I have a memory dump file with what seems to be a memory leak of 'System.Drawing.Bitmap' objects. I have multiple objects of that type and !gcroot doesn't help me to identify where the leak is.

example output:

DOMAIN(0071D148):HANDLE(Pinned):1513e8:Root: 03335250(System.Object[])-> 0248e8ec(System.Drawing.Bitmap)

I had an idea to extract the image from the memory dump into an image file and then, when i can see what is the image that's leaking, i could examine the source code surround the creation of that specific bitmap.

So, how is it possible to write the memory into a file which i could open in an image viewer and see the image that Bitmap object hold?

Also, if you have other ideas how to identify the leak source i'd be happy to hear them.



System.Drawing.Bitmap is a tiny managed object. It wraps a handle returned by the unmanaged GDI+ api, stored in the private nativeImage field. Finding the bitmap data from that handle is an exercise in needle in the haystack hunting. Nor is that bitmap data in any way compatible with an image file format, only the Bitmap::Save() call can do that, running the required image encoder.

Scratch this idea.

Having memory problems with Bitmap objects is otherwise very common. Far too many programmers ignore that Bitmap inherits IDisposable. You can write a lot of .NET programs and never once call Dispose() or use the using statement and the program runs just fine. The garbage collector keeps them out of trouble. The Bitmap class however is the singular .NET class where that cannot work anymore. The problem is that it is tiny. You can create tens of thousands of them before ever triggering a garbage collection. Not nearly often enough to get the garbage collector to release the unmanaged GDI+ handle. As a result, the program runs very heavy, using lots of unmanaged memory. An OOM crash is very likely when the program runs in 32-bit mode. Or a commit size of gigabytes in 64-bit mode

Before getting lost in Windbg, first carefully review the source code for the program. And verify that you can pair every Bitmap variable with a corresponding Dispose() call or using statement. Watch out of things like assigning a PictureBox.Image property without code that calls the Dispose() method on the previous image. A .NET memory profiler is otherwise the better tool to debug this.

  • thanks for your comment. i'm dealing with a very large program and it is very hard to scan all the places where Bitmaps are in use. that is why i though my idea could direct me to a more specific place in the code. – avivr Nov 14 '13 at 13:04
  • It is not a comment, it is an answer. With the last sentence leaving little doubt how you need to tackle this problem in a very large program. Memory profilers show the needles in the haystack, that's their job. – Hans Passant Nov 14 '13 at 13:10
  • the memory dump is from a customer and the problem doesn't duplicate in my environment so i can't debug it in real-time with profiler. anyway thanks again for your answer. – avivr Nov 14 '13 at 13:20

It seems still possible to dump all bitmaps from memory, if you really want to do it.

The steps:

  1. !dumpheap -short -type System.Drawing.Bitmap
  2. !do <address>
  3. Find offset of property nativeImage
  4. dps on that IntPtr (equal to dps poi(<address>+<offset>) ?) gives you the type
  5. dt <address> <type> --> InternalBitmap property
  6. dt <internalAddress> <internalType> --> Bmp property
  7. dt <bmpAddress> <bmpType> gives Scan0 property, which is the start address

I just couldn't follow on how to calculate the size of the bitmap, which would be needed to do a .writemem. There is width and height and probably PixelFormat could be used to calculate the bits per pixel.

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