windows-nt/Source/XPSP1/NT/base/mvdm/inc/softpc.h

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/*++ BUILD Version: 0001
Copyright (c) 1990 Microsoft Corporation
Module Name:
SOFTPC.H
Abstract:
High-level include file for components interfacing to SoftPC
Author:
Dave Hastings (daveh) 25-Apr-1991
Revision History:
Sudeep Bharati 23-Aug-1991 Added SOFTPC_BLD
Matt Felton 8-FEB-1992 Added getIntelRegistersPointer
Jonle 18-Sep-1992 Add popup for unsupported functionality
Jonle 21-Nov-1992 Add Standard Resource Error Dialog Box
GetPIFConfigFiles
--*/
/********** COMMON STUFF FOR MIPS AND V86 *************/
/* XLATOFF */
#ifdef i386
#include "v86def.h"
#endif
#include <vdm.h>
extern VOID SbReinitialize(PCHAR, DWORD);
/* XLATON */
extern VOID nt_block_event_thread(ULONG);
extern VOID nt_resume_event_thread(VOID);
/* notification of PDB(Process Data Block, A.K.A PSP) termination */
extern VOID HostTerminatePDB(USHORT pdb);
/* disk subsystem reset notification. These functions will close all
* outstanding opened handles for DASD(Direct AcceS Disk) */
extern VOID HostFloppyReset(VOID);
extern VOID HostFdiskReset(VOID);
#if defined(NEC_98)
extern USHORT nt_get_cursor_pos(VOID);
#endif
// unsupported services dialog box
extern VOID host_direct_access_error(ULONG);
extern VOID host_lpt_flush_initialize(VOID);
#define NOSUPPORT_FLOPPY 0
#define NOSUPPORT_HARDDISK 1
#define NOSUPPORT_DRIVER 2
#define NOSUPPORT_OLDPIF 3
#define NOSUPPORT_ILLBOP 4
#define NOSUPPORT_NOLIM 5
#define NOSUPPORT_MOUSEDRVR 6
// standard error dialog box using resources
void RcErrorDialogBox(USHORT wId, CHAR *msg1, CHAR *msg2);
/*
* RcMessageBox\EditBox stuff
*/
#define RMB_ABORT 1
#define RMB_RETRY 2
#define RMB_IGNORE 4
#define RMB_ICON_INFO 8
#define RMB_ICON_BANG 16
#define RMB_ICON_STOP 32
#define RMB_ICON_WHAT 64
#define RMB_EDIT 128
#define RMB_FLAGS_MASK 0x0000FFFF
#define RMB_EDITBUFFERSIZE_MASK 0xFFFF0000
// hiword of dwOptions is reserved for RMB_EDIT text buffer size
int RcMessageBox(USHORT wId, CHAR *msg1, CHAR *msg2, ULONG dwOptions);
// sudeepb 02-May-1993 these following defines are actually defined
// in host\inc\error.h and host\inc\nt_uis.h. this stuff needs
// major cleanup after product 1.0.
#define EG_MALLOC_FAILURE 7
#define EG_PIF_BAD_FORMAT 18
#define EG_PIF_STARTDIR_ERR 19
#define EG_PIF_STARTFILE_ERR 20
#define EG_PIF_CMDLINE_ERR 21
#define EG_PIF_ASK_CMDLINE 22
#define EG_ENVIRONMENT_ERR 23
#define EG_BAD_FAULT 27
#define EG_DOS_PROG_EXTENSION 28
#define ED_BADSYSFILE 336
#define ED_INITMEMERR 337
#define ED_INITTMPFILE 338
//
// SysErrorBox stuff -- duplicated in usersrv.h *and* kernel.inc
//
#define SEB_OK 1 /* Button with "OK". */
#define SEB_CANCEL 2 /* Button with "Cancel" */
#define SEB_YES 3 /* Button with "&Yes" */
#define SEB_NO 4 /* Button with "&No" */
#define SEB_RETRY 5 /* Button with "&Retry" */
#define SEB_ABORT 6 /* Button with "&Abort" */
#define SEB_IGNORE 7 /* Button with "&Ignore" */
#define SEB_CLOSE 8 /* Button with "&Close" */
#define SEB_DEFBUTTON 0x8000 /* Mask to make this button default */
ULONG WOWSysErrorBox(
LPSTR szTitle,
LPSTR szMessage,
USHORT wBtn1,
USHORT wBtn2,
USHORT wBtn3
);
// Called by WOW to force VdmAllocateVirtualMemory to alloc blocks of
// memory with ever increasing linear address's.
VOID SetWOWforceIncrAlloc(
BOOL iEnable
);
// call out to softpc to get config.sys\autoexec.bat file names
#ifdef DBCS
VOID GetPIFConfigFiles(BOOL bConfig, char *pchFileName, BOOL bFreMem);
#else // !DBCS
VOID GetPIFConfigFiles(BOOL bConfig, char *pchFileName);
#endif // !DBCS
// exported interfaces
extern VOID TerminateVDM (VOID);
extern ULONG DosSessionId;
// VDD idle callouts
void WaitIfIdle(void);
void WakeUpNow(void);
//
// Constants
//
#define MSW_PE 0x1
/* XLATOFF */
#define ISPESET (UCHAR) (getMSW() & MSW_PE ? 1 : 0)
/* XLATON */
//
// Macros
//
#define EXPORT
// Flag Register constants
#define FLG_CARRY 0x00000001
#define FLG_CARRY_BIT 0x00000000
#define FLG_PARITY 0x00000004
#define FLG_PARITY_BIT 0x00000003
#define FLG_AUXILIARY 0x00000010
#define FLG_AUXILIARY_BIT 0x00000005
#define FLG_ZERO 0x00000040
#define FLG_ZERO_BIT 0x00000006
#define FLG_SIGN 0x00000080
#define FLG_SIGN_BIT 0x00000007
#define FLG_TRAP 0x00000100
#define FLG_INTERRUPT 0x00000200
#define FLG_INTERRUPT_BIT 0x00000009
#define FLG_DIRECTION 0x00000400
#define FLG_DIRECTION_BIT 0x0000000A
#define FLG_OVERFLOW 0x00000800
#define FLG_OVERFLOW_BIT 0x0000000B
EXPORT
VOID
host_cpu_init(
VOID
);
//EXPORT
//VOID
//sas_init(
// IN sys_addr Size
// );
EXPORT
VOID
host_simulate(
VOID
);
HANDLE
host_CreateThread(
LPSECURITY_ATTRIBUTES lpThreadAttributes,
DWORD dwStackSize,
LPTHREAD_START_ROUTINE lpStartAddress,
LPVOID lpParameter,
DWORD dwCreationFlags,
LPDWORD lpThreadId
);
VOID
cpu_createthread(
HANDLE hThread,
PVDM_TIB VdmTib
);
VOID
host_ExitThread(
DWORD dwExitCode
);
EXPORT VOID host_com_close(int PortId);
EXPORT int SuspendTimerThread(VOID);
EXPORT int ResumeTimerThread(VOID);
void *ch_malloc(unsigned int NumBytes);
UCHAR *Sim32pGetVDMPointer(ULONG addr, UCHAR pm);
#define Sim32GetVDMPointer(Addr,Size,Mode) Sim32pGetVDMPointer(Addr,Mode)
#ifdef i386
/********** FOR V86 BUILD *************/
BOOL
ThreadSetDebugContext(
PULONG pDebugRegisters
);
BOOL
ThreadGetDebugContext(
PULONG pDebugRegisters
);
// external data
extern ULONG IntelBase; // used by memory access macros
extern X86CONTEXT IntelRegisters; // used by register access macros
extern ULONG VdmDebugLevel; // used to control debugging
extern ULONG VdmFeatureBits;
// Register access macros
#ifdef LINKED_INTO_MONITOR
#include <vdm.h>
#define DECLARE_LocalVdmContext VDM_TIB * _LocalVdmTib = (VDM_TIB *)(NtCurrentTeb()->Vdm); \
CONTEXT * _LocalVdmContext = &(*_LocalVdmTib).VdmContext
#ifndef FAST_VDM_REGISTERS
#define getEAX() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax)
#define getAX() ((USHORT)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax))
#define getAL() ((BYTE)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax))
#define getAH() ((BYTE)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax >> 8))
#define getEBX() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx)
#define getBX() ((USHORT)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx))
#define getBL() ((BYTE)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx))
#define getBH() ((BYTE)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx >> 8))
#define getECX() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx)
#define getCX() ((USHORT)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx))
#define getCL() ((BYTE)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx))
#define getCH() ((BYTE)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx >> 8))
#define getEDX() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx)
#define getDX() ((USHORT)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx))
#define getDL() ((BYTE)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx))
#define getDH() ((BYTE)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx >> 8))
#define getESP() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esp)
#define getSP() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esp)
#define getEBP() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebp)
#define getBP() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebp)
#define getESI() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esi)
#define getSI() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esi)
#define getEDI() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edi)
#define getDI() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edi)
#define getEIP() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eip)
#define getIP() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eip)
#define getCS() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegCs)
#define getSS() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegSs)
#define getDS() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegDs)
#define getES() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegEs)
#define getFS() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegFs)
#define getGS() ((USHORT)(*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegGs)
#define getCF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_CARRY) ? 1 : 0)
#define getPF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_PARITY) ? 1 : 0)
#define getAF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_AUXILIARY) ? 1 : 0)
#define getZF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_ZERO) ? 1 : 0)
#define getSF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_SIGN) ? 1 : 0)
#define getTF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_TRAP) ? 1 : 0)
#define getIF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_INTERRUPT) ? 1 : 0)
#define getDF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_DIRECTION) ? 1 : 0)
#define getOF() (((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & FLG_OVERFLOW) ? 1 : 0)
#define getMSW() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).IntelMSW)
#define getSTATUS() (USHORT)((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags)
#define getEFLAGS() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags)
#define setEAX(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax = val;}
#define setAX(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setAH(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax & 0xFFFF00FF) | ((ULONG)(val << 8) & 0x0000FF00);}
#define setAL(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eax & 0xFFFFFF00) | ((ULONG)val & 0x000000FF);}
#define setEBX(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx = val ;}
#define setBX(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setBH(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx & 0xFFFF00FF) | ((ULONG)(val << 8) & 0x0000FF00);}
#define setBL(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebx & 0xFFFFFF00) | ((ULONG)val & 0x000000FF);}
#define setECX(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx = val ;}
#define setCX(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setCH(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx & 0xFFFF00FF) | ((ULONG)(val << 8) & 0x0000FF00);}
#define setCL(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ecx & 0xFFFFFF00) | ((ULONG)val & 0x000000FF);}
#define setEDX(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx = val ;}
#define setDX(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setDH(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx & 0xFFFF00FF) | ((ULONG)(val << 8) & 0x0000FF00);}
#define setDL(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edx & 0xFFFFFF00) | ((ULONG)val & 0x000000FF);}
#define setESP(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esp = val ;}
#define setSP(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esp = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esp & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setEBP(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebp = val;}
#define setBP(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebp = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Ebp & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setESI(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esi = val ;}
#define setSI(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esi = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Esi & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setEDI(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edi = val ;}
#define setDI(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edi = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Edi & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setEIP(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eip = val ;}
#define setIP(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eip = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.Eip & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setCS(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegCs = (ULONG) val & 0x0000FFFF ;}
#define setSS(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegSs = (ULONG) val & 0x0000FFFF ;}
#define setDS(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegDs = (ULONG) val & 0x0000FFFF ;}
#define setES(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegEs = (ULONG) val & 0x0000FFFF ;}
#define setFS(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegFs = (ULONG) val & 0x0000FFFF ;}
#define setGS(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.SegGs = (ULONG) val & 0x0000FFFF ;}
#define setCF(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & ~FLG_CARRY) | (((ULONG)val << FLG_CARRY_BIT) & FLG_CARRY);}
#define setPF(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & ~FLG_PARITY) | (((ULONG)val << FLG_PARITY_BIT) & FLG_PARITY);}
#define setAF(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & ~FLG_AUXILIARY) | (((ULONG)val << FLG_AUXILIARY_BIT) & FLG_AUXILIARY);}
#define setZF(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & ~FLG_ZERO) | (((ULONG)val << FLG_ZERO_BIT) & FLG_ZERO);}
#define setSF(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & ~FLG_SIGN) | (((ULONG)val << FLG_SIGN_BIT) & FLG_SIGN);}
#define setIF(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & ~FLG_INTERRUPT) | (((ULONG)val << FLG_INTERRUPT_BIT) & FLG_INTERRUPT);}
#define setDF(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & ~FLG_DIRECTION) | (((ULONG)val << FLG_DIRECTION_BIT) & FLG_DIRECTION);}
#define setOF(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & ~FLG_OVERFLOW) | (((ULONG)val << FLG_OVERFLOW_BIT) & FLG_OVERFLOW);}
#define setMSW(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).IntelMSW = val ;}
#define setSTATUS(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags & 0xFFFF0000) | val;}
#define setEFLAGS(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).VdmContext.EFlags = val;}
#else // FAST_VDM_REGISTERS
#define getEAX() (_LocalVdmContext->Eax)
#define getAX() ((USHORT)(_LocalVdmContext->Eax))
#define getAL() ((BYTE)(_LocalVdmContext->Eax))
#define getAH() ((BYTE)(_LocalVdmContext->Eax >> 8))
#define getEBX() (_LocalVdmContext->Ebx)
#define getBX() ((USHORT)(_LocalVdmContext->Ebx))
#define getBL() ((BYTE)(_LocalVdmContext->Ebx))
#define getBH() ((BYTE)(_LocalVdmContext->Ebx >> 8))
#define getECX() (_LocalVdmContext->Ecx)
#define getCX() ((USHORT)(_LocalVdmContext->Ecx))
#define getCL() ((BYTE)(_LocalVdmContext->Ecx))
#define getCH() ((BYTE)(_LocalVdmContext->Ecx >> 8))
#define getEDX() (_LocalVdmContext->Edx)
#define getDX() ((USHORT)(_LocalVdmContext->Edx))
#define getDL() ((BYTE)(_LocalVdmContext->Edx))
#define getDH() ((BYTE)(_LocalVdmContext->Edx >> 8))
#define getESP() (_LocalVdmContext->Esp)
#define getSP() ((USHORT)_LocalVdmContext->Esp)
#define getEBP() (_LocalVdmContext->Ebp)
#define getBP() ((USHORT)_LocalVdmContext->Ebp)
#define getESI() (_LocalVdmContext->Esi)
#define getSI() ((USHORT)_LocalVdmContext->Esi)
#define getEDI() (_LocalVdmContext->Edi)
#define getDI() ((USHORT)_LocalVdmContext->Edi)
#define getEIP() (_LocalVdmContext->Eip)
#define getIP() ((USHORT)_LocalVdmContext->Eip)
#define getCS() ((USHORT)_LocalVdmContext->SegCs)
#define getSS() ((USHORT)_LocalVdmContext->SegSs)
#define getDS() ((USHORT)_LocalVdmContext->SegDs)
#define getES() ((USHORT)_LocalVdmContext->SegEs)
#define getFS() ((USHORT)_LocalVdmContext->SegFs)
#define getGS() ((USHORT)_LocalVdmContext->SegGs)
#define getCF() ((_LocalVdmContext->EFlags & FLG_CARRY) ? 1 : 0)
#define getPF() ((_LocalVdmContext->EFlags & FLG_PARITY) ? 1 : 0)
#define getAF() ((_LocalVdmContext->EFlags & FLG_AUXILIARY) ? 1 : 0)
#define getZF() ((_LocalVdmContext->EFlags & FLG_ZERO) ? 1 : 0)
#define getSF() ((_LocalVdmContext->EFlags & FLG_SIGN) ? 1 : 0)
#define getTF() ((_LocalVdmContext->EFlags & FLG_TRAP) ? 1 : 0)
#define getIF() ((_LocalVdmContext->EFlags & FLG_INTERRUPT) ? 1 : 0)
#define getDF() ((_LocalVdmContext->EFlags & FLG_DIRECTION) ? 1 : 0)
#define getOF() ((_LocalVdmContext->EFlags & FLG_OVERFLOW) ? 1 : 0)
#define getMSW() ((*(VDM_TIB *)(NtCurrentTeb()->Vdm)).IntelMSW)
#define getSTATUS() (USHORT)(_LocalVdmContext->EFlags)
#define getEFLAGS() (_LocalVdmContext->EFlags)
#define setEAX(val) { _LocalVdmContext->Eax = val;}
#define setAX(val) { _LocalVdmContext->Eax = (_LocalVdmContext->Eax & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setAH(val) { _LocalVdmContext->Eax = (_LocalVdmContext->Eax & 0xFFFF00FF) | ((ULONG)(val << 8) & 0x0000FF00);}
#define setAL(val) { _LocalVdmContext->Eax = (_LocalVdmContext->Eax & 0xFFFFFF00) | ((ULONG)val & 0x000000FF);}
#define setEBX(val) { _LocalVdmContext->Ebx = val ;}
#define setBX(val) { _LocalVdmContext->Ebx = (_LocalVdmContext->Ebx & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setBH(val) { _LocalVdmContext->Ebx = (_LocalVdmContext->Ebx & 0xFFFF00FF) | ((ULONG)(val << 8) & 0x0000FF00);}
#define setBL(val) { _LocalVdmContext->Ebx = (_LocalVdmContext->Ebx & 0xFFFFFF00) | ((ULONG)val & 0x000000FF);}
#define setECX(val) { _LocalVdmContext->Ecx = val ;}
#define setCX(val) { _LocalVdmContext->Ecx = (_LocalVdmContext->Ecx & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setCH(val) { _LocalVdmContext->Ecx = (_LocalVdmContext->Ecx & 0xFFFF00FF) | ((ULONG)(val << 8) & 0x0000FF00);}
#define setCL(val) { _LocalVdmContext->Ecx = (_LocalVdmContext->Ecx & 0xFFFFFF00) | ((ULONG)val & 0x000000FF);}
#define setEDX(val) { _LocalVdmContext->Edx = val ;}
#define setDX(val) { _LocalVdmContext->Edx = (_LocalVdmContext->Edx & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setDH(val) { _LocalVdmContext->Edx = (_LocalVdmContext->Edx & 0xFFFF00FF) | ((ULONG)(val << 8) & 0x0000FF00);}
#define setDL(val) { _LocalVdmContext->Edx = (_LocalVdmContext->Edx & 0xFFFFFF00) | ((ULONG)val & 0x000000FF);}
#define setESP(val) { _LocalVdmContext->Esp = val ;}
#define setSP(val) { _LocalVdmContext->Esp = (_LocalVdmContext->Esp & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setEBP(val) { _LocalVdmContext->Ebp = val;}
#define setBP(val) { _LocalVdmContext->Ebp = (_LocalVdmContext->Ebp & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setESI(val) { _LocalVdmContext->Esi = val ;}
#define setSI(val) { _LocalVdmContext->Esi = (_LocalVdmContext->Esi & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setEDI(val) { _LocalVdmContext->Edi = val ;}
#define setDI(val) { _LocalVdmContext->Edi = (_LocalVdmContext->Edi & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setEIP(val) { _LocalVdmContext->Eip = val ;}
#define setIP(val) { _LocalVdmContext->Eip = (_LocalVdmContext->Eip & 0xFFFF0000) | ((ULONG)val & 0x0000FFFF);}
#define setCS(val) { _LocalVdmContext->SegCs = (ULONG) val & 0x0000FFFF ;}
#define setSS(val) { _LocalVdmContext->SegSs = (ULONG) val & 0x0000FFFF ;}
#define setDS(val) { _LocalVdmContext->SegDs = (ULONG) val & 0x0000FFFF ;}
#define setES(val) { _LocalVdmContext->SegEs = (ULONG) val & 0x0000FFFF ;}
#define setFS(val) { _LocalVdmContext->SegFs = (ULONG) val & 0x0000FFFF ;}
#define setGS(val) { _LocalVdmContext->SegGs = (ULONG) val & 0x0000FFFF ;}
#define setCF(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & ~FLG_CARRY) | (((ULONG)val << FLG_CARRY_BIT) & FLG_CARRY);}
#define setPF(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & ~FLG_PARITY) | (((ULONG)val << FLG_PARITY_BIT) & FLG_PARITY);}
#define setAF(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & ~FLG_AUXILIARY) | (((ULONG)val << FLG_AUXILIARY_BIT) & FLG_AUXILIARY);}
#define setZF(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & ~FLG_ZERO) | (((ULONG)val << FLG_ZERO_BIT) & FLG_ZERO);}
#define setSF(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & ~FLG_SIGN) | (((ULONG)val << FLG_SIGN_BIT) & FLG_SIGN);}
#define setIF(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & ~FLG_INTERRUPT) | (((ULONG)val << FLG_INTERRUPT_BIT) & FLG_INTERRUPT);}
#define setDF(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & ~FLG_DIRECTION) | (((ULONG)val << FLG_DIRECTION_BIT) & FLG_DIRECTION);}
#define setOF(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & ~FLG_OVERFLOW) | (((ULONG)val << FLG_OVERFLOW_BIT) & FLG_OVERFLOW);}
#define setMSW(val) { (*(VDM_TIB *)(NtCurrentTeb()->Vdm)).IntelMSW = val ;}
#define setSTATUS(val) { _LocalVdmContext->EFlags = (_LocalVdmContext->EFlags & 0xFFFF0000) | val;}
#define setEFLAGS(val) { _LocalVdmContext->EFlags = val;}
#endif // FAST_VDM_REGISTERS
#else // not linked into monitor
extern ULONG getEAX(VOID);
extern USHORT getAX(VOID);
extern UCHAR getAL(VOID);
extern UCHAR getAH(VOID);
extern ULONG getEBX(VOID);
extern USHORT getBX(VOID);
extern UCHAR getBL(VOID);
extern UCHAR getBH(VOID);
extern ULONG getECX(VOID);
extern USHORT getCX(VOID);
extern UCHAR getCL(VOID);
extern UCHAR getCH(VOID);
extern ULONG getEDX(VOID);
extern USHORT getDX(VOID);
extern UCHAR getDL(VOID);
extern UCHAR getDH(VOID);
extern ULONG getESP(VOID);
extern USHORT getSP(VOID);
extern ULONG getEBP(VOID);
extern USHORT getBP(VOID);
extern ULONG getESI(VOID);
extern USHORT getSI(VOID);
extern ULONG getEDI(VOID);
extern USHORT getDI(VOID);
extern ULONG getEIP(VOID);
extern USHORT getIP(VOID);
extern USHORT getCS(VOID);
extern USHORT getSS(VOID);
extern USHORT getDS(VOID);
extern USHORT getES(VOID);
extern USHORT getFS(VOID);
extern USHORT getGS(VOID);
extern ULONG getCF(VOID);
extern ULONG getPF(VOID);
extern ULONG getAF(VOID);
extern ULONG getZF(VOID);
extern ULONG getSF(VOID);
extern ULONG getIF(VOID);
extern ULONG getDF(VOID);
extern ULONG getOF(VOID);
extern USHORT getMSW(VOID);
extern USHORT getSTATUS(VOID);
extern ULONG getEFLAGS(VOID);
extern VOID setEAX(ULONG);
extern VOID setAX(USHORT);
extern VOID setAH(UCHAR);
extern VOID setAL(UCHAR);
extern VOID setEBX(ULONG);
extern VOID setBX(USHORT);
extern VOID setBH(UCHAR);
extern VOID setBL(UCHAR);
extern VOID setECX(ULONG);
extern VOID setCX(USHORT);
extern VOID setCH(UCHAR);
extern VOID setCL(UCHAR);
extern VOID setEDX(ULONG);
extern VOID setDX(USHORT);
extern VOID setDH(UCHAR);
extern VOID setDL(UCHAR);
extern VOID setESP(ULONG);
extern VOID setSP(USHORT);
extern VOID setEBP(ULONG);
extern VOID setBP(USHORT);
extern VOID setESI(ULONG);
extern VOID setSI(USHORT);
extern VOID setEDI(ULONG);
extern VOID setDI(USHORT);
extern VOID setEIP(ULONG);
extern VOID setIP(USHORT);
extern VOID setCS(USHORT);
extern VOID setSS(USHORT);
extern VOID setDS(USHORT);
extern VOID setES(USHORT);
extern VOID setFS(USHORT);
extern VOID setGS(USHORT);
extern VOID setCF(ULONG);
extern VOID setPF(ULONG);
extern VOID setAF(ULONG);
extern VOID setZF(ULONG);
extern VOID setSF(ULONG);
extern VOID setIF(ULONG);
extern VOID setDF(ULONG);
extern VOID setOF(ULONG);
extern VOID setMSW(USHORT);
extern VOID setSTATUS(USHORT);
extern VOID setEFLAGS(ULONG);
#endif
//
// Sim32 macros
//
// no action is required for this macro.
#define Sim32FlushVDMPointer( address, size, buffer, mode ) TRUE
// no action is required for this macro.
#define Sim32FreeVDMPointer( address, size, buffer, mode) TRUE
#define Sim32GetVDMMemory( address, size, buffer, mode) (memcpy( \
buffer, Sim32pGetVDMPointer(address, mode), size), TRUE)
#define Sim32SetVDMMemory( address, size, buffer, mode) (memcpy( \
Sim32pGetVDMPointer(address, mode), buffer, size), TRUE)
// Address conversion macros
#define RMOFF(address) (WORD)((ULONG)address & 0x0000FFFF)
#define RMSEG(address) (WORD)(((ULONG)address - ((ULONG)address & 0x0000FFFF)) >> 4)
#define RMSEGOFFTOLIN(seg, off) (PVOID)(IntelBase + ((ULONG)(seg) << 4) + (ULONG)(off))
// Debugging Macros
#define VDprint(value, arg) { if (value <= (VdmDebugLevel & VDP_LEVEL_MASK)) {\
DbgPrint arg ; }}
#define VDbreak(value) { if (value <= (VDB_LEVEL_MASK & VdmDebugLevel)) {\
DbgBreakPoint(); }}
#define VDP_LEVEL_MASK 0x0F
#define VDP_LEVEL_NONE 0x0
#define VDP_LEVEL_ERROR 0x2
#define VDP_LEVEL_WARNING 0x4
#define VDP_LEVEL_INFO 0x8
#define VDB_LEVEL_MASK 0xF0
#define VDB_LEVEL_NONE 0x00
#define VDB_LEVEL_ERROR 0x20
#define VDB_LEVEL_WARNING 0x40
#define VDB_LEVEL_INFO 0x80
//
// Function prototypes
//
ULONG
DbgPrint(
PCH Format,
...
);
char *nt_fgets(char *buffer, int len, void *input_stream);
char *nt_gets(char *buffer);
#define GetVDMAddr(usSeg,usOff) (((ULONG)usSeg << 4) + usOff)
PX86CONTEXT getIntelRegistersPointer(VOID);
#else
/*********************** FOR MIPS BUILD ***************************/
#define GetVDMAddr(usSeg,usOff) Sim32pGetVDMPointer((ULONG)(((ULONG)usSeg << 16) | usOff),FALSE)
#define RMSEGOFFTOLIN(seg, off) (PVOID)(((ULONG)(seg) << 4) + (ULONG)(off))
extern BOOL Sim32FlushVDMPointer (ULONG, USHORT, PBYTE , BOOL);
extern BOOL Sim32FreeVDMPointer (ULONG, USHORT, PBYTE , BOOL);
extern BOOL Sim32GetVDMMemory (ULONG, USHORT, PBYTE , BOOL);
extern BOOL Sim32SetVDMMemory (ULONG, USHORT, PBYTE , BOOL);
extern VOID sas_overwrite_memory(PBYTE, ULONG);
extern UCHAR getAL(VOID);
extern UCHAR getCL(VOID);
extern UCHAR getDL(VOID);
extern UCHAR getBL(VOID);
extern UCHAR getAH(VOID);
extern UCHAR getCH(VOID);
extern UCHAR getDH(VOID);
extern UCHAR getBH(VOID);
extern VOID setAL(UCHAR val);
extern VOID setCL(UCHAR val);
extern VOID setDL(UCHAR val);
extern VOID setBL(UCHAR val);
extern VOID setAH(UCHAR val);
extern VOID setCH(UCHAR val);
extern VOID setDH(UCHAR val);
extern VOID setBH(UCHAR val);
extern USHORT getAX(VOID);
extern USHORT getCX(VOID);
extern USHORT getDX(VOID);
extern USHORT getBX(VOID);
extern USHORT getSP(VOID);
extern USHORT getBP(VOID);
extern USHORT getSI(VOID);
extern USHORT getDI(VOID);
extern USHORT getIP(VOID);
extern VOID setAX(USHORT val);
extern VOID setCX(USHORT val);
extern VOID setDX(USHORT val);
extern VOID setBX(USHORT val);
extern VOID setSP(USHORT val);
extern VOID setBP(USHORT val);
extern VOID setSI(USHORT val);
extern VOID setDI(USHORT val);
extern VOID setIP(USHORT val);
extern ULONG getEAX(VOID);
extern ULONG getECX(VOID);
extern ULONG getEDX(VOID);
extern ULONG getEBX(VOID);
extern ULONG getESP(VOID);
extern ULONG getEBP(VOID);
extern ULONG getESI(VOID);
extern ULONG getEDI(VOID);
extern ULONG getEIP(VOID);
extern VOID setEAX(ULONG val);
extern VOID setECX(ULONG val);
extern VOID setEDX(ULONG val);
extern VOID setEBX(ULONG val);
extern VOID setESP(ULONG val);
extern VOID setEBP(ULONG val);
extern VOID setESI(ULONG val);
extern VOID setEDI(ULONG val);
extern VOID setEIP(ULONG val);
extern USHORT getES(VOID);
extern USHORT getCS(VOID);
extern USHORT getSS(VOID);
extern USHORT getDS(VOID);
extern USHORT getFS(VOID);
extern USHORT getGS(VOID);
extern VOID setES(USHORT val);
extern VOID setCS(USHORT val);
extern VOID setSS(USHORT val);
extern VOID setDS(USHORT val);
extern VOID setFS(USHORT val);
extern VOID setGS(USHORT val);
extern ULONG getAF(VOID);
extern ULONG getCF(VOID);
extern ULONG getDF(VOID);
extern ULONG getIF(VOID);
extern ULONG getOF(VOID);
extern ULONG getPF(VOID);
extern ULONG getSF(VOID);
extern ULONG getTF(VOID);
extern ULONG getZF(VOID);
extern ULONG getIOPL(VOID);
extern ULONG getNT(VOID);
extern USHORT getSTATUS(VOID);
extern ULONG getEFLAGS(VOID);
extern USHORT getMSW(VOID);
extern VOID setAF(ULONG val);
extern VOID setCF(ULONG val);
extern VOID setDF(ULONG val);
extern VOID setIF(ULONG val);
extern VOID setOF(ULONG val);
extern VOID setPF(ULONG val);
extern VOID setSF(ULONG val);
extern VOID setTF(ULONG val);
extern VOID setZF(ULONG val);
extern VOID setIOPL(ULONG val);
extern VOID setNT(ULONG val);
extern VOID setSTATUS(USHORT val);
extern VOID setEFLAGS(ULONG val);
extern VOID setMSW(USHORT val);
extern ULONG getCR0(VOID);
extern VOID setCR0(ULONG val);
extern ULONG getSS_AR(VOID);
extern ULONG getSS_BASE(VOID);
extern VOID setSS_BASE_LIMIT_AR(ULONG base, ULONG limit, ULONG ar);
extern VOID setCPL(ULONG val);
#endif