Object ACEs are supported starting from Revision 4, the current code checks
if the revision is above Revision 4. An Object ACE has to be strictly set on that revision,
whereas Object ACLs can be of any revision starting from ACL_REVISION4.
Write the necessary ACL validation code for ACEs whose types are ACCESS_ALLOWED_OBJECT_ACE_TYPE
or ACCESS_DENIED_OBJECT_ACE_TYPE. This ensures each created object type ACL has valid ACE
contents.
Make sure RtlRemovePrivileges gets compiled, when DLL_EXPORT_VERSION is 0x600+
Enable all existing functions from rtl_vista.
Hack CsrNewThread export to exist on later versions, too
- Fix the garbled characters (a.k.a. mojibake) in some Japanese text files.
- weight will remain 3 unless IS_TEXT_UNICODE_DBCS_LEADBYTE flag is set.
- Strengthen advapi32_apitest IsTextUnicode testcase.
CORE-19016
... as it should have always been done (and must be done for NTDLL
and NTOS kernel as well). This allows using the RTL with the correct
definitions and the reduced functionality available at boot-time.
+ Make the RTL main header compatible.
In addition, this will permit re-using existing code that already
uses the RTL (mostly string conversions).
See commits 427c90af3 (r36761) and b46e8cc18 (r36980) for some
background.
The reason is that both RtlUTF8ToUnicodeN() and RtlUnicodeToUTF8N() are
exported in both kernel and user-mode (ntdll) in Windows 7+.
Conversion from and to UTF8 are fundamental enough that they indeed
deserve to be in a separate file.
GCC has some functions, variables & type attributes which can be used as aliases
for some of the SAL annotations. Although it's not as rich & precise, it's still useful
since we actually enable -Werror on GCC builds whereas we don't use such an option
on MSVC builds.
For now, _Must_inspect_result_ is aliased to warn_result_unused attribute.
RtlpCaptureNonVolatileContextPointers walks the stack and captures the addresses of all non-volatile registers on the stack, when they have been saved first. This is needed to be able to fix up the non-volatile on a system call, which doesn't capture non-volatiles, but relies on them to be restored by the callees.
Instead of only checking for the TargetFrame, also check for a mode change, i.e. RIP went from kernel to user, in which case the target frame was not reached yet, because it was too large, but processing can't continue here.
RtlSetUnwindContext uses RtlpCaptureNonVolatileContextPointers to set the non-volatile registers in the the stack. They will be picked up, when returning back or unwinding, e.g. to the system call handler.
