Files
fluxengine/lib/imagereader/d88imagereader.cc
David Given 2bda78fb40 Distinguish between filesystem track ordering and image track ordering
(although currently only the filesystem ordering is used).
2024-11-29 22:07:58 +01:00

229 lines
8.5 KiB
C++

#include "lib/core/globals.h"
#include "lib/config/flags.h"
#include "lib/data/sector.h"
#include "lib/imagereader/imagereader.h"
#include "lib/data/image.h"
#include "lib/config/proto.h"
#include "lib/core/logger.h"
#include "lib/config/config.pb.h"
#include <algorithm>
#include <iostream>
#include <fstream>
// reader based on this partial documentation of the D88 format:
// https://www.pc98.org/project/doc/d88.html
class D88ImageReader : public ImageReader
{
public:
D88ImageReader(const ImageReaderProto& config): ImageReader(config) {}
std::unique_ptr<Image> readImage() override
{
std::ifstream inputFile(
_config.filename(), std::ios::in | std::ios::binary);
if (!inputFile.is_open())
error("cannot open input file");
Bytes header(0x24); // read first entry of track table as well
inputFile.read((char*)header.begin(), header.size());
// the DIM header technically has a bit field for sectors present,
// however it is currently ignored by this reader
std::string diskName = header.slice(0, 0x16);
if (diskName[0])
log("D88: disk name: {}", diskName);
ByteReader headerReader(header);
char mediaFlag = headerReader.seek(0x1b).read_8();
inputFile.seekg(0, std::ios::end);
int fileSize = inputFile.tellg();
int diskSize = headerReader.seek(0x1c).read_le32();
if (diskSize > fileSize)
log("D88: found multiple disk images. Only using first");
int trackTableEnd = headerReader.seek(0x20).read_le32();
int trackTableSize = trackTableEnd - 0x20;
Bytes trackTable(trackTableSize);
inputFile.seekg(0x20);
inputFile.read((char*)trackTable.begin(), trackTable.size());
ByteReader trackTableReader(trackTable);
auto ibm = _extraConfig.mutable_encoder()->mutable_ibm();
int clockRate = 500;
if (mediaFlag == 0x20)
{
_extraConfig.mutable_drive()->set_high_density(true);
_extraConfig.mutable_layout()->set_format_type(FORMATTYPE_80TRACK);
}
else
{
clockRate = 300;
_extraConfig.mutable_drive()->set_high_density(false);
_extraConfig.mutable_layout()->set_format_type(FORMATTYPE_40TRACK);
}
auto layout = _extraConfig.mutable_layout();
std::unique_ptr<Image> image(new Image);
for (int track = 0; track < trackTableSize / 4; track++)
{
int trackOffset = trackTableReader.seek(track * 4).read_le32();
if (trackOffset == 0)
continue;
int currentTrackOffset = trackOffset;
int currentTrackTrack = -1;
int currentSectorsInTrack =
0xffff; // don't know # of sectors until we read the first one
int trackSectorSize = -1;
int trackMfm = -1;
auto trackdata = ibm->add_trackdata();
trackdata->set_target_clock_period_us(1e3 / clockRate);
trackdata->set_target_rotational_period_ms(167);
auto layoutdata = layout->add_layoutdata();
auto physical = layoutdata->mutable_physical();
for (int sectorInTrack = 0; sectorInTrack < currentSectorsInTrack;
sectorInTrack++)
{
Bytes sectorHeader(0x10);
inputFile.read(
(char*)sectorHeader.begin(), sectorHeader.size());
ByteReader sectorHeaderReader(sectorHeader);
int track = sectorHeaderReader.seek(0).read_8();
int head = sectorHeaderReader.seek(1).read_8();
int sectorId = sectorHeaderReader.seek(2).read_8();
int sectorSize = 128 << sectorHeaderReader.seek(3).read_8();
int sectorsInTrack = sectorHeaderReader.seek(4).read_le16();
int fm = sectorHeaderReader.seek(6).read_8();
int ddam = sectorHeaderReader.seek(7).read_8();
int fddStatusCode = sectorHeaderReader.seek(8).read_8();
int rpm = sectorHeaderReader.seek(13).read_8();
int dataLength = sectorHeaderReader.seek(14).read_le16();
if (dataLength < sectorSize)
{
dataLength = sectorSize;
}
// D88 provides much more sector information that is currently
// ignored
if (ddam != 0)
error("D88: nonzero ddam currently unsupported");
if (rpm != 0)
error("D88: 1.44MB 300rpm formats currently unsupported");
if (fddStatusCode != 0)
error(
"D88: nonzero fdd status codes are currently "
"unsupported");
if (currentSectorsInTrack == 0xffff)
{
currentSectorsInTrack = sectorsInTrack;
}
else if (currentSectorsInTrack != sectorsInTrack)
{
error("D88: mismatched number of sectors in track");
}
if (currentTrackTrack < 0)
{
currentTrackTrack = track;
}
else if (currentTrackTrack != track)
{
error(
"D88: all sectors in a track must belong to the same "
"track");
}
if (trackSectorSize < 0)
{
trackSectorSize = sectorSize;
// this is the first sector we've read, use it settings for
// per-track data
layoutdata->set_track(track);
layoutdata->set_side(head);
layoutdata->set_sector_size(sectorSize);
trackdata->set_track(track);
trackdata->set_head(head);
trackdata->set_use_fm(fm);
if (fm)
{
trackdata->set_gap_fill_byte(0xffff);
trackdata->set_idam_byte(0xf57e);
trackdata->set_dam_byte(0xf56f);
}
// create timings to approximately match N88-BASIC
if (clockRate == 300)
{
if (sectorSize <= 256)
{
trackdata->set_gap0(0x1b);
trackdata->set_gap2(0x14);
trackdata->set_gap3(0x1b);
}
}
else
{
if (sectorSize <= 128)
{
trackdata->set_gap0(0x1b);
trackdata->set_gap2(0x09);
trackdata->set_gap3(0x1b);
}
else if (sectorSize <= 256)
{
trackdata->set_gap0(0x36);
trackdata->set_gap3(0x36);
}
}
}
else if (trackSectorSize != sectorSize)
{
error(
"D88: multiple sector sizes per track are currently "
"unsupported");
}
Bytes data(sectorSize);
inputFile.read((char*)data.begin(), data.size());
inputFile.seekg(dataLength - sectorSize, std::ios_base::cur);
physical->add_sector(sectorId);
const auto& sector = image->put(track, head, sectorId);
sector->status = Sector::OK;
sector->data = data;
}
if (mediaFlag != 0x20)
{
auto trackdata = ibm->add_trackdata();
trackdata->set_target_clock_period_us(1e3 / clockRate);
trackdata->set_target_rotational_period_ms(167);
}
}
image->calculateSize();
const Geometry& geometry = image->getGeometry();
log("D88: read {} tracks, {} sides",
geometry.numTracks,
geometry.numSides);
layout->set_tracks(geometry.numTracks);
layout->set_sides(geometry.numSides);
return image;
}
};
std::unique_ptr<ImageReader> ImageReader::createD88ImageReader(
const ImageReaderProto& config)
{
return std::unique_ptr<ImageReader>(new D88ImageReader(config));
}