/* * Soft386 386/486 CPU Emulation Library * soft386.c * * Copyright (C) 2013 Aleksandar Andrejevic * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* INCLUDES *******************************************************************/ // #define WIN32_NO_STATUS // #define _INC_WINDOWS #include // #define NDEBUG #include #include #include "common.h" #include "opcodes.h" /* DEFINES ********************************************************************/ typedef enum { SOFT386_STEP_INTO, SOFT386_STEP_OVER, SOFT386_STEP_OUT, SOFT386_CONTINUE } SOFT386_EXEC_CMD; /* PRIVATE FUNCTIONS **********************************************************/ static inline VOID NTAPI Soft386ExecutionControl(PSOFT386_STATE State, INT Command) { UCHAR Opcode; INT ProcedureCallCount = 0; /* Main execution loop */ do { /* If this is a new instruction, save the IP */ if (State->PrefixFlags == 0) State->SavedInstPtr = State->InstPtr; /* Perform an instruction fetch */ if (!Soft386FetchByte(State, &Opcode)) continue; // TODO: Check for CALL/RET to update ProcedureCallCount. if (Soft386OpcodeHandlers[Opcode] != NULL) { /* Call the opcode handler */ Soft386OpcodeHandlers[Opcode](State, Opcode); } else { /* This is not a valid opcode */ Soft386Exception(State, SOFT386_EXCEPTION_UD); } if (Soft386OpcodeHandlers[Opcode] != Soft386OpcodePrefix) { /* A non-prefix opcode has been executed, reset the prefix flags */ State->PrefixFlags = 0; } else { /* This is a prefix, go to the next instruction immediately */ continue; } /* Increment the time stamp counter */ State->TimeStampCounter++; } while ((Command == SOFT386_CONTINUE) || (Command == SOFT386_STEP_OVER && ProcedureCallCount > 0) || (Command == SOFT386_STEP_OUT && ProcedureCallCount >= 0) || (Soft386OpcodeHandlers[Opcode] == Soft386OpcodePrefix)); } /* PUBLIC FUNCTIONS ***********************************************************/ VOID NTAPI Soft386Continue(PSOFT386_STATE State) { /* Call the internal function */ Soft386ExecutionControl(State, SOFT386_CONTINUE); } VOID NTAPI Soft386StepInto(PSOFT386_STATE State) { /* Call the internal function */ Soft386ExecutionControl(State, SOFT386_STEP_INTO); } VOID NTAPI Soft386StepOver(PSOFT386_STATE State) { /* Call the internal function */ Soft386ExecutionControl(State, SOFT386_STEP_OVER); } VOID NTAPI Soft386StepOut(PSOFT386_STATE State) { /* Call the internal function */ Soft386ExecutionControl(State, SOFT386_STEP_OUT); } VOID NTAPI Soft386DumpState(PSOFT386_STATE State) { DPRINT1("\nCPU currently executing in %s mode at %04X:%08X\n" "Time Stamp Counter = %016X\n", (State->ControlRegisters[0] & SOFT386_CR0_PE) ? "protected" : "real", State->SegmentRegs[SOFT386_REG_CS].Selector, State->InstPtr.Long, State->TimeStampCounter); DPRINT1("\nGeneral purpose registers:\n" "EAX = %08X\tECX = %08X\tEDX = %08X\tEBX = %08X\n" "ESP = %08X\tEBP = %08X\tESI = %08X\tEDI = %08X\n", State->GeneralRegs[SOFT386_REG_EAX].Long, State->GeneralRegs[SOFT386_REG_ECX].Long, State->GeneralRegs[SOFT386_REG_EDX].Long, State->GeneralRegs[SOFT386_REG_EBX].Long, State->GeneralRegs[SOFT386_REG_ESP].Long, State->GeneralRegs[SOFT386_REG_EBP].Long, State->GeneralRegs[SOFT386_REG_ESI].Long, State->GeneralRegs[SOFT386_REG_EDI].Long); DPRINT1("\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[SOFT386_REG_ES].Selector, State->SegmentRegs[SOFT386_REG_ES].Base, State->SegmentRegs[SOFT386_REG_ES].Limit, State->SegmentRegs[SOFT386_REG_ES].Dpl, State->SegmentRegs[SOFT386_REG_CS].Selector, State->SegmentRegs[SOFT386_REG_CS].Base, State->SegmentRegs[SOFT386_REG_CS].Limit, State->SegmentRegs[SOFT386_REG_CS].Dpl, State->SegmentRegs[SOFT386_REG_SS].Selector, State->SegmentRegs[SOFT386_REG_SS].Base, State->SegmentRegs[SOFT386_REG_SS].Limit, State->SegmentRegs[SOFT386_REG_SS].Dpl, State->SegmentRegs[SOFT386_REG_DS].Selector, State->SegmentRegs[SOFT386_REG_DS].Base, State->SegmentRegs[SOFT386_REG_DS].Limit, State->SegmentRegs[SOFT386_REG_DS].Dpl, State->SegmentRegs[SOFT386_REG_FS].Selector, State->SegmentRegs[SOFT386_REG_FS].Base, State->SegmentRegs[SOFT386_REG_FS].Limit, State->SegmentRegs[SOFT386_REG_FS].Dpl, State->SegmentRegs[SOFT386_REG_GS].Selector, State->SegmentRegs[SOFT386_REG_GS].Base, State->SegmentRegs[SOFT386_REG_GS].Limit, State->SegmentRegs[SOFT386_REG_GS].Dpl); DPRINT1("\nFlags: %08X (%s %s %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.Vif ? "VIF" : "vif", State->Flags.Vip ? "VIP" : "vip", State->Flags.Iopl); DPRINT1("\nControl Registers:\n" "CR0 = %08X\tCR1 = %08X\tCR2 = %08X\tCR3 = %08X\n" "CR4 = %08X\tCR5 = %08X\tCR6 = %08X\tCR7 = %08X\n", State->ControlRegisters[SOFT386_REG_CR0], State->ControlRegisters[SOFT386_REG_CR1], State->ControlRegisters[SOFT386_REG_CR2], State->ControlRegisters[SOFT386_REG_CR3], State->ControlRegisters[SOFT386_REG_CR4], State->ControlRegisters[SOFT386_REG_CR5], State->ControlRegisters[SOFT386_REG_CR6], State->ControlRegisters[SOFT386_REG_CR7]); DPRINT1("\nDebug Registers:\n" "DR0 = %08X\tDR1 = %08X\tDR2 = %08X\tDR3 = %08X\n" "DR4 = %08X\tDR5 = %08X\tDR6 = %08X\tDR7 = %08X\n", State->DebugRegisters[SOFT386_REG_DR0], State->DebugRegisters[SOFT386_REG_DR1], State->DebugRegisters[SOFT386_REG_DR2], State->DebugRegisters[SOFT386_REG_DR3], State->DebugRegisters[SOFT386_REG_DR4], State->DebugRegisters[SOFT386_REG_DR5], State->DebugRegisters[SOFT386_REG_DR6], State->DebugRegisters[SOFT386_REG_DR7]); } VOID NTAPI Soft386Reset(PSOFT386_STATE State) { INT i; SOFT386_MEM_READ_PROC MemReadCallback = State->MemReadCallback; SOFT386_MEM_WRITE_PROC MemWriteCallback = State->MemWriteCallback; SOFT386_IO_READ_PROC IoReadCallback = State->IoReadCallback; SOFT386_IO_WRITE_PROC IoWriteCallback = State->IoWriteCallback; SOFT386_IDLE_PROC IdleCallback = State->IdleCallback; SOFT386_BOP_PROC BopCallback = State->BopCallback; /* Clear the entire structure */ RtlZeroMemory(State, sizeof(*State)); /* Initialize the registers */ State->Flags.AlwaysSet = 1; State->InstPtr.LowWord = 0xFFF0; /* Initialize segments */ for (i = 0; i < SOFT386_NUM_SEG_REGS; i++) { /* Set the selector, base and limit, other values don't apply in real mode */ State->SegmentRegs[i].Selector = 0; State->SegmentRegs[i].Base = 0; State->SegmentRegs[i].Limit = 0xFFFF; } /* Initialize the code segment */ State->SegmentRegs[SOFT386_REG_CS].Selector = 0xF000; State->SegmentRegs[SOFT386_REG_CS].Base = 0xFFFF0000; /* Initialize the IDT */ State->Idtr.Size = 0x3FF; State->Idtr.Address = 0; /* Initialize CR0 */ State->ControlRegisters[SOFT386_REG_CR0] |= SOFT386_CR0_ET; /* Restore the callbacks */ State->MemReadCallback = MemReadCallback; State->MemWriteCallback = MemWriteCallback; State->IoReadCallback = IoReadCallback; State->IoWriteCallback = IoWriteCallback; State->IdleCallback = IdleCallback; State->BopCallback = BopCallback; } VOID NTAPI Soft386Interrupt(PSOFT386_STATE State, UCHAR Number, BOOLEAN Hardware) { SOFT386_IDT_ENTRY IdtEntry; if (Hardware) { /* Set the hardware interrupt flag */ State->HardwareInt = TRUE; } if (!Soft386GetIntVector(State, Number, &IdtEntry)) { /* An exception occurred, let the handler execute */ return; } /* Perform the interrupt */ Soft386InterruptInternal(State, IdtEntry.Selector, MAKELONG(IdtEntry.Offset, IdtEntry.OffsetHigh), IdtEntry.Type); } VOID NTAPI Soft386ExecuteAt(PSOFT386_STATE State, USHORT Segment, ULONG Offset) { /* Load the new CS */ if (!Soft386LoadSegment(State, SOFT386_REG_CS, Segment)) { /* An exception occurred, let the handler execute instead */ return; } /* Set the new IP */ State->InstPtr.Long = Offset; } VOID NTAPI Soft386SetStack(PSOFT386_STATE State, USHORT Segment, ULONG Offset) { /* Load the new SS */ if (!Soft386LoadSegment(State, SOFT386_REG_SS, Segment)) { /* An exception occurred, let the handler execute instead */ return; } /* Set the new SP */ State->GeneralRegs[SOFT386_REG_ESP].Long = Offset; } VOID NTAPI Soft386SetSegment(PSOFT386_STATE State, SOFT386_SEG_REGS Segment, USHORT Selector) { /* Call the internal function */ Soft386LoadSegment(State, Segment, Selector); } /* EOF */