public Ntfs.NtfsFileSystem NtfsFileSystem() { SparseMemoryBuffer buffer = new SparseMemoryBuffer(4096); SparseMemoryStream ms = new SparseMemoryStream(); Geometry diskGeometry = Geometry.FromCapacity(30 * 1024 * 1024); return(Ntfs.NtfsFileSystem.Format(ms, "", diskGeometry, 0, diskGeometry.TotalSectorsLong)); }
private static DiscFileSystem FatFileSystem() { SparseMemoryBuffer buffer = new SparseMemoryBuffer(4096); SparseMemoryStream ms = new SparseMemoryStream(); Geometry diskGeometry = Geometry.FromCapacity(30 * 1024 * 1024); return(Fat.FatFileSystem.FormatFloppy(ms, FloppyDiskType.Extended, null)); }
public static DiscFileSystem DiagnosticNtfsFileSystem() { SparseMemoryBuffer buffer = new SparseMemoryBuffer(4096); SparseMemoryStream ms = new SparseMemoryStream(); Geometry diskGeometry = Geometry.FromCapacity(30 * 1024 * 1024); Ntfs.NtfsFileSystem.Format(ms, "", diskGeometry, 0, diskGeometry.TotalSectorsLong); var discFs = new DiscUtils.Diagnostics.ValidatingFileSystem <Ntfs.NtfsFileSystem, Ntfs.NtfsFileSystemChecker>(ms); discFs.CheckpointInterval = 1; discFs.GlobalIOTraceCapturesStackTraces = false; return(discFs); }
public void FromCapacity() { // Check the capacity calculated is no greater than requested, and off by no more than 10% const long ThreeTwentyMB = 1024 * 1024 * 320; Geometry g = Geometry.FromCapacity(ThreeTwentyMB); Assert.That(g.Capacity <= ThreeTwentyMB && g.Capacity > ThreeTwentyMB * 0.9); // Check exact sizes are maintained - do one pass to allow for finding a geometry that matches // the algorithm - then expect identical results each time. Geometry startGeometry = new Geometry(333, 22, 11); Geometry trip1 = Geometry.FromCapacity(startGeometry.Capacity); Assert.AreEqual(trip1, Geometry.FromCapacity(trip1.Capacity)); }
public void Equals() { Assert.AreEqual(Geometry.FromCapacity(1024 * 1024 * 32), Geometry.FromCapacity(1024 * 1024 * 32)); }