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I am trying to find a way of printing images to a zebra and having a lot of trouble.

According to the docs:

The first encoding, known as B64, encodes the data using the MIME Base64 scheme. Base64 is used to encode e-mail atachedments ...
Base64 encodes six bits to the byte, for an expantion of 33 percent over the un-enclosed data.
The second encoding, known as Z64, first compresses the data using the LZ77 algorithm to reduce its size. (This algorithm is used by the PKZIP and is intergral to the PNG graphics format.)
The compressed data is then encoded using the MIME Base64 scheme as described above.
A CRC will be calculated accross the Base64-encoded data.

But it doesn't have a great deal more info.

Basically I was trying encoding with

private byte[] GetItemFromPath(string filepath)
{   
    using (MemoryStream ms = new MemoryStream())
    {
        using (Image img = Image.FromFile(filepath))
        {
            img.Save(ms, ImageFormat.Png);
            return ms.ToArray();
        }
    }
}

Then trying to print with something like:

var initialArray = GetItemFromPath("C:\\RED.png");
string converted = Convert.ToBase64String(b);

PrintThis(string.Format(@"~DYRED.PNG,P,P,{1},0,:B64:
{0}
^XA
^F0200,200^XGRED.PNG,1,1^FS
^XZ", converted .ToString(), initialArray.Length));

From the sounds of it, either B64 or Z64 are both accepted.

I've tried a few variations, and a couple of methods for generating the CRC and calculating the 'size'. But none seem to work and the download of the graphics to the printer is always getting aborted.

Has anyone managed to accomplish something like this? Or knows where I am going wrong?

share|improve this question
    
I've had most success using standard windows printing. i.e. Print an image as you would to a standard printer. Providing the printer settings / stock is set up correctly it will print fine. –  George Duckett Jan 11 '12 at 11:47
    
This is a route i've looked into, but I don't think I'll be able to install the drivers to every PC (they are all on a citrix farm) and cannot attach a printer locally to each machine that may need it. –  jb. Jan 11 '12 at 14:45
    
In that case I'm not sure, as that's the only way I've done it in the past. Only thing i can think of is make a program sitting on the server that looks for image files, then have client PCs write to that folder, or write a proper client/server. –  George Duckett Jan 11 '12 at 14:47

3 Answers 3

All credit for me coming to this answer was from LabView Forum user Raydur. He posts a LabView solution that can be opened up in LabView to send images down. I personally didn't run it with my printer, I just used it to figure out the correct image code so I could replicate it in my code. The big thing that I was missing was padding my Hexadecimal code. For example: 1A is fine, but if you have just A, you need to pad a 0 in front of it to send 0A. The size of the file in the ZPL you are sending is also the original size of the byte array, not the final string representation of the data.

I've scoured many, many, many forums and Stackoverflow posts trying to figure this out because it seems like such a simple thing to do. I've tried every single solution posted elsewhere but I really wanted to just print a .PNG because the manual for my printer(Mobile QLN320) has support for it built in. It says to either send it in Base64 or Hexadecimal, and I tried both to no avail. For anyone wanting to do Base64, I found in a older manual that you need to manually calculate CRC codes for each packet you send so I chose to go with the easier Hexadecimal route. So here is the code I got to work!

        string ipAddress = "192.168.1.30";
        int port = 6101;

        string zplImageData = string.Empty;
        //Make sure no transparency exists. I had some trouble with this. This PNG has a white background
        string filePath = @"C:\Users\Path\To\Logo.png";
        byte[] binaryData = System.IO.File.ReadAllBytes(filePath);
        foreach (Byte b in binaryData)
        {
            string hexRep = String.Format("{0:X}", b);
            if (hexRep.Length == 1)
                hexRep = "0" + hexRep;
            zplImageData += hexRep;
          }
          string zplToSend = "^XA" + "^MNN" + "^LL500" + "~DYE:LOGO,P,P," + binaryData.Length + ",," + zplImageData+"^XZ";
          string printImage = "^XA^FO115,50^IME:LOGO.PNG^FS^XZ";

        try
        {
            // Open connection
            System.Net.Sockets.TcpClient client = new System.Net.Sockets.TcpClient();
            client.Connect(ipAddress, port);

            // Write ZPL String to connection
            System.IO.StreamWriter writer = new System.IO.StreamWriter(client.GetStream(),Encoding.UTF8);
            writer.Write(zplToSend);
            writer.Flush();
            writer.Write(printImage);
            writer.Flush();
            // Close Connection
            writer.Close();
            client.Close();
        }
        catch (Exception ex)
        {
            // Catch Exception
        }
share|improve this answer
    
Hmmm, this isn't working for me.... know if this would work for a GK420t? –  Calvin Aug 27 '14 at 16:05
    
Im using a TCP stream but by default the printers have it turned off. Have you made sure TCP is enabled? and that your printer supports it/ wireless? What is the error you are getting? –  Warren Sep 8 '14 at 22:35

After looking at the ZPL manual you need to calculate the CRC for the image. Here is a https://en.wikipedia.org/wiki/Cyclic_redundancy_check that shows you how to calculate the CRC. Everything else you are sending down looks good. I would look into using one of the Zebra SDKs. I know the Android one will send an image to the printer and save it for you.

share|improve this answer
2  
And this is why link only answers are bad - that link is dead :( –  Wayne Werner Nov 4 '14 at 15:40

The ZPL II Programming Guide documents the ~DG command and GRF format (page 124) to download images. Volume Two adds details on an optional compression format (page 52).

First, you have to convert the image to a 1bpp bi-level image, then convert it to a hex-encoded string. You can further compress the image to reduce transmission time. You can then print the image with the ^ID command.

While there is inherent support for PNG images in the ~DY command, it is poorly documented and does not seem to work on certain models of printers. The ZB64 format is basically not documented, and attempts to get more information from Zebra support have been fruitless. If you have your heart set on ZB64, you can use the Java based Zebralink SDK (look to ImagePrintDemo.java and com.zebra.sdk.printer.internal.GraphicsConversionUtilZpl.sendImageToStream).

Once you have the command data, it can be sent via TCP/IP if the printer has a print-server, or it can be sent by writing in RAW format to the printer.

The code below prints a 5 kB PNG as a 13 kB compressed GRF (60 kB uncompressed):

class Program
{
    static unsafe void Main(string[] args)
    {
        var baseStream = new MemoryStream();
        var tw = new StreamWriter(baseStream, Encoding.UTF8);

        using (var bmpSrc = new Bitmap(Image.FromFile(@"label.png")))
        {
            tw.WriteLine(ZplImage.GetGrfStoreCommand("R:LBLRA2.GRF", bmpSrc));
        }
        tw.WriteLine(ZplImage.GetGrfPrintCommand("R:LBLRA2.GRF"));
        tw.WriteLine(ZplImage.GetGrfDeleteCommand("R:LBLRA2.GRF"));

        tw.Flush();
        baseStream.Position = 0;

        var gdipj = new GdiPrintJob("ZEBRA S4M-200dpi ZPL", GdiPrintJobDataType.Raw, "Raw print", null);
        gdipj.WritePage(baseStream);
        gdipj.CompleteJob();
    }
}

class ZplImage
{
    public static string GetGrfStoreCommand(string filename, Bitmap bmpSource)
    {
        if (bmpSource == null)
        {
            throw new ArgumentNullException("bmpSource");
        }
        validateFilename(filename);

        var dim = new Rectangle(Point.Empty, bmpSource.Size);
        var stride = ((dim.Width + 7) / 8);
        var bytes = stride * dim.Height;

        using (var bmpCompressed = bmpSource.Clone(dim, PixelFormat.Format1bppIndexed))
        {
            var result = new StringBuilder();

            result.AppendFormat("^XA~DG{2},{0},{1},", stride * dim.Height, stride, filename);
            byte[][] imageData = GetImageData(dim, stride, bmpCompressed);

            byte[] previousRow = null;
            foreach (var row in imageData)
            {
                appendLine(row, previousRow, result);
                previousRow = row;
            }
            result.Append(@"^FS^XZ");

            return result.ToString();
        }
    }

    public static string GetGrfDeleteCommand(string filename)
    {
        validateFilename(filename);

        return string.Format("^XA^ID{0}^FS^XZ", filename);
    }

    public static string GetGrfPrintCommand(string filename)
    {
        validateFilename(filename);

        return string.Format("^XA^FO0,0^XG{0},1,1^FS^XZ", filename);
    }

    static Regex regexFilename = new Regex("^[REBA]:[A-Z0-9]{1,8}\\.GRF$");

    private static void validateFilename(string filename)
    {
        if (!regexFilename.IsMatch(filename))
        {
            throw new ArgumentException("Filename must be in the format "
                + "R:XXXXXXXX.GRF.  Drives are R, E, B, A.  Filename can "
                + "be alphanumeric between 1 and 8 characters.", "filename");
        }
    }

    unsafe private static byte[][] GetImageData(Rectangle dim, int stride, Bitmap bmpCompressed)
    {
        byte[][] imageData;
        var data = bmpCompressed.LockBits(dim, ImageLockMode.ReadOnly, PixelFormat.Format1bppIndexed);
        try
        {
            byte* pixelData = (byte*)data.Scan0.ToPointer();
            byte rightMask = (byte)(0xff << (data.Stride * 8 - dim.Width));
            imageData = new byte[dim.Height][];

            for (int row = 0; row < dim.Height; row++)
            {
                byte* rowStart = pixelData + row * data.Stride;
                imageData[row] = new byte[stride];

                for (int col = 0; col < stride; col++)
                {
                    byte f = (byte)(0xff ^ rowStart[col]);
                    f = (col == stride - 1) ? (byte)(f & rightMask) : f;
                    imageData[row][col] = f;
                }
            }
        }
        finally
        {
            bmpCompressed.UnlockBits(data);
        }
        return imageData;
    }

    private static void appendLine(byte[] row, byte[] previousRow, StringBuilder baseStream)
    {
        if (row.All(r => r == 0))
        {
            baseStream.Append(",");
            return;
        }

        if (row.All(r => r == 0xff))
        {
            baseStream.Append("!");
            return;
        }

        if (previousRow != null && MatchByteArray(row, previousRow))
        {
            baseStream.Append(":");
            return;
        }

        byte[] nibbles = new byte[row.Length * 2];
        for (int i = 0; i < row.Length; i++)
        {
            nibbles[i * 2] = (byte)(row[i] >> 4);
            nibbles[i * 2 + 1] = (byte)(row[i] & 0x0f);
        }

        for (int i = 0; i < nibbles.Length; i++)
        {
            byte cPixel = nibbles[i];

            int repeatCount = 0;
            for (int j = i; j < nibbles.Length && repeatCount <= 400; j++)
            {
                if (cPixel == nibbles[j])
                {
                    repeatCount++;
                }
                else
                {
                    break;
                }
            }

            if (repeatCount > 2)
            {
                if (repeatCount == nibbles.Length - i
                    && (cPixel == 0 || cPixel == 0xf))
                {
                    if (cPixel == 0)
                    {
                        if (i % 2 == 1)
                        {
                            baseStream.Append("0");
                        }
                        baseStream.Append(",");
                        return;
                    }
                    else if (cPixel == 0xf)
                    {
                        if (i % 2 == 1)
                        {
                            baseStream.Append("F");
                        }
                        baseStream.Append("!");
                        return;
                    }
                }
                else
                {
                    baseStream.Append(getRepeatCode(repeatCount));
                    i += repeatCount - 1;
                }
            }
            baseStream.Append(cPixel.ToString("X"));
        }
    }

    private static string getRepeatCode(int repeatCount)
    {
        if (repeatCount > 419)
            throw new ArgumentOutOfRangeException();

        int high = repeatCount / 20;
        int low = repeatCount % 20;

        const string lowString = " GHIJKLMNOPQRSTUVWXY";
        const string highString = " ghijklmnopqrstuvwxyz";

        string repeatStr = "";
        if (high > 0)
        {
            repeatStr += highString[high];
        }
        if (low > 0)
        {
            repeatStr += lowString[low];
        }

        return repeatStr;
    }

    private static bool MatchByteArray(byte[] row, byte[] previousRow)
    {
        for (int i = 0; i < row.Length; i++)
        {
            if (row[i] != previousRow[i])
            {
                return false;
            }
        }

        return true;
    }
}

internal static class NativeMethods
{
    #region winspool.drv

    #region P/Invokes

    [DllImport("winspool.Drv", SetLastError = true, CharSet = CharSet.Unicode)]
    internal static extern bool OpenPrinter(string szPrinter, out IntPtr hPrinter, IntPtr pd);

    [DllImport("winspool.Drv", SetLastError = true, CharSet = CharSet.Unicode)]
    internal static extern bool ClosePrinter(IntPtr hPrinter);

    [DllImport("winspool.Drv", SetLastError = true, CharSet = CharSet.Unicode)]
    internal static extern UInt32 StartDocPrinter(IntPtr hPrinter, Int32 level, IntPtr di);

    [DllImport("winspool.Drv", SetLastError = true, CharSet = CharSet.Unicode)]
    internal static extern bool EndDocPrinter(IntPtr hPrinter);

    [DllImport("winspool.Drv", SetLastError = true, CharSet = CharSet.Unicode)]
    internal static extern bool StartPagePrinter(IntPtr hPrinter);

    [DllImport("winspool.Drv", SetLastError = true, CharSet = CharSet.Unicode)]
    internal static extern bool EndPagePrinter(IntPtr hPrinter);

    [DllImport("winspool.Drv", SetLastError = true, CharSet = CharSet.Unicode)]
    internal static extern bool WritePrinter(
        // 0
        IntPtr hPrinter,
        [MarshalAs(UnmanagedType.LPArray, SizeParamIndex = 2)] byte[] pBytes,
        // 2
        UInt32 dwCount,
        out UInt32 dwWritten);

    #endregion

    #region Structs

    [StructLayout(LayoutKind.Sequential)]
    internal struct DOC_INFO_1
    {
        [MarshalAs(UnmanagedType.LPWStr)]
        public string DocName;
        [MarshalAs(UnmanagedType.LPWStr)]
        public string OutputFile;
        [MarshalAs(UnmanagedType.LPWStr)]
        public string Datatype;
    }

    #endregion

    #endregion
}

/// <summary>
/// Represents a print job in a spooler queue
/// </summary>
public class GdiPrintJob
{
    IntPtr PrinterHandle;
    IntPtr DocHandle;

    /// <summary>
    /// The ID assigned by the print spooler to identify the job
    /// </summary>
    public UInt32 PrintJobID { get; private set; }

    /// <summary>
    /// Create a print job with a enumerated datatype
    /// </summary>
    /// <param name="PrinterName"></param>
    /// <param name="dataType"></param>
    /// <param name="jobName"></param>
    /// <param name="outputFileName"></param>
    public GdiPrintJob(string PrinterName, GdiPrintJobDataType dataType, string jobName, string outputFileName)
        : this(PrinterName, translateType(dataType), jobName, outputFileName)
    {
    }

    /// <summary>
    /// Create a print job with a string datatype
    /// </summary>
    /// <param name="PrinterName"></param>
    /// <param name="dataType"></param>
    /// <param name="jobName"></param>
    /// <param name="outputFileName"></param>
    public GdiPrintJob(string PrinterName, string dataType, string jobName, string outputFileName)
    {
        if (string.IsNullOrWhiteSpace(PrinterName))
            throw new ArgumentNullException("PrinterName");
        if (string.IsNullOrWhiteSpace(dataType))
            throw new ArgumentNullException("PrinterName");

        IntPtr hPrinter;
        if (!NativeMethods.OpenPrinter(PrinterName, out hPrinter, IntPtr.Zero))
            throw new Win32Exception();
        this.PrinterHandle = hPrinter;

        NativeMethods.DOC_INFO_1 docInfo = new NativeMethods.DOC_INFO_1()
        {
            DocName = jobName,
            Datatype = dataType,
            OutputFile = outputFileName
        };
        IntPtr pDocInfo = Marshal.AllocHGlobal(Marshal.SizeOf(docInfo));
        RuntimeHelpers.PrepareConstrainedRegions();
        try
        {
            Marshal.StructureToPtr(docInfo, pDocInfo, false);
            UInt32 docid = NativeMethods.StartDocPrinter(hPrinter, 1, pDocInfo);
            if (docid == 0)
                throw new Win32Exception();
            this.PrintJobID = docid;
        }
        finally
        {
            Marshal.FreeHGlobal(pDocInfo);
        }
    }

    /// <summary>
    /// Write the data of a single page or a precomposed PCL document
    /// </summary>
    /// <param name="data"></param>
    public void WritePage(Stream data)
    {
        if (data == null)
            throw new ArgumentNullException("data");
        if (!data.CanRead && !data.CanWrite)
            throw new ObjectDisposedException("data");
        if (!data.CanRead)
            throw new NotSupportedException("stream is not readable");

        if (!NativeMethods.StartPagePrinter(this.PrinterHandle))
            throw new Win32Exception();

        byte[] buffer = new byte[0x14000]; /* 80k is Stream.CopyTo default */
        uint read = 1;
        while ((read = (uint)data.Read(buffer, 0, buffer.Length)) != 0)
        {
            UInt32 written;
            if (!NativeMethods.WritePrinter(this.PrinterHandle, buffer, read, out written))
                throw new Win32Exception();

            if (written != read)
                throw new InvalidOperationException("Error while writing to stream");
        }

        if (!NativeMethods.EndPagePrinter(this.PrinterHandle))
            throw new Win32Exception();
    }

    /// <summary>
    /// Complete the current job
    /// </summary>
    public void CompleteJob()
    {
        if (!NativeMethods.EndDocPrinter(this.PrinterHandle))
            throw new Win32Exception();
    }

    #region datatypes
    private readonly static string[] dataTypes = new string[] 
    { 
        // 0
        null, 
        "RAW", 
        // 2
        "RAW [FF appended]",
        "RAW [FF auto]",
        // 4
        "NT EMF 1.003", 
        "NT EMF 1.006",
        // 6
        "NT EMF 1.007", 
        "NT EMF 1.008", 
        // 8
        "TEXT", 
        "XPS_PASS", 
        // 10
        "XPS2GDI" 
    };

    private static string translateType(GdiPrintJobDataType type)
    {
        return dataTypes[(int)type];
    }
    #endregion
}

public enum GdiPrintJobDataType
{
    Unknown = 0,
    Raw = 1,
    RawAppendFF = 2,
    RawAuto = 3,
    NtEmf1003 = 4,
    NtEmf1006 = 5,
    NtEmf1007 = 6,
    NtEmf1008 = 7,
    Text = 8,
    XpsPass = 9,
    Xps2Gdi = 10
}
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