public void Test()
{
for (int i = 0; i < _testFiles.Length; i++)
{
string location = Path.Combine(Consts.TEST_FILES_ROOT, "Partitioning schemes", "MINIX", _testFiles[i]);
IFilter filter = new ZZZNoFilter();
filter.Open(location);
IMediaImage image = new AaruFormat();
Assert.AreEqual(true, image.Open(filter), _testFiles[i]);
List <Partition> partitions = Core.Partitions.GetAll(image);
Assert.AreEqual(_wanted[i].Length, partitions.Count, _testFiles[i]);
for (int j = 0; j < partitions.Count; j++)
{
// Too chatty
//Assert.AreEqual(wanted[i][j].PartitionDescription, partitions[j].PartitionDescription, testfiles[i]);
Assert.AreEqual(_wanted[i][j].Size, partitions[j].Size, _testFiles[i]);
// Assert.AreEqual(wanted[i][j].Name, partitions[j].Name, testfiles[i]);
Assert.AreEqual(_wanted[i][j].Type, partitions[j].Type, _testFiles[i]);
Assert.AreEqual(_wanted[i][j].Offset, partitions[j].Offset, _testFiles[i]);
Assert.AreEqual(_wanted[i][j].Length, partitions[j].Length, _testFiles[i]);
Assert.AreEqual(_wanted[i][j].Sequence, partitions[j].Sequence, _testFiles[i]);
Assert.AreEqual(_wanted[i][j].Start, partitions[j].Start, _testFiles[i]);
}
}
}
public void Test()
{
for (int i = 0; i < _testFiles.Length; i++)
{
string location = Path.Combine(Consts.TEST_FILES_ROOT, "Filesystems", "ISO9660", _testFiles[i]);
IFilter filter = new ZZZNoFilter();
filter.Open(location);
IMediaImage image = new AaruFormat();
Assert.AreEqual(true, image.Open(filter), $"{_testFiles[i]}: Open()");
Assert.AreEqual(_mediaTypes[i], image.Info.MediaType, $"{_testFiles[i]}: MediaType");
Assert.AreEqual(_sectors[i], image.Info.Sectors, $"{_testFiles[i]}: Sectors");
Assert.AreEqual(_sectorSize[i], image.Info.SectorSize, $"{_testFiles[i]}: SectorSize");
IFilesystem fs = new ISO9660();
var wholePart = new Partition
{
Name = "Whole device",
Length = image.Info.Sectors,
Size = image.Info.Sectors * image.Info.SectorSize
};
Assert.AreEqual(true, fs.Identify(image, wholePart), $"{_testFiles[i]}: Identify()");
fs.GetInformation(image, wholePart, out _, null);
Assert.AreEqual(_clusters[i], fs.XmlFsType.Clusters, $"{_testFiles[i]}: Clusters");
Assert.AreEqual(_clusterSize[i], fs.XmlFsType.ClusterSize, $"{_testFiles[i]}: ClusterSize");
Assert.AreEqual("ISO9660", fs.XmlFsType.Type, $"{_testFiles[i]}: Type");
Assert.AreEqual(_volumeName[i], fs.XmlFsType.VolumeName, $"{_testFiles[i]}: VolumeName");
Assert.AreEqual(_volumeSerial[i], fs.XmlFsType.VolumeSerial, $"{_testFiles[i]}: VolumeSerial");
Assert.AreEqual(_sysid[i], fs.XmlFsType.SystemIdentifier, $"{_testFiles[i]}: SystemIdentifier");
Assert.AreEqual(_appid[i], fs.XmlFsType.ApplicationIdentifier,
$"{_testFiles[i]}: ApplicationIdentifier");
}
}
public void Test()
{
for (int i = 0; i < _testFiles.Length; i++)
{
string location = Path.Combine(Consts.TEST_FILES_ROOT, "Filesystems", "QNX 4 filesystem (MBR)",
_testFiles[i]);
IFilter filter = new ZZZNoFilter();
filter.Open(location);
IMediaImage image = new AaruFormat();
Assert.AreEqual(true, image.Open(filter), _testFiles[i]);
Assert.AreEqual(_sectors[i], image.Info.Sectors, _testFiles[i]);
Assert.AreEqual(_sectorSize[i], image.Info.SectorSize, _testFiles[i]);
List <Partition> partitions = Core.Partitions.GetAll(image);
IFilesystem fs = new QNX4();
int part = -1;
for (int j = 0; j < partitions.Count; j++)
{
if (partitions[j].Type == "0x4D")
{
part = j;
break;
}
}
Assert.AreNotEqual(-1, part, $"Partition not found on {_testFiles[i]}");
Assert.AreEqual(true, fs.Identify(image, partitions[part]), _testFiles[i]);
fs.GetInformation(image, partitions[part], out _, null);
Assert.AreEqual(_clusters[i], fs.XmlFsType.Clusters, _testFiles[i]);
Assert.AreEqual(_clusterSize[i], fs.XmlFsType.ClusterSize, _testFiles[i]);
Assert.AreEqual("QNX4 filesystem", fs.XmlFsType.Type, _testFiles[i]);
}
}
public void Test()
{
for (int i = 0; i < _testFiles.Length; i++)
{
string location = Path.Combine(Consts.TEST_FILES_ROOT, "Filesystems", "Universal Disc Format",
_testFiles[i]);
IFilter filter = new ZZZNoFilter();
filter.Open(location);
IMediaImage image = new AaruFormat();
Assert.AreEqual(true, image.Open(filter), _testFiles[i]);
Assert.AreEqual(_sectors[i], image.Info.Sectors, _testFiles[i]);
Assert.AreEqual(_sectorSize[i], image.Info.SectorSize, _testFiles[i]);
IFilesystem fs = new UDF();
var wholePart = new Partition
{
Name = "Whole device",
Length = image.Info.Sectors,
Size = image.Info.Sectors * image.Info.SectorSize
};
Assert.AreEqual(true, fs.Identify(image, wholePart), _testFiles[i]);
fs.GetInformation(image, wholePart, out _, null);
Assert.AreEqual(_clusters[i], fs.XmlFsType.Clusters, _testFiles[i]);
Assert.AreEqual(_clusterSize[i], fs.XmlFsType.ClusterSize, _testFiles[i]);
Assert.AreEqual(_udfversion[i], fs.XmlFsType.Type, _testFiles[i]);
Assert.AreEqual(_volumeName[i], fs.XmlFsType.VolumeName, _testFiles[i]);
Assert.AreEqual(_volumeSerial[i], fs.XmlFsType.VolumeSetIdentifier, _testFiles[i]);
Assert.AreEqual(_oemId[i], fs.XmlFsType.SystemIdentifier, _testFiles[i]);
}
}
public void Test()
{
for (int i = 0; i < _testFiles.Length; i++)
{
string location = Path.Combine(Consts.TEST_FILES_ROOT, "Filesystems", "High Performance File System",
_testFiles[i]);
IFilter filter = new ZZZNoFilter();
filter.Open(location);
IMediaImage image = new AaruFormat();
Assert.AreEqual(true, image.Open(filter), _testFiles[i]);
Assert.AreEqual(_sectors[i], image.Info.Sectors, _testFiles[i]);
Assert.AreEqual(_sectorSize[i], image.Info.SectorSize, _testFiles[i]);
List <Partition> partitions = Core.Partitions.GetAll(image);
IFilesystem fs = new HPFS();
Assert.AreEqual(true, fs.Identify(image, partitions[0]), _testFiles[i]);
fs.GetInformation(image, partitions[0], out _, null);
Assert.AreEqual(_clusters[i], fs.XmlFsType.Clusters, _testFiles[i]);
Assert.AreEqual(_clusterSize[i], fs.XmlFsType.ClusterSize, _testFiles[i]);
Assert.AreEqual("HPFS", fs.XmlFsType.Type, _testFiles[i]);
Assert.AreEqual(_volumeName[i], fs.XmlFsType.VolumeName, _testFiles[i]);
Assert.AreEqual(_volumeSerial[i], fs.XmlFsType.VolumeSerial, _testFiles[i]);
Assert.AreEqual(_oemId[i], fs.XmlFsType.SystemIdentifier, _testFiles[i]);
}
}
public async void LoadButton_Click(object sender, RoutedEventArgs e)
{
string path = await GetPath();
if (path == null)
{
return;
}
await Task.Run(() =>
{
AaruFormat image = new AaruFormat();
IFilter filter = new ZZZNoFilter();
filter.Open(path);
image.Open(filter);
Player.Init(image, App.Settings.AutoPlay);
});
await Dispatcher.UIThread.InvokeAsync(() =>
{
MainWindow.Instance.Title = "RedBookPlayer - " + path.Split('/').Last().Split('\\').Last();
}
);
}
public void Test()
{
Environment.CurrentDirectory =
Path.Combine(Consts.TEST_FILES_ROOT, "Media image formats", "UltraISO", "Alcohol");
for (int i = 0; i < _testFiles.Length; i++)
{
var filter = new ZZZNoFilter();
filter.Open(_testFiles[i]);
var image = new DiscImages.Alcohol120();
bool opened = image.Open(filter);
Assert.AreEqual(true, opened, $"Open: {_testFiles[i]}");
using (new AssertionScope())
{
Assert.Multiple(() =>
{
Assert.AreEqual(_sectors[i], image.Info.Sectors, $"Sectors: {_testFiles[i]}");
Assert.AreEqual(_mediaTypes[i], image.Info.MediaType, $"Media type: {_testFiles[i]}");
Assert.AreEqual(_tracks[i], image.Tracks.Count, $"Tracks: {_testFiles[i]}");
image.Tracks.Select(t => t.TrackSession).Should().
BeEquivalentTo(_trackSessions[i], $"Track session: {_testFiles[i]}");
image.Tracks.Select(t => t.TrackStartSector).Should().
BeEquivalentTo(_trackStarts[i], $"Track start: {_testFiles[i]}");
image.Tracks.Select(t => t.TrackEndSector).Should().
BeEquivalentTo(_trackEnds[i], $"Track end: {_testFiles[i]}");
image.Tracks.Select(t => t.TrackPregap).Should().
BeEquivalentTo(_trackPregaps[i], $"Track pregap: {_testFiles[i]}");
int trackNo = 0;
byte[] flags = new byte[image.Tracks.Count];
foreach (Track currentTrack in image.Tracks)
{
if (image.Info.ReadableSectorTags.Contains(SectorTagType.CdTrackFlags))
{
flags[trackNo] = image.ReadSectorTag(currentTrack.TrackSequence,
SectorTagType.CdTrackFlags)[0];
}
trackNo++;
}
flags.Should().BeEquivalentTo(_trackFlags[i], $"Track flags: {_testFiles[i]}");
});
}
}
}
public void Test()
{
for (int i = 0; i < _testFiles.Length; i++)
{
string location = Path.Combine(Consts.TEST_FILES_ROOT, "Filesystems", "UNIX filesystem (MBR)",
_testFiles[i]);
IFilter filter = new ZZZNoFilter();
filter.Open(location);
IMediaImage image = new AaruFormat();
Assert.AreEqual(true, image.Open(filter), _testFiles[i]);
Assert.AreEqual(_sectors[i], image.Info.Sectors, _testFiles[i]);
Assert.AreEqual(_sectorSize[i], image.Info.SectorSize, _testFiles[i]);
List <Partition> partitions = Core.Partitions.GetAll(image);
IFilesystem fs = new FFSPlugin();
int part = -1;
for (int j = 0; j < partitions.Count; j++)
{
if (partitions[j].Type == "0x63" ||
partitions[j].Type == "0xA8" ||
partitions[j].Type == "0xA5" ||
partitions[j].Type == "0xA9" ||
partitions[j].Type == "0x82" ||
partitions[j].Type == "0x83" ||
partitions[j].Type == "4.2BSD Fast File System" ||
partitions[j].Type == "Sun boot")
{
part = j;
break;
}
}
Assert.AreNotEqual(-1, part, $"Partition not found on {_testFiles[i]}");
Assert.AreEqual(true, fs.Identify(image, partitions[part]), _testFiles[i]);
fs.GetInformation(image, partitions[part], out _, null);
Assert.AreEqual(_clusters[i], fs.XmlFsType.Clusters, _testFiles[i]);
Assert.AreEqual(_clusterSize[i], fs.XmlFsType.ClusterSize, _testFiles[i]);
Assert.AreEqual(_type[i], fs.XmlFsType.Type, _testFiles[i]);
Assert.AreEqual(_volumeName[i], fs.XmlFsType.VolumeName, _testFiles[i]);
Assert.AreEqual(_volumeSerial[i], fs.XmlFsType.VolumeSerial, _testFiles[i]);
}
}
public void Test()
{
for (int i = 0; i < _testFiles.Length; i++)
{
string location = Path.Combine(Consts.TEST_FILES_ROOT, "Filesystems",
"New Technology File System (MBR)", _testFiles[i]);
IFilter filter = new ZZZNoFilter();
filter.Open(location);
IMediaImage image = new AaruFormat();
Assert.AreEqual(true, image.Open(filter), _testFiles[i]);
Assert.AreEqual(_sectors[i], image.Info.Sectors, _testFiles[i]);
Assert.AreEqual(_sectorSize[i], image.Info.SectorSize, _testFiles[i]);
List <Partition> partitions = Core.Partitions.GetAll(image);
IFilesystem fs = new NTFS();
int part = -1;
for (int j = 0; j < partitions.Count; j++)
{
if (partitions[j].Type == "0x07" ||
// Value incorrectly set by Haiku
partitions[j].Type == "0x86")
{
part = j;
break;
}
}
Assert.AreNotEqual(-1, part, $"Partition not found on {_testFiles[i]}");
Assert.AreEqual(true, fs.Identify(image, partitions[part]), _testFiles[i]);
fs.GetInformation(image, partitions[part], out _, null);
Assert.AreEqual(_clusters[i], fs.XmlFsType.Clusters, _testFiles[i]);
Assert.AreEqual(_clusterSize[i], fs.XmlFsType.ClusterSize, _testFiles[i]);
Assert.AreEqual("NTFS", fs.XmlFsType.Type, _testFiles[i]);
Assert.AreEqual(_volumeName[i], fs.XmlFsType.VolumeName, _testFiles[i]);
Assert.AreEqual(_volumeSerial[i], fs.XmlFsType.VolumeSerial, _testFiles[i]);
Assert.AreEqual(_oemId[i], fs.XmlFsType.SystemIdentifier, _testFiles[i]);
}
}
public void Test()
{
for (int i = 0; i < _testFiles.Length; i++)
{
string location = Path.Combine(Consts.TEST_FILES_ROOT, "Filesystems", "ext2", _testFiles[i]);
IFilter filter = new ZZZNoFilter();
filter.Open(location);
IMediaImage image = new AaruFormat();
Assert.AreEqual(true, image.Open(filter), _testFiles[i]);
Assert.AreEqual(_sectors[i], image.Info.Sectors, _testFiles[i]);
Assert.AreEqual(_sectorSize[i], image.Info.SectorSize, _testFiles[i]);
IPartition parts = new MBR();
Assert.AreEqual(true, parts.GetInformation(image, out List <Partition> partitions, 0), _testFiles[i]);
IFilesystem fs = new ext2FS();
int part = -1;
for (int j = 0; j < partitions.Count; j++)
{
if (partitions[j].Type == "0x83")
{
part = j;
break;
}
}
Assert.AreNotEqual(-1, part, $"Partition not found on {_testFiles[i]}");
Assert.AreEqual(true, fs.Identify(image, partitions[part]), _testFiles[i]);
fs.GetInformation(image, partitions[part], out _, null);
Assert.AreEqual(_clusters[i], fs.XmlFsType.Clusters, _testFiles[i]);
Assert.AreEqual(_clusterSize[i], fs.XmlFsType.ClusterSize, _testFiles[i]);
Assert.AreEqual(_extversion[i], fs.XmlFsType.Type, _testFiles[i]);
Assert.AreEqual(_volumeName[i], fs.XmlFsType.VolumeName, _testFiles[i]);
Assert.AreEqual(_volumeSerial[i], fs.XmlFsType.VolumeSerial, _testFiles[i]);
}
}
public bool Open(IFilter imageFilter)
{
Stream stream = imageFilter.GetDataForkStream();
stream.Seek(0, SeekOrigin.Begin);
imageHeader = new A2ImgHeader();
byte[] header = new byte[64];
stream.Read(header, 0, 64);
byte[] magic = new byte[4];
byte[] creator = new byte[4];
Array.Copy(header, 0, magic, 0, 4);
Array.Copy(header, 4, creator, 0, 4);
imageHeader = Marshal.SpanToStructureLittleEndian <A2ImgHeader>(header);
if (imageHeader.DataSize == 0x00800C00)
{
imageHeader.DataSize = 0x000C8000;
AaruConsole.DebugWriteLine("2MG plugin", "Detected incorrect endian on data size field, correcting.");
}
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.magic = \"{0}\"", Encoding.ASCII.GetString(magic));
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.creator = \"{0}\"",
Encoding.ASCII.GetString(creator));
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.headerSize = {0}", imageHeader.HeaderSize);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.version = {0}", imageHeader.Version);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.imageFormat = {0}", imageHeader.ImageFormat);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.flags = 0x{0:X8}", imageHeader.Flags);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.blocks = {0}", imageHeader.Blocks);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.dataOffset = 0x{0:X8}", imageHeader.DataOffset);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.dataSize = {0}", imageHeader.DataSize);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.commentOffset = 0x{0:X8}", imageHeader.CommentOffset);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.commentSize = {0}", imageHeader.CommentSize);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.creatorSpecificOffset = 0x{0:X8}",
imageHeader.CreatorSpecificOffset);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.creatorSpecificSize = {0}",
imageHeader.CreatorSpecificSize);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.reserved1 = 0x{0:X8}", imageHeader.Reserved1);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.reserved2 = 0x{0:X8}", imageHeader.Reserved2);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.reserved3 = 0x{0:X8}", imageHeader.Reserved3);
AaruConsole.DebugWriteLine("2MG plugin", "ImageHeader.reserved4 = 0x{0:X8}", imageHeader.Reserved4);
if (imageHeader.DataSize == 0 &&
imageHeader.Blocks == 0 &&
imageHeader.ImageFormat != SectorOrder.ProDos)
{
return(false);
}
byte[] tmp;
int[] offsets;
switch (imageHeader.ImageFormat)
{
case SectorOrder.Nibbles:
tmp = new byte[imageHeader.DataSize];
stream.Seek(imageHeader.DataOffset, SeekOrigin.Begin);
stream.Read(tmp, 0, tmp.Length);
var nibPlugin = new AppleNib();
var noFilter = new ZZZNoFilter();
noFilter.Open(tmp);
nibPlugin.Open(noFilter);
decodedImage = nibPlugin.ReadSectors(0, (uint)nibPlugin.Info.Sectors);
imageInfo.Sectors = nibPlugin.Info.Sectors;
imageInfo.SectorSize = nibPlugin.Info.SectorSize;
break;
case SectorOrder.Dos when imageHeader.DataSize == 143360:
case SectorOrder.ProDos when imageHeader.DataSize == 143360:
stream.Seek(imageHeader.DataOffset, SeekOrigin.Begin);
tmp = new byte[imageHeader.DataSize];
stream.Read(tmp, 0, tmp.Length);
bool isDos = tmp[0x11001] == 17 && tmp[0x11002] < 16 && tmp[0x11027] <= 122 && tmp[0x11034] == 35 &&
tmp[0x11035] == 16 && tmp[0x11036] == 0 && tmp[0x11037] == 1;
decodedImage = new byte[imageHeader.DataSize];
offsets = imageHeader.ImageFormat == SectorOrder.Dos
? isDos
? deinterleave
: interleave
: isDos
? interleave
: deinterleave;
for (int t = 0; t < 35; t++)
{
for (int s = 0; s < 16; s++)
{
Array.Copy(tmp, (t * 16 * 256) + (s * 256), decodedImage,
(t * 16 * 256) + (offsets[s] * 256), 256);
}
}
imageInfo.Sectors = 560;
imageInfo.SectorSize = 256;
break;
case SectorOrder.Dos when imageHeader.DataSize == 819200:
stream.Seek(imageHeader.DataOffset, SeekOrigin.Begin);
tmp = new byte[imageHeader.DataSize];
stream.Read(tmp, 0, tmp.Length);
decodedImage = new byte[imageHeader.DataSize];
offsets = interleave;
for (int t = 0; t < 200; t++)
{
for (int s = 0; s < 16; s++)
{
Array.Copy(tmp, (t * 16 * 256) + (s * 256), decodedImage,
(t * 16 * 256) + (offsets[s] * 256), 256);
}
}
imageInfo.Sectors = 1600;
imageInfo.SectorSize = 512;
break;
default:
decodedImage = null;
imageInfo.SectorSize = 512;
imageInfo.Sectors = imageHeader.DataSize / 512;
break;
}
imageInfo.ImageSize = imageHeader.DataSize;
switch (imageHeader.Creator)
{
case CREATOR_ASIMOV:
imageInfo.Application = "ASIMOV2";
break;
case CREATOR_BERNIE:
imageInfo.Application = "Bernie ][ the Rescue";
break;
case CREATOR_CATAKIG:
imageInfo.Application = "Catakig";
break;
case CREATOR_SHEPPY:
imageInfo.Application = "Sheppy's ImageMaker";
break;
case CREATOR_SWEET:
imageInfo.Application = "Sweet16";
break;
case CREATOR_XGS:
imageInfo.Application = "XGS";
break;
case CREATOR_CIDER:
imageInfo.Application = "CiderPress";
break;
case CREATOR_DIC:
imageInfo.Application = "DiscImageChef";
break;
case CREATOR_AARU:
imageInfo.Application = "Aaru";
break;
default:
imageInfo.Application = $"Unknown creator code \"{Encoding.ASCII.GetString(creator)}\"";
break;
}
imageInfo.Version = imageHeader.Version.ToString();
if (imageHeader.CommentOffset != 0 &&
imageHeader.CommentSize != 0)
{
stream.Seek(imageHeader.CommentOffset, SeekOrigin.Begin);
byte[] comments = new byte[imageHeader.CommentSize];
stream.Read(comments, 0, (int)imageHeader.CommentSize);
imageInfo.Comments = Encoding.ASCII.GetString(comments);
}
imageInfo.CreationTime = imageFilter.GetCreationTime();
imageInfo.LastModificationTime = imageFilter.GetLastWriteTime();
imageInfo.MediaTitle = Path.GetFileNameWithoutExtension(imageFilter.GetFilename());
imageInfo.MediaType = GetMediaType();
a2MgImageFilter = imageFilter;
imageInfo.XmlMediaType = XmlMediaType.BlockMedia;
AaruConsole.VerboseWriteLine("2MG image contains a disk of type {0}", imageInfo.MediaType);
if (!string.IsNullOrEmpty(imageInfo.Comments))
{
AaruConsole.VerboseWriteLine("2MG comments: {0}", imageInfo.Comments);
}
switch (imageInfo.MediaType)
{
case MediaType.Apple32SS:
imageInfo.Cylinders = 35;
imageInfo.Heads = 1;
imageInfo.SectorsPerTrack = 13;
break;
case MediaType.Apple32DS:
imageInfo.Cylinders = 35;
imageInfo.Heads = 2;
imageInfo.SectorsPerTrack = 13;
break;
case MediaType.Apple33SS:
imageInfo.Cylinders = 35;
imageInfo.Heads = 1;
imageInfo.SectorsPerTrack = 16;
break;
case MediaType.Apple33DS:
imageInfo.Cylinders = 35;
imageInfo.Heads = 2;
imageInfo.SectorsPerTrack = 16;
break;
case MediaType.AppleSonySS:
imageInfo.Cylinders = 80;
imageInfo.Heads = 1;
// Variable sectors per track, this suffices
imageInfo.SectorsPerTrack = 10;
break;
case MediaType.AppleSonyDS:
imageInfo.Cylinders = 80;
imageInfo.Heads = 2;
// Variable sectors per track, this suffices
imageInfo.SectorsPerTrack = 10;
break;
case MediaType.DOS_35_HD:
imageInfo.Cylinders = 80;
imageInfo.Heads = 2;
imageInfo.SectorsPerTrack = 18;
break;
}
return(true);
}
public void Test()
{
Environment.CurrentDirectory = Path.Combine(Consts.TEST_FILES_ROOT, "Media image formats", "CDRWin");
for (int i = 0; i < _testFiles.Length; i++)
{
IFilter filter = new ZZZNoFilter();
filter.Open(_testFiles[i]);
IOpticalMediaImage image = new CdrWin();
Assert.AreEqual(true, image.Open(filter), _testFiles[i]);
Assert.AreEqual(_sectors[i], image.Info.Sectors, _testFiles[i]);
Assert.AreEqual(_mediaTypes[i], image.Info.MediaType, _testFiles[i]);
Assert.AreEqual(_tracks[i], image.Tracks.Count, _testFiles[i]);
// How many sectors to read at once
const uint sectorsToRead = 256;
int trackNo = 0;
foreach (Track currentTrack in image.Tracks)
{
Assert.AreEqual(_trackSessions[i][trackNo], currentTrack.TrackSession, _testFiles[i]);
Assert.AreEqual(_trackStarts[i][trackNo], currentTrack.TrackStartSector, _testFiles[i]);
Assert.AreEqual(_trackEnds[i][trackNo], currentTrack.TrackEndSector, _testFiles[i]);
Assert.AreEqual(_trackPregaps[i][trackNo], currentTrack.TrackPregap, _testFiles[i]);
if (image.Info.ReadableSectorTags.Contains(SectorTagType.CdTrackFlags))
{
Assert.AreEqual(_trackFlags[i][trackNo],
image.ReadSectorTag(currentTrack.TrackSequence, SectorTagType.CdTrackFlags)[0],
_testFiles[i]);
}
trackNo++;
}
foreach (bool @long in new[]
{
false, true
})
{
var ctx = new Md5Context();
foreach (Track currentTrack in image.Tracks)
{
ulong sectors = (currentTrack.TrackEndSector - currentTrack.TrackStartSector) + 1;
ulong doneSectors = 0;
while (doneSectors < sectors)
{
byte[] sector;
if (sectors - doneSectors >= sectorsToRead)
{
sector =
@long ? image.ReadSectorsLong(doneSectors, sectorsToRead,
currentTrack.TrackSequence)
: image.ReadSectors(doneSectors, sectorsToRead, currentTrack.TrackSequence);
doneSectors += sectorsToRead;
}
else
{
sector = @long ? image.ReadSectorsLong(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence)
: image.ReadSectors(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence);
doneSectors += sectors - doneSectors;
}
ctx.Update(sector);
}
}
Assert.AreEqual(@long ? _longMd5S[i] : _md5S[i], ctx.End(), _testFiles[i]);
}
if (image.Info.ReadableSectorTags.Contains(SectorTagType.CdSectorSubchannel))
{
var ctx = new Md5Context();
foreach (Track currentTrack in image.Tracks)
{
ulong sectors = (currentTrack.TrackEndSector - currentTrack.TrackStartSector) + 1;
ulong doneSectors = 0;
while (doneSectors < sectors)
{
byte[] sector;
if (sectors - doneSectors >= sectorsToRead)
{
sector = image.ReadSectorsTag(doneSectors, sectorsToRead, currentTrack.TrackSequence,
SectorTagType.CdSectorSubchannel);
doneSectors += sectorsToRead;
}
else
{
sector = image.ReadSectorsTag(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence,
SectorTagType.CdSectorSubchannel);
doneSectors += sectors - doneSectors;
}
ctx.Update(sector);
}
}
Assert.AreEqual(_subchannelMd5S[i], ctx.End(), _testFiles[i]);
}
}
}
public bool Open(IFilter imageFilter)
{
Stream stream = imageFilter.GetDataForkStream();
stream.Seek(0, SeekOrigin.Begin);
if (stream.Length < Marshal.SizeOf <OobBlock>())
{
return(false);
}
byte[] hdr = new byte[Marshal.SizeOf <OobBlock>()];
stream.Read(hdr, 0, Marshal.SizeOf <OobBlock>());
OobBlock header = Marshal.ByteArrayToStructureLittleEndian <OobBlock>(hdr);
stream.Seek(-Marshal.SizeOf <OobBlock>(), SeekOrigin.End);
hdr = new byte[Marshal.SizeOf <OobBlock>()];
stream.Read(hdr, 0, Marshal.SizeOf <OobBlock>());
OobBlock footer = Marshal.ByteArrayToStructureLittleEndian <OobBlock>(hdr);
if (header.blockId != BlockIds.Oob ||
header.blockType != OobTypes.KFInfo ||
footer.blockId != BlockIds.Oob ||
footer.blockType != OobTypes.EOF ||
footer.length != 0x0D0D)
{
return(false);
}
// TODO: This is supposing NoFilter, shouldn't
tracks = new SortedDictionary <byte, IFilter>();
byte step = 1;
byte heads = 2;
bool topHead = false;
string basename = Path.Combine(imageFilter.GetParentFolder(),
imageFilter.GetFilename().
Substring(0, imageFilter.GetFilename().Length - 8));
for (byte t = 0; t < 166; t += step)
{
int cylinder = t / heads;
int head = topHead ? 1 : t % heads;
string trackfile = Directory.Exists(basename) ? Path.Combine(basename, $"{cylinder:D2}.{head:D1}.raw")
: $"{basename}{cylinder:D2}.{head:D1}.raw";
if (!File.Exists(trackfile))
{
if (cylinder == 0)
{
if (head == 0)
{
AaruConsole.DebugWriteLine("KryoFlux plugin",
"Cannot find cyl 0 hd 0, supposing only top head was dumped");
topHead = true;
heads = 1;
continue;
}
AaruConsole.DebugWriteLine("KryoFlux plugin",
"Cannot find cyl 0 hd 1, supposing only bottom head was dumped");
heads = 1;
continue;
}
else if (cylinder == 1)
{
AaruConsole.DebugWriteLine("KryoFlux plugin", "Cannot find cyl 1, supposing double stepping");
step = 2;
continue;
}
else
{
AaruConsole.DebugWriteLine("KryoFlux plugin", "Arrived end of disk at cylinder {0}", cylinder);
break;
}
}
var trackFilter = new ZZZNoFilter();
trackFilter.Open(trackfile);
if (!trackFilter.IsOpened())
{
throw new IOException("Could not open KryoFlux track file.");
}
imageInfo.CreationTime = DateTime.MaxValue;
imageInfo.LastModificationTime = DateTime.MinValue;
Stream trackStream = trackFilter.GetDataForkStream();
while (trackStream.Position < trackStream.Length)
{
byte blockId = (byte)trackStream.ReadByte();
switch (blockId)
{
case (byte)BlockIds.Oob:
{
trackStream.Position--;
byte[] oob = new byte[Marshal.SizeOf <OobBlock>()];
trackStream.Read(oob, 0, Marshal.SizeOf <OobBlock>());
OobBlock oobBlk = Marshal.ByteArrayToStructureLittleEndian <OobBlock>(oob);
if (oobBlk.blockType == OobTypes.EOF)
{
trackStream.Position = trackStream.Length;
break;
}
if (oobBlk.blockType != OobTypes.KFInfo)
{
trackStream.Position += oobBlk.length;
break;
}
byte[] kfinfo = new byte[oobBlk.length];
trackStream.Read(kfinfo, 0, oobBlk.length);
string kfinfoStr = StringHandlers.CToString(kfinfo);
string[] lines = kfinfoStr.Split(new[]
{
','
}, StringSplitOptions.RemoveEmptyEntries);
DateTime blockDate = DateTime.Now;
DateTime blockTime = DateTime.Now;
bool foundDate = false;
foreach (string[] kvp in lines.Select(line => line.Split('=')).Where(kvp => kvp.Length == 2))
{
kvp[0] = kvp[0].Trim();
kvp[1] = kvp[1].Trim();
AaruConsole.DebugWriteLine("KryoFlux plugin", "\"{0}\" = \"{1}\"", kvp[0], kvp[1]);
switch (kvp[0])
{
case _hostDate:
if (DateTime.TryParseExact(kvp[1], "yyyy.MM.dd", CultureInfo.InvariantCulture,
DateTimeStyles.AssumeLocal, out blockDate))
{
foundDate = true;
}
break;
case _hostTime:
DateTime.TryParseExact(kvp[1], "HH:mm:ss", CultureInfo.InvariantCulture,
DateTimeStyles.AssumeLocal, out blockTime);
break;
case _kfName:
imageInfo.Application = kvp[1];
break;
case _kfVersion:
imageInfo.ApplicationVersion = kvp[1];
break;
}
}
if (foundDate)
{
var blockTimestamp = new DateTime(blockDate.Year, blockDate.Month, blockDate.Day,
blockTime.Hour, blockTime.Minute, blockTime.Second);
AaruConsole.DebugWriteLine("KryoFlux plugin", "Found timestamp: {0}", blockTimestamp);
if (blockTimestamp < Info.CreationTime)
{
imageInfo.CreationTime = blockTimestamp;
}
if (blockTimestamp > Info.LastModificationTime)
{
imageInfo.LastModificationTime = blockTimestamp;
}
}
break;
}
case (byte)BlockIds.Flux2:
case (byte)BlockIds.Flux2_1:
case (byte)BlockIds.Flux2_2:
case (byte)BlockIds.Flux2_3:
case (byte)BlockIds.Flux2_4:
case (byte)BlockIds.Flux2_5:
case (byte)BlockIds.Flux2_6:
case (byte)BlockIds.Flux2_7:
case (byte)BlockIds.Nop2:
trackStream.Position++;
continue;
case (byte)BlockIds.Nop3:
case (byte)BlockIds.Flux3:
trackStream.Position += 2;
continue;
default: continue;
}
}
tracks.Add(t, trackFilter);
}
imageInfo.Heads = heads;
imageInfo.Cylinders = (uint)(tracks.Count / heads);
throw new NotImplementedException("Flux decoding is not yet implemented.");
}
public void Test()
{
// How many sectors to read at once
const uint sectorsToRead = 256;
Environment.CurrentDirectory =
Path.Combine(Consts.TEST_FILES_ROOT, "Media image formats", "MagicISO", "Cuesheet");
IFilter[] filters = new IFilter[_testFiles.Length];
for (int i = 0; i < _testFiles.Length; i++)
{
filters[i] = new ZZZNoFilter();
filters[i].Open(_testFiles[i]);
}
IOpticalMediaImage[] images = new IOpticalMediaImage[_testFiles.Length];
for (int i = 0; i < _testFiles.Length; i++)
{
images[i] = new CdrWin();
Assert.AreEqual(true, images[i].Open(filters[i]), $"Open: {_testFiles[i]}");
}
for (int i = 0; i < _testFiles.Length; i++)
{
Assert.AreEqual(_sectors[i], images[i].Info.Sectors, $"Sectors: {_testFiles[i]}");
}
for (int i = 0; i < _testFiles.Length; i++)
{
Assert.AreEqual(_mediaTypes[i], images[i].Info.MediaType, $"Media type: {_testFiles[i]}");
}
for (int i = 0; i < _testFiles.Length; i++)
{
Assert.AreEqual(_tracks[i], images[i].Tracks.Count, $"Tracks: {_testFiles[i]}");
}
for (int i = 0; i < _testFiles.Length; i++)
{
images[i].Tracks.Select(t => t.TrackSession).Should().
BeEquivalentTo(_trackSessions[i], $"Track session: {_testFiles[i]}");
}
for (int i = 0; i < _testFiles.Length; i++)
{
images[i].Tracks.Select(t => t.TrackStartSector).Should().
BeEquivalentTo(_trackStarts[i], $"Track start: {_testFiles[i]}");
}
for (int i = 0; i < _testFiles.Length; i++)
{
images[i].Tracks.Select(t => t.TrackEndSector).Should().
BeEquivalentTo(_trackEnds[i], $"Track end: {_testFiles[i]}");
}
for (int i = 0; i < _testFiles.Length; i++)
{
images[i].Tracks.Select(t => t.TrackPregap).Should().
BeEquivalentTo(_trackPregaps[i], $"Track pregap: {_testFiles[i]}");
}
for (int i = 0; i < _testFiles.Length; i++)
{
int trackNo = 0;
foreach (Track currentTrack in images[i].Tracks)
{
if (images[i].Info.ReadableSectorTags.Contains(SectorTagType.CdTrackFlags))
{
Assert.AreEqual(_trackFlags[i][trackNo],
images[i].ReadSectorTag(currentTrack.TrackSequence, SectorTagType.CdTrackFlags)
[0], $"Track flags: {_testFiles[i]}, track {currentTrack.TrackSequence}");
}
trackNo++;
}
}
foreach (bool @long in new[]
{
false, true
})
{
for (int i = 0; i < _testFiles.Length; i++)
{
var ctx = new Md5Context();
foreach (Track currentTrack in images[i].Tracks)
{
ulong sectors = currentTrack.TrackEndSector - currentTrack.TrackStartSector + 1;
ulong doneSectors = 0;
while (doneSectors < sectors)
{
byte[] sector;
if (sectors - doneSectors >= sectorsToRead)
{
sector = @long ? images[i].
ReadSectorsLong(doneSectors, sectorsToRead, currentTrack.TrackSequence)
: images[i].
ReadSectors(doneSectors, sectorsToRead, currentTrack.TrackSequence);
doneSectors += sectorsToRead;
}
else
{
sector = @long ? images[i].ReadSectorsLong(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence)
: images[i].ReadSectors(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence);
doneSectors += sectors - doneSectors;
}
ctx.Update(sector);
}
}
Assert.AreEqual(@long ? _longMd5S[i] : _md5S[i], ctx.End(),
$"{(@long ? "Long hash" : "Hash")}: {_testFiles[i]}");
}
}
for (int i = 0; i < _testFiles.Length; i++)
{
if (images[i].Info.ReadableSectorTags.Contains(SectorTagType.CdSectorSubchannel))
{
var ctx = new Md5Context();
foreach (Track currentTrack in images[i].Tracks)
{
ulong sectors = currentTrack.TrackEndSector - currentTrack.TrackStartSector + 1;
ulong doneSectors = 0;
while (doneSectors < sectors)
{
byte[] sector;
if (sectors - doneSectors >= sectorsToRead)
{
sector = images[i].ReadSectorsTag(doneSectors, sectorsToRead,
currentTrack.TrackSequence,
SectorTagType.CdSectorSubchannel);
doneSectors += sectorsToRead;
}
else
{
sector = images[i].ReadSectorsTag(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence,
SectorTagType.CdSectorSubchannel);
doneSectors += sectors - doneSectors;
}
ctx.Update(sector);
}
}
Assert.AreEqual(_subchannelMd5S[i], ctx.End(), $"Subchannel hash: {_testFiles[i]}");
}
}
}
public void Hashes()
{
// How many sectors to read at once
const uint sectorsToRead = 256;
Environment.CurrentDirectory =
Path.Combine(Consts.TEST_FILES_ROOT, "Media image formats", "UltraISO", "Alcohol");
Assert.Multiple(() =>
{
for (int i = 0; i < _testFiles.Length; i++)
{
var filter = new ZZZNoFilter();
filter.Open(_testFiles[i]);
var image = new DiscImages.Alcohol120();
bool opened = image.Open(filter);
Assert.AreEqual(true, opened, $"Open: {_testFiles[i]}");
Md5Context ctx;
foreach (bool @long in new[]
{
false, true
})
{
ctx = new Md5Context();
foreach (Track currentTrack in image.Tracks)
{
ulong sectors = currentTrack.TrackEndSector - currentTrack.TrackStartSector + 1;
ulong doneSectors = 0;
while (doneSectors < sectors)
{
byte[] sector;
if (sectors - doneSectors >= sectorsToRead)
{
sector =
@long ? image.ReadSectorsLong(doneSectors, sectorsToRead,
currentTrack.TrackSequence)
: image.ReadSectors(doneSectors, sectorsToRead, currentTrack.TrackSequence);
doneSectors += sectorsToRead;
}
else
{
sector =
@long ? image.ReadSectorsLong(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence)
: image.ReadSectors(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence);
doneSectors += sectors - doneSectors;
}
ctx.Update(sector);
}
}
Assert.AreEqual(@long ? _longMd5S[i] : _md5S[i], ctx.End(),
$"{(@long ? "Long hash" : "Hash")}: {_testFiles[i]}");
}
if (!image.Info.ReadableSectorTags.Contains(SectorTagType.CdSectorSubchannel))
{
continue;
}
ctx = new Md5Context();
foreach (Track currentTrack in image.Tracks)
{
ulong sectors = currentTrack.TrackEndSector - currentTrack.TrackStartSector + 1;
ulong doneSectors = 0;
while (doneSectors < sectors)
{
byte[] sector;
if (sectors - doneSectors >= sectorsToRead)
{
sector = image.ReadSectorsTag(doneSectors, sectorsToRead, currentTrack.TrackSequence,
SectorTagType.CdSectorSubchannel);
doneSectors += sectorsToRead;
}
else
{
sector = image.ReadSectorsTag(doneSectors, (uint)(sectors - doneSectors),
currentTrack.TrackSequence,
SectorTagType.CdSectorSubchannel);
doneSectors += sectors - doneSectors;
}
ctx.Update(sector);
}
}
Assert.AreEqual(_subchannelMd5S[i], ctx.End(), $"Subchannel hash: {_testFiles[i]}");
}
});
}
