/* PRIVATE FUNCTIONS **********************************************************/
-static
-inline
VOID
NTAPI
Fast486ExecutionControl(PFAST486_STATE State, FAST486_EXEC_CMD Command)
/* Main execution loop */
do
{
- /* Check if this is a new instruction */
- if (State->PrefixFlags == 0) State->SavedInstPtr = State->InstPtr;
-
- /* Perform an instruction fetch */
- if (!Fast486FetchByte(State, &Opcode))
+ if (!State->Halted)
{
- /* Exception occurred */
- State->PrefixFlags = 0;
- continue;
- }
+NextInst:
+ /* Check if this is a new instruction */
+ if (State->PrefixFlags == 0) State->SavedInstPtr = State->InstPtr;
- // TODO: Check for CALL/RET to update ProcedureCallCount.
+ /* Perform an instruction fetch */
+ if (!Fast486FetchByte(State, &Opcode))
+ {
+ /* Exception occurred */
+ State->PrefixFlags = 0;
+ continue;
+ }
- /* Call the opcode handler */
- CurrentHandler = Fast486OpcodeHandlers[Opcode];
- CurrentHandler(State, Opcode);
+ // TODO: Check for CALL/RET to update ProcedureCallCount.
- /* If this is a prefix, go to the next instruction immediately */
- if (CurrentHandler == Fast486OpcodePrefix) continue;
+ /* Call the opcode handler */
+ CurrentHandler = Fast486OpcodeHandlers[Opcode];
+ CurrentHandler(State, Opcode);
- /* A non-prefix opcode has been executed, reset the prefix flags */
- State->PrefixFlags = 0;
+ /* If this is a prefix, go to the next instruction immediately */
+ if (CurrentHandler == Fast486OpcodePrefix) goto NextInst;
+
+ /* A non-prefix opcode has been executed, reset the prefix flags */
+ State->PrefixFlags = 0;
+ }
/*
* Check if there is an interrupt to execute, or a hardware interrupt signal
* while interrupts are enabled.
*/
- if (State->IntStatus == FAST486_INT_EXECUTE)
+ if (State->Flags.Tf && !State->Halted)
{
+ /* Perform the interrupt */
+ Fast486PerformInterrupt(State, 0x01);
+
+ /*
+ * Flags and TF are pushed on stack so we can reset TF now,
+ * to not break into the INT 0x01 handler.
+ * After the INT 0x01 handler returns, the flags and therefore
+ * TF are popped back off the stack and restored, so TF will be
+ * automatically reset to its previous state.
+ */
+ State->Flags.Tf = FALSE;
+ }
+ else if (State->IntStatus == FAST486_INT_EXECUTE)
+ {
+ /* No longer halted */
+ State->Halted = FALSE;
+
/* Perform the interrupt */
Fast486PerformInterrupt(State, State->PendingIntNum);
/* Clear the interrupt status */
State->IntStatus = FAST486_INT_NONE;
}
- else if (State->Flags.If && (State->IntStatus == FAST486_INT_SIGNAL)
- && (State->IntAckCallback != NULL))
+ else if (State->Flags.If && (State->IntStatus == FAST486_INT_SIGNAL))
{
/* Acknowledge the interrupt to get the number */
State->PendingIntNum = State->IntAckCallback(State);
State->IntStatus = FAST486_INT_EXECUTE;
}
}
- while ((CurrentHandler == Fast486OpcodePrefix) ||
- (Command == FAST486_CONTINUE) ||
+ while ((Command == FAST486_CONTINUE) ||
(Command == FAST486_STEP_OVER && ProcedureCallCount > 0) ||
(Command == FAST486_STEP_OUT && ProcedureCallCount >= 0));
}
Fast486MemReadCallback(PFAST486_STATE State, ULONG Address, PVOID Buffer, ULONG Size)
{
UNREFERENCED_PARAMETER(State);
-
RtlMoveMemory(Buffer, (PVOID)Address, Size);
}
Fast486MemWriteCallback(PFAST486_STATE State, ULONG Address, PVOID Buffer, ULONG Size)
{
UNREFERENCED_PARAMETER(State);
-
RtlMoveMemory((PVOID)Address, Buffer, Size);
}
static VOID
NTAPI
-Fast486IoReadCallback(PFAST486_STATE State, ULONG Port, PVOID Buffer, ULONG DataCount, UCHAR DataSize)
+Fast486IoReadCallback(PFAST486_STATE State, USHORT Port, PVOID Buffer, ULONG DataCount, UCHAR DataSize)
{
UNREFERENCED_PARAMETER(State);
UNREFERENCED_PARAMETER(Port);
static VOID
NTAPI
-Fast486IoWriteCallback(PFAST486_STATE State, ULONG Port, PVOID Buffer, ULONG DataCount, UCHAR DataSize)
+Fast486IoWriteCallback(PFAST486_STATE State, USHORT Port, PVOID Buffer, ULONG DataCount, UCHAR DataSize)
{
UNREFERENCED_PARAMETER(State);
UNREFERENCED_PARAMETER(Port);
UNREFERENCED_PARAMETER(DataSize);
}
-static VOID
-NTAPI
-Fast486IdleCallback(PFAST486_STATE State)
-{
- UNREFERENCED_PARAMETER(State);
-}
-
static VOID
NTAPI
Fast486BopCallback(PFAST486_STATE State, UCHAR BopCode)
{
UNREFERENCED_PARAMETER(State);
- /* Return something... */
- return 0;
+ /* Return something... defaulted to single-step interrupt */
+ return 0x01;
}
/* PUBLIC FUNCTIONS ***********************************************************/
FAST486_MEM_WRITE_PROC MemWriteCallback,
FAST486_IO_READ_PROC IoReadCallback,
FAST486_IO_WRITE_PROC IoWriteCallback,
- FAST486_IDLE_PROC IdleCallback,
FAST486_BOP_PROC BopCallback,
FAST486_INT_ACK_PROC IntAckCallback,
PULONG Tlb)
State->MemWriteCallback = (MemWriteCallback ? MemWriteCallback : Fast486MemWriteCallback);
State->IoReadCallback = (IoReadCallback ? IoReadCallback : Fast486IoReadCallback );
State->IoWriteCallback = (IoWriteCallback ? IoWriteCallback : Fast486IoWriteCallback );
- State->IdleCallback = (IdleCallback ? IdleCallback : Fast486IdleCallback );
State->BopCallback = (BopCallback ? BopCallback : Fast486BopCallback );
State->IntAckCallback = (IntAckCallback ? IntAckCallback : Fast486IntAckCallback );
{
FAST486_SEG_REGS i;
+ /* Save the callbacks and TLB */
FAST486_MEM_READ_PROC MemReadCallback = State->MemReadCallback;
FAST486_MEM_WRITE_PROC MemWriteCallback = State->MemWriteCallback;
FAST486_IO_READ_PROC IoReadCallback = State->IoReadCallback;
FAST486_IO_WRITE_PROC IoWriteCallback = State->IoWriteCallback;
- FAST486_IDLE_PROC IdleCallback = State->IdleCallback;
FAST486_BOP_PROC BopCallback = State->BopCallback;
FAST486_INT_ACK_PROC IntAckCallback = State->IntAckCallback;
PULONG Tlb = State->Tlb;
State->MemWriteCallback = MemWriteCallback;
State->IoReadCallback = IoReadCallback;
State->IoWriteCallback = IoWriteCallback;
- State->IdleCallback = IdleCallback;
State->BopCallback = BopCallback;
State->IntAckCallback = IntAckCallback;
State->Tlb = Tlb;
}
-VOID
-NTAPI
-Fast486DumpState(PFAST486_STATE State)
-{
- DbgPrint("\nFast486DumpState -->\n");
- DbgPrint("\nCPU currently executing in %s mode at %04X:%08X\n",
- (State->ControlRegisters[0] & FAST486_CR0_PE) ? "protected" : "real",
- State->SegmentRegs[FAST486_REG_CS].Selector,
- State->InstPtr.Long);
- DbgPrint("\nGeneral purpose registers:\n"
- "EAX = %08X\tECX = %08X\tEDX = %08X\tEBX = %08X\n"
- "ESP = %08X\tEBP = %08X\tESI = %08X\tEDI = %08X\n",
- State->GeneralRegs[FAST486_REG_EAX].Long,
- State->GeneralRegs[FAST486_REG_ECX].Long,
- State->GeneralRegs[FAST486_REG_EDX].Long,
- State->GeneralRegs[FAST486_REG_EBX].Long,
- State->GeneralRegs[FAST486_REG_ESP].Long,
- State->GeneralRegs[FAST486_REG_EBP].Long,
- State->GeneralRegs[FAST486_REG_ESI].Long,
- State->GeneralRegs[FAST486_REG_EDI].Long);
- DbgPrint("\nSegment registers:\n"
- "ES = %04X (Base: %08X, Limit: %08X, Dpl: %u)\n"
- "CS = %04X (Base: %08X, Limit: %08X, Dpl: %u)\n"
- "SS = %04X (Base: %08X, Limit: %08X, Dpl: %u)\n"
- "DS = %04X (Base: %08X, Limit: %08X, Dpl: %u)\n"
- "FS = %04X (Base: %08X, Limit: %08X, Dpl: %u)\n"
- "GS = %04X (Base: %08X, Limit: %08X, Dpl: %u)\n",
- State->SegmentRegs[FAST486_REG_ES].Selector,
- State->SegmentRegs[FAST486_REG_ES].Base,
- State->SegmentRegs[FAST486_REG_ES].Limit,
- State->SegmentRegs[FAST486_REG_ES].Dpl,
- State->SegmentRegs[FAST486_REG_CS].Selector,
- State->SegmentRegs[FAST486_REG_CS].Base,
- State->SegmentRegs[FAST486_REG_CS].Limit,
- State->SegmentRegs[FAST486_REG_CS].Dpl,
- State->SegmentRegs[FAST486_REG_SS].Selector,
- State->SegmentRegs[FAST486_REG_SS].Base,
- State->SegmentRegs[FAST486_REG_SS].Limit,
- State->SegmentRegs[FAST486_REG_SS].Dpl,
- State->SegmentRegs[FAST486_REG_DS].Selector,
- State->SegmentRegs[FAST486_REG_DS].Base,
- State->SegmentRegs[FAST486_REG_DS].Limit,
- State->SegmentRegs[FAST486_REG_DS].Dpl,
- State->SegmentRegs[FAST486_REG_FS].Selector,
- State->SegmentRegs[FAST486_REG_FS].Base,
- State->SegmentRegs[FAST486_REG_FS].Limit,
- State->SegmentRegs[FAST486_REG_FS].Dpl,
- State->SegmentRegs[FAST486_REG_GS].Selector,
- State->SegmentRegs[FAST486_REG_GS].Base,
- State->SegmentRegs[FAST486_REG_GS].Limit,
- State->SegmentRegs[FAST486_REG_GS].Dpl);
- DbgPrint("\nFlags: %08X (%s %s %s %s %s %s %s %s %s %s %s %s %s) Iopl: %u\n",
- State->Flags.Long,
- State->Flags.Cf ? "CF" : "cf",
- State->Flags.Pf ? "PF" : "pf",
- State->Flags.Af ? "AF" : "af",
- State->Flags.Zf ? "ZF" : "zf",
- State->Flags.Sf ? "SF" : "sf",
- State->Flags.Tf ? "TF" : "tf",
- State->Flags.If ? "IF" : "if",
- State->Flags.Df ? "DF" : "df",
- State->Flags.Of ? "OF" : "of",
- State->Flags.Nt ? "NT" : "nt",
- State->Flags.Rf ? "RF" : "rf",
- State->Flags.Vm ? "VM" : "vm",
- State->Flags.Ac ? "AC" : "ac",
- State->Flags.Iopl);
- DbgPrint("\nControl Registers:\n"
- "CR0 = %08X\tCR2 = %08X\tCR3 = %08X\n",
- State->ControlRegisters[FAST486_REG_CR0],
- State->ControlRegisters[FAST486_REG_CR2],
- State->ControlRegisters[FAST486_REG_CR3]);
- DbgPrint("\nDebug Registers:\n"
- "DR0 = %08X\tDR1 = %08X\tDR2 = %08X\n"
- "DR3 = %08X\tDR4 = %08X\tDR5 = %08X\n",
- State->DebugRegisters[FAST486_REG_DR0],
- State->DebugRegisters[FAST486_REG_DR1],
- State->DebugRegisters[FAST486_REG_DR2],
- State->DebugRegisters[FAST486_REG_DR3],
- State->DebugRegisters[FAST486_REG_DR4],
- State->DebugRegisters[FAST486_REG_DR5]);
-
-#ifndef FAST486_NO_FPU
- DbgPrint("\nFPU Registers:\n"
- "ST0 = %04X%016llX\tST1 = %04X%016llX\n"
- "ST2 = %04X%016llX\tST3 = %04X%016llX\n"
- "ST4 = %04X%016llX\tST5 = %04X%016llX\n"
- "ST6 = %04X%016llX\tST7 = %04X%016llX\n"
- "Status: %04X\tControl: %04X\tTag: %04X\n",
- FPU_ST(0).Exponent | ((USHORT)FPU_ST(0).Sign << 15),
- FPU_ST(0).Mantissa,
- FPU_ST(1).Exponent | ((USHORT)FPU_ST(1).Sign << 15),
- FPU_ST(1).Mantissa,
- FPU_ST(2).Exponent | ((USHORT)FPU_ST(2).Sign << 15),
- FPU_ST(2).Mantissa,
- FPU_ST(3).Exponent | ((USHORT)FPU_ST(3).Sign << 15),
- FPU_ST(3).Mantissa,
- FPU_ST(4).Exponent | ((USHORT)FPU_ST(4).Sign << 15),
- FPU_ST(4).Mantissa,
- FPU_ST(5).Exponent | ((USHORT)FPU_ST(5).Sign << 15),
- FPU_ST(5).Mantissa,
- FPU_ST(6).Exponent | ((USHORT)FPU_ST(6).Sign << 15),
- FPU_ST(6).Mantissa,
- FPU_ST(7).Exponent | ((USHORT)FPU_ST(7).Sign << 15),
- FPU_ST(7).Mantissa,
- State->FpuStatus,
- State->FpuControl,
- State->FpuTag);
-#endif
-
- DbgPrint("\n<-- Fast486DumpState\n\n");
-}
-
-VOID
-NTAPI
-Fast486Continue(PFAST486_STATE State)
-{
- /* Call the internal function */
- Fast486ExecutionControl(State, FAST486_CONTINUE);
-}
-
-VOID
-NTAPI
-Fast486StepInto(PFAST486_STATE State)
-{
- /* Call the internal function */
- Fast486ExecutionControl(State, FAST486_STEP_INTO);
-}
-
-VOID
-NTAPI
-Fast486StepOver(PFAST486_STATE State)
-{
- /* Call the internal function */
- Fast486ExecutionControl(State, FAST486_STEP_OVER);
-}
-
-VOID
-NTAPI
-Fast486StepOut(PFAST486_STATE State)
-{
- /* Call the internal function */
- Fast486ExecutionControl(State, FAST486_STEP_OUT);
-}
-
VOID
NTAPI
Fast486Interrupt(PFAST486_STATE State, UCHAR Number)