public void NefsHeaderPart1_NoItems_EntriesEmpty() { var items = new NefsItemList(@"C:\archive.nefs"); var p4 = new Nefs20HeaderPart4(items); var p1 = new NefsHeaderPart1(items, p4); Assert.Empty(p1.EntriesByIndex); Assert.Empty(p1.EntriesByGuid); }
/// <summary> /// Writes the header part to an output stream. /// </summary> /// <param name="stream">The stream to write to.</param> /// <param name="offset">The absolute offset in the stream to write at.</param> /// <param name="part4">The data to write.</param> /// <param name="p">Progress info.</param> /// <returns>An async task.</returns> internal async Task WriteHeaderPart4Async(Stream stream, UInt64 offset, Nefs20HeaderPart4 part4, NefsProgress p) { foreach (var entry in part4.EntriesByIndex) { await FileData.WriteDataAsync(stream, offset, entry, NefsVersion.Version200, p); offset += Nefs20HeaderPart4Entry.Size; } }
public async Task WriteHeaderPart4Async_ValidData_Written() { var items = new NefsItemList(@"C:\hi.txt"); var file1 = TestHelpers.CreateItem(0, 0, "file1", 10, 11, new List <UInt32> { 12, 13 }, NefsItemType.File); var file2 = TestHelpers.CreateItem(1, 1, "file2", 20, 21, new List <UInt32> { 22, 23 }, NefsItemType.File); var dir1 = TestHelpers.CreateItem(2, 2, "dir1", 0, 0, new List <UInt32> { 0 }, NefsItemType.Directory); var file3 = TestHelpers.CreateItem(3, 2, "file3", 30, 31, new List <UInt32> { 32, 33 }, NefsItemType.File); items.Add(file1); items.Add(file2); items.Add(dir1); items.Add(file3); var part4 = new Nefs20HeaderPart4(items); /* * Write */ var writer = this.CreateWriter(); byte[] buffer; var offset = 5; using (var ms = new MemoryStream()) { await writer.WriteHeaderPart4Async(ms, (uint)offset, part4, new NefsProgress()); buffer = ms.ToArray(); } /* * Verify */ Assert.Equal(24 + offset, buffer.Length); Assert.Equal(12, BitConverter.ToInt32(buffer, offset + 0)); Assert.Equal(13, BitConverter.ToInt32(buffer, offset + 4)); Assert.Equal(22, BitConverter.ToInt32(buffer, offset + 8)); Assert.Equal(23, BitConverter.ToInt32(buffer, offset + 12)); Assert.Equal(32, BitConverter.ToInt32(buffer, offset + 16)); Assert.Equal(33, BitConverter.ToInt32(buffer, offset + 20)); }
public void CreateChunksList_SecondItem_ListReturned() { var p4 = new Nefs20HeaderPart4(this.testItems); var expected = this.file2.DataSource.Size.Chunks; var chunks = p4.CreateChunksList(3, (uint)expected.Count, TestHelpers.TestTransform); Assert.Equal(expected.Count, chunks.Count); Assert.Equal(expected[0].CumulativeSize, chunks[0].CumulativeSize); Assert.Equal(expected[1].CumulativeSize, chunks[1].CumulativeSize); Assert.Equal(expected[2].CumulativeSize, chunks[2].CumulativeSize); Assert.Same(TestHelpers.TestTransform, chunks[0].Transform); Assert.Same(TestHelpers.TestTransform, chunks[1].Transform); Assert.Same(TestHelpers.TestTransform, chunks[2].Transform); }
public void NefsHeaderPart1_MultipleItems_EntriesPopulated() { var items = new NefsItemList(@"C:\archive.nefs"); var file1Chunks = NefsDataChunk.CreateChunkList(new List <UInt32> { 11, 12, 13 }, TestHelpers.TestTransform); var file1DataSource = new NefsItemListDataSource(items, 123, new NefsItemSize(456, file1Chunks)); var file1 = TestHelpers.CreateFile(0, 0, "file1", file1DataSource); items.Add(file1); var file2Chunks = NefsDataChunk.CreateChunkList(new List <UInt32> { 14, 15, 16 }, TestHelpers.TestTransform); var file2DataSource = new NefsItemListDataSource(items, 456, new NefsItemSize(789, file2Chunks)); var file2 = TestHelpers.CreateFile(1, 1, "file2", file2DataSource); items.Add(file2); var dir1 = TestHelpers.CreateDirectory(2, 2, "dir1"); items.Add(dir1); var p4 = new Nefs20HeaderPart4(items); var p1 = new NefsHeaderPart1(items, p4); Assert.Equal(3, p1.EntriesByGuid.Count); Assert.Equal(3, p1.EntriesByIndex.Count); /* * dir1 */ // Offset to data and index to p4 are both 0 since this is a directory Assert.Equal(2, (int)p1.EntriesByGuid[dir1.Guid].Id.Value); Assert.Equal(0, (int)p1.EntriesByGuid[dir1.Guid].OffsetToData); Assert.Equal(0, (int)p1.EntriesByGuid[dir1.Guid].IndexPart2); Assert.Equal(0, (int)p1.EntriesByGuid[dir1.Guid].IndexPart4); /* * file1 */ Assert.Equal(0, (int)p1.EntriesByGuid[file1.Guid].Id.Value); Assert.Equal(123, (int)p1.EntriesByGuid[file1.Guid].OffsetToData); Assert.Equal(1, (int)p1.EntriesByGuid[file1.Guid].IndexPart2); Assert.Equal(0, (int)p1.EntriesByGuid[file1.Guid].IndexPart4); /* * file2 */ Assert.Equal(1, (int)p1.EntriesByGuid[file2.Guid].Id.Value); Assert.Equal(456, (int)p1.EntriesByGuid[file2.Guid].OffsetToData); Assert.Equal(2, (int)p1.EntriesByGuid[file2.Guid].IndexPart2); // There are 3 chunks for file1, so file2's chunks start right after that (hence p4 // index == 3) Assert.Equal(3, (int)p1.EntriesByGuid[file2.Guid].IndexPart4); }
/// <summary> /// Reads a version 2.0 header from an input stream. /// </summary> /// <param name="stream">The stream to read from.</param> /// <param name="offset">The offset to the header from the beginning of the stream.</param> /// <param name="part6Stream">The stream that contains part 6/7 data.</param> /// <param name="part6Offset">The offset to the start of part 6/7 data.</param> /// <param name="intro">The pre-parsed header intro.</param> /// <param name="p">Progress info.</param> /// <returns>The loaded header.</returns> internal async Task <Nefs20Header> Read20HeaderAsync( Stream stream, ulong offset, Stream part6Stream, ulong part6Offset, NefsHeaderIntro intro, NefsProgress p) { Nefs20HeaderIntroToc toc = null; NefsHeaderPart1 part1 = null; NefsHeaderPart2 part2 = null; NefsHeaderPart3 part3 = null; Nefs20HeaderPart4 part4 = null; NefsHeaderPart5 part5 = null; Nefs20HeaderPart6 part6 = null; NefsHeaderPart7 part7 = null; NefsHeaderPart8 part8 = null; // Calc weight of each task (8 parts + table of contents) var weight = 1.0f / 10.0f; using (p.BeginTask(weight, "Reading header intro table of contents")) { toc = await this.Read20HeaderIntroTocAsync(stream, Nefs20HeaderIntroToc.Offset, p); } using (p.BeginTask(weight, "Reading header part 1")) { part1 = await this.ReadHeaderPart1Async(stream, toc.OffsetToPart1, toc.Part1Size, p); } using (p.BeginTask(weight, "Reading header part 2")) { part2 = await this.ReadHeaderPart2Async(stream, toc.OffsetToPart2, toc.Part2Size, p); } using (p.BeginTask(weight, "Reading header part 3")) { part3 = await this.ReadHeaderPart3Async(stream, toc.OffsetToPart3, toc.Part3Size, p); } using (p.BeginTask(weight, "Reading header part 4")) { part4 = await this.Read20HeaderPart4Async(stream, toc.OffsetToPart4, toc.Part4Size, part1, p); } using (p.BeginTask(weight, "Reading header part 5")) { part5 = await this.ReadHeaderPart5Async(stream, toc.OffsetToPart5, NefsHeaderPart5.Size, p); } using (p.BeginTask(weight, "Reading header part 6")) { part6 = await this.Read20HeaderPart6Async(part6Stream, (uint)part6Offset + toc.OffsetToPart6, part1, p); } using (p.BeginTask(weight, "Reading header part 7")) { var numEntries = (uint)part2.EntriesByIndex.Count; part7 = await this.ReadHeaderPart7Async(part6Stream, (uint)part6Offset + toc.OffsetToPart7, numEntries, p); } using (p.BeginTask(weight, "Reading header part 8")) { var part8Size = intro.HeaderSize - toc.OffsetToPart8; part8 = await this.ReadHeaderPart8Async(stream, toc.OffsetToPart8, part8Size, p); } // Validate header hash if (!this.ValidateHash(stream, offset, intro)) { Log.LogWarning("Header hash does not match expected value."); } // The header stream must be disposed stream.Dispose(); return(new Nefs20Header(intro, toc, part1, part2, part3, part4, part5, part6, part7, part8)); }
public async Task WriteHeaderPart1Async_ValidData_Written() { var items = new NefsItemList(@"C:\hi.txt"); var file1 = TestHelpers.CreateItem(0, 0, "file1", 10, 11, new List <UInt32> { 12, 13 }, NefsItemType.File); var file2 = TestHelpers.CreateItem(1, 1, "file2", 20, 21, new List <UInt32> { 22, 23 }, NefsItemType.File); var dir1 = TestHelpers.CreateItem(2, 2, "dir1", 0, 0, new List <UInt32> { 0 }, NefsItemType.Directory); items.Add(file1); items.Add(file2); items.Add(dir1); var part4 = new Nefs20HeaderPart4(items); var part1 = new NefsHeaderPart1(items, part4); /* * Write */ var writer = this.CreateWriter(); byte[] buffer; var offset = 5; using (var ms = new MemoryStream()) { await writer.WriteHeaderPart1Async(ms, (uint)offset, part1, new NefsProgress()); buffer = ms.ToArray(); } /* * Verify */ /* * file1 */ // Data offset (8 bytes) Assert.Equal(10, BitConverter.ToInt64(buffer, offset + 0)); // Index part 2 Assert.Equal(1, BitConverter.ToInt32(buffer, offset + 8)); // Index part 4 Assert.Equal(0, BitConverter.ToInt32(buffer, offset + 0x0c)); // Item id Assert.Equal(0, BitConverter.ToInt32(buffer, offset + 0x10)); /* * file2 */ offset += (int)NefsHeaderPart1Entry.Size; // Data offset (8 bytes) Assert.Equal(20, BitConverter.ToInt64(buffer, offset + 0)); // Index part 2 Assert.Equal(2, BitConverter.ToInt32(buffer, offset + 8)); // Index part 4 Assert.Equal(2, BitConverter.ToInt32(buffer, offset + 0x0c)); // Item id Assert.Equal(1, BitConverter.ToInt32(buffer, offset + 0x10)); /* * dir1 */ offset += (int)NefsHeaderPart1Entry.Size; // Data offset (8 bytes) Assert.Equal(0, BitConverter.ToInt64(buffer, offset + 0)); // Index part 2 Assert.Equal(0, BitConverter.ToInt32(buffer, offset + 8)); // Index part 4 Assert.Equal(0, BitConverter.ToInt32(buffer, offset + 0x0c)); // Item id Assert.Equal(2, BitConverter.ToInt32(buffer, offset + 0x10)); }
public void GetIndexForItem_ItemIsDirectory_ZeroReturned() { var p4 = new Nefs20HeaderPart4(this.testItems); Assert.Equal(0U, p4.GetIndexForItem(this.dir1)); }
public void GetIndexForItem_ItemIsUncompressed_NegativeOneReturned() { var p4 = new Nefs20HeaderPart4(this.testItems); Assert.Equal(0xFFFFFFFFU, p4.GetIndexForItem(this.file4NotCompressed)); }
/// <summary> /// Writes an archive to the specified stream. A new archive obejct is returned that /// contains the updated header and item metadata. /// </summary> /// <param name="stream">The stream to write to.</param> /// <param name="sourceHeader">Donor header information.</param> /// <param name="sourceItems">List of items to write. This list is not modified directly.</param> /// <param name="workDir">Temp working directory path.</param> /// <param name="p">Progress info.</param> /// <returns>A new NefsArchive object containing the updated header and item metadata.</returns> private async Task <NefsArchive> WriteArchiveAsync( Stream stream, Nefs20Header sourceHeader, NefsItemList sourceItems, string workDir, NefsProgress p) { // Setup task weights var taskWeightPrepareItems = 0.45f; var taskWeightWriteItems = 0.45f; var taskWeightHeader = 0.1f; // Prepare items for writing NefsItemList items; using (var t = p.BeginTask(taskWeightPrepareItems, "Preparing items")) { items = await this.PrepareItemsAsync(sourceItems, workDir, p); } // Determine number of items var numItems = items.Count; // Update header parts 3 and 4 first (need to know their sizes) var p4 = new Nefs20HeaderPart4(items); var p3 = new NefsHeaderPart3(items); // Compute header size var introSize = NefsHeaderIntro.Size; var tocSize = Nefs20HeaderIntroToc.Size; var p1Size = numItems * NefsHeaderPart1Entry.Size; // TODO : What about duplicates? var p2Size = numItems * NefsHeaderPart2Entry.Size; // TODO : What about duplicates? var p3Size = p3.Size; var p4Size = p4.Size; var p5Size = NefsHeaderPart5.Size; var p6Size = numItems * Nefs20HeaderPart6Entry.Size; var p7Size = numItems * NefsHeaderPart7Entry.Size; var p8Size = sourceHeader.Intro.HeaderSize - sourceHeader.TableOfContents.OffsetToPart8; var headerSize = introSize + tocSize + p1Size + p2Size + p3Size + p4Size + p5Size + p6Size + p7Size + p8Size; // Determine first data offset. There are two known offset values. If the header is // large enough, the second (larger) offset is used. var firstDataOffset = Nefs20Header.DataOffsetDefault; if (headerSize > firstDataOffset) { firstDataOffset = Nefs20Header.DataOffsetLarge; } // Write item data UInt64 archiveSize; using (var t = p.BeginTask(taskWeightWriteItems, "Writing items")) { archiveSize = await this.WriteItemsAsync(stream, items, firstDataOffset, p); } // Update remaining header data var p1 = new NefsHeaderPart1(items, p4); var p2 = new NefsHeaderPart2(items, p3); var p6 = new Nefs20HeaderPart6(items); var p7 = new NefsHeaderPart7(items); // Compute total archive size var p5 = new NefsHeaderPart5(); p5.Data0x00_ArchiveSize.Value = archiveSize; p5.Data0x08_ArchiveNameStringOffset.Value = p3.OffsetsByFileName[items.DataFileName]; p5.Data0x0C_FirstDataOffset.Value = sourceHeader.Part5.FirstDataOffset; // Update header intro var intro = new NefsHeaderIntro(); intro.Data0x00_MagicNumber.Value = sourceHeader.Intro.MagicNumber; intro.Data0x24_AesKeyHexString.Value = sourceHeader.Intro.AesKeyHexString; intro.Data0x64_HeaderSize.Value = (uint)headerSize; intro.Data0x68_NefsVersion.Value = sourceHeader.Intro.NefsVersion; intro.Data0x6c_NumberOfItems.Value = (uint)numItems; intro.Data0x70_UnknownZlib.Value = sourceHeader.Intro.Unknown0x70zlib; intro.Data0x78_Unknown.Value = sourceHeader.Intro.Unknown0x78; var toc = new Nefs20HeaderIntroToc(); toc.Data0x00_NumVolumes.Value = sourceHeader.TableOfContents.NumVolumes; toc.Data0x02_HashBlockSize.Value = sourceHeader.TableOfContents.Data0x02_HashBlockSize.Value; toc.Data0x04_OffsetToPart1.Value = introSize + tocSize; toc.Data0x0c_OffsetToPart2.Value = toc.OffsetToPart1 + (uint)p1Size; toc.Data0x14_OffsetToPart3.Value = toc.OffsetToPart2 + (uint)p2Size; toc.Data0x18_OffsetToPart4.Value = toc.OffsetToPart3 + (uint)p3Size; toc.Data0x1c_OffsetToPart5.Value = toc.OffsetToPart4 + (uint)p4Size; toc.Data0x08_OffsetToPart6.Value = toc.OffsetToPart5 + (uint)p5Size; toc.Data0x10_OffsetToPart7.Value = toc.OffsetToPart6 + (uint)p6Size; toc.Data0x20_OffsetToPart8.Value = toc.OffsetToPart7 + (uint)p7Size; toc.Data0x24_Unknown.Value = sourceHeader.TableOfContents.Unknown0x24; // Part 8 - not writing anything for now var p8 = new NefsHeaderPart8(p8Size); // Create new header object var header = new Nefs20Header(intro, toc, p1, p2, p3, p4, p5, p6, p7, p8); // Write the header using (var t = p.BeginTask(taskWeightHeader, "Writing header")) { await this.WriteHeaderAsync(stream, 0, header, p); } // Update hash await this.UpdateHashAsync(stream, 0, header, p); // Create new archive object return(new NefsArchive(header, items)); }