/// <summary> /// Run the recreate procedure /// </summary> /// <param name="path">Path to the database that will be created</param> /// <param name="filelistfilter">A filter that can be used to disregard certain remote files, intended to be used to select a certain filelist</param> /// <param name="filenamefilter">Filters the files in a filelist to prevent downloading unwanted data</param> /// <param name="blockprocessor">A callback hook that can be used to work with downloaded block volumes, intended to be use to recover data blocks while processing blocklists</param> internal void DoRun(LocalDatabase dbparent, Library.Utility.IFilter filter = null, NumberedFilterFilelistDelegate filelistfilter = null, BlockVolumePostProcessor blockprocessor = null) { var hashalg = System.Security.Cryptography.HashAlgorithm.Create(m_options.BlockHashAlgorithm); if (hashalg == null) throw new Exception(string.Format(Strings.Foresthash.InvalidHashAlgorithm, m_options.BlockHashAlgorithm)); var hashsize = hashalg.HashSize / 8; //We build a local database in steps. using(var restoredb = new LocalRecreateDatabase(dbparent, m_options)) using(var backend = new BackendManager(m_backendurl, m_options, m_result.BackendWriter, restoredb)) { var volumeIds = new Dictionary<string, long>(); var rawlist = backend.List(); //First step is to examine the remote storage to see what // kind of data we can find var remotefiles = (from x in rawlist let n = VolumeBase.ParseFilename(x) where n != null && n.Prefix == m_options.Prefix select n).ToArray(); //ToArray() ensures that we do not remote-request it multiple times if (remotefiles.Length == 0) { if (rawlist.Count == 0) throw new Exception("No files were found at the remote location, perhaps the target url is incorrect?"); else { var tmp = (from x in rawlist let n = VolumeBase.ParseFilename(x) where n != null select n.Prefix).ToArray(); var types = tmp.Distinct().ToArray(); if (tmp.Length == 0) throw new Exception(string.Format("Found {0} files at the remote storage, but none that could be parsed", rawlist.Count)); else if (types.Length == 1) throw new Exception(string.Format("Found {0} parse-able files with the prefix {1}, did you forget to set the backup-prefix?", tmp.Length, types[0])); else throw new Exception(string.Format("Found {0} parse-able files (of {1} files) with different prefixes: {2}, did you forget to set the backup-prefix?", tmp.Length, rawlist.Count, string.Join(", ", types))); } } //Then we select the filelist we should work with, // and create the filelist table to fit IEnumerable<IParsedVolume> filelists = from n in remotefiles where n.FileType == RemoteVolumeType.Files orderby n.Time descending select n; if (filelistfilter != null) filelists = filelistfilter(filelists).Select(x => x.Value).ToArray(); foreach(var fl in remotefiles) volumeIds[fl.File.Name] = restoredb.RegisterRemoteVolume(fl.File.Name, fl.FileType, RemoteVolumeState.Uploaded); //Record all blocksets and files needed using(var tr = restoredb.BeginTransaction()) { var filelistWork = (from n in filelists orderby n.Time select new RemoteVolume(n.File) as IRemoteVolume).ToList(); foreach(var entry in new AsyncDownloader(filelistWork, backend)) try { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } using(var tmpfile = entry.TempFile) { if (entry.Hash != null && entry.Size > 0) restoredb.UpdateRemoteVolume(entry.Name, RemoteVolumeState.Verified, entry.Size, entry.Hash, tr); var parsed = VolumeBase.ParseFilename(entry.Name); // Create timestamped operations based on the file timestamp var filesetid = restoredb.CreateFileset(volumeIds[entry.Name], parsed.Time, tr); using(var filelistreader = new FilesetVolumeReader(parsed.CompressionModule, tmpfile, m_options)) foreach(var fe in filelistreader.Files.Where(x => Library.Utility.FilterExpression.Matches(filter, x.Path))) { try { if (fe.Type == FilelistEntryType.Folder) { restoredb.AddDirectoryEntry(filesetid, fe.Path, fe.Time, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else if (fe.Type == FilelistEntryType.File) { var blocksetid = restoredb.AddBlockset(fe.Hash, fe.Size, fe.BlocklistHashes, tr); restoredb.AddFileEntry(filesetid, fe.Path, fe.Time, blocksetid, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else if (fe.Type == FilelistEntryType.Symlink) { restoredb.AddSymlinkEntry(filesetid, fe.Path, fe.Time, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else { m_result.AddWarning(string.Format("Skipping file-entry with unknown type {0}: {1} ", fe.Type, fe.Path), null); } } catch (Exception ex) { m_result.AddWarning(string.Format("Failed to process file-entry: {0}", fe.Path), ex); } } } } catch (Exception ex) { m_result.AddWarning(string.Format("Failed to process file: {0}", entry.Name), ex); if (ex is System.Threading.ThreadAbortException) throw; } using(new Logging.Timer("CommitUpdateFilesetFromRemote")) tr.Commit(); } //Grab all index files, and update the block table using(var tr = restoredb.BeginTransaction()) { var indexfiles = from n in remotefiles where n.FileType == RemoteVolumeType.Index select new RemoteVolume(n.File) as IRemoteVolume; foreach(var sf in new AsyncDownloader(indexfiles.ToList(), backend)) try { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } using(var tmpfile = sf.TempFile) { if (sf.Hash != null && sf.Size > 0) restoredb.UpdateRemoteVolume(sf.Name, RemoteVolumeState.Verified, sf.Size, sf.Hash, tr); using(var svr = new IndexVolumeReader(RestoreHandler.GetCompressionModule(sf.Name), tmpfile, m_options, hashsize)) { Utility.VerifyParameters(restoredb, m_options); foreach(var a in svr.Volumes) { var volumeID = restoredb.GetRemoteVolumeID(a.Filename); //Add all block/volume mappings foreach(var b in a.Blocks) restoredb.UpdateBlock(b.Key, b.Value, volumeID, tr); restoredb.UpdateRemoteVolume(a.Filename, RemoteVolumeState.Verified, a.Length, a.Hash, tr); restoredb.AddIndexBlockLink(restoredb.GetRemoteVolumeID(sf.Name), volumeID, tr); } //If there are blocklists in the index file, update the blocklists foreach(var b in svr.BlockLists) restoredb.UpdateBlockset(b.Hash, b.Blocklist, tr); } } } catch (Exception ex) { //Not fatal m_result.AddWarning(string.Format("Failed to process index file: {0}", sf.Name), ex); if (ex is System.Threading.ThreadAbortException) throw; } using(new Logging.Timer("CommitRecreatedDb")) tr.Commit(); // TODO: In some cases, we can avoid downloading all index files, // if we are lucky and pick the right ones } // We have now grabbed as much information as possible, // if we are still missing data, we must now fetch block files restoredb.FindMissingBlocklistHashes(hashsize, null); //We do this in three passes for(var i = 0; i < 3; i++) { // Grab the list matching the pass type var lst = restoredb.GetMissingBlockListVolumes(i).ToList(); foreach (var sf in new AsyncDownloader(lst, backend)) using (var tmpfile = sf.TempFile) using (var rd = new BlockVolumeReader(RestoreHandler.GetCompressionModule(sf.Name), tmpfile, m_options)) using (var tr = restoredb.BeginTransaction()) { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } var volumeid = restoredb.GetRemoteVolumeID(sf.Name); // Update the block table so we know about the block/volume map foreach(var h in rd.Blocks) restoredb.UpdateBlock(h.Key, h.Value, volumeid, tr); // Grab all known blocklists from the volume foreach (var blocklisthash in restoredb.GetBlockLists(volumeid)) restoredb.UpdateBlockset(blocklisthash, rd.ReadBlocklist(blocklisthash, hashsize), tr); // Update tables so we know if we are done restoredb.FindMissingBlocklistHashes(hashsize, tr); using(new Logging.Timer("CommitRestoredBlocklist")) tr.Commit(); //At this point we can patch files with data from the block volume if (blockprocessor != null) blockprocessor(sf.Name, rd); } } backend.WaitForComplete(restoredb, null); //All done, we must verify that we have all blocklist fully intact // if this fails, the db will not be deleted, so it can be used, // except to continue a backup restoredb.VerifyConsistency(null); } }
/// <summary> /// Run the recreate procedure /// </summary> /// <param name="dbparent">The database to restore into</param> /// <param name="updating">True if this is an update call, false otherwise</param> /// <param name="filter">A filter that can be used to disregard certain remote files, intended to be used to select a certain filelist</param> /// <param name="filenamefilter">Filters the files in a filelist to prevent downloading unwanted data</param> /// <param name="blockprocessor">A callback hook that can be used to work with downloaded block volumes, intended to be use to recover data blocks while processing blocklists</param> internal void DoRun(LocalDatabase dbparent, bool updating, Library.Utility.IFilter filter = null, NumberedFilterFilelistDelegate filelistfilter = null, BlockVolumePostProcessor blockprocessor = null) { m_result.OperationProgressUpdater.UpdatePhase(OperationPhase.Recreate_Running); //We build a local database in steps. using (var restoredb = new LocalRecreateDatabase(dbparent, m_options)) using (var backend = new BackendManager(m_backendurl, m_options, m_result.BackendWriter, restoredb)) { var volumeIds = new Dictionary <string, long>(); var rawlist = backend.List(); //First step is to examine the remote storage to see what // kind of data we can find var remotefiles = (from x in rawlist let n = VolumeBase.ParseFilename(x) where n != null && n.Prefix == m_options.Prefix select n).ToArray(); //ToArray() ensures that we do not remote-request it multiple times if (remotefiles.Length == 0) { if (rawlist.Count == 0) { throw new Exception("No files were found at the remote location, perhaps the target url is incorrect?"); } else { var tmp = (from x in rawlist let n = VolumeBase.ParseFilename(x) where n != null select n.Prefix).ToArray(); var types = tmp.Distinct().ToArray(); if (tmp.Length == 0) { throw new Exception(string.Format("Found {0} files at the remote storage, but none that could be parsed", rawlist.Count)); } else if (types.Length == 1) { throw new Exception(string.Format("Found {0} parse-able files with the prefix {1}, did you forget to set the backup-prefix?", tmp.Length, types[0])); } else { throw new Exception(string.Format("Found {0} parse-able files (of {1} files) with different prefixes: {2}, did you forget to set the backup-prefix?", tmp.Length, rawlist.Count, string.Join(", ", types))); } } } //Then we select the filelist we should work with, // and create the filelist table to fit IEnumerable <IParsedVolume> filelists = from n in remotefiles where n.FileType == RemoteVolumeType.Files orderby n.Time descending select n; if (filelists.Count() <= 0) { throw new Exception(string.Format("No filelists found on the remote destination")); } if (filelistfilter != null) { filelists = filelistfilter(filelists).Select(x => x.Value).ToArray(); } if (filelists.Count() <= 0) { throw new Exception(string.Format("No filelists")); } // If we are updating, all files should be accounted for foreach (var fl in remotefiles) { volumeIds[fl.File.Name] = updating ? restoredb.GetRemoteVolumeID(fl.File.Name) : restoredb.RegisterRemoteVolume(fl.File.Name, fl.FileType, fl.File.Size, RemoteVolumeState.Uploaded); } var hasUpdatedOptions = false; if (updating) { Utility.UpdateOptionsFromDb(restoredb, m_options); Utility.VerifyParameters(restoredb, m_options); } //Record all blocksets and files needed using (var tr = restoredb.BeginTransaction()) { var filelistWork = (from n in filelists orderby n.Time select new RemoteVolume(n.File) as IRemoteVolume).ToList(); var progress = 0; // Register the files we are working with, if not already updated if (updating) { foreach (var n in filelists) { if (volumeIds[n.File.Name] == -1) { volumeIds[n.File.Name] = restoredb.RegisterRemoteVolume(n.File.Name, n.FileType, RemoteVolumeState.Uploaded, n.File.Size, new TimeSpan(0), tr); } } } foreach (var entry in new AsyncDownloader(filelistWork, backend)) { try { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } progress++; if (filelistWork.Count == 1 && m_options.RepairOnlyPaths) { m_result.OperationProgressUpdater.UpdateProgress(0.5f); } else { m_result.OperationProgressUpdater.UpdateProgress(((float)progress / filelistWork.Count()) * (m_options.RepairOnlyPaths ? 1f : 0.2f)); } using (var tmpfile = entry.TempFile) { if (entry.Hash != null && entry.Size > 0) { restoredb.UpdateRemoteVolume(entry.Name, RemoteVolumeState.Verified, entry.Size, entry.Hash, tr); } var parsed = VolumeBase.ParseFilename(entry.Name); if (!hasUpdatedOptions && !updating) { VolumeReaderBase.UpdateOptionsFromManifest(parsed.CompressionModule, tmpfile, m_options); hasUpdatedOptions = true; } // Create timestamped operations based on the file timestamp var filesetid = restoredb.CreateFileset(volumeIds[entry.Name], parsed.Time, tr); using (var filelistreader = new FilesetVolumeReader(parsed.CompressionModule, tmpfile, m_options)) foreach (var fe in filelistreader.Files.Where(x => Library.Utility.FilterExpression.Matches(filter, x.Path))) { try { if (fe.Type == FilelistEntryType.Folder) { restoredb.AddDirectoryEntry(filesetid, fe.Path, fe.Time, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else if (fe.Type == FilelistEntryType.File) { var blocksetid = restoredb.AddBlockset(fe.Hash, fe.Size, fe.BlocklistHashes, tr); restoredb.AddFileEntry(filesetid, fe.Path, fe.Time, blocksetid, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else if (fe.Type == FilelistEntryType.Symlink) { restoredb.AddSymlinkEntry(filesetid, fe.Path, fe.Time, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else { m_result.AddWarning(string.Format("Skipping file-entry with unknown type {0}: {1} ", fe.Type, fe.Path), null); } } catch (Exception ex) { m_result.AddWarning(string.Format("Failed to process file-entry: {0}", fe.Path), ex); } } } } catch (Exception ex) { m_result.AddWarning(string.Format("Failed to process file: {0}", entry.Name), ex); if (ex is System.Threading.ThreadAbortException) { throw; } } } //Make sure we write the config if (!updating) { Utility.VerifyParameters(restoredb, m_options, tr); } using (new Logging.Timer("CommitUpdateFilesetFromRemote")) tr.Commit(); } if (!m_options.RepairOnlyPaths) { var hashalg = System.Security.Cryptography.HashAlgorithm.Create(m_options.BlockHashAlgorithm); if (hashalg == null) { throw new Exception(Strings.Foresthash.InvalidHashAlgorithm(m_options.BlockHashAlgorithm)); } var hashsize = hashalg.HashSize / 8; //Grab all index files, and update the block table using (var tr = restoredb.BeginTransaction()) { var indexfiles = ( from n in remotefiles where n.FileType == RemoteVolumeType.Index select new RemoteVolume(n.File) as IRemoteVolume).ToList(); var progress = 0; foreach (var sf in new AsyncDownloader(indexfiles, backend)) { try { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } progress++; m_result.OperationProgressUpdater.UpdateProgress((((float)progress / indexfiles.Count) * 0.5f) + 0.2f); using (var tmpfile = sf.TempFile) { if (sf.Hash != null && sf.Size > 0) { restoredb.UpdateRemoteVolume(sf.Name, RemoteVolumeState.Verified, sf.Size, sf.Hash, tr); } using (var svr = new IndexVolumeReader(RestoreHandler.GetCompressionModule(sf.Name), tmpfile, m_options, hashsize)) { foreach (var a in svr.Volumes) { var filename = a.Filename; var volumeID = restoredb.GetRemoteVolumeID(filename); // No such file if (volumeID < 0) { volumeID = ProbeForMatchingFilename(ref filename, restoredb); } // Still broken, register a missing item if (volumeID < 0) { var p = VolumeBase.ParseFilename(filename); if (p == null) { throw new Exception(string.Format("Unable to parse filename: {0}", filename)); } m_result.AddError(string.Format("Remote file referenced as {0}, but not found in list, registering a missing remote file", filename), null); volumeID = restoredb.RegisterRemoteVolume(filename, p.FileType, RemoteVolumeState.Verified, tr); } //Add all block/volume mappings foreach (var b in a.Blocks) { restoredb.UpdateBlock(b.Key, b.Value, volumeID, tr); } restoredb.UpdateRemoteVolume(filename, RemoteVolumeState.Verified, a.Length, a.Hash, tr); restoredb.AddIndexBlockLink(restoredb.GetRemoteVolumeID(sf.Name), volumeID, tr); } //If there are blocklists in the index file, update the blocklists foreach (var b in svr.BlockLists) { restoredb.UpdateBlockset(b.Hash, b.Blocklist, tr); } } } } catch (Exception ex) { //Not fatal m_result.AddWarning(string.Format("Failed to process index file: {0}", sf.Name), ex); if (ex is System.Threading.ThreadAbortException) { throw; } } } using (new Logging.Timer("CommitRecreatedDb")) tr.Commit(); // TODO: In some cases, we can avoid downloading all index files, // if we are lucky and pick the right ones } // We have now grabbed as much information as possible, // if we are still missing data, we must now fetch block files restoredb.FindMissingBlocklistHashes(hashsize, m_options.Blocksize, null); //We do this in three passes for (var i = 0; i < 3; i++) { // Grab the list matching the pass type var lst = restoredb.GetMissingBlockListVolumes(i).ToList(); if (lst.Count > 0) { switch (i) { case 0: if (m_options.Verbose) { m_result.AddVerboseMessage("Processing required {0} blocklist volumes: {1}", lst.Count, string.Join(", ", lst.Select(x => x.Name))); } else { m_result.AddMessage(string.Format("Processing required {0} blocklist volumes", lst.Count)); } break; case 1: if (m_options.Verbose) { m_result.AddVerboseMessage("Probing {0} candidate blocklist volumes: {1}", lst.Count, string.Join(", ", lst.Select(x => x.Name))); } else { m_result.AddMessage(string.Format("Probing {0} candidate blocklist volumes", lst.Count)); } break; default: if (m_options.Verbose) { m_result.AddVerboseMessage("Processing all of the {0} volumes for blocklists: {1}", lst.Count, string.Join(", ", lst.Select(x => x.Name))); } else { m_result.AddMessage(string.Format("Processing all of the {0} volumes for blocklists", lst.Count)); } break; } } var progress = 0; foreach (var sf in new AsyncDownloader(lst, backend)) { using (var tmpfile = sf.TempFile) using (var rd = new BlockVolumeReader(RestoreHandler.GetCompressionModule(sf.Name), tmpfile, m_options)) using (var tr = restoredb.BeginTransaction()) { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } progress++; m_result.OperationProgressUpdater.UpdateProgress((((float)progress / lst.Count) * 0.1f) + 0.7f + (i * 0.1f)); var volumeid = restoredb.GetRemoteVolumeID(sf.Name); restoredb.UpdateRemoteVolume(sf.Name, RemoteVolumeState.Uploaded, sf.Size, sf.Hash, tr); // Update the block table so we know about the block/volume map foreach (var h in rd.Blocks) { restoredb.UpdateBlock(h.Key, h.Value, volumeid, tr); } // Grab all known blocklists from the volume foreach (var blocklisthash in restoredb.GetBlockLists(volumeid)) { restoredb.UpdateBlockset(blocklisthash, rd.ReadBlocklist(blocklisthash, hashsize), tr); } // Update tables so we know if we are done restoredb.FindMissingBlocklistHashes(hashsize, m_options.Blocksize, tr); using (new Logging.Timer("CommitRestoredBlocklist")) tr.Commit(); //At this point we can patch files with data from the block volume if (blockprocessor != null) { blockprocessor(sf.Name, rd); } } } } } backend.WaitForComplete(restoredb, null); //All done, we must verify that we have all blocklist fully intact // if this fails, the db will not be deleted, so it can be used, // except to continue a backup restoredb.VerifyConsistency(null, m_options.Blocksize, m_options.BlockhashSize); } }
/// <summary> /// Run the recreate procedure /// </summary> /// <param name="dbparent">The database to restore into</param> /// <param name="updating">True if this is an update call, false otherwise</param> /// <param name="filter">A filter that can be used to disregard certain remote files, intended to be used to select a certain filelist</param> /// <param name="filenamefilter">Filters the files in a filelist to prevent downloading unwanted data</param> /// <param name="blockprocessor">A callback hook that can be used to work with downloaded block volumes, intended to be use to recover data blocks while processing blocklists</param> internal void DoRun(LocalDatabase dbparent, bool updating, Library.Utility.IFilter filter = null, NumberedFilterFilelistDelegate filelistfilter = null, BlockVolumePostProcessor blockprocessor = null) { m_result.OperationProgressUpdater.UpdatePhase(OperationPhase.Recreate_Running); //We build a local database in steps. using(var restoredb = new LocalRecreateDatabase(dbparent, m_options)) using(var backend = new BackendManager(m_backendurl, m_options, m_result.BackendWriter, restoredb)) { restoredb.RepairInProgress = true; var volumeIds = new Dictionary<string, long>(); var rawlist = backend.List(); //First step is to examine the remote storage to see what // kind of data we can find var remotefiles = (from x in rawlist let n = VolumeBase.ParseFilename(x) where n != null && n.Prefix == m_options.Prefix select n).ToArray(); //ToArray() ensures that we do not remote-request it multiple times if (remotefiles.Length == 0) { if (rawlist.Count == 0) throw new Exception("No files were found at the remote location, perhaps the target url is incorrect?"); else { var tmp = (from x in rawlist let n = VolumeBase.ParseFilename(x) where n != null select n.Prefix).ToArray(); var types = tmp.Distinct().ToArray(); if (tmp.Length == 0) throw new Exception(string.Format("Found {0} files at the remote storage, but none that could be parsed", rawlist.Count)); else if (types.Length == 1) throw new Exception(string.Format("Found {0} parse-able files with the prefix {1}, did you forget to set the backup-prefix?", tmp.Length, types[0])); else throw new Exception(string.Format("Found {0} parse-able files (of {1} files) with different prefixes: {2}, did you forget to set the backup-prefix?", tmp.Length, rawlist.Count, string.Join(", ", types))); } } //Then we select the filelist we should work with, // and create the filelist table to fit IEnumerable<IParsedVolume> filelists = from n in remotefiles where n.FileType == RemoteVolumeType.Files orderby n.Time descending select n; if (filelists.Count() <= 0) throw new Exception(string.Format("No filelists found on the remote destination")); if (filelistfilter != null) filelists = filelistfilter(filelists).Select(x => x.Value).ToArray(); if (filelists.Count() <= 0) throw new Exception(string.Format("No filelists")); // If we are updating, all files should be accounted for foreach(var fl in remotefiles) volumeIds[fl.File.Name] = updating ? restoredb.GetRemoteVolumeID(fl.File.Name) : restoredb.RegisterRemoteVolume(fl.File.Name, fl.FileType, fl.File.Size, RemoteVolumeState.Uploaded); var hasUpdatedOptions = false; if (updating) { Utility.UpdateOptionsFromDb(restoredb, m_options); Utility.VerifyParameters(restoredb, m_options); } //Record all blocksets and files needed using(var tr = restoredb.BeginTransaction()) { var filelistWork = (from n in filelists orderby n.Time select new RemoteVolume(n.File) as IRemoteVolume).ToList(); m_result.AddMessage(string.Format("Rebuild database started, downloading {0} filelists", filelistWork.Count)); var progress = 0; // Register the files we are working with, if not already updated if (updating) { foreach(var n in filelists) if (volumeIds[n.File.Name] == -1) volumeIds[n.File.Name] = restoredb.RegisterRemoteVolume(n.File.Name, n.FileType, RemoteVolumeState.Uploaded, n.File.Size, new TimeSpan(0), tr); } var isFirstFilelist = true; var blocksize = m_options.Blocksize; var hashes_pr_block = blocksize / m_options.BlockhashSize; foreach(var entry in new AsyncDownloader(filelistWork, backend)) try { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } progress++; if (filelistWork.Count == 1 && m_options.RepairOnlyPaths) m_result.OperationProgressUpdater.UpdateProgress(0.5f); else m_result.OperationProgressUpdater.UpdateProgress(((float)progress / filelistWork.Count()) * (m_options.RepairOnlyPaths ? 1f : 0.2f)); using(var tmpfile = entry.TempFile) { isFirstFilelist = false; if (entry.Hash != null && entry.Size > 0) restoredb.UpdateRemoteVolume(entry.Name, RemoteVolumeState.Verified, entry.Size, entry.Hash, tr); var parsed = VolumeBase.ParseFilename(entry.Name); if (!hasUpdatedOptions && !updating) { VolumeReaderBase.UpdateOptionsFromManifest(parsed.CompressionModule, tmpfile, m_options); hasUpdatedOptions = true; // Recompute the cached sizes blocksize = m_options.Blocksize; hashes_pr_block = blocksize / m_options.BlockhashSize; } // Create timestamped operations based on the file timestamp var filesetid = restoredb.CreateFileset(volumeIds[entry.Name], parsed.Time, tr); using(var filelistreader = new FilesetVolumeReader(parsed.CompressionModule, tmpfile, m_options)) foreach(var fe in filelistreader.Files.Where(x => Library.Utility.FilterExpression.Matches(filter, x.Path))) { try { if (fe.Type == FilelistEntryType.Folder) { restoredb.AddDirectoryEntry(filesetid, fe.Path, fe.Time, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else if (fe.Type == FilelistEntryType.File) { var expectedblocks = (fe.Size + blocksize - 1) / blocksize; var expectedblocklisthashes = (expectedblocks + hashes_pr_block - 1) / hashes_pr_block; if (expectedblocks <= 1) expectedblocklisthashes = 0; var blocksetid = restoredb.AddBlockset(fe.Hash, fe.Size, fe.BlocklistHashes, expectedblocklisthashes, tr); restoredb.AddFileEntry(filesetid, fe.Path, fe.Time, blocksetid, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else if (fe.Type == FilelistEntryType.Symlink) { restoredb.AddSymlinkEntry(filesetid, fe.Path, fe.Time, fe.Metahash, fe.Metahash == null ? -1 : fe.Metasize, tr); } else { m_result.AddWarning(string.Format("Skipping file-entry with unknown type {0}: {1} ", fe.Type, fe.Path), null); } } catch (Exception ex) { m_result.AddWarning(string.Format("Failed to process file-entry: {0}", fe.Path), ex); } } } } catch (Exception ex) { m_result.AddWarning(string.Format("Failed to process file: {0}", entry.Name), ex); if (ex is System.Threading.ThreadAbortException) throw; if (isFirstFilelist && ex is System.Security.Cryptography.CryptographicException) throw; } //Make sure we write the config if (!updating) Utility.VerifyParameters(restoredb, m_options, tr); using(new Logging.Timer("CommitUpdateFilesetFromRemote")) tr.Commit(); } if (!m_options.RepairOnlyPaths) { var hashalg = System.Security.Cryptography.HashAlgorithm.Create(m_options.BlockHashAlgorithm); if (hashalg == null) throw new Exception(Strings.Common.InvalidHashAlgorithm(m_options.BlockHashAlgorithm)); var hashsize = hashalg.HashSize / 8; //Grab all index files, and update the block table using(var tr = restoredb.BeginTransaction()) { var indexfiles = ( from n in remotefiles where n.FileType == RemoteVolumeType.Index select new RemoteVolume(n.File) as IRemoteVolume).ToList(); m_result.AddMessage(string.Format("Filelists restored, downloading {0} index files", indexfiles.Count)); var progress = 0; foreach(var sf in new AsyncDownloader(indexfiles, backend)) try { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } progress++; m_result.OperationProgressUpdater.UpdateProgress((((float)progress / indexfiles.Count) * 0.5f) + 0.2f); using(var tmpfile = sf.TempFile) { if (sf.Hash != null && sf.Size > 0) restoredb.UpdateRemoteVolume(sf.Name, RemoteVolumeState.Verified, sf.Size, sf.Hash, tr); using(var svr = new IndexVolumeReader(RestoreHandler.GetCompressionModule(sf.Name), tmpfile, m_options, hashsize)) { foreach(var a in svr.Volumes) { var filename = a.Filename; var volumeID = restoredb.GetRemoteVolumeID(filename); // No such file if (volumeID < 0) volumeID = ProbeForMatchingFilename(ref filename, restoredb); // Still broken, register a missing item if (volumeID < 0) { var p = VolumeBase.ParseFilename(filename); if (p == null) throw new Exception(string.Format("Unable to parse filename: {0}", filename)); m_result.AddError(string.Format("Remote file referenced as {0}, but not found in list, registering a missing remote file", filename), null); volumeID = restoredb.RegisterRemoteVolume(filename, p.FileType, RemoteVolumeState.Verified, tr); } //Add all block/volume mappings foreach(var b in a.Blocks) restoredb.UpdateBlock(b.Key, b.Value, volumeID, tr); restoredb.UpdateRemoteVolume(filename, RemoteVolumeState.Verified, a.Length, a.Hash, tr); restoredb.AddIndexBlockLink(restoredb.GetRemoteVolumeID(sf.Name), volumeID, tr); } //If there are blocklists in the index file, update the blocklists foreach(var b in svr.BlockLists) restoredb.UpdateBlockset(b.Hash, b.Blocklist, tr); } } } catch (Exception ex) { //Not fatal m_result.AddWarning(string.Format("Failed to process index file: {0}", sf.Name), ex); if (ex is System.Threading.ThreadAbortException) throw; } using(new Logging.Timer("CommitRecreatedDb")) tr.Commit(); // TODO: In some cases, we can avoid downloading all index files, // if we are lucky and pick the right ones } // We have now grabbed as much information as possible, // if we are still missing data, we must now fetch block files restoredb.FindMissingBlocklistHashes(hashsize, m_options.Blocksize, null); //We do this in three passes for(var i = 0; i < 3; i++) { // Grab the list matching the pass type var lst = restoredb.GetMissingBlockListVolumes(i, m_options.Blocksize, hashsize).ToList(); if (lst.Count > 0) { switch (i) { case 0: if (m_options.Verbose) m_result.AddVerboseMessage("Processing required {0} blocklist volumes: {1}", lst.Count, string.Join(", ", lst.Select(x => x.Name))); else m_result.AddMessage(string.Format("Processing required {0} blocklist volumes", lst.Count)); break; case 1: if (m_options.Verbose) m_result.AddVerboseMessage("Probing {0} candidate blocklist volumes: {1}", lst.Count, string.Join(", ", lst.Select(x => x.Name))); else m_result.AddMessage(string.Format("Probing {0} candidate blocklist volumes", lst.Count)); break; default: if (m_options.Verbose) m_result.AddVerboseMessage("Processing all of the {0} volumes for blocklists: {1}", lst.Count, string.Join(", ", lst.Select(x => x.Name))); else m_result.AddMessage(string.Format("Processing all of the {0} volumes for blocklists", lst.Count)); break; } } var progress = 0; foreach(var sf in new AsyncDownloader(lst, backend)) using(var tmpfile = sf.TempFile) using(var rd = new BlockVolumeReader(RestoreHandler.GetCompressionModule(sf.Name), tmpfile, m_options)) using(var tr = restoredb.BeginTransaction()) { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); return; } progress++; m_result.OperationProgressUpdater.UpdateProgress((((float)progress / lst.Count) * 0.1f) + 0.7f + (i * 0.1f)); var volumeid = restoredb.GetRemoteVolumeID(sf.Name); restoredb.UpdateRemoteVolume(sf.Name, RemoteVolumeState.Uploaded, sf.Size, sf.Hash, tr); // Update the block table so we know about the block/volume map foreach(var h in rd.Blocks) restoredb.UpdateBlock(h.Key, h.Value, volumeid, tr); // Grab all known blocklists from the volume foreach(var blocklisthash in restoredb.GetBlockLists(volumeid)) restoredb.UpdateBlockset(blocklisthash, rd.ReadBlocklist(blocklisthash, hashsize), tr); // Update tables so we know if we are done restoredb.FindMissingBlocklistHashes(hashsize, m_options.Blocksize, tr); using(new Logging.Timer("CommitRestoredBlocklist")) tr.Commit(); //At this point we can patch files with data from the block volume if (blockprocessor != null) blockprocessor(sf.Name, rd); } } } backend.WaitForComplete(restoredb, null); m_result.AddMessage("Recreate completed, verifying the database consistency"); //All done, we must verify that we have all blocklist fully intact // if this fails, the db will not be deleted, so it can be used, // except to continue a backup restoredb.VerifyConsistency(null, m_options.Blocksize, m_options.BlockhashSize); m_result.AddMessage("Recreate completed, and consistency checks completed, marking database as complete"); restoredb.RepairInProgress = false; } }
/// <summary> /// Run the recreate procedure /// </summary> /// <param name="dbparent">The database to restore into</param> /// <param name="updating">True if this is an update call, false otherwise</param> /// <param name="filter">A filter that can be used to disregard certain remote files, intended to be used to select a certain filelist</param> /// <param name="filelistfilter">Filters the files in a filelist to prevent downloading unwanted data</param> /// <param name="blockprocessor">A callback hook that can be used to work with downloaded block volumes, intended to be use to recover data blocks while processing blocklists</param> internal void DoRun(LocalDatabase dbparent, bool updating, Library.Utility.IFilter filter = null, NumberedFilterFilelistDelegate filelistfilter = null, BlockVolumePostProcessor blockprocessor = null) { m_result.OperationProgressUpdater.UpdatePhase(OperationPhase.Recreate_Running); //We build a local database in steps. using (var restoredb = new LocalRecreateDatabase(dbparent, m_options)) using (var backend = new BackendManager(m_backendurl, m_options, m_result.BackendWriter, restoredb)) { restoredb.RepairInProgress = true; var autoDetectBlockSize = !(m_options.HasBlocksize && restoredb.GetDbOptions().ContainsKey("blocksize")); var volumeIds = new Dictionary <string, long>(); var rawlist = backend.List(); //First step is to examine the remote storage to see what // kind of data we can find var remotefiles = (from x in rawlist let n = VolumeBase.ParseFilename(x) where n != null && n.Prefix == m_options.Prefix select n).ToArray(); //ToArray() ensures that we do not remote-request it multiple times if (remotefiles.Length == 0) { if (rawlist.Count == 0) { throw new UserInformationException("No files were found at the remote location, perhaps the target url is incorrect?", "EmptyRemoteLocation"); } else { var tmp = (from x in rawlist let n = VolumeBase.ParseFilename(x) where n != null select n.Prefix).ToArray(); var types = tmp.Distinct().ToArray(); if (tmp.Length == 0) { throw new UserInformationException(string.Format("Found {0} files at the remote storage, but none that could be parsed", rawlist.Count), "EmptyRemoteLocation"); } else if (types.Length == 1) { throw new UserInformationException(string.Format("Found {0} parse-able files with the prefix {1}, did you forget to set the backup prefix?", tmp.Length, types[0]), "EmptyRemoteLocationWithPrefix"); } else { throw new UserInformationException(string.Format("Found {0} parse-able files (of {1} files) with different prefixes: {2}, did you forget to set the backup prefix?", tmp.Length, rawlist.Count, string.Join(", ", types)), "EmptyRemoteLocationWithPrefix"); } } } //Then we select the filelist we should work with, // and create the filelist table to fit IEnumerable <IParsedVolume> filelists = from n in remotefiles where n.FileType == RemoteVolumeType.Files orderby n.Time descending select n; if (filelists.Count() <= 0) { throw new UserInformationException("No filelists found on the remote destination", "EmptyRemoteLocation"); } if (filelistfilter != null) { filelists = filelistfilter(filelists).Select(x => x.Value).ToArray(); } if (filelists.Count() <= 0) { throw new UserInformationException("No filelists", "NoMatchingRemoteFilelists"); } // If we are updating, all files should be accounted for foreach (var fl in remotefiles) { volumeIds[fl.File.Name] = updating ? restoredb.GetRemoteVolumeID(fl.File.Name) : restoredb.RegisterRemoteVolume(fl.File.Name, fl.FileType, fl.File.Size, RemoteVolumeState.Uploaded); } var hasUpdatedOptions = false; if (updating) { Utility.UpdateOptionsFromDb(restoredb, m_options); Utility.VerifyParameters(restoredb, m_options); } //Record all blocksets and files needed using (var tr = restoredb.BeginTransaction()) { var filelistWork = (from n in filelists orderby n.Time select new RemoteVolume(n.File) as IRemoteVolume).ToList(); Logging.Log.WriteInformationMessage(LOGTAG, "RebuildStarted", "Rebuild database started, downloading {0} filelists", filelistWork.Count); var progress = 0; // Register the files we are working with, if not already updated if (updating) { foreach (var n in filelists) { if (volumeIds[n.File.Name] == -1) { volumeIds[n.File.Name] = restoredb.RegisterRemoteVolume(n.File.Name, n.FileType, RemoteVolumeState.Uploaded, n.File.Size, new TimeSpan(0), tr); } } } var isFirstFilelist = true; var blocksize = m_options.Blocksize; var hashes_pr_block = blocksize / m_options.BlockhashSize; foreach (var entry in new AsyncDownloader(filelistWork, backend)) { try { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); m_result.EndTime = DateTime.UtcNow; return; } progress++; if (filelistWork.Count == 1 && m_options.RepairOnlyPaths) { m_result.OperationProgressUpdater.UpdateProgress(0.5f); } else { m_result.OperationProgressUpdater.UpdateProgress(((float)progress / filelistWork.Count()) * (m_options.RepairOnlyPaths ? 1f : 0.2f)); } using (var tmpfile = entry.TempFile) { isFirstFilelist = false; if (entry.Hash != null && entry.Size > 0) { restoredb.UpdateRemoteVolume(entry.Name, RemoteVolumeState.Verified, entry.Size, entry.Hash, tr); } var parsed = VolumeBase.ParseFilename(entry.Name); if (!hasUpdatedOptions && (!updating || autoDetectBlockSize)) { VolumeReaderBase.UpdateOptionsFromManifest(parsed.CompressionModule, tmpfile, m_options); hasUpdatedOptions = true; // Recompute the cached sizes blocksize = m_options.Blocksize; hashes_pr_block = blocksize / m_options.BlockhashSize; } // Create timestamped operations based on the file timestamp var filesetid = restoredb.CreateFileset(volumeIds[entry.Name], parsed.Time, tr); using (var filelistreader = new FilesetVolumeReader(parsed.CompressionModule, tmpfile, m_options)) foreach (var fe in filelistreader.Files.Where(x => Library.Utility.FilterExpression.Matches(filter, x.Path))) { try { var expectedmetablocks = (fe.Metasize + blocksize - 1) / blocksize; var expectedmetablocklisthashes = (expectedmetablocks + hashes_pr_block - 1) / hashes_pr_block; if (expectedmetablocks <= 1) { expectedmetablocklisthashes = 0; } var metadataid = long.MinValue; switch (fe.Type) { case FilelistEntryType.Folder: metadataid = restoredb.AddMetadataset(fe.Metahash, fe.Metasize, fe.MetaBlocklistHashes, expectedmetablocklisthashes, tr); restoredb.AddDirectoryEntry(filesetid, fe.Path, fe.Time, metadataid, tr); break; case FilelistEntryType.File: var expectedblocks = (fe.Size + blocksize - 1) / blocksize; var expectedblocklisthashes = (expectedblocks + hashes_pr_block - 1) / hashes_pr_block; if (expectedblocks <= 1) { expectedblocklisthashes = 0; } var blocksetid = restoredb.AddBlockset(fe.Hash, fe.Size, fe.BlocklistHashes, expectedblocklisthashes, tr); metadataid = restoredb.AddMetadataset(fe.Metahash, fe.Metasize, fe.MetaBlocklistHashes, expectedmetablocklisthashes, tr); restoredb.AddFileEntry(filesetid, fe.Path, fe.Time, blocksetid, metadataid, tr); if (fe.Size <= blocksize) { if (!string.IsNullOrWhiteSpace(fe.Blockhash)) { restoredb.AddSmallBlocksetLink(fe.Hash, fe.Blockhash, fe.Blocksize, tr); } else if (m_options.BlockHashAlgorithm == m_options.FileHashAlgorithm) { restoredb.AddSmallBlocksetLink(fe.Hash, fe.Hash, fe.Size, tr); } else { Logging.Log.WriteWarningMessage(LOGTAG, "MissingBlockHash", null, "No block hash found for file: {0}", fe.Path); } } break; case FilelistEntryType.Symlink: metadataid = restoredb.AddMetadataset(fe.Metahash, fe.Metasize, fe.MetaBlocklistHashes, expectedmetablocklisthashes, tr); restoredb.AddSymlinkEntry(filesetid, fe.Path, fe.Time, metadataid, tr); break; default: Logging.Log.WriteWarningMessage(LOGTAG, "SkippingUnknownFileEntry", null, "Skipping file-entry with unknown type {0}: {1} ", fe.Type, fe.Path); break; } if (fe.Metasize <= blocksize && (fe.Type == FilelistEntryType.Folder || fe.Type == FilelistEntryType.File || fe.Type == FilelistEntryType.Symlink)) { if (!string.IsNullOrWhiteSpace(fe.Metablockhash)) { restoredb.AddSmallBlocksetLink(fe.Metahash, fe.Metablockhash, fe.Metasize, tr); } else if (m_options.BlockHashAlgorithm == m_options.FileHashAlgorithm) { restoredb.AddSmallBlocksetLink(fe.Metahash, fe.Metahash, fe.Metasize, tr); } else { Logging.Log.WriteWarningMessage(LOGTAG, "MissingMetadataBlockHash", null, "No block hash found for file metadata: {0}", fe.Path); } } } catch (Exception ex) { Logging.Log.WriteWarningMessage(LOGTAG, "FileEntryProcessingFailed", ex, "Failed to process file-entry: {0}", fe.Path); } } } } catch (Exception ex) { Logging.Log.WriteWarningMessage(LOGTAG, "FileProcessingFailed", ex, "Failed to process file: {0}", entry.Name); if (ex is System.Threading.ThreadAbortException) { m_result.EndTime = DateTime.UtcNow; throw; } if (isFirstFilelist && ex is System.Security.Cryptography.CryptographicException) { m_result.EndTime = DateTime.UtcNow; throw; } if (m_options.UnittestMode) { throw; } } } //Make sure we write the config if (!updating) { Utility.VerifyParameters(restoredb, m_options, tr); } using (new Logging.Timer(LOGTAG, "CommitUpdateFilesetFromRemote", "CommitUpdateFilesetFromRemote")) tr.Commit(); } if (!m_options.RepairOnlyPaths) { var hashalg = Library.Utility.HashAlgorithmHelper.Create(m_options.BlockHashAlgorithm); if (hashalg == null) { throw new UserInformationException(Strings.Common.InvalidHashAlgorithm(m_options.BlockHashAlgorithm), "BlockHashAlgorithmNotSupported"); } var hashsize = hashalg.HashSize / 8; //Grab all index files, and update the block table using (var tr = restoredb.BeginTransaction()) { var indexfiles = ( from n in remotefiles where n.FileType == RemoteVolumeType.Index select new RemoteVolume(n.File) as IRemoteVolume).ToList(); Logging.Log.WriteInformationMessage(LOGTAG, "FilelistsRestored", "Filelists restored, downloading {0} index files", indexfiles.Count); var progress = 0; foreach (var sf in new AsyncDownloader(indexfiles, backend)) { try { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); m_result.EndTime = DateTime.UtcNow; return; } progress++; m_result.OperationProgressUpdater.UpdateProgress((((float)progress / indexfiles.Count) * 0.5f) + 0.2f); using (var tmpfile = sf.TempFile) { if (sf.Hash != null && sf.Size > 0) { restoredb.UpdateRemoteVolume(sf.Name, RemoteVolumeState.Verified, sf.Size, sf.Hash, tr); } using (var svr = new IndexVolumeReader(RestoreHandler.GetCompressionModule(sf.Name), tmpfile, m_options, hashsize)) { foreach (var a in svr.Volumes) { var filename = a.Filename; var volumeID = restoredb.GetRemoteVolumeID(filename); // No such file if (volumeID < 0) { volumeID = ProbeForMatchingFilename(ref filename, restoredb); } var missing = false; // Still broken, register a missing item if (volumeID < 0) { var p = VolumeBase.ParseFilename(filename); if (p == null) { throw new Exception(string.Format("Unable to parse filename: {0}", filename)); } Logging.Log.WriteErrorMessage(LOGTAG, "MissingFileDetected", null, "Remote file referenced as {0} by {1}, but not found in list, registering a missing remote file", filename, sf.Name); missing = true; volumeID = restoredb.RegisterRemoteVolume(filename, p.FileType, RemoteVolumeState.Temporary, tr); } //Add all block/volume mappings foreach (var b in a.Blocks) { restoredb.UpdateBlock(b.Key, b.Value, volumeID, tr); } restoredb.UpdateRemoteVolume(filename, missing ? RemoteVolumeState.Temporary : RemoteVolumeState.Verified, a.Length, a.Hash, tr); restoredb.AddIndexBlockLink(restoredb.GetRemoteVolumeID(sf.Name), volumeID, tr); } //If there are blocklists in the index file, update the blocklists foreach (var b in svr.BlockLists) { restoredb.UpdateBlockset(b.Hash, b.Blocklist, tr); } } } } catch (Exception ex) { //Not fatal Logging.Log.WriteErrorMessage(LOGTAG, "IndexFileProcessingFailed", ex, "Failed to process index file: {0}", sf.Name); if (ex is System.Threading.ThreadAbortException) { m_result.EndTime = DateTime.UtcNow; throw; } if (m_options.UnittestMode) { throw; } } } using (new Logging.Timer(LOGTAG, "CommitRecreateDb", "CommitRecreatedDb")) tr.Commit(); // TODO: In some cases, we can avoid downloading all index files, // if we are lucky and pick the right ones } // In some cases we have a stale reference from an index file to a deleted block file if (!m_options.UnittestMode) { restoredb.CleanupMissingVolumes(); } // We have now grabbed as much information as possible, // if we are still missing data, we must now fetch block files restoredb.FindMissingBlocklistHashes(hashsize, m_options.Blocksize, null); //We do this in three passes for (var i = 0; i < 3; i++) { // Grab the list matching the pass type var lst = restoredb.GetMissingBlockListVolumes(i, m_options.Blocksize, hashsize).ToList(); if (lst.Count > 0) { var fullist = ": " + string.Join(", ", lst.Select(x => x.Name)); switch (i) { case 0: Logging.Log.WriteVerboseMessage(LOGTAG, "ProcessingRequiredBlocklistVolumes", "Processing required {0} blocklist volumes{1}", lst.Count, fullist); Logging.Log.WriteInformationMessage(LOGTAG, "ProcessingRequiredBlocklistVolumes", "Processing required {0} blocklist volumes{1}", lst.Count, m_options.FullResult ? fullist : string.Empty); break; case 1: Logging.Log.WriteVerboseMessage(LOGTAG, "ProbingCandicateBlocklistVolumes", "Probing {0} candidate blocklist volumes{1}", lst.Count, fullist); Logging.Log.WriteInformationMessage(LOGTAG, "ProbingCandicateBlocklistVolumes", "Probing {0} candidate blocklist volumes{1}", lst.Count, m_options.FullResult ? fullist : string.Empty); break; default: Logging.Log.WriteVerboseMessage(LOGTAG, "ProcessingAllBlocklistVolumes", "Processing all of the {0} volumes for blocklists{1}", lst.Count, fullist); Logging.Log.WriteVerboseMessage(LOGTAG, "ProcessingAllBlocklistVolumes", "Processing all of the {0} volumes for blocklists{1}", lst.Count, m_options.FullResult ? fullist : string.Empty); break; } } var progress = 0; foreach (var sf in new AsyncDownloader(lst, backend)) { try { using (var tmpfile = sf.TempFile) using (var rd = new BlockVolumeReader(RestoreHandler.GetCompressionModule(sf.Name), tmpfile, m_options)) using (var tr = restoredb.BeginTransaction()) { if (m_result.TaskControlRendevouz() == TaskControlState.Stop) { backend.WaitForComplete(restoredb, null); m_result.EndTime = DateTime.UtcNow; return; } progress++; m_result.OperationProgressUpdater.UpdateProgress((((float)progress / lst.Count) * 0.1f) + 0.7f + (i * 0.1f)); var volumeid = restoredb.GetRemoteVolumeID(sf.Name); restoredb.UpdateRemoteVolume(sf.Name, RemoteVolumeState.Uploaded, sf.Size, sf.Hash, tr); // Update the block table so we know about the block/volume map foreach (var h in rd.Blocks) { restoredb.UpdateBlock(h.Key, h.Value, volumeid, tr); } // Grab all known blocklists from the volume foreach (var blocklisthash in restoredb.GetBlockLists(volumeid)) { restoredb.UpdateBlockset(blocklisthash, rd.ReadBlocklist(blocklisthash, hashsize), tr); } // Update tables so we know if we are done restoredb.FindMissingBlocklistHashes(hashsize, m_options.Blocksize, tr); using (new Logging.Timer(LOGTAG, "CommitRestoredBlocklist", "CommitRestoredBlocklist")) tr.Commit(); //At this point we can patch files with data from the block volume if (blockprocessor != null) { blockprocessor(sf.Name, rd); } } } catch (Exception ex) { Logging.Log.WriteWarningMessage(LOGTAG, "FailedRebuildingWithFile", ex, "Failed to use information from {0} to rebuild database: {1}", sf.Name, ex.Message); if (m_options.UnittestMode) { throw; } } } } } backend.WaitForComplete(restoredb, null); // In some cases we have a stale reference from an index file to a deleted block file if (!m_options.UnittestMode) { restoredb.CleanupMissingVolumes(); } if (m_options.RepairOnlyPaths) { Logging.Log.WriteInformationMessage(LOGTAG, "RecreateOrUpdateOnly", "Recreate/path-update completed, not running consistency checks"); } else { Logging.Log.WriteInformationMessage(LOGTAG, "RecreateCompletedCheckingDatabase", "Recreate completed, verifying the database consistency"); //All done, we must verify that we have all blocklist fully intact // if this fails, the db will not be deleted, so it can be used, // except to continue a backup m_result.EndTime = DateTime.UtcNow; using (var lbfdb = new LocalListBrokenFilesDatabase(restoredb)) { var broken = lbfdb.GetBrokenFilesets(new DateTime(0), null, null).Count(); if (broken != 0) { throw new UserInformationException(string.Format("Recreated database has missing blocks and {0} broken filelists. Consider using \"{1}\" and \"{2}\" to purge broken data from the remote store and the database.", broken, "list-broken-files", "purge-broken-files"), "DatabaseIsBrokenConsiderPurge"); } } restoredb.VerifyConsistency(m_options.Blocksize, m_options.BlockhashSize, true, null); Logging.Log.WriteInformationMessage(LOGTAG, "RecreateCompleted", "Recreate completed, and consistency checks completed, marking database as complete"); restoredb.RepairInProgress = false; } m_result.EndTime = DateTime.UtcNow; } }