using System; using System.IO; namespace SabreTools.Library.Skippers { ///

/// Individual test that applies to a SkipperRule ///

public class SkipperTest { #region Fields ///

/// Type of test to be run ///

public HeaderSkipTest Type { get; set; } ///

/// File offset to run the test ///

/// null is EOF public long? Offset { get; set; } ///

/// Static value to be checked at the offset ///

public byte[] Value { get; set; } ///

/// Determines whether a pass or failure is expected ///

public bool Result { get; set; } ///

/// Byte mask to be applied to the tested bytes ///

public byte[] Mask { get; set; } ///

/// Expected size of the input byte array, used with the Operator ///

public long? Size { get; set; } // null is PO2, "power of 2" filesize ///

/// Expected range value for the input byte array size, used with Size ///

public HeaderSkipTestFileOperator Operator { get; set; } #endregion ///

/// Check if a stream passes the test ///

/// Stream to check rule against /// The Stream is assumed to be in the proper position for a given test public bool Passes(Stream input) { #if NET_FRAMEWORK switch (Type) { case HeaderSkipTest.And: return CheckAnd(input); case HeaderSkipTest.Data: return CheckData(input); case HeaderSkipTest.File: return CheckFile(input); case HeaderSkipTest.Or: return CheckOr(input); case HeaderSkipTest.Xor: return CheckXor(input); default: return true; } #else return Type switch { HeaderSkipTest.And => CheckAnd(input), HeaderSkipTest.Data => CheckData(input), HeaderSkipTest.File => CheckFile(input), HeaderSkipTest.Or => CheckOr(input), HeaderSkipTest.Xor => CheckXor(input), _ => true, }; #endif } #region Checking Helpers ///

/// Run an And test against an input stream ///

/// Stream to check rule against /// True if the stream passed, false otherwise private bool CheckAnd(Stream input) { // First seek to the correct position Seek(input); bool result = true; try { // Then apply the mask if it exists byte[] read = new byte[Mask.Length]; input.Read(read, 0, Mask.Length); byte[] masked = new byte[Mask.Length]; for (int i = 0; i < read.Length; i++) { masked[i] = (byte)(read[i] & Mask[i]); } // Finally, compare it against the value for (int i = 0; i < Value.Length; i++) { if (masked[i] != Value[i]) { result = false; break; } } } catch { result = false; } // Return if the expected and actual results match return result == Result; } ///

/// Run a Data test against an input stream ///

/// Stream to check rule against /// True if the stream passed, false otherwise private bool CheckData(Stream input) { // First seek to the correct position if (!Seek(input)) return false; // Then read and compare bytewise bool result = true; for (int i = 0; i < Value.Length; i++) { try { if (input.ReadByte() != Value[i]) { result = false; break; } } catch { result = false; break; } } // Return if the expected and actual results match return result == Result; } ///

/// Run a File test against an input stream ///

/// Stream to check rule against /// True if the stream passed, false otherwise private bool CheckFile(Stream input) { // First get the file size from stream long size = input.Length; // If we have a null size, check that the size is a power of 2 bool result = true; if (Size == null) { // http://stackoverflow.com/questions/600293/how-to-check-if-a-number-is-a-power-of-2 result = (((ulong)size & ((ulong)size - 1)) == 0); } else if (Operator == HeaderSkipTestFileOperator.Less) { result = (size < Size); } else if (Operator == HeaderSkipTestFileOperator.Greater) { result = (size > Size); } else if (Operator == HeaderSkipTestFileOperator.Equal) { result = (size == Size); } // Return if the expected and actual results match return result == Result; } ///

/// Run an Or test against an input stream ///

/// Stream to check rule against /// True if the stream passed, false otherwise private bool CheckOr(Stream input) { // First seek to the correct position Seek(input); bool result = true; try { // Then apply the mask if it exists byte[] read = new byte[Mask.Length]; input.Read(read, 0, Mask.Length); byte[] masked = new byte[Mask.Length]; for (int i = 0; i < read.Length; i++) { masked[i] = (byte)(read[i] | Mask[i]); } // Finally, compare it against the value for (int i = 0; i < Value.Length; i++) { if (masked[i] != Value[i]) { result = false; break; } } } catch { result = false; } // Return if the expected and actual results match return result == Result; } ///

/// Run an Xor test against an input stream ///

/// Stream to check rule against /// True if the stream passed, false otherwise private bool CheckXor(Stream input) { // First seek to the correct position Seek(input); bool result = true; try { // Then apply the mask if it exists byte[] read = new byte[Mask.Length]; input.Read(read, 0, Mask.Length); byte[] masked = new byte[Mask.Length]; for (int i = 0; i < read.Length; i++) { masked[i] = (byte)(read[i] ^ Mask[i]); } // Finally, compare it against the value for (int i = 0; i < Value.Length; i++) { if (masked[i] != Value[i]) { result = false; break; } } } catch { result = false; } // Return if the expected and actual results match return result == Result; } ///

/// Seek an input stream based on the test value ///

/// Stream to seek /// True if the stream could seek, false on error private bool Seek(Stream input) { try { // Null offset means EOF if (Offset == null) input.Seek(0, SeekOrigin.End); // Positive offset means from beginning else if (Offset >= 0 && Offset <= input.Length) input.Seek(Offset.Value, SeekOrigin.Begin); // Negative offset means from end else if (Offset < 0 && Math.Abs(Offset.Value) <= input.Length) input.Seek(Offset.Value, SeekOrigin.End); return true; } catch { return false; } } #endregion } }