//--------------------------------------------------------------------------- // // 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/rascsi_exceptions.h" #include "scsi_command_util.h" #include "scsimo.h" using namespace scsi_command_util; SCSIMO::SCSIMO(int lun, const unordered_set& sector_sizes) : Disk(SCMO, lun) { SetSectorSizes(sector_sizes); // 128 MB, 512 bytes per sector, 248826 sectors geometries[512 * 248826] = make_pair(512, 248826); // 230 MB, 512 bytes per block, 446325 sectors geometries[512 * 446325] = make_pair(512, 446325); // 540 MB, 512 bytes per sector, 1041500 sectors geometries[512 * 1041500] = make_pair(512, 1041500); // 640 MB, 20248 bytes per sector, 310352 sectors geometries[2048 * 310352] = make_pair(2048, 310352); SetProtectable(true); SetRemovable(true); SetLockable(true); SupportsSaveParameters(true); } void SCSIMO::Open() { assert(!IsReady()); // For some capacities there are hard-coded, well-defined sector sizes and block counts if (const off_t size = GetFileSize(); !SetGeometryForCapacity(size)) { // Sector size (default 512 bytes) and number of blocks SetSectorSizeInBytes(GetConfiguredSectorSize() ? GetConfiguredSectorSize() : 512); SetBlockCount(size >> GetSectorSizeShiftCount()); } Disk::ValidateFile(); SetUpCache(0); // Attention if ready if (IsReady()) { SetAttn(true); } } vector SCSIMO::InquiryInternal() const { return HandleInquiry(device_type::OPTICAL_MEMORY, scsi_level::SCSI_2, true); } void SCSIMO::SetUpModePages(map>& pages, int page, bool changeable) const { Disk::SetUpModePages(pages, page, changeable); // Page code 6 if (page == 0x06 || page == 0x3f) { AddOptionPage(pages, changeable); } } void SCSIMO::AddFormatPage(map>& pages, bool changeable) const { Disk::AddFormatPage(pages, changeable); EnrichFormatPage(pages, changeable, 1 << GetSectorSizeShiftCount()); } void SCSIMO::AddOptionPage(map>& pages, bool) const { vector buf(4); pages[6] = buf; // Do not report update blocks } void SCSIMO::ModeSelect(scsi_command cmd, const vector& cdb, const vector& buf, int length) const { scsi_command_util::ModeSelect(GetLogger(), cmd, cdb, buf, length, 1 << GetSectorSizeShiftCount()); } // // Mode page code 20h - Vendor Unique Format Page // Format mode XXh type 0 // Information: http://h20628.www2.hp.com/km-ext/kmcsdirect/emr_na-lpg28560-1.pdf // Offset description // 02h format mode // 03h type of format (0) // 04~07h size of user band (total sectors?) // 08~09h size of spare band (spare sectors?) // 0A~0Bh number of bands // // Actual value of each 3.5 inches optical medium (grabbed by Fujitsu M2513EL) // // 128M 230M 540M 640M // --------------------------------------------------- // Size of user band 3CBFAh 6CF75h FE45Ch 4BC50h // Size of spare band 0400h 0401h 08CAh 08C4h // Number of bands 0001h 000Ah 0012h 000Bh // // Further information: http://r2089.blog36.fc2.com/blog-entry-177.html // void SCSIMO::AddVendorPage(map>& pages, int page, bool changeable) const { if (page != 0x20 && page != 0x3f) { return; } vector buf(12); // No changeable area if (changeable) { pages[32] = buf; return; } if (IsReady()) { unsigned spare = 0; unsigned bands = 0; uint64_t blocks = GetBlockCount(); if (GetSectorSizeInBytes() == 512) { switch (blocks) { // 128MB case 248826: spare = 1024; bands = 1; break; // 230MB case 446325: spare = 1025; bands = 10; break; // 540MB case 1041500: spare = 2250; bands = 18; break; default: break; } } if (GetSectorSizeInBytes() == 2048) { switch (blocks) { // 640MB case 310352: spare = 2244; bands = 11; break; // 1.3GB (lpproj: not tested with real device) case 605846: spare = 4437; bands = 18; break; default: break; } } buf[2] = (byte)0; // format mode buf[3] = (byte)0; // type of format SetInt32(buf, 4, static_cast(blocks)); SetInt16(buf, 8, spare); SetInt16(buf, 10, bands); } pages[32] = buf; return; } bool SCSIMO::SetGeometryForCapacity(uint64_t capacity) { if (const auto& geometry = geometries.find(capacity); geometry != geometries.end()) { SetSectorSizeInBytes(geometry->second.first); SetBlockCount(geometry->second.second); return true; } return false; }