public VolumeUploadRequest(BlockVolumeWriter blockVolume, FileEntryItem blockEntry, TemporaryIndexVolume indexVolume, Options options, BackupDatabase database) { BlockVolume = blockVolume; BlockEntry = blockEntry; IndexVolume = indexVolume; Options = options; Database = database; }
private static async Task UploadVolumeAndIndex(SpillVolumeRequest target, IWriteChannel <IUploadRequest> outputChannel, Options options, BackupDatabase database) { var blockEntry = target.BlockVolume.CreateFileEntryForUpload(options); TemporaryIndexVolume indexVolumeCopy = null; if (target.IndexVolume != null) { indexVolumeCopy = new TemporaryIndexVolume(options); target.IndexVolume.CopyTo(indexVolumeCopy, false); } var uploadRequest = new VolumeUploadRequest(target.BlockVolume, blockEntry, indexVolumeCopy, options, database); await outputChannel.WriteAsync(uploadRequest).ConfigureAwait(false); }
public static Task Run(BackupDatabase database, Options options, ITaskReader taskreader) { return(AutomationExtensions.RunTask( new { Input = Channels.OutputBlocks.ForRead, Output = Channels.BackendRequest.ForWrite, SpillPickup = Channels.SpillPickup.ForWrite, }, async self => { var noIndexFiles = options.IndexfilePolicy == Options.IndexFileStrategy.None; var fullIndexFiles = options.IndexfilePolicy == Options.IndexFileStrategy.Full; BlockVolumeWriter blockvolume = null; TemporaryIndexVolume indexvolume = null; try { while (true) { var b = await self.Input.ReadAsync(); // Lazy-start a new block volume if (blockvolume == null) { // Before we start a new volume, probe to see if it exists // This will delay creation of volumes for differential backups // There can be a race, such that two workers determine that // the block is missing, but this will be solved by the AddBlock call // which runs atomically if (await database.FindBlockIDAsync(b.HashKey, b.Size) >= 0) { b.TaskCompletion.TrySetResult(false); continue; } blockvolume = new BlockVolumeWriter(options); blockvolume.VolumeID = await database.RegisterRemoteVolumeAsync(blockvolume.RemoteFilename, RemoteVolumeType.Blocks, RemoteVolumeState.Temporary); indexvolume = noIndexFiles ? null : new TemporaryIndexVolume(options); } var newBlock = await database.AddBlockAsync(b.HashKey, b.Size, blockvolume.VolumeID); b.TaskCompletion.TrySetResult(newBlock); if (newBlock) { blockvolume.AddBlock(b.HashKey, b.Data, b.Offset, (int)b.Size, b.Hint); if (indexvolume != null) { indexvolume.AddBlock(b.HashKey, b.Size); if (b.IsBlocklistHashes && fullIndexFiles) { indexvolume.AddBlockListHash(b.HashKey, b.Size, b.Data); } } // If the volume is full, send to upload if (blockvolume.Filesize > options.VolumeSize - options.Blocksize) { //When uploading a new volume, we register the volumes and then flush the transaction // this ensures that the local database and remote storage are as closely related as possible await database.UpdateRemoteVolumeAsync(blockvolume.RemoteFilename, RemoteVolumeState.Uploading, -1, null); blockvolume.Close(); await database.CommitTransactionAsync("CommitAddBlockToOutputFlush"); FileEntryItem blockEntry = blockvolume.CreateFileEntryForUpload(options); TemporaryIndexVolume indexVolumeCopy = null; if (indexvolume != null) { indexVolumeCopy = new TemporaryIndexVolume(options); indexvolume.CopyTo(indexVolumeCopy, false); } var uploadRequest = new VolumeUploadRequest(blockvolume, blockEntry, indexVolumeCopy, options, database); blockvolume = null; indexvolume = null; // Write to output at the end here to prevent sending a full volume to the SpillCollector await self.Output.WriteAsync(uploadRequest); } } // We ignore the stop signal, but not the pause and terminate await taskreader.ProgressAsync; } } catch (Exception ex) { if (ex.IsRetiredException()) { // If we have collected data, merge all pending volumes into a single volume if (blockvolume != null && blockvolume.SourceSize > 0) { await self.SpillPickup.WriteAsync(new SpillVolumeRequest(blockvolume, indexvolume)); } } throw; } })); }
public VolumeUploadRequest(BlockVolumeWriter blockvolume, TemporaryIndexVolume indexvolume) { BlockVolume = blockvolume; IndexVolume = indexvolume; }
public SpillVolumeRequest(BlockVolumeWriter blockvolume, TemporaryIndexVolume indexvolume) { BlockVolume = blockvolume; IndexVolume = indexvolume; }