#ifdef SUPERMODEL_DEBUGGER #include "Turbo68KDebug.h" #include #include namespace Debugger { UINT32 GetSpecialReg(CCPUDebug *cpu, unsigned id) { switch (id) { case TBO68K_REG_SP: return (UINT32)turbo68kcontext_68000.a[7]; case TBO68K_REG_SR: return (UINT32)turbo68kcontext_68000.sr; default: return 0; } } bool SetSpecialReg(CCPUDebug *cpu, unsigned id, UINT32 data) { switch (id) { case TBO68K_REG_SP: turbo68kcontext_68000.a[7] = data; return true; case TBO68K_REG_SR: turbo68kcontext_68000.sr = data; return true; default: return false; } } UINT32 GetDataReg(CCPUDebug *cpu, unsigned id) { return (UINT32)turbo68kcontext_68000.d[id]; } bool SetDataReg(CCPUDebug *cpu, unsigned id, UINT32 data) { turbo68kcontext_68000.d[id] = data; return true; } UINT32 GetAddressReg(CCPUDebug *cpu, unsigned id) { return (UINT32)turbo68kcontext_68000.a[id]; } bool SetAddressReg(CCPUDebug *cpu, unsigned id, UINT32 data) { turbo68kcontext_68000.a[id] = data; return true; } static const char *srGroup = "Special Registers"; static const char *drGroup = "Data Registers"; static const char *arGroup = "Address Regsters"; CTurbo68KDebug::CTurbo68KDebug(const char *name) : C68KDebug(name), m_resetAddr(0) { // Special registers AddPCRegister ("PC", srGroup); AddAddrRegister ("SP", srGroup, TBO68K_REG_SP, GetSpecialReg, SetSpecialReg); AddStatus32Register("SR", srGroup, TBO68K_REG_SR, "TtSM.210...XNZVC", GetSpecialReg, SetSpecialReg); // Data registers for (unsigned id = 0; id < 8; id++) { sprintf(m_drNames[id], "D%u", id); AddInt32Register(m_drNames[id], drGroup, id, GetDataReg, SetDataReg); } // Address registers for (unsigned id = 0; id < 8; id++) { sprintf(m_arNames[id], "A%u", id); AddInt32Register(m_arNames[id], arGroup, id, GetAddressReg, SetAddressReg); } } CTurbo68KDebug::~CTurbo68KDebug() { DetachFromCPU(); } bool __cdecl DebugHandler(TURBO68K_INT32 pc, TURBO68K_INT32 opcode) { // Return true to let Turbo68K know if PC was changed by user return debug->CPUExecute((UINT32)pc, (UINT32)opcode, 1); // TODO - lastCycles } void __cdecl InterruptHandler(TURBO68K_UINT32 intVec) { // TODO - is following correct handling of interrupts? - need to check readme file if (intVec > 47) return; else if (intVec >= 25 || intVec < 32) { debug->CPUException(25); debug->CPUInterrupt((UINT16)intVec - 25); } else debug->CPUException((UINT16)intVec); if (origIntAckPtr != NULL) origIntAckPtr(intVec); } void CTurbo68KDebug::AttachToCPU() { if (debug != NULL) DetachFromCPU(); debug = this; origDebugPtr = (DebugPtr)turbo68kcontext_68000.Debug; origIntAckPtr = (IntAckPtr)turbo68kcontext_68000.InterruptAcknowledge; origRead8Regions = (TURBO68K_DATAREGION*)Turbo68KGetReadByte(TURBO68K_NULL); origRead16Regions = (TURBO68K_DATAREGION*)Turbo68KGetReadWord(TURBO68K_NULL); origRead32Regions = (TURBO68K_DATAREGION*)Turbo68KGetReadLong(TURBO68K_NULL); origWrite8Regions = (TURBO68K_DATAREGION*)Turbo68KGetWriteByte(TURBO68K_NULL); origWrite16Regions = (TURBO68K_DATAREGION*)Turbo68KGetWriteWord(TURBO68K_NULL); origWrite32Regions = (TURBO68K_DATAREGION*)Turbo68KGetWriteLong(TURBO68K_NULL); turbo68kcontext_68000.Debug = DebugHandler; turbo68kcontext_68000.InterruptAcknowledge = InterruptHandler; debugRead8Regions[0].handler = ReadByteDebug; debugRead16Regions[0].handler = ReadWordDebug; debugRead32Regions[0].handler = ReadLongDebug; debugWrite8Regions[0].handler = WriteByteDebug; debugWrite16Regions[0].handler = WriteWordDebug; debugWrite32Regions[0].handler = WriteLongDebug; Turbo68KSetReadByte(debugRead8Regions, TURBO68K_NULL); Turbo68KSetReadWord(debugRead16Regions, TURBO68K_NULL); Turbo68KSetReadLong(debugRead32Regions, TURBO68K_NULL); Turbo68KSetWriteByte(debugWrite8Regions, TURBO68K_NULL); Turbo68KSetWriteWord(debugWrite16Regions, TURBO68K_NULL); Turbo68KSetWriteLong(debugWrite32Regions, TURBO68K_NULL); // Reset address is held at 0x000004 m_resetAddr = ReadLongDirect(0x000004); } void CTurbo68KDebug::DetachFromCPU() { if (debug == NULL) return; turbo68kcontext_68000.Debug = origDebugPtr; turbo68kcontext_68000.InterruptAcknowledge = origIntAckPtr; Turbo68KSetReadByte(origRead8Regions, TURBO68K_NULL); Turbo68KSetReadWord(origRead16Regions, TURBO68K_NULL); Turbo68KSetReadLong(origRead32Regions, TURBO68K_NULL); Turbo68KSetWriteByte(origWrite8Regions, TURBO68K_NULL); Turbo68KSetWriteWord(origWrite16Regions, TURBO68K_NULL); Turbo68KSetWriteLong(origWrite32Regions, TURBO68K_NULL); debug = NULL; } UINT32 CTurbo68KDebug::GetResetAddr() { return m_resetAddr; } UINT32 CTurbo68KDebug::GetSP() { return (UINT32)turbo68kcontext_68000.a[7]; } bool CTurbo68KDebug::UpdatePC(UINT32 newPC) { turbo68kcontext_68000.pc = newPC; return true; } bool CTurbo68KDebug::ForceException(CException *ex) { //switch (ex->code) //{ // TODO //} return false; } bool CTurbo68KDebug::ForceInterrupt(CInterrupt *in) { if (in->code > 6) return false; //Turbo68KInterrupt(in->code, TURBO64K_AUTOVECTOR); //Turbo68KProcessInterrupts(); TODO - call this? return false; // TODO } UINT64 CTurbo68KDebug::ReadMem(UINT32 addr, unsigned dataSize) { switch (dataSize) { case 1: return ReadByteDirect(addr); case 2: return ReadWordDirect(addr); case 4: return ReadLongDirect(addr); default: return CCPUDebug::ReadMem(addr, dataSize); } } bool CTurbo68KDebug::WriteMem(UINT32 addr, unsigned dataSize, UINT64 data) { switch (dataSize) { case 1: WriteByteDirect(addr, (TURBO68K_UINT8)data); return true; case 2: WriteWordDirect(addr, (TURBO68K_UINT16)data); return true; case 4: WriteLongDirect(addr, (TURBO68K_UINT32)data); return true; default: return CCPUDebug::WriteMem(addr, dataSize, data); } } TURBO68K_UINT8 __cdecl ReadByteDebug(TURBO68K_UINT32 addr) { TURBO68K_UINT8 data = ReadByteDirect(addr); debug->CheckRead8((UINT32)addr, (UINT8)data); return data; } TURBO68K_UINT16 __cdecl ReadWordDebug(TURBO68K_UINT32 addr) { TURBO68K_UINT16 data = ReadWordDirect(addr); debug->CheckRead16((UINT32)addr, (UINT16)data); return data; } TURBO68K_UINT32 __cdecl ReadLongDebug(TURBO68K_UINT32 addr) { TURBO68K_UINT32 data = ReadLongDirect(addr); debug->CheckRead32((UINT32)addr, (UINT32)data); return data; } void __cdecl WriteByteDebug(TURBO68K_UINT32 addr, TURBO68K_UINT8 data) { WriteByteDirect(addr, data); debug->CheckWrite8((UINT32)addr, (UINT8)data); } void __cdecl WriteWordDebug(TURBO68K_UINT32 addr, TURBO68K_UINT16 data) { WriteWordDirect(addr, data); debug->CheckWrite16((UINT32)addr, (UINT16)data); } void __cdecl WriteLongDebug(TURBO68K_UINT32 addr, TURBO68K_UINT32 data) { WriteLongDirect(addr, data); debug->CheckWrite32((UINT32)addr, (UINT32)data); } } #endif // SUPERMODEL_DEBUGGER