/* Copyright (c) Citrix Systems Inc. * All rights reserved. * * Redistribution and use in source and binary forms, * with or without modification, are permitted provided * that the following conditions are met: * * * Redistributions of source code must retain the above * copyright notice, this list of conditions and the * following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the * following disclaimer in the documentation and/or other * materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND * CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ using System; using System.Threading; using System.IO; using System.Drawing; using System.Drawing.Imaging; using System.Text; using System.Text.RegularExpressions; using System.Runtime.InteropServices; using System.Security.Cryptography; using XenAdmin.Core; namespace DotNetVnc { public class VNCStream { private const int THUMBNAIL_SLEEP_TIME = 500; private const int RAW_ENCODING = 0; private const int COPY_RECTANGLE_ENCODING = 1; private const int RRE_ENCODING = 2; private const int CORRE_ENCODING = 4; private const int HEXTILE_ENCODING = 5; private const int CURSOR_PSEUDO_ENCODING = -239; private const int DESKTOP_SIZE_PSEUDO_ENCODING = -223; private const int XENCENTER_ENCODING = -254; private const int SET_PIXEL_FORMAT = 0; private const int SET_ENCODINGS = 2; private const int FRAMEBUFFER_UPDATE_REQUEST = 3; private const int KEY_EVENT = 4; private const int KEY_SCAN_EVENT = 254; private const int POINTER_EVENT = 5; private const int CLIENT_CUT_TEXT = 6; private const int RAW_SUBENCODING = 1; private const int BACKGROUND_SPECIFIED_SUBENCODING = 2; private const int FOREGROUND_SPECIFIED_SUBENCODING = 4; private const int ANY_SUBRECTS_SUBENCODING = 8; private const int SUBRECTS_COLORED_SUBENCODING = 16; private const int FRAME_BUFFER_UPDATE = 0; private const int BELL = 2; private const int SERVER_CUT_TEXT = 3; private static readonly log4net.ILog Log = log4net.LogManager.GetLogger(System.Reflection.MethodBase.GetCurrentMethod().DeclaringType); private Thread thread = null; /** * Current color properties */ private int bitsPerPixel; private int bytesPerPixel; private int depth; private bool bigEndian; private bool trueColor; private int redMax; private int greenMax; private int blueMax; private int redMaxPlus1; private int greenMaxPlus1; private int blueMaxPlus1; private int redMaxOver2; private int greenMaxOver2; private int blueMaxOver2; private int redShift; private int greenShift; private int blueShift; private bool rgb565; ///

/// This event will be fired when an error occurs. The helper thread is guaranteed to be /// closing down at this point. ///

public event XenAdmin.ExceptionEventHandler ErrorOccurred = null; public event EventHandler ConnectionSuccess = null; /** * The encodings used. Note that these are ordered: preferred encoding first. */ private static readonly int[] encodings = new int[] { //HEXTILE_ENCODING, CORRE_ENCODING, RRE_ENCODING, COPY_RECTANGLE_ENCODING, RAW_ENCODING, CURSOR_PSEUDO_ENCODING, DESKTOP_SIZE_PSEUDO_ENCODING, XENCENTER_ENCODING }; private readonly IVNCGraphicsClient client; private readonly MyStream stream; private readonly Object writeLock = new Object(); private Object pauseMonitor = new Object(); private volatile bool running = true; private int width; private int height; private bool incremental; private PixelFormat pixelFormat; private PixelFormat pixelFormatCursor; private byte[] data = new byte[1228800]; //640*480*32bpp private byte[] data_8bpp = null; private readonly long imageUpdateThreshold; /* public struct StatsEntry { public double time; public int size; } */ public VNCStream(IVNCGraphicsClient client, Stream stream, bool startPaused) { this.client = client; this.stream = new MyStream(stream); this.paused = startPaused; long freq; if (!Win32.QueryPerformanceFrequency(out freq)) { System.Diagnostics.Trace.Assert(false); } imageUpdateThreshold = freq / 3; } public void connect(char[] password) { System.Diagnostics.Trace.Assert(thread == null); thread = new Thread(this.run); thread.Name = String.Format("VNC connection to {0} - {1}", client.VmName, client.UUID); thread.IsBackground = true; thread.Start(password); } private ProtocolVersion getProtocolVersion() { byte[] buffer = new byte[12]; this.stream.readFully(buffer, 0, 12); char[] chars = new char[12]; Encoding.ASCII.GetDecoder().GetChars(buffer, 0, 12, chars, 0); String s = new String(chars); Regex regex = new Regex("RFB ([0-9]{3})\\.([0-9]{3})\n"); Match match = regex.Match(s); if (!match.Success) { throw new VNCException("expected protocol version: " + s); } return new ProtocolVersion(Int32.Parse(match.Groups[1].Value), Int32.Parse(match.Groups[2].Value)); } private void sendProtocolVersion() { lock (this.writeLock) { byte[] bytes = Encoding.ASCII.GetBytes("RFB 003.003\n"); this.stream.Write(bytes, 0, bytes.Length); this.stream.Flush(); } } private void readPixelFormat() { this.bitsPerPixel = this.stream.readCard8(); this.depth = this.stream.readCard8(); this.bigEndian = this.stream.readFlag(); this.trueColor = this.stream.readFlag(); this.redMax = this.stream.readCard16(); this.greenMax = this.stream.readCard16(); this.blueMax = this.stream.readCard16(); this.redShift = this.stream.readCard8(); this.greenShift = this.stream.readCard8(); this.blueShift = this.stream.readCard8(); this.stream.readPadding(3); Log.Debug("readPixelFormat " + this.bitsPerPixel + " " + this.depth); } private void writePixelFormat() { Log.Debug("writePixelFormat " + this.bitsPerPixel + " " + this.depth); this.stream.writeInt8(SET_PIXEL_FORMAT); this.stream.writePadding(3); this.stream.writeInt8(this.bitsPerPixel); this.stream.writeInt8(this.depth); this.stream.writeFlag(this.bigEndian); this.stream.writeFlag(this.trueColor); this.stream.writeInt16(this.redMax); this.stream.writeInt16(this.greenMax); this.stream.writeInt16(this.blueMax); this.stream.writeInt8(this.redShift); this.stream.writeInt8(this.greenShift); this.stream.writeInt8(this.blueShift); this.stream.writePadding(3); } private void force32bpp() { Log.Debug("force32bpp()"); this.bitsPerPixel = 32; this.depth = 24; this.trueColor = true; this.redMax = 255; this.greenMax = 255; this.blueMax = 255; this.redShift = 16; this.greenShift = 8; this.blueShift = 0; // Note that we keep the endian value from the server. setupPixelFormat(); lock (this.writeLock) { writePixelFormat(); } } private void setupPixelFormat() { Log.Debug("setupPixelFormat(" + bitsPerPixel + ")"); bytesPerPixel = bitsPerPixel >> 3; redMaxPlus1 = redMax + 1; greenMaxPlus1 = greenMax + 1; blueMaxPlus1 = blueMax + 1; redMaxOver2 = redMax >> 1; greenMaxOver2 = greenMax >> 1; blueMaxOver2 = blueMax >> 1; if (bitsPerPixel == 32 || bitsPerPixel == 8) { pixelFormat = PixelFormat.Format32bppRgb; pixelFormatCursor = PixelFormat.Format32bppArgb; } else if (bitsPerPixel == 16) { rgb565 = redShift == 11; pixelFormat = rgb565 ? PixelFormat.Format16bppRgb565 : PixelFormat.Format16bppRgb555; pixelFormatCursor = PixelFormat.Format16bppArgb1555; } else { throw new IOException("unexpected bits per pixel: " + bitsPerPixel); } } private void writeSetEncodings() { Log.Debug("writeSetEncodings"); this.stream.writeInt8(SET_ENCODINGS); this.stream.writePadding(1); this.stream.writeInt16(encodings.Length); for (int i = 0; i < encodings.Length; ++i) { this.stream.writeInt32(encodings[i]); } } private void writeFramebufferUpdateRequest( int x, int y, int width, int height, bool incremental ) { this.stream.writeInt8(FRAMEBUFFER_UPDATE_REQUEST); this.stream.writeFlag(incremental); this.stream.writeInt16(x); this.stream.writeInt16(y); this.stream.writeInt16(width); this.stream.writeInt16(height); } private void handshake() { ProtocolVersion protocolVersion = getProtocolVersion(); if (protocolVersion.major < 3) { throw new VNCException( "don't know protocol version " + protocolVersion.major ); } } private void authenticationExchange(char[] password) { Log.Debug("authenticationExchange"); int scheme = this.stream.readCard32(); if (scheme == 0) { String reason = this.stream.readString(); throw new VNCException("connection failed: " + reason); } else if (scheme == 1) { // no authentication needed } else if (scheme == 2) { PasswordAuthentication(password); } else { throw new VNCException( "unexpected authentication scheme: " + scheme ); } } private void PasswordAuthentication(char[] password) { byte[] keyBytes = new byte[8]; for (int i = 0; (i < 8) && (i < password.Length); ++i) { keyBytes[i] = reverse((byte)password[i]); } DESCryptoServiceProvider des = new DESCryptoServiceProvider(); des.Padding = PaddingMode.None; des.Mode = CipherMode.ECB; ICryptoTransform chiper = des.CreateEncryptor(keyBytes, null); byte[] challenge = new byte[16]; this.stream.readFully(challenge, 0, 16); byte[] response = chiper.TransformFinalBlock(challenge, 0, 16); this.stream.Write(response, 0, 16); this.stream.Flush(); int status = this.stream.readCard32(); if (status == 0) { // ok } else if (status == 1 || status == 2) { throw new VNCAuthenticationException(); } else { throw new VNCException("Bad Authentication Response"); } } private static byte reverse(byte v) { byte r = 0; if ((v & 0x01) != 0) r |= 0x80; if ((v & 0x02) != 0) r |= 0x40; if ((v & 0x04) != 0) r |= 0x20; if ((v & 0x08) != 0) r |= 0x10; if ((v & 0x10) != 0) r |= 0x08; if ((v & 0x20) != 0) r |= 0x04; if ((v & 0x40) != 0) r |= 0x02; if ((v & 0x80) != 0) r |= 0x01; return r; } private void clientInitialization() { Log.Debug("clientInitialisation"); lock (this.writeLock) { this.stream.writeFlag(true); // shared this.stream.Flush(); } } private void serverInitialization() { Log.Debug("serverInitialisation"); int width = this.stream.readCard16(); int height = this.stream.readCard16(); readPixelFormat(); stream.readString(); /* The desktop name -- we don't care. */ if (trueColor) { setupPixelFormat(); lock (writeLock) { writePixelFormat(); } } else { force32bpp(); } desktopSize(width, height); lock (this.writeLock) { writeSetEncodings(); } } /** * Expects to be lock on writeLock. */ private void writeKey(int command, bool down, int key) { this.stream.writeInt8(command); //Send Scancodes this.stream.writeFlag(down); this.stream.writePadding(2); this.stream.writeInt32(key); } public void keyScanEvent(bool down, int key) { lock (this.writeLock) { try { writeKey(KEY_SCAN_EVENT, down, key); this.stream.Flush(); } catch (IOException e) { Log.Warn(e, e); } } } public void keyCodeEvent(bool down, int key) { lock (this.writeLock) { try { writeKey(KEY_EVENT, down, key); this.stream.Flush(); } catch (IOException e) { Log.Warn(e, e); } } } public void pointerEvent(int buttonMask, int x, int y) { if (x < 0) { x = 0; } else if (x >= width) { x = width - 1; } if (y < 0) { y = 0; } else if (y >= height) { y = height - 1; } lock (this.writeLock) { try { pointerEvent_(buttonMask, x, y); this.stream.Flush(); } catch (IOException e) { Log.Warn(e, e); } } } public void pointerWheelEvent(int x, int y, int r) { lock (this.writeLock) { try { /* The RFB protocol specifies a down-up pair for each scroll of the wheel, on button 4 for scrolling up, and button 5 for scrolling down. */ int m; if (r < 0) { r = -r; m = 8; } else { m = 16; } for (int i = 0; i < r; i++) { pointerEvent_(m, x, y); pointerEvent_(0, x, y); } this.stream.Flush(); } catch (IOException e) { Log.Warn(e, e); } } } private void pointerEvent_(int buttonMask, int x, int y) { this.stream.writeInt8(POINTER_EVENT); this.stream.writeInt8(buttonMask); this.stream.writeInt16(x); this.stream.writeInt16(y); } public void clientCutText(String text) { Log.Debug("cutEvent"); lock (this.writeLock) { try { this.stream.writeInt8(CLIENT_CUT_TEXT); this.stream.writePadding(3); this.stream.writeString(text); this.stream.Flush(); } catch (IOException e) { Log.Warn(e, e); } } } ///

/// Creates an image in place in this.data. It expects the pixel data to already be in this.data. ///

/// the start of image data in this.data /// the length of image data in this data /// length of cursor mask (after the image in this.data), as specified by /// the RFB protocol specification for the Cursor pseudo-encoding (1-bpp, packed). If 0, /// the mask is assumed to be totally opaque (as used by normal "raw" packets). Masks are not /// supported for 8-bpp images. private void createImage(int width, int height, int x, int y, int start, int length, int mask_length, bool cursor) { if (width == 0 || height == 0) return; byte[] data_to_render; int stride; if (bitsPerPixel == 32) { stride = width * 4; data_to_render = data; System.Diagnostics.Debug.Assert(length == height * stride); if (cursor) { // for mask int j = 0; // bit within the current byte (k) int k = start + length; //byte int m = 0; // bit within the current row for (int i = start; i < start + length; i += 4) { bool mask = (data[k] & (1 << (7 - j))) == 0; data[i + 3] = (byte)(mask ? 0 : 0xff); j++; m++; if (m == width) { j = 0; m = 0; k++; } else if (j > 7) { j = 0; k++; } } } } else if (bitsPerPixel == 16) { // Bitmap requires that stride is a multiple of 4, so we // will have to expand the data if width is odd. bool expand_data = width % 2 == 1; int stride_correction = expand_data ? 2 : 0; stride = width * 2 + stride_correction; data_to_render = expand_data ? new byte[stride * height] : data; System.Diagnostics.Debug.Assert(length == height * width * 2); if (cursor) { int p = 0; // Byte within the destination data_to_render. // for mask int j = 0; // bit within the current byte (k) int k = start + length; //byte int m = 0; // bit within the current row for (int i = start; i < start + length; i += 2) { bool mask = (data[k] & (1 << (7 - j))) == 0; byte mask_bit = (byte)(mask ? 0 : 0x80); if (rgb565) { // Convert the 565 data into 1555. data_to_render[p] = (byte)((data[i] & 0x1f) | ((data[i] & 0xe0) >> 1)); data_to_render[p + 1] = (byte)(((data[i + 1] & 0x7) >> 1) | (data[i + 1] & 0x78) | mask_bit); } else { // Add the mask bit -- everything else is OK because it's already 555. data_to_render[p] = data[i]; data_to_render[p + 1] = (byte)(data[i + 1] | mask_bit); } j++; m++; p += 2; if (m == width) { j = 0; m = 0; k++; p += stride_correction; } else if (j > 7) { j = 0; k++; } } } else if (expand_data) { int w2 = width * 2; int i = start; // Byte within the source data. int p = 0; // Byte within the destination data_to_render. for (int m = 0; m < height; m++) { Array.Copy(data, i, data_to_render, p, w2); i += w2; p += stride; } } } else if (bitsPerPixel == 8) { stride = width * 4; data_to_render = data_8bpp; System.Diagnostics.Debug.Assert(length == width * height); // for mask int j = 0; // bit within the current byte (k) int k = start + length; //byte int m = 0; // bit within the current row for (int i = start, n = 0; i < start + length; i++, n += 4) { data_8bpp[n + 2] = (byte)(((((data[i] >> redShift) & redMax) << 8) + redMaxOver2) / redMaxPlus1); data_8bpp[n + 1] = (byte)(((((data[i] >> greenShift) & greenMax) << 8) + greenMaxOver2) / greenMaxPlus1); data_8bpp[n] = (byte)(((((data[i] >> blueShift) & blueMax) << 8) + blueMaxOver2) / blueMaxPlus1); if (cursor) { bool mask = (data[k] & (1 << (7 - j))) == 0; data_8bpp[n + 3] = (byte)(mask ? 0 : 0xff); j++; m++; if (m == width) { j = 0; m = 0; k++; } else if (j > 7) { j = 0; k++; } } else { data_8bpp[n + 3] = 0; } } } else { throw new Exception("unexpected bits per pixel"); } BitmapToClient(width, height, x, y, start, stride, cursor, data_to_render); } private void BitmapToClient(int width, int height, int x, int y, int start, int stride, bool cursor, byte [] img) { GCHandle handle = GCHandle.Alloc(img, GCHandleType.Pinned); try { IntPtr pointer = Marshal.UnsafeAddrOfPinnedArrayElement(img, start); using (Bitmap bitmap = new Bitmap(width, height, stride, cursor ? pixelFormatCursor : pixelFormat, pointer)) { if (cursor) { client.ClientSetCursor(bitmap, x, y, width, height); } else { client.ClientDrawImage(bitmap, x, y, width, height); } } } catch (ArgumentException exn) { Log.Error(exn, exn); } finally { handle.Free(); } } private void readRawEncoding(int x, int y, int width, int height) { readRawEncoding_(0, x, y, width, height, false); } /** * @param mask If true, read a mask after the raw data, as used by the * Cursor pseudo-encoding. * @param start The position in this.data to start using */ private void readRawEncoding_(int start, int x, int y, int width, int height, bool cursor) { if (width < 0 || height < 0) { throw new VNCException("Invalid size: " + width + " x " + height); } int length = width * height * bytesPerPixel; if (data.Length < start + length) throw new VNCException("Server error: received rectangle bigger than desktop!"); this.stream.readFully(this.data, start, length); int mask_length = 0; if (cursor) { // 1 bit mask. int scanline = (width + 7) >> 3; mask_length = scanline * height; System.Diagnostics.Trace.Assert(this.data.Length >= start + length + mask_length); this.stream.readFully(this.data, start + length, mask_length); } createImage(width, height, x, y, start, length, mask_length, cursor); } private void readCopyRectangleEncoding(int dx, int dy, int width, int height) { int x = this.stream.readCard16(); int y = this.stream.readCard16(); client.ClientCopyRectangle(x, y, width, height, dx, dy); } private Color readColor() { byte[] color = readColorBytes(); return Color.FromArgb(color[2], color[1], color[0]); } private byte[] readColorBytes(byte[] color, int start) { uint pixel = bitsPerPixel == 32 ? (uint)(color[start] | color[start + 1] << 8 | color[start + 2] << 16 | color[start + 3] << 24) : bitsPerPixel == 16 ? (uint)(color[start] | color[start + 1] << 8) : (uint)color[start]; byte[] newColor = new byte[4]; //ARGB Encoding newColor[3] = 0xFF; newColor[2] = (byte)(((((pixel >> redShift) & redMax) << 8) + redMaxOver2) / redMaxPlus1); newColor[1] = (byte)(((((pixel >> greenShift) & greenMax) << 8) + greenMaxOver2) / greenMaxPlus1); newColor[0] = (byte)(((((pixel >> blueShift) & blueMax) << 8) + blueMaxOver2) / blueMaxPlus1); return newColor; } private byte[] readColorBytes() { int n = bitsPerPixel >> 3; byte[] color = new byte[n]; this.stream.readFully(color, 0, n); return readColorBytes(color, 0); } private void readRREEncoding(int x, int y, int width, int height) { int n = this.stream.readCard32(); Color background = readColor(); client.ClientFillRectangle(x, y, width, height, background); for (int i = 0; i < n; ++i) { Color foreground = readColor(); int rx = this.stream.readCard16(); int ry = this.stream.readCard16(); int rw = this.stream.readCard16(); int rh = this.stream.readCard16(); client.ClientFillRectangle(x + rx, y + ry, rw, rh, foreground); } } private void readCoRREEncoding(int x, int y, int width, int height) { int n = this.stream.readCard32(); Color background = readColor(); client.ClientFillRectangle(x, y, width, height, background); for (int i = 0; i < n; ++i) { Color foreground = readColor(); int rx = this.stream.readCard8(); int ry = this.stream.readCard8(); int rw = this.stream.readCard8(); int rh = this.stream.readCard8(); client.ClientFillRectangle(x + rx, y + ry, rw, rh, foreground); } } private void readFillRectangles(int rx, int ry, int n) { int pixelSize = (this.bitsPerPixel + 7) >> 3; int length = n * (pixelSize + 2); this.stream.readFully(data, 0, length); int index = 0; for (int i = 0; i < n; ++i) { Color foreground = readColor(); int sxy = data[index++] & 0xff; int sx = sxy >> 4; int sy = sxy & 0xf; int swh = data[index++] & 0xff; int sw = (swh >> 4) + 1; int sh = (swh & 0xf) + 1; client.ClientFillRectangle( rx + sx, ry + sy, sw, sh, foreground ); } } private void readRectangles(int rx, int ry, int n, Color foreground) { for (int i = 0; i < n; ++i) { int sxy = this.stream.readCard8(); int sx = sxy >> 4; int sy = sxy & 0xf; int swh = this.stream.readCard8(); int sw = (swh >> 4) + 1; int sh = (swh & 0xf) + 1; client.ClientFillRectangle( rx + sx, ry + sy, sw, sh, foreground ); } } private void fillRectBytes(byte[] data, int stride, int x, int y, int width, int height, byte[] color) { // Fast path thin rectangles int p = (y * stride) + (x * 4); int skip; if (width == 1 && height == 1) { data[p + 0] = color[0]; data[p + 1] = color[1]; data[p + 2] = color[2]; data[p + 3] = color[3]; } else if (width == 1) { skip = stride - 4; for (int i = 0; i < height; i++) { data[p + 0] = color[0]; data[p + 1] = color[1]; data[p + 2] = color[2]; data[p + 3] = color[3]; p += skip; } } else if (height == 1) { for (int i = 0; i < width; i++) { data[p + 0] = color[0]; data[p + 1] = color[1]; data[p + 2] = color[2]; data[p + 3] = color[3]; p += 4; } } else { skip = stride - (width * 4); for (int j = 0; j < height; j++) { for (int i = 0; i < width; i++) { data[p + 0] = color[0]; data[p + 1] = color[1]; data[p + 2] = color[2]; data[p + 3] = color[3]; p += 4; } p += skip; } } } private void readHextileEncoding(int x, int y, int width, int height) { /* * Basically, we have two ways of doing this. * 1. Draw the hextile to a byte buffer, convert to image * and draw to client * 2. Draw the individual rectangles of the hex encoding * directly to the client * * I have found its faster to do 1) when size is > 64 */ //GraphicsUtils.startTime(); if (width * height > 64) { byte[] background = { 0, 0, 0, 0xFF }; // Black byte[] foreground = { 0xFF, 0xFF, 0xFF, 0xFF }; // White byte[] buff = new byte[width * height * 4]; //assume 32 bpp int stride = width * 4; for (int sy = 0; sy < height; sy += 16) { int sheight = Math.Min(16, height - sy); for (int sx = 0; sx < width; sx += 16) { int swidth = Math.Min(16, width - sx); int mask = this.stream.readCard8(); if ((mask & RAW_SUBENCODING) != 0) { int length = swidth * sheight * 4; this.stream.readFully(this.data, 0, length); int index = 0; int skip = stride - (swidth * 4); int p = (sy * stride) + (sx * 4); for (int i = 0; i < sheight; i++) { for (int j = 0; j < swidth; j++) { byte[] color = readColorBytes(this.data, index); index += 4; //assumed 32bpp here buff[p + 3] = color[3]; buff[p + 2] = color[2]; buff[p + 1] = color[1]; buff[p + 0] = color[0]; p += 4; } p += skip; } } else { if ((mask & BACKGROUND_SPECIFIED_SUBENCODING) != 0) { background = readColorBytes(); } fillRectBytes(buff, stride, sx, sy, swidth, sheight, background); if ((mask & FOREGROUND_SPECIFIED_SUBENCODING) != 0) { foreground = readColorBytes(); } if ((mask & ANY_SUBRECTS_SUBENCODING) != 0) { int n = this.stream.readCard8(); if ((mask & SUBRECTS_COLORED_SUBENCODING) != 0) { int length = n * 6; //assume 32bpp this.stream.readFully(data, 0, length); int index = 0; for (int i = 0; i < n; ++i) { byte[] color = new byte[4]; uint pixel = (uint)(data[index + 0] & 0xFF | data[index + 1] << 8 | data[index + 2] << 16 | data[index + 3] << 24); //ARGB Encoding color[3] = 0xFF; color[2] = (byte)((pixel >> this.redShift) & this.redMax); color[1] = (byte)((pixel >> this.greenShift) & this.greenMax); color[0] = (byte)((pixel >> this.blueShift) & this.blueMax); index += 4; int txy = data[index++] & 0xff; int tx = txy >> 4; int ty = txy & 0xf; int twh = data[index++] & 0xff; int tw = (twh >> 4) + 1; int th = (twh & 0xf) + 1; this.fillRectBytes( buff, stride, sx + tx, sy + ty, tw, th, color ); } } else { for (int i = 0; i < n; ++i) { int txy = this.stream.readCard8(); int tx = txy >> 4; int ty = txy & 0xf; int twh = this.stream.readCard8(); int tw = (twh >> 4) + 1; int th = (twh & 0xf) + 1; this.fillRectBytes( buff, stride, sx + tx, sy + ty, tw, th, foreground ); } } } } } } // Now convert to image and write to screen GCHandle handle = GCHandle.Alloc(buff, GCHandleType.Pinned); try { IntPtr pointer = Marshal.UnsafeAddrOfPinnedArrayElement(buff, 0); using (Bitmap bitmap = new Bitmap(width, height, stride, PixelFormat.Format32bppArgb, pointer)) { client.ClientDrawImage(bitmap, x, y, width, height); } } finally { handle.Free(); } } else { Color foreground = Color.White; Color background = Color.Black; int xCount = (width + 15) >> 4; int yCount = (height + 15) >> 4; for (int yi = 0; yi < yCount; ++yi) { int ry = y + (yi << 4); int rh = (yi == (yCount - 1)) ? height & 0xf : 16; if (rh == 0) { rh = 16; } for (int xi = 0; xi < xCount; ++xi) { int rx = x + (xi << 4); int rw = (xi == (xCount - 1)) ? width & 0xf : 16; if (rw == 0) { rw = 16; } int mask = this.stream.readCard8(); if ((mask & RAW_SUBENCODING) != 0) { readRawEncoding(rx, ry, rw, rh); } else { if ((mask & BACKGROUND_SPECIFIED_SUBENCODING) != 0) { background = readColor(); } client.ClientFillRectangle(rx, ry, rw, rh, background); if ((mask & FOREGROUND_SPECIFIED_SUBENCODING) != 0) { foreground = readColor(); } if ((mask & ANY_SUBRECTS_SUBENCODING) != 0) { int n = this.stream.readCard8(); if ((mask & SUBRECTS_COLORED_SUBENCODING) != 0) { readFillRectangles(rx, ry, n); } else { readRectangles(rx, ry, n, foreground); } } } } } } /*double time = GraphicsUtils.endTime("hextile"); int size = width * height; StatsEntry entry = new StatsEntry(); entry.time = time; entry.size = size; this.client.stats.Add(entry);*/ } private void readCursorPseudoEncoding(int x, int y, int width, int height) { readRawEncoding_(0, x, y, width, height, true); } private void readFrameBufferUpdate() { this.stream.readPadding(1); int n = this.stream.readCard16(); Log.Debug("reading " + n + " rectangles"); bool fb_updated = false; long start; long end; Win32.QueryPerformanceCounter(out start); for (int i = 0; i < n; ++i) { int x = this.stream.readCard16(); int y = this.stream.readCard16(); int width = this.stream.readCard16(); int height = this.stream.readCard16(); int encoding = this.stream.readCard32(); Log.Debug("read " + x + " " + y + " " + width + " " + height + " " + encoding); switch (encoding) { case RAW_ENCODING: readRawEncoding(x, y, width, height); break; case RRE_ENCODING: readRREEncoding(x, y, width, height); break; case CORRE_ENCODING: readCoRREEncoding(x, y, width, height); break; case COPY_RECTANGLE_ENCODING: readCopyRectangleEncoding(x, y, width, height); break; case HEXTILE_ENCODING: readHextileEncoding(x, y, width, height); break; case CURSOR_PSEUDO_ENCODING: readCursorPseudoEncoding(x, y, width, height); break; case DESKTOP_SIZE_PSEUDO_ENCODING: desktopSize(width, height); // Since the desktop size has changed, we want a full buffer update next time incremental = false; break; default: throw new VNCException("unimplemented encoding: " + encoding); } Win32.QueryPerformanceCounter(out end); if (end - start > imageUpdateThreshold) { client.ClientFrameBufferUpdate(); start = end; fb_updated = true; } else { fb_updated = false; } } if (!fb_updated) client.ClientFrameBufferUpdate(); } private void desktopSize(int width, int height) { this.width = width; this.height = height; int neededBytes = width * height * bytesPerPixel; if (neededBytes > data.Length) { data = new byte[neededBytes]; } if (bitsPerPixel == 8 && (data_8bpp == null || neededBytes * 4 > data_8bpp.Length)) { data_8bpp = new byte[neededBytes * 4]; } client.ClientDesktopSize(width, height); } private void readServerCutText() { this.stream.readPadding(3); String text = this.stream.readString(); client.ClientCutText(text); } private void readServerMessage() { Log.Debug("readServerMessage"); int type = this.stream.readCard8(); switch (type) { case FRAME_BUFFER_UPDATE: Log.Debug("Update"); //GraphicsUtils.startTime(); readFrameBufferUpdate(); //GraphicsUtils.endTime("readFrameBufferUpdate"); break; case BELL: Log.Debug("Bell"); client.ClientBell(); break; case SERVER_CUT_TEXT: Log.Debug("Cut text"); readServerCutText(); break; default: throw new VNCException("unknown server message: " + type); } } public readonly Object updateMonitor = new Object(); private void run(object o) { char[] password = (char[])o; try { handshake(); sendProtocolVersion(); authenticationExchange(password); clientInitialization(); serverInitialization(); if (ConnectionSuccess != null) ConnectionSuccess(this, null); // Request a full framebuffer update the first time incremental = false; while (running) { lock (this.writeLock) { writeFramebufferUpdateRequest(0, 0, width, height, incremental); this.stream.Flush(); } incremental = true; readServerMessage(); lock (pauseMonitor) { lock(updateMonitor) Monitor.PulseAll(updateMonitor); if (paused) Monitor.Wait(pauseMonitor); } } } catch (Exception e) { if (running && this.ErrorOccurred != null) ErrorOccurred(this, e); } } ///

/// Nothrow guarantee. ///

public void Close() { if (!running) return; running = false; try { stream.Close(); lock (pauseMonitor) Monitor.PulseAll(this.pauseMonitor); thread.Interrupt(); } catch { } } private bool paused = true; public void Pause() { paused = true; } public void Unpause(bool fullupdate) { incremental = !fullupdate; paused = false; lock (this.pauseMonitor) Monitor.PulseAll(this.pauseMonitor); } public void Unpause() { Unpause(false); } } }