// license:BSD-3-Clause // copyright-holders:Dirk Best /*************************************************************************** VDK Disk image format Used by Paul Burgin's PC-Dragon emulator ***************************************************************************/ #include "vdk_dsk.h" #include "ioprocs.h" vdk_format::vdk_format() { } const char *vdk_format::name() const { return "vdk"; } const char *vdk_format::description() const { return "VDK disk image"; } const char *vdk_format::extensions() const { return "vdk"; } int vdk_format::identify(util::random_read &io, uint32_t form_factor, const std::vector &variants) const { size_t actual; uint8_t id[2]; io.read_at(0, id, 2, actual); if (id[0] == 'd' && id[1] == 'k') return FIFID_SIGN; else return 0; } bool vdk_format::load(util::random_read &io, uint32_t form_factor, const std::vector &variants, floppy_image *image) const { size_t actual; if (io.seek(0, SEEK_SET)) return false; uint8_t header[0x100]; io.read(header, 0x100, actual); int const header_size = header[3] * 0x100 + header[2]; int const track_count = header[8]; int const head_count = header[9]; if (io.seek(header_size, SEEK_SET)) return false; for (int track = 0; track < track_count; track++) { for (int head = 0; head < head_count ; head++) { desc_pc_sector sectors[SECTOR_COUNT]; uint8_t sector_data[SECTOR_COUNT * SECTOR_SIZE]; int sector_offset = 0; for (int i = 0; i < SECTOR_COUNT; i++) { sectors[i].track = track; sectors[i].head = head; sectors[i].sector = FIRST_SECTOR_ID + i; sectors[i].actual_size = SECTOR_SIZE; sectors[i].size = SECTOR_SIZE >> 8; sectors[i].deleted = false; sectors[i].bad_crc = false; sectors[i].data = §or_data[sector_offset]; io.read(sectors[i].data, SECTOR_SIZE, actual); sector_offset += SECTOR_SIZE; } build_wd_track_mfm(track, head, image, 100000, SECTOR_COUNT, sectors, 22, 32, 24); } } return true; } bool vdk_format::save(util::random_read_write &io, const std::vector &variants, floppy_image *image) const { size_t actual; if (io.seek(0, SEEK_SET)) return false; int track_count, head_count; image->get_actual_geometry(track_count, head_count); // write header uint8_t header[12]; header[0] = 'd'; header[1] = 'k'; header[2] = sizeof(header) % 0x100; header[3] = sizeof(header) / 0x100; header[4] = 0x10; header[5] = 0x10; header[6] = 'M'; header[7] = 0x01; header[8] = track_count; header[9] = head_count; header[10] = 0; header[11] = 0; io.write(header, sizeof(header), actual); // write disk data for (int track = 0; track < track_count; track++) { for (int head = 0; head < head_count; head++) { auto bitstream = generate_bitstream_from_track(track, head, 2000, image); auto sectors = extract_sectors_from_bitstream_mfm_pc(bitstream); for (int i = 0; i < SECTOR_COUNT; i++) io.write(sectors[FIRST_SECTOR_ID + i].data(), SECTOR_SIZE, actual); } } return true; } bool vdk_format::supports_save() const { return true; } const vdk_format FLOPPY_VDK_FORMAT;