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Aaru/DiscImageChef.Devices/Device/Constructor.cs

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// /***************************************************************************
// The Disc Image Chef
// ----------------------------------------------------------------------------
//
// Filename : Constructor.cs
// Author(s) : Natalia Portillo <claunia@claunia.com>
//
// Component : Direct device access.
//
// --[ Description ] ----------------------------------------------------------
//
// Prepares a device for direct access.
//
// --[ License ] --------------------------------------------------------------
//
// This library is free software; you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation; either version 2.1 of the
// License, or (at your option) any later version.
//
// This library 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
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, see <http://www.gnu.org/licenses/>.
//
// ----------------------------------------------------------------------------
// Copyright © 2011-2018 Natalia Portillo
// ****************************************************************************/
using System;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Runtime.InteropServices;
using DiscImageChef.CommonTypes.Enums;
using DiscImageChef.CommonTypes.Interop;
using DiscImageChef.Decoders.ATA;
using DiscImageChef.Decoders.SCSI;
using DiscImageChef.Decoders.SecureDigital;
using DiscImageChef.Devices.FreeBSD;
using DiscImageChef.Devices.Windows;
using Microsoft.Win32.SafeHandles;
using Extern = DiscImageChef.Devices.Windows.Extern;
using FileAccess = DiscImageChef.Devices.Windows.FileAccess;
using FileAttributes = DiscImageChef.Devices.Windows.FileAttributes;
using FileFlags = DiscImageChef.Devices.Linux.FileFlags;
using FileMode = DiscImageChef.Devices.Windows.FileMode;
using FileShare = DiscImageChef.Devices.Windows.FileShare;
using PlatformID = DiscImageChef.CommonTypes.Interop.PlatformID;
using VendorString = DiscImageChef.Decoders.SecureDigital.VendorString;
namespace DiscImageChef.Devices
{
public partial class Device
{
/// <summary>
/// Opens the device for sending direct commands
/// </summary>
/// <param name="devicePath">Device path</param>
public Device(string devicePath)
{
PlatformId = DetectOS.GetRealPlatformID();
Timeout = 15;
Error = false;
IsRemovable = false;
switch(PlatformId)
{
case PlatformID.Win32NT:
{
FileHandle = Extern.CreateFile(devicePath, FileAccess.GenericRead | FileAccess.GenericWrite,
FileShare.Read | FileShare.Write, IntPtr.Zero,
FileMode.OpenExisting,
FileAttributes.Normal, IntPtr.Zero);
if(((SafeFileHandle)FileHandle).IsInvalid)
{
Error = true;
LastError = Marshal.GetLastWin32Error();
}
break;
}
case PlatformID.Linux:
{
FileHandle =
Linux.Extern.open(devicePath,
FileFlags.ReadWrite | FileFlags.NonBlocking | FileFlags.CreateNew);
if((int)FileHandle < 0)
{
LastError = Marshal.GetLastWin32Error();
if(LastError == 13) // EACCES
{
FileHandle = Linux.Extern.open(devicePath, FileFlags.Readonly | FileFlags.NonBlocking);
if((int)FileHandle < 0)
{
Error = true;
LastError = Marshal.GetLastWin32Error();
}
}
else Error = true;
LastError = Marshal.GetLastWin32Error();
}
break;
}
case PlatformID.FreeBSD:
{
FileHandle = FreeBSD.Extern.cam_open_device(devicePath, FreeBSD.FileFlags.ReadWrite);
if(((IntPtr)FileHandle).ToInt64() == 0)
{
Error = true;
LastError = Marshal.GetLastWin32Error();
}
CamDevice camDevice = (CamDevice)Marshal.PtrToStructure((IntPtr)FileHandle, typeof(CamDevice));
if(StringHandlers.CToString(camDevice.SimName) == "ata")
throw new
InvalidOperationException("Parallel ATA devices are not supported on FreeBSD due to upstream bug #224250.");
break;
}
default: throw new InvalidOperationException($"Platform {PlatformId} not yet supported.");
}
if(Error) throw new SystemException($"Error {LastError} opening device.");
Type = DeviceType.Unknown;
ScsiType = PeripheralDeviceTypes.UnknownDevice;
byte[] ataBuf;
byte[] inqBuf = null;
if(Error) throw new SystemException($"Error {LastError} trying device.");
bool scsiSense = true;
// Windows is answering SCSI INQUIRY for all device types so it needs to be detected first
switch(PlatformId)
{
case PlatformID.Win32NT:
StoragePropertyQuery query = new StoragePropertyQuery();
query.PropertyId = StoragePropertyId.Device;
query.QueryType = StorageQueryType.Standard;
query.AdditionalParameters = new byte[1];
IntPtr descriptorPtr = Marshal.AllocHGlobal(1000);
byte[] descriptorB = new byte[1000];
uint returned = 0;
int error = 0;
bool hasError = !Extern.DeviceIoControlStorageQuery((SafeFileHandle)FileHandle,
WindowsIoctl.IoctlStorageQueryProperty,
ref query, (uint)Marshal.SizeOf(query),
descriptorPtr, 1000, ref returned, IntPtr.Zero);
if(hasError) error = Marshal.GetLastWin32Error();
Marshal.Copy(descriptorPtr, descriptorB, 0, 1000);
if(!hasError && error == 0)
{
StorageDeviceDescriptor descriptor = new StorageDeviceDescriptor
{
Version = BitConverter.ToUInt32(descriptorB, 0),
Size = BitConverter.ToUInt32(descriptorB, 4),
DeviceType = descriptorB[8],
DeviceTypeModifier = descriptorB[9],
RemovableMedia = descriptorB[10] > 0,
CommandQueueing = descriptorB[11] > 0,
VendorIdOffset = BitConverter.ToInt32(descriptorB, 12),
ProductIdOffset = BitConverter.ToInt32(descriptorB, 16),
ProductRevisionOffset = BitConverter.ToInt32(descriptorB, 20),
SerialNumberOffset = BitConverter.ToInt32(descriptorB, 24),
BusType = (StorageBusType)BitConverter.ToUInt32(descriptorB, 28),
RawPropertiesLength = BitConverter.ToUInt32(descriptorB, 32)
};
descriptor.RawDeviceProperties = new byte[descriptor.RawPropertiesLength];
Array.Copy(descriptorB, 36, descriptor.RawDeviceProperties, 0, descriptor.RawPropertiesLength);
switch(descriptor.BusType)
{
case StorageBusType.SCSI:
case StorageBusType.SSA:
case StorageBusType.Fibre:
case StorageBusType.iSCSI:
case StorageBusType.SAS:
Type = DeviceType.SCSI;
break;
case StorageBusType.FireWire:
IsFireWire = true;
Type = DeviceType.SCSI;
break;
case StorageBusType.USB:
IsUsb = true;
Type = DeviceType.SCSI;
break;
case StorageBusType.ATAPI:
Type = DeviceType.ATAPI;
break;
case StorageBusType.ATA:
case StorageBusType.SATA:
Type = DeviceType.ATA;
break;
case StorageBusType.MultiMediaCard:
Type = DeviceType.MMC;
break;
case StorageBusType.SecureDigital:
Type = DeviceType.SecureDigital;
break;
case StorageBusType.NVMe:
Type = DeviceType.NVMe;
break;
}
switch(Type)
{
case DeviceType.SCSI:
case DeviceType.ATAPI:
scsiSense = ScsiInquiry(out inqBuf, out _);
break;
case DeviceType.ATA:
bool atapiSense = AtapiIdentify(out ataBuf, out _);
if(!atapiSense)
{
Type = DeviceType.ATAPI;
Identify.IdentifyDevice? ataid = Identify.Decode(ataBuf);
if(ataid.HasValue) scsiSense = ScsiInquiry(out inqBuf, out _);
}
else Manufacturer = "ATA";
break;
}
}
Marshal.FreeHGlobal(descriptorPtr);
if(Windows.Command.IsSdhci((SafeFileHandle)FileHandle))
{
byte[] sdBuffer = new byte[16];
LastError = Windows.Command.SendMmcCommand((SafeFileHandle)FileHandle, MmcCommands.SendCsd,
false, false,
MmcFlags.ResponseSpiR2 | MmcFlags.ResponseR2 |
MmcFlags.CommandAc, 0, 16, 1, ref sdBuffer, out _,
out _, out bool sense);
if(!sense)
{
cachedCsd = new byte[16];
Array.Copy(sdBuffer, 0, cachedCsd, 0, 16);
}
sdBuffer = new byte[16];
LastError = Windows.Command.SendMmcCommand((SafeFileHandle)FileHandle, MmcCommands.SendCid,
false, false,
MmcFlags.ResponseSpiR2 | MmcFlags.ResponseR2 |
MmcFlags.CommandAc, 0, 16, 1, ref sdBuffer, out _,
out _, out sense);
if(!sense)
{
cachedCid = new byte[16];
Array.Copy(sdBuffer, 0, cachedCid, 0, 16);
}
sdBuffer = new byte[8];
LastError = Windows.Command.SendMmcCommand((SafeFileHandle)FileHandle,
(MmcCommands)SecureDigitalCommands.SendScr, false,
true,
MmcFlags.ResponseSpiR1 | MmcFlags.ResponseR1 |
MmcFlags.CommandAdtc, 0, 8, 1, ref sdBuffer, out _,
out _, out sense);
if(!sense)
{
cachedScr = new byte[8];
Array.Copy(sdBuffer, 0, cachedScr, 0, 8);
}
if(cachedScr != null)
{
sdBuffer = new byte[4];
LastError = Windows.Command.SendMmcCommand((SafeFileHandle)FileHandle,
(MmcCommands)SecureDigitalCommands
.SendOperatingCondition, false, true,
MmcFlags.ResponseSpiR3 | MmcFlags.ResponseR3 |
MmcFlags.CommandBcr, 0, 4, 1, ref sdBuffer,
out _, out _, out sense);
if(!sense)
{
cachedScr = new byte[4];
Array.Copy(sdBuffer, 0, cachedScr, 0, 4);
}
}
else
{
sdBuffer = new byte[4];
LastError = Windows.Command.SendMmcCommand((SafeFileHandle)FileHandle,
MmcCommands.SendOpCond, false, true,
MmcFlags.ResponseSpiR3 | MmcFlags.ResponseR3 |
MmcFlags.CommandBcr, 0, 4, 1, ref sdBuffer,
out _, out _, out sense);
if(!sense)
{
cachedScr = new byte[4];
Array.Copy(sdBuffer, 0, cachedScr, 0, 4);
}
}
}
break;
case PlatformID.Linux:
if(devicePath.StartsWith("/dev/sd", StringComparison.Ordinal) ||
devicePath.StartsWith("/dev/sr", StringComparison.Ordinal) ||
devicePath.StartsWith("/dev/st", StringComparison.Ordinal))
scsiSense = ScsiInquiry(out inqBuf, out _);
// MultiMediaCard and SecureDigital go here
else if(devicePath.StartsWith("/dev/mmcblk", StringComparison.Ordinal))
{
string devPath = devicePath.Substring(5);
if(File.Exists("/sys/block/" + devPath + "/device/csd"))
{
int len =
ConvertFromHexAscii("/sys/block/" + devPath + "/device/csd", out cachedCsd);
if(len == 0) cachedCsd = null;
}
if(File.Exists("/sys/block/" + devPath + "/device/cid"))
{
int len =
ConvertFromHexAscii("/sys/block/" + devPath + "/device/cid", out cachedCid);
if(len == 0) cachedCid = null;
}
if(File.Exists("/sys/block/" + devPath + "/device/scr"))
{
int len =
ConvertFromHexAscii("/sys/block/" + devPath + "/device/scr", out cachedScr);
if(len == 0) cachedScr = null;
}
if(File.Exists("/sys/block/" + devPath + "/device/ocr"))
{
int len =
ConvertFromHexAscii("/sys/block/" + devPath + "/device/ocr", out cachedOcr);
if(len == 0) cachedOcr = null;
}
}
break;
default:
scsiSense = ScsiInquiry(out inqBuf, out _);
break;
}
#region SecureDigital / MultiMediaCard
if(cachedCid != null)
{
ScsiType = PeripheralDeviceTypes.DirectAccess;
IsRemovable = false;
if(cachedScr != null)
{
Type = DeviceType.SecureDigital;
CID decoded = Decoders.SecureDigital.Decoders.DecodeCID(cachedCid);
Manufacturer = VendorString.Prettify(decoded.Manufacturer);
Model = decoded.ProductName;
Revision = $"{(decoded.ProductRevision & 0xF0) >> 4:X2}.{decoded.ProductRevision & 0x0F:X2}";
Serial = $"{decoded.ProductSerialNumber}";
}
else
{
Type = DeviceType.MMC;
Decoders.MMC.CID decoded = Decoders.MMC.Decoders.DecodeCID(cachedCid);
Manufacturer = Decoders.MMC.VendorString.Prettify(decoded.Manufacturer);
Model = decoded.ProductName;
Revision = $"{(decoded.ProductRevision & 0xF0) >> 4:X2}.{decoded.ProductRevision & 0x0F:X2}";
Serial = $"{decoded.ProductSerialNumber}";
}
}
#endregion SecureDigital / MultiMediaCard
#region USB
switch(PlatformId)
{
case PlatformID.Linux:
if(devicePath.StartsWith("/dev/sd", StringComparison.Ordinal) ||
devicePath.StartsWith("/dev/sr", StringComparison.Ordinal) ||
devicePath.StartsWith("/dev/st", StringComparison.Ordinal))
{
string devPath = devicePath.Substring(5);
if(Directory.Exists("/sys/block/" + devPath))
{
string resolvedLink = Linux.Command.ReadLink("/sys/block/" + devPath);
resolvedLink = "/sys" + resolvedLink.Substring(2);
if(!string.IsNullOrEmpty(resolvedLink))
while(resolvedLink.Contains("usb"))
{
resolvedLink = Path.GetDirectoryName(resolvedLink);
if(!File.Exists(resolvedLink + "/descriptors") ||
!File.Exists(resolvedLink + "/idProduct") ||
!File.Exists(resolvedLink + "/idVendor")) continue;
FileStream usbFs = new FileStream(resolvedLink + "/descriptors",
System.IO.FileMode.Open,
System.IO.FileAccess.Read);
byte[] usbBuf = new byte[65536];
int usbCount = usbFs.Read(usbBuf, 0, 65536);
UsbDescriptors = new byte[usbCount];
Array.Copy(usbBuf, 0, UsbDescriptors, 0, usbCount);
usbFs.Close();
StreamReader usbSr = new StreamReader(resolvedLink + "/idProduct");
string usbTemp = usbSr.ReadToEnd();
ushort.TryParse(usbTemp, NumberStyles.HexNumber, CultureInfo.InvariantCulture,
out usbProduct);
usbSr.Close();
usbSr = new StreamReader(resolvedLink + "/idVendor");
usbTemp = usbSr.ReadToEnd();
ushort.TryParse(usbTemp, NumberStyles.HexNumber, CultureInfo.InvariantCulture,
out usbVendor);
usbSr.Close();
if(File.Exists(resolvedLink + "/manufacturer"))
{
usbSr = new StreamReader(resolvedLink + "/manufacturer");
UsbManufacturerString = usbSr.ReadToEnd().Trim();
usbSr.Close();
}
if(File.Exists(resolvedLink + "/product"))
{
usbSr = new StreamReader(resolvedLink + "/product");
UsbProductString = usbSr.ReadToEnd().Trim();
usbSr.Close();
}
if(File.Exists(resolvedLink + "/serial"))
{
usbSr = new StreamReader(resolvedLink + "/serial");
UsbSerialString = usbSr.ReadToEnd().Trim();
usbSr.Close();
}
IsUsb = true;
break;
}
}
}
break;
case PlatformID.Win32NT:
Usb.UsbDevice usbDevice = null;
// I have to search for USB disks, floppies and CD-ROMs as separate device types
foreach(string devGuid in new[]
{
Usb.GuidDevinterfaceFloppy, Usb.GuidDevinterfaceCdrom, Usb.GuidDevinterfaceDisk
})
{
usbDevice = Usb.FindDrivePath(devicePath, devGuid);
if(usbDevice != null) break;
}
if(usbDevice != null)
{
UsbDescriptors = usbDevice.BinaryDescriptors;
usbVendor = (ushort)usbDevice.DeviceDescriptor.idVendor;
usbProduct = (ushort)usbDevice.DeviceDescriptor.idProduct;
UsbManufacturerString = usbDevice.Manufacturer;
UsbProductString = usbDevice.Product;
UsbSerialString =
usbDevice.SerialNumber; // This is incorrect filled by Windows with SCSI/ATA serial number
}
break;
default:
IsUsb = false;
break;
}
#endregion USB
#region FireWire
if(PlatformId == PlatformID.Linux)
{
if(devicePath.StartsWith("/dev/sd", StringComparison.Ordinal) ||
devicePath.StartsWith("/dev/sr", StringComparison.Ordinal) ||
devicePath.StartsWith("/dev/st", StringComparison.Ordinal))
{
string devPath = devicePath.Substring(5);
if(Directory.Exists("/sys/block/" + devPath))
{
string resolvedLink = Linux.Command.ReadLink("/sys/block/" + devPath);
resolvedLink = "/sys" + resolvedLink.Substring(2);
if(!string.IsNullOrEmpty(resolvedLink))
while(resolvedLink.Contains("firewire"))
{
resolvedLink = Path.GetDirectoryName(resolvedLink);
if(!File.Exists(resolvedLink + "/model") || !File.Exists(resolvedLink + "/vendor") ||
!File.Exists(resolvedLink + "/guid")) continue;
StreamReader fwSr = new StreamReader(resolvedLink + "/model");
string fwTemp = fwSr.ReadToEnd();
uint.TryParse(fwTemp, NumberStyles.HexNumber, CultureInfo.InvariantCulture,
out firewireModel);
fwSr.Close();
fwSr = new StreamReader(resolvedLink + "/vendor");
fwTemp = fwSr.ReadToEnd();
uint.TryParse(fwTemp, NumberStyles.HexNumber, CultureInfo.InvariantCulture,
out firewireVendor);
fwSr.Close();
fwSr = new StreamReader(resolvedLink + "/guid");
fwTemp = fwSr.ReadToEnd();
ulong.TryParse(fwTemp, NumberStyles.HexNumber, CultureInfo.InvariantCulture,
out firewireGuid);
fwSr.Close();
if(File.Exists(resolvedLink + "/model_name"))
{
fwSr = new StreamReader(resolvedLink + "/model_name");
FireWireModelName = fwSr.ReadToEnd().Trim();
fwSr.Close();
}
if(File.Exists(resolvedLink + "/vendor_name"))
{
fwSr = new StreamReader(resolvedLink + "/vendor_name");
FireWireVendorName = fwSr.ReadToEnd().Trim();
fwSr.Close();
}
IsFireWire = true;
break;
}
}
}
}
// TODO: Implement for other operating systems
else IsFireWire = false;
#endregion FireWire
#region PCMCIA
if(PlatformId == PlatformID.Linux)
{
if(devicePath.StartsWith("/dev/sd", StringComparison.Ordinal) ||
devicePath.StartsWith("/dev/sr", StringComparison.Ordinal) ||
devicePath.StartsWith("/dev/st", StringComparison.Ordinal))
{
string devPath = devicePath.Substring(5);
if(Directory.Exists("/sys/block/" + devPath))
{
string resolvedLink = Linux.Command.ReadLink("/sys/block/" + devPath);
resolvedLink = "/sys" + resolvedLink.Substring(2);
if(!string.IsNullOrEmpty(resolvedLink))
while(resolvedLink.Contains("/sys/devices"))
{
resolvedLink = Path.GetDirectoryName(resolvedLink);
if(!Directory.Exists(resolvedLink + "/pcmcia_socket")) continue;
string[] subdirs = Directory.GetDirectories(resolvedLink + "/pcmcia_socket",
"pcmcia_socket*",
SearchOption.TopDirectoryOnly);
if(subdirs.Length <= 0) continue;
string possibleDir = Path.Combine(resolvedLink, "pcmcia_socket", subdirs[0]);
if(!File.Exists(possibleDir + "/card_type") || !File.Exists(possibleDir + "/cis"))
continue;
FileStream cisFs = new FileStream(possibleDir + "/cis", System.IO.FileMode.Open,
System.IO.FileAccess.Read);
byte[] cisBuf = new byte[65536];
int cisCount = cisFs.Read(cisBuf, 0, 65536);
Cis = new byte[cisCount];
Array.Copy(cisBuf, 0, Cis, 0, cisCount);
cisFs.Close();
IsPcmcia = true;
break;
}
}
}
}
// TODO: Implement for other operating systems
else IsPcmcia = false;
#endregion PCMCIA
if(!scsiSense)
{
Inquiry.SCSIInquiry? inquiry = Inquiry.Decode(inqBuf);
Type = DeviceType.SCSI;
bool serialSense = ScsiInquiry(out inqBuf, out _, 0x80);
if(!serialSense) Serial = EVPD.DecodePage80(inqBuf);
if(inquiry.HasValue)
{
string tmp = StringHandlers.CToString(inquiry.Value.ProductRevisionLevel);
if(tmp != null) Revision = tmp.Trim();
tmp = StringHandlers.CToString(inquiry.Value.ProductIdentification);
if(tmp != null) Model = tmp.Trim();
tmp = StringHandlers.CToString(inquiry.Value.VendorIdentification);
if(tmp != null) Manufacturer = tmp.Trim();
IsRemovable = inquiry.Value.RMB;
ScsiType = (PeripheralDeviceTypes)inquiry.Value.PeripheralDeviceType;
}
bool atapiSense = AtapiIdentify(out ataBuf, out _);
if(!atapiSense)
{
Type = DeviceType.ATAPI;
Identify.IdentifyDevice? ataId = Identify.Decode(ataBuf);
if(ataId.HasValue) Serial = ataId.Value.SerialNumber;
}
LastError = 0;
Error = false;
}
if(scsiSense && (IsUsb || IsFireWire) || Manufacturer == "ATA")
{
bool ataSense = AtaIdentify(out ataBuf, out _);
if(!ataSense)
{
Type = DeviceType.ATA;
Identify.IdentifyDevice? ataid = Identify.Decode(ataBuf);
if(ataid.HasValue)
{
string[] separated = ataid.Value.Model.Split(' ');
if(separated.Length == 1) Model = separated[0];
else
{
Manufacturer = separated[0];
Model = separated[separated.Length - 1];
}
Revision = ataid.Value.FirmwareRevision;
Serial = ataid.Value.SerialNumber;
ScsiType = PeripheralDeviceTypes.DirectAccess;
if((ushort)ataid.Value.GeneralConfiguration != 0x848A)
IsRemovable |=
(ataid.Value.GeneralConfiguration & Identify.GeneralConfigurationBit.Removable) ==
Identify.GeneralConfigurationBit.Removable;
else IsCompactFlash = true;
}
}
}
if(Type == DeviceType.Unknown)
{
Manufacturer = null;
Model = null;
Revision = null;
Serial = null;
}
if(IsUsb)
{
if(string.IsNullOrEmpty(Manufacturer)) Manufacturer = UsbManufacturerString;
if(string.IsNullOrEmpty(Model)) Model = UsbProductString;
if(string.IsNullOrEmpty(Serial)) Serial = UsbSerialString;
else
foreach(char c in Serial.Where(char.IsControl))
Serial = UsbSerialString;
}
if(!IsFireWire) return;
if(string.IsNullOrEmpty(Manufacturer)) Manufacturer = FireWireVendorName;
if(string.IsNullOrEmpty(Model)) Model = FireWireModelName;
if(string.IsNullOrEmpty(Serial)) Serial = $"{firewireGuid:X16}";
else
foreach(char c in Serial.Where(char.IsControl))
Serial = $"{firewireGuid:X16}";
}
static int ConvertFromHexAscii(string file, out byte[] outBuf)
{
StreamReader sr = new StreamReader(file);
string ins = sr.ReadToEnd().Trim();
outBuf = new byte[ins.Length / 2];
int count = 0;
try
{
for(int i = 0; i < ins.Length; i += 2)
{
outBuf[i / 2] = Convert.ToByte(ins.Substring(i, 2), 16);
count++;
}
}
catch { count = 0; }
sr.Close();
return count;
}
}
}
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