// license:BSD-3-Clause // copyright-holders:Curt Coder /********************************************************************* formats/g64_dsk.c Commodore 1541/1571 GCR disk image format http://unusedino.de/ec64/technical/formats/g64.html *********************************************************************/ #include "emu.h" // emu_fatalerror #include "formats/g64_dsk.h" #define G64_FORMAT_HEADER "GCR-1541" g64_format::g64_format() { } const uint32_t g64_format::c1541_cell_size[] = { 4000, // 16MHz/16/4 3750, // 16MHz/15/4 3500, // 16MHz/14/4 3250 // 16MHz/13/4 }; int g64_format::identify(io_generic *io, uint32_t form_factor) { char h[8]; io_generic_read(io, h, 0, 8); if (!memcmp(h, G64_FORMAT_HEADER, 8)) { return 100; } return 0; } bool g64_format::load(io_generic *io, uint32_t form_factor, floppy_image *image) { uint64_t size = io_generic_size(io); std::vector img(size); io_generic_read(io, &img[0], 0, size); if (img[POS_VERSION]) { throw emu_fatalerror("g64_format: Unsupported version %u", img[POS_VERSION]); } int track_count = img[POS_TRACK_COUNT]; int head = 0; for (int track = 0; track < track_count; track++) { int cylinder = track % TRACK_COUNT; if (track == TRACK_COUNT) head = 1; uint32_t tpos = POS_TRACK_OFFSET + (track * 4); uint32_t spos = tpos + (track_count * 4); uint32_t dpos = pick_integer_le(&img[0], tpos, 4); if (!dpos) continue; if (dpos > size) throw emu_fatalerror("g64_format: Track %u offset %06x out of bounds", track, dpos); uint32_t speed_zone = pick_integer_le(&img[0], spos, 4); if (speed_zone > 3) throw emu_fatalerror("g64_format: Unsupported variable speed zones on track %d", track); uint16_t track_bytes = pick_integer_le(&img[0], dpos, 2); int track_size = track_bytes * 8; LOG_FORMATS("head %u track %u offs %u size %u cell %ld\n", head, cylinder, dpos, track_bytes, 200000000L/track_size); generate_track_from_bitstream(cylinder, head, &img[dpos+2], track_size, image); } if (!head) image->set_variant(floppy_image::SSSD); else image->set_variant(floppy_image::DSSD); return true; } int g64_format::generate_bitstream(int track, int head, int speed_zone, uint8_t *trackbuf, int &track_size, floppy_image *image) { int cell_size = c1541_cell_size[speed_zone]; generate_bitstream_from_track(track, head, cell_size, trackbuf, track_size, image); int actual_cell_size = 200000000L/track_size; // allow a tolerance of +- 10 us (3990..4010 -> 4000) return ((actual_cell_size >= cell_size-10) && (actual_cell_size <= cell_size+10)) ? speed_zone : -1; } bool g64_format::save(io_generic *io, floppy_image *image) { int tracks, heads; image->get_actual_geometry(tracks, heads); tracks = TRACK_COUNT * heads; // write header uint8_t header[] = { 'G', 'C', 'R', '-', '1', '5', '4', '1', 0x00, static_cast(tracks), TRACK_LENGTH & 0xff, TRACK_LENGTH >> 8 }; io_generic_write(io, header, POS_SIGNATURE, sizeof(header)); // write tracks for (int head = 0; head < heads; head++) { int tracks_written = 0; std::vector trackbuf(TRACK_LENGTH-2); for (int track = 0; track < TRACK_COUNT; track++) { uint32_t tpos = POS_TRACK_OFFSET + (track * 4); uint32_t spos = tpos + (tracks * 4); uint32_t dpos = POS_TRACK_OFFSET + (tracks * 4 * 2) + (tracks_written * TRACK_LENGTH); io_generic_write_filler(io, 0x00, tpos, 4); io_generic_write_filler(io, 0x00, spos, 4); if (image->get_buffer(track, head).size() <= 1) continue; int track_size; int speed_zone; // figure out the cell size and speed zone from the track data if ((speed_zone = generate_bitstream(track, head, 3, &trackbuf[0], track_size, image)) == -1) if ((speed_zone = generate_bitstream(track, head, 2, &trackbuf[0], track_size, image)) == -1) if ((speed_zone = generate_bitstream(track, head, 1, &trackbuf[0], track_size, image)) == -1) if ((speed_zone = generate_bitstream(track, head, 0, &trackbuf[0], track_size, image)) == -1) throw emu_fatalerror("g64_format: Cannot determine speed zone for track %u", track); LOG_FORMATS("head %u track %u size %u cell %u\n", head, track, track_size, c1541_cell_size[speed_zone]); uint8_t track_offset[4]; uint8_t speed_offset[4]; uint8_t track_length[2]; place_integer_le(track_offset, 0, 4, dpos); place_integer_le(speed_offset, 0, 4, speed_zone); place_integer_le(track_length, 0, 2, track_size/8); io_generic_write(io, track_offset, tpos, 4); io_generic_write(io, speed_offset, spos, 4); io_generic_write_filler(io, 0xff, dpos, TRACK_LENGTH); io_generic_write(io, track_length, dpos, 2); io_generic_write(io, &trackbuf[0], dpos + 2, track_size); tracks_written++; } } return true; } const char *g64_format::name() const { return "g64"; } const char *g64_format::description() const { return "Commodore 1541/1571 GCR disk image"; } const char *g64_format::extensions() const { return "g64,g41,g71"; } const floppy_format_type FLOPPY_G64_FORMAT = &floppy_image_format_creator;