// // FAT12.cpp // Clock Signal // // Created by Thomas Harte on 07/01/2018. // Copyright 2018 Thomas Harte. All rights reserved. // #include "FAT12.hpp" #include "Utility/ImplicitSectors.hpp" using namespace Storage::Disk; FAT12::FAT12(const std::string &file_name) : MFMSectorDump(file_name) { // The only sanity check here is whether a sensible // geometry is encoded in the first sector, or can be guessed. const auto file_size = file_.stats().st_size; if(file_size < 512) throw Error::InvalidFormat; // Inspect the FAT. file_.seek(11, SEEK_SET); sector_size_ = file_.get16le(); file_.seek(19, SEEK_SET); const uint16_t total_sectors = file_.get16le(); file_.seek(24, SEEK_SET); sector_count_ = file_.get16le(); head_count_ = file_.get16le(); // Throw if there would seemingly be an incomplete track. if(file_size != total_sectors*sector_size_) throw Error::InvalidFormat; if(total_sectors % (head_count_ * sector_count_)) throw Error::InvalidFormat; track_count_ = int(total_sectors / (head_count_ * sector_count_)); // Check that there is a valid power-of-two sector size. uint8_t log_sector_size = 2; while(log_sector_size < 5 && (1 << (7+log_sector_size)) != sector_size_) { ++log_sector_size; } if(log_sector_size >= 5) throw Error::InvalidFormat; set_geometry(sector_count_, log_sector_size, 1, true); } HeadPosition FAT12::get_maximum_head_position() { return HeadPosition(track_count_); } int FAT12::get_head_count() { return head_count_; } long FAT12::get_file_offset_for_position(Track::Address address) { return (address.position.as_int() * head_count_ + address.head) * sector_size_ * sector_count_; }