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555c2a4377
This is to remove another pain point, in preparation for the work immediately forthcoming but also work as-yet unknown.
184 lines
5.9 KiB
C++
184 lines
5.9 KiB
C++
//
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// DMK.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 08/01/2018.
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// Copyright 2018 Thomas Harte. All rights reserved.
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//
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#include "DMK.hpp"
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#include "../../Encodings/MFM/Constants.hpp"
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#include "../../Encodings/MFM/Encoder.hpp"
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#include "../../Track/PCMTrack.hpp"
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using namespace Storage::Disk;
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namespace {
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std::unique_ptr<Storage::Encodings::MFM::Encoder> new_encoder(Storage::Disk::PCMSegment &segment, bool is_double_density) {
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std::unique_ptr<Storage::Encodings::MFM::Encoder> encoder;
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if(is_double_density) {
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encoder = Storage::Encodings::MFM::GetMFMEncoder(segment.data);
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segment.length_of_a_bit = Storage::Encodings::MFM::MFMBitLength;
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} else {
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encoder = Storage::Encodings::MFM::GetFMEncoder(segment.data);
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segment.length_of_a_bit = Storage::Encodings::MFM::FMBitLength;
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}
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return encoder;
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}
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}
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DMK::DMK(const std::string &file_name) :
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file_(file_name) {
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// Determine whether this DMK represents a read-only disk (whether intentionally,
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// or by virtue of filesystem placement).
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uint8_t read_only_byte = file_.get8();
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if(read_only_byte != 0x00 && read_only_byte != 0xff) throw Error::InvalidFormat;
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is_read_only_ = (read_only_byte == 0xff) || file_.get_is_known_read_only();
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// Read track count and size.
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head_position_count_ = static_cast<int>(file_.get8());
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track_length_ = static_cast<long>(file_.get16le());
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// Track length must be at least 0x80, as that's the size of the IDAM
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// table before track contents.
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if(track_length_ < 0x80) throw Error::InvalidFormat;
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// Read the file flags and apply them.
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uint8_t flags = file_.get8();
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head_count_ = 2 - ((flags & 0x10) >> 4);
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head_position_count_ /= head_count_;
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is_purely_single_density_ = !!(flags & 0x40);
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// Skip to the end of the header and check that this is
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// "in the emulator's native format".
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file_.seek(0xc, SEEK_SET);
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uint32_t format = file_.get32le();
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if(format) throw Error::InvalidFormat;
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}
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HeadPosition DMK::get_maximum_head_position() {
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return HeadPosition(head_position_count_);
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}
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int DMK::get_head_count() {
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return head_count_;
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}
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bool DMK::get_is_read_only() {
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return true;
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// Given that track serialisation is not yet implemented, treat all DMKs as read-only.
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// return is_read_only_;
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}
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long DMK::get_file_offset_for_position(Track::Address address) {
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return (address.head*head_count_ + address.position.as_int()) * track_length_ + 16;
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}
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std::shared_ptr<::Storage::Disk::Track> DMK::get_track_at_position(::Storage::Disk::Track::Address address) {
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file_.seek(get_file_offset_for_position(address), SEEK_SET);
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// Read the IDAM table.
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uint16_t idam_locations[64];
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std::size_t idam_count = 0;
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for(std::size_t c = 0; c < sizeof(idam_locations) / sizeof(*idam_locations); ++c) {
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idam_locations[idam_count] = file_.get16le();
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if((idam_locations[idam_count] & 0x7fff) >= 128) {
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idam_count++;
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}
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}
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// Grab the rest of the track.
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std::vector<uint8_t> track = file_.read(static_cast<std::size_t>(track_length_ - 0x80));
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// Default to outputting double density unless the disk doesn't support it.
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bool is_double_density = !is_purely_single_density_;
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std::vector<PCMSegment> segments;
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std::unique_ptr<Encodings::MFM::Encoder> encoder;
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segments.emplace_back();
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encoder = new_encoder(segments.back(), is_double_density);
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std::size_t idam_pointer = 0;
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const std::size_t track_length = static_cast<std::size_t>(track_length_) - 0x80;
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std::size_t track_pointer = 0;
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while(track_pointer < track_length) {
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// Determine bytes left until next IDAM.
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std::size_t destination;
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if(idam_pointer != idam_count) {
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destination = (idam_locations[idam_pointer] & 0x7fff) - 0x80;
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} else {
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destination = track_length;
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}
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// Output every intermediate byte.
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if(!is_double_density && !is_purely_single_density_) {
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is_double_density = true;
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segments.emplace_back();
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encoder = new_encoder(segments.back(), is_double_density);
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}
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while(track_pointer < destination) {
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encoder->add_byte(track[track_pointer]);
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track_pointer++;
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}
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// Exit now if that's it.
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if(destination == track_length) break;
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// Being now located at the IDAM, check for a change of encoding.
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bool next_is_double_density = !!(idam_locations[idam_pointer] & 0x8000);
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if(next_is_double_density != is_double_density) {
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is_double_density = next_is_double_density;
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segments.emplace_back();
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encoder = new_encoder(segments.back(), is_double_density);
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}
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// Now at the IDAM, which will always be an FE regardless of FM/MFM encoding,
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// presumably through misunderstanding of the designer? Write out a real IDAM
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// for the current density, then the rest of the ID: four bytes for the address
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// plus two for the CRC. Keep a copy of the header while we're here, so that the
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// size of the sector is known momentarily.
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std::size_t step_rate = (!is_double_density && !is_purely_single_density_) ? 2 : 1;
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encoder->add_ID_address_mark();
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uint8_t header[6];
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for(int c = 0; c < 6; ++c) {
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track_pointer += step_rate;
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encoder->add_byte(track[track_pointer]);
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header[c] = track[track_pointer];
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}
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track_pointer += step_rate;
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// Now write out as many bytes as are found prior to an FB or F8 (same comment as
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// above: those are the FM-esque marks, but it seems as though transcription to MFM
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// is implicit).
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while(true) {
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uint8_t next_byte = track[track_pointer];
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track_pointer += step_rate;
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if(next_byte == 0xfb || next_byte == 0xf8) {
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// Write a data or deleted data address mark.
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if(next_byte == 0xfb) encoder->add_data_address_mark();
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else encoder->add_deleted_data_address_mark();
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break;
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}
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encoder->add_byte(next_byte);
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}
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// Now write out a data mark (the file format appears to leave these implicit?),
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// then the sector contents plus the CRC.
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encoder->add_data_address_mark();
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int sector_size = 2 + (128 << header[3]);
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while(sector_size--) {
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encoder->add_byte(track[track_pointer]);
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track_pointer += step_rate;
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}
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idam_pointer++;
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}
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return std::make_shared<PCMTrack>(segments);
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}
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