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Refactor image classes and split them to smaller files.

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Natalia Portillo
2018-07-23 23:25:43 +01:00
parent 55ca2d23b6
commit ed88989642
445 changed files with 50086 additions and 34342 deletions
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288
DiscImageChef.DiscImages/QCOW2/Read.cs Normal file
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// /***************************************************************************
// The Disc Image Chef
// ----------------------------------------------------------------------------
//
// Filename : Read.cs
// Author(s) : Natalia Portillo <claunia@claunia.com>
//
// Component : Disk image plugins.
//
// --[ Description ] ----------------------------------------------------------
//
// Reads QEMU Copy-On-Write v2 disk images.
//
// --[ 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.Collections.Generic;
using System.IO;
using System.Runtime.InteropServices;
using DiscImageChef.CommonTypes;
using DiscImageChef.CommonTypes.Enums;
using DiscImageChef.CommonTypes.Exceptions;
using DiscImageChef.CommonTypes.Interfaces;
using DiscImageChef.Console;
using SharpCompress.Compressors;
using SharpCompress.Compressors.Deflate;
namespace DiscImageChef.DiscImages
{
public partial class Qcow2
{
public bool Open(IFilter imageFilter)
{
Stream stream = imageFilter.GetDataForkStream();
stream.Seek(0, SeekOrigin.Begin);
if(stream.Length < 512) return false;
byte[] qHdrB = new byte[Marshal.SizeOf(qHdr)];
stream.Read(qHdrB, 0, Marshal.SizeOf(qHdr));
qHdr = BigEndianMarshal.ByteArrayToStructureBigEndian<QCow2Header>(qHdrB);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.magic = 0x{0:X8}", qHdr.magic);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.version = {0}", qHdr.version);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.backing_file_offset = {0}", qHdr.backing_file_offset);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.backing_file_size = {0}", qHdr.backing_file_size);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.cluster_bits = {0}", qHdr.cluster_bits);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.size = {0}", qHdr.size);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.crypt_method = {0}", qHdr.crypt_method);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.l1_size = {0}", qHdr.l1_size);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.l1_table_offset = {0}", qHdr.l1_table_offset);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.refcount_table_offset = {0}", qHdr.refcount_table_offset);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.refcount_table_clusters = {0}",
qHdr.refcount_table_clusters);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.nb_snapshots = {0}", qHdr.nb_snapshots);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.snapshots_offset = {0}", qHdr.snapshots_offset);
if(qHdr.version >= QCOW_VERSION3)
{
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.features = {0:X}", qHdr.features);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.compat_features = {0:X}", qHdr.compat_features);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.autoclear_features = {0:X}", qHdr.autoclear_features);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.refcount_order = {0}", qHdr.refcount_order);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.header_length = {0}", qHdr.header_length);
if((qHdr.features & QCOW_FEATURE_MASK) != 0)
throw new
ImageNotSupportedException($"Unknown incompatible features {qHdr.features & QCOW_FEATURE_MASK:X} enabled, not proceeding.");
}
if(qHdr.size <= 1) throw new ArgumentOutOfRangeException(nameof(qHdr.size), "Image size is too small");
if(qHdr.cluster_bits < 9 || qHdr.cluster_bits > 16)
throw new ArgumentOutOfRangeException(nameof(qHdr.cluster_bits),
"Cluster size must be between 512 bytes and 64 Kbytes");
if(qHdr.crypt_method > QCOW_ENCRYPTION_AES)
throw new ArgumentOutOfRangeException(nameof(qHdr.crypt_method), "Invalid encryption method");
if(qHdr.crypt_method > QCOW_ENCRYPTION_NONE)
throw new NotImplementedException("AES encrypted images not yet supported");
if(qHdr.backing_file_offset != 0)
throw new NotImplementedException("Differencing images not yet supported");
clusterSize = 1 << (int)qHdr.cluster_bits;
clusterSectors = 1 << ((int)qHdr.cluster_bits - 9);
l2Bits = (int)(qHdr.cluster_bits - 3);
l2Size = 1 << l2Bits;
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.clusterSize = {0}", clusterSize);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.clusterSectors = {0}", clusterSectors);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.qHdr.l1_size = {0}", qHdr.l1_size);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.l2Size = {0}", l2Size);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.sectors = {0}", imageInfo.Sectors);
BigEndianBitConverter.IsLittleEndian = BitConverter.IsLittleEndian;
byte[] l1TableB = new byte[qHdr.l1_size * 8];
stream.Seek((long)qHdr.l1_table_offset, SeekOrigin.Begin);
stream.Read(l1TableB, 0, (int)qHdr.l1_size * 8);
l1Table = new ulong[qHdr.l1_size];
// TODO: Optimize this
DicConsole.DebugWriteLine("QCOW plugin", "Reading L1 table");
for(long i = 0; i < l1Table.LongLength; i++)
l1Table[i] = BigEndianBitConverter.ToUInt64(l1TableB, (int)(i * 8));
l1Mask = 0;
int c = 0;
l1Shift = (int)(l2Bits + qHdr.cluster_bits);
for(int i = 0; i < 64; i++)
{
l1Mask <<= 1;
if(c >= 64 - l1Shift) continue;
l1Mask += 1;
c++;
}
l2Mask = 0;
for(int i = 0; i < l2Bits; i++) l2Mask = (l2Mask << 1) + 1;
l2Mask <<= (int)qHdr.cluster_bits;
sectorMask = 0;
for(int i = 0; i < qHdr.cluster_bits; i++) sectorMask = (sectorMask << 1) + 1;
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.l1Mask = {0:X}", l1Mask);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.l1Shift = {0}", l1Shift);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.l2Mask = {0:X}", l2Mask);
DicConsole.DebugWriteLine("QCOW plugin", "qHdr.sectorMask = {0:X}", sectorMask);
maxL2TableCache = MAX_CACHE_SIZE / (l2Size * 8);
maxClusterCache = MAX_CACHE_SIZE / clusterSize;
imageStream = stream;
sectorCache = new Dictionary<ulong, byte[]>();
l2TableCache = new Dictionary<ulong, ulong[]>();
clusterCache = new Dictionary<ulong, byte[]>();
imageInfo.CreationTime = imageFilter.GetCreationTime();
imageInfo.LastModificationTime = imageFilter.GetLastWriteTime();
imageInfo.MediaTitle = Path.GetFileNameWithoutExtension(imageFilter.GetFilename());
imageInfo.Sectors = qHdr.size / 512;
imageInfo.SectorSize = 512;
imageInfo.XmlMediaType = XmlMediaType.BlockMedia;
imageInfo.MediaType = MediaType.GENERIC_HDD;
imageInfo.ImageSize = qHdr.size;
imageInfo.Version = $"{qHdr.version}";
imageInfo.Cylinders = (uint)(imageInfo.Sectors / 16 / 63);
imageInfo.Heads = 16;
imageInfo.SectorsPerTrack = 63;
return true;
}
public byte[] ReadSector(ulong sectorAddress)
{
if(sectorAddress > imageInfo.Sectors - 1)
throw new ArgumentOutOfRangeException(nameof(sectorAddress),
$"Sector address {sectorAddress} not found");
// Check cache
if(sectorCache.TryGetValue(sectorAddress, out byte[] sector)) return sector;
ulong byteAddress = sectorAddress * 512;
ulong l1Off = (byteAddress & l1Mask) >> l1Shift;
if((long)l1Off >= l1Table.LongLength)
throw new ArgumentOutOfRangeException(nameof(l1Off),
$"Trying to read past L1 table, position {l1Off} of a max {l1Table.LongLength}");
// TODO: Implement differential images
if(l1Table[l1Off] == 0) return new byte[512];
if(!l2TableCache.TryGetValue(l1Off, out ulong[] l2Table))
{
l2Table = new ulong[l2Size];
imageStream.Seek((long)(l1Table[l1Off] & QCOW_FLAGS_MASK), SeekOrigin.Begin);
byte[] l2TableB = new byte[l2Size * 8];
imageStream.Read(l2TableB, 0, l2Size * 8);
DicConsole.DebugWriteLine("QCOW plugin", "Reading L2 table #{0}", l1Off);
for(long i = 0; i < l2Table.LongLength; i++)
l2Table[i] = BigEndianBitConverter.ToUInt64(l2TableB, (int)(i * 8));
if(l2TableCache.Count >= maxL2TableCache) l2TableCache.Clear();
l2TableCache.Add(l1Off, l2Table);
}
ulong l2Off = (byteAddress & l2Mask) >> (int)qHdr.cluster_bits;
ulong offset = l2Table[l2Off];
sector = new byte[512];
if((offset & QCOW_FLAGS_MASK) != 0)
{
if(!clusterCache.TryGetValue(offset, out byte[] cluster))
{
if((offset & QCOW_COMPRESSED) == QCOW_COMPRESSED)
{
ulong compSizeMask = (ulong)(1 << (int)(qHdr.cluster_bits - 8)) - 1;
byte countbits = (byte)(qHdr.cluster_bits - 8);
compSizeMask <<= 62 - countbits;
ulong offMask = ~compSizeMask & QCOW_FLAGS_MASK;
ulong realOff = offset & offMask;
ulong compSize = (((offset & compSizeMask) >> (62 - countbits)) + 1) * 512;
byte[] zCluster = new byte[compSize];
imageStream.Seek((long)realOff, SeekOrigin.Begin);
imageStream.Read(zCluster, 0, (int)compSize);
DeflateStream zStream =
new DeflateStream(new MemoryStream(zCluster), CompressionMode.Decompress);
cluster = new byte[clusterSize];
int read = zStream.Read(cluster, 0, clusterSize);
if(read != clusterSize)
throw new
IOException($"Unable to decompress cluster, expected {clusterSize} bytes got {read}");
}
else
{
cluster = new byte[clusterSize];
imageStream.Seek((long)(offset & QCOW_FLAGS_MASK), SeekOrigin.Begin);
imageStream.Read(cluster, 0, clusterSize);
}
if(clusterCache.Count >= maxClusterCache) clusterCache.Clear();
clusterCache.Add(offset, cluster);
}
Array.Copy(cluster, (int)(byteAddress & sectorMask), sector, 0, 512);
}
if(sectorCache.Count >= MAX_CACHED_SECTORS) sectorCache.Clear();
sectorCache.Add(sectorAddress, sector);
return sector;
}
public byte[] ReadSectors(ulong sectorAddress, uint length)
{
if(sectorAddress > imageInfo.Sectors - 1)
throw new ArgumentOutOfRangeException(nameof(sectorAddress),
$"Sector address {sectorAddress} not found");
if(sectorAddress + length > imageInfo.Sectors)
throw new ArgumentOutOfRangeException(nameof(length), "Requested more sectors than available");
MemoryStream ms = new MemoryStream();
for(uint i = 0; i < length; i++)
{
byte[] sector = ReadSector(sectorAddress + i);
ms.Write(sector, 0, sector.Length);
}
return ms.ToArray();
}
}
}