Difference between revisions of "2253"

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Line 1: Line 1:
 +
== Solving devices with serial number 0 ==
 +
 +
See [[Windows10Privacy|Turn on Windows 10 app access for camera and microphone]].
 +
 
== Installation Prerequisites for CentOS/Fedora ==
 
== Installation Prerequisites for CentOS/Fedora ==
  
 
   sudo yum install kernel-devel ImageMagick-devel
 
   sudo yum install kernel-devel ImageMagick-devel
 
  
 
== Cross-compiling Linux driver for ARM ==
 
== Cross-compiling Linux driver for ARM ==
Line 26: Line 29:
 
   [  378.488958] usb 9-1: device descriptor read/8, error -75
 
   [  378.488958] usb 9-1: device descriptor read/8, error -75
  
Reconnect the device to a USB 2.0 port, or contact support@sensoray.com for RMA. Boards manufactured after April 2013 have corrected this issue. (Windows is not affected.)
+
Reconnect the device to a USB 2.0 port, or contact support@sensoray.com for RMA. Boards manufactured after April 2013 have corrected this issue. (Windows is not affected.)
 
+
  
 
== Overlays ==
 
== Overlays ==
Line 48: Line 50:
 
One line of text for each video stream (A, B, Output) up to 160 characters, and may include newline (^n) or date (^d) or time (^t) codes inserted.
 
One line of text for each video stream (A, B, Output) up to 160 characters, and may include newline (^n) or date (^d) or time (^t) codes inserted.
  
For styled text, there are 16 overlay regions for Stream A and B, and 255 regions for Output Stream.  Bitmaps or PNG images can only be used on the Output Stream.  The overlay resolution is not directly limited, but the decoding of the PNG image takes time, and transferring large BMP images over USB and then decoding takes time.  For the Output Stream, the overlay image is applied to a masking buffer once and the output video is rendered in hardware.  For the Encoded Streams, the overlay image must be rendered in software for every frame, and too many or too large overlays can cause video frames to be dropped.  
+
For styled text, there are 16 overlay regions for Stream A and B, and 255 regions for Output Stream.  Bitmaps or PNG images can only be used on the Output Stream.  The overlay resolution is not directly limited, but the decoding of the PNG image takes time, and transferring large BMP images over USB and then decoding takes time.  For the Output Stream, the overlay image is applied to a masking buffer once and the output video is rendered in hardware.  For the Encoded Streams, the overlay image must be rendered in software for every frame, and too many or too large overlays can cause video frames to be dropped.
 
+
  
 
== Example for Preview Bitmap Drawing in C# ==
 
== Example for Preview Bitmap Drawing in C# ==
Line 59: Line 60:
 
Below is sample code to draw a Bitmap to the video preview in C#:
 
Below is sample code to draw a Bitmap to the video preview in C#:
  
            Bitmap mybmp = new Bitmap(100, 100);
+
Bitmap mybmp = new Bitmap(100, 100);
            S2253.NORMALIZEDRECT nRect;
+
S2253.NORMALIZEDRECT nRect;
            int retVal;
+
int retVal;
            S2253.RECTANGLE sRect;
+
S2253.RECTANGLE sRect;
            sRect.left = 0;
+
sRect.left = 0;
            sRect.top = 0;
+
sRect.top = 0;
            sRect.right = mybmp.Width;
+
sRect.right = mybmp.Width;
            sRect.bottom = mybmp.Height;
+
sRect.bottom = mybmp.Height;
            Graphics myGraphics = Graphics.FromImage(mybmp);
+
Graphics myGraphics = Graphics.FromImage(mybmp);
 
              
 
              
            myGraphics.DrawLine(new Pen(Color.Green, 5.0f), new Point(0, 0), new Point(50, 50));
+
myGraphics.DrawLine(new Pen(Color.Green, 5.0f), new Point(0, 0), new Point(50, 50));
            nRect.bottom = 0.9f;
+
nRect.bottom = 0.9f;
            nRect.top = 0.1f;
+
nRect.top = 0.1f;
            nRect.left = 0.1f;
+
nRect.left = 0.1f;
            nRect.right = 0.9f;
+
nRect.right = 0.9f;
            IntPtr hdcBMP = myGraphics.GetHdc();
+
IntPtr hdcBMP = myGraphics.GetHdc();
            S2253.SelectObject(hdcBMP, mybmp.GetHbitmap());
+
S2253.SelectObject(hdcBMP, mybmp.GetHbitmap());
            retVal = S2253.DrawBitmap(hdcBMP, ref sRect, ref nRect, 0.5f, 0, 0);
+
retVal = S2253.DrawBitmap(hdcBMP, ref sRect, ref nRect, 0.5f, 0, 0);
            myGraphics.ReleaseHdc();
+
myGraphics.ReleaseHdc();
  
 
In mid2253.cs, define the following if it does not already exist:
 
In mid2253.cs, define the following if it does not already exist:
  
        public struct RECTANGLE
+
public struct RECTANGLE {
        {
+
    public Int32 left;
            public Int32 left;
+
    public Int32 top;
            public Int32 top;
+
    public Int32 right;
            public Int32 right;
+
    public Int32 bottom;
            public Int32 bottom;
+
};
        };
+
public struct NORMALIZEDRECT {
        public struct NORMALIZEDRECT {
+
    public float left;
            public float left;
+
    public float top;
            public float top;
+
    public float right;
            public float right;
+
    public float bottom;
            public float bottom;
+
};
        };
+
  
        public static Int32 DrawBitmap(IntPtr hdcBMP, ref RECTANGLE src,
+
public static Int32 DrawBitmap(IntPtr hdcBMP, ref RECTANGLE src,
                                        ref NORMALIZEDRECT dst, float alpha, int devid, int strmid) {
+
                      ref NORMALIZEDRECT dst, float alpha, int devid, int strmid)
            int retVal;
+
{
            retVal = S2253_DrawBitmap(hdcBMP, ref src, ref dst, alpha, devid, strmid);
+
  int retVal;
            return retVal;
+
  retVal = S2253_DrawBitmap(hdcBMP, ref src, ref dst, alpha, devid, strmid);
        }
+
  return retVal;
 +
}
  
        public static Int32 DrawBitmapColorRef(IntPtr hdcBMP, ref RECTANGLE src,
+
public static Int32 DrawBitmapColorRef(IntPtr hdcBMP, ref RECTANGLE src,
                                        ref NORMALIZEDRECT dst, float alpha, UInt32 clrSrcKey, int devid, int strmid) {
+
                      ref NORMALIZEDRECT dst, float alpha, UInt32 clrSrcKey, int devid, int strmid)
            int retVal;
+
{
            retVal = S2253_DrawBitmapColorRef(hdcBMP, ref src, ref dst, alpha, clrSrcKey, devid, strmid);
+
  int retVal;
            return retVal;
+
  retVal = S2253_DrawBitmapColorRef(hdcBMP, ref src, ref dst, alpha, clrSrcKey, devid, strmid);
        }
+
  return retVal;
 +
}
  
        [DllImport("mid2253.dll", CallingConvention = CallingConvention.StdCall, SetLastError = true)]
+
[DllImport("mid2253.dll", CallingConvention = CallingConvention.StdCall, SetLastError = true)]
        static extern Int32 S2253_DrawBitmap(IntPtr hdcBMP, ref RECTANGLE src, ref NORMALIZEDRECT dst,
+
static extern Int32 S2253_DrawBitmap(IntPtr hdcBMP, ref RECTANGLE src, ref NORMALIZEDRECT dst, _
 
                                         float alpha, int devid, int strmidx);
 
                                         float alpha, int devid, int strmidx);
  
        [DllImport("mid2253.dll", CallingConvention = CallingConvention.StdCall, SetLastError = true)]
+
[DllImport("mid2253.dll", CallingConvention = CallingConvention.StdCall, SetLastError = true)]
        static extern Int32 S2253_DrawBitmapColorRef(IntPtr hdcBMP, ref RECTANGLE src, ref NORMALIZEDRECT dst,
+
static extern Int32 S2253_DrawBitmapColorRef(IntPtr hdcBMP, ref RECTANGLE src, ref NORMALIZEDRECT dst, _
 
                                         float alpha, UInt32 clrSrcKey, int devid, int strmidx);
 
                                         float alpha, UInt32 clrSrcKey, int devid, int strmidx);
  
        [DllImport("gdi32.dll", EntryPoint = "SelectObject", CallingConvention = CallingConvention.Cdecl)]
+
[DllImport("gdi32.dll", EntryPoint = "SelectObject", CallingConvention = CallingConvention.Cdecl)]
        public static extern IntPtr SelectObject(IntPtr hdc, IntPtr h);
+
public static extern IntPtr SelectObject(IntPtr hdc, IntPtr h);
  
 
== Monochrome Overlay on Device with C# ==
 
== Monochrome Overlay on Device with C# ==
Line 128: Line 130:
 
  public struct MID2253_OSD_BMP
 
  public struct MID2253_OSD_BMP
 
  {
 
  {
   public int osdOn;               // OSD on if != 0
+
   public int osdOn;     // OSD on if != 0
   public int osdChan;       // osd channel to update.  osdChan=0 for stream A, osdChan=1 for stream B, osdChan=2 for output, osdChan=3 for both streams
+
   public int osdChan;   // osd channel to update: 0 = stream A; 1 = stream B, 2 = output, 3 = both streams
   public int id;               // region id: 0..15
+
   public int id;       // region id: 0..15
   public int xoffset;       // x offset: relative to left
+
   public int xoffset;   // x offset: relative to left
   public int yoffset;       // y offset: relative to top
+
   public int yoffset;   // y offset: relative to top
   public IntPtr bmp;               // pointer to bitmap image data (as loaded from file)
+
   public IntPtr bmp;   // pointer to bitmap image data (as loaded from file)
 
  };
 
  };
 
  
 
Add the following to mid2253.cs:
 
Add the following to mid2253.cs:
  
  public static Int32 SetOsd( ref MID2253_OSD_BMP osd, Int32 devid, Int32 strmidx )
+
  public static Int32 SetOsd(ref MID2253_OSD_BMP osd, Int32 devid, Int32 strmidx)
 
  {
 
  {
 
   int hr;
 
   int hr;
Line 150: Line 151:
 
   r.bmp = osd.bmp;
 
   r.bmp = osd.bmp;
 
   
 
   
   hr = S2253_SetOsd( MID2253_OSDTYPE.MID2253_OSDTYPE_BMP, ref r, devid, strmidx );
+
   hr = S2253_SetOsd(MID2253_OSDTYPE.MID2253_OSDTYPE_BMP, ref r, devid, strmidx);
 
   return hr;
 
   return hr;
 
  }
 
  }
Line 156: Line 157:
 
Example code for C# Form loading bitmap from file:
 
Example code for C# Form loading bitmap from file:
 
  {
 
  {
            int brd_idx = 0;
+
  int brd_idx = 0;
            int streamIdx = 0;
+
  int streamIdx = 0;
            MemoryStream strm = new MemoryStream();
+
  MemoryStream strm = new MemoryStream();
            S2253.MID2253_OSD_BMP osdBmp = new S2253.MID2253_OSD_BMP();
+
  S2253.MID2253_OSD_BMP osdBmp = new S2253.MID2253_OSD_BMP();
            ImageConverter converter = new ImageConverter();
+
  ImageConverter converter = new ImageConverter();
            Bitmap mybmp = (Bitmap) Bitmap.FromFile("Logo.bmp");
+
  Bitmap mybmp = (Bitmap) Bitmap.FromFile("Logo.bmp");
            byte[] bmpByteArray = new byte[0];
+
  byte[] bmpByteArray = new byte[0];
            using (strm) {
+
  using (strm) {
                mybmp.Save(strm, System.Drawing.Imaging.ImageFormat.Bmp);
+
    mybmp.Save(strm, System.Drawing.Imaging.ImageFormat.Bmp);
                strm.Close();
+
    strm.Close();
                bmpByteArray = strm.ToArray();
+
    bmpByteArray = strm.ToArray();
            }
+
  }
 
              
 
              
            GCHandle pinnedArray = GCHandle.Alloc(bmpByteArray, GCHandleType.Pinned);
+
  GCHandle pinnedArray = GCHandle.Alloc(bmpByteArray, GCHandleType.Pinned);
            IntPtr ptr = pinnedArray.AddrOfPinnedObject();
+
  IntPtr ptr = pinnedArray.AddrOfPinnedObject();
            osdBmp.bmp = ptr;
+
  osdBmp.bmp = ptr;
            osdBmp.id = 1;
+
  osdBmp.id = 1;
            osdBmp.osdChan = 3;
+
  osdBmp.osdChan = 3;
            osdBmp.osdOn = 1;
+
  osdBmp.osdOn = 1;
            osdBmp.xoffset = 50;
+
  osdBmp.xoffset = 50;
            osdBmp.yoffset = 50;
+
  osdBmp.yoffset = 50;
            int retVal = S2253.SetOsd(ref osdBmp, brd_idx, streamIdx);
+
  int retVal = S2253.SetOsd(ref osdBmp, brd_idx, streamIdx);
            pinnedArray.Free();
+
  pinnedArray.Free();
 
  }
 
  }
  
Line 185: Line 186:
 
This example shows how to do overlay type #3 listed above.  The overlay will appear in recorded files, snapshots, and the composite video output.
 
This example shows how to do overlay type #3 listed above.  The overlay will appear in recorded files, snapshots, and the composite video output.
  
    {
+
{
        MID2253_OSD_DATA osd;
+
  MID2253_OSD_DATA osd;
        FILE *fin;
+
  FILE *fin;
        unsigned char *pdata;
+
  unsigned char *pdata;
        size_t rsize;
+
  size_t rsize;
        osd.osdbmp.id = 0;
+
  osd.osdbmp.id = 0;
        osd.osdbmp.osdOn = 1;
+
  osd.osdbmp.osdOn = 1;
        osd.osdbmp.osdChan = 3;
+
  osd.osdbmp.osdChan = 3;
        osd.osdbmp.xoffset = 200;
+
  osd.osdbmp.xoffset = 200;
        osd.osdbmp.yoffset = 300;
+
  osd.osdbmp.yoffset = 300;
        fin = fopen("logo.bmp", "rb");
+
  fin = fopen("logo.bmp", "rb");
        pdata = (unsigned char *) malloc(50*1024);
+
  pdata = (unsigned char *) malloc(50 * 1024);
        rsize = fread(pdata, 1, 50*1024, fin);
+
  rsize = fread(pdata, 1, 50*1024, fin);
        osd.osdbmp.bmp = pdata;
+
  osd.osdbmp.bmp = pdata;
        S2253_SetOsd(MID2253_OSDTYPE_BMP, &osd, 0, 0);
+
  S2253_SetOsd(MID2253_OSDTYPE_BMP, &osd, 0, 0);
        free(pdata);
+
  free(pdata);
        fclose(fin);
+
  fclose(fin);
    }
+
}
 
+
  
Note: Above code is for demonstration purposes only. Please add error checking to production code.
+
'''Note:''' Above code is for demonstration purposes only. Please add error checking to production code.
  
 
== Troubleshooting LEDs ==
 
== Troubleshooting LEDs ==
  
 
{| class="wikitable"
 
{| class="wikitable"
! D1(green) || D2(red) || D3(amber) || status
+
! D1<br>green || D2<br>red || D3<br>amber || Status
 
|-
 
|-
 
| on || || || board has power
 
| on || || || board has power
Line 225: Line 225:
  
  
[[Category:Products]]
+
[[Category:2253| ]]

Latest revision as of 09:48, 10 March 2022

Contents

[edit] Solving devices with serial number 0

See Turn on Windows 10 app access for camera and microphone.

[edit] Installation Prerequisites for CentOS/Fedora

 sudo yum install kernel-devel ImageMagick-devel

[edit] Cross-compiling Linux driver for ARM

From sdk_2253_x.y.z_linux/driver:

 PATH=<path-to-cross-compiler/bin>:$PATH \
 make -C <path-to-target-kernel-directory> SUBDIRS=`pwd` \
 CROSS_COMPILE=arm-none-linux-gnueabi- ARCH=arm modules

Copy the s2253.ko file to the target's /lib/modules/`uname -r`/extra directory, and run "depmod -a".

For the demo application, modify the Makefile path to the cross compiler, then do "make demo_arm".

See also: 2253_Raspberry_Pi, 2253_Toradex

[edit] Connecting to USB 3.0 ports on Linux

When connecting the board to a port on a USB 3.0 (SuperSpeed) hub, if the device does not work, check the dmesg log for these messages:

 [  378.352045] usb 9-1: new high-speed USB device number 19 using xhci_hcd
 [  378.369004] usb 9-1: device descriptor read/8, error -75
 [  378.488958] usb 9-1: device descriptor read/8, error -75

Reconnect the device to a USB 2.0 port, or contact support@sensoray.com for RMA. Boards manufactured after April 2013 have corrected this issue. (Windows is not affected.)

[edit] Overlays

The 2253 has three types of overlays.

1) Overlay (Bitmap) on the physical composite output video channel. S2253_SetOverlay, S2253_StreamOverlay

In the manual, S2253_StreamOverlay talks of the input stream. This is an input stream to the 2253 for decoding. The actual overlay is output onto the physical output video channel.

2) Overlay (Bitmap) on the preview window on the host preview (not saved in recordings, not output on composite out). S2253_DrawBitmap,S2253_DrawBitmapColorRef

3) Overlay (Text, Monochrome Bitmap) in the stream itself. This overlay will be present on snapshots and recorded files. S2253_SetOsd

[edit] Overlay Specifications

One line of text for each video stream (A, B, Output) up to 160 characters, and may include newline (^n) or date (^d) or time (^t) codes inserted.

For styled text, there are 16 overlay regions for Stream A and B, and 255 regions for Output Stream. Bitmaps or PNG images can only be used on the Output Stream. The overlay resolution is not directly limited, but the decoding of the PNG image takes time, and transferring large BMP images over USB and then decoding takes time. For the Output Stream, the overlay image is applied to a masking buffer once and the output video is rendered in hardware. For the Encoded Streams, the overlay image must be rendered in software for every frame, and too many or too large overlays can cause video frames to be dropped.

[edit] Example for Preview Bitmap Drawing in C#

This example shows how to do overlay type #2 listed above. The overlay will ONLY appear in the preview Window. It will not be saved to recorded files or snapshots. It will not appear on the composite output.

If using 64 bit applications, make sure to set the VMR to VMR9 using S2253_SetPreviewType.

Below is sample code to draw a Bitmap to the video preview in C#:

Bitmap mybmp = new Bitmap(100, 100);
S2253.NORMALIZEDRECT nRect;
int retVal;
S2253.RECTANGLE sRect;
sRect.left = 0;
sRect.top = 0;
sRect.right = mybmp.Width;
sRect.bottom = mybmp.Height;
Graphics myGraphics = Graphics.FromImage(mybmp);
           
myGraphics.DrawLine(new Pen(Color.Green, 5.0f), new Point(0, 0), new Point(50, 50));
nRect.bottom = 0.9f;
nRect.top = 0.1f;
nRect.left = 0.1f;
nRect.right = 0.9f;
IntPtr hdcBMP = myGraphics.GetHdc();
S2253.SelectObject(hdcBMP, mybmp.GetHbitmap());
retVal = S2253.DrawBitmap(hdcBMP, ref sRect, ref nRect, 0.5f, 0, 0);
myGraphics.ReleaseHdc();

In mid2253.cs, define the following if it does not already exist:

public struct RECTANGLE {
   public Int32 left;
   public Int32 top;
   public Int32 right;
   public Int32 bottom;
};
public struct NORMALIZEDRECT {
   public float left;
   public float top;
   public float right;
   public float bottom;
};
public static Int32 DrawBitmap(IntPtr hdcBMP, ref RECTANGLE src,
                      ref NORMALIZEDRECT dst, float alpha, int devid, int strmid)
{
  int retVal;
  retVal = S2253_DrawBitmap(hdcBMP, ref src, ref dst, alpha, devid, strmid);
  return retVal;
}
public static Int32 DrawBitmapColorRef(IntPtr hdcBMP, ref RECTANGLE src,
                      ref NORMALIZEDRECT dst, float alpha, UInt32 clrSrcKey, int devid, int strmid)
{
  int retVal;
  retVal = S2253_DrawBitmapColorRef(hdcBMP, ref src, ref dst, alpha, clrSrcKey, devid, strmid);
  return retVal;
}
[DllImport("mid2253.dll", CallingConvention = CallingConvention.StdCall, SetLastError = true)]
static extern Int32 S2253_DrawBitmap(IntPtr hdcBMP, ref RECTANGLE src, ref NORMALIZEDRECT dst, _
                                       float alpha, int devid, int strmidx);
[DllImport("mid2253.dll", CallingConvention = CallingConvention.StdCall, SetLastError = true)]
static extern Int32 S2253_DrawBitmapColorRef(IntPtr hdcBMP, ref RECTANGLE src, ref NORMALIZEDRECT dst, _
                                       float alpha, UInt32 clrSrcKey, int devid, int strmidx);
[DllImport("gdi32.dll", EntryPoint = "SelectObject", CallingConvention = CallingConvention.Cdecl)]
public static extern IntPtr SelectObject(IntPtr hdc, IntPtr h);

[edit] Monochrome Overlay on Device with C#

This example shows how to do overlay type #3 listed above. The overlay will appear in recorded files, snapshots, and the composite video output.

Add the following to mid2253.cs:

public struct MID2253_OSD_BMP
{
  public int osdOn;     // OSD on if != 0
  public int osdChan;   // osd channel to update: 0 = stream A; 1 = stream B, 2 = output, 3 = both streams
  public int id;        // region id: 0..15
  public int xoffset;   // x offset: relative to left
  public int yoffset;   // y offset: relative to top
  public IntPtr bmp;    // pointer to bitmap image data (as loaded from file)
};

Add the following to mid2253.cs:

public static Int32 SetOsd(ref MID2253_OSD_BMP osd, Int32 devid, Int32 strmidx)
{
  int hr;
  MID2253_OSD_BMP r;
  r.osdChan = osd.osdChan;
  r.osdOn = osd.osdOn;
  r.id = osd.id;
  r.xoffset = osd.xoffset;
  r.yoffset = osd.yoffset;
  r.bmp = osd.bmp;

  hr = S2253_SetOsd(MID2253_OSDTYPE.MID2253_OSDTYPE_BMP, ref r, devid, strmidx);
  return hr;
}

Example code for C# Form loading bitmap from file:

{
  int brd_idx = 0;
  int streamIdx = 0;
  MemoryStream strm = new MemoryStream();
  S2253.MID2253_OSD_BMP osdBmp = new S2253.MID2253_OSD_BMP();
  ImageConverter converter = new ImageConverter();
  Bitmap mybmp = (Bitmap) Bitmap.FromFile("Logo.bmp");
  byte[] bmpByteArray = new byte[0];
  using (strm) {
    mybmp.Save(strm, System.Drawing.Imaging.ImageFormat.Bmp);
    strm.Close();
    bmpByteArray = strm.ToArray();
  }
           
  GCHandle pinnedArray = GCHandle.Alloc(bmpByteArray, GCHandleType.Pinned);
  IntPtr ptr = pinnedArray.AddrOfPinnedObject();
  osdBmp.bmp = ptr;
  osdBmp.id = 1;
  osdBmp.osdChan = 3;
  osdBmp.osdOn = 1;
  osdBmp.xoffset = 50;
  osdBmp.yoffset = 50;
  int retVal = S2253.SetOsd(ref osdBmp, brd_idx, streamIdx);
  pinnedArray.Free();
}

[edit] Monochrome Overlay on Device with C++

This example shows how to do overlay type #3 listed above. The overlay will appear in recorded files, snapshots, and the composite video output.

{
  MID2253_OSD_DATA osd;
  FILE *fin;
  unsigned char *pdata;
  size_t rsize;
  osd.osdbmp.id = 0;
  osd.osdbmp.osdOn = 1;
  osd.osdbmp.osdChan = 3;
  osd.osdbmp.xoffset = 200;
  osd.osdbmp.yoffset = 300;
  fin = fopen("logo.bmp", "rb");
  pdata = (unsigned char *) malloc(50 * 1024);
  rsize = fread(pdata, 1, 50*1024, fin);
  osd.osdbmp.bmp = pdata;
  S2253_SetOsd(MID2253_OSDTYPE_BMP, &osd, 0, 0);
  free(pdata);
  fclose(fin);
}

Note: Above code is for demonstration purposes only. Please add error checking to production code.

[edit] Troubleshooting LEDs

D1
green
D2
red
D3
amber
Status
on board has power
off blink waiting for firmware
off on firmware is loading
on on firmware kernel is started
off off firmware kernel booted successfully
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