upstream/mercurial-mirror Files · mercurial/pure/osutil.py

repair: implement requirements checking for upgrades...

repair: implement requirements checking for upgrades This commit introduces functionality for upgrading a repository in place. The first part that's implemented is testing for upgrade "compatibility." This is done by examining repository requirements. There are 5 functions returning sets of requirements that control upgrading. Why so many functions? Mainly to support extensions. Functions are easier to monkeypatch than module variables. Astute readers will see that we don't support "manifestv2" and "treemanifest" requirements in the upgrade mechanism. I don't have a great answer for why other than this is a complex set of patches and I don't want to deal with the complexity of these experimental features just yet. We can teach the upgrade mechanism about them later, once the basic upgrade mechanism is in place. This commit also introduces the "upgraderepo" function. This will be our main routine for performing an in-place upgrade. Currently, it just implements requirements checking. The structure of some code in this function may look a bit weird (e.g. the inline function that is only called once). But this will make sense after future commits.

Pulkit Goyal - - Load All Authors

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      # osutil.py - pure Python version of osutil.c

      #

      #  Copyright 2009 Matt Mackall <mpm@selenic.com> and others

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      from __future__ import absolute_import

      import ctypes

      import ctypes.util

      import os

      import socket

      import stat as statmod

      from . import (

          policy,

          pycompat,

      )

      modulepolicy = policy.policy

      policynocffi = policy.policynocffi

      def _mode_to_kind(mode):

          if statmod.S_ISREG(mode):

              return statmod.S_IFREG

          if statmod.S_ISDIR(mode):

              return statmod.S_IFDIR

          if statmod.S_ISLNK(mode):

              return statmod.S_IFLNK

          if statmod.S_ISBLK(mode):

              return statmod.S_IFBLK

          if statmod.S_ISCHR(mode):

              return statmod.S_IFCHR

          if statmod.S_ISFIFO(mode):

              return statmod.S_IFIFO

          if statmod.S_ISSOCK(mode):

              return statmod.S_IFSOCK

          return mode

      def listdirpure(path, stat=False, skip=None):

          '''listdir(path, stat=False) -> list_of_tuples

          Return a sorted list containing information about the entries

          in the directory.

          If stat is True, each element is a 3-tuple:

            (name, type, stat object)

          Otherwise, each element is a 2-tuple:

            (name, type)

          '''

          result = []

          prefix = path

          if not prefix.endswith(pycompat.ossep):

              prefix += pycompat.ossep

          names = os.listdir(path)

          names.sort()

          for fn in names:

              st = os.lstat(prefix + fn)

              if fn == skip and statmod.S_ISDIR(st.st_mode):

                  return []

              if stat:

                  result.append((fn, _mode_to_kind(st.st_mode), st))

              else:

                  result.append((fn, _mode_to_kind(st.st_mode)))

          return result

      ffi = None

      if modulepolicy not in policynocffi and pycompat.sysplatform == 'darwin':

          try:

              from _osutil_cffi import ffi, lib

          except ImportError:

              if modulepolicy == 'cffi': # strict cffi import

                  raise

      if pycompat.sysplatform == 'darwin' and ffi is not None:

          listdir_batch_size = 4096

          # tweakable number, only affects performance, which chunks

          # of bytes do we get back from getattrlistbulk

          attrkinds = [None] * 20 # we need the max no for enum VXXX, 20 is plenty

          attrkinds[lib.VREG] = statmod.S_IFREG

          attrkinds[lib.VDIR] = statmod.S_IFDIR

          attrkinds[lib.VLNK] = statmod.S_IFLNK

          attrkinds[lib.VBLK] = statmod.S_IFBLK

          attrkinds[lib.VCHR] = statmod.S_IFCHR

          attrkinds[lib.VFIFO] = statmod.S_IFIFO

          attrkinds[lib.VSOCK] = statmod.S_IFSOCK

          class stat_res(object):

              def __init__(self, st_mode, st_mtime, st_size):

                  self.st_mode = st_mode

                  self.st_mtime = st_mtime

                  self.st_size = st_size

          tv_sec_ofs = ffi.offsetof("struct timespec", "tv_sec")

          buf = ffi.new("char[]", listdir_batch_size)

          def listdirinternal(dfd, req, stat, skip):

              ret = []

              while True:

                  r = lib.getattrlistbulk(dfd, req, buf, listdir_batch_size, 0)

                  if r == 0:

                      break

                  if r == -1:

                      raise OSError(ffi.errno, os.strerror(ffi.errno))

                  cur = ffi.cast("val_attrs_t*", buf)

                  for i in range(r):

                      lgt = cur.length

                      assert lgt == ffi.cast('uint32_t*', cur)[0]

                      ofs = cur.name_info.attr_dataoffset

                      str_lgt = cur.name_info.attr_length

                      base_ofs = ffi.offsetof('val_attrs_t', 'name_info')

                      name = str(ffi.buffer(ffi.cast("char*", cur) + base_ofs + ofs,

                                 str_lgt - 1))

                      tp = attrkinds[cur.obj_type]

                      if name == "." or name == "..":

                          continue

                      if skip == name and tp == statmod.S_ISDIR:

                          return []

                      if stat:

                          mtime = cur.mtime.tv_sec

                          mode = (cur.accessmask & ~lib.S_IFMT)| tp

                          ret.append((name, tp, stat_res(st_mode=mode, st_mtime=mtime,

                                      st_size=cur.datalength)))

                      else:

                          ret.append((name, tp))

                      cur = ffi.cast("val_attrs_t*", int(ffi.cast("intptr_t", cur))

                          + lgt)

              return ret

          def listdir(path, stat=False, skip=None):

              req = ffi.new("struct attrlist*")

              req.bitmapcount = lib.ATTR_BIT_MAP_COUNT

              req.commonattr = (lib.ATTR_CMN_RETURNED_ATTRS |

                                lib.ATTR_CMN_NAME |

                                lib.ATTR_CMN_OBJTYPE |

                                lib.ATTR_CMN_ACCESSMASK |

                                lib.ATTR_CMN_MODTIME)

              req.fileattr = lib.ATTR_FILE_DATALENGTH

              dfd = lib.open(path, lib.O_RDONLY, 0)

              if dfd == -1:

                  raise OSError(ffi.errno, os.strerror(ffi.errno))

              try:

                  ret = listdirinternal(dfd, req, stat, skip)

              finally:

                  try:

                      lib.close(dfd)

                  except BaseException:

                      pass # we ignore all the errors from closing, not

                      # much we can do about that

              return ret

      else:

          listdir = listdirpure

      if pycompat.osname != 'nt':

          posixfile = open

          _SCM_RIGHTS = 0x01

          _socklen_t = ctypes.c_uint

          if pycompat.sysplatform.startswith('linux'):

              # socket.h says "the type should be socklen_t but the definition of

              # the kernel is incompatible with this."

              _cmsg_len_t = ctypes.c_size_t

              _msg_controllen_t = ctypes.c_size_t

              _msg_iovlen_t = ctypes.c_size_t

          else:

              _cmsg_len_t = _socklen_t

              _msg_controllen_t = _socklen_t

              _msg_iovlen_t = ctypes.c_int

          class _iovec(ctypes.Structure):

              _fields_ = [

                  (u'iov_base', ctypes.c_void_p),

                  (u'iov_len', ctypes.c_size_t),

              ]

          class _msghdr(ctypes.Structure):

              _fields_ = [

                  (u'msg_name', ctypes.c_void_p),

                  (u'msg_namelen', _socklen_t),

                  (u'msg_iov', ctypes.POINTER(_iovec)),

                  (u'msg_iovlen', _msg_iovlen_t),

                  (u'msg_control', ctypes.c_void_p),

                  (u'msg_controllen', _msg_controllen_t),

                  (u'msg_flags', ctypes.c_int),

              ]

          class _cmsghdr(ctypes.Structure):

              _fields_ = [

                  (u'cmsg_len', _cmsg_len_t),

                  (u'cmsg_level', ctypes.c_int),

                  (u'cmsg_type', ctypes.c_int),

                  (u'cmsg_data', ctypes.c_ubyte * 0),

              ]

          _libc = ctypes.CDLL(ctypes.util.find_library(u'c'), use_errno=True)

          _recvmsg = getattr(_libc, 'recvmsg', None)

          if _recvmsg:

              _recvmsg.restype = getattr(ctypes, 'c_ssize_t', ctypes.c_long)

              _recvmsg.argtypes = (ctypes.c_int, ctypes.POINTER(_msghdr),

                                   ctypes.c_int)

          else:

              # recvmsg isn't always provided by libc; such systems are unsupported

              def _recvmsg(sockfd, msg, flags):

                  raise NotImplementedError('unsupported platform')

          def _CMSG_FIRSTHDR(msgh):

              if msgh.msg_controllen < ctypes.sizeof(_cmsghdr):

                  return

              cmsgptr = ctypes.cast(msgh.msg_control, ctypes.POINTER(_cmsghdr))

              return cmsgptr.contents

          # The pure version is less portable than the native version because the

          # handling of socket ancillary data heavily depends on C preprocessor.

          # Also, some length fields are wrongly typed in Linux kernel.

          def recvfds(sockfd):

              """receive list of file descriptors via socket"""

              dummy = (ctypes.c_ubyte * 1)()

              iov = _iovec(ctypes.cast(dummy, ctypes.c_void_p), ctypes.sizeof(dummy))

              cbuf = ctypes.create_string_buffer(256)

              msgh = _msghdr(None, 0,

                             ctypes.pointer(iov), 1,

                             ctypes.cast(cbuf, ctypes.c_void_p), ctypes.sizeof(cbuf),

                             0)

              r = _recvmsg(sockfd, ctypes.byref(msgh), 0)

              if r < 0:

                  e = ctypes.get_errno()

                  raise OSError(e, os.strerror(e))

              # assumes that the first cmsg has fds because it isn't easy to write

              # portable CMSG_NXTHDR() with ctypes.

              cmsg = _CMSG_FIRSTHDR(msgh)

              if not cmsg:

                  return []

              if (cmsg.cmsg_level != socket.SOL_SOCKET or

                  cmsg.cmsg_type != _SCM_RIGHTS):

                  return []

              rfds = ctypes.cast(cmsg.cmsg_data, ctypes.POINTER(ctypes.c_int))

              rfdscount = ((cmsg.cmsg_len - _cmsghdr.cmsg_data.offset) /

                           ctypes.sizeof(ctypes.c_int))

              return [rfds[i] for i in xrange(rfdscount)]

      else:

          import msvcrt

          _kernel32 = ctypes.windll.kernel32

          _DWORD = ctypes.c_ulong

          _LPCSTR = _LPSTR = ctypes.c_char_p

          _HANDLE = ctypes.c_void_p

          _INVALID_HANDLE_VALUE = _HANDLE(-1).value

          # CreateFile

          _FILE_SHARE_READ = 0x00000001

          _FILE_SHARE_WRITE = 0x00000002

          _FILE_SHARE_DELETE = 0x00000004

          _CREATE_ALWAYS = 2

          _OPEN_EXISTING = 3

          _OPEN_ALWAYS = 4

          _GENERIC_READ = 0x80000000

          _GENERIC_WRITE = 0x40000000

          _FILE_ATTRIBUTE_NORMAL = 0x80

          # open_osfhandle flags

          _O_RDONLY = 0x0000

          _O_RDWR = 0x0002

          _O_APPEND = 0x0008

          _O_TEXT = 0x4000

          _O_BINARY = 0x8000

          # types of parameters of C functions used (required by pypy)

          _kernel32.CreateFileA.argtypes = [_LPCSTR, _DWORD, _DWORD, ctypes.c_void_p,

              _DWORD, _DWORD, _HANDLE]

          _kernel32.CreateFileA.restype = _HANDLE

          def _raiseioerror(name):

              err = ctypes.WinError()

              raise IOError(err.errno, '%s: %s' % (name, err.strerror))

          class posixfile(object):

              '''a file object aiming for POSIX-like semantics

              CPython's open() returns a file that was opened *without* setting the

              _FILE_SHARE_DELETE flag, which causes rename and unlink to abort.

              This even happens if any hardlinked copy of the file is in open state.

              We set _FILE_SHARE_DELETE here, so files opened with posixfile can be

              renamed and deleted while they are held open.

              Note that if a file opened with posixfile is unlinked, the file

              remains but cannot be opened again or be recreated under the same name,

              until all reading processes have closed the file.'''

              def __init__(self, name, mode='r', bufsize=-1):

                  if 'b' in mode:

                      flags = _O_BINARY

                  else:

                      flags = _O_TEXT

                  m0 = mode[0]

                  if m0 == 'r' and '+' not in mode:

                      flags |= _O_RDONLY

                      access = _GENERIC_READ

                  else:

                      # work around http://support.microsoft.com/kb/899149 and

                      # set _O_RDWR for 'w' and 'a', even if mode has no '+'

                      flags |= _O_RDWR

                      access = _GENERIC_READ | _GENERIC_WRITE

                  if m0 == 'r':

                      creation = _OPEN_EXISTING

                  elif m0 == 'w':

                      creation = _CREATE_ALWAYS

                  elif m0 == 'a':

                      creation = _OPEN_ALWAYS

                      flags |= _O_APPEND

                  else:

                      raise ValueError("invalid mode: %s" % mode)

                  fh = _kernel32.CreateFileA(name, access,

                          _FILE_SHARE_READ | _FILE_SHARE_WRITE | _FILE_SHARE_DELETE,

                          None, creation, _FILE_ATTRIBUTE_NORMAL, None)

                  if fh == _INVALID_HANDLE_VALUE:

                      _raiseioerror(name)

                  fd = msvcrt.open_osfhandle(fh, flags)

                  if fd == -1:

                      _kernel32.CloseHandle(fh)

                      _raiseioerror(name)

                  f = os.fdopen(fd, mode, bufsize)

                  # unfortunately, f.name is '<fdopen>' at this point -- so we store

                  # the name on this wrapper. We cannot just assign to f.name,

                  # because that attribute is read-only.

                  object.__setattr__(self, 'name', name)

                  object.__setattr__(self, '_file', f)

              def __iter__(self):

                  return self._file

              def __getattr__(self, name):

                  return getattr(self._file, name)

              def __setattr__(self, name, value):

                  '''mimics the read-only attributes of Python file objects

                  by raising 'TypeError: readonly attribute' if someone tries:

                    f = posixfile('foo.txt')

                    f.name = 'bla'  '''

                  return self._file.__setattr__(name, value)

              def __enter__(self):

                  return self._file.__enter__()

              def __exit__(self, exc_type, exc_value, exc_tb):

                  return self._file.__exit__(exc_type, exc_value, exc_tb)

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				# osutil.py - pure Python version of osutil.c
				#
				# Copyright 2009 Matt Mackall <mpm@selenic.com> and others
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				from __future__ import absolute_import

				import ctypes
				import ctypes.util
				import os
				import socket
				import stat as statmod

				from . import (
				policy,
				pycompat,
				)

				modulepolicy = policy.policy
				policynocffi = policy.policynocffi

				def _mode_to_kind(mode):
				if statmod.S_ISREG(mode):
				return statmod.S_IFREG
				if statmod.S_ISDIR(mode):
				return statmod.S_IFDIR
				if statmod.S_ISLNK(mode):
				return statmod.S_IFLNK
				if statmod.S_ISBLK(mode):
				return statmod.S_IFBLK
				if statmod.S_ISCHR(mode):
				return statmod.S_IFCHR
				if statmod.S_ISFIFO(mode):
				return statmod.S_IFIFO
				if statmod.S_ISSOCK(mode):
				return statmod.S_IFSOCK
				return mode

				def listdirpure(path, stat=False, skip=None):
				'''listdir(path, stat=False) -> list_of_tuples

				Return a sorted list containing information about the entries
				in the directory.

				If stat is True, each element is a 3-tuple:

				(name, type, stat object)

				Otherwise, each element is a 2-tuple:

				(name, type)
				'''
				result = []
				prefix = path
				if not prefix.endswith(pycompat.ossep):
				prefix += pycompat.ossep
				names = os.listdir(path)
				names.sort()
				for fn in names:
				st = os.lstat(prefix + fn)
				if fn == skip and statmod.S_ISDIR(st.st_mode):
				return []
				if stat:
				result.append((fn, _mode_to_kind(st.st_mode), st))
				else:
				result.append((fn, _mode_to_kind(st.st_mode)))
				return result

				ffi = None
				if modulepolicy not in policynocffi and pycompat.sysplatform == 'darwin':
				try:
				from _osutil_cffi import ffi, lib
				except ImportError:
				if modulepolicy == 'cffi': # strict cffi import
				raise

				if pycompat.sysplatform == 'darwin' and ffi is not None:
				listdir_batch_size = 4096
				# tweakable number, only affects performance, which chunks
				# of bytes do we get back from getattrlistbulk

				attrkinds = [None] * 20 # we need the max no for enum VXXX, 20 is plenty

				attrkinds[lib.VREG] = statmod.S_IFREG
				attrkinds[lib.VDIR] = statmod.S_IFDIR
				attrkinds[lib.VLNK] = statmod.S_IFLNK
				attrkinds[lib.VBLK] = statmod.S_IFBLK
				attrkinds[lib.VCHR] = statmod.S_IFCHR
				attrkinds[lib.VFIFO] = statmod.S_IFIFO
				attrkinds[lib.VSOCK] = statmod.S_IFSOCK

				class stat_res(object):
				def __init__(self, st_mode, st_mtime, st_size):
				self.st_mode = st_mode
				self.st_mtime = st_mtime
				self.st_size = st_size

				tv_sec_ofs = ffi.offsetof("struct timespec", "tv_sec")
				buf = ffi.new("char[]", listdir_batch_size)

				def listdirinternal(dfd, req, stat, skip):
				ret = []
				while True:
				r = lib.getattrlistbulk(dfd, req, buf, listdir_batch_size, 0)
				if r == 0:
				break
				if r == -1:
				raise OSError(ffi.errno, os.strerror(ffi.errno))
				cur = ffi.cast("val_attrs_t*", buf)
				for i in range(r):
				lgt = cur.length
				assert lgt == ffi.cast('uint32_t*', cur)[0]
				ofs = cur.name_info.attr_dataoffset
				str_lgt = cur.name_info.attr_length
				base_ofs = ffi.offsetof('val_attrs_t', 'name_info')
				name = str(ffi.buffer(ffi.cast("char*", cur) + base_ofs + ofs,
				str_lgt - 1))
				tp = attrkinds[cur.obj_type]
				if name == "." or name == "..":
				continue
				if skip == name and tp == statmod.S_ISDIR:
				return []
				if stat:
				mtime = cur.mtime.tv_sec
				mode = (cur.accessmask & ~lib.S_IFMT)\| tp
				ret.append((name, tp, stat_res(st_mode=mode, st_mtime=mtime,
				st_size=cur.datalength)))
				else:
				ret.append((name, tp))
				cur = ffi.cast("val_attrs_t*", int(ffi.cast("intptr_t", cur))
				+ lgt)
				return ret

				def listdir(path, stat=False, skip=None):
				req = ffi.new("struct attrlist*")
				req.bitmapcount = lib.ATTR_BIT_MAP_COUNT
				req.commonattr = (lib.ATTR_CMN_RETURNED_ATTRS \|
				lib.ATTR_CMN_NAME \|
				lib.ATTR_CMN_OBJTYPE \|
				lib.ATTR_CMN_ACCESSMASK \|
				lib.ATTR_CMN_MODTIME)
				req.fileattr = lib.ATTR_FILE_DATALENGTH
				dfd = lib.open(path, lib.O_RDONLY, 0)
				if dfd == -1:
				raise OSError(ffi.errno, os.strerror(ffi.errno))

				try:
				ret = listdirinternal(dfd, req, stat, skip)
				finally:
				try:
				lib.close(dfd)
				except BaseException:
				pass # we ignore all the errors from closing, not
				# much we can do about that
				return ret
				else:
				listdir = listdirpure

				if pycompat.osname != 'nt':
				posixfile = open

				_SCM_RIGHTS = 0x01
				_socklen_t = ctypes.c_uint

				if pycompat.sysplatform.startswith('linux'):
				# socket.h says "the type should be socklen_t but the definition of
				# the kernel is incompatible with this."
				_cmsg_len_t = ctypes.c_size_t
				_msg_controllen_t = ctypes.c_size_t
				_msg_iovlen_t = ctypes.c_size_t
				else:
				_cmsg_len_t = _socklen_t
				_msg_controllen_t = _socklen_t
				_msg_iovlen_t = ctypes.c_int

				class _iovec(ctypes.Structure):
				_fields_ = [
				(u'iov_base', ctypes.c_void_p),
				(u'iov_len', ctypes.c_size_t),
				]

				class _msghdr(ctypes.Structure):
				_fields_ = [
				(u'msg_name', ctypes.c_void_p),
				(u'msg_namelen', _socklen_t),
				(u'msg_iov', ctypes.POINTER(_iovec)),
				(u'msg_iovlen', _msg_iovlen_t),
				(u'msg_control', ctypes.c_void_p),
				(u'msg_controllen', _msg_controllen_t),
				(u'msg_flags', ctypes.c_int),
				]

				class _cmsghdr(ctypes.Structure):
				_fields_ = [
				(u'cmsg_len', _cmsg_len_t),
				(u'cmsg_level', ctypes.c_int),
				(u'cmsg_type', ctypes.c_int),
				(u'cmsg_data', ctypes.c_ubyte * 0),
				]

				_libc = ctypes.CDLL(ctypes.util.find_library(u'c'), use_errno=True)
				_recvmsg = getattr(_libc, 'recvmsg', None)
				if _recvmsg:
				_recvmsg.restype = getattr(ctypes, 'c_ssize_t', ctypes.c_long)
				_recvmsg.argtypes = (ctypes.c_int, ctypes.POINTER(_msghdr),
				ctypes.c_int)
				else:
				# recvmsg isn't always provided by libc; such systems are unsupported
				def _recvmsg(sockfd, msg, flags):
				raise NotImplementedError('unsupported platform')

				def _CMSG_FIRSTHDR(msgh):
				if msgh.msg_controllen < ctypes.sizeof(_cmsghdr):
				return
				cmsgptr = ctypes.cast(msgh.msg_control, ctypes.POINTER(_cmsghdr))
				return cmsgptr.contents

				# The pure version is less portable than the native version because the
				# handling of socket ancillary data heavily depends on C preprocessor.
				# Also, some length fields are wrongly typed in Linux kernel.
				def recvfds(sockfd):
				"""receive list of file descriptors via socket"""
				dummy = (ctypes.c_ubyte * 1)()
				iov = _iovec(ctypes.cast(dummy, ctypes.c_void_p), ctypes.sizeof(dummy))
				cbuf = ctypes.create_string_buffer(256)
				msgh = _msghdr(None, 0,
				ctypes.pointer(iov), 1,
				ctypes.cast(cbuf, ctypes.c_void_p), ctypes.sizeof(cbuf),
				0)
				r = _recvmsg(sockfd, ctypes.byref(msgh), 0)
				if r < 0:
				e = ctypes.get_errno()
				raise OSError(e, os.strerror(e))
				# assumes that the first cmsg has fds because it isn't easy to write
				# portable CMSG_NXTHDR() with ctypes.
				cmsg = _CMSG_FIRSTHDR(msgh)
				if not cmsg:
				return []
				if (cmsg.cmsg_level != socket.SOL_SOCKET or
				cmsg.cmsg_type != _SCM_RIGHTS):
				return []
				rfds = ctypes.cast(cmsg.cmsg_data, ctypes.POINTER(ctypes.c_int))
				rfdscount = ((cmsg.cmsg_len - _cmsghdr.cmsg_data.offset) /
				ctypes.sizeof(ctypes.c_int))
				return [rfds[i] for i in xrange(rfdscount)]

				else:
				import msvcrt

				_kernel32 = ctypes.windll.kernel32

				_DWORD = ctypes.c_ulong
				_LPCSTR = _LPSTR = ctypes.c_char_p
				_HANDLE = ctypes.c_void_p

				_INVALID_HANDLE_VALUE = _HANDLE(-1).value

				# CreateFile
				_FILE_SHARE_READ = 0x00000001
				_FILE_SHARE_WRITE = 0x00000002
				_FILE_SHARE_DELETE = 0x00000004

				_CREATE_ALWAYS = 2
				_OPEN_EXISTING = 3
				_OPEN_ALWAYS = 4

				_GENERIC_READ = 0x80000000
				_GENERIC_WRITE = 0x40000000

				_FILE_ATTRIBUTE_NORMAL = 0x80

				# open_osfhandle flags
				_O_RDONLY = 0x0000
				_O_RDWR = 0x0002
				_O_APPEND = 0x0008

				_O_TEXT = 0x4000
				_O_BINARY = 0x8000

				# types of parameters of C functions used (required by pypy)

				_kernel32.CreateFileA.argtypes = [_LPCSTR, _DWORD, _DWORD, ctypes.c_void_p,
				_DWORD, _DWORD, _HANDLE]
				_kernel32.CreateFileA.restype = _HANDLE

				def _raiseioerror(name):
				err = ctypes.WinError()
				raise IOError(err.errno, '%s: %s' % (name, err.strerror))

				class posixfile(object):
				'''a file object aiming for POSIX-like semantics

				CPython's open() returns a file that was opened without setting the
				_FILE_SHARE_DELETE flag, which causes rename and unlink to abort.
				This even happens if any hardlinked copy of the file is in open state.
				We set _FILE_SHARE_DELETE here, so files opened with posixfile can be
				renamed and deleted while they are held open.
				Note that if a file opened with posixfile is unlinked, the file
				remains but cannot be opened again or be recreated under the same name,
				until all reading processes have closed the file.'''

				def __init__(self, name, mode='r', bufsize=-1):
				if 'b' in mode:
				flags = _O_BINARY
				else:
				flags = _O_TEXT

				m0 = mode[0]
				if m0 == 'r' and '+' not in mode:
				flags \|= _O_RDONLY
				access = _GENERIC_READ
				else:
				# work around http://support.microsoft.com/kb/899149 and
				# set _O_RDWR for 'w' and 'a', even if mode has no '+'
				flags \|= _O_RDWR
				access = _GENERIC_READ \| _GENERIC_WRITE

				if m0 == 'r':
				creation = _OPEN_EXISTING
				elif m0 == 'w':
				creation = _CREATE_ALWAYS
				elif m0 == 'a':
				creation = _OPEN_ALWAYS
				flags \|= _O_APPEND
				else:
				raise ValueError("invalid mode: %s" % mode)

				fh = _kernel32.CreateFileA(name, access,
				_FILE_SHARE_READ \| _FILE_SHARE_WRITE \| _FILE_SHARE_DELETE,
				None, creation, _FILE_ATTRIBUTE_NORMAL, None)
				if fh == _INVALID_HANDLE_VALUE:
				_raiseioerror(name)

				fd = msvcrt.open_osfhandle(fh, flags)
				if fd == -1:
				_kernel32.CloseHandle(fh)
				_raiseioerror(name)

				f = os.fdopen(fd, mode, bufsize)
				# unfortunately, f.name is '<fdopen>' at this point -- so we store
				# the name on this wrapper. We cannot just assign to f.name,
				# because that attribute is read-only.
				object.__setattr__(self, 'name', name)
				object.__setattr__(self, '_file', f)

				def __iter__(self):
				return self._file

				def __getattr__(self, name):
				return getattr(self._file, name)

				def __setattr__(self, name, value):
				'''mimics the read-only attributes of Python file objects
				by raising 'TypeError: readonly attribute' if someone tries:
				f = posixfile('foo.txt')
				f.name = 'bla' '''
				return self._file.__setattr__(name, value)

				def __enter__(self):
				return self._file.__enter__()

				def __exit__(self, exc_type, exc_value, exc_tb):
				return self._file.__exit__(exc_type, exc_value, exc_tb)