 Gentoo Foundation
 # Distributed under the terms of the GNU General Public License v2

 __all__ = ["lockdir", "unlockdir", "lockfile", "unlockfile", \
 	"hardlock_name", "hardlink_is_mine", "hardlink_lockfile", \
 	"unhardlink_lockfile", "hardlock_cleanup"]

 import errno
 import fcntl
 import platform
 import sys
 import time
 import warnings

 import portage
 from portage import os, _encodings, _unicode_decode
 from portage.exception import DirectoryNotFound, FileNotFound, \
 	InvalidData, TryAgain, OperationNotPermitted, PermissionDenied
 from portage.data import portage_gid
 from portage.util import writemsg
 from portage.localization import _

 if sys.hexversion >= 0x3000000:
 	basestring = str

 HARDLINK_FD = -2
 _HARDLINK_POLL_LATENCY = 3 # seconds
 _default_lock_fn = fcntl.lockf

 if platform.python_implementation() == 'PyPy':
 	# workaround for https://bugs.pypy.org/issue747
 	_default_lock_fn = fcntl.flock

 # Used by emerge in order to disable the "waiting for lock" message
 # so that it doesn't interfere with the status display.
 _quiet = False


 _open_fds = set()

 def _close_fds():
 	"""
 	This is intended to be called after a fork, in order to close file
 	descriptors for locks held by the parent process. This can be called
 	safely after a fork without exec, unlike the _setup_pipes close_fds
 	behavior.
 	"""
 	while _open_fds:
 		os.close(_open_fds.pop())

 def lockdir(mydir, flags=0):
 	return lockfile(mydir, wantnewlockfile=1, flags=flags)
 def unlockdir(mylock):
 	return unlockfile(mylock)

 def lockfile(mypath, wantnewlockfile=0, unlinkfile=0,
 	waiting_msg=None, flags=0):
 	"""
 	If wantnewlockfile is True then this creates a lockfile in the parent
 	directory as the file: '.' + basename + '.portage_lockfile'.
 	"""

 	if not mypath:
 		raise InvalidData(_("Empty path given"))

 	# Support for file object or integer file descriptor parameters is
 	# deprecated due to ambiguity in whether or not it's safe to close
 	# the file descriptor, making it prone to "Bad file descriptor" errors
 	# or file descriptor leaks.
 	if isinstance(mypath, basestring) and mypath[-1] == '/':
 		mypath = mypath[:-1]

 	lockfilename_path = mypath
 	if hasattr(mypath, 'fileno'):
 		warnings.warn("portage.locks.lockfile() support for "
 			"file object parameters is deprecated. Use a file path instead.",
 			DeprecationWarning, stacklevel=2)
 		lockfilename_path = getattr(mypath, 'name', None)
 		mypath = mypath.fileno()
 	if isinstance(mypath, int):
 		warnings.warn("portage.locks.lockfile() support for integer file "
 			"descriptor parameters is deprecated. Use a file path instead.",
 			DeprecationWarning, stacklevel=2)
 		lockfilename    = mypath
 		wantnewlockfile = 0
 		unlinkfile      = 0
 	elif wantnewlockfile:
 		base, tail = os.path.split(mypath)
 		lockfilename = os.path.join(base, "." + tail + ".portage_lockfile")
 		lockfilename_path = lockfilename
 		unlinkfile   = 1
 	else:
 		lockfilename = mypath

 	if isinstance(mypath, basestring):
 		if not os.path.exists(os.path.dirname(mypath)):
 			raise DirectoryNotFound(os.path.dirname(mypath))
 		preexisting = os.path.exists(lockfilename)
 		old_mask = os.umask(000)
 		try:
 			try:
 				myfd = os.open(lockfilename, os.O_CREAT|os.O_RDWR, 0o660)
 			except OSError as e:
 				func_call = "open('%s')" % lockfilename
 				if e.errno == OperationNotPermitted.errno:
 					raise OperationNotPermitted(func_call)
 				elif e.errno == PermissionDenied.errno:
 					raise PermissionDenied(func_call)
 				else:
 					raise

 			if not preexisting:
 				try:
 					if os.stat(lockfilename).st_gid != portage_gid:
 						os.chown(lockfilename, -1, portage_gid)
 				except OSError as e:
 					if e.errno in (errno.ENOENT, errno.ESTALE):
 						return lockfile(mypath,
 							wantnewlockfile=wantnewlockfile,
 							unlinkfile=unlinkfile, waiting_msg=waiting_msg,
 							flags=flags)
 					else:
 						writemsg("%s: chown('%s', -1, %d)\n" % \
 							(e, lockfilename, portage_gid), noiselevel=-1)
 						writemsg(_("Cannot chown a lockfile: '%s'\n") % \
 							lockfilename, noiselevel=-1)
 						writemsg(_("Group IDs of current user: %s\n") % \
 							" ".join(str(n) for n in os.getgroups()),
 							noiselevel=-1)
 		finally:
 			os.umask(old_mask)

 	elif isinstance(mypath, int):
 		myfd = mypath

 	else:
 		raise ValueError(_("Unknown type passed in '%s': '%s'") % \
 			(type(mypath), mypath))

 	# try for a non-blocking lock, if it's held, throw a message
 	# we're waiting on lockfile and use a blocking attempt.
 	locking_method = _default_lock_fn
 	try:
 		if "__PORTAGE_TEST_HARDLINK_LOCKS" in os.environ:
 			raise IOError(errno.ENOSYS, "Function not implemented")
 		locking_method(myfd, fcntl.LOCK_EX|fcntl.LOCK_NB)
 	except IOError as e:
 		if not hasattr(e, "errno"):
 			raise
 		if e.errno in (errno.EACCES, errno.EAGAIN):
 			# resource temp unavailable; eg, someone beat us to the lock.
 			if flags & os.O_NONBLOCK:
 				os.close(myfd)
 				raise TryAgain(mypath)

 			global _quiet
 			if _quiet:
 				out = None
 			else:
 				out = portage.output.EOutput()
 			if waiting_msg is None:
 				if isinstance(mypath, int):
 					waiting_msg = _("waiting for lock on fd %i") % myfd
 				else:
 					waiting_msg = _("waiting for lock on %s\n") % lockfilename
 			if out is not None:
 				out.ebegin(waiting_msg)
 			# try for the exclusive lock now.
 			try:
 				locking_method(myfd, fcntl.LOCK_EX)
 			except EnvironmentError as e:
 				if out is not None:
 					out.eend(1, str(e))
 				raise
 			if out is not None:
 				out.eend(os.EX_OK)
 		elif e.errno in (errno.ENOSYS, errno.ENOLCK):
 			# We're not allowed to lock on this FS.
 			if not isinstance(lockfilename, int):
 				# If a file object was passed in, it's not safe
 				# to close the file descriptor because it may
 				# still be in use.
 				os.close(myfd)
 			lockfilename_path = _unicode_decode(lockfilename_path,
 				encoding=_encodings['fs'], errors='strict')
 			if not isinstance(lockfilename_path, basestring):
 				raise
 			link_success = hardlink_lockfile(lockfilename_path,
 				waiting_msg=waiting_msg, flags=flags)
 			if not link_success:
 				raise
 			lockfilename = lockfilename_path
 			locking_method = None
 			myfd = HARDLINK_FD
 		else:
 			raise


 	if isinstance(lockfilename, basestring) and \
 		myfd != HARDLINK_FD and _fstat_nlink(myfd) == 0:
 		# The file was deleted on us... Keep trying to make one...
 		os.close(myfd)
 		writemsg(_("lockfile recurse\n"), 1)
 		lockfilename, myfd, unlinkfile, locking_method = lockfile(
 			mypath, wantnewlockfile=wantnewlockfile, unlinkfile=unlinkfile,
 			waiting_msg=waiting_msg, flags=flags)

 	if myfd != HARDLINK_FD:

 		try:
 			fcntl.FD_CLOEXEC
 		except AttributeError:
 			pass
 		else:
 			fcntl.fcntl(myfd, fcntl.F_SETFL,
 				fcntl.fcntl(myfd, fcntl.F_GETFL) | fcntl.FD_CLOEXEC)

 		_open_fds.add(myfd)

 	writemsg(str((lockfilename,myfd,unlinkfile))+"\n",1)
 	return (lockfilename,myfd,unlinkfile,locking_method)

 def _fstat_nlink(fd):
 	"""
 	@param fd: an open file descriptor
 	@type fd: Integer
 	@rtype: Integer
 	@return: the current number of hardlinks to the file
 	"""
 	try:
 		return os.fstat(fd).st_nlink
 	except EnvironmentError as e:
 		if e.errno in (errno.ENOENT, errno.ESTALE):
 			# Some filesystems such as CIFS return
 			# ENOENT which means st_nlink == 0.
 			return 0
 		raise

 def unlockfile(mytuple):

 	#XXX: Compatability hack.
 	if len(mytuple) == 3:
 		lockfilename,myfd,unlinkfile = mytuple
 		locking_method = fcntl.flock
 	elif len(mytuple) == 4:
 		lockfilename,myfd,unlinkfile,locking_method = mytuple
 	else:
 		raise InvalidData

 	if(myfd == HARDLINK_FD):
 		unhardlink_lockfile(lockfilename, unlinkfile=unlinkfile)
 		return True

 	# myfd may be None here due to myfd = mypath in lockfile()
 	if isinstance(lockfilename, basestring) and \
 		not os.path.exists(lockfilename):
 		writemsg(_("lockfile does not exist '%s'\n") % lockfilename,1)
 		if myfd is not None:
 			os.close(myfd)
 			_open_fds.remove(myfd)
 		return False

 	try:
 		if myfd is None:
 			myfd = os.open(lockfilename, os.O_WRONLY,0o660)
 			unlinkfile = 1
 		locking_method(myfd,fcntl.LOCK_UN)
 	except OSError:
 		if isinstance(lockfilename, basestring):
 			os.close(myfd)
 			_open_fds.remove(myfd)
 		raise IOError(_("Failed to unlock file '%s'\n") % lockfilename)

 	try:
 		# This sleep call was added to allow other processes that are
 		# waiting for a lock to be able to grab it before it is deleted.
 		# lockfile() already accounts for this situation, however, and
 		# the sleep here adds more time than is saved overall, so am
 		# commenting until it is proved necessary.
 		#time.sleep(0.0001)
 		if unlinkfile:
 			locking_method(myfd,fcntl.LOCK_EX|fcntl.LOCK_NB)
 			# We won the lock, so there isn't competition for it.
 			# We can safely delete the file.
 			writemsg(_("Got the lockfile...\n"), 1)
 			if _fstat_nlink(myfd) == 1:
 				os.unlink(lockfilename)
 				writemsg(_("Unlinked lockfile...\n"), 1)
 				locking_method(myfd,fcntl.LOCK_UN)
 			else:
 				writemsg(_("lockfile does not exist '%s'\n") % lockfilename, 1)
 				os.close(myfd)
 				_open_fds.remove(myfd)
 				return False
 	except SystemExit:
 		raise
 	except Exception as e:
 		writemsg(_("Failed to get lock... someone took it.\n"), 1)
 		writemsg(str(e)+"\n",1)

 	# why test lockfilename?  because we may have been handed an
 	# fd originally, and the caller might not like having their
 	# open fd closed automatically on them.
 	if isinstance(lockfilename, basestring):
 		os.close(myfd)
 		_open_fds.remove(myfd)

 	return True


 def hardlock_name(path):
 	base, tail = os.path.split(path)
 	return os.path.join(base, ".%s.hardlock-%s-%s" %
 		(tail, os.uname()[1], os.getpid()))

 def hardlink_is_mine(link,lock):
 	try:
 		lock_st = os.stat(lock)
 		if lock_st.st_nlink == 2:
 			link_st = os.stat(link)
 			return lock_st.st_ino == link_st.st_ino and \
 				lock_st.st_dev == link_st.st_dev
 	except OSError:
 		pass
 	return False

 def hardlink_lockfile(lockfilename, max_wait=DeprecationWarning,
 	waiting_msg=None, flags=0):
 	"""Does the NFS, hardlink shuffle to ensure locking on the disk.
 	We create a PRIVATE hardlink to the real lockfile, that is just a
 	placeholder on the disk.
 	If our file can 2 references, then we have the lock. :)
 	Otherwise we lather, rise, and repeat.
 	"""

 	if max_wait is not DeprecationWarning:
 		warnings.warn("The 'max_wait' parameter of "
 			"portage.locks.hardlink_lockfile() is now unused. Use "
 			"flags=os.O_NONBLOCK instead.",
 			DeprecationWarning, stacklevel=2)

 	global _quiet
 	out = None
 	displayed_waiting_msg = False
 	preexisting = os.path.exists(lockfilename)
 	myhardlock = hardlock_name(lockfilename)

 	# myhardlock must not exist prior to our link() call, and we can
 	# safely unlink it since its file name is unique to our PID
 	try:
 		os.unlink(myhardlock)
 	except OSError as e:
 		if e.errno in (errno.ENOENT, errno.ESTALE):
 			pass
 		else:
 			func_call = "unlink('%s')" % myhardlock
 			if e.errno == OperationNotPermitted.errno:
 				raise OperationNotPermitted(func_call)
 			elif e.errno == PermissionDenied.errno:
 				raise PermissionDenied(func_call)
 			else:
 				raise

 	while True:
 		# create lockfilename if it doesn't exist yet
 		try:
 			myfd = os.open(lockfilename, os.O_CREAT|os.O_RDWR, 0o660)
 		except OSError as e:
 			func_call = "open('%s')" % lockfilename
 			if e.errno == OperationNotPermitted.errno:
 				raise OperationNotPermitted(func_call)
 			elif e.errno == PermissionDenied.errno:
 				raise PermissionDenied(func_call)
 			else:
 				raise
 		else:
 			myfd_st = None
 			try:
 				myfd_st = os.fstat(myfd)
 				if not preexisting:
 					# Don't chown the file if it is preexisting, since we
 					# want to preserve existing permissions in that case.
 					if myfd_st.st_gid != portage_gid:
 						os.fchown(myfd, -1, portage_gid)
 			except OSError as e:
 				if e.errno not in (errno.ENOENT, errno.ESTALE):
 					writemsg("%s: fchown('%s', -1, %d)\n" % \
 						(e, lockfilename, portage_gid), noiselevel=-1)
 					writemsg(_("Cannot chown a lockfile: '%s'\n") % \
 						lockfilename, noiselevel=-1)
 					writemsg(_("Group IDs of current user: %s\n") % \
 						" ".join(str(n) for n in os.getgroups()),
 						noiselevel=-1)
 				else:
 					# another process has removed the file, so we'll have
 					# to create it again
 					continue
 			finally:
 				os.close(myfd)

 			# If fstat shows more than one hardlink, then it's extremely
 			# unlikely that the following link call will result in a lock,
 			# so optimize away the wasteful link call and sleep or raise
 			# TryAgain.
 			if myfd_st is not None and myfd_st.st_nlink < 2:
 				try:
 					os.link(lockfilename, myhardlock)
 				except OSError as e:
 					func_call = "link('%s', '%s')" % (lockfilename, myhardlock)
 					if e.errno == OperationNotPermitted.errno:
 						raise OperationNotPermitted(func_call)
 					elif e.errno == PermissionDenied.errno:
 						raise PermissionDenied(func_call)
 					elif e.errno in (errno.ESTALE, errno.ENOENT):
 						# another process has removed the file, so we'll have
 						# to create it again
 						continue
 					else:
 						raise
 				else:
 					if hardlink_is_mine(myhardlock, lockfilename):
 						if out is not None:
 							out.eend(os.EX_OK)
 						break

 					try:
 						os.unlink(myhardlock)
 					except OSError as e:
 						# This should not happen, since the file name of
 						# myhardlock is unique to our host and PID,
 						# and the above link() call succeeded.
 						if e.errno not in (errno.ENOENT, errno.ESTALE):
 							raise
 						raise FileNotFound(myhardlock)

 		if flags & os.O_NONBLOCK:
 			raise TryAgain(lockfilename)

 		if out is None and not _quiet:
 			out = portage.output.EOutput()
 		if out is not None and not displayed_waiting_msg:
 			displayed_waiting_msg = True
 			if waiting_msg is None:
 				waiting_msg = _("waiting for lock on %s\n") % lockfilename
 			out.ebegin(waiting_msg)

 		time.sleep(_HARDLINK_POLL_LATENCY)

 	return True

 def unhardlink_lockfile(lockfilename, unlinkfile=True):
 	myhardlock = hardlock_name(lockfilename)
 	if unlinkfile and hardlink_is_mine(myhardlock, lockfilename):
 		# Make sure not to touch lockfilename unless we really have a lock.
 		try:
 			os.unlink(lockfilename)
 		except OSError:
 			pass
 	try:
 		os.unlink(myhardlock)
 	except OSError:
 		pass

 def hardlock_cleanup(path, remove_all_locks=False):
 	mypid  = str(os.getpid())
 	myhost = os.uname()[1]
 	mydl = os.listdir(path)

 	results = []
 	mycount = 0

 	mylist = {}
 	for x in mydl:
 		if os.path.isfile(path+"/"+x):
 			parts = x.split(".hardlock-")
 			if len(parts) == 2:
 				filename = parts[0][1:]
 				hostpid  = parts[1].split("-")
 				host  = "-".join(hostpid[:-1])
 				pid   = hostpid[-1]

 				if filename not in mylist:
 					mylist[filename] = {}
 				if host not in mylist[filename]:
 					mylist[filename][host] = []
 				mylist[filename][host].append(pid)

 				mycount += 1


 	results.append(_("Found %(count)s locks") % {"count":mycount})

 	for x in mylist:
 		if myhost in mylist[x] or remove_all_locks:
 			mylockname = hardlock_name(path+"/"+x)
 			if hardlink_is_mine(mylockname, path+"/"+x) or \
 			   not os.path.exists(path+"/"+x) or \
 				 remove_all_locks:
 				for y in mylist[x]:
 					for z in mylist[x][y]:
 						filename = path+"/."+x+".hardlock-"+y+"-"+z
 						if filename == mylockname:
 							continue
 						try:
 							# We're sweeping through, unlinking everyone's locks.
 							os.unlink(filename)
 							results.append(_("Unlinked: ") + filename)
 						except OSError:
 							pass
 				try:
 					os.unlink(path+"/"+x)
 					results.append(_("Unlinked: ") + path+"/"+x)
 					os.unlink(mylockname)
 					results.append(_("Unlinked: ") + mylockname)
 				except OSError:
 					pass
 			else:
 				try:
 					os.unlink(mylockname)
 					results.append(_("Unlinked: ") + mylockname)
 				except OSError:
 					pass

 	return results
	# portage: Lock management code
	# Copyright 2004-2013 Gentoo Foundation
	# Distributed under the terms of the GNU General Public License v2

	__all__ = ["lockdir", "unlockdir", "lockfile", "unlockfile", \
	"hardlock_name", "hardlink_is_mine", "hardlink_lockfile", \
	"unhardlink_lockfile", "hardlock_cleanup"]

	import errno
	import fcntl
	import platform
	import sys
	import time
	import warnings

	import portage
	from portage import os, _encodings, _unicode_decode
	from portage.exception import DirectoryNotFound, FileNotFound, \
	InvalidData, TryAgain, OperationNotPermitted, PermissionDenied
	from portage.data import portage_gid
	from portage.util import writemsg
	from portage.localization import _

	if sys.hexversion >= 0x3000000:
	basestring = str

	HARDLINK_FD = -2
	_HARDLINK_POLL_LATENCY = 3 # seconds
	_default_lock_fn = fcntl.lockf

	if platform.python_implementation() == 'PyPy':
	# workaround for https://bugs.pypy.org/issue747
	_default_lock_fn = fcntl.flock

	# Used by emerge in order to disable the "waiting for lock" message
	# so that it doesn't interfere with the status display.
	_quiet = False


	_open_fds = set()

	def _close_fds():
	"""
	This is intended to be called after a fork, in order to close file
	descriptors for locks held by the parent process. This can be called
	safely after a fork without exec, unlike the _setup_pipes close_fds
	behavior.
	"""
	while _open_fds:
	os.close(_open_fds.pop())

	def lockdir(mydir, flags=0):
	return lockfile(mydir, wantnewlockfile=1, flags=flags)
	def unlockdir(mylock):
	return unlockfile(mylock)

	def lockfile(mypath, wantnewlockfile=0, unlinkfile=0,
	waiting_msg=None, flags=0):
	"""
	If wantnewlockfile is True then this creates a lockfile in the parent
	directory as the file: '.' + basename + '.portage_lockfile'.
	"""

	if not mypath:
	raise InvalidData(_("Empty path given"))

	# Support for file object or integer file descriptor parameters is
	# deprecated due to ambiguity in whether or not it's safe to close
	# the file descriptor, making it prone to "Bad file descriptor" errors
	# or file descriptor leaks.
	if isinstance(mypath, basestring) and mypath[-1] == '/':
	mypath = mypath[:-1]

	lockfilename_path = mypath
	if hasattr(mypath, 'fileno'):
	warnings.warn("portage.locks.lockfile() support for "
	"file object parameters is deprecated. Use a file path instead.",
	DeprecationWarning, stacklevel=2)
	lockfilename_path = getattr(mypath, 'name', None)
	mypath = mypath.fileno()
	if isinstance(mypath, int):
	warnings.warn("portage.locks.lockfile() support for integer file "
	"descriptor parameters is deprecated. Use a file path instead.",
	DeprecationWarning, stacklevel=2)
	lockfilename = mypath
	wantnewlockfile = 0
	unlinkfile = 0
	elif wantnewlockfile:
	base, tail = os.path.split(mypath)
	lockfilename = os.path.join(base, "." + tail + ".portage_lockfile")
	lockfilename_path = lockfilename
	unlinkfile = 1
	else:
	lockfilename = mypath

	if isinstance(mypath, basestring):
	if not os.path.exists(os.path.dirname(mypath)):
	raise DirectoryNotFound(os.path.dirname(mypath))
	preexisting = os.path.exists(lockfilename)
	old_mask = os.umask(000)
	try:
	try:
	myfd = os.open(lockfilename, os.O_CREAT\|os.O_RDWR, 0o660)
	except OSError as e:
	func_call = "open('%s')" % lockfilename
	if e.errno == OperationNotPermitted.errno:
	raise OperationNotPermitted(func_call)
	elif e.errno == PermissionDenied.errno:
	raise PermissionDenied(func_call)
	else:
	raise

	if not preexisting:
	try:
	if os.stat(lockfilename).st_gid != portage_gid:
	os.chown(lockfilename, -1, portage_gid)
	except OSError as e:
	if e.errno in (errno.ENOENT, errno.ESTALE):
	return lockfile(mypath,
	wantnewlockfile=wantnewlockfile,
	unlinkfile=unlinkfile, waiting_msg=waiting_msg,
	flags=flags)
	else:
	writemsg("%s: chown('%s', -1, %d)\n" % \
	(e, lockfilename, portage_gid), noiselevel=-1)
	writemsg(_("Cannot chown a lockfile: '%s'\n") % \
	lockfilename, noiselevel=-1)
	writemsg(_("Group IDs of current user: %s\n") % \
	" ".join(str(n) for n in os.getgroups()),
	noiselevel=-1)
	finally:
	os.umask(old_mask)

	elif isinstance(mypath, int):
	myfd = mypath

	else:
	raise ValueError(_("Unknown type passed in '%s': '%s'") % \
	(type(mypath), mypath))

	# try for a non-blocking lock, if it's held, throw a message
	# we're waiting on lockfile and use a blocking attempt.
	locking_method = _default_lock_fn
	try:
	if "__PORTAGE_TEST_HARDLINK_LOCKS" in os.environ:
	raise IOError(errno.ENOSYS, "Function not implemented")
	locking_method(myfd, fcntl.LOCK_EX\|fcntl.LOCK_NB)
	except IOError as e:
	if not hasattr(e, "errno"):
	raise
	if e.errno in (errno.EACCES, errno.EAGAIN):
	# resource temp unavailable; eg, someone beat us to the lock.
	if flags & os.O_NONBLOCK:
	os.close(myfd)
	raise TryAgain(mypath)

	global _quiet
	if _quiet:
	out = None
	else:
	out = portage.output.EOutput()
	if waiting_msg is None:
	if isinstance(mypath, int):
	waiting_msg = _("waiting for lock on fd %i") % myfd
	else:
	waiting_msg = _("waiting for lock on %s\n") % lockfilename
	if out is not None:
	out.ebegin(waiting_msg)
	# try for the exclusive lock now.
	try:
	locking_method(myfd, fcntl.LOCK_EX)
	except EnvironmentError as e:
	if out is not None:
	out.eend(1, str(e))
	raise
	if out is not None:
	out.eend(os.EX_OK)
	elif e.errno in (errno.ENOSYS, errno.ENOLCK):
	# We're not allowed to lock on this FS.
	if not isinstance(lockfilename, int):
	# If a file object was passed in, it's not safe
	# to close the file descriptor because it may
	# still be in use.
	os.close(myfd)
	lockfilename_path = _unicode_decode(lockfilename_path,
	encoding=_encodings['fs'], errors='strict')
	if not isinstance(lockfilename_path, basestring):
	raise
	link_success = hardlink_lockfile(lockfilename_path,
	waiting_msg=waiting_msg, flags=flags)
	if not link_success:
	raise
	lockfilename = lockfilename_path
	locking_method = None
	myfd = HARDLINK_FD
	else:
	raise


	if isinstance(lockfilename, basestring) and \
	myfd != HARDLINK_FD and _fstat_nlink(myfd) == 0:
	# The file was deleted on us... Keep trying to make one...
	os.close(myfd)
	writemsg(_("lockfile recurse\n"), 1)
	lockfilename, myfd, unlinkfile, locking_method = lockfile(
	mypath, wantnewlockfile=wantnewlockfile, unlinkfile=unlinkfile,
	waiting_msg=waiting_msg, flags=flags)

	if myfd != HARDLINK_FD:

	try:
	fcntl.FD_CLOEXEC
	except AttributeError:
	pass
	else:
	fcntl.fcntl(myfd, fcntl.F_SETFL,
	fcntl.fcntl(myfd, fcntl.F_GETFL) \| fcntl.FD_CLOEXEC)

	_open_fds.add(myfd)

	writemsg(str((lockfilename,myfd,unlinkfile))+"\n",1)
	return (lockfilename,myfd,unlinkfile,locking_method)

	def _fstat_nlink(fd):
	"""
	@param fd: an open file descriptor
	@type fd: Integer
	@rtype: Integer
	@return: the current number of hardlinks to the file
	"""
	try:
	return os.fstat(fd).st_nlink
	except EnvironmentError as e:
	if e.errno in (errno.ENOENT, errno.ESTALE):
	# Some filesystems such as CIFS return
	# ENOENT which means st_nlink == 0.
	return 0
	raise

	def unlockfile(mytuple):

	#XXX: Compatability hack.
	if len(mytuple) == 3:
	lockfilename,myfd,unlinkfile = mytuple
	locking_method = fcntl.flock
	elif len(mytuple) == 4:
	lockfilename,myfd,unlinkfile,locking_method = mytuple
	else:
	raise InvalidData

	if(myfd == HARDLINK_FD):
	unhardlink_lockfile(lockfilename, unlinkfile=unlinkfile)
	return True

	# myfd may be None here due to myfd = mypath in lockfile()
	if isinstance(lockfilename, basestring) and \
	not os.path.exists(lockfilename):
	writemsg(_("lockfile does not exist '%s'\n") % lockfilename,1)
	if myfd is not None:
	os.close(myfd)
	_open_fds.remove(myfd)
	return False

	try:
	if myfd is None:
	myfd = os.open(lockfilename, os.O_WRONLY,0o660)
	unlinkfile = 1
	locking_method(myfd,fcntl.LOCK_UN)
	except OSError:
	if isinstance(lockfilename, basestring):
	os.close(myfd)
	_open_fds.remove(myfd)
	raise IOError(_("Failed to unlock file '%s'\n") % lockfilename)

	try:
	# This sleep call was added to allow other processes that are
	# waiting for a lock to be able to grab it before it is deleted.
	# lockfile() already accounts for this situation, however, and
	# the sleep here adds more time than is saved overall, so am
	# commenting until it is proved necessary.
	#time.sleep(0.0001)
	if unlinkfile:
	locking_method(myfd,fcntl.LOCK_EX\|fcntl.LOCK_NB)
	# We won the lock, so there isn't competition for it.
	# We can safely delete the file.
	writemsg(_("Got the lockfile...\n"), 1)
	if _fstat_nlink(myfd) == 1:
	os.unlink(lockfilename)
	writemsg(_("Unlinked lockfile...\n"), 1)
	locking_method(myfd,fcntl.LOCK_UN)
	else:
	writemsg(_("lockfile does not exist '%s'\n") % lockfilename, 1)
	os.close(myfd)
	_open_fds.remove(myfd)
	return False
	except SystemExit:
	raise
	except Exception as e:
	writemsg(_("Failed to get lock... someone took it.\n"), 1)
	writemsg(str(e)+"\n",1)

	# why test lockfilename? because we may have been handed an
	# fd originally, and the caller might not like having their
	# open fd closed automatically on them.
	if isinstance(lockfilename, basestring):
	os.close(myfd)
	_open_fds.remove(myfd)

	return True




	def hardlock_name(path):
	base, tail = os.path.split(path)
	return os.path.join(base, ".%s.hardlock-%s-%s" %
	(tail, os.uname()[1], os.getpid()))

	def hardlink_is_mine(link,lock):
	try:
	lock_st = os.stat(lock)
	if lock_st.st_nlink == 2:
	link_st = os.stat(link)
	return lock_st.st_ino == link_st.st_ino and \
	lock_st.st_dev == link_st.st_dev
	except OSError:
	pass
	return False

	def hardlink_lockfile(lockfilename, max_wait=DeprecationWarning,
	waiting_msg=None, flags=0):
	"""Does the NFS, hardlink shuffle to ensure locking on the disk.
	We create a PRIVATE hardlink to the real lockfile, that is just a
	placeholder on the disk.
	If our file can 2 references, then we have the lock. :)
	Otherwise we lather, rise, and repeat.
	"""

	if max_wait is not DeprecationWarning:
	warnings.warn("The 'max_wait' parameter of "
	"portage.locks.hardlink_lockfile() is now unused. Use "
	"flags=os.O_NONBLOCK instead.",
	DeprecationWarning, stacklevel=2)

	global _quiet
	out = None
	displayed_waiting_msg = False
	preexisting = os.path.exists(lockfilename)
	myhardlock = hardlock_name(lockfilename)

	# myhardlock must not exist prior to our link() call, and we can
	# safely unlink it since its file name is unique to our PID
	try:
	os.unlink(myhardlock)
	except OSError as e:
	if e.errno in (errno.ENOENT, errno.ESTALE):
	pass
	else:
	func_call = "unlink('%s')" % myhardlock
	if e.errno == OperationNotPermitted.errno:
	raise OperationNotPermitted(func_call)
	elif e.errno == PermissionDenied.errno:
	raise PermissionDenied(func_call)
	else:
	raise

	while True:
	# create lockfilename if it doesn't exist yet
	try:
	myfd = os.open(lockfilename, os.O_CREAT\|os.O_RDWR, 0o660)
	except OSError as e:
	func_call = "open('%s')" % lockfilename
	if e.errno == OperationNotPermitted.errno:
	raise OperationNotPermitted(func_call)
	elif e.errno == PermissionDenied.errno:
	raise PermissionDenied(func_call)
	else:
	raise
	else:
	myfd_st = None
	try:
	myfd_st = os.fstat(myfd)
	if not preexisting:
	# Don't chown the file if it is preexisting, since we
	# want to preserve existing permissions in that case.
	if myfd_st.st_gid != portage_gid:
	os.fchown(myfd, -1, portage_gid)
	except OSError as e:
	if e.errno not in (errno.ENOENT, errno.ESTALE):
	writemsg("%s: fchown('%s', -1, %d)\n" % \
	(e, lockfilename, portage_gid), noiselevel=-1)
	writemsg(_("Cannot chown a lockfile: '%s'\n") % \
	lockfilename, noiselevel=-1)
	writemsg(_("Group IDs of current user: %s\n") % \
	" ".join(str(n) for n in os.getgroups()),
	noiselevel=-1)
	else:
	# another process has removed the file, so we'll have
	# to create it again
	continue
	finally:
	os.close(myfd)

	# If fstat shows more than one hardlink, then it's extremely
	# unlikely that the following link call will result in a lock,
	# so optimize away the wasteful link call and sleep or raise
	# TryAgain.
	if myfd_st is not None and myfd_st.st_nlink < 2:
	try:
	os.link(lockfilename, myhardlock)
	except OSError as e:
	func_call = "link('%s', '%s')" % (lockfilename, myhardlock)
	if e.errno == OperationNotPermitted.errno:
	raise OperationNotPermitted(func_call)
	elif e.errno == PermissionDenied.errno:
	raise PermissionDenied(func_call)
	elif e.errno in (errno.ESTALE, errno.ENOENT):
	# another process has removed the file, so we'll have
	# to create it again
	continue
	else:
	raise
	else:
	if hardlink_is_mine(myhardlock, lockfilename):
	if out is not None:
	out.eend(os.EX_OK)
	break

	try:
	os.unlink(myhardlock)
	except OSError as e:
	# This should not happen, since the file name of
	# myhardlock is unique to our host and PID,
	# and the above link() call succeeded.
	if e.errno not in (errno.ENOENT, errno.ESTALE):
	raise
	raise FileNotFound(myhardlock)

	if flags & os.O_NONBLOCK:
	raise TryAgain(lockfilename)

	if out is None and not _quiet:
	out = portage.output.EOutput()
	if out is not None and not displayed_waiting_msg:
	displayed_waiting_msg = True
	if waiting_msg is None:
	waiting_msg = _("waiting for lock on %s\n") % lockfilename
	out.ebegin(waiting_msg)

	time.sleep(_HARDLINK_POLL_LATENCY)

	return True

	def unhardlink_lockfile(lockfilename, unlinkfile=True):
	myhardlock = hardlock_name(lockfilename)
	if unlinkfile and hardlink_is_mine(myhardlock, lockfilename):
	# Make sure not to touch lockfilename unless we really have a lock.
	try:
	os.unlink(lockfilename)
	except OSError:
	pass
	try:
	os.unlink(myhardlock)
	except OSError:
	pass

	def hardlock_cleanup(path, remove_all_locks=False):
	mypid = str(os.getpid())
	myhost = os.uname()[1]
	mydl = os.listdir(path)

	results = []
	mycount = 0

	mylist = {}
	for x in mydl:
	if os.path.isfile(path+"/"+x):
	parts = x.split(".hardlock-")
	if len(parts) == 2:
	filename = parts[0][1:]
	hostpid = parts[1].split("-")
	host = "-".join(hostpid[:-1])
	pid = hostpid[-1]

	if filename not in mylist:
	mylist[filename] = {}
	if host not in mylist[filename]:
	mylist[filename][host] = []
	mylist[filename][host].append(pid)

	mycount += 1


	results.append(_("Found %(count)s locks") % {"count":mycount})

	for x in mylist:
	if myhost in mylist[x] or remove_all_locks:
	mylockname = hardlock_name(path+"/"+x)
	if hardlink_is_mine(mylockname, path+"/"+x) or \
	not os.path.exists(path+"/"+x) or \
	remove_all_locks:
	for y in mylist[x]:
	for z in mylist[x][y]:
	filename = path+"/."+x+".hardlock-"+y+"-"+z
	if filename == mylockname:
	continue
	try:
	# We're sweeping through, unlinking everyone's locks.
	os.unlink(filename)
	results.append(_("Unlinked: ") + filename)
	except OSError:
	pass
	try:
	os.unlink(path+"/"+x)
	results.append(_("Unlinked: ") + path+"/"+x)
	os.unlink(mylockname)
	results.append(_("Unlinked: ") + mylockname)
	except OSError:
	pass
	else:
	try:
	os.unlink(mylockname)
	results.append(_("Unlinked: ") + mylockname)
	except OSError:
	pass

	return results