- Use PnP storage class drivers
- Make partmgr an upper filter driver for Disk class
- Fill upper filters in txtsetup and usetup/devinst
- Add cdrom driver to the critical device database
CORE-6264
- Pass all SRB flags which Windows scsiport passes
- Correctly reset the queue after completion
This fixes the bug when MS cdrom driver hangs after media ejection
Basic functions are implemented in order to work in PnP stack,
only legacy (non-pnp) miniport drivers are supported.
Tested mostly with uniata
CORE-17132
- BUGFIX: do not call IoGetRelatedTargetDevice while guarded mutex is acquired
(the function issues an APC, but they are disabled inside a critical section)
- BUGFIX: only the beginning of a structure for GUID_PNP_CUSTOM_NOTIFICATION was copied and queued.
Just pass it as-is to a subscriber, without copying
- Don't convert event GUID to string, store and compare GUID struct itself
- Split IopNotifyPlugPlayNotification into 3 functions for each type of notification
(less stack usage and for future changes)
- Move initialization code for notifications into a separate routine
- Use separate lists and locks for every type of notification
- Put "TargetDeviceChange" notifications into their place inside DEVICE_NODE
That way, we won't use whatever standard is the default on whatever compiler we are using.
This should also prevent using more recent features without warning.
When the system is not installed yet (e.g. LiveCD or 2nd installation stage)
there is no registered user and organization, so no need to show this text
label in the shell about dialog.
Co-authored-by: Stanislav Motylkov <x86corez@gmail.com>
Since they are completely undocumented and unlikely will be implemented in ROS,
stubbing them only in spec file seems to be a better solution than adding wrong
prototypes.
Use `stdcall -stub` instead of `stub` and enable parameters of the functions.
This allows to properly load our msgina.dll in Windows XP/2003.
Although it still doesn't boot to desktop with dll replaced, but nevertheless
the system crash that was caused by stubbed functions does no longer happen.
Add two hacks in UpdateDiskLayout() and WritePartitions() so that the
disk partition style is consistently set to a known value MBR, especially
when that disk was previously new and uninitialized (RAW).
A proper fix will be developed later when support for GPT is added.
so that they wrap the needed init steps for formatting/chkdsk'ing.
These helpers now accept a PPARTENTRY, together with the usual
formatting/chkdsk parameters. The helpers now determine the actual
NT path to use, and can perform the init steps on the partition
before performing the actual operation.
In particular, FormatPartition() is now made GPT-compliant. The
partition type retrieved by FileSystemToMBRPartitionType() is now
used as a hint for choosing FAT32 over FAT12/16, and only in the
case of a MBR partition that is *NOT* a recognized OEM partition,
it is used for updating the corresponding partition type. (OEM
partitions must retain their original type.)
The OEM partition types we (and NT) can recognize are specified
e.g. in the Microsoft Open-Specification [MS-DMRP] Appendix B
https://docs.microsoft.com/en-us/openspecs/windows_protocols/ms-dmrp/5f5043a3-9e6d-40cc-a05b-1a4a3617df32
Introduce an IsOEMPartition() macro to help checking for these types
(its name is based on the Is***Partition() macros from ntdddisk.h,
and from a dmdskmgr.dll export of similar name).
Instead of providing an MBR partition type to InferFileSystem(), make
it call IOCTL_DISK_GET_PARTITION_INFO(_EX) to determine whether the
partition pointed by the path/handle is MBR or GPT. Then, only if it's
MBR, we retrieve its partition type in order to "guess" an adequate file
system name, in case the latter was not recognized already via regular
ways (via GetFileSystemName() / NtQueryVolumeInformationFile()).
- Remove the GetFileSystemNameByHandle() and InferFileSystemByHandle()
functions. Instead, make the other GetFileSystemName*() and
InferFileSystem*() functions accept a HANDLE as an alternative to the
already-existing partition path string. These parameters are exclusive
to each other.
- Rename SetPartitionType() -> SetMBRPartitionType(),
and FileSystemToPartitionType() -> FileSystemToMBRPartitionType()
in order to really clarify what they do (since this code is meant
for MBR partitions only, not GPT ones).
[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().
Fixes build with the latest VS2019 (16.8.2).
The new version now adds Llvm\x64\bin to the PATH of the
"x64_x86 Cross Tools Commannd Prompt", so we must override this to
get x86 clang.