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955cb6411c
(And do a better job of it)
188 lines
5.8 KiB
C++
188 lines
5.8 KiB
C++
//
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// AmigaADF.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 16/07/2021.
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// Copyright © 2021 Thomas Harte. All rights reserved.
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//
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#include "AmigaADF.hpp"
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#include "../../Encodings/MFM/Constants.hpp"
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#include "../../Encodings/MFM/Encoder.hpp"
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#include "../../../../Numeric/BitSpread.hpp"
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#include "../../Track/PCMTrack.hpp"
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#include <type_traits>
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using namespace Storage::Disk;
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namespace {
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/// Builds a buffer containing the bytes between @c begin and @c end split up so that the nibbles in the first half of the buffer
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/// consist of the odd bits of the source bytes — b1, b3, b5 and b7 — ordered so that most-significant nibbles come before
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/// least-significant ones, and the second half of the buffer contains the even bits.
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///
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/// Nibbles are written to @c first; it is assumed that an even number of source bytes have been supplied.
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template <typename IteratorT, class OutputIt> void encode_block(IteratorT begin, IteratorT end, OutputIt first) {
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// Parse 1: combine odd bits.
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auto cursor = begin;
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while(cursor != end) {
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auto source = uint8_t(
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((*cursor & 0x02) << 3) |
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((*cursor & 0x08) << 2) |
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((*cursor & 0x20) << 1) |
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((*cursor & 0x80) << 0)
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);
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++cursor;
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source |=
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((*cursor & 0x02) >> 1) |
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((*cursor & 0x08) >> 2) |
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((*cursor & 0x20) >> 3) |
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((*cursor & 0x80) >> 4);
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++cursor;
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*first = source;
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++first;
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}
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// Parse 2: combine even bits.
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cursor = begin;
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while(cursor != end) {
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auto source = uint8_t(
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((*cursor & 0x01) << 4) |
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((*cursor & 0x04) << 3) |
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((*cursor & 0x10) << 2) |
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((*cursor & 0x40) << 1)
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);
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++cursor;
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source |=
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((*cursor & 0x01) >> 0) |
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((*cursor & 0x04) >> 1) |
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((*cursor & 0x10) >> 2) |
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((*cursor & 0x40) >> 3);
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++cursor;
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*first = source;
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++first;
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}
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}
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/// Construsts the Amiga-style checksum of the bytes between @c begin and @c end, which is a 32-bit exclusive OR of the source data
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/// with each byte converted into a 16-bit word by inserting a 0 bit between every data bit, and then combined into 32-bit words in
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/// big endian order.
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template <typename IteratorT> auto checksum(IteratorT begin, IteratorT end) {
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uint16_t checksum[2]{};
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int offset = 0;
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while(begin != end) {
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const uint8_t value = *begin;
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++begin;
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// Do a clockless MFM encode.
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const auto spread = Numeric::spread_bits(value);
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checksum[offset] ^= spread;
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offset ^= 1;
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}
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return std::array<uint8_t, 4>{
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uint8_t(checksum[0] >> 8),
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uint8_t(checksum[0]),
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uint8_t(checksum[1] >> 8),
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uint8_t(checksum[1]),
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};
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}
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/// Obtains the Amiga-style checksum of the data between @c begin and @c end, then odd-even encodes it and writes
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/// it out to @c encoder.
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template <typename IteratorT> void write_checksum(IteratorT begin, IteratorT end, std::unique_ptr<Storage::Encodings::MFM::Encoder> &encoder) {
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// Believe it or not, this appears to be the actual checksum algorithm on the Amiga:
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//
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// (1) calculate the XOR checksum of the MFM-encoded data, read as 32-bit words;
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// (2) throw away the clock bits;
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// (3) Take the resulting 32-bit value and perform an odd-even MFM encoding on those.
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const auto raw_checksum = checksum(begin, end);
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std::decay_t<decltype(raw_checksum)> encoded_checksum{};
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encode_block(raw_checksum.begin(), raw_checksum.end(), encoded_checksum.begin());
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encoder->add_bytes(encoded_checksum.begin(), encoded_checksum.end());
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}
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}
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AmigaADF::AmigaADF(const std::string &file_name) :
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file_(file_name) {
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// Dumb validation only for now: a size check.
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if(file_.stats().st_size != 901120) throw Error::InvalidFormat;
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}
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HeadPosition AmigaADF::get_maximum_head_position() {
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return HeadPosition(80);
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}
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int AmigaADF::get_head_count() {
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return 2;
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}
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std::shared_ptr<Track> AmigaADF::get_track_at_position(Track::Address address) {
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using namespace Storage::Encodings;
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// Create an MFM encoder.
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Storage::Disk::PCMSegment encoded_segment;
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encoded_segment.data.reserve(102'400); // i.e. 0x1900 bytes.
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auto encoder = MFM::GetMFMEncoder(encoded_segment.data);
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// Grab the unencoded track.
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file_.seek(get_file_offset_for_position(address), SEEK_SET);
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const std::vector<uint8_t> track_data = file_.read(512 * 11);
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// Eleven sectors are then encoded.
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for(size_t s = 0; s < 11; s++) {
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// Two bytes of 0x00 act as an inter-sector gap.
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encoder->add_byte(0);
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encoder->add_byte(0);
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// Add additional sync.
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encoder->output_short(MFM::MFMSync);
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encoder->output_short(MFM::MFMSync);
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// Encode and write the header.
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const uint8_t header[4] = {
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0xff, // Amiga v1.0 format.
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uint8_t(address.position.as_int() * 2 + address.head), // Track.
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uint8_t(s), // Sector.
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uint8_t(11 - s), // Sectors remaining.
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};
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std::array<uint8_t, 4> encoded_header;
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encode_block(std::begin(header), std::end(header), std::begin(encoded_header));
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encoder->add_bytes(std::begin(encoded_header), std::end(encoded_header));
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// Write the sector label.
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const std::array<uint8_t, 16> os_recovery{};
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encoder->add_bytes(os_recovery.begin(), os_recovery.end());
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// Encode the data.
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std::array<uint8_t, 512> encoded_data;
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encode_block(&track_data[s * 512], &track_data[(s + 1) * 512], std::begin(encoded_data));
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// Write checksums.
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write_checksum(std::begin(encoded_header), std::end(encoded_header), encoder);
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write_checksum(std::begin(encoded_data), std::end(encoded_data), encoder);
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// Write data.
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encoder->add_bytes(std::begin(encoded_data), std::end(encoded_data));
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}
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// Throw in an '830-byte' gap (that's in MFM, I think — 830 bytes prior to decoding).
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// Cf. https://www.techtravels.org/2007/01/syncing-to-the-0x4489-0x4489/#comment-295
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for(int c = 0; c < 415; c++) {
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encoder->add_byte(0xff);
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}
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return std::make_shared<Storage::Disk::PCMTrack>(std::move(encoded_segment));
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}
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long AmigaADF::get_file_offset_for_position(Track::Address address) {
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return (address.position.as_int() * 2 + address.head) * 512 * 11;
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}
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