// // Disk.cpp // Clock Signal // // Created by Thomas Harte on 18/09/2016. // Copyright 2016 Thomas Harte. All rights reserved. // #include "Disk.hpp" #include "../../../Storage/Disk/Controller/DiskController.hpp" #include "../../../Storage/Disk/Encodings/MFM/Parser.hpp" #include "../../../Numeric/CRC.hpp" #include #include using namespace Analyser::Static::Acorn; std::unique_ptr Analyser::Static::Acorn::GetDFSCatalogue(const std::shared_ptr &disk) { // c.f. http://beebwiki.mdfs.net/Acorn_DFS_disc_format auto catalogue = std::make_unique(); Storage::Encodings::MFM::Parser parser(Storage::Encodings::MFM::Density::Single, disk); const Storage::Encodings::MFM::Sector *const names = parser.sector(0, 0, 0); const Storage::Encodings::MFM::Sector *const details = parser.sector(0, 0, 1); if(!names || !details) return nullptr; if(names->samples.empty() || details->samples.empty()) return nullptr; if(names->samples[0].size() != 256 || details->samples[0].size() != 256) return nullptr; uint8_t final_file_offset = details->samples[0][5]; if(final_file_offset&7) return nullptr; if(final_file_offset < 8) return nullptr; char disk_name[13]; snprintf(disk_name, 13, "%.8s%.4s", &names->samples[0][0], &details->samples[0][0]); catalogue->name = disk_name; switch((details->samples[0][6] >> 4)&3) { case 0: catalogue->bootOption = Catalogue::BootOption::None; break; case 1: catalogue->bootOption = Catalogue::BootOption::LoadBOOT; break; case 2: catalogue->bootOption = Catalogue::BootOption::RunBOOT; break; case 3: catalogue->bootOption = Catalogue::BootOption::ExecBOOT; break; } for(std::size_t file_offset = 8; file_offset < final_file_offset; file_offset += 8) { File new_file; char name[10]; snprintf(name, 10, "%c.%.7s", names->samples[0][file_offset + 7] & 0x7f, &names->samples[0][file_offset]); new_file.name = name; new_file.load_address = uint32_t(details->samples[0][file_offset] | (details->samples[0][file_offset+1] << 8) | ((details->samples[0][file_offset+6]&0x0c) << 14)); new_file.execution_address = uint32_t(details->samples[0][file_offset+2] | (details->samples[0][file_offset+3] << 8) | ((details->samples[0][file_offset+6]&0xc0) << 10)); if(names->samples[0][file_offset + 7] & 0x80) { // File is locked; it may not be altered or deleted. new_file.flags |= File::Flags::Locked; } long data_length = long(details->samples[0][file_offset+4] | (details->samples[0][file_offset+5] << 8) | ((details->samples[0][file_offset+6]&0x30) << 12)); int start_sector = details->samples[0][file_offset+7] | ((details->samples[0][file_offset+6]&0x03) << 8); new_file.data.reserve(size_t(data_length)); if(start_sector < 2) continue; while(data_length > 0) { uint8_t sector = uint8_t(start_sector % 10); uint8_t track = uint8_t(start_sector / 10); start_sector++; const Storage::Encodings::MFM::Sector *next_sector = parser.sector(0, track, sector); if(!next_sector) break; long length_from_sector = std::min(data_length, 256l); new_file.data.insert(new_file.data.end(), next_sector->samples[0].begin(), next_sector->samples[0].begin() + length_from_sector); data_length -= length_from_sector; } if(!data_length) catalogue->files.push_back(std::move(new_file)); } return catalogue; } /* Primary resource used: "Acorn 8-Bit ADFS Filesystem Structure"; http://mdfs.net/Docs/Comp/Disk/Format/ADFS */ std::unique_ptr Analyser::Static::Acorn::GetADFSCatalogue(const std::shared_ptr &disk) { auto catalogue = std::make_unique(); Storage::Encodings::MFM::Parser parser(Storage::Encodings::MFM::Density::Double, disk); // Grab the second half of the free-space map because it has the boot option in it. const Storage::Encodings::MFM::Sector *const free_space_map_second_half = parser.sector(0, 0, 1); if(!free_space_map_second_half) return nullptr; const bool has_large_sectors = free_space_map_second_half->samples[0].size() == 1024; std::vector root_directory; root_directory.reserve((has_large_sectors ? 5 : 8) * 256); for(uint8_t c = 2; c < (has_large_sectors ? 4 : 7); c++) { const Storage::Encodings::MFM::Sector *const sector = parser.sector(0, 0, c); if(!sector) return nullptr; root_directory.insert(root_directory.end(), sector->samples[0].begin(), sector->samples[0].end()); } // Check for end of directory marker. if(root_directory[has_large_sectors ? 0x7d7 : 0x4cb]) return nullptr; // Check for both directory identifiers. catalogue->is_hugo = !memcmp(&root_directory[1], "Hugo", 4) && !memcmp(&root_directory[0x4fb], "Hugo", 4); const bool is_nick = !memcmp(&root_directory[1], "Nick", 4) && !memcmp(&root_directory[0x7fb], "Nick", 4); if(!catalogue->is_hugo && !is_nick) { return nullptr; } if(!has_large_sectors) { // TODO: I don't know where the boot option rests with large sectors. switch(free_space_map_second_half->samples[0][0xfd]) { default: catalogue->bootOption = Catalogue::BootOption::None; break; case 1: catalogue->bootOption = Catalogue::BootOption::LoadBOOT; break; case 2: catalogue->bootOption = Catalogue::BootOption::RunBOOT; break; case 3: catalogue->bootOption = Catalogue::BootOption::ExecBOOT; break; } } // Parse the root directory, at least. for(std::size_t file_offset = 0x005; file_offset < (has_large_sectors ? 0x7d7 : 0x4cb); file_offset += 0x1a) { // Obtain the name, which will be at most ten characters long, and will // be terminated by either a NULL character or a \r. char name[11]{}; std::size_t c = 0; for(; c < 10; c++) { const char next = root_directory[file_offset + c] & 0x7f; name[c] = next; if(next == '\0' || next == '\r') break; } name[c] = '\0'; // Skip if the name is empty. if(name[0] == '\0') continue; // Populate a file then. File new_file; new_file.name = name; new_file.flags = (root_directory[file_offset + 0] & 0x80 ? File::Flags::Readable : 0) | (root_directory[file_offset + 1] & 0x80 ? File::Flags::Writable : 0) | (root_directory[file_offset + 2] & 0x80 ? File::Flags::Locked : 0) | (root_directory[file_offset + 3] & 0x80 ? File::Flags::IsDirectory : 0) | (root_directory[file_offset + 4] & 0x80 ? File::Flags::ExecuteOnly : 0) | (root_directory[file_offset + 5] & 0x80 ? File::Flags::PubliclyReadable : 0) | (root_directory[file_offset + 6] & 0x80 ? File::Flags::PubliclyWritable : 0) | (root_directory[file_offset + 7] & 0x80 ? File::Flags::PubliclyExecuteOnly : 0) | (root_directory[file_offset + 8] & 0x80 ? File::Flags::IsPrivate : 0); new_file.load_address = (uint32_t(root_directory[file_offset + 0x0a]) << 0) | (uint32_t(root_directory[file_offset + 0x0b]) << 8) | (uint32_t(root_directory[file_offset + 0x0c]) << 16) | (uint32_t(root_directory[file_offset + 0x0d]) << 24); new_file.execution_address = (uint32_t(root_directory[file_offset + 0x0e]) << 0) | (uint32_t(root_directory[file_offset + 0x0f]) << 8) | (uint32_t(root_directory[file_offset + 0x10]) << 16) | (uint32_t(root_directory[file_offset + 0x11]) << 24); new_file.sequence_number = root_directory[file_offset + 0x19]; const uint32_t size = (uint32_t(root_directory[file_offset + 0x12]) << 0) | (uint32_t(root_directory[file_offset + 0x13]) << 8) | (uint32_t(root_directory[file_offset + 0x14]) << 16) | (uint32_t(root_directory[file_offset + 0x15]) << 24); uint32_t start_sector = (uint32_t(root_directory[file_offset + 0x16]) << 0) | (uint32_t(root_directory[file_offset + 0x17]) << 8) | (uint32_t(root_directory[file_offset + 0x18]) << 16); new_file.data.reserve(size); while(new_file.data.size() < size) { const Storage::Encodings::MFM::Sector *const sector = parser.sector(start_sector / (80 * 16), (start_sector / 16) % 80, start_sector % 16); if(!sector) break; const auto length_from_sector = std::min(size - new_file.data.size(), sector->samples[0].size()); new_file.data.insert(new_file.data.end(), sector->samples[0].begin(), sector->samples[0].begin() + ssize_t(length_from_sector)); ++start_sector; } catalogue->files.push_back(std::move(new_file)); } return catalogue; }