//--------------------------------------------------------------------------- // // SCSI Target Emulator RaSCSI Reloaded // for Raspberry Pi // // Copyright (C) 2001-2006 PI.(ytanaka@ipc-tokai.or.jp) // Copyright (C) 2014-2020 GIMONS // Copyright (C) akuker // // Licensed under the BSD 3-Clause License. // See LICENSE file in the project root folder. // //--------------------------------------------------------------------------- #include "shared/rasutil.h" #include "shared/rascsi_exceptions.h" #include "scsi_command_util.h" #include "scsihd_nec.h" #include using namespace ras_util; using namespace scsi_command_util; void SCSIHD_NEC::Open() { assert(!IsReady()); off_t size = GetFileSize(); array root_sector; ifstream in(GetFilename(), ios::binary); in.read(root_sector.data(), root_sector.size()); if (!in.good() || size < static_cast(root_sector.size())) { throw io_exception("Can't read NEC hard disk file root sector"); } // Effective size must be a multiple of 512 size = (size / 512) * 512; // Determine parameters by extension const auto [image_size, sector_size] = SetParameters(root_sector, static_cast(size)); SetSectorSizeShiftCount(static_cast(size)); SetBlockCount(image_size >> GetSectorSizeShiftCount()); FinalizeSetup(image_offset); } pair SCSIHD_NEC::SetParameters(const array& data, int size) { array root_sector = {}; memcpy(root_sector.data(), data.data(), root_sector.size()); int image_size; int sector_size; // PC-9801-55 NEC compatible? if (const string ext = GetExtensionLowerCase(GetFilename()); ext == "hdn") { // Assuming sector size 512, number of sectors 25, number of heads 8 as default settings image_offset = 0; image_size = size; sector_size = 512; sectors = 25; heads = 8; cylinders = size >> 9; cylinders >>= 3; cylinders /= 25; } // Anex86 HD image? else if (ext == "hdi") { image_offset = GetInt32LittleEndian(&root_sector[8]); image_size = GetInt32LittleEndian(&root_sector[12]); sector_size = GetInt32LittleEndian(&root_sector[16]); sectors = GetInt32LittleEndian(&root_sector[20]); heads = GetInt32LittleEndian(&root_sector[24]); cylinders = GetInt32LittleEndian(&root_sector[28]); } // T98Next HD image? else if (ext == "nhd") { if (!memcmp(root_sector.data(), "T98HDDIMAGE.R0\0", 15)) { image_offset = GetInt32LittleEndian(&root_sector[0x110]); cylinders = GetInt32LittleEndian(&root_sector[0x114]); heads = GetInt16LittleEndian(&root_sector[0x118]); sectors = GetInt16LittleEndian(&root_sector[0x11a]); sector_size = GetInt16LittleEndian(&root_sector[0x11c]); image_size = static_cast(static_cast(cylinders * heads * sectors * sector_size)); } else { throw io_exception("Invalid NEC image file format"); } } else { throw io_exception("Invalid NEC image file extension"); } if (sector_size == 0) { throw io_exception("Invalid NEC sector size 0"); } // Image size consistency check if (image_offset + image_size > size) { throw io_exception("NEC image offset/size consistency check failed"); } if (CalculateShiftCount(sector_size) == 0) { throw io_exception("Invalid NEC sector size of " + to_string(sector_size) + " byte(s)"); } return make_pair(image_size, sector_size); } vector SCSIHD_NEC::InquiryInternal() const { return HandleInquiry(device_type::DIRECT_ACCESS, scsi_level::SCSI_1_CCS, false); } void SCSIHD_NEC::AddFormatPage(map>& pages, bool changeable) const { vector buf(24); // Page can be saved buf[0] = (byte)0x80; // Make the number of bytes in the physical sector appear mutable (although it cannot actually be) if (changeable) { SetInt16(buf, 0x0c, -1); pages[3] = buf; return; } if (IsReady()) { // Set the number of tracks in one zone (PC-9801-55 seems to see this value) SetInt16(buf, 0x02, heads); // Set the number of sectors per track SetInt16(buf, 0x0a, sectors); // Set the number of bytes in the physical sector SetInt16(buf, 0x0c, GetSectorSizeInBytes()); } // Set removable attributes (remains of the old days) if (IsRemovable()) { buf[20] = (byte)0x20; } pages[3] = buf; } void SCSIHD_NEC::AddDrivePage(map>& pages, bool changeable) const { vector buf(20); // No changeable area if (!changeable && IsReady()) { // Set the number of cylinders SetInt32(buf, 0x01, cylinders); // Set the number of heads buf[0x5] = (byte)heads; } pages[4] = buf; } int SCSIHD_NEC::GetInt16LittleEndian(const uint8_t *buf) { return (static_cast(buf[1]) << 8) | buf[0]; } int SCSIHD_NEC::GetInt32LittleEndian(const uint8_t *buf) { return (static_cast(buf[3]) << 24) | (static_cast(buf[2]) << 16) | (static_cast(buf[1]) << 8) | buf[0]; }