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I have written following line to check Insufficient memory

while (true)
{
  try
  {
    // Check for available memory.
    memFailPoint = new MemoryFailPoint(250);
    break;
  }
  catch (InsufficientMemoryException ex)
  {
    if (memFailPoint != null)
    {
      memFailPoint.Dispose();
    }
    Thread.Sleep(waitSecond * 1000);
   }
 }

I am running above code in a Console Application on Windows 7 64bit machine

There are 4 calls every 10 seconds to this method.

Intially it works fine, but after 2-3 hours, there is always InsufficientMemoryException thrown. I checked available memory and it shows more than 1 GB.

I tried a lot but not able to find why it is happening. Can anyone help me on this.

Following is the stack track:

at System.Runtime.MemoryFailPoint..ctor(Int32 sizeInMegabytes) at SocketListner.AcceptConnection(IAsyncResult res) in H:\Projects\SocketListner.cs:line 308

There is no inner exception.

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What else are you doing to get this error? Is there a stack trace you can post? –  DJ Burb Jun 11 '13 at 14:26
    
I have added stack trace , please revisit question –  Imran Rizvi Jun 11 '13 at 14:28
4  
"I checked available memory" how? Even with 1GB free, it may be too fragmented to make an allocation of 250Meg. There would need to be 250M contiguous space free in the memory for this to succeed. –  spender Jun 11 '13 at 14:28
    
Doesn't matter how much physical memory or even virtual memory is left. How much memory is in use by your process? –  user7116 Jun 11 '13 at 14:29
    
I checked in Resource Monitor –  Imran Rizvi Jun 11 '13 at 14:32
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3 Answers

up vote 8 down vote accepted

You can rely on this method working correctly, this exception is very likely to trip in a 32-bit process when you ask for 250 megabytes. That gets to be difficult to get when the program has been running for a while.

A program never crashes with OOM because you've consumed all available virtual memory address space. It crashes because there isn't a hole left in the address space that's big enough to fit the allocation. Your code requests a hole big enough to allocate 250 megabytes in one gulp. When you don't get the exception that you can be sure that this allocation will not fail.

But 250 megabytes is rather a lot, that's a really big array. And is very likely to fail due to a problem called "address space fragmentation". In other words, a program typically starts out with several very large holes, the largest about 600 megabytes. Holes available between the allocations made to store code and data that's used by the .NET runtime and unmanaged Windows DLLs. As the program allocates more memory, those holes get smaller. It is likely to release some memory but that doesn't reproduce a big hole. You typically get two holes, roughly half the size of the original, with an allocation somewhere in the middle that cuts the original big hole in two.

This is called fragmentation, a 32-bit process that allocates and releases a lot of memory ends up fragmenting the virtual memory address space so the biggest hole that's still available after a while gets smaller, around 90 megabytes is fairly typical. Asking for 250 megabytes is almost guaranteed to fail. You will need to aim lower.

You no doubt expected it to work differently, ensuring that the sum of allocations adding up to 250 megabytes is guaranteed to work. This however is not how MemoryFailPoint works, it only checks for the largest possible allocation. Needless to say perhaps, this makes it less than useful. I otherwise do sympathize with the .NET framework programmers, getting it to work the way we'd like it is both expensive and cannot actually provide a guarantee since the size of an allocation matters most.

Virtual memory is a plentiful resource that's incredibly cheap. But getting close to consuming it all is very troublesome. Once you consume a gigabyte of it then OOM striking at random is starting to get likely. Don't forget the easy fix for this problem, you are running on a 64-bit operating system. So just changing the EXE platform target to AnyCPU gets you gobs and gobs of virtual address space. Depends on the OS edition but a terabyte is possible. It still fragments but you just don't care anymore, the holes are huge.

Last but not least, visible in the comments, this problem has nothing to do with RAM. Virtual memory is quite unrelated to how much RAM you have. It is the operating system's job to map virtual memory addresses to physical addresses in RAM, it does so dynamically. Accessing a memory location may trip a page fault, the OS will allocate RAM for the page. And the reverse happens, the OS will unmap RAM for a page when it is needed elsewhere. You can never run out of RAM, the machine will slow down to a crawl before that can happen. The SysInternals' VMMap utility is nice to see what your program's virtual address space looks like, albeit that you tend to drown in the info for a large process.

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Thanks for your detailed analysis and suggessions. I've decreased the size to 50MB and put the app in testing, however I made build in 64bit so OOM exception should not occur, as it was caught earlier. –  Imran Rizvi Jun 11 '13 at 15:51
    
I have to say, just arbitrarily cutting it from 250 to 50 is rather random. It is important that the number you pick has some truth and represents the amount of memory you are going to need. –  Hans Passant Jun 11 '13 at 15:59
    
how to know that?, once a packet is processed memory should be free, but for after long time Database becomes bottleneck and data stay in memory upto timeout i.e. 30 seconds. –  Imran Rizvi Jun 11 '13 at 16:17
    
If you have no idea then gathering evidence with a memory profiler is important. The VMMap utility I mentioned is a cheap version of that. Experimenting with the value you pass to MemoryFailPoint is the long way to get there. –  Hans Passant Jun 11 '13 at 16:27
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MemoryFailPoint checks for consecutive available memory as documented here : http://msdn.microsoft.com/fr-fr/library/system.runtime.memoryfailpoint.aspx

You may consume very little memory, but have fragmented it a lot and then be now unable to allocate a consecutive block of memory of the needed size. It's very typical of this problem to occur after a few hours. To avoid that, use a pool of object for object you keep instantiating, it will make the memory space in use more rigid.

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Consider using the GC.GetTotalMemory method to determine the amount of memory available before and after calling:

memFailPoint = new MemoryFailPoint(250);

InsufficientMemoryException is thrown before starting an operation, by the MemoryFailPoint constructor when you specify a projected memory allocation larger than the amount of currently available memory. Like user7116 commented, that's why you should check first.

The example in this link should give you a solution: MemoryFailPoint Class

You can also check this msdn blog article: Out of memory? Easy ways to increase the memory available to your program

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Thanks jszigeti :) –  terrybozzio Jun 11 '13 at 15:52
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