We are not ready for enabling ATLASSERT. Enabling ATL assertions takes time to realize. CORE-17505
- Disable ATLASSERT by undefining _DEBUG.
- Revert currently non-fixable codes.
- Fix generic text mapping for GetWindowText and GetWindowTextLength functions.
- Fix the position.
- Fix the length.
- Fail elegantly if necessary.
CORE-9281
Addendum to 0.4.15-dev-1453-g 4ad7b6d
Looks like CMake on master does not longer understand the syntax of
replace_compile_flags().
Will investigate that later again, when other issues have been
solved that do currently prevent me from testing that locally at all.
Most likely remove_target_compile_option() has to be used instead now.
[AUTOCHK] Add also support for scanning FATX volumes.
The Format(), FormatEx(), Chkdsk(), ChkdskEx() functions exposed by the
U*.DLL user-mode FS library dlls are different (and have different
prototypes) than the similarly-named functions exported by FMIFS.DLL .
In particular, what we used to call "xxxChkdskEx()" and "xxxFormatEx()"
in our U*.DLL libraries actually correspond more, from their arguments,
to the "Chkdsk()" and "Format()" functions in Windows' U*.DLL . Their
*Ex() counterparts instead take most of the parameters through a
structure passed by pointer.
On FMIFS.DLL side, while FMIFS!Chkdsk() calls U*.DLL!Chkdsk() and
FMIFS!ChkdskEx() calls U*.DLL!ChkdskEx() (and we do not implement these
*Ex() functions at the moment), both FMIFS!Format() and FMIFS!FormatEx()
call U*.DLL!Format() instead, while FMIFS!FormatEx2() calls
U*.DLL!FormatEx() (that we do not implement yet either) !!
To improve that, refactor the calls to these U*.DLL functions so as to
respect the more compatible prototypes: They contain the correct number
of parameters in a compatible order. However, some of the parameters do
not have the same types yet: the strings are kept here in PUNICODE_STRINGS,
while on Windows they are passed via an undocumented DSTRING struct, and
the FMIFS callback is instead a MESSAGE struct/class on Windows.
Finally, the MEDIA_TYPE parameter in U*.DLL!Format() is equivalent, yet
not fully 100% in 1-to-1 correspondence, with the FMIFS_MEDIA_FLAG used
in the corresponding FMIFS.DLL functions.
One thing to notice is that the U*.DLL!Format() (and the Ex) functions
support a BOOLEAN (a flag resp.) for telling that a backwards-compatible
FS version should be used instead of the (default) latest FS version.
This is used e.g. by the FAT FS, where by default FAT32 is selected
(depending also on other constraints like, the disk and the partition
sizes), unless that bit is set in which case, FAT16 (or 12) is used.
- Reduce the diff with upstream by aliasing malloc() and free()
with RtlAllocateHeap() and RtlFreeHeap() respectively.
- Fix a memory leak in the failure code path of the do-while
memory reallocation loop for IOCTL_BTRFS_QUERY_FILESYSTEMS
in is_mounted_multi_device().
Not all files are included, but these are necessary to compile cdrom driver.
So far it can only be statically linked with drivers, a proper
implementation requires wdfldr helper driver
This removes the broken wine version of atexit and onexit. It keeps only dllonexit, which is implemented properly. The previous __call_atexit is moved to where the mingw onexit/atexit code is and adjusts it to work with the existing code. A call to __call_atexit is added in __tmainCRTStartup after the main function was called.
Instead of messing with global variables and the like, we introduce two target properties:
- WITH_CXX_EXCEPTIONS: if you want to use C++ exceptions
- WITH_CXX_RTTI: if you need RTTI in your module
You can use the newly introduced set_target_cpp_properties function, with WITH_EXCEPTIONS and WITH_RTTI arguments
We also introduce two libraries :
- cpprt: for C++ runtime routines
- cppstl: for the C++ standard template library
NB: On GCC, this requires to create imported libraries with the related built-in libraries:libsupc++, limingwex, libstdc++
Finally, we manage the relevant flags with the ad-hoc generator expressions
So, if you don't need exceptions, nor RTTI, nor use any runtime at all: you simply have nothing else to do than add your C++ file to your module
for vista+ APIs implemented in ntoskrnl_vista.
Now if you statically link ntoskrnl_vista into a driver,
NTKERNELAPI will automatically be removed from an API definition
This lead to a crash of winmm:mixer
during "GCCLin_x86 on Test VBox".
The crash was exposed when new code paths
were activated by 0.4.15-dev-791-g
6d7ebc2048
I do intend to port this commit back into 0.4.14RC.
* Move RtlRunOnce functions from kernel32_vista to rtl_vista and export them from ntdll_vista
* Move condvar.c and srw.c from ntdll_vista to rtl_vista
* Move ntdll_vista build script to a subfolder of ntdll
The RtlRunOnce functions are taken from wine, completely unmodified.
The code that was in kernel32_vista had change that used a global keyed_event handle, but was never initialized, so we were still passing NULL thus using the global ExpCritSecOutOfMemoryEvent.
* [RAPPS] separate application-view from gui.cpp
* [RAPPS] make the code looks more clear
* [RAPPS] fix & improve tab-order handle
* [RAPPS] now double-click / right-click & install an item will install exactly this app
* [RAPPS] add handling for DWORD timestamp for InstallDate
* [RAPPS] make the code setting column style more clear
* [RAPPS] change the owner of popup-menu
* [RAPPS] now the popup menu (the one when right-click listview) now belongs to application-view
This is a partial sync of the CRT library with wcsrtombs_l and _mbstowcs_l functions from WINE. The _wctomb_s_l implementation of WINE which is used by _wctomb_s, _wctomb_l and wctomb brings failed results of the wctomb unit testcase and at the same time it crashes the whole testcase after.
Therefore I will not address the wctomb function for the moment being.
The current _mbtowc_l code directly passes the string count size argument to cbMultiByte argument parameter to MultiByteToWideChar(). As the size of lpMultiByteStr expressed in bytes by cbMultiByte is dependent of the actual given string, the size of lpWideCharStr expressed in characters by cchWideChar is always 1.
The resulting parameters to MultiByteToWideChar() will lead to a failure as lpWideCharStr cannot accommodate the converted string if the size pointed by lpMultiByteStr is larger than the buffer wide string to receive the converted output, a Win32 error code of ERROR_INSUFFICIENT_BUFFER in other words. The fact that _mbtowc_l never fails without WINE Gecko package installed is because the codepage pointed by lc_codepage is CP_ACP and the converted output is directly given to the destination wide string parameter thus never calling MultiByteToWideChar(). Installing WINE Gecko merely unhides this problem.
As _mbtowc_l is imported from WINE and that they have updated their code (which at the same time this fixes the aforementioned problem), the following commit syncs the updated code from WINE.
CORE-16885
Incoming r4 contains the number of dwords to allocate, converting to bytes then return.
This makes ReactOS applications compiled for ARM running on true ARM Windows.
Reference: 2b095beace
Native CRT on ARM & ARM64 Windows doesn't have these functions.
For compatibility, it's mandatory to not have it at all. Otherwise,
ARM executables built for ReactOS do not run on true ARM Windows.
Consider doing full sync with mingw-w64 CRT in future.
