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516 lines
14 KiB
C++
516 lines
14 KiB
C++
//
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// MFM.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 18/09/2016.
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// Copyright © 2016 Thomas Harte. All rights reserved.
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//
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#include "MFM.hpp"
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#include "../PCMTrack.hpp"
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#include "../../../NumberTheory/CRC.hpp"
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using namespace Storage::Encodings::MFM;
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class MFMEncoder: public Encoder {
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public:
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MFMEncoder(std::vector<uint8_t> &target) : Encoder(target) {}
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void add_byte(uint8_t input) {
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crc_generator_.add(input);
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uint16_t spread_value =
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(uint16_t)(
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((input & 0x01) << 0) |
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((input & 0x02) << 1) |
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((input & 0x04) << 2) |
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((input & 0x08) << 3) |
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((input & 0x10) << 4) |
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((input & 0x20) << 5) |
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((input & 0x40) << 6) |
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((input & 0x80) << 7)
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);
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uint16_t or_bits = (uint16_t)((spread_value << 1) | (spread_value >> 1) | (last_output_ << 15));
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uint16_t output = spread_value | ((~or_bits) & 0xaaaa);
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output_short(output);
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}
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void add_index_address_mark() {
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for(int c = 0; c < 3; c++) output_short(MFMIndexSync);
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add_byte(IndexAddressByte);
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}
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void add_ID_address_mark() {
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output_sync();
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add_byte(IDAddressByte);
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}
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void add_data_address_mark() {
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output_sync();
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add_byte(DataAddressByte);
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}
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void add_deleted_data_address_mark() {
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output_sync();
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add_byte(DeletedDataAddressByte);
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}
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private:
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uint16_t last_output_;
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void output_short(uint16_t value) {
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last_output_ = value;
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Encoder::output_short(value);
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}
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void output_sync() {
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for(int c = 0; c < 3; c++) output_short(MFMSync);
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crc_generator_.set_value(MFMPostSyncCRCValue);
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}
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};
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class FMEncoder: public Encoder {
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// encodes each 16-bit part as clock, data, clock, data [...]
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public:
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FMEncoder(std::vector<uint8_t> &target) : Encoder(target) {}
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void add_byte(uint8_t input) {
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crc_generator_.add(input);
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output_short(
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(uint16_t)(
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((input & 0x01) << 0) |
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((input & 0x02) << 1) |
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((input & 0x04) << 2) |
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((input & 0x08) << 3) |
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((input & 0x10) << 4) |
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((input & 0x20) << 5) |
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((input & 0x40) << 6) |
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((input & 0x80) << 7) |
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0xaaaa
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));
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}
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void add_index_address_mark() {
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crc_generator_.reset();
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crc_generator_.add(IndexAddressByte);
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output_short(FMIndexAddressMark);
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}
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void add_ID_address_mark() {
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crc_generator_.reset();
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crc_generator_.add(IDAddressByte);
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output_short(FMIDAddressMark);
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}
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void add_data_address_mark() {
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crc_generator_.reset();
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crc_generator_.add(DataAddressByte);
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output_short(FMDataAddressMark);
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}
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void add_deleted_data_address_mark() {
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crc_generator_.reset();
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crc_generator_.add(DeletedDataAddressByte);
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output_short(FMDeletedDataAddressMark);
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}
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};
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template<class T> std::shared_ptr<Storage::Disk::Track>
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GetTrackWithSectors(
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const std::vector<Sector> §ors,
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size_t post_index_address_mark_bytes, uint8_t post_index_address_mark_value,
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size_t pre_address_mark_bytes,
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size_t post_address_mark_bytes, uint8_t post_address_mark_value,
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size_t pre_data_mark_bytes, size_t post_data_bytes,
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size_t inter_sector_gap,
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size_t expected_track_bytes) {
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Storage::Disk::PCMSegment segment;
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segment.data.reserve(expected_track_bytes);
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T shifter(segment.data);
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// output the index mark
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shifter.add_index_address_mark();
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// add the post-index mark
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for(size_t c = 0; c < post_index_address_mark_bytes; c++) shifter.add_byte(post_index_address_mark_value);
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// add sectors
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for(const Sector §or : sectors) {
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// gap
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for(size_t c = 0; c < pre_address_mark_bytes; c++) shifter.add_byte(0x00);
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// sector header
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shifter.add_ID_address_mark();
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shifter.add_byte(sector.track);
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shifter.add_byte(sector.side);
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shifter.add_byte(sector.sector);
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shifter.add_byte(sector.size);
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shifter.add_crc(sector.has_header_crc_error);
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// gap
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for(size_t c = 0; c < post_address_mark_bytes; c++) shifter.add_byte(post_address_mark_value);
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for(size_t c = 0; c < pre_data_mark_bytes; c++) shifter.add_byte(0x00);
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// data, if attached
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if(!sector.data.empty()) {
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if(sector.is_deleted)
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shifter.add_deleted_data_address_mark();
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else
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shifter.add_data_address_mark();
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size_t c = 0;
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size_t declared_length = (size_t)(128 << sector.size);
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for(c = 0; c < sector.data.size() && c < declared_length; c++) {
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shifter.add_byte(sector.data[c]);
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}
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for(; c < declared_length; c++) {
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shifter.add_byte(0x00);
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}
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shifter.add_crc(sector.has_data_crc_error);
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}
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// gap
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for(size_t c = 0; c < post_data_bytes; c++) shifter.add_byte(0x00);
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for(size_t c = 0; c < inter_sector_gap; c++) shifter.add_byte(0x4e);
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}
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while(segment.data.size() < expected_track_bytes) shifter.add_byte(0x00);
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segment.number_of_bits = (unsigned int)(segment.data.size() * 8);
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return std::shared_ptr<Storage::Disk::Track>(new Storage::Disk::PCMTrack(std::move(segment)));
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}
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Encoder::Encoder(std::vector<uint8_t> &target) :
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crc_generator_(0x1021, 0xffff),
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target_(target) {}
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void Encoder::output_short(uint16_t value) {
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target_.push_back(value >> 8);
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target_.push_back(value & 0xff);
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}
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void Encoder::add_crc(bool incorrectly) {
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uint16_t crc_value = crc_generator_.get_value();
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add_byte(crc_value >> 8);
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add_byte((crc_value & 0xff) ^ (incorrectly ? 1 : 0));
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}
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const size_t Storage::Encodings::MFM::DefaultSectorGapLength = (size_t)~0;
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std::shared_ptr<Storage::Disk::Track> Storage::Encodings::MFM::GetFMTrackWithSectors(const std::vector<Sector> §ors, size_t sector_gap_length, uint8_t sector_gap_filler_byte) {
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return GetTrackWithSectors<FMEncoder>(
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sectors,
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16, 0x00,
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6,
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(sector_gap_length != DefaultSectorGapLength) ? sector_gap_length : 0, sector_gap_filler_byte,
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(sector_gap_length != DefaultSectorGapLength) ? 0 : 17, 14,
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0,
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6250); // i.e. 250kbps (including clocks) * 60 = 15000kpm, at 300 rpm => 50 kbits/rotation => 6250 bytes/rotation
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}
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std::shared_ptr<Storage::Disk::Track> Storage::Encodings::MFM::GetMFMTrackWithSectors(const std::vector<Sector> §ors, size_t sector_gap_length, uint8_t sector_gap_filler_byte) {
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return GetTrackWithSectors<MFMEncoder>(
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sectors,
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50, 0x4e,
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12,
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(sector_gap_length != DefaultSectorGapLength) ? sector_gap_length : 22, sector_gap_filler_byte,
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(sector_gap_length != DefaultSectorGapLength) ? 0 : 12, 18,
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32,
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12500); // unintelligently: double the single-density bytes/rotation (or: 500kps @ 300 rpm)
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}
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std::unique_ptr<Encoder> Storage::Encodings::MFM::GetMFMEncoder(std::vector<uint8_t> &target) {
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return std::unique_ptr<Encoder>(new MFMEncoder(target));
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}
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std::unique_ptr<Encoder> Storage::Encodings::MFM::GetFMEncoder(std::vector<uint8_t> &target) {
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return std::unique_ptr<Encoder>(new FMEncoder(target));
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}
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#pragma mark - Parser
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Parser::Parser(bool is_mfm) :
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Storage::Disk::Controller(4000000, 1, 300),
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crc_generator_(0x1021, 0xffff),
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shift_register_(0), is_mfm_(is_mfm),
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track_(0), head_(0) {
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Storage::Time bit_length;
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bit_length.length = 1;
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bit_length.clock_rate = is_mfm ? 500000 : 250000; // i.e. 250 kbps (including clocks)
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set_expected_bit_length(bit_length);
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drive_.reset(new Storage::Disk::Drive);
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set_drive(drive_);
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set_motor_on(true);
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}
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Parser::Parser(bool is_mfm, const std::shared_ptr<Storage::Disk::Disk> &disk) :
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Parser(is_mfm) {
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drive_->set_disk(disk);
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}
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Parser::Parser(bool is_mfm, const std::shared_ptr<Storage::Disk::Track> &track) :
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Parser(is_mfm) {
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drive_->set_disk_with_track(track);
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}
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void Parser::seek_to_track(uint8_t track) {
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int difference = (int)track - (int)track_;
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track_ = track;
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if(difference) {
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int direction = difference < 0 ? -1 : 1;
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difference *= direction;
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for(int c = 0; c < difference; c++) step(direction);
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}
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}
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std::shared_ptr<Sector> Parser::get_sector(uint8_t head, uint8_t track, uint8_t sector) {
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// Switch head and track if necessary.
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if(head_ != head) {
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drive_->set_head(head);
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invalidate_track();
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}
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seek_to_track(track);
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int track_index = get_index(head, track, 0);
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// Populate the sector cache if it's not already populated.
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if(decoded_tracks_.find(track_index) == decoded_tracks_.end()) {
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std::shared_ptr<Sector> first_sector = get_next_sector();
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if(first_sector) {
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while(1) {
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std::shared_ptr<Sector> next_sector = get_next_sector();
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if(!next_sector || next_sector->sector == first_sector->sector) break;
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}
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}
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decoded_tracks_.insert(track_index);
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}
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// Check cache for sector.
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int index = get_index(head, track, sector);
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auto cached_sector = sectors_by_index_.find(index);
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if(cached_sector != sectors_by_index_.end()) {
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return cached_sector->second;
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}
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// If it wasn't found, it doesn't exist.
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return nullptr;
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}
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std::vector<uint8_t> Parser::get_track(uint8_t track) {
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seek_to_track(track);
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return get_track();
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}
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void Parser::process_input_bit(int value, unsigned int cycles_since_index_hole) {
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shift_register_ = ((shift_register_ << 1) | (unsigned int)value) & 0xffff;
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bit_count_++;
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}
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void Parser::process_index_hole() {
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index_count_++;
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}
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uint8_t Parser::get_byte_for_shift_value(uint16_t value) {
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return (uint8_t)(
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((value&0x0001) >> 0) |
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((value&0x0004) >> 1) |
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((value&0x0010) >> 2) |
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((value&0x0040) >> 3) |
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((value&0x0100) >> 4) |
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((value&0x0400) >> 5) |
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((value&0x1000) >> 6) |
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((value&0x4000) >> 7));
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}
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uint8_t Parser::get_next_byte() {
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bit_count_ = 0;
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while(bit_count_ < 16) run_for(Cycles(1));
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uint8_t byte = get_byte_for_shift_value((uint16_t)shift_register_);
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crc_generator_.add(byte);
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return byte;
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}
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std::vector<uint8_t> Parser::get_track() {
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std::vector<uint8_t> result;
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int distance_until_permissible_sync = 0;
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uint8_t last_id[6];
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int last_id_pointer = 0;
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bool next_is_type = false;
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// align to the next index hole
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index_count_ = 0;
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while(!index_count_) run_for(Cycles(1));
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// capture every other bit until the next index hole
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index_count_ = 0;
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while(1) {
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// wait until either another bit or the index hole arrives
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bit_count_ = 0;
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bool found_sync = false;
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while(!index_count_ && !found_sync && bit_count_ < 16) {
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int previous_bit_count = bit_count_;
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run_for(Cycles(1));
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if(!distance_until_permissible_sync && bit_count_ != previous_bit_count) {
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uint16_t low_shift_register = (shift_register_&0xffff);
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if(is_mfm_) {
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found_sync = (low_shift_register == MFMIndexSync) || (low_shift_register == MFMSync);
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} else {
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found_sync =
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(low_shift_register == FMIndexAddressMark) ||
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(low_shift_register == FMIDAddressMark) ||
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(low_shift_register == FMDataAddressMark) ||
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(low_shift_register == FMDeletedDataAddressMark);
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}
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}
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}
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// if that was the index hole then finish
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if(index_count_) {
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if(bit_count_) result.push_back(get_byte_for_shift_value((uint16_t)(shift_register_ << (16 - bit_count_))));
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break;
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}
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// store whatever the current byte is
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uint8_t byte_value = get_byte_for_shift_value((uint16_t)shift_register_);
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result.push_back(byte_value);
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if(last_id_pointer < 6) last_id[last_id_pointer++] = byte_value;
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// if no syncs are permissible here, decrement the waiting period and perform no further contemplation
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bool found_id = false, found_data = false;
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if(distance_until_permissible_sync) {
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distance_until_permissible_sync--;
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} else {
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if(found_sync) {
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if(is_mfm_) {
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next_is_type = true;
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} else {
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switch(shift_register_&0xffff) {
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case FMIDAddressMark: found_id = true; break;
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case FMDataAddressMark:
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case FMDeletedDataAddressMark: found_data = true; break;
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}
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}
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} else if(next_is_type) {
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switch(byte_value) {
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case IDAddressByte: found_id = true; break;
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case DataAddressByte:
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case DeletedDataAddressByte: found_data = true; break;
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}
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}
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}
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if(found_id) {
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distance_until_permissible_sync = 6;
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last_id_pointer = 0;
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}
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if(found_data) {
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distance_until_permissible_sync = 128 << last_id[3];
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}
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}
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return result;
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}
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std::shared_ptr<Sector> Parser::get_next_sector() {
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std::shared_ptr<Sector> sector(new Sector);
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index_count_ = 0;
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while(index_count_ < 2) {
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// look for an ID address mark
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bool id_found = false;
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while(!id_found) {
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run_for(Cycles(1));
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if(is_mfm_) {
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while(shift_register_ == MFMSync) {
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uint8_t mark = get_next_byte();
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if(mark == IDAddressByte) {
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crc_generator_.set_value(MFMPostSyncCRCValue);
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id_found = true;
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break;
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}
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}
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} else {
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if(shift_register_ == FMIDAddressMark) {
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crc_generator_.reset();
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id_found = true;
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}
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}
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if(index_count_ >= 2) return nullptr;
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}
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crc_generator_.add(IDAddressByte);
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sector->track = get_next_byte();
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sector->side = get_next_byte();
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sector->sector = get_next_byte();
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sector->size = get_next_byte();
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uint16_t header_crc = crc_generator_.get_value();
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if((header_crc >> 8) != get_next_byte()) sector->has_header_crc_error = true;
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if((header_crc & 0xff) != get_next_byte()) sector->has_header_crc_error = true;
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// look for data mark
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bool data_found = false;
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while(!data_found) {
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run_for(Cycles(1));
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if(is_mfm_) {
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while(shift_register_ == MFMSync) {
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uint8_t mark = get_next_byte();
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if(mark == DataAddressByte) {
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crc_generator_.set_value(MFMPostSyncCRCValue);
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data_found = true;
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break;
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}
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if(mark == IDAddressByte) return nullptr;
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}
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} else {
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if(shift_register_ == FMDataAddressMark) {
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crc_generator_.reset();
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data_found = true;
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}
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if(shift_register_ == FMIDAddressMark) return nullptr;
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}
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if(index_count_ >= 2) return nullptr;
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}
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crc_generator_.add(DataAddressByte);
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size_t data_size = (size_t)(128 << sector->size);
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sector->data.reserve(data_size);
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for(size_t c = 0; c < data_size; c++) {
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sector->data.push_back(get_next_byte());
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}
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uint16_t data_crc = crc_generator_.get_value();
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if((data_crc >> 8) != get_next_byte()) sector->has_data_crc_error = true;
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if((data_crc & 0xff) != get_next_byte()) sector->has_data_crc_error = true;
|
|
|
|
// Put this sector into the cache.
|
|
int index = get_index(head_, track_, sector->sector);
|
|
sectors_by_index_[index] = sector;
|
|
|
|
return sector;
|
|
}
|
|
|
|
return nullptr;
|
|
}
|
|
|
|
std::shared_ptr<Sector> Parser::get_sector(uint8_t sector) {
|
|
std::shared_ptr<Sector> first_sector;
|
|
index_count_ = 0;
|
|
while(!first_sector && index_count_ < 2) first_sector = get_next_sector();
|
|
if(!first_sector) return nullptr;
|
|
if(first_sector->sector == sector) return first_sector;
|
|
|
|
while(1) {
|
|
std::shared_ptr<Sector> next_sector = get_next_sector();
|
|
if(!next_sector) continue;
|
|
if(next_sector->sector == first_sector->sector) return nullptr;
|
|
if(next_sector->sector == sector) return next_sector;
|
|
}
|
|
}
|
|
|
|
int Parser::get_index(uint8_t head, uint8_t track, uint8_t sector) {
|
|
return head | (track << 8) | (sector << 16);
|
|
}
|