def unicode_encode_mbcs(p, size, errors, errorhandler=None):
dataptr = rffi.get_nonmoving_unicodebuffer(p)
try:
# first get the size of the result
if size > 0:
mbcssize = WideCharToMultiByte(CP_ACP, 0,
dataptr, size, None, 0,
None, None)
if mbcssize == 0:
raise rwin32.lastWindowsError()
else:
mbcssize = 0
raw_buf, gc_buf = rffi.alloc_buffer(mbcssize)
try:
# do the conversion
if WideCharToMultiByte(CP_ACP, 0,
dataptr, size, raw_buf, mbcssize,
None, None) == 0:
raise rwin32.lastWindowsError()
return rffi.str_from_buffer(raw_buf, gc_buf, mbcssize, mbcssize)
finally:
rffi.keep_buffer_alive_until_here(raw_buf, gc_buf)
finally:
rffi.free_nonmoving_unicodebuffer(p, dataptr)
def unicode_encode_mbcs(p, size, errors, errorhandler=None):
dataptr = rffi.get_nonmoving_unicodebuffer(p)
try:
# first get the size of the result
if size > 0:
mbcssize = WideCharToMultiByte(CP_ACP, 0, dataptr, size, None,
0, None, None)
if mbcssize == 0:
raise rwin32.lastWindowsError()
else:
mbcssize = 0
raw_buf, gc_buf = rffi.alloc_buffer(mbcssize)
try:
# do the conversion
if WideCharToMultiByte(CP_ACP, 0, dataptr, size, raw_buf,
mbcssize, None, None) == 0:
raise rwin32.lastWindowsError()
return rffi.str_from_buffer(raw_buf, gc_buf, mbcssize,
mbcssize)
finally:
rffi.keep_buffer_alive_until_here(raw_buf, gc_buf)
finally:
rffi.free_nonmoving_unicodebuffer(p, dataptr)
def str_decode_mbcs(s, size, errors, final=False, errorhandler=None):
if size == 0:
return u"", 0
if errorhandler is None:
errorhandler = raise_unicode_exception_decode
# Skip trailing lead-byte unless 'final' is set
if not final and is_dbcs_lead_byte(s[size - 1]):
size -= 1
dataptr = rffi.get_nonmovingbuffer(s)
try:
# first get the size of the result
usize = MultiByteToWideChar(CP_ACP, 0, dataptr, size,
lltype.nullptr(rffi.CWCHARP.TO), 0)
if usize == 0:
raise rwin32.lastWindowsError()
raw_buf, gc_buf = rffi.alloc_unicodebuffer(usize)
try:
# do the conversion
if MultiByteToWideChar(CP_ACP, 0, dataptr, size, raw_buf,
usize) == 0:
raise rwin32.lastWindowsError()
return (rffi.unicode_from_buffer(raw_buf, gc_buf, usize,
usize), size)
finally:
rffi.keep_unicodebuffer_alive_until_here(raw_buf, gc_buf)
finally:
rffi.free_nonmovingbuffer(s, dataptr)
def os_utime_llimpl(path, tp):
hFile = CreateFile(path,
FILE_WRITE_ATTRIBUTES, 0,
None, OPEN_EXISTING,
FILE_FLAG_BACKUP_SEMANTICS,
rwin32.NULL_HANDLE)
if hFile == rwin32.INVALID_HANDLE_VALUE:
raise rwin32.lastWindowsError()
ctime = lltype.nullptr(rwin32.FILETIME)
atime = lltype.malloc(rwin32.FILETIME, flavor='raw')
mtime = lltype.malloc(rwin32.FILETIME, flavor='raw')
try:
if tp is None:
now = lltype.malloc(rwin32.SYSTEMTIME, flavor='raw')
try:
GetSystemTime(now)
if (not SystemTimeToFileTime(now, atime) or
not SystemTimeToFileTime(now, mtime)):
raise rwin32.lastWindowsError()
finally:
lltype.free(now, flavor='raw')
else:
actime, modtime = tp
time_t_to_FILE_TIME(actime, atime)
time_t_to_FILE_TIME(modtime, mtime)
if not SetFileTime(hFile, ctime, atime, mtime):
raise rwin32.lastWindowsError()
finally:
rwin32.CloseHandle(hFile)
lltype.free(atime, flavor='raw')
lltype.free(mtime, flavor='raw')
def win32_urandom(space, n):
"""urandom(n) -> str
Return a string of n random bytes suitable for cryptographic use.
"""
if n < 0:
raise OperationError(space.w_ValueError,
space.wrap("negative argument not allowed"))
provider = get(space).cryptProviderPtr[0]
if not provider:
# Acquire context.
# This handle is never explicitly released. The operating
# system will release it when the process terminates.
if not CryptAcquireContext(
get(space).cryptProviderPtr, None, None,
PROV_RSA_FULL, CRYPT_VERIFYCONTEXT):
raise rwin32.lastWindowsError("CryptAcquireContext")
provider = get(space).cryptProviderPtr[0]
# Get random data
buf = lltype.malloc(rffi.CArray(rwin32.BYTE), n,
zero=True, # zero seed
flavor='raw')
try:
if not CryptGenRandom(provider, n, buf):
raise rwin32.lastWindowsError("CryptGenRandom")
return space.wrap(
rffi.charpsize2str(rffi.cast(rffi.CCHARP, buf), n))
finally:
lltype.free(buf, flavor='raw')
def win32_urandom(space, n):
"""urandom(n) -> str
Return a string of n random bytes suitable for cryptographic use.
"""
if n < 0:
raise OperationError(space.w_ValueError,
space.wrap("negative argument not allowed"))
provider = get(space).cryptProviderPtr[0]
if not provider:
# Acquire context.
# This handle is never explicitly released. The operating
# system will release it when the process terminates.
if not CryptAcquireContext(
get(space).cryptProviderPtr, None, None,
PROV_RSA_FULL, CRYPT_VERIFYCONTEXT):
raise rwin32.lastWindowsError("CryptAcquireContext")
provider = get(space).cryptProviderPtr[0]
# Get random data
buf = lltype.malloc(rffi.CArray(rwin32.BYTE), n,
zero=True, # zero seed
flavor='raw')
try:
if not CryptGenRandom(provider, n, buf):
raise rwin32.lastWindowsError("CryptGenRandom")
return space.wrap(
rffi.charpsize2str(rffi.cast(rffi.CCHARP, buf), n))
finally:
lltype.free(buf, flavor='raw')
def chdir_llimpl(path):
"""This is a reimplementation of the C library's chdir function,
but one that produces Win32 errors instead of DOS error codes.
chdir is essentially a wrapper around SetCurrentDirectory; however,
it also needs to set "magic" environment variables indicating
the per-drive current directory, which are of the form =<drive>:
"""
if not win32traits.SetCurrentDirectory(path):
raise rwin32.lastWindowsError()
MAX_PATH = rwin32.MAX_PATH
assert MAX_PATH > 0
with traits.scoped_alloc_buffer(MAX_PATH) as path:
res = win32traits.GetCurrentDirectory(MAX_PATH + 1, path.raw)
if not res:
raise rwin32.lastWindowsError()
res = rffi.cast(lltype.Signed, res)
assert res > 0
if res <= MAX_PATH + 1:
new_path = path.str(res)
else:
with traits.scoped_alloc_buffer(res) as path:
res = win32traits.GetCurrentDirectory(res, path.raw)
if not res:
raise rwin32.lastWindowsError()
res = rffi.cast(lltype.Signed, res)
assert res > 0
new_path = path.str(res)
if isUNC(new_path):
return
if not win32traits.SetEnvironmentVariable(magic_envvar(new_path),
new_path):
raise rwin32.lastWindowsError()
def chdir_llimpl(path):
"""This is a reimplementation of the C library's chdir function,
but one that produces Win32 errors instead of DOS error codes.
chdir is essentially a wrapper around SetCurrentDirectory; however,
it also needs to set "magic" environment variables indicating
the per-drive current directory, which are of the form =<drive>:
"""
if not win32traits.SetCurrentDirectory(path):
raise rwin32.lastWindowsError()
MAX_PATH = rwin32.MAX_PATH
assert MAX_PATH > 0
with traits.scoped_alloc_buffer(MAX_PATH) as path:
res = win32traits.GetCurrentDirectory(MAX_PATH + 1, path.raw)
if not res:
raise rwin32.lastWindowsError()
res = rffi.cast(lltype.Signed, res)
assert res > 0
if res <= MAX_PATH + 1:
new_path = path.str(res)
else:
with traits.scoped_alloc_buffer(res) as path:
res = win32traits.GetCurrentDirectory(res, path.raw)
if not res:
raise rwin32.lastWindowsError()
res = rffi.cast(lltype.Signed, res)
assert res > 0
new_path = path.str(res)
if isUNC(new_path):
return
if not win32traits.SetEnvironmentVariable(magic_envvar(new_path), new_path):
raise rwin32.lastWindowsError()
def str_decode_mbcs(s, size, errors, final=False,
errorhandler=None):
if size == 0:
return u"", 0
if errorhandler is None:
errorhandler = raise_unicode_exception_decode
# Skip trailing lead-byte unless 'final' is set
if not final and is_dbcs_lead_byte(s[size-1]):
size -= 1
dataptr = rffi.get_nonmovingbuffer(s)
try:
# first get the size of the result
usize = MultiByteToWideChar(CP_ACP, 0,
dataptr, size,
lltype.nullptr(rffi.CWCHARP.TO), 0)
if usize == 0:
raise rwin32.lastWindowsError()
raw_buf, gc_buf = rffi.alloc_unicodebuffer(usize)
try:
# do the conversion
if MultiByteToWideChar(CP_ACP, 0,
dataptr, size, raw_buf, usize) == 0:
raise rwin32.lastWindowsError()
return (rffi.unicode_from_buffer(raw_buf, gc_buf, usize, usize),
size)
finally:
rffi.keep_unicodebuffer_alive_until_here(raw_buf, gc_buf)
finally:
rffi.free_nonmovingbuffer(s, dataptr)
def os_utime_llimpl(path, tp):
hFile = CreateFile(path, FILE_WRITE_ATTRIBUTES, 0, None, OPEN_EXISTING,
FILE_FLAG_BACKUP_SEMANTICS, rwin32.NULL_HANDLE)
if hFile == rwin32.INVALID_HANDLE_VALUE:
raise rwin32.lastWindowsError()
ctime = lltype.nullptr(rwin32.FILETIME)
atime = lltype.malloc(rwin32.FILETIME, flavor='raw')
mtime = lltype.malloc(rwin32.FILETIME, flavor='raw')
try:
if tp is None:
now = lltype.malloc(rwin32.SYSTEMTIME, flavor='raw')
try:
GetSystemTime(now)
if (not SystemTimeToFileTime(now, atime)
or not SystemTimeToFileTime(now, mtime)):
raise rwin32.lastWindowsError()
finally:
lltype.free(now, flavor='raw')
else:
actime, modtime = tp
time_t_to_FILE_TIME(actime, atime)
time_t_to_FILE_TIME(modtime, mtime)
if not SetFileTime(hFile, ctime, atime, mtime):
raise rwin32.lastWindowsError()
finally:
rwin32.CloseHandle(hFile)
lltype.free(atime, flavor='raw')
lltype.free(mtime, flavor='raw')
def do_poll(self, space, timeout):
from pypy.module._multiprocessing.interp_win32 import (
_PeekNamedPipe, _GetTickCount, _Sleep)
from pypy.rlib import rwin32
from pypy.interpreter.error import wrap_windowserror
bytes_ptr = lltype.malloc(rffi.CArrayPtr(rwin32.DWORD).TO, 1,
flavor='raw')
try:
if not _PeekNamedPipe(self.handle, rffi.NULL, 0,
lltype.nullptr(rwin32.LPDWORD.TO),
bytes_ptr,
lltype.nullptr(rwin32.LPDWORD.TO)):
raise wrap_windowserror(space, rwin32.lastWindowsError())
bytes = bytes_ptr[0]
finally:
lltype.free(bytes_ptr, flavor='raw')
if timeout == 0.0:
return bytes > 0
block = timeout < 0
if not block:
# XXX does not check for overflow
deadline = intmask(_GetTickCount()) + int(1000 * timeout + 0.5)
else:
deadline = 0
_Sleep(0)
delay = 1
while True:
bytes_ptr = lltype.malloc(rffi.CArrayPtr(rwin32.DWORD).TO, 1,
flavor='raw')
try:
if not _PeekNamedPipe(self.handle, rffi.NULL, 0,
lltype.nullptr(rwin32.LPDWORD.TO),
bytes_ptr,
lltype.nullptr(rwin32.LPDWORD.TO)):
raise wrap_windowserror(space, rwin32.lastWindowsError())
bytes = bytes_ptr[0]
finally:
lltype.free(bytes_ptr, flavor='raw')
if bytes > 0:
return True
if not block:
now = intmask(_GetTickCount())
if now > deadline:
return False
diff = deadline - now
if delay > diff:
delay = diff
else:
delay += 1
if delay >= 20:
delay = 20
_Sleep(delay)
def chmod_llimpl(path, mode):
attr = win32traits.GetFileAttributes(path)
if attr == win32traits.INVALID_FILE_ATTRIBUTES:
raise rwin32.lastWindowsError()
if mode & 0200: # _S_IWRITE
attr &= ~win32traits.FILE_ATTRIBUTE_READONLY
else:
attr |= win32traits.FILE_ATTRIBUTE_READONLY
if not win32traits.SetFileAttributes(path, attr):
raise rwin32.lastWindowsError()
def chmod_llimpl(path, mode):
attr = win32traits.GetFileAttributes(path)
if attr == win32traits.INVALID_FILE_ATTRIBUTES:
raise rwin32.lastWindowsError()
if mode & 0200: # _S_IWRITE
attr &= ~win32traits.FILE_ATTRIBUTE_READONLY
else:
attr |= win32traits.FILE_ATTRIBUTE_READONLY
if not win32traits.SetFileAttributes(path, attr):
raise rwin32.lastWindowsError()
def do_recv_string(self, space, buflength, maxlength):
from pypy.module._multiprocessing.interp_win32 import (
_ReadFile,
_PeekNamedPipe,
ERROR_BROKEN_PIPE,
ERROR_MORE_DATA,
)
from pypy.rlib import rwin32
from pypy.interpreter.error import wrap_windowserror
read_ptr = lltype.malloc(rffi.CArrayPtr(rwin32.DWORD).TO, 1, flavor="raw")
left_ptr = lltype.malloc(rffi.CArrayPtr(rwin32.DWORD).TO, 1, flavor="raw")
try:
result = _ReadFile(self.handle, self.buffer, min(self.BUFFER_SIZE, buflength), read_ptr, rffi.NULL)
if result:
return read_ptr[0], lltype.nullptr(rffi.CCHARP.TO)
err = rwin32.GetLastError()
if err == ERROR_BROKEN_PIPE:
raise OperationError(space.w_EOFError, space.w_None)
elif err != ERROR_MORE_DATA:
raise wrap_windowserror(space, WindowsError(err, "_ReadFile"))
# More data...
if not _PeekNamedPipe(
self.handle,
rffi.NULL,
0,
lltype.nullptr(rwin32.LPDWORD.TO),
lltype.nullptr(rwin32.LPDWORD.TO),
left_ptr,
):
raise wrap_windowserror(space, rwin32.lastWindowsError())
length = intmask(read_ptr[0] + left_ptr[0])
if length > maxlength: # bad message, close connection
self.flags &= ~READABLE
if self.flags == 0:
self.close()
raise OperationError(space.w_IOError, space.wrap("bad message length"))
newbuf = lltype.malloc(rffi.CCHARP.TO, length + 1, flavor="raw")
for i in range(read_ptr[0]):
newbuf[i] = self.buffer[i]
result = _ReadFile(self.handle, rffi.ptradd(newbuf, read_ptr[0]), left_ptr[0], read_ptr, rffi.NULL)
if not result:
rffi.free_charp(newbuf)
raise wrap_windowserror(space, rwin32.lastWindowsError())
assert read_ptr[0] == left_ptr[0]
return length, newbuf
finally:
lltype.free(read_ptr, flavor="raw")
lltype.free(left_ptr, flavor="raw")
def do_recv_string(self, space, buflength, maxlength):
from pypy.module._multiprocessing.interp_win32 import (
_ReadFile, _PeekNamedPipe, ERROR_BROKEN_PIPE, ERROR_MORE_DATA)
from pypy.rlib import rwin32
from pypy.interpreter.error import wrap_windowserror
read_ptr = lltype.malloc(rffi.CArrayPtr(rwin32.DWORD).TO,
1,
flavor='raw')
left_ptr = lltype.malloc(rffi.CArrayPtr(rwin32.DWORD).TO,
1,
flavor='raw')
try:
result = _ReadFile(self.handle, self.buffer,
min(self.BUFFER_SIZE, buflength), read_ptr,
rffi.NULL)
if result:
return intmask(read_ptr[0]), lltype.nullptr(rffi.CCHARP.TO)
err = rwin32.GetLastError()
if err == ERROR_BROKEN_PIPE:
raise OperationError(space.w_EOFError, space.w_None)
elif err != ERROR_MORE_DATA:
raise wrap_windowserror(space, WindowsError(err, "_ReadFile"))
# More data...
if not _PeekNamedPipe(self.handle, rffi.NULL, 0,
lltype.nullptr(rwin32.LPDWORD.TO),
lltype.nullptr(rwin32.LPDWORD.TO), left_ptr):
raise wrap_windowserror(space, rwin32.lastWindowsError())
length = intmask(read_ptr[0] + left_ptr[0])
if length > maxlength: # bad message, close connection
self.flags &= ~READABLE
if self.flags == 0:
self.close()
raise OperationError(space.w_IOError,
space.wrap("bad message length"))
newbuf = lltype.malloc(rffi.CCHARP.TO, length + 1, flavor='raw')
for i in range(read_ptr[0]):
newbuf[i] = self.buffer[i]
result = _ReadFile(self.handle, rffi.ptradd(newbuf, read_ptr[0]),
left_ptr[0], read_ptr, rffi.NULL)
if not result:
rffi.free_charp(newbuf)
raise wrap_windowserror(space, rwin32.lastWindowsError())
assert read_ptr[0] == left_ptr[0]
return length, newbuf
finally:
lltype.free(read_ptr, flavor='raw')
lltype.free(left_ptr, flavor='raw')
def ExpandEnvironmentStrings(source):
with rffi.scoped_unicode2wcharp(source) as src_buf:
size = _ExpandEnvironmentStringsW(src_buf,
lltype.nullptr(rffi.CWCHARP.TO), 0)
if size == 0:
raise rwin32.lastWindowsError("ExpandEnvironmentStrings")
size = intmask(size)
with rffi.scoped_alloc_unicodebuffer(size) as dest_buf:
if _ExpandEnvironmentStringsW(src_buf, dest_buf.raw, size) == 0:
raise rwin32.lastWindowsError("ExpandEnvironmentStrings")
return dest_buf.str(size - 1) # remove trailing \0
def ExpandEnvironmentStrings(source):
with rffi.scoped_unicode2wcharp(source) as src_buf:
size = _ExpandEnvironmentStringsW(src_buf,
lltype.nullptr(rffi.CWCHARP.TO), 0)
if size == 0:
raise rwin32.lastWindowsError("ExpandEnvironmentStrings")
size = intmask(size)
with rffi.scoped_alloc_unicodebuffer(size) as dest_buf:
if _ExpandEnvironmentStringsW(src_buf,
dest_buf.raw, size) == 0:
raise rwin32.lastWindowsError("ExpandEnvironmentStrings")
return dest_buf.str(size - 1) # remove trailing \0
def ConnectNamedPipe(space, w_handle, w_overlapped):
handle = handle_w(space, w_handle)
overlapped = space.int_w(w_overlapped)
if overlapped:
raise OperationError(space.w_NotImplementedError,
space.wrap("expected a NULL pointer"))
if not _ConnectNamedPipe(handle, rffi.NULL):
raise wrap_windowserror(space, rwin32.lastWindowsError())
def resize(self, newsize):
self.check_valid()
self.check_resizeable()
if _POSIX:
if not has_mremap:
raise RValueError("mmap: resizing not available--no mremap()")
# resize the underlying file first
os.ftruncate(self.fd, self.offset + newsize)
# now resize the mmap
newdata = c_mremap(self.getptr(0), self.size, newsize, MREMAP_MAYMOVE or 0)
self.setdata(newdata, newsize)
elif _MS_WINDOWS:
# disconnect the mapping
self.unmapview()
rwin32.CloseHandle(self.map_handle)
# move to the desired EOF position
if _64BIT:
newsize_high = (self.offset + newsize) >> 32
newsize_low = (self.offset + newsize) & 0xFFFFFFFF
offset_high = self.offset >> 32
offset_low = self.offset & 0xFFFFFFFF
else:
newsize_high = 0
newsize_low = self.offset + newsize
offset_high = 0
offset_low = self.offset
FILE_BEGIN = 0
high_ref = lltype.malloc(PLONG.TO, 1, flavor="raw")
try:
high_ref[0] = newsize_high
SetFilePointer(self.file_handle, newsize_low, high_ref, FILE_BEGIN)
finally:
lltype.free(high_ref, flavor="raw")
# resize the file
SetEndOfFile(self.file_handle)
# create another mapping object and remap the file view
res = CreateFileMapping(self.file_handle, NULL, PAGE_READWRITE, newsize_high, newsize_low, self.tagname)
self.map_handle = res
dwErrCode = 0
if self.map_handle:
data = MapViewOfFile(self.map_handle, FILE_MAP_WRITE, offset_high, offset_low, newsize)
if data:
# XXX we should have a real LPVOID which must always be casted
charp = rffi.cast(LPCSTR, data)
self.setdata(charp, newsize)
return
winerror = rwin32.lastWindowsError()
if self.map_handle:
rwin32.CloseHandle(self.map_handle)
self.map_handle = INVALID_HANDLE
raise winerror
def semlock_getvalue(self, space):
if rwin32.WaitForSingleObject(self.handle, 0) == rwin32.WAIT_TIMEOUT:
return 0
previous_ptr = lltype.malloc(rffi.LONGP.TO, 1, flavor='raw')
try:
if not _ReleaseSemaphore(self.handle, 1, previous_ptr):
raise rwin32.lastWindowsError("ReleaseSemaphore")
return previous_ptr[0] + 1
finally:
lltype.free(previous_ptr, flavor='raw')
def semlock_getvalue(self, space):
if rwin32.WaitForSingleObject(self.handle, 0) == rwin32.WAIT_TIMEOUT:
return 0
previous_ptr = lltype.malloc(rffi.LONGP.TO, 1, flavor='raw')
try:
if not _ReleaseSemaphore(self.handle, 1, previous_ptr):
raise rwin32.lastWindowsError("ReleaseSemaphore")
return previous_ptr[0] + 1
finally:
lltype.free(previous_ptr, flavor='raw')
def getfullpathname_llimpl(path):
nBufferLength = rwin32.MAX_PATH + 1
lpBuffer = lltype.malloc(traits.CCHARP.TO, nBufferLength, flavor='raw')
try:
res = win32traits.GetFullPathName(
path, rffi.cast(rwin32.DWORD, nBufferLength),
lpBuffer, lltype.nullptr(win32traits.LPSTRP.TO))
if res == 0:
raise rwin32.lastWindowsError("_getfullpathname failed")
result = traits.charp2str(lpBuffer)
return result
finally:
lltype.free(lpBuffer, flavor='raw')
def getfullpathname_llimpl(path):
nBufferLength = rwin32.MAX_PATH + 1
lpBuffer = lltype.malloc(traits.CCHARP.TO, nBufferLength, flavor='raw')
try:
res = win32traits.GetFullPathName(
path, rffi.cast(rwin32.DWORD, nBufferLength), lpBuffer,
lltype.nullptr(win32traits.LPSTRP.TO))
if res == 0:
raise rwin32.lastWindowsError("_getfullpathname failed")
result = traits.charp2str(lpBuffer)
return result
finally:
lltype.free(lpBuffer, flavor='raw')
def CreateNamedPipe(space, name, openmode, pipemode, maxinstances,
outputsize, inputsize, timeout, w_security):
security = space.int_w(w_security)
if security:
raise OperationError(space.w_NotImplementedError,
space.wrap("expected a NULL pointer"))
handle = _CreateNamedPipe(
name, openmode, pipemode, maxinstances,
outputsize, inputsize, timeout, rffi.NULL)
if handle == rwin32.INVALID_HANDLE_VALUE:
raise wrap_windowserror(space, rwin32.lastWindowsError())
return w_handle(space, handle)
def CreateFile(space, filename, access, share, w_security,
disposition, flags, w_templatefile):
security = space.int_w(w_security)
templatefile = space.int_w(w_templatefile)
if security or templatefile:
raise OperationError(space.w_NotImplementedError,
space.wrap("expected a NULL pointer"))
handle = _CreateFile(filename, access, share, rffi.NULL,
disposition, flags, rwin32.NULL_HANDLE)
if handle == rwin32.INVALID_HANDLE_VALUE:
raise wrap_windowserror(space, rwin32.lastWindowsError())
return w_handle(space, handle)
class GlobalState:
def __init__(self):
self.init()
def init(self):
self.interrupt_event = rwin32.NULL_HANDLE
def startup(self, space):
# Initialize the event handle used to signal Ctrl-C
try:
globalState.interrupt_event = rwin32.CreateEvent(
rffi.NULL, True, False, rffi.NULL)
except WindowsError, e:
raise wrap_windowserror(space, e)
if not _setCtrlHandlerRoutine(globalState.interrupt_event):
raise wrap_windowserror(
space, rwin32.lastWindowsError("SetConsoleCtrlHandler"))
def SetNamedPipeHandleState(space, w_handle, w_pipemode, w_maxinstances, w_timeout):
handle = handle_w(space, w_handle)
state = lltype.malloc(rffi.CArrayPtr(rffi.UINT).TO, 3, flavor='raw')
statep = lltype.malloc(rffi.CArrayPtr(rffi.UINTP).TO, 3, flavor='raw', zero=True)
try:
if not space.is_w(w_pipemode, space.w_None):
state[0] = space.uint_w(w_pipemode)
statep[0] = rffi.ptradd(state, 0)
if not space.is_w(w_maxinstances, space.w_None):
state[1] = space.uint_w(w_maxinstances)
statep[1] = rffi.ptradd(state, 1)
if not space.is_w(w_timeout, space.w_None):
state[2] = space.uint_w(w_timeout)
statep[2] = rffi.ptradd(state, 2)
if not _SetNamedPipeHandleState(handle, statep[0], statep[1], statep[2]):
raise wrap_windowserror(space, rwin32.lastWindowsError())
finally:
lltype.free(state, flavor='raw')
lltype.free(statep, flavor='raw')
def mmap(fileno, length, tagname="", access=_ACCESS_DEFAULT, offset=0):
# XXX flags is or-ed into access by now.
flags = 0
# check size boundaries
_check_map_size(length)
map_size = length
if offset < 0:
raise RValueError("negative offset")
flProtect = 0
dwDesiredAccess = 0
fh = NULL_HANDLE
if access == ACCESS_READ:
flProtect = PAGE_READONLY
dwDesiredAccess = FILE_MAP_READ
elif access == _ACCESS_DEFAULT or access == ACCESS_WRITE:
flProtect = PAGE_READWRITE
dwDesiredAccess = FILE_MAP_WRITE
elif access == ACCESS_COPY:
flProtect = PAGE_WRITECOPY
dwDesiredAccess = FILE_MAP_COPY
else:
raise RValueError("mmap invalid access parameter.")
# assume -1 and 0 both mean invalid file descriptor
# to 'anonymously' map memory.
if fileno != -1 and fileno != 0:
fh = rwin32.get_osfhandle(fileno)
# Win9x appears to need us seeked to zero
# SEEK_SET = 0
# libc._lseek(fileno, 0, SEEK_SET)
# check file size
try:
low, high = _get_file_size(fh)
except OSError:
pass # ignore non-seeking files and errors and trust map_size
else:
if not high and low <= sys.maxint:
size = low
else:
# not so sure if the signed/unsigned strictness is a good idea:
high = rffi.cast(lltype.Unsigned, high)
low = rffi.cast(lltype.Unsigned, low)
size = (high << 32) + low
size = rffi.cast(lltype.Signed, size)
if map_size == 0:
if offset > size:
raise RValueError(
"mmap offset is greater than file size")
map_size = int(size - offset)
if map_size != size - offset:
raise RValueError("mmap length is too large")
elif offset + map_size > size:
raise RValueError("mmap length is greater than file size")
m = MMap(access, offset)
m.file_handle = INVALID_HANDLE
m.map_handle = INVALID_HANDLE
if fh:
# it is necessary to duplicate the handle, so the
# Python code can close it on us
handle_ref = lltype.malloc(LPHANDLE.TO, 1, flavor='raw')
handle_ref[0] = m.file_handle
try:
res = DuplicateHandle(
GetCurrentProcess(), # source process handle
fh, # handle to be duplicated
GetCurrentProcess(), # target process handle
handle_ref, # result
0, # access - ignored due to options value
False, # inherited by child procs?
DUPLICATE_SAME_ACCESS) # options
if not res:
raise rwin32.lastWindowsError()
m.file_handle = handle_ref[0]
finally:
lltype.free(handle_ref, flavor='raw')
if not map_size:
low, high = _get_file_size(fh)
if _64BIT:
map_size = (low << 32) + 1
else:
if high:
# file is too large to map completely
map_size = -1
else:
map_size = low
if tagname:
m.tagname = tagname
# DWORD is a 4-byte int. If int > 4-byte it must be divided
if _64BIT:
size_hi = (map_size + offset) >> 32
size_lo = (map_size + offset) & 0xFFFFFFFF
offset_hi = offset >> 32
offset_lo = offset & 0xFFFFFFFF
else:
size_hi = 0
size_lo = map_size + offset
offset_hi = 0
offset_lo = offset
flProtect |= flags
m.map_handle = CreateFileMapping(m.file_handle, NULL, flProtect,
size_hi, size_lo, m.tagname)
if m.map_handle:
data = MapViewOfFile(m.map_handle, dwDesiredAccess, offset_hi,
offset_lo, length)
if data:
# XXX we should have a real LPVOID which must always be casted
charp = rffi.cast(LPCSTR, data)
m.setdata(charp, map_size)
return m
winerror = rwin32.lastWindowsError()
if m.map_handle:
rwin32.CloseHandle(m.map_handle)
m.map_handle = INVALID_HANDLE
raise winerror
def WaitNamedPipe(space, name, timeout):
# Careful: zero means "default value specified by CreateNamedPipe()"
if not _WaitNamedPipe(name, timeout):
raise wrap_windowserror(space, rwin32.lastWindowsError())
def do_poll(self, space, timeout):
from pypy.module._multiprocessing.interp_win32 import (_PeekNamedPipe,
_GetTickCount,
_Sleep)
from pypy.rlib import rwin32
from pypy.interpreter.error import wrap_windowserror
bytes_ptr = lltype.malloc(rffi.CArrayPtr(rwin32.DWORD).TO,
1,
flavor='raw')
try:
if not _PeekNamedPipe(self.handle, rffi.NULL, 0,
lltype.nullptr(rwin32.LPDWORD.TO), bytes_ptr,
lltype.nullptr(rwin32.LPDWORD.TO)):
raise wrap_windowserror(space, rwin32.lastWindowsError())
bytes = bytes_ptr[0]
finally:
lltype.free(bytes_ptr, flavor='raw')
if timeout == 0.0:
return bytes > 0
block = timeout < 0
if not block:
# XXX does not check for overflow
deadline = intmask(_GetTickCount()) + int(1000 * timeout + 0.5)
else:
deadline = 0
_Sleep(0)
delay = 1
while True:
bytes_ptr = lltype.malloc(rffi.CArrayPtr(rwin32.DWORD).TO,
1,
flavor='raw')
try:
if not _PeekNamedPipe(self.handle, rffi.NULL, 0,
lltype.nullptr(rwin32.LPDWORD.TO),
bytes_ptr,
lltype.nullptr(rwin32.LPDWORD.TO)):
raise wrap_windowserror(space, rwin32.lastWindowsError())
bytes = bytes_ptr[0]
finally:
lltype.free(bytes_ptr, flavor='raw')
if bytes > 0:
return True
if not block:
now = intmask(_GetTickCount())
if now > deadline:
return False
diff = deadline - now
if delay > diff:
delay = diff
else:
delay += 1
if delay >= 20:
delay = 20
_Sleep(delay)
def resize(self, newsize):
self.check_valid()
self.check_resizeable()
if _POSIX:
if not has_mremap:
raise RValueError("mmap: resizing not available--no mremap()")
# resize the underlying file first
os.ftruncate(self.fd, self.offset + newsize)
# now resize the mmap
newdata = c_mremap(self.getptr(0), self.size, newsize,
MREMAP_MAYMOVE or 0)
self.setdata(newdata, newsize)
elif _MS_WINDOWS:
# disconnect the mapping
self.unmapview()
rwin32.CloseHandle(self.map_handle)
# move to the desired EOF position
if _64BIT:
newsize_high = (self.offset + newsize) >> 32
newsize_low = (self.offset + newsize) & 0xFFFFFFFF
offset_high = self.offset >> 32
offset_low = self.offset & 0xFFFFFFFF
else:
newsize_high = 0
newsize_low = self.offset + newsize
offset_high = 0
offset_low = self.offset
FILE_BEGIN = 0
high_ref = lltype.malloc(PLONG.TO, 1, flavor='raw')
try:
high_ref[0] = rffi.cast(LONG, newsize_high)
SetFilePointer(self.file_handle, newsize_low, high_ref,
FILE_BEGIN)
finally:
lltype.free(high_ref, flavor='raw')
# resize the file
SetEndOfFile(self.file_handle)
# create another mapping object and remap the file view
res = CreateFileMapping(self.file_handle, NULL, PAGE_READWRITE,
newsize_high, newsize_low, self.tagname)
self.map_handle = res
dwErrCode = 0
if self.map_handle:
data = MapViewOfFile(self.map_handle, FILE_MAP_WRITE,
offset_high, offset_low, newsize)
if data:
# XXX we should have a real LPVOID which must always be casted
charp = rffi.cast(LPCSTR, data)
self.setdata(charp, newsize)
return
winerror = rwin32.lastWindowsError()
if self.map_handle:
rwin32.CloseHandle(self.map_handle)
self.map_handle = INVALID_HANDLE
raise winerror
def CloseHandle(space, w_handle):
handle = handle_w(space, w_handle)
if not rwin32.CloseHandle(handle):
raise wrap_windowserror(space, rwin32.lastWindowsError())
def mmap(fileno, length, tagname="", access=_ACCESS_DEFAULT, offset=0):
# check size boundaries
_check_map_size(length)
map_size = length
if offset < 0:
raise RValueError("negative offset")
flProtect = 0
dwDesiredAccess = 0
fh = NULL_HANDLE
if access == ACCESS_READ:
flProtect = PAGE_READONLY
dwDesiredAccess = FILE_MAP_READ
elif access == _ACCESS_DEFAULT or access == ACCESS_WRITE:
flProtect = PAGE_READWRITE
dwDesiredAccess = FILE_MAP_WRITE
elif access == ACCESS_COPY:
flProtect = PAGE_WRITECOPY
dwDesiredAccess = FILE_MAP_COPY
else:
raise RValueError("mmap invalid access parameter.")
# assume -1 and 0 both mean invalid file descriptor
# to 'anonymously' map memory.
if fileno != -1 and fileno != 0:
fh = rwin32._get_osfhandle(fileno)
if fh == INVALID_HANDLE:
errno = rposix.get_errno()
raise OSError(errno, os.strerror(errno))
# Win9x appears to need us seeked to zero
# SEEK_SET = 0
# libc._lseek(fileno, 0, SEEK_SET)
m = MMap(access, offset)
m.file_handle = INVALID_HANDLE
m.map_handle = INVALID_HANDLE
if fh:
# it is necessary to duplicate the handle, so the
# Python code can close it on us
handle_ref = lltype.malloc(LPHANDLE.TO, 1, flavor='raw')
handle_ref[0] = m.file_handle
try:
res = DuplicateHandle(GetCurrentProcess(), # source process handle
fh, # handle to be duplicated
GetCurrentProcess(), # target process handle
handle_ref, # result
0, # access - ignored due to options value
False, # inherited by child procs?
DUPLICATE_SAME_ACCESS) # options
if not res:
raise rwin32.lastWindowsError()
m.file_handle = handle_ref[0]
finally:
lltype.free(handle_ref, flavor='raw')
if not map_size:
low, high = _get_file_size(fh)
if _64BIT:
map_size = (low << 32) + 1
else:
if high:
# file is too large to map completely
map_size = -1
else:
map_size = low
if tagname:
m.tagname = tagname
# DWORD is a 4-byte int. If int > 4-byte it must be divided
if _64BIT:
size_hi = (map_size + offset) >> 32
size_lo = (map_size + offset) & 0xFFFFFFFF
offset_hi = offset >> 32
offset_lo = offset & 0xFFFFFFFF
else:
size_hi = 0
size_lo = map_size + offset
offset_hi = 0
offset_lo = offset
m.map_handle = CreateFileMapping(m.file_handle, NULL, flProtect,
size_hi, size_lo, m.tagname)
if m.map_handle:
data = MapViewOfFile(m.map_handle, dwDesiredAccess,
offset_hi, offset_lo, length)
if data:
# XXX we should have a real LPVOID which must always be casted
charp = rffi.cast(LPCSTR, data)
m.setdata(charp, map_size)
return m
winerror = rwin32.lastWindowsError()
if m.map_handle:
rwin32.CloseHandle(m.map_handle)
m.map_handle = INVALID_HANDLE
raise winerror
