AppleWin/source/Disk.h

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#pragma once
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/*
AppleWin : An Apple //e emulator for Windows
Copyright (C) 1994-1996, Michael O'Brien
Copyright (C) 1999-2001, Oliver Schmidt
Copyright (C) 2002-2005, Tom Charlesworth
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Copyright (C) 2006-2019, Tom Charlesworth, Michael Pohoreski, Nick Westgate
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AppleWin 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.
AppleWin 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 AppleWin; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "Card.h"
#include "DiskLog.h"
#include "DiskFormatTrack.h"
#include "DiskImage.h"
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enum Drive_e
{
DRIVE_1 = 0,
DRIVE_2,
NUM_DRIVES
};
const bool IMAGE_USE_FILES_WRITE_PROTECT_STATUS = false;
const bool IMAGE_FORCE_WRITE_PROTECTED = true;
const bool IMAGE_DONT_CREATE = false;
const bool IMAGE_CREATE = true;
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class FloppyDisk
{
public:
FloppyDisk()
{
clear();
}
~FloppyDisk(){}
void clear()
{
m_imagename.clear();
m_fullname.clear();
m_strFilenameInZip.clear();
m_imagehandle = NULL;
m_bWriteProtected = false;
//
m_byte = 0;
m_nibbles = 0;
m_bitOffset = 0;
m_bitCount = 0;
m_bitMask = 1 << 7;
m_extraCycles = 0.0;
m_trackimage = NULL;
m_trackimagedata = false;
m_trackimagedirty = false;
}
public:
std::string m_imagename; // <FILENAME> (ie. no extension)
std::string m_fullname; // <FILENAME.EXT> or <FILENAME.zip> : This is persisted to the snapshot file
std::string m_strFilenameInZip; // "" or <FILENAME.EXT>
ImageInfo* m_imagehandle; // Init'd by InsertDisk() -> ImageOpen()
bool m_bWriteProtected;
int m_byte; // byte offset
int m_nibbles; // # nibbles in track / Init'd by ReadTrack() -> ImageReadTrack()
UINT m_bitOffset; // bit offset
UINT m_bitCount; // # bits in track
BYTE m_bitMask;
double m_extraCycles;
LPBYTE m_trackimage;
bool m_trackimagedata;
bool m_trackimagedirty;
};
class FloppyDrive
{
public:
FloppyDrive()
{
clear();
}
~FloppyDrive(){}
void clear()
{
m_isConnected = true;
m_phasePrecise = 0;
m_phase = 0;
m_lastStepperCycle = 0;
m_motorOnCycle = 0;
m_headWindow = 0;
m_spinning = 0;
m_writelight = 0;
m_disk.clear();
}
public:
bool m_isConnected;
float m_phasePrecise; // Phase precise to half a phase (aka quarter track)
int m_phase; // Integral phase number
unsigned __int64 m_lastStepperCycle;
unsigned __int64 m_motorOnCycle;
BYTE m_headWindow;
DWORD m_spinning;
DWORD m_writelight;
FloppyDisk m_disk;
};
class Disk2InterfaceCard : public Card
{
public:
Disk2InterfaceCard(UINT slot);
virtual ~Disk2InterfaceCard(void);
virtual void Init(void) {};
virtual void Reset(const bool powerCycle);
void Initialize(LPBYTE pCxRomPeripheral, UINT uSlot);
void Destroy(void); // no, doesn't "destroy" the disk image. DiskIIManagerShutdown()
void Boot(void);
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void FlushCurrentTrack(const int drive);
const std::string & GetFullDiskFilename(const int drive);
const std::string & GetFullName(const int drive);
const std::string & GetBaseName(const int drive);
void GetFilenameAndPathForSaveState(std::string& filename, std::string& path);
void GetLightStatus (Disk_Status_e* pDisk1Status, Disk_Status_e* pDisk2Status);
ImageError_e InsertDisk(const int drive, const std::string& pathname, const bool bForceWriteProtected, const bool bCreateIfNecessary);
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void EjectDisk(const int drive);
void UnplugDrive(const int drive);
bool IsConditionForFullSpeed(void);
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void NotifyInvalidImage(const int drive, LPCTSTR pszImageFilename, const ImageError_e Error);
bool GetProtect(const int drive);
void SetProtect(const int drive, const bool bWriteProtect);
UINT GetCurrentFirmware(void) { return m_is13SectorFirmware ? 13 : 16; }
int GetCurrentDrive(void);
int GetCurrentTrack(void);
float GetCurrentPhase(void);
int GetCurrentOffset(void);
BYTE GetCurrentLSSBitMask(void);
double GetCurrentExtraCycles(void);
int GetTrack(const int drive);
std::string GetCurrentTrackString(void);
std::string GetCurrentPhaseString(void);
LPCTSTR GetCurrentState(void);
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bool UserSelectNewDiskImage(const int drive, LPCSTR pszFilename="");
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void UpdateDriveState(DWORD cycles);
bool DriveSwap(void);
bool IsDriveConnected(int drive) { return m_floppyDrive[drive].m_isConnected; }
static std::string GetSnapshotCardName(void);
void SaveSnapshot(class YamlSaveHelper& yamlSaveHelper);
bool LoadSnapshot(class YamlLoadHelper& yamlLoadHelper, UINT slot, UINT version);
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void LoadLastDiskImage(const int drive);
void SaveLastDiskImage(const int drive);
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bool IsDiskImageWriteProtected(const int drive);
bool IsDriveEmpty(const int drive);
bool GetEnhanceDisk(void);
void SetEnhanceDisk(bool bEnhanceDisk);
static BYTE __stdcall IORead(WORD pc, WORD addr, BYTE bWrite, BYTE d, ULONG nExecutedCycles);
static BYTE __stdcall IOWrite(WORD pc, WORD addr, BYTE bWrite, BYTE d, ULONG nExecutedCycles);
private:
void ResetSwitches(void);
void CheckSpinning(const bool stateChanged, const ULONG uExecutedCycles);
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Disk_Status_e GetDriveLightStatus(const int drive);
bool IsDriveValid(const int drive);
void EjectDiskInternal(const int drive);
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void AllocTrack(const int drive, const UINT minSize=NIBBLES_PER_TRACK);
void ReadTrack(const int drive, ULONG uExecutedCycles);
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void WriteTrack(const int drive);
const std::string & DiskGetFullPathName(const int drive);
void ResetLogicStateSequencer(void);
UINT GetBitCellDelta(const ULONG uExecutedCycles);
void UpdateBitStreamPosition(FloppyDisk& floppy, const ULONG bitCellDelta);
void UpdateBitStreamOffsets(FloppyDisk& floppy);
__forceinline void IncBitStream(FloppyDisk& floppy);
void DataLatchReadWOZ(WORD pc, WORD addr, UINT bitCellRemainder);
void DataLoadWriteWOZ(WORD pc, WORD addr, UINT bitCellRemainder);
void DataShiftWriteWOZ(WORD pc, WORD addr, ULONG uExecutedCycles);
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void SetSequencerFunction(WORD addr);
void DumpSectorWOZ(FloppyDisk floppy);
void DumpTrackWOZ(FloppyDisk floppy);
bool GetFirmware(WORD lpNameId, BYTE* pDst);
void InitFirmware(LPBYTE pCxRomPeripheral);
void UpdateLatchForEmptyDrive(FloppyDrive* pDrive);
void PreJitterCheck(int phase, BYTE latch);
void AddJitter(int phase, FloppyDisk& floppy);
void SaveSnapshotFloppy(YamlSaveHelper& yamlSaveHelper, UINT unit);
void SaveSnapshotDriveUnit(YamlSaveHelper& yamlSaveHelper, UINT unit);
bool LoadSnapshotFloppy(YamlLoadHelper& yamlLoadHelper, UINT unit, UINT version, std::vector<BYTE>& track);
bool LoadSnapshotDriveUnitv3(YamlLoadHelper& yamlLoadHelper, UINT unit, UINT version, std::vector<BYTE>& track);
bool LoadSnapshotDriveUnitv4(YamlLoadHelper& yamlLoadHelper, UINT unit, UINT version, std::vector<BYTE>& track);
void LoadSnapshotDriveUnit(YamlLoadHelper& yamlLoadHelper, UINT unit, UINT version);
void __stdcall ControlStepper(WORD, WORD address, BYTE, BYTE, ULONG uExecutedCycles);
void __stdcall ControlMotor(WORD, WORD address, BYTE, BYTE, ULONG uExecutedCycles);
void __stdcall Enable(WORD, WORD address, BYTE, BYTE, ULONG uExecutedCycles);
void __stdcall ReadWrite(WORD pc, WORD addr, BYTE bWrite, BYTE d, ULONG uExecutedCycles);
void __stdcall DataLatchReadWriteWOZ(WORD pc, WORD addr, BYTE bWrite, ULONG uExecutedCycles);
void __stdcall LoadWriteProtect(WORD, WORD, BYTE write, BYTE value, ULONG);
void __stdcall SetReadMode(WORD, WORD, BYTE, BYTE, ULONG);
void __stdcall SetWriteMode(WORD, WORD, BYTE, BYTE, ULONG uExecutedCycles);
#if LOG_DISK_NIBBLES_WRITE
bool LogWriteCheckSyncFF(ULONG& uCycleDelta);
#endif
//
static const UINT DISK2_FW_SIZE = 256;
BYTE m_13SectorFirmware[DISK2_FW_SIZE];
BYTE m_16SectorFirmware[DISK2_FW_SIZE];
bool m_is13SectorFirmware;
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WORD m_currDrive;
FloppyDrive m_floppyDrive[NUM_DRIVES];
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BYTE m_floppyLatch;
BOOL m_floppyMotorOn;
// Although the magnets are a property of the drive, their state is a property of the controller card,
// since the magnets will only be on for whichever of the 2 drives is currently selected.
WORD m_magnetStates; // state bits for stepper motor magnet states (phases 0 - 3)
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bool m_saveDiskImage;
UINT m_slot;
unsigned __int64 m_diskLastCycle;
unsigned __int64 m_diskLastReadLatchCycle;
FormatTrack m_formatTrack;
bool m_enhanceDisk;
static const UINT SPINNING_CYCLES = 1000*1000; // 1M cycles = ~1.000s
static const UINT WRITELIGHT_CYCLES = 1000*1000; // 1M cycles = ~1.000s
static const UINT MOTOR_ON_UNTIL_LSS_STABLE_CYCLES = 0x2EC; // ~0x2EC-0x990 cycles (depending on card). See GH#864
// Logic State Sequencer (for WOZ):
BYTE m_shiftReg;
int m_latchDelay;
bool m_resetSequencer;
bool m_writeStarted;
enum SEQFUNC {readSequencing=0, dataShiftWrite, checkWriteProtAndInitWrite, dataLoadWrite}; // UTAIIe 9-14
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union SEQUENCER_FUNCTION
{
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struct
{
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UINT writeMode : 1; // $C08E/F,X
UINT loadMode : 1; // $C08C/D,X
};
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SEQFUNC function;
};
SEQUENCER_FUNCTION m_seqFunc;
UINT m_dbgLatchDelayedCnt;
// Jitter (GH#930)
static const BYTE m_T00S00Pattern[];
UINT m_T00S00PatternIdx;
bool m_foundT00S00Pattern;
// Debug:
#if LOG_DISK_NIBBLES_USE_RUNTIME_VAR
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bool m_bLogDisk_NibblesRW; // From VS Debugger, change this to true/false during runtime for precise nibble logging
#endif
#if LOG_DISK_NIBBLES_WRITE
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UINT64 m_uWriteLastCycle;
UINT m_uSyncFFCount;
#endif
};