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CLK/Storage/Disk/Formats/CPCDSK.cpp

163 lines
4.6 KiB
C++

//
// CPCDSK.cpp
// Clock Signal
//
// Created by Thomas Harte on 05/08/2017.
// Copyright © 2017 Thomas Harte. All rights reserved.
//
#include "CPCDSK.hpp"
#include "../Encodings/MFM.hpp"
using namespace Storage::Disk;
CPCDSK::CPCDSK(const char *file_name) :
Storage::FileHolder(file_name), is_extended_(false) {
if(!check_signature("MV - CPC", 8)) {
is_extended_ = true;
fseek(file_, 0, SEEK_SET);
if(!check_signature("EXTENDED", 8))
throw ErrorNotCPCDSK;
}
// Don't really care about about the creator; skip.
fseek(file_, 0x30, SEEK_SET);
head_position_count_ = (unsigned int)fgetc(file_);
head_count_ = (unsigned int)fgetc(file_);
if(is_extended_) {
// Skip two unused bytes and grab the track size table.
fseek(file_, 2, SEEK_CUR);
for(unsigned int c = 0; c < head_position_count_ * head_count_; c++) {
track_sizes_.push_back((size_t)(fgetc(file_) << 8));
}
} else {
size_of_a_track_ = fgetc16le();
}
}
unsigned int CPCDSK::get_head_position_count() {
return head_position_count_;
}
unsigned int CPCDSK::get_head_count() {
return head_count_;
}
bool CPCDSK::get_is_read_only() {
// TODO: allow writing.
return false;
}
std::shared_ptr<Track> CPCDSK::get_uncached_track_at_position(unsigned int head, unsigned int position) {
// Given that thesea are interleaved images, determine which track, chronologically, is being requested.
unsigned int chronological_track = (position * head_count_) + head;
// All DSK images reserve 0x100 bytes for their headers.
long file_offset = 0x100;
if(is_extended_) {
// Tracks are a variable size in the original DSK file format.
// Check that there is anything stored for this track.
if(!track_sizes_[chronological_track]) {
return nullptr;
}
// Sum the lengths of all tracks prior to the interesting one to get a file offset.
unsigned int t = 0;
while(t < chronological_track && t < track_sizes_.size()) {
file_offset += track_sizes_[t];
t++;
}
} else {
// Tracks are a fixed size in the original DSK file format.
file_offset += size_of_a_track_ * chronological_track;
}
// Find the track, and skip the unused part of track information.
fseek(file_, file_offset + 16, SEEK_SET);
// Grab the track information.
fseek(file_, 5, SEEK_CUR); // skip track number, side number, sector size — each is given per sector
int number_of_sectors = fgetc(file_);
uint8_t gap3_length = (uint8_t)fgetc(file_);
uint8_t filler_byte = (uint8_t)fgetc(file_);
// Grab the sector information
struct SectorInfo {
uint8_t track;
uint8_t side;
uint8_t sector;
uint8_t length;
uint8_t status1;
uint8_t status2;
size_t actual_length;
};
std::vector<SectorInfo> sector_infos;
while(number_of_sectors--) {
SectorInfo sector_info;
sector_info.track = (uint8_t)fgetc(file_);
sector_info.side = (uint8_t)fgetc(file_);
sector_info.sector = (uint8_t)fgetc(file_);
sector_info.length = (uint8_t)fgetc(file_);
sector_info.status1 = (uint8_t)fgetc(file_);
sector_info.status2 = (uint8_t)fgetc(file_);
sector_info.actual_length = fgetc16le();
sector_infos.push_back(sector_info);
}
// Get the sectors.
fseek(file_, file_offset + 0x100, SEEK_SET);
std::vector<Storage::Encodings::MFM::Sector> sectors;
for(auto &sector_info : sector_infos) {
Storage::Encodings::MFM::Sector new_sector;
new_sector.track = sector_info.track;
new_sector.side = sector_info.side;
new_sector.sector = sector_info.sector;
new_sector.size = sector_info.length;
size_t data_size;
if(is_extended_) {
data_size = sector_info.actual_length;
} else {
data_size = (size_t)(128 << sector_info.length);
if(data_size == 0x2000) data_size = 0x1800;
}
new_sector.data.resize(data_size);
fread(new_sector.data.data(), sizeof(uint8_t), data_size, file_);
if(sector_info.status2 & 0x20) {
// The CRC failed in the data field.
new_sector.has_data_crc_error = true;
} else {
if(sector_info.status1 & 0x20) {
// The CRC failed in the ID field.
new_sector.has_header_crc_error = true;
}
}
if(sector_info.status2 & 0x40) {
// This sector is marked as deleted.
new_sector.is_deleted = true;
}
if(sector_info.status2 & 0x01) {
// Data field wasn't found.
new_sector.data.clear();
}
sectors.push_back(std::move(new_sector));
}
// TODO: extensions to the extended format; John Elliot's addition of single-density support,
// and Simon Owen's weak/random sectors, subject to adding some logic to pick a potential
// FM/MFM encoding that can produce specified weak values.
if(sectors.size()) return Storage::Encodings::MFM::GetMFMTrackWithSectors(sectors, gap3_length, filler_byte);
return nullptr;
}