mirror of
https://github.com/reactos/reactos.git
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497 lines
15 KiB
C
497 lines
15 KiB
C
/*
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* PROJECT: ReactOS Kernel
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* LICENSE: GPL - See COPYING in the top level directory
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* FILE: ntoskrnl/ke/i386/usercall.c
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* PURPOSE: User-mode Callout Mechanisms (APC and Win32K Callbacks)
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* PROGRAMMERS: Alex Ionescu (alex.ionescu@reactos.org)
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* Timo Kreuzer (timo.kreuzer@reactos.org)
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*/
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/* INCLUDES ******************************************************************/
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#include <ntoskrnl.h>
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#define NDEBUG
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#include <debug.h>
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extern PGDI_BATCHFLUSH_ROUTINE KeGdiFlushUserBatch;
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/* PRIVATE FUNCTIONS *********************************************************/
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/*++
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* @name KiInitializeUserApc
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*
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* Prepares the Context for a User-Mode APC called through NTDLL.DLL
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*
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* @param Reserved
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* Pointer to the Exception Frame on non-i386 builds.
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*
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* @param TrapFrame
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* Pointer to the Trap Frame.
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*
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* @param NormalRoutine
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* Pointer to the NormalRoutine to call.
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*
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* @param NormalContext
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* Pointer to the context to send to the Normal Routine.
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*
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* @param SystemArgument[1-2]
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* Pointer to a set of two parameters that contain untyped data.
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*
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* @return None.
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*
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* @remarks None.
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*
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*--*/
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VOID
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NTAPI
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KiInitializeUserApc(IN PKEXCEPTION_FRAME ExceptionFrame,
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IN PKTRAP_FRAME TrapFrame,
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IN PKNORMAL_ROUTINE NormalRoutine,
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IN PVOID NormalContext,
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IN PVOID SystemArgument1,
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IN PVOID SystemArgument2)
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{
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CONTEXT Context = { 0 };
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ULONG_PTR Stack, AlignedEsp;
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ULONG ContextLength;
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EXCEPTION_RECORD SehExceptRecord;
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/* Don't deliver APCs in V86 mode */
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if (TrapFrame->EFlags & EFLAGS_V86_MASK) return;
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/* Save the full context */
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Context.ContextFlags = CONTEXT_FULL | CONTEXT_DEBUG_REGISTERS;
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KeTrapFrameToContext(TrapFrame, ExceptionFrame, &Context);
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/* Protect with SEH */
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_SEH2_TRY
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{
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/* Sanity check */
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ASSERT(KiUserTrap(TrapFrame));
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/* Get the aligned size */
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AlignedEsp = Context.Esp & ~3;
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ContextLength = CONTEXT_ALIGNED_SIZE + (4 * sizeof(ULONG_PTR));
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Stack = ((AlignedEsp - 8) & ~3) - ContextLength;
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/* Probe the stack */
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ProbeForWrite((PVOID)Stack, AlignedEsp - Stack, 1);
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ASSERT(!(Stack & 3));
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/* Copy data into it */
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RtlCopyMemory((PVOID)(Stack + (4 * sizeof(ULONG_PTR))),
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&Context,
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sizeof(CONTEXT));
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/* Run at APC dispatcher */
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TrapFrame->Eip = (ULONG)KeUserApcDispatcher;
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TrapFrame->HardwareEsp = Stack;
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/* Setup Ring 3 state */
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TrapFrame->SegCs = Ke386SanitizeSeg(KGDT_R3_CODE, UserMode);
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TrapFrame->HardwareSegSs = Ke386SanitizeSeg(KGDT_R3_DATA, UserMode);
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TrapFrame->SegDs = Ke386SanitizeSeg(KGDT_R3_DATA, UserMode);
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TrapFrame->SegEs = Ke386SanitizeSeg(KGDT_R3_DATA, UserMode);
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TrapFrame->SegFs = Ke386SanitizeSeg(KGDT_R3_TEB, UserMode);
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TrapFrame->SegGs = 0;
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TrapFrame->ErrCode = 0;
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/* Sanitize EFLAGS */
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TrapFrame->EFlags = Ke386SanitizeFlags(Context.EFlags, UserMode);
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/* Check if thread has IOPL and force it enabled if so */
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if (KeGetCurrentThread()->Iopl) TrapFrame->EFlags |= EFLAGS_IOPL;
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/* Setup the stack */
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*(PULONG_PTR)(Stack + 0 * sizeof(ULONG_PTR)) = (ULONG_PTR)NormalRoutine;
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*(PULONG_PTR)(Stack + 1 * sizeof(ULONG_PTR)) = (ULONG_PTR)NormalContext;
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*(PULONG_PTR)(Stack + 2 * sizeof(ULONG_PTR)) = (ULONG_PTR)SystemArgument1;
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*(PULONG_PTR)(Stack + 3 * sizeof(ULONG_PTR)) = (ULONG_PTR)SystemArgument2;
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}
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_SEH2_EXCEPT((RtlCopyMemory(&SehExceptRecord, _SEH2_GetExceptionInformation()->ExceptionRecord, sizeof(EXCEPTION_RECORD)), EXCEPTION_EXECUTE_HANDLER))
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{
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/* Dispatch the exception */
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SehExceptRecord.ExceptionAddress = (PVOID)TrapFrame->Eip;
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KiDispatchException(&SehExceptRecord,
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ExceptionFrame,
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TrapFrame,
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UserMode,
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TRUE);
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}
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_SEH2_END;
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}
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/* PUBLIC FUNCTIONS **********************************************************/
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/*
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* @implemented
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*/
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NTSTATUS
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NTAPI
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KeUserModeCallback(IN ULONG RoutineIndex,
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IN PVOID Argument,
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IN ULONG ArgumentLength,
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OUT PVOID *Result,
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OUT PULONG ResultLength)
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{
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ULONG_PTR NewStack, OldStack;
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PULONG UserEsp;
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NTSTATUS CallbackStatus;
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PEXCEPTION_REGISTRATION_RECORD ExceptionList;
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PTEB Teb;
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ULONG GdiBatchCount = 0;
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ASSERT(KeGetCurrentThread()->ApcState.KernelApcInProgress == FALSE);
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ASSERT(KeGetPreviousMode() == UserMode);
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/* Get the current user-mode stack */
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UserEsp = KiGetUserModeStackAddress();
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OldStack = *UserEsp;
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/* Enter a SEH Block */
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_SEH2_TRY
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{
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/* Calculate and align the stack size */
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NewStack = (OldStack - ArgumentLength) & ~3;
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/* Make sure it's writable */
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ProbeForWrite((PVOID)(NewStack - 6 * sizeof(ULONG_PTR)),
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ArgumentLength + 6 * sizeof(ULONG_PTR),
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sizeof(CHAR));
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/* Copy the buffer into the stack */
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RtlCopyMemory((PVOID)NewStack, Argument, ArgumentLength);
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/* Write the arguments */
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NewStack -= 24;
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*(PULONG)NewStack = 0;
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*(PULONG)(NewStack + 4) = RoutineIndex;
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*(PULONG)(NewStack + 8) = (NewStack + 24);
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*(PULONG)(NewStack + 12) = ArgumentLength;
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/* Save the exception list */
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Teb = KeGetCurrentThread()->Teb;
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ExceptionList = Teb->NtTib.ExceptionList;
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/* Jump to user mode */
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*UserEsp = NewStack;
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CallbackStatus = KiCallUserMode(Result, ResultLength);
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if (CallbackStatus != STATUS_CALLBACK_POP_STACK)
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{
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/* Only restore the exception list if we didn't crash in ring 3 */
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Teb->NtTib.ExceptionList = ExceptionList;
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}
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else
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{
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/* Otherwise, pop the stack */
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OldStack = *UserEsp;
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}
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/* Read the GDI Batch count */
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GdiBatchCount = Teb->GdiBatchCount;
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}
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_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
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{
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/* Get the SEH exception */
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_SEH2_YIELD(return _SEH2_GetExceptionCode());
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}
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_SEH2_END;
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/* Check if we have GDI Batch operations */
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if (GdiBatchCount)
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{
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*UserEsp -= 256;
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KeGdiFlushUserBatch();
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}
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/* Restore stack and return */
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*UserEsp = OldStack;
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return CallbackStatus;
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}
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/*
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* Stack layout for KiUserModeCallout:
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* ----------------------------------
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* KCALLOUT_FRAME.ResultLength <= 2nd Parameter to KiCallUserMode
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* KCALLOUT_FRAME.Result <= 1st Parameter to KiCallUserMode
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* KCALLOUT_FRAME.ReturnAddress <= Return address of KiCallUserMode
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* KCALLOUT_FRAME.Ebp \
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* KCALLOUT_FRAME.Ebx | = non-volatile registers, pushed
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* KCALLOUT_FRAME.Esi | by KiCallUserMode
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* KCALLOUT_FRAME.Edi /
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* KCALLOUT_FRAME.CallbackStack
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* KCALLOUT_FRAME.TrapFrame
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* KCALLOUT_FRAME.InitialStack <= CalloutFrame points here
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* ----------------------------------
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* ~~ optional alignment ~~
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* ----------------------------------
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* FX_SAVE_AREA
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* ----------------------------------
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* KTRAP_FRAME
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* ----------------------------------
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* ~~ begin of stack frame for KiUserModeCallout ~~
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*
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*/
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NTSTATUS
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FASTCALL
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KiUserModeCallout(PKCALLOUT_FRAME CalloutFrame)
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{
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PKTHREAD CurrentThread;
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PKTRAP_FRAME TrapFrame, CallbackTrapFrame;
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PFX_SAVE_AREA FxSaveArea, OldFxSaveArea;
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PKPCR Pcr;
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PKTSS Tss;
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ULONG_PTR InitialStack;
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NTSTATUS Status;
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/* Get the current thread */
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CurrentThread = KeGetCurrentThread();
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#if DBG
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/* Check if we are at pasive level */
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if (KeGetCurrentIrql() != PASSIVE_LEVEL)
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{
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/* We're not, bugcheck */
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KeBugCheckEx(IRQL_GT_ZERO_AT_SYSTEM_SERVICE,
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0,
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KeGetCurrentIrql(),
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0,
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0);
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}
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/* Check if we are attached or APCs are disabled */
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if ((CurrentThread->ApcStateIndex != OriginalApcEnvironment) ||
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(CurrentThread->CombinedApcDisable > 0))
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{
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KeBugCheckEx(APC_INDEX_MISMATCH,
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0,
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CurrentThread->ApcStateIndex,
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CurrentThread->CombinedApcDisable,
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0);
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}
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#endif
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/* Align stack on a 16-byte boundary */
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InitialStack = ALIGN_DOWN_BY(CalloutFrame, 16);
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/* Check if we have enough space on the stack */
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if ((InitialStack - KERNEL_STACK_SIZE) < CurrentThread->StackLimit)
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{
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/* We don't, we'll have to grow our stack */
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Status = MmGrowKernelStack((PVOID)InitialStack);
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/* Quit if we failed */
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if (!NT_SUCCESS(Status))
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{
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if (Status == STATUS_STACK_OVERFLOW)
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{
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DPRINT1("Thread wants too much stack\n");
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}
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return Status;
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}
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}
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/* Save the current callback stack and initial stack */
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CalloutFrame->CallbackStack = (ULONG_PTR)CurrentThread->CallbackStack;
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CalloutFrame->InitialStack = (ULONG_PTR)CurrentThread->InitialStack;
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/* Get and save the trap frame */
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TrapFrame = CurrentThread->TrapFrame;
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CalloutFrame->TrapFrame = (ULONG_PTR)TrapFrame;
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/* Set the new callback stack */
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CurrentThread->CallbackStack = CalloutFrame;
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/* Set destination and origin NPX Areas */
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OldFxSaveArea = (PVOID)(CalloutFrame->InitialStack - sizeof(FX_SAVE_AREA));
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FxSaveArea = (PVOID)(InitialStack - sizeof(FX_SAVE_AREA));
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/* Disable interrupts so we can fill the NPX State */
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_disable();
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/* Now copy the NPX State */
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FxSaveArea->U.FnArea.ControlWord = OldFxSaveArea->U.FnArea.ControlWord;
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FxSaveArea->U.FnArea.StatusWord = OldFxSaveArea->U.FnArea.StatusWord;
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FxSaveArea->U.FnArea.TagWord = OldFxSaveArea->U.FnArea.TagWord;
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FxSaveArea->U.FnArea.DataSelector = OldFxSaveArea->U.FnArea.DataSelector;
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FxSaveArea->Cr0NpxState = OldFxSaveArea->Cr0NpxState;
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/* Set the stack address */
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CurrentThread->InitialStack = (PVOID)InitialStack;
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/* Locate the trap frame on the callback stack */
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CallbackTrapFrame = (PVOID)((ULONG_PTR)FxSaveArea - sizeof(KTRAP_FRAME));
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/* Copy the trap frame to the new location */
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*CallbackTrapFrame = *TrapFrame;
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/* Get PCR */
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Pcr = KeGetPcr();
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/* Update the exception list */
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CallbackTrapFrame->ExceptionList = Pcr->NtTib.ExceptionList;
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/* Get TSS */
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Tss = Pcr->TSS;
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/* Check for V86 mode */
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if (CallbackTrapFrame->EFlags & EFLAGS_V86_MASK)
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{
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/* Set new stack address in TSS (full trap frame) */
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Tss->Esp0 = (ULONG_PTR)(CallbackTrapFrame + 1);
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}
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else
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{
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/* Set new stack address in TSS (non-V86 trap frame) */
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Tss->Esp0 = (ULONG_PTR)&CallbackTrapFrame->V86Es;
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}
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/* Set user-mode dispatcher address as EIP */
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CallbackTrapFrame->Eip = (ULONG_PTR)KeUserCallbackDispatcher;
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/* Bring interrupts back */
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_enable();
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/* Exit to user-mode */
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KiServiceExit(CallbackTrapFrame, 0);
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}
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/*++
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* @name NtCallbackReturn
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*
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* The NtCallbackReturn routine returns to kernel mode after a user-mode
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* callback was done through KeUserModeCallback. It uses the callback frame
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* which was setup in order to return the information, restores the stack,
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* and resumes execution where it was left off.
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*
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* @param Result
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* Pointer to a caller-allocated buffer where the return data
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* from the user-mode function is located.
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*
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* @param ResultLength
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* Size of the Output Buffer described above.
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*
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* @param CallbackStatus
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* Status code of the callback operation.
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*
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* @return Status code of the callback operation.
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*
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* @remark This call MUST be paired with KeUserModeCallback.
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*
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*--*/
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NTSTATUS
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NTAPI
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NtCallbackReturn(
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_In_ PVOID Result,
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_In_ ULONG ResultLength,
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_In_ NTSTATUS CallbackStatus)
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{
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PKTHREAD CurrentThread;
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PKCALLOUT_FRAME CalloutFrame;
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PKTRAP_FRAME CallbackTrapFrame, TrapFrame;
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PFX_SAVE_AREA FxSaveArea, CbFxSaveArea;
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ULONG Size;
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PKPCR Pcr;
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PKTSS Tss;
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/* Get the current thread and make sure we have a callback stack */
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CurrentThread = KeGetCurrentThread();
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CalloutFrame = CurrentThread->CallbackStack;
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if (CalloutFrame == NULL)
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{
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return STATUS_NO_CALLBACK_ACTIVE;
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}
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/* Get the trap frame */
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CallbackTrapFrame = CurrentThread->TrapFrame;
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/* Restore the exception list */
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Pcr = KeGetPcr();
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Pcr->NtTib.ExceptionList = CallbackTrapFrame->ExceptionList;
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/* Store the results in the callback stack */
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*((PVOID*)CalloutFrame->Result) = Result;
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*((ULONG*)CalloutFrame->ResultLength) = ResultLength;
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/* Disable interrupts for NPX save and stack switch */
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_disable();
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/* Set desination and origin NPX Frames */
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CbFxSaveArea = (PVOID)((ULONG)CurrentThread->InitialStack - sizeof(FX_SAVE_AREA));
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FxSaveArea = (PVOID)(CalloutFrame->InitialStack - sizeof(FX_SAVE_AREA));
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/* Now copy back NPX State */
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FxSaveArea->U.FnArea.ControlWord = CbFxSaveArea->U.FnArea.ControlWord;
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FxSaveArea->U.FnArea.StatusWord = CbFxSaveArea->U.FnArea.StatusWord;
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FxSaveArea->U.FnArea.TagWord = CbFxSaveArea->U.FnArea.TagWord;
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FxSaveArea->U.FnArea.DataSelector = CbFxSaveArea->U.FnArea.DataSelector;
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FxSaveArea->Cr0NpxState = CbFxSaveArea->Cr0NpxState;
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/* Get the previous trap frame */
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TrapFrame = (PKTRAP_FRAME)CalloutFrame->TrapFrame;
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/* Check if we failed in user mode */
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if (CallbackStatus == STATUS_CALLBACK_POP_STACK)
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{
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/* Check if we came from v86 mode */
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if (CallbackTrapFrame->EFlags & EFLAGS_V86_MASK)
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{
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Size = sizeof(KTRAP_FRAME) - FIELD_OFFSET(KTRAP_FRAME, SegFs);
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}
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else
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{
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Size = FIELD_OFFSET(KTRAP_FRAME, V86Es) - FIELD_OFFSET(KTRAP_FRAME, SegFs);
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}
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/* Copy back part of the trap frame */
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RtlCopyMemory(&TrapFrame->SegFs, &CallbackTrapFrame->SegFs, Size);
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}
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/* Clear DR7 */
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TrapFrame->Dr7 = 0;
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/* Check if debugging was active */
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if (CurrentThread->Header.DebugActive & 0xFF)
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{
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/* Copy debug registers data from it */
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TrapFrame->Dr0 = CallbackTrapFrame->Dr0;
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TrapFrame->Dr1 = CallbackTrapFrame->Dr1;
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TrapFrame->Dr2 = CallbackTrapFrame->Dr2;
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TrapFrame->Dr3 = CallbackTrapFrame->Dr3;
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TrapFrame->Dr6 = CallbackTrapFrame->Dr6;
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TrapFrame->Dr7 = CallbackTrapFrame->Dr7;
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}
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/* Get TSS */
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Tss = Pcr->TSS;
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/* Check for V86 mode */
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if (TrapFrame->EFlags & EFLAGS_V86_MASK)
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{
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/* Set new stack address in TSS (full trap frame) */
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Tss->Esp0 = (ULONG_PTR)(TrapFrame + 1);
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}
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else
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{
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/* Set new stack address in TSS (non-V86 trap frame) */
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Tss->Esp0 = (ULONG_PTR)&TrapFrame->V86Es;
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}
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/* Get the initial stack and restore it */
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CurrentThread->InitialStack = (PVOID)CalloutFrame->InitialStack;
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/* Restore the trap frame and the previous callback stack */
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CurrentThread->TrapFrame = TrapFrame;
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CurrentThread->CallbackStack = (PVOID)CalloutFrame->CallbackStack;
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/* Bring interrupts back */
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_enable();
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/* Now switch back to the old stack */
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KiCallbackReturn(&CalloutFrame->Edi, CallbackStatus);
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}
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/* EOF */
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