Merge remote-tracking branch 'upstream/master'

This commit is contained in:
Sijmen 2021-01-18 15:57:26 +01:00
commit b57194a35b
Signed by: vijfhoek
GPG key ID: DAF7821E067D9C48
11 changed files with 149 additions and 103 deletions

View file

@ -42,7 +42,7 @@ extern u32 HashBuffer(const void* pBuffer, u32 length);
#define DIRECTRY_ENTRY_FILE_TYPE_PRG 0x82 #define DIRECTRY_ENTRY_FILE_TYPE_PRG 0x82
static u8 blankD64DIRBAM[] = static const u8 blankD64DIRBAM[] =
{ {
0x12, 0x01, 0x41, 0x00, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x12, 0x01, 0x41, 0x00, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f,
0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f, 0x15, 0xff, 0xff, 0x1f,
@ -76,6 +76,11 @@ static const unsigned MAX_D64_SIZE = 0x32200 + 768;
static const unsigned MAX_D71_SIZE = 0x55600 + 1366; static const unsigned MAX_D71_SIZE = 0x55600 + 1366;
static const unsigned MAX_D81_SIZE = 822400; static const unsigned MAX_D81_SIZE = 822400;
static const unsigned short GCR_SYNC_LENGTH = 5;
static const unsigned short GCR_HEADER_LENGTH = 10;
static const unsigned short GCR_HEADER_GAP_LENGTH = 9;
static const unsigned short GCR_SECTOR_DATA_LENGTH = 325;
// CRC-16-CCITT // CRC-16-CCITT
// CRC(x) = x^16 + x^12 + x^5 + x^0 // CRC(x) = x^16 + x^12 + x^5 + x^0
unsigned short DiskImage::CRC1021[256] = unsigned short DiskImage::CRC1021[256] =
@ -98,6 +103,11 @@ unsigned short DiskImage::CRC1021[256] =
0xef1f,0xff3e,0xcf5d,0xdf7c,0xaf9b,0xbfba,0x8fd9,0x9ff8,0x6e17,0x7e36,0x4e55,0x5e74,0x2e93,0x3eb2,0x0ed1,0x1ef0 0xef1f,0xff3e,0xcf5d,0xdf7c,0xaf9b,0xbfba,0x8fd9,0x9ff8,0x6e17,0x7e36,0x4e55,0x5e74,0x2e93,0x3eb2,0x0ed1,0x1ef0
}; };
static const unsigned trackSize[4] = { 6250, 6666, 7142, 7692 };
static const unsigned sectorsPerTrack[4] = { 17, 18, 19, 21 };
static const unsigned gapSize[4] = { 9, 12, 17, 8 };
void DiskImage::CRC(unsigned short& runningCRC, unsigned char data) void DiskImage::CRC(unsigned short& runningCRC, unsigned char data)
{ {
runningCRC = CRC1021[(runningCRC >> 8) ^ data] ^ (runningCRC << 8); runningCRC = CRC1021[(runningCRC >> 8) ^ data] ^ (runningCRC << 8);
@ -119,21 +129,16 @@ void DiskImage::OutputD81DataByte(unsigned char*& src, unsigned char*& dest)
CRC(crc, data); CRC(crc, data);
} }
unsigned DiskImage::SectorsPerTrackD64(unsigned track)
{
return sectorsPerTrack[GetSpeedZoneIndexD64(track)];
}
#define NIB_HEADER_SIZE 0xFF #define NIB_HEADER_SIZE 0xFF
int gap_match_length = 7; // Used by gcr.cpp int gap_match_length = 7; // Used by gcr.cpp
const unsigned char DiskImage::SectorsPerTrack[42] =
{
21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, // 1 - 17
19, 19, 19, 19, 19, 19, 19, // 18 - 24
18, 18, 18, 18, 18, 18, // 25 - 30
17, 17, 17, 17, 17, 17, 17, 17, 17, 17, // 31 - 40
17, 17 // 41 - 42
// total 683-768 sectors
};
DiskImage::DiskImage() DiskImage::DiskImage()
: readOnly(false) : readOnly(false)
, dirty(false) , dirty(false)
@ -208,6 +213,9 @@ bool DiskImage::OpenD64(const FILINFO* fileInfo, unsigned char* diskImage, unsig
unsigned char errorinfo[MAXBLOCKSONDISK]; unsigned char errorinfo[MAXBLOCKSONDISK];
unsigned last_track; unsigned last_track;
unsigned sector_ref; unsigned sector_ref;
unsigned sectors;
unsigned speedZoneIndex;
unsigned sectorSize;
unsigned char error; unsigned char error;
Close(); Close();
@ -254,7 +262,7 @@ bool DiskImage::OpenD64(const FILINFO* fileInfo, unsigned char* diskImage, unsig
unsigned char* dest = tracks[halfTrackIndex]; unsigned char* dest = tracks[halfTrackIndex];
#endif #endif
trackLengths[halfTrackIndex] = SectorsPerTrack[track] * GCR_SECTOR_LENGTH; trackLengths[halfTrackIndex] = trackSize[GetSpeedZoneIndexD64(track)];
if ((halfTrackIndex & 1) == 0) if ((halfTrackIndex & 1) == 0)
{ {
@ -262,13 +270,15 @@ bool DiskImage::OpenD64(const FILINFO* fileInfo, unsigned char* diskImage, unsig
{ {
trackUsed[halfTrackIndex] = true; trackUsed[halfTrackIndex] = true;
//DEBUG_LOG("Track %d used\r\n", halfTrackIndex); //DEBUG_LOG("Track %d used\r\n", halfTrackIndex);
for (unsigned sectorNo = 0; sectorNo < SectorsPerTrack[track]; ++sectorNo) speedZoneIndex = GetSpeedZoneIndexD64(track);
sectors = sectorsPerTrack[speedZoneIndex];
sectorSize = GCR_SYNC_LENGTH + GCR_HEADER_LENGTH + GCR_HEADER_GAP_LENGTH + GCR_SYNC_LENGTH + GCR_SECTOR_DATA_LENGTH + gapSize[speedZoneIndex];
for (unsigned sectorNo = 0; sectorNo < sectors; ++sectorNo)
{ {
error = errorinfo[sector_ref++]; error = errorinfo[sector_ref++];
convert_sector_to_GCR(diskImage + offset, dest, track + 1, sectorNo, diskImage + 0x165A2, error, sectorSize);
convert_sector_to_GCR(diskImage + offset, dest, track + 1, sectorNo, diskImage + 0x165A2, error); dest += sectorSize;
dest += 361;
offset += SECTOR_LENGTH; offset += SECTOR_LENGTH;
} }
} }
@ -291,9 +301,17 @@ bool DiskImage::OpenD64(const FILINFO* fileInfo, unsigned char* diskImage, unsig
bool DiskImage::WriteD64(char* name) bool DiskImage::WriteD64(char* name)
{ {
BYTE id[3];
if (readOnly) if (readOnly)
return true; return true;
if (!GetID(34, id))
{
DEBUG_LOG("Cannot find directory sector.\r\n");
return false;
}
FIL fp; FIL fp;
FRESULT res = f_open(&fp, fileInfo ? fileInfo->fname : name, FA_CREATE_ALWAYS | FA_WRITE); FRESULT res = f_open(&fp, fileInfo ? fileInfo->fname : name, FA_CREATE_ALWAYS | FA_WRITE);
if (res == FR_OK) if (res == FR_OK)
@ -301,8 +319,7 @@ bool DiskImage::WriteD64(char* name)
u32 bytesToWrite; u32 bytesToWrite;
u32 bytesWritten; u32 bytesWritten;
int track, sector; unsigned track, sector, sectors;
BYTE id[3];
BYTE d64data[MAXBLOCKSONDISK * 256], *d64ptr; BYTE d64data[MAXBLOCKSONDISK * 256], *d64ptr;
int blocks_to_save = 0; int blocks_to_save = 0;
@ -310,11 +327,6 @@ bool DiskImage::WriteD64(char* name)
memset(d64data, 0, sizeof(d64data)); memset(d64data, 0, sizeof(d64data));
if (!GetID(34, id))
{
DEBUG_LOG("Cannot find directory sector.\r\n");
return false;
}
d64ptr = d64data; d64ptr = d64data;
for (track = 0; track < HALF_TRACK_COUNT; track += 2) for (track = 0; track < HALF_TRACK_COUNT; track += 2)
{ {
@ -322,7 +334,8 @@ bool DiskImage::WriteD64(char* name)
{ {
//printf("Track %d\r\n", track); //printf("Track %d\r\n", track);
for (sector = 0; sector < SectorsPerTrack[track / 2]; sector++) sectors = sectorsPerTrack[GetSpeedZoneIndexD64(track >> 1)];
for (sector = 0; sector < sectors; sector++)
{ {
ConvertSector(track, sector, d64ptr); ConvertSector(track, sector, d64ptr);
d64ptr += 256; d64ptr += 256;
@ -369,6 +382,14 @@ void DiskImage::CloseD64()
bool DiskImage::OpenD71(const FILINFO* fileInfo, unsigned char* diskImage, unsigned size) bool DiskImage::OpenD71(const FILINFO* fileInfo, unsigned char* diskImage, unsigned size)
{ {
unsigned char errorinfo[MAXBLOCKSONDISK * 2];
unsigned last_track;
unsigned sector_ref;
unsigned sectors;
unsigned speedZoneIndex;
unsigned sectorSize;
unsigned char error;
Close(); Close();
this->fileInfo = fileInfo; this->fileInfo = fileInfo;
@ -380,43 +401,67 @@ bool DiskImage::OpenD71(const FILINFO* fileInfo, unsigned char* diskImage, unsig
attachedImageSize = size; attachedImageSize = size;
for (unsigned headIndex = 0; headIndex < 2; ++headIndex) memset(errorinfo, SECTOR_OK, sizeof(errorinfo));
switch (size)
{ {
for (unsigned halfTrackIndex = 0; halfTrackIndex < D71_HALF_TRACK_COUNT; ++halfTrackIndex) case (BLOCKSONDISK * 2 * 257): // 70 track image with errorinfo
memcpy(errorinfo, diskImage + (BLOCKSONDISK * 2 * 256), BLOCKSONDISK * 2);
/* FALLTHROUGH */
case (BLOCKSONDISK * 2 * 256): // 70 track image w/o errorinfo
last_track = 70;
break;
//case (MAXBLOCKSONDISK * 2 * 257): // 80 track image with errorinfo
// memcpy(errorinfo, diskImage + (MAXBLOCKSONDISK * 2 * 256), MAXBLOCKSONDISK * 2);
// /* FALLTHROUGH */
//case (MAXBLOCKSONDISK * 2 * 256): // 40 track image w/o errorinfo
// last_track = 80;
// break;
default: // non-standard images, attempt to load anyway
last_track = MAX_TRACK_D64 * 2;
break;
}
sector_ref = 0;
for (unsigned halfTrackIndex = 0; halfTrackIndex < last_track * 2; ++halfTrackIndex)
{
unsigned char track = (halfTrackIndex >> 1);
#if defined(EXPERIMENTALZERO)
unsigned char* dest = &tracks[halfTrackIndex << 13];
#else
unsigned char* dest = tracks[halfTrackIndex];
#endif
trackLengths[halfTrackIndex] = trackSize[GetSpeedZoneIndexD64(track)];
if ((halfTrackIndex & 1) == 0)
{ {
unsigned char track = (halfTrackIndex >> 1); if (offset < size)
unsigned char* dest = tracksD81[halfTrackIndex][headIndex];
trackLengths[halfTrackIndex] = SectorsPerTrack[track] * GCR_SECTOR_LENGTH;
if ((halfTrackIndex & 1) == 0)
{ {
if (offset < size) // This will allow for >35 tracks. trackUsed[halfTrackIndex] = true;
speedZoneIndex = GetSpeedZoneIndexD64(track);
sectors = sectorsPerTrack[speedZoneIndex];
sectorSize = GCR_SYNC_LENGTH + GCR_HEADER_LENGTH + GCR_HEADER_GAP_LENGTH + GCR_SYNC_LENGTH + GCR_SECTOR_DATA_LENGTH + gapSize[speedZoneIndex];
for (unsigned sectorNo = 0; sectorNo < sectors; ++sectorNo)
{ {
trackUsed[halfTrackIndex] = true; error = errorinfo[sector_ref++];
//DEBUG_LOG("Track %d used\r\n", halfTrackIndex); convert_sector_to_GCR(diskImage + offset, dest, track + 1, sectorNo, diskImage + 0x165A2, error, sectorSize);
for (unsigned sectorNo = 0; sectorNo < SectorsPerTrack[track]; ++sectorNo) dest += sectorSize;
{ offset += SECTOR_LENGTH;
convert_sector_to_GCR(diskImage + offset, dest, track + 1, sectorNo, diskImage + 0x165A2, 0);
dest += 361;
offset += SECTOR_LENGTH;
}
}
else
{
trackUsed[halfTrackIndex] = false;
//DEBUG_LOG("Track %d not used\r\n", halfTrackIndex);
} }
} }
else else
{ {
trackUsed[halfTrackIndex] = false; trackUsed[halfTrackIndex] = false;
//DEBUG_LOG("Track %d not used\r\n", halfTrackIndex);
} }
} }
else
{
trackUsed[halfTrackIndex] = false;
}
} }
diskType = D71; diskType = D71;
return true; return true;
} }
@ -1659,7 +1704,7 @@ int DiskImage::RAMD64GetSectorOffset(int track, int sector)
for (index = 0; index < (track - 1); ++index) for (index = 0; index < (track - 1); ++index)
{ {
sectorOffset += SectorsPerTrack[index]; sectorOffset += sectorsPerTrack[GetSpeedZoneIndexD64(index)];
} }
sectorOffset += sector; sectorOffset += sector;
return sectorOffset; return sectorOffset;
@ -1807,8 +1852,9 @@ bool DiskImage::RAMD64FindFreeSector(bool searchForwards, unsigned char* ramD64,
{ {
unsigned char* ptr; unsigned char* ptr;
int sectorOffset = RAMD64GetSectorOffset(18, 0); int sectorOffset = RAMD64GetSectorOffset(18, 0);
int trackIndex; unsigned trackIndex;
int sectorIndex; unsigned sectorIndex;
unsigned sectors;
int stripAmount = 10; int stripAmount = 10;
track = 0; track = 0;
@ -1822,7 +1868,7 @@ bool DiskImage::RAMD64FindFreeSector(bool searchForwards, unsigned char* ramD64,
for (; trackIndex < 35; ++trackIndex) for (; trackIndex < 35; ++trackIndex)
{ {
if (lastTrackUsed != (trackIndex + 1)) if ((unsigned)lastTrackUsed != (trackIndex + 1))
{ {
lastSectorUsed = 0; lastSectorUsed = 0;
stripAmount = 0; stripAmount = 0;
@ -1835,9 +1881,10 @@ bool DiskImage::RAMD64FindFreeSector(bool searchForwards, unsigned char* ramD64,
ptr = 4 + ramD64 + sectorOffset * 256 + 4 * trackIndex; ptr = 4 + ramD64 + sectorOffset * 256 + 4 * trackIndex;
if (*ptr != 0) if (*ptr != 0)
{ {
for (sectorIndex = 0; sectorIndex < SectorsPerTrack[trackIndex]; ++sectorIndex) sectors = sectorsPerTrack[GetSpeedZoneIndexD64(trackIndex)];
for (sectorIndex = 0; sectorIndex < sectors; ++sectorIndex)
{ {
int sectorStripped = (sectorIndex + lastSectorUsed + stripAmount) % SectorsPerTrack[trackIndex]; int sectorStripped = (sectorIndex + lastSectorUsed + stripAmount) % sectors;
if (RAMD64AllocateSector(ramD64, trackIndex + 1, sectorStripped)) if (RAMD64AllocateSector(ramD64, trackIndex + 1, sectorStripped))
{ {
track = trackIndex + 1; track = trackIndex + 1;
@ -1856,7 +1903,7 @@ bool DiskImage::RAMD64FindFreeSector(bool searchForwards, unsigned char* ramD64,
trackIndex = lastTrackUsed - 1; trackIndex = lastTrackUsed - 1;
for (; trackIndex >= 0; --trackIndex) for (; trackIndex >= 0; --trackIndex)
{ {
if (lastTrackUsed != (trackIndex + 1)) if ((unsigned)lastTrackUsed != (trackIndex + 1))
{ {
lastSectorUsed = 0; lastSectorUsed = 0;
stripAmount = 0; stripAmount = 0;
@ -1870,9 +1917,10 @@ bool DiskImage::RAMD64FindFreeSector(bool searchForwards, unsigned char* ramD64,
ptr = 4 + ramD64 + sectorOffset * 256 + 4 * trackIndex; ptr = 4 + ramD64 + sectorOffset * 256 + 4 * trackIndex;
if (*ptr != 0) if (*ptr != 0)
{ {
for (sectorIndex = 0; sectorIndex < SectorsPerTrack[trackIndex]; ++sectorIndex) sectors = sectorsPerTrack[GetSpeedZoneIndexD64(trackIndex)];
for (sectorIndex = 0; sectorIndex < sectors; ++sectorIndex)
{ {
int sectorStripped = (sectorIndex + lastSectorUsed + stripAmount) % SectorsPerTrack[trackIndex]; int sectorStripped = (sectorIndex + lastSectorUsed + stripAmount) % sectors;
if (RAMD64AllocateSector(ramD64, trackIndex + 1, sectorStripped)) if (RAMD64AllocateSector(ramD64, trackIndex + 1, sectorStripped))
{ {

View file

@ -36,14 +36,7 @@
#define DIR_ENTRY_NAME_LENGTH 18-2 #define DIR_ENTRY_NAME_LENGTH 18-2
static const unsigned char HALF_TRACK_COUNT = 84; static const unsigned char HALF_TRACK_COUNT = 84;
static const unsigned char D71_HALF_TRACK_COUNT = 70;
static const unsigned char D81_TRACK_COUNT = 80; static const unsigned char D81_TRACK_COUNT = 80;
static const unsigned short GCR_SYNC_LENGTH = 5;
static const unsigned short GCR_HEADER_LENGTH = 10;
static const unsigned short GCR_HEADER_GAP_LENGTH = 8;
static const unsigned short GCR_SECTOR_DATA_LENGTH = 325;
static const unsigned short GCR_SECTOR_GAP_LENGTH = 8;
static const unsigned short GCR_SECTOR_LENGTH = GCR_SYNC_LENGTH + GCR_HEADER_LENGTH + GCR_HEADER_GAP_LENGTH + GCR_SYNC_LENGTH + GCR_SECTOR_DATA_LENGTH + GCR_SECTOR_GAP_LENGTH; //361
static const unsigned short G64_MAX_TRACK_LENGTH = 7928; static const unsigned short G64_MAX_TRACK_LENGTH = 7928;
@ -209,6 +202,13 @@ public:
unsigned GetHash() const { return hash; } unsigned GetHash() const { return hash; }
inline static unsigned GetSpeedZoneIndexD64(unsigned track)
{
return (track < 30) + (track < 24) + (track < 17);
}
static unsigned SectorsPerTrackD64(unsigned track);
private: private:
void CloseD64(); void CloseD64();
void CloseG64(); void CloseG64();

View file

@ -125,7 +125,7 @@ private:
void DumpTrack(unsigned track); // Used for debugging disk images. void DumpTrack(unsigned track); // Used for debugging disk images.
#if defined(EXPERIMENTALZERO) #if defined(EXPERIMENTALZERO)
inline u32 AdvanceSectorPositionR(int& byteOffset) inline u32 AdvanceSectorPosition(int& byteOffset)
{ {
if (++headBitOffset == bitsInTrack) if (++headBitOffset == bitsInTrack)
headBitOffset = 0; headBitOffset = 0;
@ -133,28 +133,20 @@ private:
return (~headBitOffset) & 7; return (~headBitOffset) & 7;
} }
#else #else
// No reason why I seperate these into individual read and write versions. I was just trying to get the bit stream to line up when rewriting over existing data. inline u32 AdvanceSectorPosition(int& byteOffset)
inline u32 AdvanceSectorPositionR(int& byteOffset)
{ {
++headBitOffset %= bitsInTrack; ++headBitOffset %= bitsInTrack;
byteOffset = headBitOffset >> 3; byteOffset = headBitOffset >> 3;
return (~headBitOffset) & 7; return (~headBitOffset) & 7;
} }
#endif #endif
inline u32 AdvanceSectorPositionW(int& byteOffset)
{
byteOffset = headBitOffset >> 3;
u32 bit = (~headBitOffset) & 7;
++headBitOffset %= bitsInTrack;
return bit;
}
unsigned cachedheadTrackPos = -1; unsigned cachedheadTrackPos = -1;
int cachedbyteOffset = -1; int cachedbyteOffset = -1;
unsigned char cachedByte = 0; unsigned char cachedByte = 0;
inline bool GetNextBit() inline bool GetNextBit()
{ {
int byteOffset; int byteOffset;
int bit = AdvanceSectorPositionR(byteOffset); int bit = AdvanceSectorPosition(byteOffset);
//Why is it faster to check both conditions here than to update the cache when moving the head? //Why is it faster to check both conditions here than to update the cache when moving the head?
if (byteOffset != cachedbyteOffset || cachedheadTrackPos != headTrackPos) if (byteOffset != cachedbyteOffset || cachedheadTrackPos != headTrackPos)
@ -171,7 +163,7 @@ private:
inline void SetNextBit(bool value) inline void SetNextBit(bool value)
{ {
int byteOffset; int byteOffset;
int bit = AdvanceSectorPositionW(byteOffset); int bit = AdvanceSectorPosition(byteOffset);
diskImage->SetBit(headTrackPos, byteOffset, bit, value); diskImage->SetBit(headTrackPos, byteOffset, bit, value);
} }

View file

@ -1615,7 +1615,7 @@ void FileBrowser::DisplayDiskInfo(DiskImage* diskImage, const char* filenameForI
blocksFree += buffer[bamOffset + bamTrack * BAM_ENTRY_SIZE]; blocksFree += buffer[bamOffset + bamTrack * BAM_ENTRY_SIZE];
y_px = 0; y_px = 0;
for (int bit = 0; bit < DiskImage::SectorsPerTrack[bamTrack]; bit++) for (u32 bit = 0; bit < DiskImage::SectorsPerTrackD64(bamTrack); bit++)
{ {
u32 bits = buffer[bamOffset + 1 + (bit >> 3) + bamTrack * BAM_ENTRY_SIZE]; u32 bits = buffer[bamOffset + 1 + (bit >> 3) + bamTrack * BAM_ENTRY_SIZE];

View file

@ -34,6 +34,12 @@ unsigned InputMappings::directDiskSwapRequest = 0;
//volatile unsigned InputMappings::uartFlags = 0; //volatile unsigned InputMappings::uartFlags = 0;
//unsigned InputMappings::escapeSequenceIndex = 0; //unsigned InputMappings::escapeSequenceIndex = 0;
u8 InputMappings::INPUT_BUTTON_ENTER = 0;
u8 InputMappings::INPUT_BUTTON_UP = 1;
u8 InputMappings::INPUT_BUTTON_DOWN = 2;
u8 InputMappings::INPUT_BUTTON_BACK = 3;
u8 InputMappings::INPUT_BUTTON_INSERT = 4;
InputMappings::InputMappings() InputMappings::InputMappings()
: keyboardBrowseLCDScreen(false) : keyboardBrowseLCDScreen(false)
, insertButtonPressedPrev(false) , insertButtonPressedPrev(false)

View file

@ -86,11 +86,11 @@ public:
void WaitForClearButtons(); void WaitForClearButtons();
u8 INPUT_BUTTON_ENTER = 0; static u8 INPUT_BUTTON_ENTER;
u8 INPUT_BUTTON_UP = 1; static u8 INPUT_BUTTON_UP;
u8 INPUT_BUTTON_DOWN = 2; static u8 INPUT_BUTTON_DOWN;
u8 INPUT_BUTTON_BACK = 3; static u8 INPUT_BUTTON_BACK;
u8 INPUT_BUTTON_INSERT = 4; static u8 INPUT_BUTTON_INSERT;
void Reset() void Reset()
{ {

View file

@ -398,14 +398,14 @@ convert_GCR_sector(BYTE * gcr_start, BYTE * gcr_cycle, BYTE * d64_sector,
void void
convert_sector_to_GCR(BYTE * buffer, BYTE * ptr, convert_sector_to_GCR(BYTE * buffer, BYTE * ptr,
int track, int sector, BYTE * diskID, int error) int track, int sector, BYTE * diskID, int error, int sectorSize)
{ {
int i; int i;
BYTE buf[4], databuf[0x104], chksum; BYTE buf[4], databuf[0x104], chksum;
BYTE tempID[3]; BYTE tempID[3];
memcpy(tempID, diskID, 3); memcpy(tempID, diskID, 3);
memset(ptr, 0x55, 361); /* 'unformat' GCR sector */ memset(ptr, 0x55, sectorSize); /* 'unformat' GCR sector */
if (error == SYNC_NOT_FOUND) if (error == SYNC_NOT_FOUND)
return; return;
@ -472,10 +472,6 @@ convert_sector_to_GCR(BYTE * buffer, BYTE * ptr,
convert_4bytes_to_GCR(databuf + (4 * i), ptr); convert_4bytes_to_GCR(databuf + (4 * i), ptr);
ptr += 5; ptr += 5;
} }
/* 7 0x55 gap bytes in my reference disk */
memset(ptr, 0x55, 7); /* Gap before next sector */
ptr += 7;
} }
size_t size_t

View file

@ -135,7 +135,7 @@ size_t find_nondos_track_cycle(BYTE ** cycle_start, BYTE ** cycle_stop,
BYTE convert_GCR_sector(BYTE * gcr_start, BYTE * gcr_end, BYTE convert_GCR_sector(BYTE * gcr_start, BYTE * gcr_end,
BYTE * d64_sector, int track, int sector, BYTE * id); BYTE * d64_sector, int track, int sector, BYTE * id);
void convert_sector_to_GCR(BYTE * buffer, BYTE * ptr, void convert_sector_to_GCR(BYTE * buffer, BYTE * ptr,
int track, int sector, BYTE * diskID, int error); int track, int sector, BYTE * diskID, int error, int sectorSize);
BYTE * find_sector_gap(BYTE * work_buffer, int tracklen, size_t * p_sectorlen); BYTE * find_sector_gap(BYTE * work_buffer, int tracklen, size_t * p_sectorlen);
BYTE * find_sector0(BYTE * work_buffer, int tracklen, size_t * p_sectorlen); BYTE * find_sector0(BYTE * work_buffer, int tracklen, size_t * p_sectorlen);
int extract_GCR_track(BYTE * destination, BYTE * source, int * align, int extract_GCR_track(BYTE * destination, BYTE * source, int * align,

View file

@ -17,9 +17,12 @@
// along with Pi1541. If not, see <http://www.gnu.org/licenses/>. // along with Pi1541. If not, see <http://www.gnu.org/licenses/>.
#include "iec_bus.h" #include "iec_bus.h"
#include "InputMappings.h"
//#define REAL_XOR 1 //#define REAL_XOR 1
int IEC_Bus::buttonCount = sizeof(ButtonPinFlags) / sizeof(unsigned);
u32 IEC_Bus::oldClears = 0; u32 IEC_Bus::oldClears = 0;
u32 IEC_Bus::oldSets = 0; u32 IEC_Bus::oldSets = 0;
u32 IEC_Bus::PIGPIO_MASK_IN_ATN = 1 << PIGPIO_ATN; u32 IEC_Bus::PIGPIO_MASK_IN_ATN = 1 << PIGPIO_ATN;
@ -77,16 +80,16 @@ bool IEC_Bus::rotaryEncoderEnable;
//ROTARY: Added for rotary encoder inversion (Issue#185) - 08/13/2020 by Geo... //ROTARY: Added for rotary encoder inversion (Issue#185) - 08/13/2020 by Geo...
bool IEC_Bus::rotaryEncoderInvert; bool IEC_Bus::rotaryEncoderInvert;
void IEC_Bus::ReadGPIOUserInput( int buttonCount) void IEC_Bus::ReadGPIOUserInput()
{ {
//ROTARY: Added for rotary encoder support - 09/05/2019 by Geo... //ROTARY: Added for rotary encoder support - 09/05/2019 by Geo...
if (IEC_Bus::rotaryEncoderEnable == true) if (IEC_Bus::rotaryEncoderEnable == true)
{ {
int indexEnter = 0; int indexEnter = InputMappings::INPUT_BUTTON_ENTER;
int indexUp = 1; int indexUp = InputMappings::INPUT_BUTTON_UP;
int indexDown = 2; int indexDown = InputMappings::INPUT_BUTTON_DOWN;
int indexBack = 3; int indexBack = InputMappings::INPUT_BUTTON_BACK;
int indexInsert = 4; int indexInsert = InputMappings::INPUT_BUTTON_INSERT;
//Poll the rotary encoder //Poll the rotary encoder
// //
@ -139,7 +142,7 @@ void IEC_Bus::ReadGPIOUserInput( int buttonCount)
void IEC_Bus::ReadBrowseMode(void) void IEC_Bus::ReadBrowseMode(void)
{ {
gplev0 = read32(ARM_GPIO_GPLEV0); gplev0 = read32(ARM_GPIO_GPLEV0);
ReadGPIOUserInput(buttonCount); ReadGPIOUserInput();
bool ATNIn = (gplev0 & PIGPIO_MASK_IN_ATN) == (invertIECInputs ? PIGPIO_MASK_IN_ATN : 0); bool ATNIn = (gplev0 & PIGPIO_MASK_IN_ATN) == (invertIECInputs ? PIGPIO_MASK_IN_ATN : 0);
if (PI_Atn != ATNIn) if (PI_Atn != ATNIn)

View file

@ -199,7 +199,6 @@ enum PIGPIOMasks
}; };
static const unsigned ButtonPinFlags[5] = { PIGPIO_MASK_IN_BUTTON1, PIGPIO_MASK_IN_BUTTON2, PIGPIO_MASK_IN_BUTTON3, PIGPIO_MASK_IN_BUTTON4, PIGPIO_MASK_IN_BUTTON5 }; static const unsigned ButtonPinFlags[5] = { PIGPIO_MASK_IN_BUTTON1, PIGPIO_MASK_IN_BUTTON2, PIGPIO_MASK_IN_BUTTON3, PIGPIO_MASK_IN_BUTTON4, PIGPIO_MASK_IN_BUTTON5 };
static int buttonCount = sizeof(ButtonPinFlags) / sizeof(unsigned);
/////////////////////////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////////////////////////
// Original Non-split lines // Original Non-split lines
@ -401,7 +400,7 @@ public:
} }
#endif #endif
static inline void UpdateButton(int index, unsigned gplev0) static void UpdateButton(int index, unsigned gplev0)
{ {
bool inputcurrent = (gplev0 & ButtonPinFlags[index]) == 0; bool inputcurrent = (gplev0 & ButtonPinFlags[index]) == 0;
@ -476,7 +475,7 @@ public:
static void ReadBrowseMode(void); static void ReadBrowseMode(void);
static void ReadGPIOUserInput(int buttonCount); static void ReadGPIOUserInput(void);
static void ReadEmulationMode1541(void); static void ReadEmulationMode1541(void);
static void ReadEmulationMode1581(void); static void ReadEmulationMode1581(void);
@ -739,6 +738,8 @@ private:
static bool SRQSetToOut; static bool SRQSetToOut;
static bool Resetting; static bool Resetting;
static int buttonCount;
static u32 myOutsGPFSEL0; static u32 myOutsGPFSEL0;
static u32 myOutsGPFSEL1; static u32 myOutsGPFSEL1;
static bool InputButton[5]; static bool InputButton[5];

View file

@ -916,7 +916,7 @@ EXIT_TYPE Emulate1541(FileBrowser* fileBrowser)
#endif #endif
IEC_Bus::ReadGPIOUserInput(3); IEC_Bus::ReadGPIOUserInput();
// Other core will check the uart (as it is slow) (could enable uart irqs - will they execute on this core?) // Other core will check the uart (as it is slow) (could enable uart irqs - will they execute on this core?)
#if not defined(EXPERIMENTALZERO) #if not defined(EXPERIMENTALZERO)
@ -1132,7 +1132,7 @@ EXIT_TYPE Emulate1581(FileBrowser* fileBrowser)
} }
#endif #endif
IEC_Bus::ReadGPIOUserInput(3); IEC_Bus::ReadGPIOUserInput();
// Other core will check the uart (as it is slow) (could enable uart irqs - will they execute on this core?) // Other core will check the uart (as it is slow) (could enable uart irqs - will they execute on this core?)
#if not defined(EXPERIMENTALZERO) #if not defined(EXPERIMENTALZERO)