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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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DiscImageChef.DiscImages/GDI/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 Dreamcast GDI disc 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.Linq;
using System.Text.RegularExpressions;
using DiscImageChef.Checksums;
using DiscImageChef.CommonTypes;
using DiscImageChef.CommonTypes.Enums;
using DiscImageChef.CommonTypes.Exceptions;
using DiscImageChef.CommonTypes.Interfaces;
using DiscImageChef.CommonTypes.Structs;
using DiscImageChef.Console;
namespace DiscImageChef.DiscImages
{
public partial class Gdi
{
public bool Open(IFilter imageFilter)
{
if(imageFilter == null) return false;
try
{
imageFilter.GetDataForkStream().Seek(0, SeekOrigin.Begin);
gdiStream = new StreamReader(imageFilter.GetDataForkStream());
int lineNumber = 0;
bool highDensity = false;
// Initialize all RegExs
Regex regexTrack = new Regex(REGEX_TRACK);
// Initialize all RegEx matches
// Initialize disc
discimage = new GdiDisc {Sessions = new List<Session>(), Tracks = new List<GdiTrack>()};
ulong currentStart = 0;
offsetmap = new Dictionary<uint, ulong>();
densitySeparationSectors = 0;
while(gdiStream.Peek() >= 0)
{
lineNumber++;
string line = gdiStream.ReadLine();
if(lineNumber == 1)
{
if(!int.TryParse(line, out _))
throw new ImageNotSupportedException("Not a correct Dreamcast GDI image");
}
else
{
Match trackMatch = regexTrack.Match(line ?? throw new InvalidOperationException());
if(!trackMatch.Success)
throw new ImageNotSupportedException($"Unknown line \"{line}\" at line {lineNumber}");
DicConsole.DebugWriteLine("GDI plugin",
"Found track {0} starts at {1} flags {2} type {3} file {4} offset {5} at line {6}",
trackMatch.Groups["track"].Value, trackMatch.Groups["start"].Value,
trackMatch.Groups["flags"].Value, trackMatch.Groups["type"].Value,
trackMatch.Groups["filename"].Value,
trackMatch.Groups["offset"].Value, lineNumber);
FiltersList filtersList = new FiltersList();
GdiTrack currentTrack = new GdiTrack
{
Bps = ushort.Parse(trackMatch.Groups["type"].Value),
Flags = byte.Parse(trackMatch.Groups["flags"].Value),
Offset = long.Parse(trackMatch.Groups["offset"].Value),
Sequence = uint.Parse(trackMatch.Groups["track"].Value),
StartSector = ulong.Parse(trackMatch.Groups["start"].Value),
Trackfilter =
filtersList.GetFilter(Path.Combine(imageFilter.GetParentFolder(),
trackMatch.Groups["filename"].Value
.Replace("\\\"", "\"").Trim('"')))
};
currentTrack.Trackfile = currentTrack.Trackfilter.GetFilename();
if(currentTrack.StartSector - currentStart > 0)
if(currentTrack.StartSector == 45000)
{
highDensity = true;
offsetmap.Add(0, currentStart);
densitySeparationSectors = currentTrack.StartSector - currentStart;
currentStart = currentTrack.StartSector;
}
else
{
currentTrack.Pregap = currentTrack.StartSector - currentStart;
currentTrack.StartSector -= currentTrack.StartSector - currentStart;
}
if((currentTrack.Trackfilter.GetDataForkLength() - currentTrack.Offset) % currentTrack.Bps != 0)
throw new ImageNotSupportedException("Track size not a multiple of sector size");
currentTrack.Sectors =
(ulong)((currentTrack.Trackfilter.GetDataForkLength() - currentTrack.Offset) /
currentTrack.Bps);
currentTrack.Sectors += currentTrack.Pregap;
currentStart += currentTrack.Sectors;
currentTrack.HighDensity = highDensity;
currentTrack.Tracktype =
(currentTrack.Flags & 0x4) == 0x4 ? TrackType.CdMode1 : TrackType.Audio;
discimage.Tracks.Add(currentTrack);
}
}
Session[] sessions = new Session[2];
for(int s = 0; s < sessions.Length; s++)
if(s == 0)
{
sessions[s].SessionSequence = 1;
foreach(GdiTrack trk in discimage.Tracks.Where(trk => !trk.HighDensity))
{
if(sessions[s].StartTrack == 0) sessions[s].StartTrack = trk.Sequence;
else if(sessions[s].StartTrack > trk.Sequence) sessions[s].StartTrack = trk.Sequence;
if(sessions[s].EndTrack < trk.Sequence) sessions[s].EndTrack = trk.Sequence;
if(sessions[s].StartSector > trk.StartSector) sessions[s].StartSector = trk.StartSector;
if(sessions[s].EndSector < trk.Sectors + trk.StartSector - 1)
sessions[s].EndSector = trk.Sectors + trk.StartSector - 1;
}
}
else
{
sessions[s].SessionSequence = 2;
foreach(GdiTrack trk in discimage.Tracks.Where(trk => trk.HighDensity))
{
if(sessions[s].StartTrack == 0) sessions[s].StartTrack = trk.Sequence;
else if(sessions[s].StartTrack > trk.Sequence) sessions[s].StartTrack = trk.Sequence;
if(sessions[s].EndTrack < trk.Sequence) sessions[s].EndTrack = trk.Sequence;
if(sessions[s].StartSector > trk.StartSector) sessions[s].StartSector = trk.StartSector;
if(sessions[s].EndSector < trk.Sectors + trk.StartSector - 1)
sessions[s].EndSector = trk.Sectors + trk.StartSector - 1;
}
}
discimage.Sessions.Add(sessions[0]);
discimage.Sessions.Add(sessions[1]);
discimage.Disktype = MediaType.GDROM;
// DEBUG information
DicConsole.DebugWriteLine("GDI plugin", "Disc image parsing results");
DicConsole.DebugWriteLine("GDI plugin", "Session information:");
DicConsole.DebugWriteLine("GDI plugin", "\tDisc contains {0} sessions", discimage.Sessions.Count);
for(int i = 0; i < discimage.Sessions.Count; i++)
{
DicConsole.DebugWriteLine("GDI plugin", "\tSession {0} information:", i + 1);
DicConsole.DebugWriteLine("GDI plugin", "\t\tStarting track: {0}",
discimage.Sessions[i].StartTrack);
DicConsole.DebugWriteLine("GDI plugin", "\t\tStarting sector: {0}",
discimage.Sessions[i].StartSector);
DicConsole.DebugWriteLine("GDI plugin", "\t\tEnding track: {0}", discimage.Sessions[i].EndTrack);
DicConsole.DebugWriteLine("GDI plugin", "\t\tEnding sector: {0}", discimage.Sessions[i].EndSector);
}
DicConsole.DebugWriteLine("GDI plugin", "Track information:");
DicConsole.DebugWriteLine("GDI plugin", "\tDisc contains {0} tracks", discimage.Tracks.Count);
for(int i = 0; i < discimage.Tracks.Count; i++)
{
DicConsole.DebugWriteLine("GDI plugin", "\tTrack {0} information:", discimage.Tracks[i].Sequence);
DicConsole.DebugWriteLine("GDI plugin", "\t\t{0} bytes per sector", discimage.Tracks[i].Bps);
DicConsole.DebugWriteLine("GDI plugin", "\t\tPregap: {0} sectors", discimage.Tracks[i].Pregap);
if((discimage.Tracks[i].Flags & 0x8) == 0x8)
DicConsole.DebugWriteLine("GDI plugin", "\t\tTrack is flagged as quadraphonic");
if((discimage.Tracks[i].Flags & 0x4) == 0x4)
DicConsole.DebugWriteLine("GDI plugin", "\t\tTrack is data");
if((discimage.Tracks[i].Flags & 0x2) == 0x2)
DicConsole.DebugWriteLine("GDI plugin", "\t\tTrack allows digital copy");
if((discimage.Tracks[i].Flags & 0x1) == 0x1)
DicConsole.DebugWriteLine("GDI plugin", "\t\tTrack has pre-emphasis applied");
DicConsole.DebugWriteLine("GDI plugin",
"\t\tTrack resides in file {0}, type defined as {1}, starting at byte {2}",
discimage.Tracks[i].Trackfilter, discimage.Tracks[i].Tracktype,
discimage.Tracks[i].Offset);
}
DicConsole.DebugWriteLine("GDI plugin", "Building offset map");
Partitions = new List<Partition>();
ulong byteOffset = 0;
for(int i = 0; i < discimage.Tracks.Count; i++)
{
if(discimage.Tracks[i].Sequence == 1 && i != 0)
throw new ImageNotSupportedException("Unordered tracks");
// Index 01
Partition partition = new Partition
{
Description = $"Track {discimage.Tracks[i].Sequence}.",
Name = null,
Start = discimage.Tracks[i].StartSector,
Size = discimage.Tracks[i].Sectors * discimage.Tracks[i].Bps,
Length = discimage.Tracks[i].Sectors,
Sequence = discimage.Tracks[i].Sequence,
Offset = byteOffset,
Type = discimage.Tracks[i].Tracktype.ToString()
};
byteOffset += partition.Size;
offsetmap.Add(discimage.Tracks[i].Sequence, partition.Start);
Partitions.Add(partition);
}
foreach(GdiTrack track in discimage.Tracks) imageInfo.ImageSize += track.Bps * track.Sectors;
foreach(GdiTrack track in discimage.Tracks) imageInfo.Sectors += track.Sectors;
imageInfo.Sectors += densitySeparationSectors;
imageInfo.SectorSize = 2352; // All others
foreach(GdiTrack unused in discimage.Tracks.Where(track => (track.Flags & 0x4) == 0x4 &&
track.Bps == 2352))
{
imageInfo.ReadableSectorTags.Add(SectorTagType.CdSectorSync);
imageInfo.ReadableSectorTags.Add(SectorTagType.CdSectorHeader);
imageInfo.ReadableSectorTags.Add(SectorTagType.CdSectorSubHeader);
imageInfo.ReadableSectorTags.Add(SectorTagType.CdSectorEcc);
imageInfo.ReadableSectorTags.Add(SectorTagType.CdSectorEccP);
imageInfo.ReadableSectorTags.Add(SectorTagType.CdSectorEccQ);
imageInfo.ReadableSectorTags.Add(SectorTagType.CdSectorEdc);
}
imageInfo.CreationTime = imageFilter.GetCreationTime();
imageInfo.LastModificationTime = imageFilter.GetLastWriteTime();
imageInfo.MediaType = discimage.Disktype;
imageInfo.ReadableSectorTags.Add(SectorTagType.CdTrackFlags);
imageInfo.XmlMediaType = XmlMediaType.OpticalDisc;
DicConsole.VerboseWriteLine("GDI image describes a disc of type {0}", imageInfo.MediaType);
return true;
}
catch(Exception ex)
{
DicConsole.ErrorWriteLine("Exception trying to identify image file {0}", imageFilter.GetBasePath());
DicConsole.ErrorWriteLine("Exception: {0}", ex.Message);
DicConsole.ErrorWriteLine("Stack trace: {0}", ex.StackTrace);
return false;
}
}
public byte[] ReadSector(ulong sectorAddress)
{
return ReadSectors(sectorAddress, 1);
}
public byte[] ReadSectorTag(ulong sectorAddress, SectorTagType tag)
{
return ReadSectorsTag(sectorAddress, 1, tag);
}
public byte[] ReadSector(ulong sectorAddress, uint track)
{
return ReadSectors(sectorAddress, 1, track);
}
public byte[] ReadSectorTag(ulong sectorAddress, uint track, SectorTagType tag)
{
return ReadSectorsTag(sectorAddress, 1, track, tag);
}
public byte[] ReadSectors(ulong sectorAddress, uint length)
{
foreach(KeyValuePair<uint, ulong> kvp in from kvp in offsetmap
where sectorAddress >= kvp.Value
from gdiTrack in discimage.Tracks
where gdiTrack.Sequence == kvp.Key
where sectorAddress - kvp.Value < gdiTrack.Sectors
select kvp)
return ReadSectors(sectorAddress - kvp.Value, length, kvp.Key);
offsetmap.TryGetValue(0, out ulong transitionStart);
if(sectorAddress >= transitionStart && sectorAddress < densitySeparationSectors + transitionStart)
return ReadSectors(sectorAddress - transitionStart, length, 0);
throw new ArgumentOutOfRangeException(nameof(sectorAddress), "Sector address not found");
}
public byte[] ReadSectorsTag(ulong sectorAddress, uint length, SectorTagType tag)
{
foreach(KeyValuePair<uint, ulong> kvp in from kvp in offsetmap
where sectorAddress >= kvp.Value
from gdiTrack in discimage.Tracks
where gdiTrack.Sequence == kvp.Key
where sectorAddress - kvp.Value < gdiTrack.Sectors
select kvp)
return ReadSectorsTag(sectorAddress - kvp.Value, length, kvp.Key, tag);
offsetmap.TryGetValue(0, out ulong transitionStart);
if(sectorAddress >= transitionStart && sectorAddress < densitySeparationSectors + transitionStart)
return ReadSectorsTag(sectorAddress - transitionStart, length, 0, tag);
throw new ArgumentOutOfRangeException(nameof(sectorAddress), "Sector address not found");
}
public byte[] ReadSectors(ulong sectorAddress, uint length, uint track)
{
if(track == 0)
{
if(sectorAddress + length > densitySeparationSectors)
throw new ArgumentOutOfRangeException(nameof(length),
"Requested more sectors than present in track, won't cross tracks");
return new byte[length * 2352];
}
GdiTrack dicTrack = new GdiTrack {Sequence = 0};
foreach(GdiTrack gdiTrack in discimage.Tracks.Where(gdiTrack => gdiTrack.Sequence == track))
{
dicTrack = gdiTrack;
break;
}
if(dicTrack.Sequence == 0)
throw new ArgumentOutOfRangeException(nameof(track), "Track does not exist in disc image");
if(sectorAddress + length > dicTrack.Sectors)
throw new ArgumentOutOfRangeException(nameof(length),
"Requested more sectors than present in track, won't cross tracks");
uint sectorOffset;
uint sectorSize;
uint sectorSkip;
switch(dicTrack.Tracktype)
{
case TrackType.Audio:
{
sectorOffset = 0;
sectorSize = 2352;
sectorSkip = 0;
break;
}
case TrackType.CdMode1:
{
if(dicTrack.Bps == 2352)
{
sectorOffset = 16;
sectorSize = 2048;
sectorSkip = 288;
}
else
{
sectorOffset = 0;
sectorSize = 2048;
sectorSkip = 0;
}
break;
}
default: throw new FeatureSupportedButNotImplementedImageException("Unsupported track type");
}
byte[] buffer = new byte[sectorSize * length];
ulong remainingSectors = length;
if(dicTrack.Pregap > 0 && sectorAddress < dicTrack.Pregap)
{
ulong remainingPregap = dicTrack.Pregap - sectorAddress;
byte[] zero;
if(length > remainingPregap)
{
zero = new byte[remainingPregap * sectorSize];
remainingSectors -= remainingPregap;
}
else
{
zero = new byte[length * sectorSize];
remainingSectors -= length;
}
Array.Copy(zero, 0, buffer, 0, zero.Length);
}
if(remainingSectors == 0) return buffer;
imageStream = dicTrack.Trackfilter.GetDataForkStream();
BinaryReader br = new BinaryReader(imageStream);
br.BaseStream
.Seek(dicTrack.Offset + (long)(sectorAddress * (sectorOffset + sectorSize + sectorSkip) + dicTrack.Pregap * dicTrack.Bps),
SeekOrigin.Begin);
if(sectorOffset == 0 && sectorSkip == 0) buffer = br.ReadBytes((int)(sectorSize * remainingSectors));
else
for(ulong i = 0; i < remainingSectors; i++)
{
br.BaseStream.Seek(sectorOffset, SeekOrigin.Current);
byte[] sector = br.ReadBytes((int)sectorSize);
br.BaseStream.Seek(sectorSkip, SeekOrigin.Current);
Array.Copy(sector, 0, buffer, (int)(i * sectorSize), sectorSize);
}
return buffer;
}
public byte[] ReadSectorsTag(ulong sectorAddress, uint length, uint track, SectorTagType tag)
{
if(track == 0)
{
if(sectorAddress + length > densitySeparationSectors)
throw new ArgumentOutOfRangeException(nameof(length),
"Requested more sectors than present in track, won't cross tracks");
if(tag == SectorTagType.CdTrackFlags) return new byte[] {0x00};
throw new ArgumentException("Unsupported tag requested for this track", nameof(tag));
}
GdiTrack dicTrack = new GdiTrack {Sequence = 0};
foreach(GdiTrack gdiTrack in discimage.Tracks.Where(gdiTrack => gdiTrack.Sequence == track))
{
dicTrack = gdiTrack;
break;
}
if(dicTrack.Sequence == 0)
throw new ArgumentOutOfRangeException(nameof(track), "Track does not exist in disc image");
if(length > dicTrack.Sectors)
throw new ArgumentOutOfRangeException(nameof(length),
"Requested more sectors than present in track, won't cross tracks");
uint sectorOffset;
uint sectorSize;
uint sectorSkip;
switch(tag)
{
case SectorTagType.CdSectorEcc:
case SectorTagType.CdSectorEccP:
case SectorTagType.CdSectorEccQ:
case SectorTagType.CdSectorEdc:
case SectorTagType.CdSectorHeader:
case SectorTagType.CdSectorSync: break;
case SectorTagType.CdTrackFlags:
{
byte[] flags = new byte[1];
flags[0] += dicTrack.Flags;
return flags;
}
default: throw new ArgumentException("Unsupported tag requested", nameof(tag));
}
switch(dicTrack.Tracktype)
{
case TrackType.Audio: throw new ArgumentException("There are no tags on audio tracks", nameof(tag));
case TrackType.CdMode1:
{
if(dicTrack.Bps != 2352)
throw new FeatureNotPresentImageException("Image does not include tags for mode 1 sectors");
switch(tag)
{
case SectorTagType.CdSectorSync:
{
sectorOffset = 0;
sectorSize = 12;
sectorSkip = 2340;
break;
}
case SectorTagType.CdSectorHeader:
{
sectorOffset = 12;
sectorSize = 4;
sectorSkip = 2336;
break;
}
case SectorTagType.CdSectorSubchannel:
case SectorTagType.CdSectorSubHeader:
throw new ArgumentException("Unsupported tag requested for this track", nameof(tag));
case SectorTagType.CdSectorEcc:
{
sectorOffset = 2076;
sectorSize = 276;
sectorSkip = 0;
break;
}
case SectorTagType.CdSectorEccP:
{
sectorOffset = 2076;
sectorSize = 172;
sectorSkip = 104;
break;
}
case SectorTagType.CdSectorEccQ:
{
sectorOffset = 2248;
sectorSize = 104;
sectorSkip = 0;
break;
}
case SectorTagType.CdSectorEdc:
{
sectorOffset = 2064;
sectorSize = 4;
sectorSkip = 284;
break;
}
default: throw new ArgumentException("Unsupported tag requested", nameof(tag));
}
break;
}
default: throw new FeatureSupportedButNotImplementedImageException("Unsupported track type");
}
byte[] buffer = new byte[sectorSize * length];
ulong remainingSectors = length;
if(dicTrack.Pregap > 0 && sectorAddress < dicTrack.Pregap)
{
ulong remainingPregap = dicTrack.Pregap - sectorAddress;
byte[] zero;
if(length > remainingPregap)
{
zero = new byte[remainingPregap * sectorSize];
remainingSectors -= remainingPregap;
}
else
{
zero = new byte[length * sectorSize];
remainingSectors -= length;
}
Array.Copy(zero, 0, buffer, 0, zero.Length);
}
if(remainingSectors == 0) return buffer;
imageStream = dicTrack.Trackfilter.GetDataForkStream();
BinaryReader br = new BinaryReader(imageStream);
br.BaseStream
.Seek(dicTrack.Offset + (long)(sectorAddress * (sectorOffset + sectorSize + sectorSkip) + dicTrack.Pregap * dicTrack.Bps),
SeekOrigin.Begin);
if(sectorOffset == 0 && sectorSkip == 0) buffer = br.ReadBytes((int)(sectorSize * remainingSectors));
else
for(ulong i = 0; i < remainingSectors; i++)
{
br.BaseStream.Seek(sectorOffset, SeekOrigin.Current);
byte[] sector = br.ReadBytes((int)sectorSize);
br.BaseStream.Seek(sectorSkip, SeekOrigin.Current);
Array.Copy(sector, 0, buffer, (int)(i * sectorSize), sectorSize);
}
return buffer;
}
public byte[] ReadSectorLong(ulong sectorAddress)
{
return ReadSectorsLong(sectorAddress, 1);
}
public byte[] ReadSectorLong(ulong sectorAddress, uint track)
{
return ReadSectorsLong(sectorAddress, 1, track);
}
public byte[] ReadSectorsLong(ulong sectorAddress, uint length)
{
foreach(KeyValuePair<uint, ulong> kvp in from kvp in offsetmap
where sectorAddress >= kvp.Value
from gdiTrack in discimage.Tracks
where gdiTrack.Sequence == kvp.Key
where sectorAddress - kvp.Value < gdiTrack.Sectors
select kvp)
return ReadSectorsLong(sectorAddress - kvp.Value, length, kvp.Key);
throw new ArgumentOutOfRangeException(nameof(sectorAddress), "Sector address not found");
}
public byte[] ReadSectorsLong(ulong sectorAddress, uint length, uint track)
{
if(track == 0)
{
if(sectorAddress + length > densitySeparationSectors)
throw new ArgumentOutOfRangeException(nameof(length),
"Requested more sectors than present in track, won't cross tracks");
return new byte[length * 2352];
}
GdiTrack dicTrack = new GdiTrack {Sequence = 0};
foreach(GdiTrack gdiTrack in discimage.Tracks.Where(gdiTrack => gdiTrack.Sequence == track))
{
dicTrack = gdiTrack;
break;
}
if(dicTrack.Sequence == 0)
throw new ArgumentOutOfRangeException(nameof(track), "Track does not exist in disc image");
if(sectorAddress + length > dicTrack.Sectors)
throw new ArgumentOutOfRangeException(nameof(length),
"Requested more sectors than present in track, won't cross tracks");
uint sectorOffset;
uint sectorSize;
uint sectorSkip;
switch(dicTrack.Tracktype)
{
case TrackType.Audio:
{
sectorOffset = 0;
sectorSize = 2352;
sectorSkip = 0;
break;
}
case TrackType.CdMode1:
{
if(dicTrack.Bps == 2352)
{
sectorOffset = 0;
sectorSize = 2352;
sectorSkip = 0;
}
else
{
sectorOffset = 0;
sectorSize = 2048;
sectorSkip = 0;
}
break;
}
default: throw new FeatureSupportedButNotImplementedImageException("Unsupported track type");
}
byte[] buffer = new byte[sectorSize * length];
ulong remainingSectors = length;
if(dicTrack.Pregap > 0 && sectorAddress < dicTrack.Pregap)
{
ulong remainingPregap = dicTrack.Pregap - sectorAddress;
byte[] zero;
if(length > remainingPregap)
{
zero = new byte[remainingPregap * sectorSize];
remainingSectors -= remainingPregap;
}
else
{
zero = new byte[length * sectorSize];
remainingSectors -= length;
}
Array.Copy(zero, 0, buffer, 0, zero.Length);
}
if(remainingSectors == 0) return buffer;
imageStream = dicTrack.Trackfilter.GetDataForkStream();
BinaryReader br = new BinaryReader(imageStream);
br.BaseStream
.Seek(dicTrack.Offset + (long)(sectorAddress * (sectorOffset + sectorSize + sectorSkip) + dicTrack.Pregap * dicTrack.Bps),
SeekOrigin.Begin);
if(sectorOffset == 0 && sectorSkip == 0) buffer = br.ReadBytes((int)(sectorSize * remainingSectors));
else
for(ulong i = 0; i < remainingSectors; i++)
{
br.BaseStream.Seek(sectorOffset, SeekOrigin.Current);
byte[] sector = br.ReadBytes((int)sectorSize);
br.BaseStream.Seek(sectorSkip, SeekOrigin.Current);
Array.Copy(sector, 0, buffer, (int)(i * sectorSize), sectorSize);
}
return buffer;
}
public List<Track> GetSessionTracks(Session session)
{
if(discimage.Sessions.Contains(session)) return GetSessionTracks(session.SessionSequence);
throw new ImageNotSupportedException("Session does not exist in disc image");
}
public List<Track> GetSessionTracks(ushort session)
{
List<Track> tracks = new List<Track>();
bool expectedDensity;
switch(session)
{
case 1:
expectedDensity = false;
break;
case 2:
expectedDensity = true;
break;
default: throw new ImageNotSupportedException("Session does not exist in disc image");
}
foreach(GdiTrack gdiTrack in discimage.Tracks)
if(gdiTrack.HighDensity == expectedDensity)
{
Track track = new Track
{
Indexes = new Dictionary<int, ulong>(),
TrackDescription = null,
TrackStartSector = gdiTrack.StartSector,
TrackPregap = gdiTrack.Pregap,
TrackSession = (ushort)(gdiTrack.HighDensity ? 2 : 1),
TrackSequence = gdiTrack.Sequence,
TrackType = gdiTrack.Tracktype,
TrackFilter = gdiTrack.Trackfilter,
TrackFile = gdiTrack.Trackfile,
TrackFileOffset = (ulong)gdiTrack.Offset,
TrackFileType = "BINARY",
TrackRawBytesPerSector = gdiTrack.Bps,
TrackBytesPerSector = gdiTrack.Tracktype == TrackType.Data ? 2048 : 2352,
TrackSubchannelType = TrackSubchannelType.None
};
track.TrackEndSector = track.TrackStartSector + gdiTrack.Sectors - 1;
tracks.Add(track);
}
return tracks;
}
public bool? VerifySector(ulong sectorAddress)
{
byte[] buffer = ReadSectorLong(sectorAddress);
return CdChecksums.CheckCdSector(buffer);
}
public bool? VerifySector(ulong sectorAddress, uint track)
{
byte[] buffer = ReadSectorLong(sectorAddress, track);
return CdChecksums.CheckCdSector(buffer);
}
public bool? VerifySectors(ulong sectorAddress, uint length, out List<ulong> failingLbas,
out List<ulong> unknownLbas)
{
byte[] buffer = ReadSectorsLong(sectorAddress, length);
int bps = (int)(buffer.Length / length);
byte[] sector = new byte[bps];
failingLbas = new List<ulong>();
unknownLbas = new List<ulong>();
for(int i = 0; i < length; i++)
{
Array.Copy(buffer, i * bps, sector, 0, bps);
bool? sectorStatus = CdChecksums.CheckCdSector(sector);
switch(sectorStatus)
{
case null:
unknownLbas.Add((ulong)i + sectorAddress);
break;
case false:
failingLbas.Add((ulong)i + sectorAddress);
break;
}
}
if(unknownLbas.Count > 0) return null;
return failingLbas.Count <= 0;
}
public bool? VerifySectors(ulong sectorAddress, uint length, uint track, out List<ulong> failingLbas,
out List<ulong> unknownLbas)
{
byte[] buffer = ReadSectorsLong(sectorAddress, length, track);
int bps = (int)(buffer.Length / length);
byte[] sector = new byte[bps];
failingLbas = new List<ulong>();
unknownLbas = new List<ulong>();
for(int i = 0; i < length; i++)
{
Array.Copy(buffer, i * bps, sector, 0, bps);
bool? sectorStatus = CdChecksums.CheckCdSector(sector);
switch(sectorStatus)
{
case null:
unknownLbas.Add((ulong)i + sectorAddress);
break;
case false:
failingLbas.Add((ulong)i + sectorAddress);
break;
}
}
if(unknownLbas.Count > 0) return null;
return failingLbas.Count <= 0;
}
public bool? VerifyMediaImage()
{
return null;
}
}
}