mirror of
https://github.com/reactos/reactos.git
synced 2024-11-09 16:20:37 +00:00
912ce51ae6
Sync with trunk head (r48826) svn path=/branches/cmake-bringup/; revision=48831
748 lines
22 KiB
C
748 lines
22 KiB
C
/*
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* PROJECT: ReactOS Kernel
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* LICENSE: BSD - See COPYING.ARM in the top level directory
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* FILE: ntoskrnl/ke/i386/v86vdm.c
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* PURPOSE: V8086 and VDM Trap Emulation
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* PROGRAMMERS: ReactOS Portable Systems Group
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* Alex Ionescu (alex.ionescu@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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#define KiVdmGetInstructionSize(x) ((x) & 0xFF)
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#define KiVdmGetPrefixFlags(x) ((x) & 0xFFFFFF00)
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/* GLOBALS ********************************************************************/
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ULONG KeI386EFlagsAndMaskV86 = EFLAGS_USER_SANITIZE;
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ULONG KeI386EFlagsOrMaskV86 = EFLAGS_INTERRUPT_MASK;
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PVOID Ki386IopmSaveArea;
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BOOLEAN KeI386VirtualIntExtensions = FALSE;
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const PULONG KiNtVdmState = (PULONG)FIXED_NTVDMSTATE_LINEAR_PC_AT;
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/* UNHANDLED OPCODES **********************************************************/
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KiVdmUnhandledOpcode(F);
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KiVdmUnhandledOpcode(OUTSW);
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KiVdmUnhandledOpcode(OUTSB);
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KiVdmUnhandledOpcode(INSB);
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KiVdmUnhandledOpcode(INSW);
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KiVdmUnhandledOpcode(NPX);
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KiVdmUnhandledOpcode(INBimm);
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KiVdmUnhandledOpcode(INWimm);
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KiVdmUnhandledOpcode(OUTBimm);
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KiVdmUnhandledOpcode(OUTWimm);
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KiVdmUnhandledOpcode(INB);
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KiVdmUnhandledOpcode(INW);
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KiVdmUnhandledOpcode(OUTB);
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KiVdmUnhandledOpcode(OUTW);
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KiVdmUnhandledOpcode(HLT);
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KiVdmUnhandledOpcode(INTO);
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KiVdmUnhandledOpcode(INV);
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/* OPCODE HANDLERS ************************************************************/
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BOOLEAN
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FASTCALL
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KiVdmOpcodePUSHF(IN PKTRAP_FRAME TrapFrame,
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IN ULONG Flags)
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{
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ULONG Esp, V86EFlags, TrapEFlags;
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/* Check for VME support */
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ASSERT(KeI386VirtualIntExtensions == FALSE);
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/* Get current V8086 flags and mask out interrupt flag */
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V86EFlags = *KiNtVdmState;
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V86EFlags &= ~EFLAGS_INTERRUPT_MASK;
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/* Get trap frame EFLags and leave only align, nested task and interrupt */
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TrapEFlags = TrapFrame->EFlags;
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V86EFlags &= (EFLAGS_ALIGN_CHECK | EFLAGS_NESTED_TASK | EFLAGS_INTERRUPT_MASK);
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/* Add in those flags if they exist, and add in the IOPL flag */
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V86EFlags |= TrapEFlags;
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V86EFlags |= EFLAGS_IOPL;
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/* Build flat ESP */
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Esp = (TrapFrame->HardwareSegSs << 4) + (USHORT)TrapFrame->HardwareEsp;
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/* Check for OPER32 */
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if (KiVdmGetPrefixFlags(Flags) & PFX_FLAG_OPER32)
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{
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/* Save EFlags */
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Esp -= 4;
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*(PULONG)Esp = V86EFlags;
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}
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else
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{
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/* Save EFLags */
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Esp -= 2;
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*(PUSHORT)Esp = (USHORT)V86EFlags;
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}
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/* Set new ESP and EIP */
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TrapFrame->HardwareEsp = Esp - (TrapFrame->HardwareSegSs << 4);
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TrapFrame->Eip += KiVdmGetInstructionSize(Flags);
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/* We're done */
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return TRUE;
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}
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BOOLEAN
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FASTCALL
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KiVdmOpcodePOPF(IN PKTRAP_FRAME TrapFrame,
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IN ULONG Flags)
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{
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ULONG Esp, V86EFlags, EFlags, TrapEFlags;
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/* Build flat ESP */
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Esp = (TrapFrame->HardwareSegSs << 4) + (USHORT)TrapFrame->HardwareEsp;
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/* Check for OPER32 */
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if (KiVdmGetPrefixFlags(Flags) & PFX_FLAG_OPER32)
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{
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/* Read EFlags */
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EFlags = *(PULONG)Esp;
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Esp += 4;
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}
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else
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{
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/* Read EFlags */
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EFlags = *(PUSHORT)Esp;
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Esp += 2;
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}
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/* Set new ESP */
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TrapFrame->HardwareEsp = Esp - (TrapFrame->HardwareSegSs << 4);
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/* Mask out IOPL from the flags */
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EFlags &= ~EFLAGS_IOPL;
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/* Save the V86 flags, but mask out the nested task flag */
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V86EFlags = EFlags & ~EFLAGS_NESTED_TASK;
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/* Now leave only alignment, nested task and interrupt flag */
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EFlags &= (EFLAGS_ALIGN_CHECK | EFLAGS_NESTED_TASK | EFLAGS_INTERRUPT_MASK);
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/* Get trap EFlags */
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TrapEFlags = TrapFrame->EFlags;
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/* Check for VME support */
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ASSERT(KeI386VirtualIntExtensions == FALSE);
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/* Add V86 and Interrupt flag */
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V86EFlags |= EFLAGS_V86_MASK | EFLAGS_INTERRUPT_MASK;
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/* Update EFlags in trap frame */
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TrapFrame->EFlags = V86EFlags;
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/* Check if ESP0 needs to be fixed up */
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if (TrapEFlags & EFLAGS_V86_MASK) Ki386AdjustEsp0(TrapFrame);
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/* Update the V8086 EFlags state */
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KiVdmClearVdmEFlags(EFLAGS_ALIGN_CHECK | EFLAGS_NESTED_TASK | EFLAGS_INTERRUPT_MASK);
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KiVdmSetVdmEFlags(EFlags);
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/* FIXME: Check for VDM interrupts */
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/* Update EIP */
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TrapFrame->Eip += KiVdmGetInstructionSize(Flags);
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/* We're done */
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return TRUE;
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}
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BOOLEAN
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FASTCALL
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KiVdmOpcodeINTnn(IN PKTRAP_FRAME TrapFrame,
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IN ULONG Flags)
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{
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ULONG Esp, V86EFlags, TrapEFlags, Eip, Interrupt;
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/* Read trap frame EFlags */
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TrapEFlags = TrapFrame->EFlags;
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/* Remove interrupt flag from V8086 EFlags */
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V86EFlags = *KiNtVdmState;
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KiVdmClearVdmEFlags(EFLAGS_INTERRUPT_MASK);
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/* Keep only alignment and interrupt flag from the V8086 state */
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V86EFlags &= (EFLAGS_ALIGN_CHECK | EFLAGS_INTERRUPT_MASK);
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/* Check for VME support */
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ASSERT(KeI386VirtualIntExtensions == FALSE);
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/* Mask in the relevant V86 EFlags into the trap flags */
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V86EFlags |= (TrapEFlags & ~EFLAGS_INTERRUPT_MASK);
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/* And mask out the VIF, nested task and TF flag from the trap flags */
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TrapFrame->EFlags = TrapEFlags &~ (EFLAGS_VIF | EFLAGS_NESTED_TASK | EFLAGS_TF);
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/* Add the IOPL flag to the local trap flags */
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V86EFlags |= EFLAGS_IOPL;
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/* Build flat ESP */
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Esp = (TrapFrame->HardwareSegSs << 4) + TrapFrame->HardwareEsp;
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/* Push EFlags */
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Esp -= 2;
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*(PUSHORT)(Esp) = (USHORT)V86EFlags;
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/* Push CS */
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Esp -= 2;
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*(PUSHORT)(Esp) = (USHORT)TrapFrame->SegCs;
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/* Push IP */
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Esp -= 2;
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*(PUSHORT)(Esp) = (USHORT)TrapFrame->Eip + KiVdmGetInstructionSize(Flags) + 1;
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/* Update ESP */
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TrapFrame->HardwareEsp = (USHORT)Esp;
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/* Get flat EIP */
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Eip = (TrapFrame->SegCs << 4) + TrapFrame->Eip;
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/* Now get the *next* EIP address (current is original + the count - 1) */
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Eip += KiVdmGetInstructionSize(Flags);
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/* Now read the interrupt number */
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Interrupt = *(PUCHAR)Eip;
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/* Read the EIP from its IVT entry */
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Interrupt = *(PULONG)(Interrupt * 4);
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TrapFrame->Eip = (USHORT)Interrupt;
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/* Now get the CS segment */
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Interrupt = (USHORT)(Interrupt >> 16);
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/* Check if the trap was not V8086 trap */
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if (!(TrapFrame->EFlags & EFLAGS_V86_MASK))
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{
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/* Was it a kernel CS? */
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Interrupt |= RPL_MASK;
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if (TrapFrame->SegCs == KGDT_R0_CODE)
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{
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/* Add the RPL mask */
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TrapFrame->SegCs = Interrupt;
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}
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else
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{
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/* Set user CS */
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TrapFrame->SegCs = KGDT_R3_CODE | RPL_MASK;
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}
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}
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else
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{
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/* Set IVT CS */
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TrapFrame->SegCs = Interrupt;
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}
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/* We're done */
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return TRUE;
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}
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BOOLEAN
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FASTCALL
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KiVdmOpcodeIRET(IN PKTRAP_FRAME TrapFrame,
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IN ULONG Flags)
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{
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ULONG Esp, V86EFlags, EFlags, TrapEFlags, Eip;
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/* Build flat ESP */
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Esp = (TrapFrame->HardwareSegSs << 4) + TrapFrame->HardwareEsp;
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/* Check for OPER32 */
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if (KiVdmGetPrefixFlags(Flags) & PFX_FLAG_OPER32)
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{
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/* Build segmented EIP */
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TrapFrame->Eip = *(PULONG)Esp;
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TrapFrame->SegCs = *(PUSHORT)(Esp + 4);
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/* Set new ESP */
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TrapFrame->HardwareEsp += 12;
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/* Get EFLAGS */
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EFlags = *(PULONG)(Esp + 8);
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}
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else
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{
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/* Build segmented EIP */
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TrapFrame->Eip = *(PUSHORT)Esp;
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TrapFrame->SegCs = *(PUSHORT)(Esp + 2);
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/* Set new ESP */
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TrapFrame->HardwareEsp += 6;
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/* Get EFLAGS */
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EFlags = *(PUSHORT)(Esp + 4);
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}
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/* Mask out EFlags */
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EFlags &= ~(EFLAGS_IOPL + EFLAGS_VIF + EFLAGS_NESTED_TASK + EFLAGS_VIP);
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V86EFlags = EFlags;
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/* Check for VME support */
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ASSERT(KeI386VirtualIntExtensions == FALSE);
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/* Add V86 and Interrupt flag */
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EFlags |= EFLAGS_V86_MASK | EFLAGS_INTERRUPT_MASK;
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/* Update EFlags in trap frame */
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TrapEFlags = TrapFrame->EFlags;
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TrapFrame->EFlags = (TrapFrame->EFlags & EFLAGS_VIP) | EFlags;
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/* Check if ESP0 needs to be fixed up */
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if (!(TrapEFlags & EFLAGS_V86_MASK)) Ki386AdjustEsp0(TrapFrame);
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/* Update the V8086 EFlags state */
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KiVdmClearVdmEFlags(EFLAGS_INTERRUPT_MASK);
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KiVdmSetVdmEFlags(V86EFlags);
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/* Build flat EIP and check if this is the BOP instruction */
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Eip = (TrapFrame->SegCs << 4) + TrapFrame->Eip;
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if (*(PUSHORT)Eip == 0xC4C4)
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{
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/* Dispatch the BOP */
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VdmDispatchBop(TrapFrame);
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}
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else
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{
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/* FIXME: Check for VDM interrupts */
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DPRINT("FIXME: Check for VDM interrupts\n");
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}
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/* We're done */
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return TRUE;
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}
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BOOLEAN
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FASTCALL
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KiVdmOpcodeCLI(IN PKTRAP_FRAME TrapFrame,
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IN ULONG Flags)
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{
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/* Check for VME support */
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ASSERT(KeI386VirtualIntExtensions == FALSE);
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/* Disable interrupts */
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KiVdmClearVdmEFlags(EFLAGS_INTERRUPT_MASK);
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/* Skip instruction */
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TrapFrame->Eip += KiVdmGetInstructionSize(Flags);
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/* Done */
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return TRUE;
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}
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BOOLEAN
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FASTCALL
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KiVdmOpcodeSTI(IN PKTRAP_FRAME TrapFrame,
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IN ULONG Flags)
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{
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/* Check for VME support */
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ASSERT(KeI386VirtualIntExtensions == FALSE);
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/* Enable interrupts */
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KiVdmSetVdmEFlags(EFLAGS_INTERRUPT_MASK);
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/* Skip instruction */
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TrapFrame->Eip += KiVdmGetInstructionSize(Flags);
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/* Done */
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return TRUE;
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}
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/* MASTER OPCODE HANDLER ******************************************************/
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BOOLEAN
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FASTCALL
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KiVdmHandleOpcode(IN PKTRAP_FRAME TrapFrame,
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IN ULONG Flags)
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{
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ULONG Eip;
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/* Get flat EIP of the *current* instruction (not the original EIP) */
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Eip = (TrapFrame->SegCs << 4) + TrapFrame->Eip;
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Eip += KiVdmGetInstructionSize(Flags) - 1;
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/* Read the opcode entry */
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switch (*(PUCHAR)Eip)
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{
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case 0xF: return KiCallVdmHandler(F);
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case 0x26: return KiCallVdmPrefixHandler(PFX_FLAG_ES);
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case 0x2E: return KiCallVdmPrefixHandler(PFX_FLAG_CS);
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case 0x36: return KiCallVdmPrefixHandler(PFX_FLAG_SS);
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case 0x3E: return KiCallVdmPrefixHandler(PFX_FLAG_DS);
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case 0x64: return KiCallVdmPrefixHandler(PFX_FLAG_FS);
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case 0x65: return KiCallVdmPrefixHandler(PFX_FLAG_GS);
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case 0x66: return KiCallVdmPrefixHandler(PFX_FLAG_OPER32);
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case 0x67: return KiCallVdmPrefixHandler(PFX_FLAG_ADDR32);
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case 0xF0: return KiCallVdmPrefixHandler(PFX_FLAG_LOCK);
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case 0xF2: return KiCallVdmPrefixHandler(PFX_FLAG_REPNE);
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case 0xF3: return KiCallVdmPrefixHandler(PFX_FLAG_REP);
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case 0x6C: return KiCallVdmHandler(INSB);
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case 0x6D: return KiCallVdmHandler(INSW);
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case 0x6E: return KiCallVdmHandler(OUTSB);
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case 0x6F: return KiCallVdmHandler(OUTSW);
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case 0x98: return KiCallVdmHandler(NPX);
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case 0xD8: return KiCallVdmHandler(NPX);
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case 0xD9: return KiCallVdmHandler(NPX);
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case 0xDA: return KiCallVdmHandler(NPX);
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case 0xDB: return KiCallVdmHandler(NPX);
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case 0xDC: return KiCallVdmHandler(NPX);
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case 0xDD: return KiCallVdmHandler(NPX);
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case 0xDE: return KiCallVdmHandler(NPX);
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case 0xDF: return KiCallVdmHandler(NPX);
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case 0x9C: return KiCallVdmHandler(PUSHF);
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case 0x9D: return KiCallVdmHandler(POPF);
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case 0xCD: return KiCallVdmHandler(INTnn);
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case 0xCE: return KiCallVdmHandler(INTO);
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case 0xCF: return KiCallVdmHandler(IRET);
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case 0xE4: return KiCallVdmHandler(INBimm);
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case 0xE5: return KiCallVdmHandler(INWimm);
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case 0xE6: return KiCallVdmHandler(OUTBimm);
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case 0xE7: return KiCallVdmHandler(OUTWimm);
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case 0xEC: return KiCallVdmHandler(INB);
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case 0xED: return KiCallVdmHandler(INW);
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case 0xEE: return KiCallVdmHandler(OUTB);
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case 0xEF: return KiCallVdmHandler(OUTW);
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case 0xF4: return KiCallVdmHandler(HLT);
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case 0xFA: return KiCallVdmHandler(CLI);
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case 0xFB: return KiCallVdmHandler(STI);
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default: return KiCallVdmHandler(INV);
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}
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}
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/* PREFIX HANDLER *************************************************************/
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BOOLEAN
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FASTCALL
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KiVdmOpcodePrefix(IN PKTRAP_FRAME TrapFrame,
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IN ULONG Flags)
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{
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/* Increase instruction size */
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Flags++;
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/* Handle the next opcode */
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return KiVdmHandleOpcode(TrapFrame, Flags);
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}
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/* TRAP HANDLER ***************************************************************/
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BOOLEAN
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FASTCALL
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Ki386HandleOpcodeV86(IN PKTRAP_FRAME TrapFrame)
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{
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/* Clean up */
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TrapFrame->Eip &= 0xFFFF;
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TrapFrame->HardwareEsp &= 0xFFFF;
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/* We start with only 1 byte per instruction */
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return KiVdmHandleOpcode(TrapFrame, 1);
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}
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ULONG_PTR
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FASTCALL
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KiExitV86Mode(IN PKTRAP_FRAME TrapFrame)
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{
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PKV8086_STACK_FRAME StackFrame;
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PKGDTENTRY GdtEntry;
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PKTHREAD Thread;
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PKTRAP_FRAME PmTrapFrame;
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PKV86_FRAME V86Frame;
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PFX_SAVE_AREA NpxFrame;
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/* Get the stack frame back */
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StackFrame = CONTAINING_RECORD(TrapFrame->Esi, KV8086_STACK_FRAME, V86Frame);
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PmTrapFrame = &StackFrame->TrapFrame;
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V86Frame = &StackFrame->V86Frame;
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NpxFrame = &StackFrame->NpxArea;
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/* Copy the FPU frame back */
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Thread = KeGetCurrentThread();
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RtlCopyMemory(KiGetThreadNpxArea(Thread), NpxFrame, sizeof(FX_SAVE_AREA));
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/* Set initial stack back */
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Thread->InitialStack = (PVOID)((ULONG_PTR)V86Frame->ThreadStack + sizeof(FX_SAVE_AREA));
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/* Set ESP0 back in the KTSS */
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KeGetPcr()->TSS->Esp0 = (ULONG_PTR)&PmTrapFrame->V86Es;
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/* Restore TEB addresses */
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Thread->Teb = V86Frame->ThreadTeb;
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KeGetPcr()->NtTib.Self = V86Frame->PcrTeb;
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/* Setup real TEB descriptor */
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GdtEntry = &((PKIPCR)KeGetPcr())->GDT[KGDT_R3_TEB / sizeof(KGDTENTRY)];
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GdtEntry->BaseLow = (USHORT)((ULONG_PTR)Thread->Teb & 0xFFFF);
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GdtEntry->HighWord.Bytes.BaseMid = (UCHAR)((ULONG_PTR)Thread->Teb >> 16);
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GdtEntry->HighWord.Bytes.BaseHi = (UCHAR)((ULONG_PTR)Thread->Teb >> 24);
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/* Enable interrupts and return a pointer to the trap frame */
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_enable();
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return (ULONG)PmTrapFrame;
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}
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VOID
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FASTCALL
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KiEnterV86Mode(IN PKV8086_STACK_FRAME StackFrame)
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{
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PKTHREAD Thread;
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PKGDTENTRY GdtEntry;
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PKTRAP_FRAME TrapFrame = &StackFrame->TrapFrame;
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PKV86_FRAME V86Frame = &StackFrame->V86Frame;
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PFX_SAVE_AREA NpxFrame = &StackFrame->NpxArea;
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/* Build fake user-mode trap frame */
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TrapFrame->SegCs = KGDT_R0_CODE | RPL_MASK;
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TrapFrame->SegEs = TrapFrame->SegDs = TrapFrame->SegFs = TrapFrame->SegGs = 0;
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TrapFrame->ErrCode = 0;
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/* Get the current thread's initial stack */
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Thread = KeGetCurrentThread();
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V86Frame->ThreadStack = KiGetThreadNpxArea(Thread);
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/* Save TEB addresses */
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V86Frame->ThreadTeb = Thread->Teb;
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V86Frame->PcrTeb = KeGetPcr()->NtTib.Self;
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/* Save return EIP */
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TrapFrame->Eip = (ULONG_PTR)Ki386BiosCallReturnAddress;
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/* Save our stack (after the frames) */
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TrapFrame->Esi = (ULONG_PTR)V86Frame;
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TrapFrame->Edi = (ULONG_PTR)_AddressOfReturnAddress() + 4;
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/* Sanitize EFlags and enable interrupts */
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TrapFrame->EFlags = __readeflags() & 0x60DD7;
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TrapFrame->EFlags |= EFLAGS_INTERRUPT_MASK;
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/* Fill out the rest of the frame */
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TrapFrame->HardwareSegSs = KGDT_R3_DATA | RPL_MASK;
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TrapFrame->HardwareEsp = 0x11FFE;
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TrapFrame->ExceptionList = EXCEPTION_CHAIN_END;
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TrapFrame->Dr7 = 0;
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//TrapFrame->DbgArgMark = 0xBADB0D00;
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TrapFrame->PreviousPreviousMode = -1;
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/* Disable interrupts */
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_disable();
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/* Copy the thread's NPX frame */
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RtlCopyMemory(NpxFrame, V86Frame->ThreadStack, sizeof(FX_SAVE_AREA));
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/* Clear exception list */
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KeGetPcr()->NtTib.ExceptionList = EXCEPTION_CHAIN_END;
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/* Set new ESP0 */
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KeGetPcr()->TSS->Esp0 = (ULONG_PTR)&TrapFrame->V86Es;
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/* Set new initial stack */
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Thread->InitialStack = V86Frame;
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/* Set VDM TEB */
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Thread->Teb = (PTEB)TRAMPOLINE_TEB;
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KeGetPcr()->NtTib.Self = (PVOID)TRAMPOLINE_TEB;
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/* Setup VDM TEB descriptor */
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GdtEntry = &((PKIPCR)KeGetPcr())->GDT[KGDT_R3_TEB / sizeof(KGDTENTRY)];
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GdtEntry->BaseLow = (USHORT)((ULONG_PTR)TRAMPOLINE_TEB & 0xFFFF);
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GdtEntry->HighWord.Bytes.BaseMid = (UCHAR)((ULONG_PTR)TRAMPOLINE_TEB >> 16);
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GdtEntry->HighWord.Bytes.BaseHi = (UCHAR)((ULONG_PTR)TRAMPOLINE_TEB >> 24);
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/* Enable interrupts */
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_enable();
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/* Start VDM execution */
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NtVdmControl(VdmStartExecution, NULL);
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|
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/* Exit to V86 mode */
|
|
KiEoiHelper(TrapFrame);
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}
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|
|
|
/* PUBLIC FUNCTIONS ***********************************************************/
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|
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/*
|
|
* @implemented
|
|
*/
|
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NTSTATUS
|
|
NTAPI
|
|
Ke386CallBios(IN ULONG Int,
|
|
OUT PCONTEXT Context)
|
|
{
|
|
PUCHAR Trampoline = (PUCHAR)TRAMPOLINE_BASE;
|
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PTEB VdmTeb = (PTEB)TRAMPOLINE_TEB;
|
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PVDM_TIB VdmTib = (PVDM_TIB)TRAMPOLINE_TIB;
|
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ULONG ContextSize = FIELD_OFFSET(CONTEXT, ExtendedRegisters);
|
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PKTHREAD Thread = KeGetCurrentThread();
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PKTSS Tss = KeGetPcr()->TSS;
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PKPROCESS Process = Thread->ApcState.Process;
|
|
PVDM_PROCESS_OBJECTS VdmProcessObjects;
|
|
USHORT OldOffset, OldBase;
|
|
|
|
/* Start with a clean TEB */
|
|
RtlZeroMemory(VdmTeb, sizeof(TEB));
|
|
|
|
/* Write the interrupt and bop */
|
|
*Trampoline++ = 0xCD;
|
|
*Trampoline++ = (UCHAR)Int;
|
|
*(PULONG)Trampoline = TRAMPOLINE_BOP;
|
|
|
|
/* Setup the VDM TEB and TIB */
|
|
VdmTeb->Vdm = (PVOID)TRAMPOLINE_TIB;
|
|
RtlZeroMemory(VdmTib, sizeof(VDM_TIB));
|
|
VdmTib->Size = sizeof(VDM_TIB);
|
|
|
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/* Set a blank VDM state */
|
|
*VdmState = 0;
|
|
|
|
/* Copy the context */
|
|
RtlCopyMemory(&VdmTib->VdmContext, Context, ContextSize);
|
|
VdmTib->VdmContext.SegCs = (ULONG_PTR)Trampoline >> 4;
|
|
VdmTib->VdmContext.SegSs = (ULONG_PTR)Trampoline >> 4;
|
|
VdmTib->VdmContext.Eip = 0;
|
|
VdmTib->VdmContext.Esp = 2 * PAGE_SIZE - sizeof(ULONG_PTR);
|
|
VdmTib->VdmContext.EFlags |= EFLAGS_V86_MASK | EFLAGS_INTERRUPT_MASK;
|
|
VdmTib->VdmContext.ContextFlags = CONTEXT_FULL;
|
|
|
|
/* This can't be a real VDM process */
|
|
ASSERT(PsGetCurrentProcess()->VdmObjects == NULL);
|
|
|
|
/* Allocate VDM structure */
|
|
VdmProcessObjects = ExAllocatePoolWithTag(NonPagedPool,
|
|
sizeof(VDM_PROCESS_OBJECTS),
|
|
' eK');
|
|
if (!VdmProcessObjects) return STATUS_NO_MEMORY;
|
|
|
|
/* Set it up */
|
|
RtlZeroMemory(VdmProcessObjects, sizeof(VDM_PROCESS_OBJECTS));
|
|
VdmProcessObjects->VdmTib = VdmTib;
|
|
PsGetCurrentProcess()->VdmObjects = VdmProcessObjects;
|
|
|
|
/* Set the system affinity for the current thread */
|
|
KeSetSystemAffinityThread(1);
|
|
|
|
/* Make sure there's space for two IOPMs, then copy & clear the current */
|
|
ASSERT(((PKIPCR)KeGetPcr())->GDT[KGDT_TSS / 8].LimitLow >=
|
|
(0x2000 + IOPM_OFFSET - 1));
|
|
RtlCopyMemory(Ki386IopmSaveArea, &Tss->IoMaps[0].IoMap, PAGE_SIZE * 2);
|
|
RtlZeroMemory(&Tss->IoMaps[0].IoMap, PAGE_SIZE * 2);
|
|
|
|
/* Save the old offset and base, and set the new ones */
|
|
OldOffset = Process->IopmOffset;
|
|
OldBase = Tss->IoMapBase;
|
|
Process->IopmOffset = (USHORT)IOPM_OFFSET;
|
|
Tss->IoMapBase = (USHORT)IOPM_OFFSET;
|
|
|
|
/* Switch stacks and work the magic */
|
|
Ki386SetupAndExitToV86Mode(VdmTeb);
|
|
|
|
/* Restore IOPM */
|
|
RtlCopyMemory(&Tss->IoMaps[0].IoMap, Ki386IopmSaveArea, PAGE_SIZE * 2);
|
|
Process->IopmOffset = OldOffset;
|
|
Tss->IoMapBase = OldBase;
|
|
|
|
/* Restore affinity */
|
|
KeRevertToUserAffinityThread();
|
|
|
|
/* Restore context */
|
|
RtlCopyMemory(Context, &VdmTib->VdmContext, ContextSize);
|
|
Context->ContextFlags = CONTEXT_FULL;
|
|
|
|
/* Free VDM objects */
|
|
ExFreePool(PsGetCurrentProcess()->VdmObjects);
|
|
PsGetCurrentProcess()->VdmObjects = NULL;
|
|
|
|
/* Return status */
|
|
return STATUS_SUCCESS;
|
|
}
|
|
|
|
/*
|
|
* @implemented
|
|
*/
|
|
BOOLEAN
|
|
NTAPI
|
|
Ke386IoSetAccessProcess(IN PKPROCESS Process,
|
|
IN ULONG MapNumber)
|
|
{
|
|
USHORT MapOffset;
|
|
PKPRCB Prcb;
|
|
KAFFINITY TargetProcessors;
|
|
|
|
if(MapNumber > IOPM_COUNT)
|
|
return FALSE;
|
|
|
|
MapOffset = KiComputeIopmOffset(MapNumber);
|
|
|
|
Process->IopmOffset = MapOffset;
|
|
|
|
TargetProcessors = Process->ActiveProcessors;
|
|
Prcb = KeGetCurrentPrcb();
|
|
if (TargetProcessors & Prcb->SetMember)
|
|
KeGetPcr()->TSS->IoMapBase = MapOffset;
|
|
|
|
return TRUE;
|
|
}
|
|
|
|
/*
|
|
* @implemented
|
|
*/
|
|
BOOLEAN
|
|
NTAPI
|
|
Ke386SetIoAccessMap(IN ULONG MapNumber,
|
|
IN PKIO_ACCESS_MAP IopmBuffer)
|
|
{
|
|
PKPROCESS CurrentProcess;
|
|
PKPRCB Prcb;
|
|
PVOID pt;
|
|
|
|
if ((MapNumber > IOPM_COUNT) || (MapNumber == IO_ACCESS_MAP_NONE))
|
|
return FALSE;
|
|
|
|
Prcb = KeGetCurrentPrcb();
|
|
|
|
// Copy the IOP map and load the map for the current process.
|
|
pt = &(KeGetPcr()->TSS->IoMaps[MapNumber-1].IoMap);
|
|
RtlMoveMemory(pt, (PVOID)IopmBuffer, IOPM_SIZE);
|
|
CurrentProcess = Prcb->CurrentThread->ApcState.Process;
|
|
KeGetPcr()->TSS->IoMapBase = CurrentProcess->IopmOffset;
|
|
|
|
return TRUE;
|
|
}
|
|
|
|
/*
|
|
* @implemented
|
|
*/
|
|
BOOLEAN
|
|
NTAPI
|
|
Ke386QueryIoAccessMap(IN ULONG MapNumber,
|
|
IN PKIO_ACCESS_MAP IopmBuffer)
|
|
{
|
|
ULONG i;
|
|
PVOID Map;
|
|
PUCHAR p;
|
|
|
|
if (MapNumber > IOPM_COUNT)
|
|
return FALSE;
|
|
|
|
if (MapNumber == IO_ACCESS_MAP_NONE)
|
|
{
|
|
// no access, simply return a map of all 1s
|
|
p = (PUCHAR)IopmBuffer;
|
|
for (i = 0; i < IOPM_SIZE; i++) {
|
|
p[i] = (UCHAR)-1;
|
|
}
|
|
}
|
|
else
|
|
{
|
|
// copy the bits
|
|
Map = (PVOID)&(KeGetPcr()->TSS->IoMaps[MapNumber-1].IoMap);
|
|
RtlMoveMemory((PVOID)IopmBuffer, Map, IOPM_SIZE);
|
|
}
|
|
|
|
return TRUE;
|
|
}
|