The code was passing 0 instead of SECTION_INHERIT::ViewUnmap (2). 0 isn't even a proper constant to be used here. It worked, because MmMapViewOfSection only compares against ViewShare (1) and treats everything else as ViewUnmap.
The function set CtxSwitchFrame->ApcBypass to FALSE, preventing APCs (like when user mode sets the context while the thread is suspended) from being delivered as soon as the thread lowers IRQL to PASSIVE_LEVEL. This resulted in the SetContext APC to be delivered only after the user mode APC was initialized, overwriting the user mode APC context in the trap frame. This caused kernel32_winetest process to break.
Now that the Memory Management is a bit more under control again,
and branching releases/0.4.15 is near,
do mute some frequent log-spam that got introduced during 0.4.15-dev'ing
regarding lazy-flushes and MM balancing.
It frequently logged even while being idle.
Slightly improve the headers of the two touched files.
No rocket-science.
- They notify, via the "\\Callback\\SetSystemTime" callback, components
of a change of system time (for example, Win32k).
Note, that our Win32k currently does not handle power callouts, so
it isn't affected by these changes (yet).
- NtSetSystemTime(NULL, ...) means "update system time using the current
time-zone information", which is something we don't implement yet.
(And, nothing was previously protecting this call from a NULL parameter...)
Add redirections for KdSave/KdRestore and KdD0Transition/KdD3Transition.
Both KDBG and KD(TERM) need those since they will become external
transport DLLs later.
Split KdSendPacket and KdReceivePacket into those that manipulate the
KDBG state proper (reside in kdbg/kdbg.c), and those that deal only with
debug input/output that will reside in a KDTERM "KD Terminal Driver" DLL.
Based on some previous preparatory work by Hervé Poussineau in PR #4600.
(Equivalents of commits 5162bf106 and partly e9bcf7275.)
As it turns out, those three functions were duplicating the same code
between each other. Reimplement these in terms of a common helper,
RtlFindExportedRoutineByName().
Indeed: MiFindExportedRoutineByName() was just MiLocateExportName()
but taking a PANSI_STRING instead of a NULL-terminated string.
A similar state of affairs also existed in Windows <= 2003, and the
MS guys also noticed it. Both routines have been then merged and renamed
to MiFindExportedRoutineByName() on Windows 8 (taking a PCSTR instead),
and finally renamed and exported as RtlFindExportedRoutineByName()
on Windows 10.
It was implemented in psmgr.c but in a recursive way. That implementation
is replaced, in the NameToOrdinal() helper, by the better non-recursive one
found in the MiLocateExportName() and MiFindExportedRoutineByName() functions.
This NameToOrdinal() helper is then called in lieu of the duplicated code
in MiLocateExportName() and MiFindExportedRoutineByName(). In addition,
one block of code in MiSnapThunk() is simplified in a similar manner.
ACCESS_DENIED_ACE_TYPE, ACCESS_ALLOWED_ACE_TYPE, SYSTEM_AUDIT_ACE_TYPE and
SYSTEM_ALARM_ACE_TYPE belong to the same commonly internal ACE type, aka KNOWN_ACE,
as each of these ACEs have the same structure field offsets.
The only difference are ACCESS_DENIED_OBJECT_ACE_TYPE and ACCESS_ALLOWED_OBJECT_ACE_TYPE
as they have their own internal ACE type variant, the KNOWN_OBJECT_ACE structure.
The general guideline is that public ACE structure variants have to be used elsehwere
such as in UM whilst the kernel has to use the internal known ACE type variants when possible.
- Implement SepDenyAccessObjectTypeResultList, SepAllowAccessObjectTypeResultList,
SepDenyAccessObjectTypeList and SepAllowAccessObjectTypeList. These routines will
be used to grant or deny access to sub-objects of an object in the list.
- Refactor SepAnalyzeAcesFromDacl and SepAccessCheck to accomodate the newly
implemented access check by type mechanism.
- SepAccessCheck will now be SepAccessCheckWorker, a worker helper function that further
abstracts the access check mechanism in the kernel. Whereas the SepAccessCheck name will be
used as a centralized function used by the access check NT system calls.
- Deprecate SepGetSDOwner and SepGetSDGroup in favor of SepGetOwnerFromDescriptor and
SepGetGroupFromDescriptor. The former functions were buggy as they might potentially
return garbage data if either the owner or group were passed as NULL to a security
descriptor, hence a second chance exception fault. This was caught when writing tests
for NtAccessCheckByType.
- Shorten the debug prints by removing the name of the functions, the person who reads
the debugger output has to look at the source code anyway.
This implements various private kernel routines for object type list management
needed for access check code infrastructure. In addition, update the code documentation
and add missing comments.
This function will dump all the access status and granted access rights
of each object list of a list whenever an access check by type (or by type
result list) fails. This is for debugging purposes.
OBJECT_TYPE_LIST_INTERNAL will serve as an internal kernel data structure
to hold validated object type contents that are copied from UM.
The difference between the public and the internal one is that the internal structure has
an additional member for access check rights that have been granted on each
object element in the list.
I intend to port back the combined work of Thomas Faber and Serge Gautherie in context of CORE 14271.
Both developers fixed wrong retval evaluations for SeSinglePrivilegeCheck() and RtlCreateUnicodeString().
Both functions do return a BOOLEAN, and therefore using NTSTATUS() on them is wrong.
Those bugs have been fixed at multiple places. That is long gone.
But Serge fixed his locations a bit more elegantly, without the need for additional variables.
Therefore this addendum adapts a few of Thomas locations to the improved Serge-ified style.
Yes: I intentionally used a space instead of a minus after the mentioned CORE 14271,
as I don't want that pure stylistic addendum to be linked with the initial ticket anymore.
That would be overkill.
The function updates the entry in the section page table and updates the section association rmaps for it. In the page-in path, when the new section association is set before the entry is updated, a concurrent attempt to unmap the page would find an inconsistent entry, where there is an rmap, but the section page table entry is still an MM_WAIT_ENTRY.
MmGetSectionAssociation races with _MmSetPageEntrySectionSegment without sharing a lock. So we need to hold the PFN lock, until we have referenced the section segment found in the RMAP. This prevents that a section segment, which still has associated RMAPs from being deleted behind our back.
These are used in the paging path, when the page is currently in the process of being read from or written to the disk. While YieldProcessor() provides the chance to switch context to the other paging thread, it only does so, once the current thread's quantum has expired. On a single CPU system this effectively leads to busy waiting for the rest of the quantum. On SMP systems this could succeed earlier, thus reducing latency, but it would still contribute to high CPU usage, while waiting for the IO operation to complete, which is not what we want.
Using KeDelayExecutionThread() will instantly allow another thread to run, providing enough time to complete the IO operation.
This should be performed early enough before CM initialization,
but after the TSC has been initialized and calibrated by HAL.
Based on existing i386 kiinit code. CORE-17971 CORE-14922
Implement IoConnectInterruptEx() for CONNECT_FULLY_SPECIFIED.
This gives ability to load various modern drivers that use IoConnectInterruptEx.
Various drivers work after this change, such as serial.sys MS sample driver when compiled with the reactos tree and many more KMDF drivers from later Windows versions.
Co-authored-by: Victor Perevertkin <victor@perevertkin.ru>
KiGetFeatureBits() is now being called in the early boot phase 0
when the Kernel Debugger is not yet initialized, so debug prints
are not available here. Move the debug prints into a new function
and call it at the right time. CORE-18023
The function should return the kernel time for the idle thread in the
first argument, and kernel time + user time for the current thread in
the second argument.
Also retrieve the processor number from the cached PRCB instead of
calling KeGetCurrentProcessorNumber() which retrieves the PRCB again
since the processor could switch in-between those calls.
NdisGetCurrentProcessorCounts() function follows the same prototype
which is the correct one.
Besides creating the PDO and device node for it, it has to set up the
necessary registry keys, and register PDO at PnP root driver properly.
CORE-18989