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NT4/private/ntos/ke/mips/getsetrg.c
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/*++
Copyright (c) 1991 Microsoft Corporation
Module Name:
getsetrg.c
Abstract:
This module implement the code necessary to get and set register values.
These routines are used during the emulation of unaligned data references
and floating point exceptions.
Author:
David N. Cutler (davec) 17-Jun-1991
Environment:
Kernel mode only.
Revision History:
--*/
#include "ki.h"
ULONG
KiGetRegisterValue (
IN ULONG Register,
IN PKEXCEPTION_FRAME ExceptionFrame,
IN PKTRAP_FRAME TrapFrame
)
/*++
Routine Description:
This function is called to get the 32-bit value of a register from the
specified exception or trap frame.
Arguments:
Register - Supplies the number of the register whose value is to be
returned. Integer registers are specified as 0 - 31 and floating
registers are specified as 32 - 63.
ExceptionFrame - Supplies a pointer to an exception frame.
TrapFrame - Supplies a pointer to a trap frame.
Return Value:
The value of the specified register is returned as the function value.
--*/
{
//
// Dispatch on the register number.
//
if (Register == 0) {
return 0;
} else if (Register < 32) {
return (ULONG)(&TrapFrame->XIntZero)[Register];
} else {
switch (Register) {
//
// Floating register F0.
//
case 32:
return TrapFrame->FltF0;
//
// Floating register F1.
//
case 33:
return TrapFrame->FltF1;
//
// Floating register F2.
//
case 34:
return TrapFrame->FltF2;
//
// Floating register F3.
//
case 35:
return TrapFrame->FltF3;
//
// Floating register F4.
//
case 36:
return TrapFrame->FltF4;
//
// Floating register F5.
//
case 37:
return TrapFrame->FltF5;
//
// Floating register F6.
//
case 38:
return TrapFrame->FltF6;
//
// Floating register F7.
//
case 39:
return TrapFrame->FltF7;
//
// Floating register F8.
//
case 40:
return TrapFrame->FltF8;
//
// Floating register F9.
//
case 41:
return TrapFrame->FltF9;
//
// Floating register F10.
//
case 42:
return TrapFrame->FltF10;
//
// Floating register F11.
//
case 43:
return TrapFrame->FltF11;
//
// Floating register F12.
//
case 44:
return TrapFrame->FltF12;
//
// Floating register F13.
//
case 45:
return TrapFrame->FltF13;
//
// Floating register F14.
//
case 46:
return TrapFrame->FltF14;
//
// Floating register F15.
//
case 47:
return TrapFrame->FltF15;
//
// Floating register F16.
//
case 48:
return TrapFrame->FltF16;
//
// Floating register F17.
//
case 49:
return TrapFrame->FltF17;
//
// Floating register F18.
//
case 50:
return TrapFrame->FltF18;
//
// Floating register F19.
//
case 51:
return TrapFrame->FltF19;
//
// Floating register F20.
//
case 52:
return ExceptionFrame->FltF20;
//
// Floating register F21.
//
case 53:
return ExceptionFrame->FltF21;
//
// Floating register F22.
//
case 54:
return ExceptionFrame->FltF22;
//
// Floating register F23.
//
case 55:
return ExceptionFrame->FltF23;
//
// Floating register F24.
//
case 56:
return ExceptionFrame->FltF24;
//
// Floating register F25.
//
case 57:
return ExceptionFrame->FltF25;
//
// Floating register F26.
//
case 58:
return ExceptionFrame->FltF26;
//
// Floating register F27.
//
case 59:
return ExceptionFrame->FltF27;
//
// Floating register F28.
//
case 60:
return ExceptionFrame->FltF28;
//
// Floating register F29.
//
case 61:
return ExceptionFrame->FltF29;
//
// Floating register F30.
//
case 62:
return ExceptionFrame->FltF30;
//
// Floating register F31.
//
case 63:
return ExceptionFrame->FltF31;
}
}
}
ULONGLONG
KiGetRegisterValue64 (
IN ULONG Register,
IN PKEXCEPTION_FRAME ExceptionFrame,
IN PKTRAP_FRAME TrapFrame
)
/*++
Routine Description:
This function is called to get the 64-bit value of a register from the
specified exception or trap frame.
Arguments:
Register - Supplies the number of the register whose value is to be
returned. Integer registers are specified as 0 - 31 and floating
registers are specified as 32 - 63.
ExceptionFrame - Supplies a pointer to an exception frame.
TrapFrame - Supplies a pointer to a trap frame.
Return Value:
The value of the specified register is returned as the function value.
--*/
{
//
// Dispatch on the register number.
//
if (Register == 0) {
return 0;
} else if (Register < 32) {
return (&TrapFrame->XIntZero)[Register];
} else {
switch (Register) {
//
// Floating register F0.
//
case 32:
return TrapFrame->XFltF0;
//
// Floating register F1.
//
case 33:
return TrapFrame->XFltF1;
//
// Floating register F2.
//
case 34:
return TrapFrame->XFltF2;
//
// Floating register F3.
//
case 35:
return TrapFrame->XFltF3;
//
// Floating register F4.
//
case 36:
return TrapFrame->XFltF4;
//
// Floating register F5.
//
case 37:
return TrapFrame->XFltF5;
//
// Floating register F6.
//
case 38:
return TrapFrame->XFltF6;
//
// Floating register F7.
//
case 39:
return TrapFrame->XFltF7;
//
// Floating register F8.
//
case 40:
return TrapFrame->XFltF8;
//
// Floating register F9.
//
case 41:
return TrapFrame->XFltF9;
//
// Floating register F10.
//
case 42:
return TrapFrame->XFltF10;
//
// Floating register F11.
//
case 43:
return TrapFrame->XFltF11;
//
// Floating register F12.
//
case 44:
return TrapFrame->XFltF12;
//
// Floating register F13.
//
case 45:
return TrapFrame->XFltF13;
//
// Floating register F14.
//
case 46:
return TrapFrame->XFltF14;
//
// Floating register F15.
//
case 47:
return TrapFrame->XFltF15;
//
// Floating register F16.
//
case 48:
return TrapFrame->XFltF16;
//
// Floating register F17.
//
case 49:
return TrapFrame->XFltF17;
//
// Floating register F18.
//
case 50:
return TrapFrame->XFltF18;
//
// Floating register F19.
//
case 51:
return TrapFrame->XFltF19;
//
// Floating register F20.
//
case 52:
return ExceptionFrame->XFltF20;
//
// Floating register F21.
//
case 53:
return TrapFrame->XFltF21;
//
// Floating register F22.
//
case 54:
return ExceptionFrame->XFltF22;
//
// Floating register F23.
//
case 55:
return TrapFrame->XFltF23;
//
// Floating register F24.
//
case 56:
return ExceptionFrame->XFltF24;
//
// Floating register F25.
//
case 57:
return TrapFrame->XFltF25;
//
// Floating register F26.
//
case 58:
return ExceptionFrame->XFltF26;
//
// Floating register F27.
//
case 59:
return TrapFrame->XFltF27;
//
// Floating register F28.
//
case 60:
return ExceptionFrame->XFltF28;
//
// Floating register F29.
//
case 61:
return TrapFrame->XFltF29;
//
// Floating register F30.
//
case 62:
return ExceptionFrame->XFltF30;
//
// Floating register F31.
//
case 63:
return TrapFrame->XFltF31;
}
}
}
VOID
KiSetRegisterValue (
IN ULONG Register,
IN ULONG Value,
OUT PKEXCEPTION_FRAME ExceptionFrame,
OUT PKTRAP_FRAME TrapFrame
)
/*++
Routine Description:
This function is called to set the 32-bit value of a register in the
specified exception or trap frame.
Arguments:
Register - Supplies the number of the register whose value is to be
stored. Integer registers are specified as 0 - 31 and floating
registers are specified as 32 - 63.
Value - Supplies the value to be stored in the specified register.
ExceptionFrame - Supplies a pointer to an exception frame.
TrapFrame - Supplies a pointer to a trap frame.
Return Value:
None.
--*/
{
//
// Dispatch on the register number.
//
if (Register < 32) {
(&TrapFrame->XIntZero)[Register] = (LONG)Value;
} else {
switch (Register) {
//
// Floating register F0.
//
case 32:
TrapFrame->FltF0 = Value;
return;
//
// Floating register F1.
//
case 33:
TrapFrame->FltF1 = Value;
return;
//
// Floating register F2.
//
case 34:
TrapFrame->FltF2 = Value;
return;
//
// Floating register F3.
//
case 35:
TrapFrame->FltF3 = Value;
return;
//
// Floating register F4.
//
case 36:
TrapFrame->FltF4 = Value;
return;
//
// Floating register F5.
//
case 37:
TrapFrame->FltF5 = Value;
return;
//
// Floating register F6.
//
case 38:
TrapFrame->FltF6 = Value;
return;
//
// Floating register F7.
//
case 39:
TrapFrame->FltF7 = Value;
return;
//
// Floating register F8.
//
case 40:
TrapFrame->FltF8 = Value;
return;
//
// Floating register F9.
//
case 41:
TrapFrame->FltF9 = Value;
return;
//
// Floating register F10.
//
case 42:
TrapFrame->FltF10 = Value;
return;
//
// Floating register F11.
//
case 43:
TrapFrame->FltF11 = Value;
return;
//
// Floating register F12.
//
case 44:
TrapFrame->FltF12 = Value;
return;
//
// Floating register F13.
//
case 45:
TrapFrame->FltF13 = Value;
return;
//
// Floating register F14.
//
case 46:
TrapFrame->FltF14 = Value;
return;
//
// Floating register F15.
//
case 47:
TrapFrame->FltF15 = Value;
return;
//
// Floating register F16.
//
case 48:
TrapFrame->FltF16 = Value;
return;
//
// Floating register F17.
//
case 49:
TrapFrame->FltF17 = Value;
return;
//
// Floating register F18.
//
case 50:
TrapFrame->FltF18 = Value;
return;
//
// Floating register F19.
//
case 51:
TrapFrame->FltF19 = Value;
return;
//
// Floating register F20.
//
case 52:
ExceptionFrame->FltF20 = Value;
return;
//
// Floating register F21.
//
case 53:
ExceptionFrame->FltF21 = Value;
return;
//
// Floating register F22.
//
case 54:
ExceptionFrame->FltF22 = Value;
return;
//
// Floating register F23.
//
case 55:
ExceptionFrame->FltF23 = Value;
return;
//
// Floating register F24.
//
case 56:
ExceptionFrame->FltF24 = Value;
return;
//
// Floating register F25.
//
case 57:
ExceptionFrame->FltF25 = Value;
return;
//
// Floating register F26.
//
case 58:
ExceptionFrame->FltF26 = Value;
return;
//
// Floating register F27.
//
case 59:
ExceptionFrame->FltF27 = Value;
return;
//
// Floating register F28.
//
case 60:
ExceptionFrame->FltF28 = Value;
return;
//
// Floating register F29.
//
case 61:
ExceptionFrame->FltF29 = Value;
return;
//
// Floating register F30.
//
case 62:
ExceptionFrame->FltF30 = Value;
return;
//
// Floating register F31.
//
case 63:
ExceptionFrame->FltF31 = Value;
return;
}
}
}
VOID
KiSetRegisterValue64 (
IN ULONG Register,
IN ULONGLONG Value,
OUT PKEXCEPTION_FRAME ExceptionFrame,
OUT PKTRAP_FRAME TrapFrame
)
/*++
Routine Description:
This function is called to set the 64-bit value of a register in the
specified exception or trap frame.
Arguments:
Register - Supplies the number of the register whose value is to be
stored. Integer registers are specified as 0 - 31 and floating
registers are specified as 32 - 63.
Value - Supplies the value to be stored in the specified register.
ExceptionFrame - Supplies a pointer to an exception frame.
TrapFrame - Supplies a pointer to a trap frame.
Return Value:
None.
--*/
{
//
// Dispatch on the register number.
//
if (Register < 32) {
(&TrapFrame->XIntZero)[Register] = Value;
} else {
switch (Register) {
//
// Floating register F0.
//
case 32:
TrapFrame->XFltF0 = Value;
return;
//
// Floating register F1.
//
case 33:
TrapFrame->XFltF1 = Value;
return;
//
// Floating register F2.
//
case 34:
TrapFrame->XFltF2 = Value;
return;
//
// Floating register F3.
//
case 35:
TrapFrame->XFltF3 = Value;
return;
//
// Floating register F4.
//
case 36:
TrapFrame->XFltF4 = Value;
return;
//
// Floating register F5.
//
case 37:
TrapFrame->XFltF5 = Value;
return;
//
// Floating register F6.
//
case 38:
TrapFrame->XFltF6 = Value;
return;
//
// Floating register F7.
//
case 39:
TrapFrame->XFltF7 = Value;
return;
//
// Floating register F8.
//
case 40:
TrapFrame->XFltF8 = Value;
return;
//
// Floating register F9.
//
case 41:
TrapFrame->XFltF9 = Value;
return;
//
// Floating register F10.
//
case 42:
TrapFrame->XFltF10 = Value;
return;
//
// Floating register F11.
//
case 43:
TrapFrame->XFltF11 = Value;
return;
//
// Floating register F12.
//
case 44:
TrapFrame->XFltF12 = Value;
return;
//
// Floating register F13.
//
case 45:
TrapFrame->XFltF13 = Value;
return;
//
// Floating register F14.
//
case 46:
TrapFrame->XFltF14 = Value;
return;
//
// Floating register F15.
//
case 47:
TrapFrame->XFltF15 = Value;
return;
//
// Floating register F16.
//
case 48:
TrapFrame->XFltF16 = Value;
return;
//
// Floating register F17.
//
case 49:
TrapFrame->XFltF17 = Value;
return;
//
// Floating register F18.
//
case 50:
TrapFrame->XFltF18 = Value;
return;
//
// Floating register F19.
//
case 51:
TrapFrame->XFltF19 = Value;
return;
//
// Floating register F20.
//
case 52:
ExceptionFrame->XFltF20 = Value;
return;
//
// Floating register F21.
//
case 53:
TrapFrame->XFltF21 = Value;
return;
//
// Floating register F22.
//
case 54:
ExceptionFrame->XFltF22 = Value;
return;
//
// Floating register F23.
//
case 55:
TrapFrame->XFltF23 = Value;
return;
//
// Floating register F24.
//
case 56:
ExceptionFrame->XFltF24 = Value;
return;
//
// Floating register F25.
//
case 57:
TrapFrame->XFltF25 = Value;
return;
//
// Floating register F26.
//
case 58:
ExceptionFrame->XFltF26 = Value;
return;
//
// Floating register F27.
//
case 59:
TrapFrame->XFltF27 = Value;
return;
//
// Floating register F28.
//
case 60:
ExceptionFrame->XFltF28 = Value;
return;
//
// Floating register F29.
//
case 61:
TrapFrame->XFltF29 = Value;
return;
//
// Floating register F30.
//
case 62:
ExceptionFrame->XFltF30 = Value;
return;
//
// Floating register F31.
//
case 63:
TrapFrame->XFltF31 = Value;
return;
}
}
}
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