windows-nt/Source/XPSP1/NT/base/mvdm/vdmexts/i386/regs.c

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2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 1991 Microsoft Corporation
Module Name:
Registers.c
Abstract:
This module contains routines for manipulating registers.
Author:
Dave Hastings (daveh) 1-Apr-1992
Notes:
The routines in this module assume that the pointers to the ntsd
routines have already been set up.
Revision History:
--*/
#include <precomp.h>
#pragma hdrstop
#include <stdio.h>
const char *FpuTagNames[] = {
"Valid",
"Zero",
"Special",
"Empty"
};
VOID
PrintContext(
IN PCONTEXT Context
);
VOID
IntelRegistersp(
VOID
)
/*++
Routine Description:
This routine dumps out the 16 bit register set from the vdmtib
Arguments:
None.
Return Value:
None.
Notes:
This routine assumes that the pointers to the ntsd routines have already
been set up.
--*/
{
BOOL Status;
ULONG Address;
CONTEXT IntelRegisters;
//
// Get the address of the VdmTib
//
if (sscanf(lpArgumentString, "%lx", &Address) <= 0) {
Address = GetCurrentVdmTib();
}
if (!Address) {
(*Print)("Error geting VdmTib address\n");
return;
}
//
// Read the 16 bit context
//
Status = READMEM(
&(((PVDM_TIB)Address)->VdmContext),
&IntelRegisters,
sizeof(CONTEXT)
);
if (!Status) {
GetLastError();
(*Print)("Could not get VdmContext\n");
} else {
PrintContext(&IntelRegisters);
}
}
VOID
PrintContext(
IN PCONTEXT Context
)
/*++
Routine Description:
This routine dumps out a context.
Arguments:
Context -- Supplies a pointer to the context to dump
Return Value:
None.
--*/
{
(*Print)(
"eax=%08lx ebx=%08lx ecx=%08lx edx=%08lx esi=%08lx edi=%08lx\n",
Context->Eax,
Context->Ebx,
Context->Ecx,
Context->Edx,
Context->Esi,
Context->Edi
);
(*Print)(
"eip=%08lx esp=%08lx ebp=%08lx\n",
Context->Eip,
Context->Esp,
Context->Ebp
);
(*Print)(
"cs=%04x ss=%04x ds=%04x es=%04x fs=%04x gs=%04x eflags=%08x\n",
Context->SegCs,
Context->SegSs,
Context->SegDs,
Context->SegEs,
Context->SegFs,
Context->SegGs,
Context->EFlags
);
}
VOID
Fpup(
VOID
)
/*++
Routine Description:
This routine dumps out the x86 floating-point state.
Arguments:
None.
Return Value:
None.
Notes:
This routine assumes that the pointers to the ntsd routines have already
been set up.
--*/
{
CONTEXT IntelRegisters;
USHORT Temp;
int RegNum;
//
// Read the thread's context
//
IntelRegisters.ContextFlags = CONTEXT_FLOATING_POINT;
if (GetThreadContext(hCurrentThread, &IntelRegisters) == FALSE) {
GetLastError();
(*Print)("Could not get 32-bit thread context\n");
return;
};
Temp = (USHORT)IntelRegisters.FloatSave.ControlWord;
(*Print)(" Control word = %X\n", Temp);
(*Print)(
" Infinity = %d Rounding = %d Precision = %d PM=%d UM=%d OM=%d ZM=%d DM=%d IM=%d\n",
(Temp >> 11) & 1, // Infinity
(Temp >> 9) & 3, // Rounding (2 bits)
(Temp >> 7) & 3, // Precision (2 bits)
(Temp >> 5) & 1, // Precision Exception Mask
(Temp >> 4) & 1, // Underflow Exception Mask
(Temp >> 3) & 1, // Overflow Exception Mask
(Temp >> 2) & 1, // Zero Divide Exception Mask
(Temp >> 1) & 1, // Denormalized Operand Exception Mask
Temp & 1 // Invalid Operation Exception Mask
);
Temp = (USHORT)IntelRegisters.FloatSave.StatusWord;
(*Print)(" Status word = %X\n", Temp);
(*Print)(
" Top=%d C3=%d C2=%d C1=%d C0=%d ES=%d SF=%d PE=%d UE=%d OE=%d ZE=%d DE=%d IE=%d\n",
(Temp >> 11) & 7, // Top (3 bits)
(Temp >> 7) & 1, // Error Summary
(Temp >> 14) & 1, // C3
(Temp >> 10) & 1, // C2
(Temp >> 9) & 1, // C1
(Temp >> 8) & 1, // C0
(Temp >> 7) & 1, // Error Summary
(Temp >> 6) & 1, // Stack Fault
(Temp >> 5) & 1, // Precision Exception
(Temp >> 4) & 1, // Underflow Exception
(Temp >> 3) & 1, // Overflow Exception
(Temp >> 2) & 1, // Zero Divide Exception
(Temp >> 1) & 1, // Denormalized Operand Exception
Temp & 1 // Invalid Operation Exception
);
(*Print)(" Last Instruction: CS:EIP=%X:%X EA=%X:%X\n",
(USHORT)IntelRegisters.FloatSave.ErrorSelector,
IntelRegisters.FloatSave.ErrorOffset,
(USHORT)IntelRegisters.FloatSave.DataSelector,
IntelRegisters.FloatSave.DataOffset
);
(*Print)(" Floating-point registers:\n");
for (RegNum=0; RegNum<8; ++RegNum) {
PBYTE r80 = (PBYTE)&IntelRegisters.FloatSave.RegisterArea[RegNum*10];
Temp = (((USHORT)IntelRegisters.FloatSave.TagWord) >> (RegNum*2)) & 3;
(*Print)(
" %d. %s %2.2X %2.2X %2.2X %2.2X %2.2X %2.2X %2.2X %2.2X %2.2X %2.2X\n",
RegNum,
FpuTagNames[Temp],
r80[0], r80[1], r80[2], r80[3], r80[4], r80[5], r80[6], r80[7], r80[8], r80[9]
);
}
}