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Aaru/DiscImageChef/Commands/DeviceInfo.cs

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// /***************************************************************************
// The Disc Image Chef
// ----------------------------------------------------------------------------
//
// Filename : DeviceInfo.cs
// Author(s) : Natalia Portillo <claunia@claunia.com>
//
// Component : Verbs.
//
// --[ Description ] ----------------------------------------------------------
//
// Implements the 'device-info' verb.
//
// --[ License ] --------------------------------------------------------------
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
// ----------------------------------------------------------------------------
// Copyright © 2011-2018 Natalia Portillo
// ****************************************************************************/
using System;
using DiscImageChef.Console;
using DiscImageChef.Core;
using DiscImageChef.Decoders.ATA;
using DiscImageChef.Decoders.PCMCIA;
using DiscImageChef.Decoders.SCSI;
using DiscImageChef.Decoders.SCSI.MMC;
using DiscImageChef.Decoders.SCSI.SSC;
using DiscImageChef.Devices;
using Tuple = DiscImageChef.Decoders.PCMCIA.Tuple;
namespace DiscImageChef.Commands
{
static class DeviceInfo
{
internal static void DoDeviceInfo(DeviceInfoOptions options)
{
DicConsole.DebugWriteLine("Device-Info command", "--debug={0}", options.Debug);
DicConsole.DebugWriteLine("Device-Info command", "--verbose={0}", options.Verbose);
DicConsole.DebugWriteLine("Device-Info command", "--device={0}", options.DevicePath);
DicConsole.DebugWriteLine("Device-Info command", "--output-prefix={0}", options.OutputPrefix);
if(options.DevicePath.Length == 2 && options.DevicePath[1] == ':' && options.DevicePath[0] != '/' &&
char.IsLetter(options.DevicePath[0])) options.DevicePath = "\\\\.\\" + char.ToUpper(options.DevicePath[0]) + ':';
Device dev = new Device(options.DevicePath);
if(dev.Error)
{
DicConsole.ErrorWriteLine("Error {0} opening device.", dev.LastError);
return;
}
Core.Statistics.AddDevice(dev);
if(dev.IsUsb)
{
DicConsole.WriteLine("USB device");
if(dev.UsbDescriptors != null)
DicConsole.WriteLine("USB descriptor is {0} bytes", dev.UsbDescriptors.Length);
DicConsole.WriteLine("USB Vendor ID: {0:X4}", dev.UsbVendorId);
DicConsole.WriteLine("USB Product ID: {0:X4}", dev.UsbProductId);
DicConsole.WriteLine("USB Manufacturer: {0}", dev.UsbManufacturerString);
DicConsole.WriteLine("USB Product: {0}", dev.UsbProductString);
DicConsole.WriteLine("USB Serial number: {0}", dev.UsbSerialString);
DicConsole.WriteLine();
}
if(dev.IsFireWire)
{
DicConsole.WriteLine("FireWire device");
DicConsole.WriteLine("FireWire Vendor ID: {0:X6}", dev.FireWireVendor);
DicConsole.WriteLine("FireWire Model ID: {0:X6}", dev.FireWireModel);
DicConsole.WriteLine("FireWire Manufacturer: {0}", dev.FireWireVendorName);
DicConsole.WriteLine("FireWire Model: {0}", dev.FireWireModelName);
DicConsole.WriteLine("FireWire GUID: {0:X16}", dev.FireWireGuid);
DicConsole.WriteLine();
}
if(dev.IsPcmcia)
{
DicConsole.WriteLine("PCMCIA device");
DicConsole.WriteLine("PCMCIA CIS is {0} bytes", dev.Cis.Length);
Tuple[] tuples = CIS.GetTuples(dev.Cis);
if(tuples != null)
foreach(Tuple tuple in tuples)
switch(tuple.Code)
{
case TupleCodes.CISTPL_NULL:
case TupleCodes.CISTPL_END: break;
case TupleCodes.CISTPL_DEVICEGEO:
case TupleCodes.CISTPL_DEVICEGEO_A:
DicConsole.WriteLine("{0}", CIS.PrettifyDeviceGeometryTuple(tuple));
break;
case TupleCodes.CISTPL_MANFID:
DicConsole.WriteLine("{0}",
CIS
.PrettifyManufacturerIdentificationTuple(tuple));
break;
case TupleCodes.CISTPL_VERS_1:
DicConsole.WriteLine("{0}", CIS.PrettifyLevel1VersionTuple(tuple));
break;
case TupleCodes.CISTPL_ALTSTR:
case TupleCodes.CISTPL_BAR:
case TupleCodes.CISTPL_BATTERY:
case TupleCodes.CISTPL_BYTEORDER:
case TupleCodes.CISTPL_CFTABLE_ENTRY:
case TupleCodes.CISTPL_CFTABLE_ENTRY_CB:
case TupleCodes.CISTPL_CHECKSUM:
case TupleCodes.CISTPL_CONFIG:
case TupleCodes.CISTPL_CONFIG_CB:
case TupleCodes.CISTPL_DATE:
case TupleCodes.CISTPL_DEVICE:
case TupleCodes.CISTPL_DEVICE_A:
case TupleCodes.CISTPL_DEVICE_OA:
case TupleCodes.CISTPL_DEVICE_OC:
case TupleCodes.CISTPL_EXTDEVIC:
case TupleCodes.CISTPL_FORMAT:
case TupleCodes.CISTPL_FORMAT_A:
case TupleCodes.CISTPL_FUNCE:
case TupleCodes.CISTPL_FUNCID:
case TupleCodes.CISTPL_GEOMETRY:
case TupleCodes.CISTPL_INDIRECT:
case TupleCodes.CISTPL_JEDEC_A:
case TupleCodes.CISTPL_JEDEC_C:
case TupleCodes.CISTPL_LINKTARGET:
case TupleCodes.CISTPL_LONGLINK_A:
case TupleCodes.CISTPL_LONGLINK_C:
case TupleCodes.CISTPL_LONGLINK_CB:
case TupleCodes.CISTPL_LONGLINK_MFC:
case TupleCodes.CISTPL_NO_LINK:
case TupleCodes.CISTPL_ORG:
case TupleCodes.CISTPL_PWR_MGMNT:
case TupleCodes.CISTPL_SPCL:
case TupleCodes.CISTPL_SWIL:
case TupleCodes.CISTPL_VERS_2:
DicConsole.DebugWriteLine("Device-Info command", "Found undecoded tuple ID {0}",
tuple.Code);
break;
default:
DicConsole.DebugWriteLine("Device-Info command", "Found unknown tuple ID 0x{0:X2}",
(byte)tuple.Code);
break;
}
else DicConsole.DebugWriteLine("Device-Info command", "Could not get tuples");
}
switch(dev.Type)
{
case DeviceType.ATA:
{
bool sense = dev.AtaIdentify(out byte[] ataBuf, out AtaErrorRegistersChs errorRegisters);
if(sense)
{
DicConsole.DebugWriteLine("Device-Info command", "STATUS = 0x{0:X2}", errorRegisters.Status);
DicConsole.DebugWriteLine("Device-Info command", "ERROR = 0x{0:X2}", errorRegisters.Error);
DicConsole.DebugWriteLine("Device-Info command", "NSECTOR = 0x{0:X2}",
errorRegisters.SectorCount);
DicConsole.DebugWriteLine("Device-Info command", "SECTOR = 0x{0:X2}", errorRegisters.Sector);
DicConsole.DebugWriteLine("Device-Info command", "CYLHIGH = 0x{0:X2}",
errorRegisters.CylinderHigh);
DicConsole.DebugWriteLine("Device-Info command", "CYLLOW = 0x{0:X2}",
errorRegisters.CylinderLow);
DicConsole.DebugWriteLine("Device-Info command", "DEVICE = 0x{0:X2}",
errorRegisters.DeviceHead);
DicConsole.DebugWriteLine("Device-Info command", "Error code = {0}", dev.LastError);
break;
}
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_ata_identify.bin", "ATA IDENTIFY",
ataBuf);
DicConsole.WriteLine(Identify.Prettify(ataBuf));
dev.EnableMediaCardPassThrough(out errorRegisters, dev.Timeout, out _);
if(errorRegisters.Sector == 0xAA && errorRegisters.SectorCount == 0x55)
{
DicConsole.WriteLine("Device supports the Media Card Pass Through Command Set");
switch(errorRegisters.DeviceHead & 0x7)
{
case 0:
DicConsole.WriteLine("Device reports incorrect media card type");
break;
case 1:
DicConsole.WriteLine("Device contains a Secure Digital card");
break;
case 2:
DicConsole.WriteLine("Device contains a MultiMediaCard ");
break;
case 3:
DicConsole.WriteLine("Device contains a Secure Digital I/O card");
break;
case 4:
DicConsole.WriteLine("Device contains a Smart Media card");
break;
default:
DicConsole.WriteLine("Device contains unknown media card type {0}",
errorRegisters.DeviceHead & 0x07);
break;
}
if((errorRegisters.DeviceHead & 0x08) == 0x08)
DicConsole.WriteLine("Media card is write protected");
ushort specificData =
(ushort)(errorRegisters.CylinderHigh * 0x100 + errorRegisters.CylinderLow);
if(specificData != 0) DicConsole.WriteLine("Card specific data: 0x{0:X4}", specificData);
}
break;
}
case DeviceType.ATAPI:
{
bool sense = dev.AtapiIdentify(out byte[] ataBuf, out AtaErrorRegistersChs errorRegisters);
if(sense)
{
DicConsole.DebugWriteLine("Device-Info command", "STATUS = 0x{0:X2}", errorRegisters.Status);
DicConsole.DebugWriteLine("Device-Info command", "ERROR = 0x{0:X2}", errorRegisters.Error);
DicConsole.DebugWriteLine("Device-Info command", "NSECTOR = 0x{0:X2}",
errorRegisters.SectorCount);
DicConsole.DebugWriteLine("Device-Info command", "SECTOR = 0x{0:X2}", errorRegisters.Sector);
DicConsole.DebugWriteLine("Device-Info command", "CYLHIGH = 0x{0:X2}",
errorRegisters.CylinderHigh);
DicConsole.DebugWriteLine("Device-Info command", "CYLLOW = 0x{0:X2}",
errorRegisters.CylinderLow);
DicConsole.DebugWriteLine("Device-Info command", "DEVICE = 0x{0:X2}",
errorRegisters.DeviceHead);
DicConsole.DebugWriteLine("Device-Info command", "Error code = {0}", dev.LastError);
break;
}
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_atapi_identify.bin",
"ATAPI IDENTIFY", ataBuf);
DicConsole.WriteLine(Identify.Prettify(ataBuf));
// ATAPI devices are also SCSI devices
goto case DeviceType.SCSI;
}
case DeviceType.SCSI:
{
bool sense = dev.ScsiInquiry(out byte[] inqBuf, out byte[] senseBuf);
if(sense)
{
DicConsole.ErrorWriteLine("SCSI error:\n{0}", Sense.PrettifySense(senseBuf));
break;
}
if(dev.Type != DeviceType.ATAPI) DicConsole.WriteLine("SCSI device");
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_scsi_inquiry.bin", "SCSI INQUIRY",
inqBuf);
Inquiry.SCSIInquiry? inq = Inquiry.Decode(inqBuf);
DicConsole.WriteLine(Inquiry.Prettify(inq));
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, 0x00);
if(!sense)
{
byte[] pages = EVPD.DecodePage00(inqBuf);
if(pages != null)
foreach(byte page in pages)
if(page >= 0x01 && page <= 0x7F)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("ASCII Page {0:X2}h: {1}", page,
EVPD.DecodeASCIIPage(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0x80)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("Unit Serial Number: {0}",
EVPD.DecodePage80(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0x81)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_81(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0x82)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("ASCII implemented operating definitions: {0}",
EVPD.DecodePage82(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0x83)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_83(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0x84)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_84(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0x85)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_85(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0x86)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_86(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0x89)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_89(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xB0)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_B0(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xB1)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("Manufacturer-assigned Serial Number: {0}",
EVPD.DecodePageB1(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xB2)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("TapeAlert Supported Flags Bitmap: 0x{0:X16}",
EVPD.DecodePageB2(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xB3)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("Automation Device Serial Number: {0}",
EVPD.DecodePageB3(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xB4)
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("Data Transfer Device Element Address: 0x{0}",
EVPD.DecodePageB4(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xC0 &&
StringHandlers
.CToString(inq.Value.VendorIdentification).ToLowerInvariant().Trim() ==
"quantum")
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_C0_Quantum(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xC0 &&
StringHandlers
.CToString(inq.Value.VendorIdentification).ToLowerInvariant().Trim() ==
"seagate")
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_C0_Seagate(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xC0 &&
StringHandlers
.CToString(inq.Value.VendorIdentification).ToLowerInvariant().Trim() ==
"ibm")
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_C0_IBM(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xC1 &&
StringHandlers
.CToString(inq.Value.VendorIdentification).ToLowerInvariant().Trim() ==
"ibm")
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}", EVPD.PrettifyPage_C1_IBM(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if((page == 0xC0 || page == 0xC1) &&
StringHandlers
.CToString(inq.Value.VendorIdentification).ToLowerInvariant().Trim() ==
"certance")
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}",
EVPD.PrettifyPage_C0_C1_Certance(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(
(page == 0xC2 || page == 0xC3 || page == 0xC4 || page == 0xC5 || page == 0xC6) &&
StringHandlers.CToString(inq.Value.VendorIdentification).ToLowerInvariant()
.Trim() == "certance")
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}",
EVPD
.PrettifyPage_C2_C3_C4_C5_C6_Certance(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if((page == 0xC0 || page == 0xC1 || page == 0xC2 || page == 0xC3 || page == 0xC4 ||
page == 0xC5) &&
StringHandlers
.CToString(inq.Value.VendorIdentification).ToLowerInvariant().Trim() ==
"hp")
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}",
EVPD.PrettifyPage_C0_to_C5_HP(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else if(page == 0xDF &&
StringHandlers
.CToString(inq.Value.VendorIdentification).ToLowerInvariant().Trim() ==
"certance")
{
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(sense) continue;
DicConsole.WriteLine("{0}",
EVPD.PrettifyPage_DF_Certance(inqBuf));
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
else
{
if(page == 0x00) continue;
DicConsole.DebugWriteLine("Device-Info command",
"Found undecoded SCSI VPD page 0x{0:X2}", page);
sense = dev.ScsiInquiry(out inqBuf, out senseBuf, page);
if(!sense)
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
$"_scsi_evpd_{page:X2}h.bin", $"SCSI INQUIRY EVPD {page:X2}h", inqBuf);
}
}
Modes.DecodedMode? decMode = null;
PeripheralDeviceTypes devType =
(PeripheralDeviceTypes)inq.Value.PeripheralDeviceType;
sense = dev.ModeSense10(out byte[] modeBuf, out senseBuf, false, true, ScsiModeSensePageControl.Current,
0x3F, 0xFF, 5, out _);
if(sense || dev.Error)
sense = dev.ModeSense10(out modeBuf, out senseBuf, false, true,
ScsiModeSensePageControl.Current, 0x3F, 0x00, 5, out _);
if(!sense && !dev.Error) decMode = Modes.DecodeMode10(modeBuf, devType);
if(sense || dev.Error || !decMode.HasValue)
{
sense = dev.ModeSense6(out modeBuf, out senseBuf, false, ScsiModeSensePageControl.Current, 0x3F,
0xFF, 5, out _);
if(sense || dev.Error)
sense = dev.ModeSense6(out modeBuf, out senseBuf, false, ScsiModeSensePageControl.Current,
0x3F, 0x00, 5, out _);
if(sense || dev.Error) sense = dev.ModeSense(out modeBuf, out senseBuf, 5, out _);
if(!sense && !dev.Error) decMode = Modes.DecodeMode6(modeBuf, devType);
}
if(!sense)
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_scsi_modesense.bin",
"SCSI MODE SENSE", modeBuf);
if(decMode.HasValue)
{
DicConsole.WriteLine(Modes.PrettifyModeHeader(decMode.Value.Header, devType));
if(decMode.Value.Pages != null)
foreach(Modes.ModePage page in decMode.Value.Pages)
//DicConsole.WriteLine("Page {0:X2}h subpage {1:X2}h is {2} bytes long", page.Page, page.Subpage, page.PageResponse.Length);
switch(page.Page)
{
case 0x00:
{
if(devType == PeripheralDeviceTypes.MultiMediaDevice &&
page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_00_SFF(page.PageResponse));
else
{
if(page.Subpage != 0)
DicConsole
.WriteLine("Found unknown vendor mode page {0:X2}h subpage {1:X2}h",
page.Page, page.Subpage);
else
DicConsole.WriteLine("Found unknown vendor mode page {0:X2}h",
page.Page);
}
break;
}
case 0x01:
{
if(page.Subpage == 0)
if(devType == PeripheralDeviceTypes.MultiMediaDevice)
DicConsole.WriteLine(Modes
.PrettifyModePage_01_MMC(page
.PageResponse));
else
DicConsole.WriteLine(Modes
.PrettifyModePage_01(page.PageResponse));
else goto default;
break;
}
case 0x02:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_02(page.PageResponse));
else goto default;
break;
}
case 0x03:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_03(page.PageResponse));
else goto default;
break;
}
case 0x04:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_04(page.PageResponse));
else goto default;
break;
}
case 0x05:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_05(page.PageResponse));
else goto default;
break;
}
case 0x06:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_06(page.PageResponse));
else goto default;
break;
}
case 0x07:
{
if(page.Subpage == 0)
if(devType == PeripheralDeviceTypes.MultiMediaDevice)
DicConsole.WriteLine(Modes
.PrettifyModePage_07_MMC(page
.PageResponse));
else
DicConsole.WriteLine(Modes
.PrettifyModePage_07(page.PageResponse));
else goto default;
break;
}
case 0x08:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_08(page.PageResponse));
else goto default;
break;
}
case 0x0A:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_0A(page.PageResponse));
else if(page.Subpage == 1)
DicConsole.WriteLine(Modes
.PrettifyModePage_0A_S01(page.PageResponse));
else goto default;
break;
}
case 0x0B:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_0B(page.PageResponse));
else goto default;
break;
}
case 0x0D:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_0D(page.PageResponse));
else goto default;
break;
}
case 0x0E:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_0E(page.PageResponse));
else goto default;
break;
}
case 0x0F:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_0F(page.PageResponse));
else goto default;
break;
}
case 0x10:
{
if(page.Subpage == 0)
if(devType == PeripheralDeviceTypes.SequentialAccess)
DicConsole.WriteLine(Modes
.PrettifyModePage_10_SSC(page
.PageResponse));
else
DicConsole.WriteLine(Modes
.PrettifyModePage_10(page.PageResponse));
else goto default;
break;
}
case 0x11:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_11(page.PageResponse));
else goto default;
break;
}
case 0x12:
case 0x13:
case 0x14:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_12_13_14(page
.PageResponse));
else goto default;
break;
}
case 0x1A:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_1A(page.PageResponse));
else if(page.Subpage == 1)
DicConsole.WriteLine(Modes
.PrettifyModePage_1A_S01(page.PageResponse));
else goto default;
break;
}
case 0x1B:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_1B(page.PageResponse));
else goto default;
break;
}
case 0x1C:
{
if(page.Subpage == 0)
if(devType == PeripheralDeviceTypes.MultiMediaDevice)
DicConsole.WriteLine(Modes
.PrettifyModePage_1C_SFF(page
.PageResponse));
else
DicConsole.WriteLine(Modes
.PrettifyModePage_1C(page.PageResponse));
else if(page.Subpage == 1)
DicConsole.WriteLine(Modes
.PrettifyModePage_1C_S01(page.PageResponse));
else goto default;
break;
}
case 0x1D:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_1D(page.PageResponse));
else goto default;
break;
}
case 0x21:
{
if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "CERTANCE"
)
DicConsole.WriteLine(Modes
.PrettifyCertanceModePage_21(page
.PageResponse));
else goto default;
break;
}
case 0x22:
{
if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "CERTANCE"
)
DicConsole.WriteLine(Modes
.PrettifyCertanceModePage_22(page
.PageResponse));
else goto default;
break;
}
case 0x24:
{
if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "IBM")
DicConsole.WriteLine(Modes
.PrettifyIBMModePage_24(page.PageResponse));
else goto default;
break;
}
case 0x2A:
{
if(page.Subpage == 0)
DicConsole.WriteLine(Modes
.PrettifyModePage_2A(page.PageResponse));
else goto default;
break;
}
case 0x2F:
{
if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "IBM")
DicConsole.WriteLine(Modes
.PrettifyIBMModePage_2F(page.PageResponse));
else goto default;
break;
}
case 0x30:
{
if(Modes.IsAppleModePage_30(page.PageResponse))
DicConsole.WriteLine("Drive identifies as Apple OEM drive");
else goto default;
break;
}
case 0x3B:
{
if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "HP")
DicConsole.WriteLine(Modes
.PrettifyHPModePage_3B(page.PageResponse));
else goto default;
break;
}
case 0x3C:
{
if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "HP")
DicConsole.WriteLine(Modes
.PrettifyHPModePage_3C(page.PageResponse));
else goto default;
break;
}
case 0x3D:
{
if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "IBM")
DicConsole.WriteLine(Modes
.PrettifyIBMModePage_3D(page.PageResponse));
else if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "HP")
DicConsole.WriteLine(Modes
.PrettifyHPModePage_3D(page.PageResponse));
else goto default;
break;
}
case 0x3E:
{
if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "FUJITSU")
DicConsole.WriteLine(Modes
.PrettifyFujitsuModePage_3E(page
.PageResponse));
else if(StringHandlers.CToString(inq.Value.VendorIdentification).Trim() == "HP")
DicConsole.WriteLine(Modes
.PrettifyHPModePage_3E(page.PageResponse));
else goto default;
break;
}
default:
{
if(page.Subpage != 0)
DicConsole.WriteLine("Found unknown mode page {0:X2}h subpage {1:X2}h",
page.Page, page.Subpage);
else DicConsole.WriteLine("Found unknown mode page {0:X2}h", page.Page);
break;
}
}
}
switch(devType) {
case PeripheralDeviceTypes.MultiMediaDevice:
sense = dev.GetConfiguration(out byte[] confBuf, out senseBuf, dev.Timeout, out _);
if(!sense)
{
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_mmc_getconfiguration.bin",
"MMC GET CONFIGURATION", confBuf);
Features.SeparatedFeatures ftr =
Features.Separate(confBuf);
DicConsole.DebugWriteLine("Device-Info command", "GET CONFIGURATION length is {0} bytes",
ftr.DataLength);
DicConsole.DebugWriteLine("Device-Info command",
"GET CONFIGURATION current profile is {0:X4}h",
ftr.CurrentProfile);
if(ftr.Descriptors != null)
{
DicConsole.WriteLine("SCSI MMC GET CONFIGURATION Features:");
foreach(Features.FeatureDescriptor desc in ftr.Descriptors)
{
DicConsole.DebugWriteLine("Device-Info command", "Feature {0:X4}h", desc.Code);
switch(desc.Code)
{
case 0x0000:
DicConsole.WriteLine(Features.Prettify_0000(desc.Data));
break;
case 0x0001:
DicConsole.WriteLine(Features.Prettify_0001(desc.Data));
break;
case 0x0002:
DicConsole.WriteLine(Features.Prettify_0002(desc.Data));
break;
case 0x0003:
DicConsole.WriteLine(Features.Prettify_0003(desc.Data));
break;
case 0x0004:
DicConsole.WriteLine(Features.Prettify_0004(desc.Data));
break;
case 0x0010:
DicConsole.WriteLine(Features.Prettify_0010(desc.Data));
break;
case 0x001D:
DicConsole.WriteLine(Features.Prettify_001D(desc.Data));
break;
case 0x001E:
DicConsole.WriteLine(Features.Prettify_001E(desc.Data));
break;
case 0x001F:
DicConsole.WriteLine(Features.Prettify_001F(desc.Data));
break;
case 0x0020:
DicConsole.WriteLine(Features.Prettify_0020(desc.Data));
break;
case 0x0021:
DicConsole.WriteLine(Features.Prettify_0021(desc.Data));
break;
case 0x0022:
DicConsole.WriteLine(Features.Prettify_0022(desc.Data));
break;
case 0x0023:
DicConsole.WriteLine(Features.Prettify_0023(desc.Data));
break;
case 0x0024:
DicConsole.WriteLine(Features.Prettify_0024(desc.Data));
break;
case 0x0025:
DicConsole.WriteLine(Features.Prettify_0025(desc.Data));
break;
case 0x0026:
DicConsole.WriteLine(Features.Prettify_0026(desc.Data));
break;
case 0x0027:
DicConsole.WriteLine(Features.Prettify_0027(desc.Data));
break;
case 0x0028:
DicConsole.WriteLine(Features.Prettify_0028(desc.Data));
break;
case 0x0029:
DicConsole.WriteLine(Features.Prettify_0029(desc.Data));
break;
case 0x002A:
DicConsole.WriteLine(Features.Prettify_002A(desc.Data));
break;
case 0x002B:
DicConsole.WriteLine(Features.Prettify_002B(desc.Data));
break;
case 0x002C:
DicConsole.WriteLine(Features.Prettify_002C(desc.Data));
break;
case 0x002D:
DicConsole.WriteLine(Features.Prettify_002D(desc.Data));
break;
case 0x002E:
DicConsole.WriteLine(Features.Prettify_002E(desc.Data));
break;
case 0x002F:
DicConsole.WriteLine(Features.Prettify_002F(desc.Data));
break;
case 0x0030:
DicConsole.WriteLine(Features.Prettify_0030(desc.Data));
break;
case 0x0031:
DicConsole.WriteLine(Features.Prettify_0031(desc.Data));
break;
case 0x0032:
DicConsole.WriteLine(Features.Prettify_0032(desc.Data));
break;
case 0x0033:
DicConsole.WriteLine(Features.Prettify_0033(desc.Data));
break;
case 0x0035:
DicConsole.WriteLine(Features.Prettify_0035(desc.Data));
break;
case 0x0037:
DicConsole.WriteLine(Features.Prettify_0037(desc.Data));
break;
case 0x0038:
DicConsole.WriteLine(Features.Prettify_0038(desc.Data));
break;
case 0x003A:
DicConsole.WriteLine(Features.Prettify_003A(desc.Data));
break;
case 0x003B:
DicConsole.WriteLine(Features.Prettify_003B(desc.Data));
break;
case 0x0040:
DicConsole.WriteLine(Features.Prettify_0040(desc.Data));
break;
case 0x0041:
DicConsole.WriteLine(Features.Prettify_0041(desc.Data));
break;
case 0x0042:
DicConsole.WriteLine(Features.Prettify_0042(desc.Data));
break;
case 0x0050:
DicConsole.WriteLine(Features.Prettify_0050(desc.Data));
break;
case 0x0051:
DicConsole.WriteLine(Features.Prettify_0051(desc.Data));
break;
case 0x0080:
DicConsole.WriteLine(Features.Prettify_0080(desc.Data));
break;
case 0x0100:
DicConsole.WriteLine(Features.Prettify_0100(desc.Data));
break;
case 0x0101:
DicConsole.WriteLine(Features.Prettify_0101(desc.Data));
break;
case 0x0102:
DicConsole.WriteLine(Features.Prettify_0102(desc.Data));
break;
case 0x0103:
DicConsole.WriteLine(Features.Prettify_0103(desc.Data));
break;
case 0x0104:
DicConsole.WriteLine(Features.Prettify_0104(desc.Data));
break;
case 0x0105:
DicConsole.WriteLine(Features.Prettify_0105(desc.Data));
break;
case 0x0106:
DicConsole.WriteLine(Features.Prettify_0106(desc.Data));
break;
case 0x0107:
DicConsole.WriteLine(Features.Prettify_0107(desc.Data));
break;
case 0x0108:
DicConsole.WriteLine(Features.Prettify_0108(desc.Data));
break;
case 0x0109:
DicConsole.WriteLine(Features.Prettify_0109(desc.Data));
break;
case 0x010A:
DicConsole.WriteLine(Features.Prettify_010A(desc.Data));
break;
case 0x010B:
DicConsole.WriteLine(Features.Prettify_010B(desc.Data));
break;
case 0x010C:
DicConsole.WriteLine(Features.Prettify_010C(desc.Data));
break;
case 0x010D:
DicConsole.WriteLine(Features.Prettify_010D(desc.Data));
break;
case 0x010E:
DicConsole.WriteLine(Features.Prettify_010E(desc.Data));
break;
case 0x0110:
DicConsole.WriteLine(Features.Prettify_0110(desc.Data));
break;
case 0x0113:
DicConsole.WriteLine(Features.Prettify_0113(desc.Data));
break;
case 0x0142:
DicConsole.WriteLine(Features.Prettify_0142(desc.Data));
break;
default:
DicConsole.WriteLine("Found unknown feature code {0:X4}h", desc.Code);
break;
}
}
}
else
DicConsole.DebugWriteLine("Device-Info command",
"GET CONFIGURATION returned no feature descriptors");
}
// TODO: DVD drives respond correctly to BD status.
// While specification says if no medium is present
// it should inform all possible capabilities,
// testing drives show only supported media capabilities.
/*
byte[] strBuf;
sense = dev.ReadDiscStructure(out strBuf, out senseBuf, MmcDiscStructureMediaType.DVD, 0, 0, MmcDiscStructureFormat.CapabilityList, 0, dev.Timeout, out _);
if (!sense)
{
Decoders.SCSI.DiscStructureCapabilities.Capability[] caps = Decoders.SCSI.DiscStructureCapabilities.Decode(strBuf);
if (caps != null)
{
foreach (Decoders.SCSI.DiscStructureCapabilities.Capability cap in caps)
{
if (cap.SDS && cap.RDS)
DicConsole.WriteLine("Drive can READ/SEND DISC STRUCTURE format {0:X2}h", cap.FormatCode);
else if (cap.SDS)
DicConsole.WriteLine("Drive can SEND DISC STRUCTURE format {0:X2}h", cap.FormatCode);
else if (cap.RDS)
DicConsole.WriteLine("Drive can READ DISC STRUCTURE format {0:X2}h", cap.FormatCode);
}
}
}
sense = dev.ReadDiscStructure(out strBuf, out senseBuf, MmcDiscStructureMediaType.BD, 0, 0, MmcDiscStructureFormat.CapabilityList, 0, dev.Timeout, out _);
if (!sense)
{
Decoders.SCSI.DiscStructureCapabilities.Capability[] caps = Decoders.SCSI.DiscStructureCapabilities.Decode(strBuf);
if (caps != null)
{
foreach (Decoders.SCSI.DiscStructureCapabilities.Capability cap in caps)
{
if (cap.SDS && cap.RDS)
DicConsole.WriteLine("Drive can READ/SEND DISC STRUCTURE format {0:X2}h", cap.FormatCode);
else if (cap.SDS)
DicConsole.WriteLine("Drive can SEND DISC STRUCTURE format {0:X2}h", cap.FormatCode);
else if (cap.RDS)
DicConsole.WriteLine("Drive can READ DISC STRUCTURE format {0:X2}h", cap.FormatCode);
}
}
}
*/
#region Plextor
if(dev.Manufacturer == "PLEXTOR")
{
bool plxtSense = true;
bool plxtDvd = false;
byte[] plxtBuf = null;
switch(dev.Model)
{
case "DVDR PX-708A":
case "DVDR PX-708A2":
case "DVDR PX-712A":
plxtDvd = true;
plxtSense = dev.PlextorReadEeprom(out plxtBuf, out senseBuf, dev.Timeout,
out _);
break;
case "DVDR PX-714A":
case "DVDR PX-716A":
case "DVDR PX-716AL":
case "DVDR PX-755A":
case "DVDR PX-760A":
{
plxtBuf = new byte[256 * 4];
for(byte i = 0; i < 4; i++)
{
plxtSense = dev.PlextorReadEepromBlock(out byte[] plxtBufSmall, out senseBuf, i, 256,
dev.Timeout, out _);
if(plxtSense) break;
Array.Copy(plxtBufSmall, 0, plxtBuf, i * 256, 256);
}
plxtDvd = true;
break;
}
default:
{
if(dev.Model.StartsWith("CD-R ", StringComparison.Ordinal))
plxtSense = dev.PlextorReadEepromCdr(out plxtBuf, out senseBuf, dev.Timeout,
out _);
break;
}
}
if(!plxtSense)
{
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_plextor_eeprom.bin",
"PLEXTOR READ EEPROM", plxtBuf);
ushort discs;
uint cdReadTime, cdWriteTime, dvdReadTime = 0, dvdWriteTime = 0;
BigEndianBitConverter.IsLittleEndian = BitConverter.IsLittleEndian;
if(plxtDvd)
{
discs = BigEndianBitConverter.ToUInt16(plxtBuf, 0x0120);
cdReadTime = BigEndianBitConverter.ToUInt32(plxtBuf, 0x0122);
cdWriteTime = BigEndianBitConverter.ToUInt32(plxtBuf, 0x0126);
dvdReadTime = BigEndianBitConverter.ToUInt32(plxtBuf, 0x012A);
dvdWriteTime = BigEndianBitConverter.ToUInt32(plxtBuf, 0x012E);
}
else
{
discs = BigEndianBitConverter.ToUInt16(plxtBuf, 0x0078);
cdReadTime = BigEndianBitConverter.ToUInt32(plxtBuf, 0x006C);
cdWriteTime = BigEndianBitConverter.ToUInt32(plxtBuf, 0x007A);
}
DicConsole.WriteLine("Drive has loaded a total of {0} discs", discs);
DicConsole
.WriteLine("Drive has spent {0} hours, {1} minutes and {2} seconds reading CDs",
cdReadTime / 3600, cdReadTime / 60 % 60, cdReadTime % 60);
DicConsole
.WriteLine("Drive has spent {0} hours, {1} minutes and {2} seconds writing CDs",
cdWriteTime / 3600, cdWriteTime / 60 % 60, cdWriteTime % 60);
if(plxtDvd)
{
DicConsole
.WriteLine("Drive has spent {0} hours, {1} minutes and {2} seconds reading DVDs",
dvdReadTime / 3600, dvdReadTime / 60 % 60, dvdReadTime % 60);
DicConsole
.WriteLine("Drive has spent {0} hours, {1} minutes and {2} seconds writing DVDs",
dvdWriteTime / 3600, dvdWriteTime / 60 % 60, dvdWriteTime % 60);
}
}
plxtSense = dev.PlextorGetPoweRec(out senseBuf, out bool plxtPwrRecEnabled, out ushort plxtPwrRecSpeed,
dev.Timeout, out _);
if(!plxtSense)
{
DicConsole.Write("Drive supports PoweRec");
if(plxtPwrRecEnabled)
{
DicConsole.Write(", has it enabled");
if(plxtPwrRecSpeed > 0)
DicConsole.WriteLine(" and recommends {0} Kb/sec.", plxtPwrRecSpeed);
else DicConsole.WriteLine(".");
plxtSense = dev.PlextorGetSpeeds(out senseBuf, out ushort plxtPwrRecSelected,
out ushort plxtPwrRecMax, out ushort plxtPwrRecLast, dev.Timeout,
out _);
if(!plxtSense)
{
if(plxtPwrRecSelected > 0)
DicConsole
.WriteLine("Selected PoweRec speed for currently inserted media is {0} Kb/sec ({1}x)",
plxtPwrRecSelected, plxtPwrRecSelected / 177);
if(plxtPwrRecMax > 0)
DicConsole
.WriteLine("Maximum PoweRec speed for currently inserted media is {0} Kb/sec ({1}x)",
plxtPwrRecMax, plxtPwrRecMax / 177);
if(plxtPwrRecLast > 0)
DicConsole.WriteLine("Last used PoweRec was {0} Kb/sec ({1}x)",
plxtPwrRecLast, plxtPwrRecLast / 177);
}
}
else DicConsole.WriteLine("PoweRec is disabled");
}
// TODO: Check it with a drive
plxtSense = dev.PlextorGetSilentMode(out plxtBuf, out senseBuf, dev.Timeout, out _);
if(!plxtSense)
{
DicConsole.WriteLine("Drive supports Plextor SilentMode");
if(plxtBuf[0] == 1)
{
DicConsole.WriteLine("Plextor SilentMode is enabled:");
DicConsole.WriteLine(plxtBuf[1] == 2
? "\tAccess time is slow"
: "\tAccess time is fast");
if(plxtBuf[2] > 0)
DicConsole.WriteLine("\tCD read speed limited to {0}x", plxtBuf[2]);
if(plxtBuf[3] > 0 && plxtDvd)
DicConsole.WriteLine("\tDVD read speed limited to {0}x", plxtBuf[3]);
if(plxtBuf[4] > 0)
DicConsole.WriteLine("\tCD write speed limited to {0}x", plxtBuf[4]);
if(plxtBuf[6] > 0)
DicConsole.WriteLine("\tTray eject speed limited to {0}", -(plxtBuf[6] + 48));
if(plxtBuf[7] > 0)
DicConsole.WriteLine("\tTray eject speed limited to {0}", plxtBuf[7] - 47);
}
}
plxtSense = dev.PlextorGetGigaRec(out plxtBuf, out senseBuf, dev.Timeout, out _);
if(!plxtSense) DicConsole.WriteLine("Drive supports Plextor GigaRec");
plxtSense = dev.PlextorGetSecuRec(out plxtBuf, out senseBuf, dev.Timeout, out _);
if(!plxtSense) DicConsole.WriteLine("Drive supports Plextor SecuRec");
plxtSense = dev.PlextorGetSpeedRead(out plxtBuf, out senseBuf, dev.Timeout, out _);
if(!plxtSense)
{
DicConsole.Write("Drive supports Plextor SpeedRead");
if((plxtBuf[2] & 0x01) == 0x01) DicConsole.WriteLine("and has it enabled");
else DicConsole.WriteLine();
}
plxtSense = dev.PlextorGetHiding(out plxtBuf, out senseBuf, dev.Timeout, out _);
if(!plxtSense)
{
DicConsole.WriteLine("Drive supports hiding CD-Rs and forcing single session");
if((plxtBuf[2] & 0x02) == 0x02) DicConsole.WriteLine("Drive currently hides CD-Rs");
if((plxtBuf[2] & 0x01) == 0x01)
DicConsole.WriteLine("Drive currently forces single session");
}
plxtSense = dev.PlextorGetVariRec(out plxtBuf, out senseBuf, false, dev.Timeout,
out _);
if(!plxtSense) DicConsole.WriteLine("Drive supports Plextor VariRec");
if(plxtDvd)
{
plxtSense = dev.PlextorGetVariRec(out plxtBuf, out senseBuf, true, dev.Timeout,
out _);
if(!plxtSense) DicConsole.WriteLine("Drive supports Plextor VariRec for DVDs");
plxtSense = dev.PlextorGetBitsetting(out plxtBuf, out senseBuf, false, dev.Timeout,
out _);
if(!plxtSense) DicConsole.WriteLine("Drive supports bitsetting DVD+R book type");
plxtSense = dev.PlextorGetBitsetting(out plxtBuf, out senseBuf, true, dev.Timeout,
out _);
if(!plxtSense) DicConsole.WriteLine("Drive supports bitsetting DVD+R DL book type");
plxtSense = dev.PlextorGetTestWriteDvdPlus(out plxtBuf, out senseBuf, dev.Timeout,
out _);
if(!plxtSense) DicConsole.WriteLine("Drive supports test writing DVD+");
}
}
#endregion Plextor
if(inq.Value.KreonPresent)
{
if(!dev.KreonGetFeatureList(out senseBuf, out KreonFeatures krFeatures, dev.Timeout, out _))
{
DicConsole.WriteLine("Drive has kreon firmware:");
if(krFeatures.HasFlag(KreonFeatures.ChallengeResponse))
DicConsole.WriteLine("\tCan do challenge/response with Xbox discs");
if(krFeatures.HasFlag(KreonFeatures.DecryptSs))
DicConsole.WriteLine("\tCan read and descrypt SS from Xbox discs");
if(krFeatures.HasFlag(KreonFeatures.XtremeUnlock))
DicConsole.WriteLine("\tCan set xtreme unlock state with Xbox discs");
if(krFeatures.HasFlag(KreonFeatures.WxripperUnlock))
DicConsole.WriteLine("\tCan set wxripper unlock state with Xbox discs");
if(krFeatures.HasFlag(KreonFeatures.ChallengeResponse360))
DicConsole.WriteLine("\tCan do challenge/response with Xbox 360 discs");
if(krFeatures.HasFlag(KreonFeatures.DecryptSs360))
DicConsole.WriteLine("\tCan read and descrypt SS from Xbox 360 discs");
if(krFeatures.HasFlag(KreonFeatures.XtremeUnlock360))
DicConsole.WriteLine("\tCan set xtreme unlock state with Xbox 360 discs");
if(krFeatures.HasFlag(KreonFeatures.WxripperUnlock360))
DicConsole.WriteLine("\tCan set wxripper unlock state with Xbox 360 discs");
if(krFeatures.HasFlag(KreonFeatures.Lock))
DicConsole.WriteLine("\tCan set locked state");
if(krFeatures.HasFlag(KreonFeatures.ErrorSkipping))
DicConsole.WriteLine("\tCan skip read errors");
}
}
break;
case PeripheralDeviceTypes.SequentialAccess:
sense = dev.ReadBlockLimits(out byte[] seqBuf, out senseBuf, dev.Timeout, out _);
if(sense)
DicConsole.ErrorWriteLine("READ BLOCK LIMITS:\n{0}",
Sense.PrettifySense(senseBuf));
else
{
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_ssc_readblocklimits.bin",
"SSC READ BLOCK LIMITS", seqBuf);
DicConsole.WriteLine("Block limits for device:");
DicConsole.WriteLine(BlockLimits.Prettify(seqBuf));
}
sense = dev.ReportDensitySupport(out seqBuf, out senseBuf, dev.Timeout, out _);
if(sense)
DicConsole.ErrorWriteLine("REPORT DENSITY SUPPORT:\n{0}",
Sense.PrettifySense(senseBuf));
else
{
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
"_ssc_reportdensitysupport.bin", "SSC REPORT DENSITY SUPPORT", seqBuf);
DensitySupport.DensitySupportHeader? dens =
DensitySupport.DecodeDensity(seqBuf);
if(dens.HasValue)
{
DicConsole.WriteLine("Densities supported by device:");
DicConsole.WriteLine(DensitySupport.PrettifyDensity(dens));
}
}
sense = dev.ReportDensitySupport(out seqBuf, out senseBuf, true, false, dev.Timeout,
out _);
if(sense)
DicConsole.ErrorWriteLine("REPORT DENSITY SUPPORT (MEDIUM):\n{0}",
Sense.PrettifySense(senseBuf));
else
{
DataFile.WriteTo("Device-Info command", options.OutputPrefix,
"_ssc_reportdensitysupport_medium.bin",
"SSC REPORT DENSITY SUPPORT (MEDIUM)", seqBuf);
DensitySupport.MediaTypeSupportHeader? meds =
DensitySupport.DecodeMediumType(seqBuf);
if(meds.HasValue)
{
DicConsole.WriteLine("Medium types supported by device:");
DicConsole.WriteLine(DensitySupport.PrettifyMediumType(meds));
}
DicConsole.WriteLine(DensitySupport.PrettifyMediumType(seqBuf));
}
break;
}
break;
}
case DeviceType.MMC:
{
bool noInfo = true;
bool sense = dev.ReadCid(out byte[] mmcBuf, out _, dev.Timeout, out _);
if(!sense)
{
noInfo = false;
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_mmc_cid.bin", "MMC CID",
mmcBuf);
DicConsole.WriteLine("{0}", Decoders.MMC.Decoders.PrettifyCID(mmcBuf));
}
sense = dev.ReadCsd(out mmcBuf, out _, dev.Timeout, out _);
if(!sense)
{
noInfo = false;
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_mmc_csd.bin", "MMC CSD",
mmcBuf);
DicConsole.WriteLine("{0}", Decoders.MMC.Decoders.PrettifyCSD(mmcBuf));
}
sense = dev.ReadOcr(out mmcBuf, out _, dev.Timeout, out _);
if(!sense)
{
noInfo = false;
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_mmc_ocr.bin", "MMC OCR",
mmcBuf);
DicConsole.WriteLine("{0}", Decoders.MMC.Decoders.PrettifyOCR(mmcBuf));
}
sense = dev.ReadExtendedCsd(out mmcBuf, out _, dev.Timeout, out _);
if(!sense)
{
noInfo = false;
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_mmc_ecsd.bin",
"MMC Extended CSD", mmcBuf);
DicConsole.WriteLine("{0}", Decoders.MMC.Decoders.PrettifyExtendedCSD(mmcBuf));
}
if(noInfo) DicConsole.WriteLine("Could not get any kind of information from the device !!!");
}
break;
case DeviceType.SecureDigital:
{
bool noInfo = true;
bool sense = dev.ReadCid(out byte[] sdBuf, out _, dev.Timeout, out _);
if(!sense)
{
noInfo = false;
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_sd_cid.bin",
"SecureDigital CID", sdBuf);
DicConsole.WriteLine("{0}", Decoders.SecureDigital.Decoders.PrettifyCID(sdBuf));
}
sense = dev.ReadCsd(out sdBuf, out _, dev.Timeout, out _);
if(!sense)
{
noInfo = false;
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_sd_csd.bin",
"SecureDigital CSD", sdBuf);
DicConsole.WriteLine("{0}", Decoders.SecureDigital.Decoders.PrettifyCSD(sdBuf));
}
sense = dev.ReadSdocr(out sdBuf, out _, dev.Timeout, out _);
if(!sense)
{
noInfo = false;
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_sd_ocr.bin",
"SecureDigital OCR", sdBuf);
DicConsole.WriteLine("{0}", Decoders.SecureDigital.Decoders.PrettifyOCR(sdBuf));
}
sense = dev.ReadScr(out sdBuf, out _, dev.Timeout, out _);
if(!sense)
{
noInfo = false;
DataFile.WriteTo("Device-Info command", options.OutputPrefix, "_sd_scr.bin",
"SecureDigital SCR", sdBuf);
DicConsole.WriteLine("{0}", Decoders.SecureDigital.Decoders.PrettifySCR(sdBuf));
}
if(noInfo) DicConsole.WriteLine("Could not get any kind of information from the device !!!");
}
break;
default:
DicConsole.ErrorWriteLine("Unknown device type {0}, cannot get information.", dev.Type);
break;
}
Core.Statistics.AddCommand("device-info");
}
}
}
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