/// <summary>Dumps a MultiMediaCard or SecureDigital flash card</summary>
void SecureDigital()
{
if (_dumpRaw)
{
if (_force)
{
ErrorMessage?.
Invoke("Raw dumping is not supported in MultiMediaCard or SecureDigital devices. Continuing...");
}
else
{
StoppingErrorMessage?.
Invoke("Raw dumping is not supported in MultiMediaCard or SecureDigital devices. Aborting...");
return;
}
}
bool sense;
const ushort sdProfile = 0x0001;
const uint timeout = 5;
double duration;
uint blocksToRead = 1;
uint blockSize = 512;
ulong blocks = 0;
byte[] csd = null;
byte[] ocr = null;
byte[] ecsd = null;
byte[] scr = null;
uint physicalBlockSize = 0;
bool byteAddressed = true;
uint[] response;
Dictionary <MediaTagType, byte[]> mediaTags = new Dictionary <MediaTagType, byte[]>();
switch (_dev.Type)
{
case DeviceType.MMC:
{
UpdateStatus?.Invoke("Reading Extended CSD");
_dumpLog.WriteLine("Reading Extended CSD");
sense = _dev.ReadExtendedCsd(out ecsd, out response, timeout, out duration);
if (!sense)
{
ExtendedCSD ecsdDecoded = Decoders.MMC.Decoders.DecodeExtendedCSD(ecsd);
blocksToRead = ecsdDecoded.OptimalReadSize;
blocks = ecsdDecoded.SectorCount;
blockSize = (uint)(ecsdDecoded.SectorSize == 1 ? 4096 : 512);
if (ecsdDecoded.NativeSectorSize == 0)
{
physicalBlockSize = 512;
}
else if (ecsdDecoded.NativeSectorSize == 1)
{
physicalBlockSize = 4096;
}
// Supposing it's high-capacity MMC if it has Extended CSD...
byteAddressed = false;
mediaTags.Add(MediaTagType.MMC_ExtendedCSD, null);
}
else
{
_errorLog?.WriteLine("Read eCSD", _dev.Error, _dev.LastError, response);
ecsd = null;
}
UpdateStatus?.Invoke("Reading CSD");
_dumpLog.WriteLine("Reading CSD");
sense = _dev.ReadCsd(out csd, out response, timeout, out duration);
if (!sense)
{
if (blocks == 0)
{
CSD csdDecoded = Decoders.MMC.Decoders.DecodeCSD(csd);
blocks = (ulong)((csdDecoded.Size + 1) * Math.Pow(2, csdDecoded.SizeMultiplier + 2));
blockSize = (uint)Math.Pow(2, csdDecoded.ReadBlockLength);
}
mediaTags.Add(MediaTagType.MMC_CSD, null);
}
else
{
_errorLog?.WriteLine("Read CSD", _dev.Error, _dev.LastError, response);
csd = null;
}
UpdateStatus?.Invoke("Reading OCR");
_dumpLog.WriteLine("Reading OCR");
sense = _dev.ReadOcr(out ocr, out response, timeout, out duration);
if (sense)
{
_errorLog?.WriteLine("Read OCR", _dev.Error, _dev.LastError, response);
ocr = null;
}
else
{
mediaTags.Add(MediaTagType.MMC_OCR, null);
}
break;
}
case DeviceType.SecureDigital:
{
UpdateStatus?.Invoke("Reading CSD");
_dumpLog.WriteLine("Reading CSD");
sense = _dev.ReadCsd(out csd, out response, timeout, out duration);
if (!sense)
{
Decoders.SecureDigital.CSD csdDecoded = Decoders.SecureDigital.Decoders.DecodeCSD(csd);
blocks = (ulong)(csdDecoded.Structure == 0
? (csdDecoded.Size + 1) * Math.Pow(2, csdDecoded.SizeMultiplier + 2)
: (csdDecoded.Size + 1) * 1024);
blockSize = (uint)Math.Pow(2, csdDecoded.ReadBlockLength);
// Structure >=1 for SDHC/SDXC, so that's block addressed
byteAddressed = csdDecoded.Structure == 0;
mediaTags.Add(MediaTagType.SD_CSD, null);
}
else
{
_errorLog?.WriteLine("Read CSD", _dev.Error, _dev.LastError, response);
csd = null;
}
UpdateStatus?.Invoke("Reading OCR");
_dumpLog.WriteLine("Reading OCR");
sense = _dev.ReadSdocr(out ocr, out response, timeout, out duration);
if (sense)
{
_errorLog?.WriteLine("Read OCR", _dev.Error, _dev.LastError, response);
ocr = null;
}
else
{
mediaTags.Add(MediaTagType.SD_OCR, null);
}
UpdateStatus?.Invoke("Reading SCR");
_dumpLog.WriteLine("Reading SCR");
sense = _dev.ReadScr(out scr, out response, timeout, out duration);
if (sense)
{
_errorLog?.WriteLine("Read SCR", _dev.Error, _dev.LastError, response);
scr = null;
}
else
{
mediaTags.Add(MediaTagType.SD_SCR, null);
}
break;
}
}
UpdateStatus?.Invoke("Reading CID");
_dumpLog.WriteLine("Reading CID");
sense = _dev.ReadCid(out byte[] cid, out response, timeout, out duration);
if (sense)
{
_errorLog?.WriteLine("Read CID", _dev.Error, _dev.LastError, response);
cid = null;
}
else
{
mediaTags.Add(_dev.Type == DeviceType.SecureDigital ? MediaTagType.SD_CID : MediaTagType.MMC_CID, null);
}
DateTime start;
DateTime end;
double totalDuration = 0;
double currentSpeed = 0;
double maxSpeed = double.MinValue;
double minSpeed = double.MaxValue;
if (blocks == 0)
{
_dumpLog.WriteLine("Unable to get device size.");
StoppingErrorMessage?.Invoke("Unable to get device size.");
return;
}
UpdateStatus?.Invoke($"Device reports {blocks} blocks.");
_dumpLog.WriteLine("Device reports {0} blocks.", blocks);
byte[] cmdBuf;
bool error;
while (true)
{
error = _dev.Read(out cmdBuf, out _, 0, blockSize, blocksToRead, byteAddressed, timeout, out duration);
if (error)
{
blocksToRead /= 2;
}
if (!error ||
blocksToRead == 1)
{
break;
}
}
if (error)
{
_dumpLog.WriteLine("ERROR: Cannot get blocks to read, device error {0}.", _dev.LastError);
StoppingErrorMessage?.Invoke($"Device error {_dev.LastError} trying to guess ideal transfer length.");
return;
}
UpdateStatus?.Invoke($"Device can read {blocksToRead} blocks at a time.");
_dumpLog.WriteLine("Device can read {0} blocks at a time.", blocksToRead);
if (_skip < blocksToRead)
{
_skip = blocksToRead;
}
DumpHardwareType currentTry = null;
ExtentsULong extents = null;
ResumeSupport.Process(true, false, blocks, _dev.Manufacturer, _dev.Model, _dev.Serial, _dev.PlatformId,
ref _resume, ref currentTry, ref extents, _dev.FirmwareRevision, _private);
if (currentTry == null ||
extents == null)
{
StoppingErrorMessage?.Invoke("Could not process resume file, not continuing...");
return;
}
bool ret = true;
foreach (MediaTagType tag in mediaTags.Keys.Where(tag => !_outputPlugin.SupportedMediaTags.Contains(tag)))
{
ret = false;
_dumpLog.WriteLine($"Output format does not support {tag}.");
ErrorMessage?.Invoke($"Output format does not support {tag}.");
}
if (!ret)
{
if (_force)
{
_dumpLog.WriteLine("Several media tags not supported, continuing...");
ErrorMessage?.Invoke("Several media tags not supported, continuing...");
}
else
{
_dumpLog.WriteLine("Several media tags not supported, not continuing...");
StoppingErrorMessage?.Invoke("Several media tags not supported, not continuing...");
return;
}
}
var mhddLog = new MhddLog(_outputPrefix + ".mhddlog.bin", _dev, blocks, blockSize, blocksToRead, _private);
var ibgLog = new IbgLog(_outputPrefix + ".ibg", sdProfile);
ret = _outputPlugin.Create(_outputPath,
_dev.Type == DeviceType.SecureDigital ? MediaType.SecureDigital : MediaType.MMC,
_formatOptions, blocks, blockSize);
// Cannot create image
if (!ret)
{
_dumpLog.WriteLine("Error creating output image, not continuing.");
_dumpLog.WriteLine(_outputPlugin.ErrorMessage);
StoppingErrorMessage?.Invoke("Error creating output image, not continuing." + Environment.NewLine +
_outputPlugin.ErrorMessage);
return;
}
if (_resume.NextBlock > 0)
{
UpdateStatus?.Invoke($"Resuming from block {_resume.NextBlock}.");
_dumpLog.WriteLine("Resuming from block {0}.", _resume.NextBlock);
}
start = DateTime.UtcNow;
double imageWriteDuration = 0;
bool newTrim = false;
DateTime timeSpeedStart = DateTime.UtcNow;
ulong sectorSpeedStart = 0;
InitProgress?.Invoke();
for (ulong i = _resume.NextBlock; i < blocks; i += blocksToRead)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
if (blocks - i < blocksToRead)
{
blocksToRead = (byte)(blocks - i);
}
if (currentSpeed > maxSpeed &&
currentSpeed > 0)
{
maxSpeed = currentSpeed;
}
if (currentSpeed < minSpeed &&
currentSpeed > 0)
{
minSpeed = currentSpeed;
}
UpdateProgress?.Invoke($"Reading sector {i} of {blocks} ({currentSpeed:F3} MiB/sec.)", (long)i,
(long)blocks);
error = _dev.Read(out cmdBuf, out response, (uint)i, blockSize, blocksToRead, byteAddressed, timeout,
out duration);
if (!error)
{
mhddLog.Write(i, duration);
ibgLog.Write(i, currentSpeed * 1024);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(cmdBuf, i, blocksToRead);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
extents.Add(i, blocksToRead, true);
}
else
{
_errorLog?.WriteLine(i, _dev.Error, _dev.LastError, byteAddressed, response);
if (i + _skip > blocks)
{
_skip = (uint)(blocks - i);
}
for (ulong b = i; b < i + _skip; b++)
{
_resume.BadBlocks.Add(b);
}
mhddLog.Write(i, duration < 500 ? 65535 : duration);
ibgLog.Write(i, 0);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(new byte[blockSize * _skip], i, _skip);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
_dumpLog.WriteLine("Skipping {0} blocks from errored block {1}.", _skip, i);
i += _skip - blocksToRead;
newTrim = true;
}
sectorSpeedStart += blocksToRead;
_resume.NextBlock = i + blocksToRead;
double elapsed = (DateTime.UtcNow - timeSpeedStart).TotalSeconds;
if (elapsed < 1)
{
continue;
}
currentSpeed = (sectorSpeedStart * blockSize) / (1048576 * elapsed);
sectorSpeedStart = 0;
timeSpeedStart = DateTime.UtcNow;
}
end = DateTime.Now;
EndProgress?.Invoke();
mhddLog.Close();
ibgLog.Close(_dev, blocks, blockSize, (end - start).TotalSeconds, currentSpeed * 1024,
(blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000), _devicePath);
UpdateStatus?.Invoke($"Dump finished in {(end - start).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average dump speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000):F3} KiB/sec.");
UpdateStatus?.
Invoke($"Average write speed {((double)blockSize * (double)(blocks + 1)) / 1024 / imageWriteDuration:F3} KiB/sec.");
_dumpLog.WriteLine("Dump finished in {0} seconds.", (end - start).TotalSeconds);
_dumpLog.WriteLine("Average dump speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000));
_dumpLog.WriteLine("Average write speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / imageWriteDuration);
#region Trimming
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_trim &&
newTrim)
{
start = DateTime.UtcNow;
UpdateStatus?.Invoke("Trimming skipped sectors");
_dumpLog.WriteLine("Trimming skipped sectors");
ulong[] tmpArray = _resume.BadBlocks.ToArray();
InitProgress?.Invoke();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke($"Trimming sector {badSector}");
error = _dev.Read(out cmdBuf, out response, (uint)badSector, blockSize, 1, byteAddressed, timeout,
out duration);
totalDuration += duration;
if (error)
{
_errorLog?.WriteLine(badSector, _dev.Error, _dev.LastError, byteAddressed, response);
continue;
}
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(cmdBuf, badSector);
}
EndProgress?.Invoke();
end = DateTime.UtcNow;
UpdateStatus?.Invoke($"Trimming finished in {(end - start).TotalSeconds} seconds.");
_dumpLog.WriteLine("Trimming finished in {0} seconds.", (end - start).TotalSeconds);
}
#endregion Trimming
#region Error handling
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_retryPasses > 0)
{
int pass = 1;
bool forward = true;
bool runningPersistent = false;
InitProgress?.Invoke();
repeatRetryLba:
ulong[] tmpArray = _resume.BadBlocks.ToArray();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke(string.Format("Retrying sector {0}, pass {1}, {3}{2}", badSector, pass,
forward ? "forward" : "reverse",
runningPersistent ? "recovering partial data, " : ""));
error = _dev.Read(out cmdBuf, out response, (uint)badSector, blockSize, 1, byteAddressed, timeout,
out duration);
totalDuration += duration;
if (error)
{
_errorLog?.WriteLine(badSector, _dev.Error, _dev.LastError, byteAddressed, response);
}
if (!error)
{
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(cmdBuf, badSector);
UpdateStatus?.Invoke($"Correctly retried block {badSector} in pass {pass}.");
_dumpLog.WriteLine("Correctly retried block {0} in pass {1}.", badSector, pass);
}
else if (runningPersistent)
{
_outputPlugin.WriteSector(cmdBuf, badSector);
}
}
if (pass < _retryPasses &&
!_aborted &&
_resume.BadBlocks.Count > 0)
{
pass++;
forward = !forward;
_resume.BadBlocks.Sort();
if (!forward)
{
_resume.BadBlocks.Reverse();
}
goto repeatRetryLba;
}
EndProgress?.Invoke();
}
#endregion Error handling
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
_outputPlugin.SetDumpHardware(_resume.Tries);
// TODO: Drive info
var metadata = new CommonTypes.Structs.ImageInfo
{
Application = "Aaru",
ApplicationVersion = Version.GetVersion()
};
if (!_outputPlugin.SetMetadata(metadata))
{
ErrorMessage?.Invoke("Error {0} setting metadata, continuing..." + Environment.NewLine +
_outputPlugin.ErrorMessage);
}
if (_preSidecar != null)
{
_outputPlugin.SetCicmMetadata(_preSidecar);
}
_dumpLog.WriteLine("Closing output file.");
UpdateStatus?.Invoke("Closing output file.");
DateTime closeStart = DateTime.Now;
_outputPlugin.Close();
DateTime closeEnd = DateTime.Now;
UpdateStatus?.Invoke($"Closed in {(closeEnd - closeStart).TotalSeconds} seconds.");
_dumpLog.WriteLine("Closed in {0} seconds.", (closeEnd - closeStart).TotalSeconds);
if (_aborted)
{
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
return;
}
double totalChkDuration = 0;
if (_metadata)
{
UpdateStatus?.Invoke("Creating sidecar.");
_dumpLog.WriteLine("Creating sidecar.");
var filters = new FiltersList();
IFilter filter = filters.GetFilter(_outputPath);
IMediaImage inputPlugin = ImageFormat.Detect(filter);
if (!inputPlugin.Open(filter))
{
StoppingErrorMessage?.Invoke("Could not open created image.");
}
DateTime chkStart = DateTime.UtcNow;
_sidecarClass = new Sidecar(inputPlugin, _outputPath, filter.Id, _encoding);
_sidecarClass.InitProgressEvent += InitProgress;
_sidecarClass.UpdateProgressEvent += UpdateProgress;
_sidecarClass.EndProgressEvent += EndProgress;
_sidecarClass.InitProgressEvent2 += InitProgress2;
_sidecarClass.UpdateProgressEvent2 += UpdateProgress2;
_sidecarClass.EndProgressEvent2 += EndProgress2;
_sidecarClass.UpdateStatusEvent += UpdateStatus;
CICMMetadataType sidecar = _sidecarClass.Create();
if (_preSidecar != null)
{
_preSidecar.BlockMedia = sidecar.BlockMedia;
sidecar = _preSidecar;
}
switch (_dev.Type)
{
case DeviceType.MMC:
sidecar.BlockMedia[0].MultiMediaCard = new MultiMediaCardType();
break;
case DeviceType.SecureDigital:
sidecar.BlockMedia[0].SecureDigital = new SecureDigitalType();
break;
}
DumpType cidDump = null;
DumpType csdDump = null;
DumpType ocrDump = null;
if (cid != null)
{
if (_dev.Type == DeviceType.SecureDigital && _private)
{
// Clear serial number and manufacturing date
cid[9] = 0;
cid[10] = 0;
cid[11] = 0;
cid[12] = 0;
cid[13] = 0;
cid[14] = 0;
}
else if (_dev.Type == DeviceType.MMC && _private)
{
// Clear serial number and manufacturing date
cid[10] = 0;
cid[11] = 0;
cid[12] = 0;
cid[13] = 0;
cid[14] = 0;
}
cidDump = new DumpType
{
Image = _outputPath,
Size = (ulong)cid.Length,
Checksums = Checksum.GetChecksums(cid).ToArray()
};
ret =
_outputPlugin.WriteMediaTag(cid,
_dev.Type == DeviceType.SecureDigital ? MediaTagType.SD_CID
: MediaTagType.MMC_CID);
// Cannot write CID to image
if (!ret &&
!_force)
{
_dumpLog.WriteLine("Cannot write CID to output image.");
StoppingErrorMessage?.Invoke("Cannot write CID to output image." + Environment.NewLine +
_outputPlugin.ErrorMessage);
return;
}
}
if (csd != null)
{
csdDump = new DumpType
{
Image = _outputPath,
Size = (ulong)csd.Length,
Checksums = Checksum.GetChecksums(csd).ToArray()
};
ret =
_outputPlugin.WriteMediaTag(csd,
_dev.Type == DeviceType.SecureDigital ? MediaTagType.SD_CSD
: MediaTagType.MMC_CSD);
// Cannot write CSD to image
if (!ret &&
!_force)
{
_dumpLog.WriteLine("Cannot write CSD to output image.");
StoppingErrorMessage?.Invoke("Cannot write CSD to output image." + Environment.NewLine +
_outputPlugin.ErrorMessage);
return;
}
}
if (ecsd != null)
{
sidecar.BlockMedia[0].MultiMediaCard.ExtendedCSD = new DumpType
{
Image = _outputPath,
Size = (ulong)ecsd.Length,
Checksums = Checksum.GetChecksums(ecsd).ToArray()
};
ret = _outputPlugin.WriteMediaTag(ecsd, MediaTagType.MMC_ExtendedCSD);
// Cannot write Extended CSD to image
if (!ret &&
!_force)
{
_dumpLog.WriteLine("Cannot write Extended CSD to output image.");
StoppingErrorMessage?.Invoke("Cannot write Extended CSD to output image." +
Environment.NewLine + _outputPlugin.ErrorMessage);
return;
}
}
if (ocr != null)
{
ocrDump = new DumpType
{
Image = _outputPath,
Size = (ulong)ocr.Length,
Checksums = Checksum.GetChecksums(ocr).ToArray()
};
ret =
_outputPlugin.WriteMediaTag(ocr,
_dev.Type == DeviceType.SecureDigital ? MediaTagType.SD_OCR
: MediaTagType.MMC_OCR);
// Cannot write OCR to image
if (!ret &&
!_force)
{
_dumpLog.WriteLine("Cannot write OCR to output image.");
StoppingErrorMessage?.Invoke("Cannot write OCR to output image." + Environment.NewLine +
_outputPlugin.ErrorMessage);
return;
}
}
if (scr != null)
{
sidecar.BlockMedia[0].SecureDigital.SCR = new DumpType
{
Image = _outputPath,
Size = (ulong)scr.Length,
Checksums = Checksum.GetChecksums(scr).ToArray()
};
ret = _outputPlugin.WriteMediaTag(scr, MediaTagType.SD_SCR);
// Cannot write SCR to image
if (!ret &&
!_force)
{
_dumpLog.WriteLine("Cannot write SCR to output image.");
StoppingErrorMessage?.Invoke("Cannot write SCR to output image." + Environment.NewLine +
_outputPlugin.ErrorMessage);
return;
}
}
switch (_dev.Type)
{
case DeviceType.MMC:
sidecar.BlockMedia[0].MultiMediaCard.CID = cidDump;
sidecar.BlockMedia[0].MultiMediaCard.CSD = csdDump;
sidecar.BlockMedia[0].MultiMediaCard.OCR = ocrDump;
break;
case DeviceType.SecureDigital:
sidecar.BlockMedia[0].SecureDigital.CID = cidDump;
sidecar.BlockMedia[0].SecureDigital.CSD = csdDump;
sidecar.BlockMedia[0].SecureDigital.OCR = ocrDump;
break;
}
end = DateTime.UtcNow;
totalChkDuration = (end - chkStart).TotalMilliseconds;
UpdateStatus?.Invoke($"Sidecar created in {(end - chkStart).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average checksum speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000):F3} KiB/sec.");
_dumpLog.WriteLine("Sidecar created in {0} seconds.", (end - chkStart).TotalSeconds);
_dumpLog.WriteLine("Average checksum speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000));
(string type, string subType)xmlType = (null, null);
switch (_dev.Type)
{
case DeviceType.MMC:
xmlType = CommonTypes.Metadata.MediaType.MediaTypeToString(MediaType.MMC);
sidecar.BlockMedia[0].Dimensions = Dimensions.DimensionsFromMediaType(MediaType.MMC);
break;
case DeviceType.SecureDigital:
CommonTypes.Metadata.MediaType.MediaTypeToString(MediaType.SecureDigital);
sidecar.BlockMedia[0].Dimensions = Dimensions.DimensionsFromMediaType(MediaType.SecureDigital);
break;
}
sidecar.BlockMedia[0].DiskType = xmlType.type;
sidecar.BlockMedia[0].DiskSubType = xmlType.subType;
// TODO: Implement device firmware revision
sidecar.BlockMedia[0].LogicalBlocks = blocks;
sidecar.BlockMedia[0].PhysicalBlockSize = physicalBlockSize > 0 ? physicalBlockSize : blockSize;
sidecar.BlockMedia[0].LogicalBlockSize = blockSize;
sidecar.BlockMedia[0].Manufacturer = _dev.Manufacturer;
sidecar.BlockMedia[0].Model = _dev.Model;
if (!_private)
{
sidecar.BlockMedia[0].Serial = _dev.Serial;
}
sidecar.BlockMedia[0].Size = blocks * blockSize;
UpdateStatus?.Invoke("Writing metadata sidecar");
var xmlFs = new FileStream(_outputPrefix + ".cicm.xml", FileMode.Create);
var xmlSer = new XmlSerializer(typeof(CICMMetadataType));
xmlSer.Serialize(xmlFs, sidecar);
xmlFs.Close();
}
UpdateStatus?.Invoke("");
UpdateStatus?.
Invoke($"Took a total of {(end - start).TotalSeconds:F3} seconds ({totalDuration / 1000:F3} processing commands, {totalChkDuration / 1000:F3} checksumming, {imageWriteDuration:F3} writing, {(closeEnd - closeStart).TotalSeconds:F3} closing).");
UpdateStatus?.
Invoke($"Average speed: {((double)blockSize * (double)(blocks + 1)) / 1048576 / (totalDuration / 1000):F3} MiB/sec.");
if (maxSpeed > 0)
{
UpdateStatus?.Invoke($"Fastest speed burst: {maxSpeed:F3} MiB/sec.");
}
if (minSpeed > 0 &&
minSpeed < double.MaxValue)
{
UpdateStatus?.Invoke($"Slowest speed burst: {minSpeed:F3} MiB/sec.");
}
UpdateStatus?.Invoke($"{_resume.BadBlocks.Count} sectors could not be read.");
UpdateStatus?.Invoke("");
if (_resume.BadBlocks.Count > 0)
{
_resume.BadBlocks.Sort();
}
switch (_dev.Type)
{
case DeviceType.MMC:
Statistics.AddMedia(MediaType.MMC, true);
break;
case DeviceType.SecureDigital:
Statistics.AddMedia(MediaType.SecureDigital, true);
break;
}
}
/// <summary>Process resume</summary>
/// <param name="isLba">If drive is LBA</param>
/// <param name="removable">If media is removable from device</param>
/// <param name="blocks">Media blocks</param>
/// <param name="manufacturer">Device manufacturer</param>
/// <param name="model">Device model</param>
/// <param name="serial">Device serial</param>
/// <param name="platform">Platform where the dump is made</param>
/// <param name="resume">Previous resume, or null</param>
/// <param name="currentTry">Current dumping hardware</param>
/// <param name="extents">Dumped extents</param>
/// <param name="firmware">Firmware revision</param>
/// <param name="isTape">Set to <c>true</c> if device is a streaming tape, <c>false</c> otherwise</param>
/// <param name="private">Disable saving paths or serial numbers in images and logs</param>
/// <exception cref="System.NotImplementedException">If device uses CHS addressing</exception>
/// <exception cref="System.InvalidOperationException">
/// If the provided resume does not correspond with the current in
/// progress dump
/// </exception>
internal static void Process(bool isLba, bool removable, ulong blocks, string manufacturer, string model,
string serial, PlatformID platform, ref Resume resume,
ref DumpHardwareType currentTry, ref ExtentsULong extents, string firmware,
bool @private, bool isTape = false)
{
if (@private)
{
serial = null;
}
if (resume != null)
{
if (!isLba)
{
throw new NotImplementedException("Resuming CHS devices is currently not supported.");
}
if (resume.Tape != isTape)
{
throw new
InvalidOperationException($"Resume file specifies a {(resume.Tape ? "tape" : "not tape")} device but you're requesting to dump a {(isTape ? "tape" : "not tape")} device, not continuing...");
}
if (resume.Removable != removable)
{
throw new
InvalidOperationException($"Resume file specifies a {(resume.Removable ? "removable" : "non removable")} device but you're requesting to dump a {(removable ? "removable" : "non removable")} device, not continuing...");
}
if (!isTape &&
resume.LastBlock != blocks - 1)
{
throw new
InvalidOperationException($"Resume file specifies a device with {resume.LastBlock + 1} blocks but you're requesting to dump one with {blocks} blocks, not continuing...");
}
foreach (DumpHardwareType oldTry in resume.Tries)
{
if (!removable)
{
if (oldTry.Manufacturer != manufacturer)
{
throw new
InvalidOperationException($"Resume file specifies a device manufactured by {oldTry.Manufacturer} but you're requesting to dump one by {manufacturer}, not continuing...");
}
if (oldTry.Model != model)
{
throw new
InvalidOperationException($"Resume file specifies a device model {oldTry.Model} but you're requesting to dump model {model}, not continuing...");
}
if (oldTry.Serial != serial)
{
throw new
InvalidOperationException($"Resume file specifies a device with serial {oldTry.Serial} but you're requesting to dump one with serial {serial}, not continuing...");
}
if (oldTry.Firmware != firmware)
{
throw new
InvalidOperationException($"Resume file specifies a device with firmware version {oldTry.Firmware} but you're requesting to dump one with firmware version {firmware}, not continuing...");
}
}
if (oldTry.Software == null)
{
throw new InvalidOperationException("Found corrupt resume file, cannot continue...");
}
if (oldTry.Software.Name != "Aaru" ||
oldTry.Software.OperatingSystem != platform.ToString() ||
oldTry.Software.Version != Version.GetVersion())
{
continue;
}
if (removable && (oldTry.Manufacturer != manufacturer || oldTry.Model != model ||
oldTry.Serial != serial || oldTry.Firmware != firmware))
{
continue;
}
currentTry = oldTry;
extents = ExtentsConverter.FromMetadata(currentTry.Extents);
break;
}
if (currentTry != null)
{
return;
}
currentTry = new DumpHardwareType
{
Software = CommonTypes.Metadata.Version.GetSoftwareType(),
Manufacturer = manufacturer,
Model = model,
Serial = serial,
Firmware = firmware
};
resume.Tries.Add(currentTry);
extents = new ExtentsULong();
}
else
{
resume = new Resume
{
Tries = new List <DumpHardwareType>(),
CreationDate = DateTime.UtcNow,
BadBlocks = new List <ulong>(),
LastBlock = isTape ? 0 : blocks - 1,
Tape = isTape
};
currentTry = new DumpHardwareType
{
Software = CommonTypes.Metadata.Version.GetSoftwareType(),
Manufacturer = manufacturer,
Model = model,
Serial = serial,
Firmware = firmware
};
resume.Tries.Add(currentTry);
extents = new ExtentsULong();
resume.Removable = removable;
}
}
public static int Invoke(bool verbose, bool debug, string cicmXml, string comments, int count, string creator,
string driveFirmwareRevision, string driveManufacturer, string driveModel,
string driveSerialNumber, bool force, string inputPath, int lastMediaSequence,
string mediaBarcode, string mediaManufacturer, string mediaModel,
string mediaPartNumber, int mediaSequence, string mediaSerialNumber, string mediaTitle,
string outputPath, string outputOptions, string resumeFile, string format)
{
MainClass.PrintCopyright();
if (debug)
{
AaruConsole.DebugWriteLineEvent += System.Console.Error.WriteLine;
}
if (verbose)
{
AaruConsole.VerboseWriteLineEvent += System.Console.WriteLine;
}
Statistics.AddCommand("convert-image");
AaruConsole.DebugWriteLine("Analyze command", "--cicm-xml={0}", cicmXml);
AaruConsole.DebugWriteLine("Analyze command", "--comments={0}", comments);
AaruConsole.DebugWriteLine("Analyze command", "--count={0}", count);
AaruConsole.DebugWriteLine("Analyze command", "--creator={0}", creator);
AaruConsole.DebugWriteLine("Analyze command", "--debug={0}", debug);
AaruConsole.DebugWriteLine("Analyze command", "--drive-manufacturer={0}", driveManufacturer);
AaruConsole.DebugWriteLine("Analyze command", "--drive-model={0}", driveModel);
AaruConsole.DebugWriteLine("Analyze command", "--drive-revision={0}", driveFirmwareRevision);
AaruConsole.DebugWriteLine("Analyze command", "--drive-serial={0}", driveSerialNumber);
AaruConsole.DebugWriteLine("Analyze command", "--force={0}", force);
AaruConsole.DebugWriteLine("Analyze command", "--format={0}", format);
AaruConsole.DebugWriteLine("Analyze command", "--input={0}", inputPath);
AaruConsole.DebugWriteLine("Analyze command", "--media-barcode={0}", mediaBarcode);
AaruConsole.DebugWriteLine("Analyze command", "--media-lastsequence={0}", lastMediaSequence);
AaruConsole.DebugWriteLine("Analyze command", "--media-manufacturer={0}", mediaManufacturer);
AaruConsole.DebugWriteLine("Analyze command", "--media-model={0}", mediaModel);
AaruConsole.DebugWriteLine("Analyze command", "--media-partnumber={0}", mediaPartNumber);
AaruConsole.DebugWriteLine("Analyze command", "--media-sequence={0}", mediaSequence);
AaruConsole.DebugWriteLine("Analyze command", "--media-serial={0}", mediaSerialNumber);
AaruConsole.DebugWriteLine("Analyze command", "--media-title={0}", mediaTitle);
AaruConsole.DebugWriteLine("Analyze command", "--options={0}", outputOptions);
AaruConsole.DebugWriteLine("Analyze command", "--output={0}", outputPath);
AaruConsole.DebugWriteLine("Analyze command", "--resume-file={0}", resumeFile);
AaruConsole.DebugWriteLine("Analyze command", "--verbose={0}", verbose);
Dictionary <string, string> parsedOptions = Core.Options.Parse(outputOptions);
AaruConsole.DebugWriteLine("Analyze command", "Parsed options:");
foreach (KeyValuePair <string, string> parsedOption in parsedOptions)
{
AaruConsole.DebugWriteLine("Analyze command", "{0} = {1}", parsedOption.Key, parsedOption.Value);
}
if (count == 0)
{
AaruConsole.ErrorWriteLine("Need to specify more than 0 sectors to copy at once");
return((int)ErrorNumber.InvalidArgument);
}
Resume resume = null;
CICMMetadataType sidecar = null;
MediaType mediaType;
var xs = new XmlSerializer(typeof(CICMMetadataType));
if (cicmXml != null)
{
if (File.Exists(cicmXml))
{
try
{
var sr = new StreamReader(cicmXml);
sidecar = (CICMMetadataType)xs.Deserialize(sr);
sr.Close();
}
catch (Exception ex)
{
AaruConsole.ErrorWriteLine("Incorrect metadata sidecar file, not continuing...");
AaruConsole.DebugWriteLine("Image conversion", $"{ex}");
return((int)ErrorNumber.InvalidSidecar);
}
}
else
{
AaruConsole.ErrorWriteLine("Could not find metadata sidecar, not continuing...");
return((int)ErrorNumber.FileNotFound);
}
}
xs = new XmlSerializer(typeof(Resume));
if (resumeFile != null)
{
if (File.Exists(resumeFile))
{
try
{
var sr = new StreamReader(resumeFile);
resume = (Resume)xs.Deserialize(sr);
sr.Close();
}
catch (Exception ex)
{
AaruConsole.ErrorWriteLine("Incorrect resume file, not continuing...");
AaruConsole.DebugWriteLine("Image conversion", $"{ex}");
return((int)ErrorNumber.InvalidResume);
}
}
else
{
AaruConsole.ErrorWriteLine("Could not find resume file, not continuing...");
return((int)ErrorNumber.FileNotFound);
}
}
var filtersList = new FiltersList();
IFilter inputFilter = filtersList.GetFilter(inputPath);
if (inputFilter == null)
{
AaruConsole.ErrorWriteLine("Cannot open specified file.");
return((int)ErrorNumber.CannotOpenFile);
}
if (File.Exists(outputPath))
{
AaruConsole.ErrorWriteLine("Output file already exists, not continuing.");
return((int)ErrorNumber.DestinationExists);
}
PluginBase plugins = GetPluginBase.Instance;
IMediaImage inputFormat = ImageFormat.Detect(inputFilter);
if (inputFormat == null)
{
AaruConsole.WriteLine("Input image format not identified, not proceeding with conversion.");
return((int)ErrorNumber.UnrecognizedFormat);
}
if (verbose)
{
AaruConsole.VerboseWriteLine("Input image format identified by {0} ({1}).", inputFormat.Name,
inputFormat.Id);
}
else
{
AaruConsole.WriteLine("Input image format identified by {0}.", inputFormat.Name);
}
try
{
if (!inputFormat.Open(inputFilter))
{
AaruConsole.WriteLine("Unable to open image format");
AaruConsole.WriteLine("No error given");
return((int)ErrorNumber.CannotOpenFormat);
}
mediaType = inputFormat.Info.MediaType;
// Obsolete types
#pragma warning disable 612
switch (mediaType)
{
case MediaType.SQ1500:
mediaType = MediaType.SyJet;
break;
case MediaType.Bernoulli:
mediaType = MediaType.Bernoulli10;
break;
case MediaType.Bernoulli2:
mediaType = MediaType.BernoulliBox2_20;
break;
}
#pragma warning restore 612
AaruConsole.DebugWriteLine("Convert-image command", "Correctly opened image file.");
AaruConsole.DebugWriteLine("Convert-image command", "Image without headers is {0} bytes.",
inputFormat.Info.ImageSize);
AaruConsole.DebugWriteLine("Convert-image command", "Image has {0} sectors.", inputFormat.Info.Sectors);
AaruConsole.DebugWriteLine("Convert-image command", "Image identifies media type as {0}.", mediaType);
Statistics.AddMediaFormat(inputFormat.Format);
Statistics.AddMedia(mediaType, false);
Statistics.AddFilter(inputFilter.Name);
}
catch (Exception ex)
{
AaruConsole.ErrorWriteLine("Unable to open image format");
AaruConsole.ErrorWriteLine("Error: {0}", ex.Message);
AaruConsole.DebugWriteLine("Convert-image command", "Stack trace: {0}", ex.StackTrace);
return((int)ErrorNumber.CannotOpenFormat);
}
List <IWritableImage> candidates = new List <IWritableImage>();
// Try extension
if (string.IsNullOrEmpty(format))
{
candidates.AddRange(plugins.WritableImages.Values.Where(t =>
t.KnownExtensions.
Contains(Path.GetExtension(outputPath))));
}
// Try Id
else if (Guid.TryParse(format, out Guid outId))
{
candidates.AddRange(plugins.WritableImages.Values.Where(t => t.Id.Equals(outId)));
}
// Try name
else
{
candidates.AddRange(plugins.WritableImages.Values.Where(t => string.Equals(t.Name, format,
StringComparison.
InvariantCultureIgnoreCase)));
}
if (candidates.Count == 0)
{
AaruConsole.WriteLine("No plugin supports requested extension.");
return((int)ErrorNumber.FormatNotFound);
}
if (candidates.Count > 1)
{
AaruConsole.WriteLine("More than one plugin supports requested extension.");
return((int)ErrorNumber.TooManyFormats);
}
IWritableImage outputFormat = candidates[0];
if (verbose)
{
AaruConsole.VerboseWriteLine("Output image format: {0} ({1}).", outputFormat.Name, outputFormat.Id);
}
else
{
AaruConsole.WriteLine("Output image format: {0}.", outputFormat.Name);
}
if (!outputFormat.SupportedMediaTypes.Contains(mediaType))
{
AaruConsole.ErrorWriteLine("Output format does not support media type, cannot continue...");
return((int)ErrorNumber.UnsupportedMedia);
}
foreach (MediaTagType mediaTag in inputFormat.Info.ReadableMediaTags)
{
if (outputFormat.SupportedMediaTags.Contains(mediaTag) || force)
{
continue;
}
AaruConsole.ErrorWriteLine("Converting image will lose media tag {0}, not continuing...", mediaTag);
AaruConsole.ErrorWriteLine("If you don't care, use force option.");
return((int)ErrorNumber.DataWillBeLost);
}
bool useLong = inputFormat.Info.ReadableSectorTags.Count != 0;
foreach (SectorTagType sectorTag in inputFormat.Info.ReadableSectorTags)
{
if (outputFormat.SupportedSectorTags.Contains(sectorTag))
{
continue;
}
if (force)
{
if (sectorTag != SectorTagType.CdTrackFlags &&
sectorTag != SectorTagType.CdTrackIsrc &&
sectorTag != SectorTagType.CdSectorSubchannel)
{
useLong = false;
}
continue;
}
AaruConsole.ErrorWriteLine("Converting image will lose sector tag {0}, not continuing...", sectorTag);
AaruConsole.
ErrorWriteLine("If you don't care, use force option. This will skip all sector tags converting only user data.");
return((int)ErrorNumber.DataWillBeLost);
}
if (!outputFormat.Create(outputPath, mediaType, parsedOptions, inputFormat.Info.Sectors,
inputFormat.Info.SectorSize))
{
AaruConsole.ErrorWriteLine("Error {0} creating output image.", outputFormat.ErrorMessage);
return((int)ErrorNumber.CannotCreateFormat);
}
var metadata = new ImageInfo
{
Application = "Aaru",
ApplicationVersion = Version.GetVersion(),
Comments = comments ?? inputFormat.Info.Comments,
Creator = creator ?? inputFormat.Info.Creator,
DriveFirmwareRevision = driveFirmwareRevision ?? inputFormat.Info.DriveFirmwareRevision,
DriveManufacturer = driveManufacturer ?? inputFormat.Info.DriveManufacturer,
DriveModel = driveModel ?? inputFormat.Info.DriveModel,
DriveSerialNumber = driveSerialNumber ?? inputFormat.Info.DriveSerialNumber,
LastMediaSequence = lastMediaSequence != 0 ? lastMediaSequence : inputFormat.Info.LastMediaSequence,
MediaBarcode = mediaBarcode ?? inputFormat.Info.MediaBarcode,
MediaManufacturer = mediaManufacturer ?? inputFormat.Info.MediaManufacturer,
MediaModel = mediaModel ?? inputFormat.Info.MediaModel,
MediaPartNumber = mediaPartNumber ?? inputFormat.Info.MediaPartNumber,
MediaSequence = mediaSequence != 0 ? mediaSequence : inputFormat.Info.MediaSequence,
MediaSerialNumber = mediaSerialNumber ?? inputFormat.Info.MediaSerialNumber,
MediaTitle = mediaTitle ?? inputFormat.Info.MediaTitle
};
if (!outputFormat.SetMetadata(metadata))
{
AaruConsole.ErrorWrite("Error {0} setting metadata, ", outputFormat.ErrorMessage);
if (!force)
{
AaruConsole.ErrorWriteLine("not continuing...");
return((int)ErrorNumber.WriteError);
}
AaruConsole.ErrorWriteLine("continuing...");
}
CICMMetadataType cicmMetadata = inputFormat.CicmMetadata;
List <DumpHardwareType> dumpHardware = inputFormat.DumpHardware;
foreach (MediaTagType mediaTag in inputFormat.Info.ReadableMediaTags)
{
if (force && !outputFormat.SupportedMediaTags.Contains(mediaTag))
{
continue;
}
AaruConsole.WriteLine("Converting media tag {0}", mediaTag);
byte[] tag = inputFormat.ReadDiskTag(mediaTag);
if (outputFormat.WriteMediaTag(tag, mediaTag))
{
continue;
}
if (force)
{
AaruConsole.ErrorWriteLine("Error {0} writing media tag, continuing...", outputFormat.ErrorMessage);
}
else
{
AaruConsole.ErrorWriteLine("Error {0} writing media tag, not continuing...",
outputFormat.ErrorMessage);
return((int)ErrorNumber.WriteError);
}
}
AaruConsole.WriteLine("{0} sectors to convert", inputFormat.Info.Sectors);
ulong doneSectors = 0;
if (inputFormat is IOpticalMediaImage inputOptical &&
outputFormat is IWritableOpticalImage outputOptical &&
inputOptical.Tracks != null)
{
if (!outputOptical.SetTracks(inputOptical.Tracks))
{
AaruConsole.ErrorWriteLine("Error {0} sending tracks list to output image.",
outputFormat.ErrorMessage);
return((int)ErrorNumber.WriteError);
}
foreach (Track track in inputOptical.Tracks)
{
doneSectors = 0;
ulong trackSectors = (track.TrackEndSector - track.TrackStartSector) + 1;
while (doneSectors < trackSectors)
{
byte[] sector;
uint sectorsToDo;
if (trackSectors - doneSectors >= (ulong)count)
{
sectorsToDo = (uint)count;
}
else
{
sectorsToDo = (uint)(trackSectors - doneSectors);
}
AaruConsole.Write("\rConverting sectors {0} to {1} in track {3} ({2:P2} done)",
doneSectors + track.TrackStartSector,
doneSectors + sectorsToDo + track.TrackStartSector,
(doneSectors + track.TrackStartSector) / (double)inputFormat.Info.Sectors,
track.TrackSequence);
bool useNotLong = false;
bool result = false;
if (useLong)
{
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSectorLong(doneSectors + track.TrackStartSector);
result = outputFormat.WriteSectorLong(sector, doneSectors + track.TrackStartSector);
}
else
{
sector = inputFormat.ReadSectorsLong(doneSectors + track.TrackStartSector, sectorsToDo);
result = outputFormat.WriteSectorsLong(sector, doneSectors + track.TrackStartSector,
sectorsToDo);
}
if (!result &&
sector.Length % 2352 != 0)
{
if (!force)
{
AaruConsole.ErrorWriteLine("Input image is not returning raw sectors, use force if you want to continue...");
return((int)Errno.InOutError);
}
useNotLong = true;
}
}
if (!useLong || useNotLong)
{
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSector(doneSectors + track.TrackStartSector);
result = outputFormat.WriteSector(sector, doneSectors + track.TrackStartSector);
}
else
{
sector = inputFormat.ReadSectors(doneSectors + track.TrackStartSector, sectorsToDo);
result = outputFormat.WriteSectors(sector, doneSectors + track.TrackStartSector,
sectorsToDo);
}
}
if (!result)
{
if (force)
{
AaruConsole.ErrorWriteLine("Error {0} writing sector {1}, continuing...",
outputFormat.ErrorMessage,
doneSectors + track.TrackStartSector);
}
else
{
AaruConsole.ErrorWriteLine("Error {0} writing sector {1}, not continuing...",
outputFormat.ErrorMessage,
doneSectors + track.TrackStartSector);
return((int)ErrorNumber.WriteError);
}
}
doneSectors += sectorsToDo;
}
}
AaruConsole.Write("\rConverting sectors {0} to {1} in track {3} ({2:P2} done)",
inputFormat.Info.Sectors, inputFormat.Info.Sectors, 1.0, inputOptical.Tracks.Count);
AaruConsole.WriteLine();
foreach (SectorTagType tag in inputFormat.Info.ReadableSectorTags.OrderBy(t => t))
{
if (!useLong)
{
break;
}
switch (tag)
{
case SectorTagType.AppleSectorTag:
case SectorTagType.CdSectorSync:
case SectorTagType.CdSectorHeader:
case SectorTagType.CdSectorSubHeader:
case SectorTagType.CdSectorEdc:
case SectorTagType.CdSectorEccP:
case SectorTagType.CdSectorEccQ:
case SectorTagType.CdSectorEcc:
// This tags are inline in long sector
continue;
}
if (force && !outputFormat.SupportedSectorTags.Contains(tag))
{
continue;
}
foreach (Track track in inputOptical.Tracks)
{
doneSectors = 0;
ulong trackSectors = (track.TrackEndSector - track.TrackStartSector) + 1;
byte[] sector;
bool result;
switch (tag)
{
case SectorTagType.CdTrackFlags:
case SectorTagType.CdTrackIsrc:
AaruConsole.Write("\rConverting tag {0} in track {1} ({2:P2} done).", tag,
track.TrackSequence,
track.TrackSequence / (double)inputOptical.Tracks.Count);
sector = inputFormat.ReadSectorTag(track.TrackStartSector, tag);
result = outputFormat.WriteSectorTag(sector, track.TrackStartSector, tag);
if (!result)
{
if (force)
{
AaruConsole.ErrorWriteLine("Error {0} writing tag, continuing...",
outputFormat.ErrorMessage);
}
else
{
AaruConsole.ErrorWriteLine("Error {0} writing tag, not continuing...",
outputFormat.ErrorMessage);
return((int)ErrorNumber.WriteError);
}
}
continue;
}
while (doneSectors < trackSectors)
{
uint sectorsToDo;
if (trackSectors - doneSectors >= (ulong)count)
{
sectorsToDo = (uint)count;
}
else
{
sectorsToDo = (uint)(trackSectors - doneSectors);
}
AaruConsole.Write("\rConverting tag {4} for sectors {0} to {1} in track {3} ({2:P2} done)",
doneSectors + track.TrackStartSector,
doneSectors + sectorsToDo + track.TrackStartSector,
(doneSectors + track.TrackStartSector) / (double)inputFormat.Info.Sectors,
track.TrackSequence, tag);
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSectorTag(doneSectors + track.TrackStartSector, tag);
result = outputFormat.WriteSectorTag(sector, doneSectors + track.TrackStartSector, tag);
}
else
{
sector = inputFormat.ReadSectorsTag(doneSectors + track.TrackStartSector, sectorsToDo,
tag);
result = outputFormat.WriteSectorsTag(sector, doneSectors + track.TrackStartSector,
sectorsToDo, tag);
}
if (!result)
{
if (force)
{
AaruConsole.ErrorWriteLine("Error {0} writing tag for sector {1}, continuing...",
outputFormat.ErrorMessage,
doneSectors + track.TrackStartSector);
}
else
{
AaruConsole.
ErrorWriteLine("Error {0} writing tag for sector {1}, not continuing...",
outputFormat.ErrorMessage, doneSectors + track.TrackStartSector);
return((int)ErrorNumber.WriteError);
}
}
doneSectors += sectorsToDo;
}
}
switch (tag)
{
case SectorTagType.CdTrackFlags:
case SectorTagType.CdTrackIsrc:
AaruConsole.Write("\rConverting tag {0} in track {1} ({2:P2} done).", tag,
inputOptical.Tracks.Count, 1.0);
break;
default:
AaruConsole.Write("\rConverting tag {4} for sectors {0} to {1} in track {3} ({2:P2} done)",
inputFormat.Info.Sectors, inputFormat.Info.Sectors, 1.0,
inputOptical.Tracks.Count, tag);
break;
}
AaruConsole.WriteLine();
}
}
void DumpMs()
{
const ushort SBC_PROFILE = 0x0001;
const uint BLOCK_SIZE = 512;
double totalDuration = 0;
double currentSpeed = 0;
double maxSpeed = double.MinValue;
double minSpeed = double.MaxValue;
uint blocksToRead = 64;
DateTime start;
DateTime end;
MediaType dskType;
bool sense;
sense = _dev.ReadCapacity(out byte[] readBuffer, out _, _dev.Timeout, out _);
if (sense)
{
_dumpLog.WriteLine("Could not detect capacity...");
StoppingErrorMessage?.Invoke("Could not detect capacity...");
return;
}
uint blocks = (uint)((readBuffer[0] << 24) + (readBuffer[1] << 16) + (readBuffer[2] << 8) + readBuffer[3]);
blocks++;
UpdateStatus?.
Invoke($"Media has {blocks} blocks of {BLOCK_SIZE} bytes/each. (for a total of {blocks * (ulong)BLOCK_SIZE} bytes)");
if (blocks == 0)
{
_dumpLog.WriteLine("ERROR: Unable to read medium or empty medium present...");
StoppingErrorMessage?.Invoke("Unable to read medium or empty medium present...");
return;
}
UpdateStatus?.Invoke($"Device reports {blocks} blocks ({blocks * BLOCK_SIZE} bytes).");
UpdateStatus?.Invoke($"Device can read {blocksToRead} blocks at a time.");
UpdateStatus?.Invoke($"Device reports {BLOCK_SIZE} bytes per logical block.");
UpdateStatus?.Invoke($"SCSI device type: {_dev.ScsiType}.");
if (blocks > 262144)
{
dskType = MediaType.MemoryStickProDuo;
_dumpLog.WriteLine("Media detected as MemoryStick Pro Duo...");
UpdateStatus?.Invoke("Media detected as MemoryStick Pro Duo...");
}
else
{
dskType = MediaType.MemoryStickDuo;
_dumpLog.WriteLine("Media detected as MemoryStick Duo...");
UpdateStatus?.Invoke("Media detected as MemoryStick Duo...");
}
bool ret;
var mhddLog = new MhddLog(_outputPrefix + ".mhddlog.bin", _dev, blocks, BLOCK_SIZE, blocksToRead, _private);
var ibgLog = new IbgLog(_outputPrefix + ".ibg", SBC_PROFILE);
ret = _outputPlugin.Create(_outputPath, dskType, _formatOptions, blocks, BLOCK_SIZE);
// Cannot create image
if (!ret)
{
_dumpLog.WriteLine("Error creating output image, not continuing.");
_dumpLog.WriteLine(_outputPlugin.ErrorMessage);
StoppingErrorMessage?.Invoke("Error creating output image, not continuing." + Environment.NewLine +
_outputPlugin.ErrorMessage);
return;
}
start = DateTime.UtcNow;
double imageWriteDuration = 0;
DumpHardwareType currentTry = null;
ExtentsULong extents = null;
ResumeSupport.Process(true, _dev.IsRemovable, blocks, _dev.Manufacturer, _dev.Model, _dev.Serial,
_dev.PlatformId, ref _resume, ref currentTry, ref extents, _dev.FirmwareRevision,
_private);
if (currentTry == null ||
extents == null)
{
StoppingErrorMessage?.Invoke("Could not process resume file, not continuing...");
return;
}
if (_resume.NextBlock > 0)
{
_dumpLog.WriteLine("Resuming from block {0}.", _resume.NextBlock);
}
bool newTrim = false;
DateTime timeSpeedStart = DateTime.UtcNow;
ulong sectorSpeedStart = 0;
InitProgress?.Invoke();
for (ulong i = _resume.NextBlock; i < blocks; i += blocksToRead)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
if (blocks - i < blocksToRead)
{
blocksToRead = (uint)(blocks - i);
}
#pragma warning disable RECS0018 // Comparison of floating point numbers with equality operator
if (currentSpeed > maxSpeed &&
currentSpeed != 0)
{
maxSpeed = currentSpeed;
}
if (currentSpeed < minSpeed &&
currentSpeed != 0)
{
minSpeed = currentSpeed;
}
#pragma warning restore RECS0018 // Comparison of floating point numbers with equality operator
UpdateProgress?.Invoke($"Reading sector {i} of {blocks} ({currentSpeed:F3} MiB/sec.)", (long)i, blocks);
sense = _dev.Read12(out readBuffer, out _, 0, false, true, false, false, (uint)i, BLOCK_SIZE, 0,
blocksToRead, false, _dev.Timeout, out double cmdDuration);
totalDuration += cmdDuration;
if (!sense &&
!_dev.Error)
{
mhddLog.Write(i, cmdDuration);
ibgLog.Write(i, currentSpeed * 1024);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(readBuffer, i, blocksToRead);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
extents.Add(i, blocksToRead, true);
}
else
{
// TODO: Reset device after X errors
if (_stopOnError)
{
return; // TODO: Return more cleanly
}
if (i + _skip > blocks)
{
_skip = (uint)(blocks - i);
}
// Write empty data
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(new byte[BLOCK_SIZE * _skip], i, _skip);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
for (ulong b = i; b < i + _skip; b++)
{
_resume.BadBlocks.Add(b);
}
mhddLog.Write(i, cmdDuration < 500 ? 65535 : cmdDuration);
ibgLog.Write(i, 0);
_dumpLog.WriteLine("Skipping {0} blocks from errored block {1}.", _skip, i);
i += _skip - blocksToRead;
newTrim = true;
}
sectorSpeedStart += blocksToRead;
_resume.NextBlock = i + blocksToRead;
double elapsed = (DateTime.UtcNow - timeSpeedStart).TotalSeconds;
if (elapsed < 1)
{
continue;
}
currentSpeed = (sectorSpeedStart * BLOCK_SIZE) / (1048576 * elapsed);
sectorSpeedStart = 0;
timeSpeedStart = DateTime.UtcNow;
}
end = DateTime.UtcNow;
EndProgress?.Invoke();
mhddLog.Close();
ibgLog.Close(_dev, blocks, BLOCK_SIZE, (end - start).TotalSeconds, currentSpeed * 1024,
(BLOCK_SIZE * (double)(blocks + 1)) / 1024 / (totalDuration / 1000), _devicePath);
UpdateStatus?.Invoke($"Dump finished in {(end - start).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average dump speed {((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / (totalDuration / 1000):F3} KiB/sec.");
UpdateStatus?.
Invoke($"Average write speed {((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / imageWriteDuration:F3} KiB/sec.");
_dumpLog.WriteLine("Dump finished in {0} seconds.", (end - start).TotalSeconds);
_dumpLog.WriteLine("Average dump speed {0:F3} KiB/sec.",
((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / (totalDuration / 1000));
_dumpLog.WriteLine("Average write speed {0:F3} KiB/sec.",
((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / imageWriteDuration);
#region Trimming
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_trim &&
newTrim)
{
start = DateTime.UtcNow;
UpdateStatus?.Invoke("Trimming skipped sectors");
_dumpLog.WriteLine("Trimming skipped sectors");
ulong[] tmpArray = _resume.BadBlocks.ToArray();
InitProgress?.Invoke();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke($"Trimming sector {badSector}");
sense = _dev.Read12(out readBuffer, out _, 0, false, true, false, false, (uint)badSector,
BLOCK_SIZE, 0, 1, false, _dev.Timeout, out double cmdDuration);
if (sense || _dev.Error)
{
continue;
}
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(readBuffer, badSector);
}
EndProgress?.Invoke();
end = DateTime.UtcNow;
_dumpLog.WriteLine("Trimmming finished in {0} seconds.", (end - start).TotalSeconds);
}
#endregion Trimming
#region Error handling
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_retryPasses > 0)
{
int pass = 1;
bool forward = true;
bool runningPersistent = false;
Modes.ModePage?currentModePage = null;
byte[] md6;
if (_persistent)
{
Modes.ModePage_01 pg;
sense = _dev.ModeSense6(out readBuffer, out _, false, ScsiModeSensePageControl.Current, 0x01,
_dev.Timeout, out _);
if (sense)
{
sense = _dev.ModeSense10(out readBuffer, out _, false, ScsiModeSensePageControl.Current, 0x01,
_dev.Timeout, out _);
if (!sense)
{
Modes.DecodedMode?dcMode10 = Modes.DecodeMode10(readBuffer, _dev.ScsiType);
if (dcMode10.HasValue)
{
foreach (Modes.ModePage modePage in dcMode10.Value.Pages)
{
if (modePage.Page == 0x01 &&
modePage.Subpage == 0x00)
{
currentModePage = modePage;
}
}
}
}
}
else
{
Modes.DecodedMode?dcMode6 = Modes.DecodeMode6(readBuffer, _dev.ScsiType);
if (dcMode6.HasValue)
{
foreach (Modes.ModePage modePage in dcMode6.Value.Pages)
{
if (modePage.Page == 0x01 &&
modePage.Subpage == 0x00)
{
currentModePage = modePage;
}
}
}
}
if (currentModePage == null)
{
pg = new Modes.ModePage_01
{
PS = false, AWRE = true, ARRE = true, TB = false,
RC = false, EER = true, PER = false, DTE = true,
DCR = false, ReadRetryCount = 32
};
currentModePage = new Modes.ModePage
{
Page = 0x01, Subpage = 0x00, PageResponse = Modes.EncodeModePage_01(pg)
};
}
pg = new Modes.ModePage_01
{
PS = false, AWRE = false, ARRE = false, TB = true,
RC = false, EER = true, PER = false, DTE = false,
DCR = false, ReadRetryCount = 255
};
var md = new Modes.DecodedMode
{
Header = new Modes.ModeHeader(), Pages = new[]
{
new Modes.ModePage
{
Page = 0x01, Subpage = 0x00, PageResponse = Modes.EncodeModePage_01(pg)
}
}
};
md6 = Modes.EncodeMode6(md, _dev.ScsiType);
UpdateStatus?.Invoke("Sending MODE SELECT to drive (return damaged blocks).");
_dumpLog.WriteLine("Sending MODE SELECT to drive (return damaged blocks).");
sense = _dev.ModeSelect(md6, out byte[] senseBuf, true, false, _dev.Timeout, out _);
if (sense)
{
UpdateStatus?.
Invoke("Drive did not accept MODE SELECT command for persistent error reading, try another drive.");
AaruConsole.DebugWriteLine("Error: {0}", Sense.PrettifySense(senseBuf));
_dumpLog.
WriteLine("Drive did not accept MODE SELECT command for persistent error reading, try another drive.");
}
else
{
runningPersistent = true;
}
}
InitProgress?.Invoke();
repeatRetry:
ulong[] tmpArray = _resume.BadBlocks.ToArray();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke(string.Format("Retrying sector {0}, pass {1}, {3}{2}", badSector, pass,
forward ? "forward" : "reverse",
runningPersistent ? "recovering partial data, " : ""));
sense = _dev.Read12(out readBuffer, out _, 0, false, true, false, false, (uint)badSector,
BLOCK_SIZE, 0, 1, false, _dev.Timeout, out double cmdDuration);
totalDuration += cmdDuration;
if (!sense &&
!_dev.Error)
{
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(readBuffer, badSector);
UpdateStatus?.Invoke($"Correctly retried block {badSector} in pass {pass}.");
_dumpLog.WriteLine("Correctly retried block {0} in pass {1}.", badSector, pass);
}
else if (runningPersistent)
{
_outputPlugin.WriteSector(readBuffer, badSector);
}
}
if (pass < _retryPasses &&
!_aborted &&
_resume.BadBlocks.Count > 0)
{
pass++;
forward = !forward;
_resume.BadBlocks.Sort();
if (!forward)
{
_resume.BadBlocks.Reverse();
}
goto repeatRetry;
}
if (runningPersistent && currentModePage.HasValue)
{
var md = new Modes.DecodedMode
{
Header = new Modes.ModeHeader(), Pages = new[]
{
currentModePage.Value
}
};
md6 = Modes.EncodeMode6(md, _dev.ScsiType);
UpdateStatus?.Invoke("Sending MODE SELECT to drive (return device to previous status).");
_dumpLog.WriteLine("Sending MODE SELECT to drive (return device to previous status).");
sense = _dev.ModeSelect(md6, out _, true, false, _dev.Timeout, out _);
}
EndProgress?.Invoke();
}
#endregion Error handling
_resume.BadBlocks.Sort();
foreach (ulong bad in _resume.BadBlocks)
{
_dumpLog.WriteLine("Sector {0} could not be read.", bad);
}
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
var metadata = new CommonTypes.Structs.ImageInfo
{
Application = "Aaru", ApplicationVersion = Version.GetVersion()
};
if (!_outputPlugin.SetMetadata(metadata))
{
ErrorMessage?.Invoke("Error {0} setting metadata, continuing..." + Environment.NewLine +
_outputPlugin.ErrorMessage);
}
_outputPlugin.SetDumpHardware(_resume.Tries);
if (_preSidecar != null)
{
_outputPlugin.SetCicmMetadata(_preSidecar);
}
_dumpLog.WriteLine("Closing output file.");
UpdateStatus?.Invoke("Closing output file.");
DateTime closeStart = DateTime.Now;
_outputPlugin.Close();
DateTime closeEnd = DateTime.Now;
UpdateStatus?.Invoke($"Closed in {(closeEnd - closeStart).TotalSeconds} seconds.");
_dumpLog.WriteLine("Closed in {0} seconds.", (closeEnd - closeStart).TotalSeconds);
if (_aborted)
{
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
return;
}
double totalChkDuration = 0;
if (_metadata)
{
UpdateStatus?.Invoke("Creating sidecar.");
_dumpLog.WriteLine("Creating sidecar.");
var filters = new FiltersList();
IFilter filter = filters.GetFilter(_outputPath);
IMediaImage inputPlugin = ImageFormat.Detect(filter);
if (!inputPlugin.Open(filter))
{
StoppingErrorMessage?.Invoke("Could not open created image.");
return;
}
DateTime chkStart = DateTime.UtcNow;
_sidecarClass = new Sidecar(inputPlugin, _outputPath, filter.Id, _encoding);
_sidecarClass.InitProgressEvent += InitProgress;
_sidecarClass.UpdateProgressEvent += UpdateProgress;
_sidecarClass.EndProgressEvent += EndProgress;
_sidecarClass.InitProgressEvent2 += InitProgress2;
_sidecarClass.UpdateProgressEvent2 += UpdateProgress2;
_sidecarClass.EndProgressEvent2 += EndProgress2;
_sidecarClass.UpdateStatusEvent += UpdateStatus;
CICMMetadataType sidecar = _sidecarClass.Create();
end = DateTime.UtcNow;
totalChkDuration = (end - chkStart).TotalMilliseconds;
UpdateStatus?.Invoke($"Sidecar created in {(end - chkStart).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average checksum speed {((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000):F3} KiB/sec.");
_dumpLog.WriteLine("Sidecar created in {0} seconds.", (end - chkStart).TotalSeconds);
_dumpLog.WriteLine("Average checksum speed {0:F3} KiB/sec.",
((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000));
if (_preSidecar != null)
{
_preSidecar.BlockMedia = sidecar.BlockMedia;
sidecar = _preSidecar;
}
List <(ulong start, string type)> filesystems = new List <(ulong start, string type)>();
if (sidecar.BlockMedia[0].FileSystemInformation != null)
{
filesystems.AddRange(from partition in sidecar.BlockMedia[0].FileSystemInformation
where partition.FileSystems != null from fileSystem in partition.FileSystems
select(partition.StartSector, fileSystem.Type));
}
if (filesystems.Count > 0)
{
foreach (var filesystem in filesystems.Select(o => new
{
o.start, o.type
}).Distinct())
{
UpdateStatus?.Invoke($"Found filesystem {filesystem.type} at sector {filesystem.start}");
_dumpLog.WriteLine("Found filesystem {0} at sector {1}", filesystem.type, filesystem.start);
}
}
sidecar.BlockMedia[0].Dimensions = Dimensions.DimensionsFromMediaType(dskType);
(string type, string subType)xmlType = CommonTypes.Metadata.MediaType.MediaTypeToString(dskType);
sidecar.BlockMedia[0].DiskType = xmlType.type;
sidecar.BlockMedia[0].DiskSubType = xmlType.subType;
sidecar.BlockMedia[0].Interface = "USB";
sidecar.BlockMedia[0].LogicalBlocks = blocks;
sidecar.BlockMedia[0].PhysicalBlockSize = (int)BLOCK_SIZE;
sidecar.BlockMedia[0].LogicalBlockSize = (int)BLOCK_SIZE;
sidecar.BlockMedia[0].Manufacturer = _dev.Manufacturer;
sidecar.BlockMedia[0].Model = _dev.Model;
if (!_private)
{
sidecar.BlockMedia[0].Serial = _dev.Serial;
}
sidecar.BlockMedia[0].Size = blocks * BLOCK_SIZE;
if (_dev.IsRemovable)
{
sidecar.BlockMedia[0].DumpHardwareArray = _resume.Tries.ToArray();
}
UpdateStatus?.Invoke("Writing metadata sidecar");
var xmlFs = new FileStream(_outputPrefix + ".cicm.xml", FileMode.Create);
var xmlSer = new XmlSerializer(typeof(CICMMetadataType));
xmlSer.Serialize(xmlFs, sidecar);
xmlFs.Close();
}
UpdateStatus?.Invoke("");
UpdateStatus?.
Invoke($"Took a total of {(end - start).TotalSeconds:F3} seconds ({totalDuration / 1000:F3} processing commands, {totalChkDuration / 1000:F3} checksumming, {imageWriteDuration:F3} writing, {(closeEnd - closeStart).TotalSeconds:F3} closing).");
UpdateStatus?.
Invoke($"Average speed: {((double)BLOCK_SIZE * (double)(blocks + 1)) / 1048576 / (totalDuration / 1000):F3} MiB/sec.");
if (maxSpeed > 0)
{
UpdateStatus?.Invoke($"Fastest speed burst: {maxSpeed:F3} MiB/sec.");
}
if (minSpeed > 0 &&
minSpeed < double.MaxValue)
{
UpdateStatus?.Invoke($"Slowest speed burst: {minSpeed:F3} MiB/sec.");
}
UpdateStatus?.Invoke($"{_resume.BadBlocks.Count} sectors could not be read.");
UpdateStatus?.Invoke("");
Statistics.AddMedia(dskType, true);
}
void DumpUmd()
{
const uint BLOCK_SIZE = 2048;
const MediaType DSK_TYPE = MediaType.UMD;
uint blocksToRead = 16;
double totalDuration = 0;
double currentSpeed = 0;
double maxSpeed = double.MinValue;
double minSpeed = double.MaxValue;
DateTime start;
DateTime end;
bool sense = _dev.Read12(out byte[] readBuffer, out _, 0, false, true, false, false, 0, 512, 0, 1, false,
_dev.Timeout, out _);
if (sense)
{
_dumpLog.WriteLine("Could not read...");
StoppingErrorMessage?.Invoke("Could not read...");
return;
}
ushort fatStart = (ushort)((readBuffer[0x0F] << 8) + readBuffer[0x0E]);
ushort sectorsPerFat = (ushort)((readBuffer[0x17] << 8) + readBuffer[0x16]);
ushort rootStart = (ushort)((sectorsPerFat * 2) + fatStart);
ushort rootSize = (ushort)((((readBuffer[0x12] << 8) + readBuffer[0x11]) * 32) / 512);
ushort umdStart = (ushort)(rootStart + rootSize);
UpdateStatus?.Invoke($"Reading root directory in sector {rootStart}...");
_dumpLog.WriteLine("Reading root directory in sector {0}...", rootStart);
sense = _dev.Read12(out readBuffer, out _, 0, false, true, false, false, rootStart, 512, 0, 1, false,
_dev.Timeout, out _);
if (sense)
{
_dumpLog.WriteLine("Could not read...");
StoppingErrorMessage?.Invoke("Could not read...");
return;
}
uint umdSizeInBytes = BitConverter.ToUInt32(readBuffer, 0x3C);
ulong blocks = umdSizeInBytes / BLOCK_SIZE;
string mediaPartNumber = Encoding.ASCII.GetString(readBuffer, 0, 11).Trim();
UpdateStatus?.
Invoke($"Media has {blocks} blocks of {BLOCK_SIZE} bytes/each. (for a total of {blocks * (ulong)BLOCK_SIZE} bytes)");
UpdateStatus?.Invoke($"Device reports {blocks} blocks ({blocks * BLOCK_SIZE} bytes).");
UpdateStatus?.Invoke($"Device can read {blocksToRead} blocks at a time.");
UpdateStatus?.Invoke($"Device reports {BLOCK_SIZE} bytes per logical block.");
UpdateStatus?.Invoke($"Device reports {2048} bytes per physical block.");
UpdateStatus?.Invoke($"SCSI device type: {_dev.ScsiType}.");
UpdateStatus?.Invoke($"Media identified as {DSK_TYPE}.");
UpdateStatus?.Invoke($"Media part number is {mediaPartNumber}.");
_dumpLog.WriteLine("Device reports {0} blocks ({1} bytes).", blocks, blocks * BLOCK_SIZE);
_dumpLog.WriteLine("Device can read {0} blocks at a time.", blocksToRead);
_dumpLog.WriteLine("Device reports {0} bytes per logical block.", BLOCK_SIZE);
_dumpLog.WriteLine("Device reports {0} bytes per physical block.", 2048);
_dumpLog.WriteLine("SCSI device type: {0}.", _dev.ScsiType);
_dumpLog.WriteLine("Media identified as {0}.", DSK_TYPE);
_dumpLog.WriteLine("Media part number is {0}.", mediaPartNumber);
bool ret;
var mhddLog = new MhddLog(_outputPrefix + ".mhddlog.bin", _dev, blocks, BLOCK_SIZE, blocksToRead, _private);
var ibgLog = new IbgLog(_outputPrefix + ".ibg", 0x0010);
ret = _outputPlugin.Create(_outputPath, DSK_TYPE, _formatOptions, blocks, BLOCK_SIZE);
// Cannot create image
if (!ret)
{
_dumpLog.WriteLine("Error creating output image, not continuing.");
_dumpLog.WriteLine(_outputPlugin.ErrorMessage);
StoppingErrorMessage?.Invoke("Error creating output image, not continuing." + Environment.NewLine +
_outputPlugin.ErrorMessage);
return;
}
start = DateTime.UtcNow;
double imageWriteDuration = 0;
(_outputPlugin as IWritableOpticalImage).SetTracks(new List <Track>
{
new Track
{
TrackBytesPerSector = (int)BLOCK_SIZE, TrackEndSector = blocks - 1, TrackSequence = 1,
TrackRawBytesPerSector = (int)BLOCK_SIZE, TrackSubchannelType = TrackSubchannelType.None,
TrackSession = 1, TrackType = TrackType.Data
}
});
DumpHardwareType currentTry = null;
ExtentsULong extents = null;
ResumeSupport.Process(true, _dev.IsRemovable, blocks, _dev.Manufacturer, _dev.Model, _dev.Serial,
_dev.PlatformId, ref _resume, ref currentTry, ref extents, _dev.FirmwareRevision,
_private);
if (currentTry == null ||
extents == null)
{
StoppingErrorMessage?.Invoke("Could not process resume file, not continuing...");
return;
}
if (_resume.NextBlock > 0)
{
_dumpLog.WriteLine("Resuming from block {0}.", _resume.NextBlock);
}
bool newTrim = false;
DateTime timeSpeedStart = DateTime.UtcNow;
ulong sectorSpeedStart = 0;
InitProgress?.Invoke();
for (ulong i = _resume.NextBlock; i < blocks; i += blocksToRead)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
if (blocks - i < blocksToRead)
{
blocksToRead = (uint)(blocks - i);
}
#pragma warning disable RECS0018 // Comparison of floating point numbers with equality operator
if (currentSpeed > maxSpeed &&
currentSpeed != 0)
{
maxSpeed = currentSpeed;
}
if (currentSpeed < minSpeed &&
currentSpeed != 0)
{
minSpeed = currentSpeed;
}
#pragma warning restore RECS0018 // Comparison of floating point numbers with equality operator
UpdateProgress?.Invoke($"Reading sector {i} of {blocks} ({currentSpeed:F3} MiB/sec.)", (long)i,
(long)blocks);
sense = _dev.Read12(out readBuffer, out _, 0, false, true, false, false, (uint)(umdStart + (i * 4)),
512, 0, blocksToRead * 4, false, _dev.Timeout, out double cmdDuration);
totalDuration += cmdDuration;
if (!sense &&
!_dev.Error)
{
mhddLog.Write(i, cmdDuration);
ibgLog.Write(i, currentSpeed * 1024);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(readBuffer, i, blocksToRead);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
extents.Add(i, blocksToRead, true);
}
else
{
// TODO: Reset device after X errors
if (_stopOnError)
{
return; // TODO: Return more cleanly
}
if (i + _skip > blocks)
{
_skip = (uint)(blocks - i);
}
// Write empty data
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(new byte[BLOCK_SIZE * _skip], i, _skip);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
for (ulong b = i; b < i + _skip; b++)
{
_resume.BadBlocks.Add(b);
}
mhddLog.Write(i, cmdDuration < 500 ? 65535 : cmdDuration);
ibgLog.Write(i, 0);
_dumpLog.WriteLine("Skipping {0} blocks from errored block {1}.", _skip, i);
i += _skip - blocksToRead;
newTrim = true;
}
sectorSpeedStart += blocksToRead;
_resume.NextBlock = i + blocksToRead;
double elapsed = (DateTime.UtcNow - timeSpeedStart).TotalSeconds;
if (elapsed < 1)
{
continue;
}
currentSpeed = (sectorSpeedStart * BLOCK_SIZE) / (1048576 * elapsed);
sectorSpeedStart = 0;
timeSpeedStart = DateTime.UtcNow;
}
end = DateTime.UtcNow;
EndProgress?.Invoke();
mhddLog.Close();
ibgLog.Close(_dev, blocks, BLOCK_SIZE, (end - start).TotalSeconds, currentSpeed * 1024,
(BLOCK_SIZE * (double)(blocks + 1)) / 1024 / (totalDuration / 1000), _devicePath);
UpdateStatus?.Invoke($"Dump finished in {(end - start).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average dump speed {((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / (totalDuration / 1000):F3} KiB/sec.");
UpdateStatus?.
Invoke($"Average write speed {((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / imageWriteDuration:F3} KiB/sec.");
_dumpLog.WriteLine("Dump finished in {0} seconds.", (end - start).TotalSeconds);
_dumpLog.WriteLine("Average dump speed {0:F3} KiB/sec.",
((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / (totalDuration / 1000));
_dumpLog.WriteLine("Average write speed {0:F3} KiB/sec.",
((double)BLOCK_SIZE * (double)(blocks + 1)) / 1024 / imageWriteDuration);
#region Trimming
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_trim &&
newTrim)
{
start = DateTime.UtcNow;
_dumpLog.WriteLine("Trimming skipped sectors");
ulong[] tmpArray = _resume.BadBlocks.ToArray();
InitProgress?.Invoke();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke($"Trimming sector {badSector}");
sense = _dev.Read12(out readBuffer, out _, 0, false, true, false, false,
(uint)(umdStart + (badSector * 4)), 512, 0, 4, false, _dev.Timeout,
out double cmdDuration);
if (sense || _dev.Error)
{
continue;
}
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(readBuffer, badSector);
}
EndProgress?.Invoke();
end = DateTime.UtcNow;
_dumpLog.WriteLine("Trimmming finished in {0} seconds.", (end - start).TotalSeconds);
}
#endregion Trimming
#region Error handling
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_retryPasses > 0)
{
int pass = 1;
bool forward = true;
bool runningPersistent = false;
Modes.ModePage?currentModePage = null;
byte[] md6;
if (_persistent)
{
Modes.ModePage_01 pg;
sense = _dev.ModeSense6(out readBuffer, out _, false, ScsiModeSensePageControl.Current, 0x01,
_dev.Timeout, out _);
if (!sense)
{
Modes.DecodedMode?dcMode6 = Modes.DecodeMode6(readBuffer, _dev.ScsiType);
if (dcMode6.HasValue)
{
foreach (Modes.ModePage modePage in dcMode6.Value.Pages)
{
if (modePage.Page == 0x01 &&
modePage.Subpage == 0x00)
{
currentModePage = modePage;
}
}
}
}
if (currentModePage == null)
{
pg = new Modes.ModePage_01
{
PS = false, AWRE = true, ARRE = true, TB = false,
RC = false, EER = true, PER = false, DTE = true,
DCR = false, ReadRetryCount = 32
};
currentModePage = new Modes.ModePage
{
Page = 0x01, Subpage = 0x00, PageResponse = Modes.EncodeModePage_01(pg)
};
}
pg = new Modes.ModePage_01
{
PS = false, AWRE = false, ARRE = false, TB = true,
RC = false, EER = true, PER = false, DTE = false,
DCR = false, ReadRetryCount = 255
};
var md = new Modes.DecodedMode
{
Header = new Modes.ModeHeader(), Pages = new[]
{
new Modes.ModePage
{
Page = 0x01, Subpage = 0x00, PageResponse = Modes.EncodeModePage_01(pg)
}
}
};
md6 = Modes.EncodeMode6(md, _dev.ScsiType);
_dumpLog.WriteLine("Sending MODE SELECT to drive (return damaged blocks).");
sense = _dev.ModeSelect(md6, out byte[] senseBuf, true, false, _dev.Timeout, out _);
if (sense)
{
UpdateStatus?.
Invoke("Drive did not accept MODE SELECT command for persistent error reading, try another drive.");
AaruConsole.DebugWriteLine("Error: {0}", Sense.PrettifySense(senseBuf));
_dumpLog.
WriteLine("Drive did not accept MODE SELECT command for persistent error reading, try another drive.");
}
else
{
runningPersistent = true;
}
}
InitProgress?.Invoke();
repeatRetry:
ulong[] tmpArray = _resume.BadBlocks.ToArray();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.
Invoke($"Retrying sector {badSector}, pass {pass}, {(runningPersistent ? "recovering partial data, " : "")}{(forward ? "forward" : "reverse")}");
sense = _dev.Read12(out readBuffer, out _, 0, false, true, false, false,
(uint)(umdStart + (badSector * 4)), 512, 0, 4, false, _dev.Timeout,
out double cmdDuration);
totalDuration += cmdDuration;
if (!sense &&
!_dev.Error)
{
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(readBuffer, badSector);
UpdateStatus?.Invoke(string.Format("Correctly retried block {0} in pass {1}.", badSector,
pass));
_dumpLog.WriteLine("Correctly retried block {0} in pass {1}.", badSector, pass);
}
else if (runningPersistent)
{
_outputPlugin.WriteSector(readBuffer, badSector);
}
}
if (pass < _retryPasses &&
!_aborted &&
_resume.BadBlocks.Count > 0)
{
pass++;
forward = !forward;
_resume.BadBlocks.Sort();
if (!forward)
{
_resume.BadBlocks.Reverse();
}
goto repeatRetry;
}
if (runningPersistent && currentModePage.HasValue)
{
var md = new Modes.DecodedMode
{
Header = new Modes.ModeHeader(), Pages = new[]
{
currentModePage.Value
}
};
md6 = Modes.EncodeMode6(md, _dev.ScsiType);
_dumpLog.WriteLine("Sending MODE SELECT to drive (return device to previous status).");
sense = _dev.ModeSelect(md6, out _, true, false, _dev.Timeout, out _);
}
EndProgress?.Invoke();
AaruConsole.WriteLine();
}
#endregion Error handling
_resume.BadBlocks.Sort();
foreach (ulong bad in _resume.BadBlocks)
{
_dumpLog.WriteLine("Sector {0} could not be read.", bad);
}
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
var metadata = new CommonTypes.Structs.ImageInfo
{
Application = "Aaru", ApplicationVersion = Version.GetVersion(), MediaPartNumber = mediaPartNumber
};
if (!_outputPlugin.SetMetadata(metadata))
{
ErrorMessage?.Invoke("Error {0} setting metadata, continuing..." + Environment.NewLine +
_outputPlugin.ErrorMessage);
}
_outputPlugin.SetDumpHardware(_resume.Tries);
if (_preSidecar != null)
{
_outputPlugin.SetCicmMetadata(_preSidecar);
}
_dumpLog.WriteLine("Closing output file.");
UpdateStatus?.Invoke("Closing output file.");
DateTime closeStart = DateTime.Now;
_outputPlugin.Close();
DateTime closeEnd = DateTime.Now;
_dumpLog.WriteLine("Closed in {0} seconds.", (closeEnd - closeStart).TotalSeconds);
if (_aborted)
{
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
return;
}
double totalChkDuration = 0;
if (_metadata)
{
WriteOpticalSidecar(BLOCK_SIZE, blocks, DSK_TYPE, null, null, 1, out totalChkDuration, null);
}
UpdateStatus?.Invoke("");
UpdateStatus?.
Invoke($"Took a total of {(end - start).TotalSeconds:F3} seconds ({totalDuration / 1000:F3} processing commands, {totalChkDuration / 1000:F3} checksumming, {imageWriteDuration:F3} writing, {(closeEnd - closeStart).TotalSeconds:F3} closing).");
UpdateStatus?.
Invoke($"Average speed: {((double)BLOCK_SIZE * (double)(blocks + 1)) / 1048576 / (totalDuration / 1000):F3} MiB/sec.");
if (maxSpeed > 0)
{
UpdateStatus?.Invoke($"Fastest speed burst: {maxSpeed:F3} MiB/sec.");
}
if (minSpeed > 0 &&
minSpeed < double.MaxValue)
{
UpdateStatus?.Invoke($"Slowest speed burst: {minSpeed:F3} MiB/sec.");
}
UpdateStatus?.Invoke($"{_resume.BadBlocks.Count} sectors could not be read.");
UpdateStatus?.Invoke("");
Statistics.AddMedia(DSK_TYPE, true);
}
/// <summary>Dumps an ATA device</summary>
void Ata()
{
if (_dumpRaw)
{
if (_force)
{
ErrorMessage?.Invoke("Raw dumping not yet supported in ATA devices, continuing...");
}
else
{
StoppingErrorMessage?.Invoke("Raw dumping not yet supported in ATA devices, aborting...");
return;
}
}
const ushort ataProfile = 0x0001;
const uint timeout = 5;
double imageWriteDuration = 0;
MediaType mediaType = MediaType.Unknown;
UpdateStatus?.Invoke("Requesting ATA IDENTIFY DEVICE.");
_dumpLog.WriteLine("Requesting ATA IDENTIFY DEVICE.");
bool sense = _dev.AtaIdentify(out byte[] cmdBuf, out AtaErrorRegistersChs errorChs);
if (sense)
{
_errorLog?.WriteLine("ATA IDENTIFY DEVICE", _dev.Error, _dev.LastError, errorChs);
}
else if (Identify.Decode(cmdBuf).HasValue)
{
Identify.IdentifyDevice?ataIdNullable = Identify.Decode(cmdBuf);
if (ataIdNullable != null)
{
Identify.IdentifyDevice ataId = ataIdNullable.Value;
byte[] ataIdentify = cmdBuf;
cmdBuf = new byte[0];
DateTime start;
DateTime end;
double totalDuration = 0;
double currentSpeed = 0;
double maxSpeed = double.MinValue;
double minSpeed = double.MaxValue;
// Initialize reader
UpdateStatus?.Invoke("Initializing reader.");
_dumpLog.WriteLine("Initializing reader.");
var ataReader = new Reader(_dev, timeout, ataIdentify, _errorLog);
// Fill reader blocks
ulong blocks = ataReader.GetDeviceBlocks();
// Check block sizes
if (ataReader.GetBlockSize())
{
_dumpLog.WriteLine("ERROR: Cannot get block size: {0}.", ataReader.ErrorMessage);
ErrorMessage(ataReader.ErrorMessage);
return;
}
uint blockSize = ataReader.LogicalBlockSize;
uint physicalSectorSize = ataReader.PhysicalBlockSize;
if (ataReader.FindReadCommand())
{
_dumpLog.WriteLine("ERROR: Cannot find correct read command: {0}.", ataReader.ErrorMessage);
ErrorMessage(ataReader.ErrorMessage);
return;
}
// Check how many blocks to read, if error show and return
if (ataReader.GetBlocksToRead(_maximumReadable))
{
_dumpLog.WriteLine("ERROR: Cannot get blocks to read: {0}.", ataReader.ErrorMessage);
ErrorMessage(ataReader.ErrorMessage);
return;
}
uint blocksToRead = ataReader.BlocksToRead;
ushort cylinders = ataReader.Cylinders;
byte heads = ataReader.Heads;
byte sectors = ataReader.Sectors;
UpdateStatus?.Invoke($"Device reports {blocks} blocks ({blocks * blockSize} bytes).");
UpdateStatus?.
Invoke($"Device reports {cylinders} cylinders {heads} heads {sectors} sectors per track.");
UpdateStatus?.Invoke($"Device can read {blocksToRead} blocks at a time.");
UpdateStatus?.Invoke($"Device reports {blockSize} bytes per logical block.");
UpdateStatus?.Invoke($"Device reports {physicalSectorSize} bytes per physical block.");
_dumpLog.WriteLine("Device reports {0} blocks ({1} bytes).", blocks, blocks * blockSize);
_dumpLog.WriteLine("Device reports {0} cylinders {1} heads {2} sectors per track.", cylinders,
heads, sectors);
_dumpLog.WriteLine("Device can read {0} blocks at a time.", blocksToRead);
_dumpLog.WriteLine("Device reports {0} bytes per logical block.", blockSize);
_dumpLog.WriteLine("Device reports {0} bytes per physical block.", physicalSectorSize);
bool removable = !_dev.IsCompactFlash &&
ataId.GeneralConfiguration.HasFlag(Identify.GeneralConfigurationBit.Removable);
DumpHardwareType currentTry = null;
ExtentsULong extents = null;
ResumeSupport.Process(ataReader.IsLba, removable, blocks, _dev.Manufacturer, _dev.Model,
_dev.Serial, _dev.PlatformId, ref _resume, ref currentTry, ref extents,
_dev.FirmwareRevision, _private);
if (currentTry == null ||
extents == null)
{
StoppingErrorMessage?.Invoke("Could not process resume file, not continuing...");
return;
}
MhddLog mhddLog;
IbgLog ibgLog;
double duration;
bool ret = true;
if (_dev.IsUsb &&
_dev.UsbDescriptors != null &&
!_outputPlugin.SupportedMediaTags.Contains(MediaTagType.USB_Descriptors))
{
ret = false;
_dumpLog.WriteLine("Output format does not support USB descriptors.");
ErrorMessage("Output format does not support USB descriptors.");
}
if (_dev.IsPcmcia &&
_dev.Cis != null &&
!_outputPlugin.SupportedMediaTags.Contains(MediaTagType.PCMCIA_CIS))
{
ret = false;
_dumpLog.WriteLine("Output format does not support PCMCIA CIS descriptors.");
ErrorMessage("Output format does not support PCMCIA CIS descriptors.");
}
if (!_outputPlugin.SupportedMediaTags.Contains(MediaTagType.ATA_IDENTIFY))
{
ret = false;
_dumpLog.WriteLine("Output format does not support ATA IDENTIFY.");
ErrorMessage("Output format does not support ATA IDENTIFY.");
}
if (!ret)
{
_dumpLog.WriteLine("Several media tags not supported, {0}continuing...", _force ? "" : "not ");
if (_force)
{
ErrorMessage("Several media tags not supported, continuing...");
}
else
{
StoppingErrorMessage?.Invoke("Several media tags not supported, not continuing...");
return;
}
}
mediaType = MediaTypeFromDevice.GetFromAta(_dev.Manufacturer, _dev.Model, _dev.IsRemovable,
_dev.IsCompactFlash, _dev.IsPcmcia, blocks);
ret = _outputPlugin.Create(_outputPath, mediaType, _formatOptions, blocks, blockSize);
// Cannot create image
if (!ret)
{
_dumpLog.WriteLine("Error creating output image, not continuing.");
_dumpLog.WriteLine(_outputPlugin.ErrorMessage);
StoppingErrorMessage?.Invoke("Error creating output image, not continuing." +
Environment.NewLine + _outputPlugin.ErrorMessage);
return;
}
// Setting geometry
_outputPlugin.SetGeometry(cylinders, heads, sectors);
if (ataReader.IsLba)
{
UpdateStatus?.Invoke($"Reading {blocksToRead} sectors at a time.");
if (_skip < blocksToRead)
{
_skip = blocksToRead;
}
mhddLog = new MhddLog(_outputPrefix + ".mhddlog.bin", _dev, blocks, blockSize, blocksToRead,
_private);
ibgLog = new IbgLog(_outputPrefix + ".ibg", ataProfile);
if (_resume.NextBlock > 0)
{
UpdateStatus?.Invoke($"Resuming from block {_resume.NextBlock}.");
_dumpLog.WriteLine("Resuming from block {0}.", _resume.NextBlock);
}
bool newTrim = false;
start = DateTime.UtcNow;
DateTime timeSpeedStart = DateTime.UtcNow;
ulong sectorSpeedStart = 0;
InitProgress?.Invoke();
for (ulong i = _resume.NextBlock; i < blocks; i += blocksToRead)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
if (blocks - i < blocksToRead)
{
blocksToRead = (byte)(blocks - i);
}
if (currentSpeed > maxSpeed &&
currentSpeed > 0)
{
maxSpeed = currentSpeed;
}
if (currentSpeed < minSpeed &&
currentSpeed > 0)
{
minSpeed = currentSpeed;
}
UpdateProgress?.Invoke($"Reading sector {i} of {blocks} ({currentSpeed:F3} MiB/sec.)",
(long)i, (long)blocks);
bool error = ataReader.ReadBlocks(out cmdBuf, i, blocksToRead, out duration);
if (!error)
{
mhddLog.Write(i, duration);
ibgLog.Write(i, currentSpeed * 1024);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(cmdBuf, i, blocksToRead);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
extents.Add(i, blocksToRead, true);
}
else
{
if (i + _skip > blocks)
{
_skip = (uint)(blocks - i);
}
for (ulong b = i; b < i + _skip; b++)
{
_resume.BadBlocks.Add(b);
}
mhddLog.Write(i, duration < 500 ? 65535 : duration);
ibgLog.Write(i, 0);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(new byte[blockSize * _skip], i, _skip);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
_dumpLog.WriteLine("Skipping {0} blocks from errored block {1}.", _skip, i);
i += _skip - blocksToRead;
newTrim = true;
}
sectorSpeedStart += blocksToRead;
_resume.NextBlock = i + blocksToRead;
double elapsed = (DateTime.UtcNow - timeSpeedStart).TotalSeconds;
if (elapsed < 1)
{
continue;
}
currentSpeed = (sectorSpeedStart * blockSize) / (1048576 * elapsed);
sectorSpeedStart = 0;
timeSpeedStart = DateTime.UtcNow;
}
end = DateTime.Now;
EndProgress?.Invoke();
mhddLog.Close();
ibgLog.Close(_dev, blocks, blockSize, (end - start).TotalSeconds, currentSpeed * 1024,
(blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000), _devicePath);
UpdateStatus?.Invoke($"Dump finished in {(end - start).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average dump speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000):F3} KiB/sec.");
UpdateStatus?.
Invoke($"Average write speed {((double)blockSize * (double)(blocks + 1)) / 1024 / imageWriteDuration:F3} KiB/sec.");
_dumpLog.WriteLine("Dump finished in {0} seconds.", (end - start).TotalSeconds);
_dumpLog.WriteLine("Average dump speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000));
_dumpLog.WriteLine("Average write speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / imageWriteDuration);
#region Trimming
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_trim &&
newTrim)
{
start = DateTime.UtcNow;
UpdateStatus?.Invoke("Trimming skipped sectors");
_dumpLog.WriteLine("Trimming skipped sectors");
ulong[] tmpArray = _resume.BadBlocks.ToArray();
InitProgress?.Invoke();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke($"Trimming sector {badSector}");
bool error = ataReader.ReadBlock(out cmdBuf, badSector, out duration);
totalDuration += duration;
if (error)
{
continue;
}
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(cmdBuf, badSector);
}
EndProgress?.Invoke();
end = DateTime.UtcNow;
UpdateStatus?.Invoke($"Trimming finished in {(end - start).TotalSeconds} seconds.");
_dumpLog.WriteLine("Trimming finished in {0} seconds.", (end - start).TotalSeconds);
}
#endregion Trimming
#region Error handling
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_retryPasses > 0)
{
int pass = 1;
bool forward = true;
InitProgress?.Invoke();
repeatRetryLba:
ulong[] tmpArray = _resume.BadBlocks.ToArray();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke(string.Format("Retrying sector {0}, pass {1}, {3}{2}", badSector,
pass, forward ? "forward" : "reverse",
_persistent ? "recovering partial data, " : ""));
bool error = ataReader.ReadBlock(out cmdBuf, badSector, out duration);
totalDuration += duration;
if (!error)
{
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(cmdBuf, badSector);
UpdateStatus?.Invoke($"Correctly retried block {badSector} in pass {pass}.");
_dumpLog.WriteLine("Correctly retried block {0} in pass {1}.", badSector, pass);
}
else if (_persistent)
{
_outputPlugin.WriteSector(cmdBuf, badSector);
}
}
if (pass < _retryPasses &&
!_aborted &&
_resume.BadBlocks.Count > 0)
{
pass++;
forward = !forward;
_resume.BadBlocks.Sort();
if (!forward)
{
_resume.BadBlocks.Reverse();
}
goto repeatRetryLba;
}
EndProgress?.Invoke();
}
#endregion Error handling LBA
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
}
else
{
mhddLog = new MhddLog(_outputPrefix + ".mhddlog.bin", _dev, blocks, blockSize, blocksToRead,
_private);
ibgLog = new IbgLog(_outputPrefix + ".ibg", ataProfile);
ulong currentBlock = 0;
blocks = (ulong)(cylinders * heads * sectors);
start = DateTime.UtcNow;
DateTime timeSpeedStart = DateTime.UtcNow;
ulong sectorSpeedStart = 0;
InitProgress?.Invoke();
for (ushort cy = 0; cy < cylinders; cy++)
{
for (byte hd = 0; hd < heads; hd++)
{
for (byte sc = 1; sc < sectors; sc++)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
if (currentSpeed > maxSpeed &&
currentSpeed > 0)
{
maxSpeed = currentSpeed;
}
if (currentSpeed < minSpeed &&
currentSpeed > 0)
{
minSpeed = currentSpeed;
}
PulseProgress?.
Invoke($"Reading cylinder {cy} head {hd} sector {sc} ({currentSpeed:F3} MiB/sec.)");
bool error = ataReader.ReadChs(out cmdBuf, cy, hd, sc, out duration);
totalDuration += duration;
if (!error)
{
mhddLog.Write(currentBlock, duration);
ibgLog.Write(currentBlock, currentSpeed * 1024);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSector(cmdBuf,
(ulong)((((cy * heads) + hd) * sectors) + (sc - 1)));
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
extents.Add(currentBlock);
_dumpLog.WriteLine("Error reading cylinder {0} head {1} sector {2}.", cy, hd,
sc);
}
else
{
_resume.BadBlocks.Add(currentBlock);
mhddLog.Write(currentBlock, duration < 500 ? 65535 : duration);
ibgLog.Write(currentBlock, 0);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSector(new byte[blockSize],
(ulong)((((cy * heads) + hd) * sectors) + (sc - 1)));
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
}
sectorSpeedStart++;
currentBlock++;
double elapsed = (DateTime.UtcNow - timeSpeedStart).TotalSeconds;
if (elapsed < 1)
{
continue;
}
currentSpeed = (sectorSpeedStart * blockSize) / (1048576 * elapsed);
sectorSpeedStart = 0;
timeSpeedStart = DateTime.UtcNow;
}
}
}
end = DateTime.Now;
EndProgress?.Invoke();
mhddLog.Close();
ibgLog.Close(_dev, blocks, blockSize, (end - start).TotalSeconds, currentSpeed * 1024,
(blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000), _devicePath);
UpdateStatus?.Invoke($"Dump finished in {(end - start).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average dump speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000):F3} KiB/sec.");
UpdateStatus?.
Invoke($"Average write speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (imageWriteDuration / 1000):F3} KiB/sec.");
_dumpLog.WriteLine("Dump finished in {0} seconds.", (end - start).TotalSeconds);
_dumpLog.WriteLine("Average dump speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000));
_dumpLog.WriteLine("Average write speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 /
(imageWriteDuration / 1000));
}
foreach (ulong bad in _resume.BadBlocks)
{
_dumpLog.WriteLine("Sector {0} could not be read.", bad);
}
_outputPlugin.SetDumpHardware(_resume.Tries);
// TODO: Non-removable
var metadata = new CommonTypes.Structs.ImageInfo
{
Application = "Aaru",
ApplicationVersion = Version.GetVersion()
};
if (!_outputPlugin.SetMetadata(metadata))
{
ErrorMessage?.Invoke("Error {0} setting metadata, continuing..." + Environment.NewLine +
_outputPlugin.ErrorMessage);
}
if (_preSidecar != null)
{
_outputPlugin.SetCicmMetadata(_preSidecar);
}
_dumpLog.WriteLine("Closing output file.");
UpdateStatus?.Invoke("Closing output file.");
DateTime closeStart = DateTime.Now;
_outputPlugin.Close();
DateTime closeEnd = DateTime.Now;
UpdateStatus?.Invoke($"Closed in {(closeEnd - closeStart).TotalSeconds} seconds.");
_dumpLog.WriteLine("Closed in {0} seconds.", (closeEnd - closeStart).TotalSeconds);
if (_aborted)
{
_dumpLog.WriteLine("Aborted!");
UpdateStatus?.Invoke("Aborted!");
return;
}
double totalChkDuration = 0;
if (_metadata)
{
_dumpLog.WriteLine("Creating sidecar.");
UpdateStatus?.Invoke("Creating sidecar.");
var filters = new FiltersList();
IFilter filter = filters.GetFilter(_outputPath);
IMediaImage inputPlugin = ImageFormat.Detect(filter);
if (!inputPlugin.Open(filter))
{
StoppingErrorMessage?.Invoke("Could not open created image.");
return;
}
DateTime chkStart = DateTime.UtcNow;
_sidecarClass = new Sidecar(inputPlugin, _outputPath, filter.Id, _encoding);
_sidecarClass.InitProgressEvent += InitProgress;
_sidecarClass.UpdateProgressEvent += UpdateProgress;
_sidecarClass.EndProgressEvent += EndProgress;
_sidecarClass.InitProgressEvent2 += InitProgress2;
_sidecarClass.UpdateProgressEvent2 += UpdateProgress2;
_sidecarClass.EndProgressEvent2 += EndProgress2;
_sidecarClass.UpdateStatusEvent += UpdateStatus;
CICMMetadataType sidecar = _sidecarClass.Create();
if (_preSidecar != null)
{
_preSidecar.BlockMedia = sidecar.BlockMedia;
sidecar = _preSidecar;
}
if (_dev.IsUsb &&
_dev.UsbDescriptors != null)
{
_dumpLog.WriteLine("Reading USB descriptors.");
UpdateStatus?.Invoke("Reading USB descriptors.");
ret = _outputPlugin.WriteMediaTag(_dev.UsbDescriptors, MediaTagType.USB_Descriptors);
if (ret)
{
sidecar.BlockMedia[0].USB = new USBType
{
ProductID = _dev.UsbProductId,
VendorID = _dev.UsbVendorId,
Descriptors = new DumpType
{
Image = _outputPath,
Size = (ulong)_dev.UsbDescriptors.Length,
Checksums = Checksum.GetChecksums(_dev.UsbDescriptors).ToArray()
}
}
}
;
}
if (_dev.IsPcmcia &&
_dev.Cis != null)
{
_dumpLog.WriteLine("Reading PCMCIA CIS.");
UpdateStatus?.Invoke("Reading PCMCIA CIS.");
ret = _outputPlugin.WriteMediaTag(_dev.Cis, MediaTagType.PCMCIA_CIS);
if (ret)
{
sidecar.BlockMedia[0].PCMCIA = new PCMCIAType
{
CIS = new DumpType
{
Image = _outputPath,
Size = (ulong)_dev.Cis.Length,
Checksums = Checksum.GetChecksums(_dev.Cis).ToArray()
}
}
}
;
_dumpLog.WriteLine("Decoding PCMCIA CIS.");
UpdateStatus?.Invoke("Decoding PCMCIA CIS.");
Tuple[] tuples = CIS.GetTuples(_dev.Cis);
if (tuples != null)
{
foreach (Tuple tuple in tuples)
{
switch (tuple.Code)
{
case TupleCodes.CISTPL_MANFID:
ManufacturerIdentificationTuple manufacturerId =
CIS.DecodeManufacturerIdentificationTuple(tuple);
if (manufacturerId != null)
{
sidecar.BlockMedia[0].PCMCIA.ManufacturerCode =
manufacturerId.ManufacturerID;
sidecar.BlockMedia[0].PCMCIA.CardCode = manufacturerId.CardID;
sidecar.BlockMedia[0].PCMCIA.ManufacturerCodeSpecified = true;
sidecar.BlockMedia[0].PCMCIA.CardCodeSpecified = true;
}
break;
case TupleCodes.CISTPL_VERS_1:
Level1VersionTuple version = CIS.DecodeLevel1VersionTuple(tuple);
if (version != null)
{
sidecar.BlockMedia[0].PCMCIA.Manufacturer = version.Manufacturer;
sidecar.BlockMedia[0].PCMCIA.ProductName = version.Product;
sidecar.BlockMedia[0].PCMCIA.Compliance =
$"{version.MajorVersion}.{version.MinorVersion}";
sidecar.BlockMedia[0].PCMCIA.AdditionalInformation =
version.AdditionalInformation;
}
break;
}
}
}
}
if (!_private)
{
DeviceReport.ClearIdentify(ataIdentify);
}
ret = _outputPlugin.WriteMediaTag(ataIdentify, MediaTagType.ATA_IDENTIFY);
if (ret)
{
sidecar.BlockMedia[0].ATA = new ATAType
{
Identify = new DumpType
{
Image = _outputPath,
Size = (ulong)cmdBuf.Length,
Checksums = Checksum.GetChecksums(cmdBuf).ToArray()
}
}
}
;
DateTime chkEnd = DateTime.UtcNow;
totalChkDuration = (chkEnd - chkStart).TotalMilliseconds;
UpdateStatus?.Invoke($"Sidecar created in {(chkEnd - chkStart).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average checksum speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000):F3} KiB/sec.");
_dumpLog.WriteLine("Sidecar created in {0} seconds.", (chkEnd - chkStart).TotalSeconds);
_dumpLog.WriteLine("Average checksum speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 /
(totalChkDuration / 1000));
List <(ulong start, string type)> filesystems = new List <(ulong start, string type)>();
if (sidecar.BlockMedia[0].FileSystemInformation != null)
{
filesystems.AddRange(from partition in sidecar.BlockMedia[0].FileSystemInformation
where partition.FileSystems != null
from fileSystem in partition.FileSystems
select(partition.StartSector, fileSystem.Type));
}
if (filesystems.Count > 0)
{
foreach (var filesystem in filesystems.Select(o => new
{
o.start,
o.type
}).Distinct())
{
UpdateStatus?.
Invoke($"Found filesystem {filesystem.type} at sector {filesystem.start}");
_dumpLog.WriteLine("Found filesystem {0} at sector {1}", filesystem.type,
filesystem.start);
}
}
(string type, string subType) = CommonTypes.Metadata.MediaType.MediaTypeToString(mediaType);
sidecar.BlockMedia[0].DiskType = type;
sidecar.BlockMedia[0].DiskSubType = subType;
sidecar.BlockMedia[0].Interface = "ATA";
sidecar.BlockMedia[0].LogicalBlocks = blocks;
sidecar.BlockMedia[0].PhysicalBlockSize = physicalSectorSize;
sidecar.BlockMedia[0].LogicalBlockSize = blockSize;
sidecar.BlockMedia[0].Manufacturer = _dev.Manufacturer;
sidecar.BlockMedia[0].Model = _dev.Model;
if (!_private)
{
sidecar.BlockMedia[0].Serial = _dev.Serial;
}
sidecar.BlockMedia[0].Size = blocks * blockSize;
if (cylinders > 0 &&
heads > 0 &&
sectors > 0)
{
sidecar.BlockMedia[0].Cylinders = cylinders;
sidecar.BlockMedia[0].CylindersSpecified = true;
sidecar.BlockMedia[0].Heads = heads;
sidecar.BlockMedia[0].HeadsSpecified = true;
sidecar.BlockMedia[0].SectorsPerTrack = sectors;
sidecar.BlockMedia[0].SectorsPerTrackSpecified = true;
}
UpdateStatus?.Invoke("Writing metadata sidecar");
var xmlFs = new FileStream(_outputPrefix + ".cicm.xml", FileMode.Create);
var xmlSer = new XmlSerializer(typeof(CICMMetadataType));
xmlSer.Serialize(xmlFs, sidecar);
xmlFs.Close();
}
UpdateStatus?.Invoke("");
UpdateStatus?.
Invoke($"Took a total of {(end - start).TotalSeconds:F3} seconds ({totalDuration / 1000:F3} processing commands, {totalChkDuration / 1000:F3} checksumming, {imageWriteDuration:F3} writing, {(closeEnd - closeStart).TotalSeconds:F3} closing).");
UpdateStatus?.
Invoke($"Average speed: {((double)blockSize * (double)(blocks + 1)) / 1048576 / (totalDuration / 1000):F3} MiB/sec.");
if (maxSpeed > 0)
{
UpdateStatus?.Invoke($"Fastest speed burst: {maxSpeed:F3} MiB/sec.");
}
if (minSpeed > 0 &&
minSpeed < double.MaxValue)
{
UpdateStatus?.Invoke($"Slowest speed burst: {minSpeed:F3} MiB/sec.");
}
UpdateStatus?.Invoke($"{_resume.BadBlocks.Count} sectors could not be read.");
if (_resume.BadBlocks.Count > 0)
{
_resume.BadBlocks.Sort();
}
UpdateStatus?.Invoke("");
}
Statistics.AddMedia(mediaType, true);
}
else
{
StoppingErrorMessage?.Invoke("Unable to communicate with ATA device.");
}
}
}
}
public bool Close()
{
if (!IsWriting)
{
ErrorMessage = "Image is not opened for writing";
return(false);
}
if (imageInfo.Cylinders == 0)
{
imageInfo.Cylinders = (uint)(imageInfo.Sectors / 16 / 63);
imageInfo.Heads = 16;
imageInfo.SectorsPerTrack = 63;
while (imageInfo.Cylinders == 0)
{
imageInfo.Heads--;
if (imageInfo.Heads == 0)
{
imageInfo.SectorsPerTrack--;
imageInfo.Heads = 16;
}
imageInfo.Cylinders = (uint)(imageInfo.Sectors / imageInfo.Heads / imageInfo.SectorsPerTrack);
if (imageInfo.Cylinders == 0 &&
imageInfo.Heads == 0 &&
imageInfo.SectorsPerTrack == 0)
{
break;
}
}
}
var header = new RsIdeHeader
{
magic = signature, identify = new byte[106], dataOff = (ushort)Marshal.SizeOf <RsIdeHeader>(),
revision = 1, reserved = new byte[11]
};
if (imageInfo.SectorSize == 256)
{
header.flags = RsIdeFlags.HalfSectors;
}
if (identify == null)
{
var ataId = new Identify.IdentifyDevice
{
GeneralConfiguration =
CommonTypes.Structs.Devices.ATA.Identify.GeneralConfigurationBit.UltraFastIDE |
CommonTypes.Structs.Devices.ATA.Identify.GeneralConfigurationBit.Fixed |
CommonTypes.Structs.Devices.ATA.Identify.GeneralConfigurationBit.NotMFM |
CommonTypes.Structs.Devices.ATA.Identify.GeneralConfigurationBit.SoftSector,
Cylinders = (ushort)imageInfo.Cylinders, Heads = (ushort)imageInfo.Heads,
SectorsPerTrack = (ushort)imageInfo.SectorsPerTrack, VendorWord47 = 0x80,
Capabilities = CommonTypes.Structs.Devices.ATA.Identify.CapabilitiesBit.DMASupport |
CommonTypes.Structs.Devices.ATA.Identify.CapabilitiesBit.IORDY |
CommonTypes.Structs.Devices.ATA.Identify.CapabilitiesBit.LBASupport,
ExtendedIdentify =
CommonTypes.Structs.Devices.ATA.Identify.ExtendedIdentifyBit.Words54to58Valid,
CurrentCylinders = (ushort)imageInfo.Cylinders, CurrentHeads = (ushort)imageInfo.Heads,
CurrentSectorsPerTrack = (ushort)imageInfo.SectorsPerTrack,
CurrentSectors = (uint)imageInfo.Sectors, LBASectors = (uint)imageInfo.Sectors,
DMASupported = CommonTypes.Structs.Devices.ATA.Identify.TransferMode.Mode0,
DMAActive = CommonTypes.Structs.Devices.ATA.Identify.TransferMode.Mode0
};
if (string.IsNullOrEmpty(imageInfo.DriveManufacturer))
{
imageInfo.DriveManufacturer = "Aaru";
}
if (string.IsNullOrEmpty(imageInfo.DriveModel))
{
imageInfo.DriveModel = "";
}
if (string.IsNullOrEmpty(imageInfo.DriveFirmwareRevision))
{
Version.GetVersion();
}
if (string.IsNullOrEmpty(imageInfo.DriveSerialNumber))
{
imageInfo.DriveSerialNumber = $"{new Random().NextDouble():16X}";
}
byte[] ataIdBytes = new byte[Marshal.SizeOf <Identify.IdentifyDevice>()];
IntPtr ptr = System.Runtime.InteropServices.Marshal.AllocHGlobal(512);
System.Runtime.InteropServices.Marshal.StructureToPtr(ataId, ptr, true);
System.Runtime.InteropServices.Marshal.Copy(ptr, ataIdBytes, 0,
Marshal.SizeOf <Identify.IdentifyDevice>());
System.Runtime.InteropServices.Marshal.FreeHGlobal(ptr);
Array.Copy(ScrambleAtaString(imageInfo.DriveManufacturer + " " + imageInfo.DriveModel, 40), 0,
ataIdBytes, 27 * 2, 40);
Array.Copy(ScrambleAtaString(imageInfo.DriveFirmwareRevision, 8), 0, ataIdBytes, 23 * 2, 8);
Array.Copy(ScrambleAtaString(imageInfo.DriveSerialNumber, 20), 0, ataIdBytes, 10 * 2, 20);
Array.Copy(ataIdBytes, 0, header.identify, 0, 106);
}
else
{
Array.Copy(identify, 0, header.identify, 0, 106);
}
byte[] hdr = new byte[Marshal.SizeOf <RsIdeHeader>()];
IntPtr hdrPtr = System.Runtime.InteropServices.Marshal.AllocHGlobal(Marshal.SizeOf <RsIdeHeader>());
System.Runtime.InteropServices.Marshal.StructureToPtr(header, hdrPtr, true);
System.Runtime.InteropServices.Marshal.Copy(hdrPtr, hdr, 0, hdr.Length);
System.Runtime.InteropServices.Marshal.FreeHGlobal(hdrPtr);
writingStream.Seek(0, SeekOrigin.Begin);
writingStream.Write(hdr, 0, hdr.Length);
writingStream.Flush();
writingStream.Close();
IsWriting = false;
ErrorMessage = "";
return(true);
}
public bool Close()
{
if (!IsWriting)
{
ErrorMessage = "Image is not opened for writing";
return(false);
}
byte[] markerTag = Encoding.UTF8.GetBytes("Aaru " + Version.GetVersion());
byte[] driveName;
byte[] driveType = new byte[3];
byte[] driveBlocks = BigEndianBitConverter.GetBytes((uint)_imageInfo.Sectors);
int longSectorSize = _imageInfo.MediaType == MediaType.PriamDataTower ? 536 : 532;
byte[] blockSize = BigEndianBitConverter.GetBytes((ushort)longSectorSize);
switch (_imageInfo.MediaType)
{
case MediaType.AppleProfile when _imageInfo.Sectors == 0x4C00:
driveName = Encoding.ASCII.GetBytes(PROFILE10_NAME);
break;
case MediaType.AppleWidget when _imageInfo.Sectors == 0x4C00:
driveType[1] = 0x01;
driveName = Encoding.ASCII.GetBytes(PROFILE10_NAME);
break;
case MediaType.PriamDataTower when _imageInfo.Sectors == 0x22C7C:
driveType[1] = 0xFF;
driveName = Encoding.ASCII.GetBytes(PRIAM_NAME);
break;
default:
driveName = Encoding.ASCII.GetBytes(PROFILE_NAME);
break;
}
_writingStream.Seek(0, SeekOrigin.Begin);
_writingStream.Write(driveName, 0, driveName.Length >= 0xD ? 0xD : driveName.Length);
_writingStream.Seek(0xD, SeekOrigin.Begin);
_writingStream.Write(driveType, 0, 3);
_writingStream.Seek(0x12, SeekOrigin.Begin);
_writingStream.Write(driveBlocks, 1, 3);
_writingStream.Seek(0x15, SeekOrigin.Begin);
_writingStream.Write(blockSize, 1, 2);
_writingStream.Seek(512, SeekOrigin.Begin);
_writingStream.Write(markerTag, 0,
markerTag.Length >= longSectorSize - 512 ? longSectorSize - 512 : markerTag.Length);
_writingStream.Flush();
_writingStream.Close();
IsWriting = false;
ErrorMessage = "";
return(true);
}
/// <summary>Dumps a MiniDisc Data device</summary>
internal void MiniDisc()
{
bool sense;
byte scsiMediumType = 0;
const ushort sbcProfile = 0x0001;
DateTime start;
DateTime end;
double totalDuration = 0;
double currentSpeed = 0;
double maxSpeed = double.MinValue;
double minSpeed = double.MaxValue;
byte[] readBuffer;
Modes.DecodedMode?decMode = null;
Dictionary <MediaTagType, byte[]> mediaTags = new Dictionary <MediaTagType, byte[]>();
byte[] cmdBuf;
bool ret;
_dumpLog.WriteLine("Initializing reader.");
var scsiReader = new Reader(_dev, _dev.Timeout, null);
ulong blocks = scsiReader.GetDeviceBlocks();
uint blockSize = scsiReader.LogicalBlockSize;
_dumpLog.WriteLine("Requesting MODE SENSE (6).");
UpdateStatus?.Invoke("Requesting MODE SENSE (6).");
sense = _dev.ModeSense6(out cmdBuf, out _, true, ScsiModeSensePageControl.Current, 0x3F, 5, out _);
if (!sense &&
!_dev.Error &&
Modes.DecodeMode6(cmdBuf, _dev.ScsiType).HasValue)
{
decMode = Modes.DecodeMode6(cmdBuf, _dev.ScsiType);
}
if (decMode.HasValue)
{
scsiMediumType = (byte)decMode.Value.Header.MediumType;
}
if (blockSize != 2048)
{
_dumpLog.WriteLine("MiniDisc albums, NetMD discs or user-written audio MiniDisc cannot be dumped.");
StoppingErrorMessage?.
Invoke("MiniDisc albums, NetMD discs or user-written audio MiniDisc cannot be dumped.");
return;
}
MediaType dskType = MediaType.MDData;
if (scsiReader.FindReadCommand())
{
_dumpLog.WriteLine("ERROR: Cannot find correct read command: {0}.", scsiReader.ErrorMessage);
StoppingErrorMessage?.Invoke("Unable to read medium.");
return;
}
if (blocks != 0 &&
blockSize != 0)
{
blocks++;
UpdateStatus?.
Invoke($"Media has {blocks} blocks of {blockSize} bytes/each. (for a total of {blocks * (ulong)blockSize} bytes)");
}
// Check how many blocks to read, if error show and return
// 64 works, gets maximum speed (150KiB/s), slow I know...
if (scsiReader.GetBlocksToRead())
{
_dumpLog.WriteLine("ERROR: Cannot get blocks to read: {0}.", scsiReader.ErrorMessage);
StoppingErrorMessage?.Invoke(scsiReader.ErrorMessage);
return;
}
uint blocksToRead = scsiReader.BlocksToRead;
uint logicalBlockSize = blockSize;
uint physicalBlockSize = scsiReader.PhysicalBlockSize;
if (blocks == 0)
{
_dumpLog.WriteLine("ERROR: Unable to read medium or empty medium present...");
StoppingErrorMessage?.Invoke("Unable to read medium or empty medium present...");
return;
}
UpdateStatus?.Invoke($"Device reports {blocks} blocks ({blocks * blockSize} bytes).");
UpdateStatus?.Invoke($"Device can read {blocksToRead} blocks at a time.");
UpdateStatus?.Invoke($"Device reports {blockSize} bytes per logical block.");
UpdateStatus?.Invoke($"Device reports {scsiReader.LongBlockSize} bytes per physical block.");
UpdateStatus?.Invoke($"SCSI device type: {_dev.ScsiType}.");
UpdateStatus?.Invoke($"SCSI medium type: {scsiMediumType}.");
UpdateStatus?.Invoke($"Media identified as {dskType}");
_dumpLog.WriteLine("Device reports {0} blocks ({1} bytes).", blocks, blocks * blockSize);
_dumpLog.WriteLine("Device can read {0} blocks at a time.", blocksToRead);
_dumpLog.WriteLine("Device reports {0} bytes per logical block.", blockSize);
_dumpLog.WriteLine("Device reports {0} bytes per physical block.", scsiReader.LongBlockSize);
_dumpLog.WriteLine("SCSI device type: {0}.", _dev.ScsiType);
_dumpLog.WriteLine("SCSI medium type: {0}.", scsiMediumType);
_dumpLog.WriteLine("Media identified as {0}.", dskType);
sense = _dev.MiniDiscGetType(out cmdBuf, out _, _dev.Timeout, out _);
if (!sense &&
!_dev.Error)
{
mediaTags.Add(MediaTagType.MiniDiscType, cmdBuf);
}
sense = _dev.MiniDiscD5(out cmdBuf, out _, _dev.Timeout, out _);
if (!sense &&
!_dev.Error)
{
mediaTags.Add(MediaTagType.MiniDiscD5, cmdBuf);
}
sense = _dev.MiniDiscReadDataTOC(out cmdBuf, out _, _dev.Timeout, out _);
if (!sense &&
!_dev.Error)
{
mediaTags.Add(MediaTagType.MiniDiscDTOC, cmdBuf);
}
var utocMs = new MemoryStream();
for (uint i = 0; i < 3; i++)
{
sense = _dev.MiniDiscReadUserTOC(out cmdBuf, out _, i, _dev.Timeout, out _);
if (sense || _dev.Error)
{
break;
}
utocMs.Write(cmdBuf, 0, 2336);
}
if (utocMs.Length > 0)
{
mediaTags.Add(MediaTagType.MiniDiscUTOC, utocMs.ToArray());
}
ret = true;
foreach (MediaTagType tag in mediaTags.Keys)
{
if (_outputPlugin.SupportedMediaTags.Contains(tag))
{
continue;
}
ret = false;
_dumpLog.WriteLine($"Output format does not support {tag}.");
ErrorMessage?.Invoke($"Output format does not support {tag}.");
}
if (!ret)
{
if (_force)
{
_dumpLog.WriteLine("Several media tags not supported, continuing...");
ErrorMessage?.Invoke("Several media tags not supported, continuing...");
}
else
{
_dumpLog.WriteLine("Several media tags not supported, not continuing...");
StoppingErrorMessage?.Invoke("Several media tags not supported, not continuing...");
return;
}
}
UpdateStatus?.Invoke($"Reading {blocksToRead} sectors at a time.");
_dumpLog.WriteLine("Reading {0} sectors at a time.", blocksToRead);
var mhddLog = new MhddLog(_outputPrefix + ".mhddlog.bin", _dev, blocks, blockSize, blocksToRead, _private);
var ibgLog = new IbgLog(_outputPrefix + ".ibg", sbcProfile);
ret = _outputPlugin.Create(_outputPath, dskType, _formatOptions, blocks, blockSize);
// Cannot create image
if (!ret)
{
_dumpLog.WriteLine("Error creating output image, not continuing.");
_dumpLog.WriteLine(_outputPlugin.ErrorMessage);
StoppingErrorMessage?.Invoke("Error creating output image, not continuing." + Environment.NewLine +
_outputPlugin.ErrorMessage);
return;
}
start = DateTime.UtcNow;
double imageWriteDuration = 0;
if (decMode?.Pages != null)
{
bool setGeometry = false;
foreach (Modes.ModePage page in decMode.Value.Pages)
{
if (page.Page == 0x04 &&
page.Subpage == 0x00)
{
Modes.ModePage_04?rigidPage = Modes.DecodeModePage_04(page.PageResponse);
if (!rigidPage.HasValue || setGeometry)
{
continue;
}
_dumpLog.WriteLine("Setting geometry to {0} cylinders, {1} heads, {2} sectors per track",
rigidPage.Value.Cylinders, rigidPage.Value.Heads,
(uint)(blocks / (rigidPage.Value.Cylinders * rigidPage.Value.Heads)));
UpdateStatus?.
Invoke($"Setting geometry to {rigidPage.Value.Cylinders} cylinders, {rigidPage.Value.Heads} heads, {(uint)(blocks / (rigidPage.Value.Cylinders * rigidPage.Value.Heads))} sectors per track");
_outputPlugin.SetGeometry(rigidPage.Value.Cylinders, rigidPage.Value.Heads,
(uint)(blocks / (rigidPage.Value.Cylinders * rigidPage.Value.Heads)));
setGeometry = true;
}
else if (page.Page == 0x05 &&
page.Subpage == 0x00)
{
Modes.ModePage_05?flexiblePage = Modes.DecodeModePage_05(page.PageResponse);
if (!flexiblePage.HasValue)
{
continue;
}
_dumpLog.WriteLine("Setting geometry to {0} cylinders, {1} heads, {2} sectors per track",
flexiblePage.Value.Cylinders, flexiblePage.Value.Heads,
flexiblePage.Value.SectorsPerTrack);
UpdateStatus?.
Invoke($"Setting geometry to {flexiblePage.Value.Cylinders} cylinders, {flexiblePage.Value.Heads} heads, {flexiblePage.Value.SectorsPerTrack} sectors per track");
_outputPlugin.SetGeometry(flexiblePage.Value.Cylinders, flexiblePage.Value.Heads,
flexiblePage.Value.SectorsPerTrack);
setGeometry = true;
}
}
}
DumpHardwareType currentTry = null;
ExtentsULong extents = null;
ResumeSupport.Process(true, _dev.IsRemovable, blocks, _dev.Manufacturer, _dev.Model, _dev.Serial,
_dev.PlatformId, ref _resume, ref currentTry, ref extents, _dev.FirmwareRevision,
_private);
if (currentTry == null ||
extents == null)
{
StoppingErrorMessage?.Invoke("Could not process resume file, not continuing...");
return;
}
if (_resume.NextBlock > 0)
{
UpdateStatus?.Invoke($"Resuming from block {_resume.NextBlock}.");
_dumpLog.WriteLine("Resuming from block {0}.", _resume.NextBlock);
}
bool newTrim = false;
DateTime timeSpeedStart = DateTime.UtcNow;
ulong sectorSpeedStart = 0;
InitProgress?.Invoke();
for (ulong i = _resume.NextBlock; i < blocks; i += blocksToRead)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
if (blocks - i < blocksToRead)
{
blocksToRead = (uint)(blocks - i);
}
#pragma warning disable RECS0018 // Comparison of floating point numbers with equality operator
if (currentSpeed > maxSpeed &&
currentSpeed != 0)
{
maxSpeed = currentSpeed;
}
if (currentSpeed < minSpeed &&
currentSpeed != 0)
{
minSpeed = currentSpeed;
}
#pragma warning restore RECS0018 // Comparison of floating point numbers with equality operator
UpdateProgress?.Invoke($"Reading sector {i} of {blocks} ({currentSpeed:F3} MiB/sec.)", (long)i,
(long)blocks);
sense = _dev.Read6(out readBuffer, out _, (uint)i, blockSize, (byte)blocksToRead, _dev.Timeout,
out double cmdDuration);
totalDuration += cmdDuration;
if (!sense &&
!_dev.Error)
{
mhddLog.Write(i, cmdDuration);
ibgLog.Write(i, currentSpeed * 1024);
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(readBuffer, i, blocksToRead);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
extents.Add(i, blocksToRead, true);
}
else
{
// TODO: Reset device after X errors
if (_stopOnError)
{
return; // TODO: Return more cleanly
}
if (i + _skip > blocks)
{
_skip = (uint)(blocks - i);
}
// Write empty data
DateTime writeStart = DateTime.Now;
_outputPlugin.WriteSectors(new byte[blockSize * _skip], i, _skip);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
for (ulong b = i; b < i + _skip; b++)
{
_resume.BadBlocks.Add(b);
}
mhddLog.Write(i, cmdDuration < 500 ? 65535 : cmdDuration);
ibgLog.Write(i, 0);
_dumpLog.WriteLine("Skipping {0} blocks from errored block {1}.", _skip, i);
i += _skip - blocksToRead;
newTrim = true;
}
sectorSpeedStart += blocksToRead;
_resume.NextBlock = i + blocksToRead;
double elapsed = (DateTime.UtcNow - timeSpeedStart).TotalSeconds;
if (elapsed < 1)
{
continue;
}
currentSpeed = (sectorSpeedStart * blockSize) / (1048576 * elapsed);
sectorSpeedStart = 0;
timeSpeedStart = DateTime.UtcNow;
}
end = DateTime.UtcNow;
EndProgress?.Invoke();
mhddLog.Close();
ibgLog.Close(_dev, blocks, blockSize, (end - start).TotalSeconds, currentSpeed * 1024,
(blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000), _devicePath);
UpdateStatus?.Invoke($"Dump finished in {(end - start).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average dump speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000):F3} KiB/sec.");
UpdateStatus?.
Invoke($"Average write speed {((double)blockSize * (double)(blocks + 1)) / 1024 / imageWriteDuration:F3} KiB/sec.");
_dumpLog.WriteLine("Dump finished in {0} seconds.", (end - start).TotalSeconds);
_dumpLog.WriteLine("Average dump speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000));
_dumpLog.WriteLine("Average write speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / imageWriteDuration);
#region Trimming
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_trim &&
newTrim)
{
start = DateTime.UtcNow;
UpdateStatus?.Invoke("Trimming skipped sectors");
_dumpLog.WriteLine("Trimming skipped sectors");
ulong[] tmpArray = _resume.BadBlocks.ToArray();
InitProgress?.Invoke();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke($"Trimming sector {badSector}");
sense = _dev.Read6(out readBuffer, out _, (uint)badSector, blockSize, 1, _dev.Timeout,
out double cmdDuration);
if (sense || _dev.Error)
{
continue;
}
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(readBuffer, badSector);
}
EndProgress?.Invoke();
end = DateTime.UtcNow;
UpdateStatus?.Invoke($"Trimming finished in {(end - start).TotalSeconds} seconds.");
_dumpLog.WriteLine("Trimming finished in {0} seconds.", (end - start).TotalSeconds);
}
#endregion Trimming
#region Error handling
if (_resume.BadBlocks.Count > 0 &&
!_aborted &&
_retryPasses > 0)
{
int pass = 1;
bool forward = true;
bool runningPersistent = false;
Modes.ModePage?currentModePage = null;
byte[] md6;
byte[] md10;
if (_persistent)
{
Modes.ModePage_01_MMC pgMmc;
Modes.ModePage_01 pg;
sense = _dev.ModeSense6(out readBuffer, out _, false, ScsiModeSensePageControl.Current, 0x01,
_dev.Timeout, out _);
if (!sense)
{
Modes.DecodedMode?dcMode6 = Modes.DecodeMode6(readBuffer, _dev.ScsiType);
if (dcMode6.HasValue &&
dcMode6.Value.Pages != null)
{
foreach (Modes.ModePage modePage in dcMode6.Value.Pages)
{
if (modePage.Page == 0x01 &&
modePage.Subpage == 0x00)
{
currentModePage = modePage;
}
}
}
}
if (currentModePage == null)
{
pg = new Modes.ModePage_01
{
PS = false, AWRE = true, ARRE = true, TB = false,
RC = false, EER = true, PER = false, DTE = true,
DCR = false, ReadRetryCount = 32
};
currentModePage = new Modes.ModePage
{
Page = 0x01, Subpage = 0x00, PageResponse = Modes.EncodeModePage_01(pg)
};
}
pg = new Modes.ModePage_01
{
PS = false, AWRE = false, ARRE = false, TB = true,
RC = false, EER = true, PER = false, DTE = false,
DCR = false, ReadRetryCount = 255
};
var md = new Modes.DecodedMode
{
Header = new Modes.ModeHeader(), Pages = new[]
{
new Modes.ModePage
{
Page = 0x01, Subpage = 0x00, PageResponse = Modes.EncodeModePage_01(pg)
}
}
};
md6 = Modes.EncodeMode6(md, _dev.ScsiType);
UpdateStatus?.Invoke("Sending MODE SELECT to drive (return damaged blocks).");
_dumpLog.WriteLine("Sending MODE SELECT to drive (return damaged blocks).");
sense = _dev.ModeSelect(md6, out byte[] senseBuf, true, false, _dev.Timeout, out _);
if (sense)
{
UpdateStatus?.
Invoke("Drive did not accept MODE SELECT command for persistent error reading, try another drive.");
AaruConsole.DebugWriteLine("Error: {0}", Sense.PrettifySense(senseBuf));
_dumpLog.
WriteLine("Drive did not accept MODE SELECT command for persistent error reading, try another drive.");
}
else
{
runningPersistent = true;
}
}
InitProgress?.Invoke();
repeatRetry:
ulong[] tmpArray = _resume.BadBlocks.ToArray();
foreach (ulong badSector in tmpArray)
{
if (_aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
break;
}
PulseProgress?.Invoke(string.Format("Retrying sector {0}, pass {1}, {3}{2}", badSector, pass,
forward ? "forward" : "reverse",
runningPersistent ? "recovering partial data, " : ""));
sense = _dev.Read6(out readBuffer, out _, (uint)badSector, blockSize, 1, _dev.Timeout,
out double cmdDuration);
totalDuration += cmdDuration;
if (!sense &&
!_dev.Error)
{
_resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
_outputPlugin.WriteSector(readBuffer, badSector);
UpdateStatus?.Invoke($"Correctly retried block {badSector} in pass {pass}.");
_dumpLog.WriteLine("Correctly retried block {0} in pass {1}.", badSector, pass);
}
else if (runningPersistent)
{
_outputPlugin.WriteSector(readBuffer, badSector);
}
}
if (pass < _retryPasses &&
!_aborted &&
_resume.BadBlocks.Count > 0)
{
pass++;
forward = !forward;
_resume.BadBlocks.Sort();
if (!forward)
{
_resume.BadBlocks.Reverse();
}
goto repeatRetry;
}
if (runningPersistent && currentModePage.HasValue)
{
var md = new Modes.DecodedMode
{
Header = new Modes.ModeHeader(), Pages = new[]
{
currentModePage.Value
}
};
md6 = Modes.EncodeMode6(md, _dev.ScsiType);
UpdateStatus?.Invoke("Sending MODE SELECT to drive (return device to previous status).");
_dumpLog.WriteLine("Sending MODE SELECT to drive (return device to previous status).");
_dev.ModeSelect(md6, out _, true, false, _dev.Timeout, out _);
}
EndProgress?.Invoke();
}
#endregion Error handling
_resume.BadBlocks.Sort();
foreach (ulong bad in _resume.BadBlocks)
{
_dumpLog.WriteLine("Sector {0} could not be read.", bad);
}
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
_outputPlugin.SetDumpHardware(_resume.Tries);
var metadata = new CommonTypes.Structs.ImageInfo
{
Application = "Aaru", ApplicationVersion = Version.GetVersion()
};
if (!_outputPlugin.SetMetadata(metadata))
{
ErrorMessage?.Invoke("Error {0} setting metadata, continuing..." + Environment.NewLine +
_outputPlugin.ErrorMessage);
}
if (_preSidecar != null)
{
_outputPlugin.SetCicmMetadata(_preSidecar);
}
_dumpLog.WriteLine("Closing output file.");
UpdateStatus?.Invoke("Closing output file.");
DateTime closeStart = DateTime.Now;
_outputPlugin.Close();
DateTime closeEnd = DateTime.Now;
UpdateStatus?.Invoke($"Closed in {(closeEnd - closeStart).TotalSeconds} seconds.");
_dumpLog.WriteLine("Closed in {0} seconds.", (closeEnd - closeStart).TotalSeconds);
if (_aborted)
{
UpdateStatus?.Invoke("Aborted!");
_dumpLog.WriteLine("Aborted!");
return;
}
double totalChkDuration = 0;
if (_metadata)
{
UpdateStatus?.Invoke("Creating sidecar.");
_dumpLog.WriteLine("Creating sidecar.");
var filters = new FiltersList();
IFilter filter = filters.GetFilter(_outputPath);
IMediaImage inputPlugin = ImageFormat.Detect(filter);
if (!inputPlugin.Open(filter))
{
StoppingErrorMessage?.Invoke("Could not open created image.");
return;
}
DateTime chkStart = DateTime.UtcNow;
_sidecarClass = new Sidecar(inputPlugin, _outputPath, filter.Id, _encoding);
_sidecarClass.InitProgressEvent += InitProgress;
_sidecarClass.UpdateProgressEvent += UpdateProgress;
_sidecarClass.EndProgressEvent += EndProgress;
_sidecarClass.InitProgressEvent2 += InitProgress2;
_sidecarClass.UpdateProgressEvent2 += UpdateProgress2;
_sidecarClass.EndProgressEvent2 += EndProgress2;
_sidecarClass.UpdateStatusEvent += UpdateStatus;
CICMMetadataType sidecar = _sidecarClass.Create();
end = DateTime.UtcNow;
totalChkDuration = (end - chkStart).TotalMilliseconds;
UpdateStatus?.Invoke($"Sidecar created in {(end - chkStart).TotalSeconds} seconds.");
UpdateStatus?.
Invoke($"Average checksum speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000):F3} KiB/sec.");
_dumpLog.WriteLine("Sidecar created in {0} seconds.", (end - chkStart).TotalSeconds);
_dumpLog.WriteLine("Average checksum speed {0:F3} KiB/sec.",
((double)blockSize * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000));
if (_preSidecar != null)
{
_preSidecar.BlockMedia = sidecar.BlockMedia;
sidecar = _preSidecar;
}
List <(ulong start, string type)> filesystems = new List <(ulong start, string type)>();
if (sidecar.BlockMedia[0].FileSystemInformation != null)
{
filesystems.AddRange(from partition in sidecar.BlockMedia[0].FileSystemInformation
where partition.FileSystems != null from fileSystem in partition.FileSystems
select(partition.StartSector, fileSystem.Type));
}
if (filesystems.Count > 0)
{
foreach (var filesystem in filesystems.Select(o => new
{
o.start, o.type
}).Distinct())
{
UpdateStatus?.Invoke($"Found filesystem {filesystem.type} at sector {filesystem.start}");
_dumpLog.WriteLine("Found filesystem {0} at sector {1}", filesystem.type, filesystem.start);
}
}
sidecar.BlockMedia[0].Dimensions = Dimensions.DimensionsFromMediaType(dskType);
(string type, string subType)xmlType = CommonTypes.Metadata.MediaType.MediaTypeToString(dskType);
sidecar.BlockMedia[0].DiskType = xmlType.type;
sidecar.BlockMedia[0].DiskSubType = xmlType.subType;
if (!_dev.IsRemovable ||
_dev.IsUsb)
{
if (_dev.Type == DeviceType.ATAPI)
{
sidecar.BlockMedia[0].Interface = "ATAPI";
}
else if (_dev.IsUsb)
{
sidecar.BlockMedia[0].Interface = "USB";
}
else if (_dev.IsFireWire)
{
sidecar.BlockMedia[0].Interface = "FireWire";
}
else
{
sidecar.BlockMedia[0].Interface = "SCSI";
}
}
sidecar.BlockMedia[0].LogicalBlocks = blocks;
sidecar.BlockMedia[0].PhysicalBlockSize = physicalBlockSize;
sidecar.BlockMedia[0].LogicalBlockSize = logicalBlockSize;
sidecar.BlockMedia[0].Manufacturer = _dev.Manufacturer;
sidecar.BlockMedia[0].Model = _dev.Model;
if (!_private)
{
sidecar.BlockMedia[0].Serial = _dev.Serial;
}
sidecar.BlockMedia[0].Size = blocks * blockSize;
if (_dev.IsRemovable)
{
sidecar.BlockMedia[0].DumpHardwareArray = _resume.Tries.ToArray();
}
UpdateStatus?.Invoke("Writing metadata sidecar");
var xmlFs = new FileStream(_outputPrefix + ".cicm.xml", FileMode.Create);
var xmlSer = new XmlSerializer(typeof(CICMMetadataType));
xmlSer.Serialize(xmlFs, sidecar);
xmlFs.Close();
}
UpdateStatus?.Invoke("");
UpdateStatus?.
Invoke($"Took a total of {(end - start).TotalSeconds:F3} seconds ({totalDuration / 1000:F3} processing commands, {totalChkDuration / 1000:F3} checksumming, {imageWriteDuration:F3} writing, {(closeEnd - closeStart).TotalSeconds:F3} closing).");
UpdateStatus?.
Invoke($"Average speed: {((double)blockSize * (double)(blocks + 1)) / 1048576 / (totalDuration / 1000):F3} MiB/sec.");
if (maxSpeed > 0)
{
UpdateStatus?.Invoke($"Fastest speed burst: {maxSpeed:F3} MiB/sec.");
}
if (minSpeed > 0 &&
minSpeed < double.MaxValue)
{
UpdateStatus?.Invoke($"Slowest speed burst: {minSpeed:F3} MiB/sec.");
}
UpdateStatus?.Invoke($"{_resume.BadBlocks.Count} sectors could not be read.");
UpdateStatus?.Invoke("");
Statistics.AddMedia(dskType, true);
}
public void Convert()
{
Environment.CurrentDirectory = DataFolder;
Resume resume = null;
CICMMetadataType sidecar = null;
var filtersList = new FiltersList();
IFilter inputFilter = filtersList.GetFilter(InputPath);
Assert.IsNotNull(inputFilter, "Cannot open specified file.");
string outputPath = Path.Combine(Path.GetTempPath(), SuggestedOutputFilename);
Assert.IsFalse(File.Exists(outputPath), "Output file already exists, not continuing.");
IMediaImage inputFormat = ImageFormat.Detect(inputFilter);
Assert.IsNotNull(inputFormat, "Input image format not identified, not proceeding with conversion.");
Assert.IsTrue(inputFormat.Open(inputFilter), "Unable to open image format");
Assert.IsTrue(OutputFormat.SupportedMediaTypes.Contains(inputFormat.Info.MediaType),
"Output format does not support media type, cannot continue...");
if (inputFormat.Info.ReadableSectorTags.Count == 0)
{
Assert.IsFalse(UseLong, "Input image does not support long sectors.");
}
var inputOptical = inputFormat as IOpticalMediaImage;
var outputOptical = OutputFormat as IWritableOpticalImage;
Assert.IsNotNull(inputOptical, "Could not treat existing image as optical disc.");
Assert.IsNotNull(outputOptical, "Could not treat new image as optical disc.");
Assert.IsNotNull(inputOptical.Tracks, "Existing image contains no tracks.");
Assert.IsTrue(outputOptical.Create(outputPath, inputFormat.Info.MediaType, ParsedOptions, inputFormat.Info.Sectors, inputFormat.Info.SectorSize),
$"Error {outputOptical.ErrorMessage} creating output image.");
var metadata = new ImageInfo
{
Application = "Aaru",
ApplicationVersion = Version.GetVersion(),
Comments = inputFormat.Info.Comments,
Creator = inputFormat.Info.Creator,
DriveFirmwareRevision = inputFormat.Info.DriveFirmwareRevision,
DriveManufacturer = inputFormat.Info.DriveManufacturer,
DriveModel = inputFormat.Info.DriveModel,
DriveSerialNumber = inputFormat.Info.DriveSerialNumber,
LastMediaSequence = inputFormat.Info.LastMediaSequence,
MediaBarcode = inputFormat.Info.MediaBarcode,
MediaManufacturer = inputFormat.Info.MediaManufacturer,
MediaModel = inputFormat.Info.MediaModel,
MediaPartNumber = inputFormat.Info.MediaPartNumber,
MediaSequence = inputFormat.Info.MediaSequence,
MediaSerialNumber = inputFormat.Info.MediaSerialNumber,
MediaTitle = inputFormat.Info.MediaTitle
};
Assert.IsTrue(outputOptical.SetMetadata(metadata),
$"Error {outputOptical.ErrorMessage} setting metadata, ");
CICMMetadataType cicmMetadata = inputFormat.CicmMetadata;
List <DumpHardwareType> dumpHardware = inputFormat.DumpHardware;
foreach (MediaTagType mediaTag in inputFormat.Info.ReadableMediaTags.Where(mediaTag =>
outputOptical.SupportedMediaTags.Contains(mediaTag)))
{
AaruConsole.WriteLine("Converting media tag {0}", mediaTag);
byte[] tag = inputFormat.ReadDiskTag(mediaTag);
Assert.IsTrue(outputOptical.WriteMediaTag(tag, mediaTag));
}
AaruConsole.WriteLine("{0} sectors to convert", inputFormat.Info.Sectors);
ulong doneSectors;
Assert.IsTrue(outputOptical.SetTracks(inputOptical.Tracks),
$"Error {outputOptical.ErrorMessage} sending tracks list to output image.");
foreach (Track track in inputOptical.Tracks)
{
doneSectors = 0;
ulong trackSectors = track.TrackEndSector - track.TrackStartSector + 1;
while (doneSectors < trackSectors)
{
byte[] sector;
uint sectorsToDo;
if (trackSectors - doneSectors >= SECTORS_TO_READ)
{
sectorsToDo = SECTORS_TO_READ;
}
else
{
sectorsToDo = (uint)(trackSectors - doneSectors);
}
bool useNotLong = false;
bool result = false;
if (UseLong)
{
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSectorLong(doneSectors + track.TrackStartSector);
result = outputOptical.WriteSectorLong(sector, doneSectors + track.TrackStartSector);
}
else
{
sector = inputFormat.ReadSectorsLong(doneSectors + track.TrackStartSector, sectorsToDo);
result = outputOptical.WriteSectorsLong(sector, doneSectors + track.TrackStartSector,
sectorsToDo);
}
if (!result &&
sector.Length % 2352 != 0)
{
useNotLong = true;
}
}
if (!UseLong || useNotLong)
{
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSector(doneSectors + track.TrackStartSector);
result = outputOptical.WriteSector(sector, doneSectors + track.TrackStartSector);
}
else
{
sector = inputFormat.ReadSectors(doneSectors + track.TrackStartSector, sectorsToDo);
result = outputOptical.WriteSectors(sector, doneSectors + track.TrackStartSector,
sectorsToDo);
}
}
Assert.IsTrue(result,
$"Error {outputOptical.ErrorMessage} writing sector {doneSectors + track.TrackStartSector}, not continuing...");
doneSectors += sectorsToDo;
}
}
Dictionary <byte, string> isrcs = new Dictionary <byte, string>();
Dictionary <byte, byte> trackFlags = new Dictionary <byte, byte>();
string mcn = null;
HashSet <int> subchannelExtents = new HashSet <int>();
Dictionary <byte, int> smallestPregapLbaPerTrack = new Dictionary <byte, int>();
Track[] tracks = new Track[inputOptical.Tracks.Count];
for (int i = 0; i < tracks.Length; i++)
{
tracks[i] = new Track
{
Indexes = new Dictionary <ushort, int>(),
TrackDescription = inputOptical.Tracks[i].TrackDescription,
TrackEndSector = inputOptical.Tracks[i].TrackEndSector,
TrackStartSector = inputOptical.Tracks[i].TrackStartSector,
TrackPregap = inputOptical.Tracks[i].TrackPregap,
TrackSequence = inputOptical.Tracks[i].TrackSequence,
TrackSession = inputOptical.Tracks[i].TrackSession,
TrackBytesPerSector = inputOptical.Tracks[i].TrackBytesPerSector,
TrackRawBytesPerSector = inputOptical.Tracks[i].TrackRawBytesPerSector,
TrackType = inputOptical.Tracks[i].TrackType,
TrackSubchannelType = inputOptical.Tracks[i].TrackSubchannelType
};
foreach (KeyValuePair <ushort, int> idx in inputOptical.Tracks[i].Indexes)
{
tracks[i].Indexes[idx.Key] = idx.Value;
}
}
foreach (SectorTagType tag in inputFormat.Info.ReadableSectorTags.Where(t => t == SectorTagType.CdTrackIsrc).
OrderBy(t => t))
{
foreach (Track track in tracks)
{
byte[] isrc = inputFormat.ReadSectorTag(track.TrackSequence, tag);
if (isrc is null)
{
continue;
}
isrcs[(byte)track.TrackSequence] = Encoding.UTF8.GetString(isrc);
}
}
foreach (SectorTagType tag in inputFormat.Info.ReadableSectorTags.
Where(t => t == SectorTagType.CdTrackFlags).OrderBy(t => t))
{
foreach (Track track in tracks)
{
byte[] flags = inputFormat.ReadSectorTag(track.TrackSequence, tag);
if (flags is null)
{
continue;
}
trackFlags[(byte)track.TrackSequence] = flags[0];
}
}
for (ulong s = 0; s < inputFormat.Info.Sectors; s++)
{
if (s > int.MaxValue)
{
break;
}
subchannelExtents.Add((int)s);
}
foreach (SectorTagType tag in inputFormat.Info.ReadableSectorTags.OrderBy(t => t).TakeWhile(tag => UseLong))
{
switch (tag)
{
case SectorTagType.AppleSectorTag:
case SectorTagType.CdSectorSync:
case SectorTagType.CdSectorHeader:
case SectorTagType.CdSectorSubHeader:
case SectorTagType.CdSectorEdc:
case SectorTagType.CdSectorEccP:
case SectorTagType.CdSectorEccQ:
case SectorTagType.CdSectorEcc:
// This tags are inline in long sector
continue;
}
if (!outputOptical.SupportedSectorTags.Contains(tag))
{
continue;
}
foreach (Track track in inputOptical.Tracks)
{
doneSectors = 0;
ulong trackSectors = track.TrackEndSector - track.TrackStartSector + 1;
byte[] sector;
bool result;
switch (tag)
{
case SectorTagType.CdTrackFlags:
case SectorTagType.CdTrackIsrc:
sector = inputFormat.ReadSectorTag(track.TrackSequence, tag);
result = outputOptical.WriteSectorTag(sector, track.TrackSequence, tag);
Assert.IsTrue(result, $"Error {outputOptical.ErrorMessage} writing tag, not continuing...");
continue;
}
while (doneSectors < trackSectors)
{
uint sectorsToDo;
if (trackSectors - doneSectors >= SECTORS_TO_READ)
{
sectorsToDo = SECTORS_TO_READ;
}
else
{
sectorsToDo = (uint)(trackSectors - doneSectors);
}
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSectorTag(doneSectors + track.TrackStartSector, tag);
if (tag == SectorTagType.CdSectorSubchannel)
{
bool indexesChanged = CompactDisc.WriteSubchannelToImage(MmcSubchannel.Raw,
MmcSubchannel.Raw, sector, doneSectors + track.TrackStartSector, 1, null,
isrcs, (byte)track.TrackSequence, ref mcn, tracks, subchannelExtents, true,
outputOptical, true, true, null, null, smallestPregapLbaPerTrack, false);
if (indexesChanged)
{
outputOptical.SetTracks(tracks.ToList());
}
result = true;
}
else
{
result = outputOptical.WriteSectorTag(sector, doneSectors + track.TrackStartSector,
tag);
}
}
else
{
sector = inputFormat.ReadSectorsTag(doneSectors + track.TrackStartSector, sectorsToDo, tag);
if (tag == SectorTagType.CdSectorSubchannel)
{
bool indexesChanged = CompactDisc.WriteSubchannelToImage(MmcSubchannel.Raw,
MmcSubchannel.Raw, sector, doneSectors + track.TrackStartSector, sectorsToDo,
null, isrcs, (byte)track.TrackSequence, ref mcn, tracks, subchannelExtents,
true, outputOptical, true, true, null, null, smallestPregapLbaPerTrack, false);
if (indexesChanged)
{
outputOptical.SetTracks(tracks.ToList());
}
result = true;
}
else
{
result = outputOptical.WriteSectorsTag(sector, doneSectors + track.TrackStartSector,
sectorsToDo, tag);
}
}
Assert.IsTrue(result,
$"Error {outputOptical.ErrorMessage} writing tag for sector {doneSectors + track.TrackStartSector}, not continuing...");
doneSectors += sectorsToDo;
}
}
}
if (isrcs.Count > 0)
{
foreach (KeyValuePair <byte, string> isrc in isrcs)
{
outputOptical.WriteSectorTag(Encoding.UTF8.GetBytes(isrc.Value), isrc.Key,
SectorTagType.CdTrackIsrc);
}
}
if (trackFlags.Count > 0)
{
foreach ((byte track, byte flags) in trackFlags)
{
outputOptical.WriteSectorTag(new[]
{
flags
}, track, SectorTagType.CdTrackFlags);
}
}
if (mcn != null)
{
outputOptical.WriteMediaTag(Encoding.UTF8.GetBytes(mcn), MediaTagType.CD_MCN);
}
if (resume != null ||
dumpHardware != null)
{
if (resume != null)
{
outputOptical.SetDumpHardware(resume.Tries);
}
else if (dumpHardware != null)
{
outputOptical.SetDumpHardware(dumpHardware);
}
}
if (sidecar != null ||
cicmMetadata != null)
{
if (sidecar != null)
{
outputOptical.SetCicmMetadata(sidecar);
}
else if (cicmMetadata != null)
{
outputOptical.SetCicmMetadata(cicmMetadata);
}
}
Assert.True(outputOptical.Close(),
$"Error {outputOptical.ErrorMessage} closing output image... Contents are not correct.");
// Some images will never generate the same
if (Md5 != null)
{
string md5 = Md5Context.File(outputPath, out _);
Assert.AreEqual(Md5, md5, "Hashes are different");
}
File.Delete(outputPath);
}
