Import the following Wine commits:
* ea2798f1ce9 Iván Matellanes: msvcrt: _setmode should check if file descriptor is valid.
* 9b495caacfd Carlo Bramini: msvcrt: Call SetFilePointer() with correct parameters.
* 13f34481b26 Carlo Bramini: msvcrt: Use MSVCRT_xxx macros instead of the same ones from GLIBC.
* 781b069ed81 Piotr Caban: msvcrt: Don't close HANDLE if stdout or stderr is sharing it.
Import Wine commits by Piotr Caban:
* 6ed69c107f8 msvcrt: Avoid using global critical section while allocating new file descriptors.
* 725e4733cf8 msvcrt: Remove no longer needed global lock from functions using fd critical sections.
Import Wine commits by Piotr Caban:
* 417b6056877 msvcrt: Fix possible deadlock in dup2 function.
* e7fc2370885 msvcrt: Don't use fdend in create_io_inherit_block.
Import Wine commits by Piotr Caban:
* c7b0fb51543 msvcrt: Use fd critical section in _dup2.
* b052afd4afa msvcrt: Use fd critical section in msvcrt_free_fd.
* 16285f5700f msvcrt: Use fd critical section in read.
* 9ce2a8a60c1 msvcrt: Use fd critical section in create_io_inherit_block.
* f00b7f40584 msvcrt: Use fd critical section in _setmode.
* ba757eaec74 msvcrt: Use fd critical section in _write.
* eec7a565bec msvcrt: Don't lock __badioinfo.
Import Wine commits by Piotr Caban:
* 6c2d4f1092d msvcrt: Use fd critical section in _fstat64.
* 9278190d468 msvcrt: Use fd critical section in _futime64.
Import Wine commits by Piotr Caban:
* 4508e665c07 msvcrt: Use fd critical section in _commit.
* afc6962a24a msvcrt: Use fd critical section in _close.
* 9a4cfbc3edc msvcrt: Use fd critical section in _eof.
* ffdd16cc0d7 msvcrt: Use fd critical section in _locking.
* fa6de597700 msvcrt: Use fd critical section in _lseeki64.
* f2f45d5fe67 msvcrt: Use fd critical section in _chsize_s.
- Make sure the DWLP_* values are correct on _WIN64
- Don't use the DWL_* constants, they are not portable. Enforce this by removing them entirely from winuser.h
- Make sure Get/SetWindowLong*Ptr* is used and pointers are not truncated to LONG
(So the fun begins)
In spite of what VFATLIB headers pretend, there's not magic in FAT boot sector.
The 3 first bytes are just the jump instruction (to the boot code). No jump, no boot.
Also, some (many?) FAT implementations rely on the jump code to help detecting that
a FAT volume is really a FAT volume. Like MS FastFAT. Or our own FAT recognizer in FS_REC.
The story is that, up to that commit, we zeroed the 3 first bytes; leading to broken
FAT volumes.
This got hidden in most cases by the fact that during setup, when we install boot
loader, we erase parts of the boot sector, including the jump instruction, making the
volume valid again. But that wouldn't fix secondary volumes where the boot loader isn't
installed.
And, also, imagine a scenario where you want to install ReactOS on a newly formatted volume
with MS FastFAT instead of our own implementation... That would simply not work to
the fact that the driver wouldn't recognize the fresh formatted volume!
(So the non fashion begins)
Fix this by putting a not that valid jump into the boot sector when formatting our
partitions. That way, our volume is always regarding a FAT view point. But, instead of
putting values that mean (nearly) nothing. We should also put a dummy bootloader
displaying the user and error message, as done by dosfstools.
(So the hope begins)
This opens the way for trying to install ReactOS with MS FastFAT (doesn't work yet).
CORE-11819
CORE-14362
[SHLWAPI] Refactor the SHCreateWorkerWindowW() prototype to match its ANSI SHCreateWorkerWindowA() counterpart.
The last parameter is really to be understood as an extra window data, and not a "message result" (as it would be the case for dialog window procedure).
That is why I also remove the mention of "DWLP_MSGRESULT" in the SetWindowLongPtrW() call.
SHCreateWorkerWindowA() had it OK but SHCreateWorkerWindowW() did not.
------------------
[SHLWAPI] Make SHCreateWorkerWindowA() and SHCreateWorkerWindowW() x64-compatible.
The first parameter of these functions is a pointer to a window procedure, having a definite prototype, so employ a correct typedef WNDPROC,
which ensures both correct pointer size and parameter type enforcement.
This also ensures that we use instead a correct pointer size, since otherwise LONG remains 32-bits for Windows compatibility on x64 platforms.
The wndProc parameter is thus casted to LONG_PTR to comply with the SetWindowLongPtrA/W calls.
In SHCreateWorkerWindowW(), the last "wnd_extra" parameter should also be LONG_PTR to be able to pass 64-bit data pointer on x64 platforms.
Therefore fix also setting the wc.cbWndExtra size. One should note that the ANSI SHCreateWorkerWindowA() function had everything OK already.
