/// <summary>
/// Creates a new job from the same pool, using the same logger and original properties as well as the new properties provided, and with a "Parent Job ID" property containing the Id of this job for correlation purposes.
/// </summary>
/// <param name="jobName">The name or type of the job to create.</param>
/// <param name="jobId">A unique id of the job used to correlate log entries.</param>
/// <param name="properties">Null, or a collection key value pairs to associate with the child job.</param>
/// <returns>A <see cref="LoggedJob"/> instance used to track the job and log related entries.</returns>
public LoggedJob CreateChildJob(string jobName, string jobId, params KeyValuePair <string, object>[] properties)
{
#if CONTRACTS_ONLY
BaitExceptionHelper.Throw();
return(null);
#else
var retVal = _ParentPool?.Take() ?? new LoggedJob();
IEnumerable <KeyValuePair <string, object> > allProperties = new KeyValuePair <string, object>[] { new KeyValuePair <string, object>(Properties.Resources.ParentJobIdPropertyName, this._JobId) };
if (properties != null)
{
allProperties = allProperties.Union(GetNonJobProperties(properties));
}
if (_Properties != null)
{
allProperties = allProperties.Union(GetNonJobProperties(_Properties));
}
retVal.Initialize(_Logger, jobName, jobId, allProperties, _ParentPool, TimeSpan.Zero);
return(retVal);
#endif
}
/// <summary>
/// Tests the volume by examining the internal contents
/// </summary>
/// <param name="vol">The remote volume being examined</param>
/// <param name="tf">The path to the downloaded copy of the file</param>
/// <param name="sample_percent">A value between 0 and 1 that indicates how many blocks are tested in a dblock file</param>
public static KeyValuePair <string, IEnumerable <KeyValuePair <TestEntryStatus, string> > > TestVolumeInternals(LocalTestDatabase db, IRemoteVolume vol, string tf, Options options, ILogWriter log, double sample_percent)
{
var blockhasher = System.Security.Cryptography.HashAlgorithm.Create(options.BlockHashAlgorithm);
if (blockhasher == null)
{
throw new Exception(Strings.Common.InvalidHashAlgorithm(options.BlockHashAlgorithm));
}
if (!blockhasher.CanReuseTransform)
{
throw new Exception(Strings.Common.InvalidCryptoSystem(options.BlockHashAlgorithm));
}
var hashsize = blockhasher.HashSize / 8;
var parsedInfo = Volumes.VolumeBase.ParseFilename(vol.Name);
sample_percent = Math.Min(1, Math.Max(sample_percent, 0.01));
if (parsedInfo.FileType == RemoteVolumeType.Files)
{
//Compare with db and see if all files are accounted for
// with correct file hashes and blocklist hashes
using (var fl = db.CreateFilelist(vol.Name))
{
using (var rd = new Volumes.FilesetVolumeReader(parsedInfo.CompressionModule, tf, options))
foreach (var f in rd.Files)
{
fl.Add(f.Path, f.Size, f.Hash, f.Metasize, f.Metahash, f.BlocklistHashes, f.Type, f.Time);
}
return(new KeyValuePair <string, IEnumerable <KeyValuePair <TestEntryStatus, string> > >(vol.Name, fl.Compare().ToList()));
}
}
else if (parsedInfo.FileType == RemoteVolumeType.Index)
{
var blocklinks = new List <Tuple <string, string, long> >();
IEnumerable <KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string> > combined = new KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string> [0];
//Compare with db and see that all hashes and volumes are listed
using (var rd = new Volumes.IndexVolumeReader(parsedInfo.CompressionModule, tf, options, hashsize))
foreach (var v in rd.Volumes)
{
blocklinks.Add(new Tuple <string, string, long>(v.Filename, v.Hash, v.Length));
using (var bl = db.CreateBlocklist(v.Filename))
{
foreach (var h in v.Blocks)
{
bl.AddBlock(h.Key, h.Value);
}
combined = combined.Union(bl.Compare().ToArray());
}
}
using (var il = db.CreateIndexlist(vol.Name))
{
foreach (var t in blocklinks)
{
il.AddBlockLink(t.Item1, t.Item2, t.Item3);
}
combined = combined.Union(il.Compare()).ToList();
}
return(new KeyValuePair <string, IEnumerable <KeyValuePair <TestEntryStatus, string> > >(vol.Name, combined.ToList()));
}
else if (parsedInfo.FileType == RemoteVolumeType.Blocks)
{
using (var bl = db.CreateBlocklist(vol.Name))
using (var rd = new Volumes.BlockVolumeReader(parsedInfo.CompressionModule, tf, options))
{
//Verify that all blocks are in the file
foreach (var b in rd.Blocks)
{
bl.AddBlock(b.Key, b.Value);
}
//Select random blocks and verify their hashes match the filename and size
var hashsamples = new List <KeyValuePair <string, long> >(rd.Blocks);
var sampleCount = Math.Min(Math.Max(0, (int)(hashsamples.Count * sample_percent)), hashsamples.Count - 1);
var rnd = new Random();
while (hashsamples.Count > sampleCount)
{
hashsamples.RemoveAt(rnd.Next(hashsamples.Count));
}
var blockbuffer = new byte[options.Blocksize];
var changes = new List <KeyValuePair <Library.Interface.TestEntryStatus, string> >();
foreach (var s in hashsamples)
{
var size = rd.ReadBlock(s.Key, blockbuffer);
if (size != s.Value)
{
changes.Add(new KeyValuePair <Library.Interface.TestEntryStatus, string>(Library.Interface.TestEntryStatus.Modified, s.Key));
}
else
{
var hash = Convert.ToBase64String(blockhasher.ComputeHash(blockbuffer, 0, size));
if (hash != s.Key)
{
changes.Add(new KeyValuePair <Library.Interface.TestEntryStatus, string>(Library.Interface.TestEntryStatus.Modified, s.Key));
}
}
}
return(new KeyValuePair <string, IEnumerable <KeyValuePair <TestEntryStatus, string> > >(vol.Name, changes.Union(bl.Compare().ToList())));
}
}
log.AddWarning(string.Format("Unexpected file type {0} for {1}", parsedInfo.FileType, vol.Name), null);
return(new KeyValuePair <string, IEnumerable <KeyValuePair <TestEntryStatus, string> > >(vol.Name, null));
}
/// <summary>
/// Tests the volume by examining the internal contents
/// </summary>
/// <param name="vol">The remote volume being examined</param>
/// <param name="tf">The path to the downloaded copy of the file</param>
/// <param name="sample_percent">A value between 0 and 1 that indicates how many blocks are tested in a dblock file</param>
public static KeyValuePair<string, IEnumerable<KeyValuePair<TestEntryStatus, string>>> TestVolumeInternals(LocalTestDatabase db, IRemoteVolume vol, string tf, Options options, ILogWriter log, double sample_percent = 0.2)
{
var blockhasher = System.Security.Cryptography.HashAlgorithm.Create(options.BlockHashAlgorithm);
if (blockhasher == null)
throw new Exception(Strings.Foresthash.InvalidHashAlgorithm(options.BlockHashAlgorithm));
if (!blockhasher.CanReuseTransform)
throw new Exception(Strings.Foresthash.InvalidCryptoSystem(options.BlockHashAlgorithm));
var hashsize = blockhasher.HashSize / 8;
var parsedInfo = Volumes.VolumeBase.ParseFilename(vol.Name);
sample_percent = Math.Min(1, Math.Max(sample_percent, 0.01));
if (parsedInfo.FileType == RemoteVolumeType.Files)
{
//Compare with db and see if all files are accounted for
// with correct file hashes and blocklist hashes
using(var fl = db.CreateFilelist(vol.Name))
{
using(var rd = new Volumes.FilesetVolumeReader(parsedInfo.CompressionModule, tf, options))
foreach(var f in rd.Files)
fl.Add(f.Path, f.Size, f.Hash, f.Metasize, f.Metahash, f.BlocklistHashes, f.Type, f.Time);
return new KeyValuePair<string, IEnumerable<KeyValuePair<TestEntryStatus, string>>>(vol.Name, fl.Compare().ToList());
}
}
else if (parsedInfo.FileType == RemoteVolumeType.Index)
{
var blocklinks = new List<Tuple<string, string, long>>();
IEnumerable<KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>> combined = new KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>[0];
//Compare with db and see that all hashes and volumes are listed
using(var rd = new Volumes.IndexVolumeReader(parsedInfo.CompressionModule, tf, options, hashsize))
foreach(var v in rd.Volumes)
{
blocklinks.Add(new Tuple<string, string, long>(v.Filename, v.Hash, v.Length));
using(var bl = db.CreateBlocklist(v.Filename))
{
foreach(var h in v.Blocks)
bl.AddBlock(h.Key, h.Value);
combined = combined.Union(bl.Compare().ToArray());
}
}
using(var il = db.CreateIndexlist(vol.Name))
{
foreach(var t in blocklinks)
il.AddBlockLink(t.Item1, t.Item2, t.Item3);
combined = combined.Union(il.Compare()).ToList();
}
return new KeyValuePair<string, IEnumerable<KeyValuePair<TestEntryStatus, string>>>(vol.Name, combined.ToList());
}
else if (parsedInfo.FileType == RemoteVolumeType.Blocks)
{
using(var bl = db.CreateBlocklist(vol.Name))
using(var rd = new Volumes.BlockVolumeReader(parsedInfo.CompressionModule, tf, options))
{
//Verify that all blocks are in the file
foreach(var b in rd.Blocks)
bl.AddBlock(b.Key, b.Value);
//Select random blocks and verify their hashes match the filename and size
var hashsamples = new List<KeyValuePair<string, long>>(rd.Blocks);
var sampleCount = Math.Min(Math.Max(0, (int)(hashsamples.Count * sample_percent)), hashsamples.Count - 1);
var rnd = new Random();
while (hashsamples.Count > sampleCount)
hashsamples.RemoveAt(rnd.Next(hashsamples.Count));
var blockbuffer = new byte[options.Blocksize];
var changes = new List<KeyValuePair<Library.Interface.TestEntryStatus, string>>();
foreach(var s in hashsamples)
{
var size = rd.ReadBlock(s.Key, blockbuffer);
if (size != s.Value)
changes.Add(new KeyValuePair<Library.Interface.TestEntryStatus, string>(Library.Interface.TestEntryStatus.Modified, s.Key));
else
{
var hash = Convert.ToBase64String(blockhasher.ComputeHash(blockbuffer, 0, size));
if (hash != s.Key)
changes.Add(new KeyValuePair<Library.Interface.TestEntryStatus, string>(Library.Interface.TestEntryStatus.Modified, s.Key));
}
}
return new KeyValuePair<string, IEnumerable<KeyValuePair<TestEntryStatus, string>>>(vol.Name, changes.Union(bl.Compare().ToList()));
}
}
log.AddWarning(string.Format("Unexpected file type {0} for {1}", parsedInfo.FileType, vol.Name), null);
return new KeyValuePair<string, IEnumerable<KeyValuePair<TestEntryStatus, string>>>(vol.Name, null);
}
public void DoRun(long samples, LocalTestDatabase db, BackendManager backend)
{
var blockhasher = System.Security.Cryptography.HashAlgorithm.Create(m_options.BlockHashAlgorithm);
if (blockhasher == null)
{
throw new Exception(string.Format(Strings.Foresthash.InvalidHashAlgorithm, m_options.BlockHashAlgorithm));
}
if (!blockhasher.CanReuseTransform)
{
throw new Exception(string.Format(Strings.Foresthash.InvalidCryptoSystem, m_options.BlockHashAlgorithm));
}
var hashsize = blockhasher.HashSize / 8;
var files = db.SelectTestTargets(samples, m_options).ToList();
if (m_options.FullRemoteVerification)
{
foreach (var vol in new AsyncDownloader(files, backend))
{
var parsedInfo = Volumes.VolumeBase.ParseFilename(vol.Name);
try
{
if (m_results.TaskControlRendevouz() == TaskControlState.Stop)
{
backend.WaitForComplete(db, null);
return;
}
using (var tf = vol.TempFile)
{
if (parsedInfo.FileType == RemoteVolumeType.Files)
{
//Compare with db and see if all files are accounted for
// with correct file hashes and blocklist hashes
using (var fl = db.CreateFilelist(vol.Name))
{
using (var rd = new Volumes.FilesetVolumeReader(parsedInfo.CompressionModule, tf, m_options))
foreach (var f in rd.Files)
{
fl.Add(f.Path, f.Size, f.Hash, f.Metasize, f.Metahash, f.BlocklistHashes, f.Type, f.Time);
}
m_results.AddResult(vol.Name, fl.Compare().ToList());
}
}
else if (parsedInfo.FileType == RemoteVolumeType.Index)
{
var blocklinks = new List <Tuple <string, string, long> >();
IEnumerable <KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string> > combined = new KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string> [0];
//Compare with db and see that all hashes and volumes are listed
using (var rd = new Volumes.IndexVolumeReader(parsedInfo.CompressionModule, tf, m_options, hashsize))
foreach (var v in rd.Volumes)
{
blocklinks.Add(new Tuple <string, string, long>(v.Filename, v.Hash, v.Length));
using (var bl = db.CreateBlocklist(v.Filename))
{
foreach (var h in v.Blocks)
{
bl.AddBlock(h.Key, h.Value);
}
combined = combined.Union(bl.Compare().ToArray());
}
}
using (var il = db.CreateIndexlist(vol.Name))
{
foreach (var t in blocklinks)
{
il.AddBlockLink(t.Item1, t.Item2, t.Item3);
}
combined = combined.Union(il.Compare()).ToList();
}
m_results.AddResult(vol.Name, combined.ToList());
}
else if (parsedInfo.FileType == RemoteVolumeType.Blocks)
{
using (var bl = db.CreateBlocklist(vol.Name))
using (var rd = new Volumes.BlockVolumeReader(parsedInfo.CompressionModule, tf, m_options))
{
//Verify that all blocks are in the file
foreach (var b in rd.Blocks)
{
bl.AddBlock(b.Key, b.Value);
}
//Select 20% random blocks and verify their hashes match the filename and size
var hashsamples = new List <KeyValuePair <string, long> >(rd.Blocks);
var sampleCount = Math.Min(Math.Max(0, (int)(hashsamples.Count * 0.2)), hashsamples.Count - 1);
var rnd = new Random();
while (hashsamples.Count > sampleCount)
{
hashsamples.RemoveAt(rnd.Next(hashsamples.Count));
}
var blockbuffer = new byte[m_options.Blocksize];
var changes = new List <KeyValuePair <Library.Interface.TestEntryStatus, string> >();
foreach (var s in hashsamples)
{
var size = rd.ReadBlock(s.Key, blockbuffer);
if (size != s.Value)
{
changes.Add(new KeyValuePair <Library.Interface.TestEntryStatus, string>(Library.Interface.TestEntryStatus.Modified, s.Key));
}
else
{
var hash = Convert.ToBase64String(blockhasher.ComputeHash(blockbuffer, 0, size));
if (hash != s.Key)
{
changes.Add(new KeyValuePair <Library.Interface.TestEntryStatus, string>(Library.Interface.TestEntryStatus.Modified, s.Key));
}
}
}
m_results.AddResult(vol.Name, changes.Union(bl.Compare().ToList()));
}
}
}
db.UpdateVerificationCount(vol.Name);
}
catch (Exception ex)
{
m_results.AddResult(vol.Name, new KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string>[] { new KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string>(Duplicati.Library.Interface.TestEntryStatus.Error, ex.Message) });
m_results.AddError(string.Format("Failed to process file {0}", vol.Name), ex);
if (ex is System.Threading.ThreadAbortException)
{
throw;
}
}
}
}
else
{
foreach (var f in files)
{
try
{
if (m_results.TaskControlRendevouz() == TaskControlState.Stop)
{
return;
}
backend.GetForTesting(f.Name, f.Size, f.Hash);
db.UpdateVerificationCount(f.Name);
m_results.AddResult(f.Name, new KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string> [0]);
}
catch (Exception ex)
{
m_results.AddResult(f.Name, new KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string>[] { new KeyValuePair <Duplicati.Library.Interface.TestEntryStatus, string>(Duplicati.Library.Interface.TestEntryStatus.Error, ex.Message) });
m_results.AddError(string.Format("Failed to process file {0}", f.Name), ex);
if (ex is System.Threading.ThreadAbortException)
{
throw;
}
}
}
}
}
public void DoRun(long samples, LocalTestDatabase db, BackendManager backend)
{
var blockhasher = System.Security.Cryptography.HashAlgorithm.Create(m_options.BlockHashAlgorithm);
if (blockhasher == null)
throw new Exception(string.Format(Strings.Foresthash.InvalidHashAlgorithm, m_options.BlockHashAlgorithm));
if (!blockhasher.CanReuseTransform)
throw new Exception(string.Format(Strings.Foresthash.InvalidCryptoSystem, m_options.BlockHashAlgorithm));
var hashsize = blockhasher.HashSize / 8;
var files = db.SelectTestTargets(samples, m_options).ToList();
if (m_options.FullRemoteVerification)
{
foreach(var vol in new AsyncDownloader(files, backend))
{
var parsedInfo = Volumes.VolumeBase.ParseFilename(vol.Name);
try
{
if (m_results.TaskControlRendevouz() == TaskControlState.Stop)
{
backend.WaitForComplete(db, null);
return;
}
using(var tf = vol.TempFile)
{
if (parsedInfo.FileType == RemoteVolumeType.Files)
{
//Compare with db and see if all files are accounted for
// with correct file hashes and blocklist hashes
using(var fl = db.CreateFilelist(vol.Name))
{
using(var rd = new Volumes.FilesetVolumeReader(parsedInfo.CompressionModule, tf, m_options))
foreach(var f in rd.Files)
fl.Add(f.Path, f.Size, f.Hash, f.Metasize, f.Metahash, f.BlocklistHashes, f.Type, f.Time);
m_results.AddResult(vol.Name, fl.Compare().ToList());
}
}
else if (parsedInfo.FileType == RemoteVolumeType.Index)
{
var blocklinks = new List<Tuple<string, string, long>>();
IEnumerable<KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>> combined = new KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>[0];
//Compare with db and see that all hashes and volumes are listed
using(var rd = new Volumes.IndexVolumeReader(parsedInfo.CompressionModule, tf, m_options, hashsize))
foreach(var v in rd.Volumes)
{
blocklinks.Add(new Tuple<string, string, long>(v.Filename, v.Hash, v.Length));
using(var bl = db.CreateBlocklist(v.Filename))
{
foreach(var h in v.Blocks)
bl.AddBlock(h.Key, h.Value);
combined = combined.Union(bl.Compare().ToArray());
}
}
using(var il = db.CreateIndexlist(vol.Name))
{
foreach(var t in blocklinks)
il.AddBlockLink(t.Item1, t.Item2, t.Item3);
combined = combined.Union(il.Compare()).ToList();
}
m_results.AddResult(vol.Name, combined.ToList());
}
else if (parsedInfo.FileType == RemoteVolumeType.Blocks)
{
using(var bl = db.CreateBlocklist(vol.Name))
using(var rd = new Volumes.BlockVolumeReader(parsedInfo.CompressionModule, tf, m_options))
{
//Verify that all blocks are in the file
foreach(var b in rd.Blocks)
bl.AddBlock(b.Key, b.Value);
//Select 20% random blocks and verify their hashes match the filename and size
var hashsamples = new List<KeyValuePair<string, long>>(rd.Blocks);
var sampleCount = Math.Min(Math.Max(0, (int)(hashsamples.Count * 0.2)), hashsamples.Count - 1);
var rnd = new Random();
while (hashsamples.Count > sampleCount)
hashsamples.RemoveAt(rnd.Next(hashsamples.Count));
var blockbuffer = new byte[m_options.Blocksize];
var changes = new List<KeyValuePair<Library.Interface.TestEntryStatus, string>>();
foreach(var s in hashsamples)
{
var size = rd.ReadBlock(s.Key, blockbuffer);
if (size != s.Value)
changes.Add(new KeyValuePair<Library.Interface.TestEntryStatus, string>(Library.Interface.TestEntryStatus.Modified, s.Key));
else
{
var hash = Convert.ToBase64String(blockhasher.ComputeHash(blockbuffer, 0, size));
if (hash != s.Key)
changes.Add(new KeyValuePair<Library.Interface.TestEntryStatus, string>(Library.Interface.TestEntryStatus.Modified, s.Key));
}
}
m_results.AddResult(vol.Name, changes.Union(bl.Compare().ToList()));
}
}
}
db.UpdateVerificationCount(vol.Name);
}
catch (Exception ex)
{
m_results.AddResult(vol.Name, new KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>[] { new KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>(Duplicati.Library.Interface.TestEntryStatus.Error, ex.Message) });
m_results.AddError(string.Format("Failed to process file {0}", vol.Name), ex);
if (ex is System.Threading.ThreadAbortException)
throw;
}
}
}
else
{
foreach(var f in files)
{
try
{
if (m_results.TaskControlRendevouz() == TaskControlState.Stop)
return;
backend.GetForTesting(f.Name, f.Size, f.Hash);
db.UpdateVerificationCount(f.Name);
m_results.AddResult(f.Name, new KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>[0]);
}
catch (Exception ex)
{
m_results.AddResult(f.Name, new KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>[] { new KeyValuePair<Duplicati.Library.Interface.TestEntryStatus, string>(Duplicati.Library.Interface.TestEntryStatus.Error, ex.Message) });
m_results.AddError(string.Format("Failed to process file {0}", f.Name), ex);
if (ex is System.Threading.ThreadAbortException)
throw;
}
}
}
}
