I've been trying to figure out a way to get some sort of ability to be able to return the true abspath of a symbolic link in Windows, under Python 2.7. (I cannot upgrade to 3.x, as most DCCs such as Maya/3ds max do not use that version of Python)
I've looked at the sid0 ntfs utils (whose islink() function works, but readlink() function always returns an empty unicode string for me for some reason), and the juntalis ntfs libs (which unfortunately, I couldn't get to work), along with a helpful script someone posted:
import os, ctypes, struct
from ctypes import windll, wintypes
FSCTL_GET_REPARSE_POINT = 0x900a8
FILE_ATTRIBUTE_READONLY = 0x0001
FILE_ATTRIBUTE_HIDDEN = 0x0002
FILE_ATTRIBUTE_DIRECTORY = 0x0010
FILE_ATTRIBUTE_NORMAL = 0x0080
FILE_ATTRIBUTE_REPARSE_POINT = 0x0400
GENERIC_READ = 0x80000000
GENERIC_WRITE = 0x40000000
OPEN_EXISTING = 3
FILE_READ_ATTRIBUTES = 0x80
FILE_FLAG_OPEN_REPARSE_POINT = 0x00200000
INVALID_HANDLE_VALUE = wintypes.HANDLE(-1).value
INVALID_FILE_ATTRIBUTES = 0xFFFFFFFF
FILE_FLAG_OPEN_REPARSE_POINT = 2097152
FILE_FLAG_BACKUP_SEMANTICS = 33554432
# FILE_FLAG_OPEN_REPARSE_POINT | FILE_FLAG_BACKUP_SEMANTI
FILE_FLAG_REPARSE_BACKUP = 35651584
GetFileAttributes = windll.kernel32.GetFileAttributesW
_CreateFileW = windll.kernel32.CreateFileW
_DevIoCtl = windll.kernel32.DeviceIoControl
_DevIoCtl.argtypes = [
wintypes.HANDLE, #HANDLE hDevice
wintypes.DWORD, #DWORD dwIoControlCode
wintypes.LPVOID, #LPVOID lpInBuffer
wintypes.DWORD, #DWORD nInBufferSize
wintypes.LPVOID, #LPVOID lpOutBuffer
wintypes.DWORD, #DWORD nOutBufferSize
ctypes.POINTER(wintypes.DWORD), #LPDWORD lpBytesReturned
wintypes.LPVOID] #LPOVERLAPPED lpOverlapped
_DevIoCtl.restype = wintypes.BOOL
def islink(path):
# assert os.path.isdir(path), path
if GetFileAttributes(path) & FILE_ATTRIBUTE_REPARSE_POINT:
return True
else:
return False
def DeviceIoControl(hDevice, ioControlCode, input, output):
# DeviceIoControl Function
# http://msdn.microsoft.com/en-us/library/aa363216(v=vs.85).aspx
if input:
input_size = len(input)
else:
input_size = 0
if isinstance(output, int):
output = ctypes.create_string_buffer(output)
output_size = len(output)
assert isinstance(output, ctypes.Array)
bytesReturned = wintypes.DWORD()
status = _DevIoCtl(hDevice, ioControlCode, input,
input_size, output, output_size, bytesReturned, None)
print "status(%d)" % status
if status != 0:
return output[:bytesReturned.value]
else:
return None
def CreateFile(path, access, sharemode, creation, flags):
return _CreateFileW(path, access, sharemode, None, creation, flags, None)
SymbolicLinkReparseFormat = "LHHHHHHL"
SymbolicLinkReparseSize = struct.calcsize(SymbolicLinkReparseFormat);
def readlink(path):
""" Windows readlink implementation. """
# This wouldn't return true if the file didn't exist, as far as I know.
assert islink(path)
# assert type(path) == unicode
# Open the file correctly depending on the string type.
hfile = CreateFile(path, GENERIC_READ, 0, OPEN_EXISTING,
FILE_FLAG_REPARSE_BACKUP)
# MAXIMUM_REPARSE_DATA_BUFFER_SIZE = 16384 = (16*1024)
buffer = DeviceIoControl(hfile, FSCTL_GET_REPARSE_POINT, None, 16384)
windll.CloseHandle(hfile)
# Minimum possible length (assuming length of the target is bigger than 0)
if not buffer or len(buffer) < 9:
return None
# Only handle SymbolicLinkReparseBuffer
(tag, dataLength, reserver, SubstituteNameOffset, SubstituteNameLength,
PrintNameOffset, PrintNameLength,
Flags) = struct.unpack(SymbolicLinkReparseFormat,
buffer[:SymbolicLinkReparseSize])
print tag, dataLength, reserver, SubstituteNameOffset, SubstituteNameLength
start = SubstituteNameOffset + SymbolicLinkReparseSize
actualPath = buffer[start : start + SubstituteNameLength].decode("utf-16")
# This utf-16 string is null terminated
index = actualPath.find(u"\0")
assert index > 0
if index > 0:
actualPath = actualPath[:index]
if actualPath.startswith(u"?\\"):
return actualPath[2:]
else:
return actualPath
However, most of the time various solutions I've tried end up giving me:
[Error 126] The specified module could not be found
Even though I am able to import ctypes and do stuff such as importing cdll:
libc = cdll.msvcrt
libc.printf
<_FuncPtr object at 0x0000000002A9F388>
I'm pretty new to this part of Python and ctypes in general, so any pointers on dealing with symbolic links here would be very much appreciated!
ERROR_MOD_NOT_FOUND
(126) is likely due to windll.CloseHandle(hfile)
, which tries to load "closehandle.dll". It's missing kernel32
.
Here's an alternate implementation that handles junctions as well as symbolic links.
ctypes definitions
import ctypes
from ctypes import wintypes
kernel32 = ctypes.WinDLL('kernel32', use_last_error=True)
FILE_READ_ATTRIBUTES = 0x0080
OPEN_EXISTING = 3
FILE_FLAG_OPEN_REPARSE_POINT = 0x00200000
FILE_FLAG_BACKUP_SEMANTICS = 0x02000000
FILE_ATTRIBUTE_REPARSE_POINT = 0x0400
IO_REPARSE_TAG_MOUNT_POINT = 0xA0000003
IO_REPARSE_TAG_SYMLINK = 0xA000000C
FSCTL_GET_REPARSE_POINT = 0x000900A8
MAXIMUM_REPARSE_DATA_BUFFER_SIZE = 0x4000
LPDWORD = ctypes.POINTER(wintypes.DWORD)
LPWIN32_FIND_DATA = ctypes.POINTER(wintypes.WIN32_FIND_DATAW)
INVALID_HANDLE_VALUE = wintypes.HANDLE(-1).value
def IsReparseTagNameSurrogate(tag):
return bool(tag & 0x20000000)
def _check_invalid_handle(result, func, args):
if result == INVALID_HANDLE_VALUE:
raise ctypes.WinError(ctypes.get_last_error())
return args
def _check_bool(result, func, args):
if not result:
raise ctypes.WinError(ctypes.get_last_error())
return args
kernel32.FindFirstFileW.errcheck = _check_invalid_handle
kernel32.FindFirstFileW.restype = wintypes.HANDLE
kernel32.FindFirstFileW.argtypes = (
wintypes.LPCWSTR, # _In_ lpFileName
LPWIN32_FIND_DATA) # _Out_ lpFindFileData
kernel32.FindClose.argtypes = (
wintypes.HANDLE,) # _Inout_ hFindFile
kernel32.CreateFileW.errcheck = _check_invalid_handle
kernel32.CreateFileW.restype = wintypes.HANDLE
kernel32.CreateFileW.argtypes = (
wintypes.LPCWSTR, # _In_ lpFileName
wintypes.DWORD, # _In_ dwDesiredAccess
wintypes.DWORD, # _In_ dwShareMode
wintypes.LPVOID, # _In_opt_ lpSecurityAttributes
wintypes.DWORD, # _In_ dwCreationDisposition
wintypes.DWORD, # _In_ dwFlagsAndAttributes
wintypes.HANDLE) # _In_opt_ hTemplateFile
kernel32.CloseHandle.argtypes = (
wintypes.HANDLE,) # _In_ hObject
kernel32.DeviceIoControl.errcheck = _check_bool
kernel32.DeviceIoControl.argtypes = (
wintypes.HANDLE, # _In_ hDevice
wintypes.DWORD, # _In_ dwIoControlCode
wintypes.LPVOID, # _In_opt_ lpInBuffer
wintypes.DWORD, # _In_ nInBufferSize
wintypes.LPVOID, # _Out_opt_ lpOutBuffer
wintypes.DWORD, # _In_ nOutBufferSize
LPDWORD, # _Out_opt_ lpBytesReturned
wintypes.LPVOID) # _Inout_opt_ lpOverlapped
class REPARSE_DATA_BUFFER(ctypes.Structure):
class ReparseData(ctypes.Union):
class LinkData(ctypes.Structure):
_fields_ = (('SubstituteNameOffset', wintypes.USHORT),
('SubstituteNameLength', wintypes.USHORT),
('PrintNameOffset', wintypes.USHORT),
('PrintNameLength', wintypes.USHORT))
@property
def PrintName(self):
dt = wintypes.WCHAR * (self.PrintNameLength //
ctypes.sizeof(wintypes.WCHAR))
name = dt.from_address(ctypes.addressof(self.PathBuffer) +
self.PrintNameOffset).value
if name.startswith(r'\??'):
name = r'\\?' + name[3:] # NT => Windows
return name
class SymbolicLinkData(LinkData):
_fields_ = (('Flags', wintypes.ULONG),
('PathBuffer', wintypes.BYTE * 0))
class MountPointData(LinkData):
_fields_ = (('PathBuffer', wintypes.BYTE * 0),)
class GenericData(ctypes.Structure):
_fields_ = (('DataBuffer', wintypes.BYTE * 0),)
_fields_ = (('SymbolicLinkReparseBuffer', SymbolicLinkData),
('MountPointReparseBuffer', MountPointData),
('GenericReparseBuffer', GenericData))
_fields_ = (('ReparseTag', wintypes.ULONG),
('ReparseDataLength', wintypes.USHORT),
('Reserved', wintypes.USHORT),
('ReparseData', ReparseData))
_anonymous_ = ('ReparseData',)
functions
def islink(path):
data = wintypes.WIN32_FIND_DATAW()
kernel32.FindClose(kernel32.FindFirstFileW(path, ctypes.byref(data)))
if not data.dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT:
return False
return IsReparseTagNameSurrogate(data.dwReserved0)
def readlink(path):
n = wintypes.DWORD()
buf = (wintypes.BYTE * MAXIMUM_REPARSE_DATA_BUFFER_SIZE)()
flags = FILE_FLAG_OPEN_REPARSE_POINT | FILE_FLAG_BACKUP_SEMANTICS
handle = kernel32.CreateFileW(path, FILE_READ_ATTRIBUTES, 0, None,
OPEN_EXISTING, flags, None)
try:
kernel32.DeviceIoControl(handle, FSCTL_GET_REPARSE_POINT, None, 0,
buf, ctypes.sizeof(buf), ctypes.byref(n), None)
finally:
kernel32.CloseHandle(handle)
rb = REPARSE_DATA_BUFFER.from_buffer(buf)
tag = rb.ReparseTag
if tag == IO_REPARSE_TAG_SYMLINK:
return rb.SymbolicLinkReparseBuffer.PrintName
if tag == IO_REPARSE_TAG_MOUNT_POINT:
return rb.MountPointReparseBuffer.PrintName
if not IsReparseTagNameSurrogate(tag):
raise ValueError("not a link")
raise ValueError("unsupported reparse tag: %d" % tag)
example
>>> sys.version
'2.7.13 (v2.7.13:a06454b1afa1, Dec 17 2016, 20:53:40)
[MSC v.1500 64 bit (AMD64)]'
>>> os.system(r'mklink /d spam C:\Windows')
symbolic link created for spam <<===>> C:\Windows
0
>>> islink('spam')
True
>>> readlink('spam')
u'C:\\Windows'
>>> islink('C:/Documents and Settings') # junction
True
>>> readlink('C:/Documents and Settings')
u'C:\\Users'
>>> islink('C:/Users/All Users') # symlinkd
True
>>> readlink('C:/Users/All Users')
u'C:\\ProgramData'
This is implemented in Tcl as file readlink
and the implementation of this might be worth reading as there seem to be a few differences. The WinReadLinkDirectory
function calls NativeReadReparse
to read the REPARSE_DATA_BUFFER
but this uses different flags to the CreateFile
function. Also the buffer size is different I think and the size of structures in Win32 calls is often used to detect the version of the API used so it is likely worth taking care to set the size to the correct value (or possibly the same value used in the Tcl implementation).
Just to show what I mean by Tcl support for this:
C:\>dir
Directory of C:\
22/09/2014 14:29 <JUNCTION> Code [C:\src]
...
C:\>tclsh
% file readlink Code
C:\src
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