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I am learning WCF, LINQ and a few other technologies by writing, from scratch, a custom remote control application like VNC. I am creating it with three main goals in mind:

  1. The server will provide 'remote control' on an application level (i.e. seamless windows) instead of full desktop access.
  2. The client can select any number of applications that are running on the server and receive a stream of images of each of them.
  3. A client can connect to more than one server simultaneously.

Right now I am using WCF to send an array of Bytes that represents the window being sent:

using (var ms = new MemoryStream()) {
    window.GetBitmap().Save(ms, ImageFormat.Jpeg);
    frame.Snapshot = ms.ToArray();

GetBitmap implementation:

var wRectangle = GetRectangle();
var image = new Bitmap(wRectangle.Width, wRectangle.Height);
var gfx = Graphics.FromImage(image);

gfx.CopyFromScreen(wRectangle.Left, wRectangle.Top, 0, 0, wRectangle.Size, CopyPixelOperation.SourceCopy);

return image;

It is then sent via WCF (TCPBinding and it will always be over LAN) to the client and reconstructed in a blank windows form with no border like this:

using (var ms = new MemoryStream(_currentFrame.Snapshot))
    BackgroundImage = Image.FromStream(ms);

I would like to make this process as efficient as possible in both CPU and memory usage with bandwidth coming in third place. I am aiming to have the client connect to 5+ servers with 10+ applications per server.

Is my existing method the best approach (while continuing to use these technologies) and is there anything I can do to improve it?

Ideas that I am looking into (but I have no experience with):

  • Using an open source graphics library to capture and save the images instead of .Net solution.
  • Saving as PNG or another image type rather than JPG.
  • Send image deltas instead of a full image every time.
  • Try and 'record' the windows and create a compressed video stream instead of picture snapshots (mpeg?).
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7 Answers 7

up vote 18 down vote accepted

You should be aware for this points:

Just after passing through all this steps and being satisfied with your final code, you can download VncSharp source code. It implements the RFB Protocol (Wikipedia entry), "a simple protocol for remote access to graphical user interfaces. Because it works at the framebuffer level it is applicable to all windowing systems and applications, including X11, Windows and Macintosh. RFB is the protocol used in VNC (Virtual Network Computing)."

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Check out this: Large Data and Streaming (WCF)

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I've already read through that section on msdn before asking the question here... I'm very keen to understand what should be changed in my approach and why. – InvertedAcceleration Dec 2 '09 at 0:01

I worked on a similar project a while back. This was my general approach:

  • Rasterized the captured bitmap to tiles of 32x32
  • To determine which tiles had changed between frames I used unsafe code to compare them 64-bits at a time
  • On the set of delta tiles I applied one of the PNG filters to improve compressability and had the best results with the Paeth filter
  • Used DeflateStream to compress the filtered deltas
  • Used BinaryMessageEncoding custom binding to the service to transmit the data in Binary in stead of the default Base64 encoded version

Some client-side considerations. When dealing with large amounts of data being transferred through a WCF service I found that some parameters of the HttpTransportBinding and the XmlDictionaryRenderQuotas were set to pretty conservative values. So you will want to increase them.

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"On the set of delta tiles I applied one of the PNG filters to improve compressability and had the best results with the Paeth filter" I was wondering how this would be accomplished in C#, as I see no where to apply such a filter, and EncoderParameters doesn't accept anything of the sort Any tips? – DTI-Matt Jul 11 '12 at 13:35

The fastest way to send data between client/server is to send a byte array, or several byte arrays. That way WCF don't have to do any custom serialization on your data.

That said. You should use the new WPF/.Net 3.5 library to compress your images instead of the ones from System.Drawing. The functions in the System.Windows.Media.Imaging namespace are faster than the old ones, and can still be used in winforms.

In order to know if compression is the way to go you will have to benchmark your scenario to know how the compression/decompression time compares to transferring all the bytes uncompressed.

If you transfer the data over internet, then compression will help for sure. Between components on the same machine or on a LAN, the benefit might not be so obvious.

You could also try compressing the image, then chunk the data and send asynchronously with a chunk id which you puzzle together on the client. Tcp connections start slow and increase in bandwidth over time, so starting two or four at the same time should cut the total transfer time (all depending on how much data you are sending). Chunking the compressed images bytes is also easier logic wise compared to doing tiles in the actual images.

Summed up: System.Windows.Media.Imaging should help you both cpu and bandwidth wise compared to your current code. Memory wise I would guess about the same.

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Instead of capturing the entire image just send smaller subsections of the image. Meaning: starting in the upper left corner, send a 10x10 pixel image, then 'move' ten pixels and send the next 10px square, and so on. You can then send dozens of small images and then update the painted full image on the client. If you've used RDC to view images on a remote machine you've probably seen it do this sort of screen painting.

Using the smaller image sections you can then split up the deltas as well, so if nothing has changed in the current section you can safely skip it, inform the client that you're skipping it, and then move onto the next section.

You'll definitely want to use compression for sending the images. However you should check to see if you get smaller file sizes from using compression similar to gZip, or if using an image codec gives you better results. I've never run a comparison, so I can't say for certain one way or another.

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Yep I feel that splitting the image into tiles and detecting whether a tile has changed since the last frame is definitely an optimisation that I need to implement. I think the most effective path is to get everything working as well as possible on the whole image first (get the right compression, detect if the image has changed since last frame, use the fastest method to serialise the image, etc) and then split the image and apply all the improvements to each tile. – InvertedAcceleration Dec 2 '09 at 0:07
I will check out the size difference of the various image formats VS generic compression but I am pretty confident that for compression to be really effective it needs to be context specific. I think jpg and png will produce much smaller image sizes than a bmp compressed using bzip or gzip. – InvertedAcceleration Dec 2 '09 at 0:12
  1. Your solution looks fine to me, but I suggest (as others did) you use tiles and compress the traffic when possible. In addition, I think you should send the entire image once a while, just to be sure that the client's deltas have a common "base".

  2. Perhaps you can use an existing solution for streaming, such as RTP-H263 for video streaming. It works great, it uses compression, and it's well documented and widely used. You can then skip the WCF part and go directly to the streaming part (either over TCP or over UDP). If your solution should go to production, perhaps the H263 streaming approach would be better in terms of responsiveness and network usage.

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Bitmap scrImg = new Bitmap(Screen.PrimaryScreen.Bounds.Width, Screen.PrimaryScreen.Bounds.Height);
Graphics scr;
scr.CopyFromScreen(new Point(0, 0), new Point(0, 0), Screen.PrimaryScreen.Bounds.Size);
testPictureBox.Image = (Image)scrImg;

I use this code to capture my screen.

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