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reactos/subsystems/ntvdm/int32.c
Hermès Bélusca-Maïto 085fe5e31a [NTVDM] 
- As already done for interrupts and I/O ports, add a registering system for BOPs.
- INT32: Move ControlBop to the 32-bit interrupts module where it is used only.
- DOS: Add (un)documented BOP_DOS (0x50) and BOP_CMD(0x54) used respectively by NTIO.SYS/NTDOS.SYS and by COMMAND.COM.
  It appears that they take an extra parameter (so, skip 1 byte-instruction after the BOP instruction as we do for the Control BOP 0xFF).
  See "Undocumented DOS 2nd edition" by Schulman et al., page 267.

svn path=/branches/ntvdm/; revision=61278
2013-12-15 16:30:28 +00:00

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/*
* COPYRIGHT: GPL - See COPYING in the top level directory
* PROJECT: ReactOS Virtual DOS Machine
* FILE: int32.c
* PURPOSE: 32-bit Interrupt Handlers
* PROGRAMMERS: Aleksandar Andrejevic <theflash AT sdf DOT lonestar DOT org>
* Hermes Belusca-Maito (hermes.belusca@sfr.fr)
*/
/* INCLUDES *******************************************************************/
#define NDEBUG
#include "emulator.h"
#include "int32.h"
#include "bop.h"
#include "bios.h"
#include "registers.h"
/* PRIVATE VARIABLES **********************************************************/
LPCWSTR ExceptionName[] =
{
L"Division By Zero",
L"Debug",
L"Unexpected Error",
L"Breakpoint",
L"Integer Overflow",
L"Bound Range Exceeded",
L"Invalid Opcode",
L"FPU Not Available"
};
/*
* This is the list of registered 32-bit Interrupt handlers.
*/
EMULATOR_INT32_PROC Int32Proc[EMULATOR_MAX_INT32_NUM] = { NULL };
/* BOP Identifiers */
#define BOP_CONTROL 0xFF // Control BOP Handler
#define BOP_CONTROL_DEFFUNC 0x00 // Default Control BOP Function
/* 32-bit Interrupt dispatcher function code for the Control BOP Handler */
#define BOP_CONTROL_INT32 0xFF
/* PUBLIC FUNCTIONS ***********************************************************/
VOID WINAPI Exception(BYTE ExceptionNumber, LPWORD Stack)
{
WORD CodeSegment, InstructionPointer;
PBYTE Opcode;
ASSERT(ExceptionNumber < 8);
/* Get the CS:IP */
InstructionPointer = Stack[STACK_IP];
CodeSegment = Stack[STACK_CS];
Opcode = (PBYTE)SEG_OFF_TO_PTR(CodeSegment, InstructionPointer);
/* Display a message to the user */
DisplayMessage(L"Exception: %s occured at %04X:%04X\n"
L"Opcode: %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X",
ExceptionName[ExceptionNumber],
CodeSegment,
InstructionPointer,
Opcode[0],
Opcode[1],
Opcode[2],
Opcode[3],
Opcode[4],
Opcode[5],
Opcode[6],
Opcode[7],
Opcode[8],
Opcode[9]);
/* Stop the VDM */
VdmRunning = FALSE;
return;
}
#if 0
VOID WINAPI IrqDispatch(BYTE IrqNumber, LPWORD Stack)
{
/* Check if this was an PIC IRQ */
if (IntNum >= BIOS_PIC_MASTER_INT && IntNum < BIOS_PIC_MASTER_INT + 8)
{
/* It was an IRQ from the master PIC */
BiosHandleIrq(IntNum - BIOS_PIC_MASTER_INT, Stack);
}
else if (IntNum >= BIOS_PIC_SLAVE_INT && IntNum < BIOS_PIC_SLAVE_INT + 8)
{
/* It was an IRQ from the slave PIC */
BiosHandleIrq(IntNum - BIOS_PIC_SLAVE_INT + 8, Stack);
}
return;
}
#endif
VOID WINAPI Int32Dispatch(LPWORD Stack)
{
BYTE IntNum;
/* Get the interrupt number */
IntNum = LOBYTE(Stack[STACK_INT_NUM]);
/* Check if this was an exception */
if (IntNum < 8)
{
Exception(IntNum, Stack);
return;
}
/* Check if this was an PIC IRQ */
if (IntNum >= BIOS_PIC_MASTER_INT && IntNum < BIOS_PIC_MASTER_INT + 8)
{
/* It was an IRQ from the master PIC */
BiosHandleIrq(IntNum - BIOS_PIC_MASTER_INT, Stack);
return;
}
else if (IntNum >= BIOS_PIC_SLAVE_INT && IntNum < BIOS_PIC_SLAVE_INT + 8)
{
/* It was an IRQ from the slave PIC */
BiosHandleIrq(IntNum - BIOS_PIC_SLAVE_INT + 8, Stack);
return;
}
/* Call the 32-bit Interrupt handler */
if (Int32Proc[IntNum] != NULL)
Int32Proc[IntNum](Stack);
else
DPRINT1("Unhandled 32-bit interrupt: 0x%02X, AX = 0x%04X\n", IntNum, getAX());
}
VOID WINAPI ControlBop(LPWORD Stack)
{
/* Get the Function Number and skip it */
BYTE FuncNum = *(PBYTE)SEG_OFF_TO_PTR(getCS(), getIP());
setIP(getIP() + 1);
if (FuncNum == BOP_CONTROL_INT32)
Int32Dispatch(Stack);
else
DPRINT1("Unassigned Control BOP Function: 0x%02X\n", FuncNum);
}
VOID WINAPI InitializeInt32(WORD BiosSegment)
{
LPDWORD IntVecTable = (LPDWORD)BaseAddress;
LPBYTE BiosCode = (LPBYTE)SEG_OFF_TO_PTR(BiosSegment, 0);
USHORT i;
WORD BopSeqOffset, Offset = 0;
/* Generate ISR stubs and fill the IVT */
for (i = 0x00; i <= 0xFF; i++)
{
Offset = INT_HANDLER_OFFSET + (i << 4);
IntVecTable[i] = MAKELONG(Offset, BiosSegment);
BiosCode[Offset++] = 0xFA; // cli
BiosCode[Offset++] = 0x6A; // push i
BiosCode[Offset++] = (UCHAR)i;
BiosCode[Offset++] = 0x6A; // push 0
BiosCode[Offset++] = 0x00;
BopSeqOffset = COMMON_STUB_OFFSET - (Offset + 3);
BiosCode[Offset++] = 0xE9; // jmp near BOP_SEQ
BiosCode[Offset++] = LOBYTE(BopSeqOffset);
BiosCode[Offset++] = HIBYTE(BopSeqOffset);
}
/* Write the common stub code */
Offset = COMMON_STUB_OFFSET;
// BOP_SEQ:
BiosCode[Offset++] = 0xF8; // clc
BiosCode[Offset++] = LOBYTE(EMULATOR_BOP); // BOP sequence
BiosCode[Offset++] = HIBYTE(EMULATOR_BOP);
BiosCode[Offset++] = BOP_CONTROL; // Control BOP
BiosCode[Offset++] = BOP_CONTROL_INT32; // 32-bit Interrupt dispatcher
BiosCode[Offset++] = 0x73; // jnc EXIT (offset +4)
BiosCode[Offset++] = 0x04;
BiosCode[Offset++] = 0xFB; // sti
// HACK: The following instruction should be HLT!
BiosCode[Offset++] = 0x90; // nop
BiosCode[Offset++] = 0xEB; // jmp BOP_SEQ (offset -11)
BiosCode[Offset++] = 0xF5;
// EXIT:
BiosCode[Offset++] = 0x83; // add sp, 4
BiosCode[Offset++] = 0xC4;
BiosCode[Offset++] = 0x04;
BiosCode[Offset++] = 0xCF; // iret
/* Register the Control BOP */
RegisterBop(BOP_CONTROL, ControlBop);
}
VOID WINAPI RegisterInt32(BYTE IntNumber, EMULATOR_INT32_PROC IntHandler)
{
Int32Proc[IntNumber] = IntHandler;
}
/* EOF */
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