readAppFileAsync() публичный статический Метод

public static readAppFileAsync ( string testFile ) : Task
testFile string
Результат Task
Пример #1
0
        public async Task Decompress(CompressionType type)
        {
            string testFilePath = CreateCompressedFile(type);
            int    _bufferSize  = 1024;
            var    bytes        = new byte[_bufferSize];

            using (MemoryStream gzStream = await LocalMemoryStream.readAppFileAsync(testFilePath))
                using (MemoryStream strippedMs = StripHeaderAndFooter.Strip(gzStream))
                    foreach (var iteration in Benchmark.Iterations)
                    {
                        using (iteration.StartMeasurement())
                            for (int i = 0; i < Benchmark.InnerIterationCount; i++)
                            {
                                int retCount = -1;
                                using (DeflateStream zip = new DeflateStream(strippedMs, CompressionMode.Decompress, leaveOpen: true))
                                {
                                    while (retCount != 0)
                                    {
                                        retCount = zip.Read(bytes, 0, _bufferSize);
                                    }
                                }
                                strippedMs.Seek(0, SeekOrigin.Begin);
                            }
                    }
            File.Delete(testFilePath);
        }
Пример #2
0
        public static async Task ZipArchiveEntry_CorruptedStream_ReadMode_Read_UpToUncompressedSize()
        {
            MemoryStream stream = await LocalMemoryStream.readAppFileAsync(zfile("normal.zip"));

            int nameOffset = PatchDataRelativeToFileName(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 8);                         // patch uncompressed size in file header

            PatchDataRelativeToFileName(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 22, nameOffset + s_tamperedFileName.Length); // patch in central directory too

            using (ZipArchive archive = new ZipArchive(stream, ZipArchiveMode.Read))
            {
                ZipArchiveEntry e = archive.GetEntry(s_tamperedFileName);
                using (MemoryStream ms = new MemoryStream())
                    using (Stream source = e.Open())
                    {
                        byte[] buffer = new byte[s_bufferSize];
                        int    read;
                        while ((read = source.Read(buffer, 0, buffer.Length)) != 0)
                        {
                            ms.Write(buffer, 0, read);
                        }
                        Assert.Equal(e.Length, ms.Length);                     // Only allow to decompress up to uncompressed size
                        Assert.Equal(0, source.Read(buffer, 0, s_bufferSize)); // shouldn't be able read more
                        ms.Seek(0, SeekOrigin.Begin);
                        while ((read = ms.Read(buffer, 0, buffer.Length)) != 0)
                        {                                     // No need to do anything, just making sure all bytes readable from output stream
                        }
                        Assert.Equal(ms.Position, ms.Length); // all bytes must be read
                    }
            }
        }
Пример #3
0
        public async Task OverlappingFlushAsync_DuringWriteAsync()
        {
            byte[] buffer       = null;
            string testFilePath = gzTestFile("GZTestDocument.pdf");

            using (var origStream = await LocalMemoryStream.readAppFileAsync(testFilePath))
            {
                buffer = origStream.ToArray();
            }

            using (var writeStream = new ManualSyncMemoryStream(false))
                using (var zip = CreateStream(writeStream, CompressionMode.Compress))
                {
                    Task task = null;
                    try
                    {
                        task = WriteAsync(zip, buffer, 0, buffer.Length);
                        Assert.True(writeStream.WriteHit);
                        Assert.Throws <InvalidOperationException>(() => { zip.FlushAsync(); }); // "overlapping flushes"
                    }
                    finally
                    {
                        // Unblock Async operations
                        writeStream.manualResetEvent.Set();
                        // The original WriteAsync should be able to complete
                        Assert.True(task.Wait(100 * 500));
                    }
                }
        }
Пример #4
0
        public static async Task Zip64ArchiveEntry_CorruptedStream_CopyTo_UpToUncompressedSize()
        {
            MemoryStream stream = await LocalMemoryStream.readAppFileAsync(compat("deflate64.zip"));

            int nameOffset = PatchDataRelativeToFileName(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 8);                         // patch uncompressed size in file header

            PatchDataRelativeToFileName(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 22, nameOffset + s_tamperedFileName.Length); // patch in central directory too

            using (ZipArchive archive = new ZipArchive(stream, ZipArchiveMode.Read))
            {
                ZipArchiveEntry e = archive.GetEntry(s_tamperedFileName);
                using (var ms = new MemoryStream())
                    using (Stream source = e.Open())
                    {
                        source.CopyTo(ms);
                        Assert.Equal(e.Length, ms.Length); // Only allow to decompress up to uncompressed size
                        ms.Seek(0, SeekOrigin.Begin);
                        int    read;
                        byte[] buffer = new byte[s_bufferSize];
                        while ((read = ms.Read(buffer, 0, buffer.Length)) != 0)
                        {                                     // No need to do anything, just making sure all bytes readable
                        }
                        Assert.Equal(ms.Position, ms.Length); // all bytes must be read
                    }
            }
        }
Пример #5
0
        public static async Task Zip64ArchiveEntry_CorruptedFile_Read_UpToUncompressedSize()
        {
            MemoryStream stream = await LocalMemoryStream.readAppFileAsync(compat("deflate64.zip"));

            int nameOffset = PatchDataRelativeToFileName(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 8);                         // patch uncompressed size in file header

            PatchDataRelativeToFileName(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 22, nameOffset + s_tamperedFileName.Length); // patch in central directory too

            using (ZipArchive archive = new ZipArchive(stream, ZipArchiveMode.Read))
            {
                ZipArchiveEntry e = archive.GetEntry(s_tamperedFileName);
                using (var ms = new MemoryStream())
                    using (Stream source = e.Open())
                    {
                        byte[] buffer = new byte[s_bufferSize];
                        int    read;
                        while ((read = source.Read(buffer, 0, buffer.Length)) != 0)
                        {
                            ms.Write(buffer, 0, read);
                        }
                        Assert.Equal(e.Length, ms.Length);                      // Only allow to decompress up to uncompressed size
                        Assert.Equal(0, source.Read(buffer, 0, buffer.Length)); // Shouldn't be readable more
                    }
            }
        }
        public async Task CompressionLevel_SizeInOrder(string testFile)
        {
            using var uncompressedStream = await LocalMemoryStream.readAppFileAsync(testFile);

            async Task <long> GetLengthAsync(CompressionLevel compressionLevel)
            {
                using var mms        = new MemoryStream();
                using var compressor = CreateStream(mms, compressionLevel);
                await uncompressedStream.CopyToAsync(compressor);

                compressor.Flush();
                return(mms.Length);
            }

            long noCompressionLength = await GetLengthAsync(CompressionLevel.NoCompression);

            long fastestLength = await GetLengthAsync(CompressionLevel.Fastest);

            long optimalLength = await GetLengthAsync(CompressionLevel.Optimal);

            long smallestLength = await GetLengthAsync(CompressionLevel.SmallestSize);

            Assert.True(noCompressionLength >= fastestLength);
            Assert.True(fastestLength >= optimalLength);
            Assert.True(optimalLength >= smallestLength);
        }
Пример #7
0
        public static async Task LargeArchive_DataDescriptor_Read_NonZip64_FileLengthGreaterThanIntMax()
        {
            MemoryStream stream = await LocalMemoryStream.readAppFileAsync(strange("fileLengthGreaterIntLessUInt.zip"));

            using (ZipArchive archive = new ZipArchive(stream, ZipArchiveMode.Read))
            {
                ZipArchiveEntry e = archive.GetEntry("large.bin");

                Assert.Equal(3_600_000_000, e.Length);
                Assert.Equal(3_499_028, e.CompressedLength);

                using (Stream source = e.Open())
                {
                    byte[] buffer = new byte[s_bufferSize];
                    int    read   = source.Read(buffer, 0, buffer.Length); // We don't want to inflate this large archive entirely
                                                                           // just making sure it read successfully
                    Assert.Equal(s_bufferSize, read);
                    foreach (byte b in buffer)
                    {
                        if (b != '0')
                        {
                            Assert.True(false, $"The file should be all '0's, but found '{(char)b}'");
                        }
                    }
                }
            }
        }
Пример #8
0
        public async Task DecompressWorksWithPdf()
        {
            var compareStream = await LocalMemoryStream.readAppFileAsync(gzTestFile("GZTestDocument.pdf"));

            var gzStream = await LocalMemoryStream.readAppFileAsync(gzTestFile("GZTestDocument.pdf.gz"));

            await DecompressAsync(compareStream, gzStream);
        }
Пример #9
0
        public static async Task DecompressWorksWithBinaryFile()
        {
            var compareStream = await LocalMemoryStream.readAppFileAsync(gzTestFile("GZTestDocument.doc"));

            var gzStream = await LocalMemoryStream.readAppFileAsync(gzTestFile("GZTestDocument.doc.gz"));

            await DecompressAsync(compareStream, gzStream);
        }
Пример #10
0
        public async Task ModifyBaseStream()
        {
            var ms = await LocalMemoryStream.readAppFileAsync(gzTestFile("GZTestDocument.txt.gz"));

            var zip  = new GZipStream(ms, CompressionMode.Decompress);
            int size = 1024;

            Byte[] bytes = new Byte[size];
            zip.BaseStream.Read(bytes, 0, size); // This will throw if the underlying stream is not writeable as expected
        }
Пример #11
0
        public static async Task ZipArchive_CorruptedLocalHeader_CompressedSize_NotMatchWithCentralDirectory()
        {
            MemoryStream stream = await LocalMemoryStream.readAppFileAsync(zfile("normal.zip"));

            PatchDataRelativeToFileName(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 12);  // patch compressed size in file header

            using (ZipArchive archive = new ZipArchive(stream, ZipArchiveMode.Read))
            {
                ZipArchiveEntry e = archive.GetEntry(s_tamperedFileName);
                Assert.Throws <InvalidDataException>(() => e.Open());
            }
        }
Пример #12
0
        public async Task DecompressFailsWithRealGzStream(string uncompressedPath)
        {
            string fileName   = Path.Combine("GZipTestData", Path.GetFileName(uncompressedPath) + ".gz");
            var    baseStream = await LocalMemoryStream.readAppFileAsync(fileName);

            var zip         = CreateStream(baseStream, CompressionMode.Decompress);
            int _bufferSize = 2048;
            var bytes       = new byte[_bufferSize];

            Assert.Throws <InvalidDataException>(() => { zip.Read(bytes, 0, _bufferSize); });
            zip.Dispose();
        }
Пример #13
0
        public async Task DecompressFailsWithWrapperStream(string uncompressedPath, string newDirectory, string newSuffix)
        {
            string fileName = Path.Combine(newDirectory, Path.GetFileName(uncompressedPath) + newSuffix);

            using (LocalMemoryStream baseStream = await LocalMemoryStream.readAppFileAsync(fileName))
                using (Stream cs = CreateStream(baseStream, CompressionMode.Decompress))
                {
                    int _bufferSize = 2048;
                    var bytes       = new byte[_bufferSize];
                    Assert.Throws <InvalidDataException>(() => { cs.Read(bytes, 0, _bufferSize); });
                }
        }
Пример #14
0
        public async Task DecompressFailsWithRealGzStream()
        {
            string[] files = { gzTestFile("GZTestDocument.doc.gz"), gzTestFile("GZTestDocument.txt.gz") };
            foreach (string fileName in files)
            {
                var baseStream = await LocalMemoryStream.readAppFileAsync(fileName);

                var zip         = new DeflateStream(baseStream, CompressionMode.Decompress);
                int _bufferSize = 2048;
                var bytes       = new byte[_bufferSize];
                Assert.Throws <InvalidDataException>(() => { zip.Read(bytes, 0, _bufferSize); });
                zip.Dispose();
            }
        }
Пример #15
0
        public async Task CanReadBaseStreamAfterDispose()
        {
            var ms = await LocalMemoryStream.readAppFileAsync(gzTestFile("GZTestDocument.txt.gz"));

            var zip        = new GZipStream(ms, CompressionMode.Decompress, leaveOpen: true);
            var baseStream = zip.BaseStream;

            zip.Dispose();

            int size = 1024;

            byte[] bytes = new byte[size];
            baseStream.Read(bytes, 0, size); // This will throw if the underlying stream is not writable as expected
        }
Пример #16
0
        public async Task ModifyBaseStream()
        {
            var ms = await LocalMemoryStream.readAppFileAsync(gzTestFile("GZTestDocument.txt.gz"));

            var newMs = StripHeaderAndFooter.Strip(ms);

            var zip  = new DeflateStream(newMs, CompressionMode.Decompress);
            int size = 1024;

            byte[] bytes = new byte[size];
            zip.BaseStream.Read(bytes, 0, size); // This will throw if the underlying stream is not writable as expected

            zip.BaseStream.Position = 0;
            await zip.BaseStream.ReadAsync(bytes, 0, size);
        }
        public async Task TestLeaveOpenAfterValidDecompress()
        {
            //Create the Stream
            int    _bufferSize      = 1024;
            var    bytes            = new byte[_bufferSize];
            Stream compressedStream = await LocalMemoryStream.readAppFileAsync(CompressedTestFile(UncompressedTestFile()));

            Stream decompressor = CreateStream(compressedStream, CompressionMode.Decompress, leaveOpen: false);

            //Read some data and Close the stream
            decompressor.Read(bytes, 0, _bufferSize);
            decompressor.Flush();
            decompressor.Dispose();

            //Check that Close has really closed the underlying stream
            Assert.Throws <ObjectDisposedException>(() => compressedStream.Read(bytes, 0, bytes.Length));
        }
 public async Task BaseStream_Modify(CompressionMode mode)
 {
     using (var baseStream = await LocalMemoryStream.readAppFileAsync(CompressedTestFile(UncompressedTestFile())))
         using (var compressor = CreateStream(baseStream, mode))
         {
             int    size  = 1024;
             byte[] bytes = new byte[size];
             if (mode == CompressionMode.Compress)
             {
                 BaseStream(compressor).Write(bytes, 0, size); // This will throw if the underlying stream is not writable as expected
             }
             else
             {
                 BaseStream(compressor).Read(bytes, 0, size); // This will throw if the underlying stream is not readable as expected
             }
         }
 }
Пример #19
0
        public async Task CanReadBaseStreamAfterDispose()
        {
            var ms = await LocalMemoryStream.readAppFileAsync(gzTestFile("GZTestDocument.txt.gz"));

            var newMs = StripHeaderAndFooter.Strip(ms);

            var zip        = new DeflateStream(newMs, CompressionMode.Decompress, true);
            var baseStream = zip.BaseStream;

            zip.Dispose();

            int size = 1024;

            Byte[] bytes = new Byte[size];
            baseStream.Read(bytes, 0, size); // This will throw if the underlying stream is not writeable as expected

            baseStream.Position = 0;
            await baseStream.ReadAsync(bytes, 0, size);
        }
Пример #20
0
        public static async Task UnseekableVeryLargeArchive_DataDescriptor_Read_Zip64()
        {
            MemoryStream stream = await LocalMemoryStream.readAppFileAsync(strange("veryLarge.zip"));

            using (ZipArchive archive = new ZipArchive(stream, ZipArchiveMode.Read))
            {
                ZipArchiveEntry e = archive.GetEntry("bigFile.bin");

                Assert.Equal(6_442_450_944, e.Length);
                Assert.Equal(6_261_752, e.CompressedLength);

                using (Stream source = e.Open())
                {
                    byte[] buffer = new byte[s_bufferSize];
                    int    read   = source.Read(buffer, 0, buffer.Length); // We don't want to inflate this large archive entirely
                                                                           // just making sure it read successfully
                    Assert.Equal(s_bufferSize, read);
                }
            }
        }
Пример #21
0
        public static async Task ZipArchiveEntry_CorruptedStream_UnCompressedSizeBiggerThanExpected_NothingShouldBreak()
        {
            MemoryStream stream = await LocalMemoryStream.readAppFileAsync(zfile("normal.zip"));

            int nameOffset = PatchDataRelativeToFileNameFillBytes(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 8);                         // patch uncompressed size in file header

            PatchDataRelativeToFileNameFillBytes(Encoding.ASCII.GetBytes(s_tamperedFileName), stream, 22, nameOffset + s_tamperedFileName.Length); // patch in central directory too

            using (ZipArchive archive = new ZipArchive(stream, ZipArchiveMode.Read))
            {
                ZipArchiveEntry e = archive.GetEntry(s_tamperedFileName);
                using (MemoryStream ms = new MemoryStream())
                    using (Stream source = e.Open())
                    {
                        source.CopyTo(ms);
                        Assert.True(e.Length > ms.Length);       // Even uncompressed size is bigger than decompressed size there should be no error
                        Assert.True(e.CompressedLength < ms.Length);
                    }
            }
        }
        public async Task Read_BaseStreamSlowly()
        {
            string testFile           = UncompressedTestFile();
            var    uncompressedStream = await LocalMemoryStream.readAppFileAsync(testFile);

            var compressedStream = new BadWrappedStream(BadWrappedStream.Mode.ReadSlowly, File.ReadAllBytes(CompressedTestFile(testFile)));

            using var decompressor = CreateStream(compressedStream, CompressionMode.Decompress);
            var decompressorOutput = new MemoryStream();

            int  _bufferSize = 1024;
            var  bytes       = new byte[_bufferSize];
            bool finished    = false;
            int  retCount;

            while (!finished)
            {
                retCount = await decompressor.ReadAsync(bytes, 0, _bufferSize);

                if (retCount != 0)
                {
                    await decompressorOutput.WriteAsync(bytes, 0, retCount);
                }
                else
                {
                    finished = true;
                }
            }
            decompressor.Dispose();
            decompressorOutput.Position = 0;
            uncompressedStream.Position = 0;

            byte[] uncompressedStreamBytes = uncompressedStream.ToArray();
            byte[] decompressorOutputBytes = decompressorOutput.ToArray();

            Assert.Equal(uncompressedStreamBytes.Length, decompressorOutputBytes.Length);
            for (int i = 0; i < uncompressedStreamBytes.Length; i++)
            {
                Assert.Equal(uncompressedStreamBytes[i], decompressorOutputBytes[i]);
            }
        }
        public async Task FlushAsync_DuringFlushAsync()
        {
            byte[] buffer       = null;
            string testFilePath = CompressedTestFile(UncompressedTestFile());

            using (var origStream = await LocalMemoryStream.readAppFileAsync(testFilePath))
            {
                buffer = origStream.ToArray();
            }

            using (var writeStream = new ManualSyncMemoryStream(false))
                using (var zip = CreateStream(writeStream, CompressionMode.Compress))
                {
                    Task task = null;
                    try
                    {
                        writeStream.manualResetEvent.Set();
                        await zip.WriteAsync(buffer, 0, buffer.Length);

                        writeStream.manualResetEvent.Reset();
                        writeStream.WriteHit = false;
                        task = zip.FlushAsync();
                        while (!writeStream.WriteHit && task.IsCompleted)
                        {
                            zip.Write(buffer, 0, 1);
                            task = zip.FlushAsync();
                        }

                        Assert.Throws <InvalidOperationException>(() => { zip.FlushAsync(); }); // "overlapping flushes"
                    }
                    finally
                    {
                        // Unblock Async operations
                        writeStream.manualResetEvent.Set();
                        // The original WriteAsync should be able to complete
                        Assert.True(task.Wait(TaskTimeout), "Original write Task did not complete in time");
                        Assert.True(writeStream.WriteHit, "Underlying Writesync function was not called.");
                    }
                }
        }
        public async Task Read_EndOfStreamPosition()
        {
            var compressedStream = await LocalMemoryStream.readAppFileAsync(CompressedTestFile(UncompressedTestFile()));

            int compressedEndPosition = (int)compressedStream.Length;
            var rand        = new Random(1024);
            int _bufferSize = BufferSize * 2 - 568;
            var bytes       = new byte[_bufferSize];

            rand.NextBytes(bytes);
            compressedStream.Position = compressedEndPosition;
            compressedStream.Write(bytes, 0, _bufferSize);
            compressedStream.Write(bytes, 0, _bufferSize);
            compressedStream.Position = 0;
            var decompressor = CreateStream(compressedStream, CompressionMode.Decompress);

            while (decompressor.Read(bytes, 0, _bufferSize) > 0)
            {
                ;
            }
            Assert.Equal(((compressedEndPosition / BufferSize) + 1) * BufferSize, compressedStream.Position);
        }
        public async Task BaseStream_ValidAfterDisposeWithTrueLeaveOpen(CompressionMode mode)
        {
            var ms = await LocalMemoryStream.readAppFileAsync(CompressedTestFile(UncompressedTestFile()));

            var decompressor = CreateStream(ms, mode, leaveOpen: true);
            var baseStream   = BaseStream(decompressor);

            Assert.Same(ms, baseStream);
            decompressor.Dispose();

            int size = 1024;

            byte[] bytes = new byte[size];
            if (mode == CompressionMode.Compress)
            {
                baseStream.Write(bytes, 0, size);
            }
            else
            {
                baseStream.Read(bytes, 0, size);
            }
        }
        public static async Task UpdateModeInvalidOperations()
        {
            using (LocalMemoryStream ms = await LocalMemoryStream.readAppFileAsync(zfile("normal.zip")))
            {
                ZipArchive target = new ZipArchive(ms, ZipArchiveMode.Update, leaveOpen: true);

                ZipArchiveEntry edeleted = target.GetEntry("first.txt");

                Stream s = edeleted.Open();
                //invalid ops while entry open
                Assert.Throws <IOException>(() => edeleted.Open());
                Assert.Throws <InvalidOperationException>(() => { var x = edeleted.Length; });
                Assert.Throws <InvalidOperationException>(() => { var x = edeleted.CompressedLength; });
                Assert.Throws <IOException>(() => edeleted.Delete());
                s.Dispose();

                //invalid ops on stream after entry closed
                Assert.Throws <ObjectDisposedException>(() => s.ReadByte());

                Assert.Throws <InvalidOperationException>(() => { var x = edeleted.Length; });
                Assert.Throws <InvalidOperationException>(() => { var x = edeleted.CompressedLength; });

                edeleted.Delete();
                //invalid ops while entry deleted
                Assert.Throws <InvalidOperationException>(() => edeleted.Open());
                Assert.Throws <InvalidOperationException>(() => { edeleted.LastWriteTime = new DateTimeOffset(); });

                ZipArchiveEntry e = target.GetEntry("notempty/second.txt");

                target.Dispose();

                Assert.Throws <ObjectDisposedException>(() => { var x = target.Entries; });
                Assert.Throws <ObjectDisposedException>(() => target.CreateEntry("dirka"));
                Assert.Throws <ObjectDisposedException>(() => e.Open());
                Assert.Throws <ObjectDisposedException>(() => e.Delete());
                Assert.Throws <ObjectDisposedException>(() => { e.LastWriteTime = new DateTimeOffset(); });
            }
        }
Пример #27
0
 private static async Task <MemoryStream> populateStream()
 {
     return(await LocalMemoryStream.readAppFileAsync(zfile("normal.zip")));
 }