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My application buffers data for likely requests in the background. Currently I limit the size of the buffer based on a command-line parameter, and begin dumping less-used data when we hit this limit. This is not ideal because it relies on the user to specify a performance-critical parameter. Is there a better way to handle this? Is there a way to automatically monitor system memory use and dump the oldest/least-recently-used data before the system starts to thrash?

A complicating factor here is that my application runs on Linux, OSX, and Windows. But I'll take a good way to do this on only one platform over nothing.

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4 Answers 4

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Your best bet would likely be to monitor your applications working set/resident set size, and try to react when it doesn't grow after your allocations. Some pointers on what to look for:

  • Windows: GetProcessMemoryInfo
  • Linux: /proc/self/statm
  • OS X: task_info()

Windows also has GlobalMemoryStatusEx which gives you a nice Available Physical Memory figure.

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Thanks, I think this is what I'm looking for. –  Penn Taylor Mar 10 '11 at 21:01

There is a way: it is called virtual memory (vm). All three operating systems listed will use virtual memory (vm), unless there is no hardware support (which may be true in embedded systems). So I will assume that vm support is present.

Here is a quote from the architecture notes of the Varnish project:

The really short answer is that computers do not have two kinds of storage any more.

I would suggest you read the full text here: http://www.varnish-cache.org/trac/wiki/ArchitectNotes

It is a good read, and I believe will answer your question.

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The article seems to suggest that these decisions are best left to the kernel; which sounds fine... but in that case, should Penn's program simply not put a limit on how many buffers it keeps in (virtual) memory? If so, wouldn't his program eventually eat up all of the system's swap space? Or if not, how can his program decide when to throw data away, in the interest of putting a bound on his program's memory footprint? –  Jeremy Friesner Mar 8 '11 at 22:01
    
Interesting article. I have similar concerns as @Jeremy Friesner. In addition this approach assumes the data I want to buffer is local, because it relies on the disk cache built into the OS's memory manager. I can't assume the data is local. My buffer uses heuristics to predict what the user is going to ask for next based on what he's asking for now. Then it requests that data from storage (which may exist anywhere) and buffers it. Explicitly writing this buffered data to disk to "localize" it is a path we can't take because we don't necessarily have write permissions on the local storage. –  Penn Taylor Mar 10 '11 at 20:58
    
@Jeremy Friesner I can't really comment as to when the program should through data away. Shouldn't that be an algorithmic decision based on the purpose of the program? Your concerns are all legitimate if the expectation is the program will grow without bound indefinitely, but that is arguably a whole different problem. :) –  Marc Butler Mar 11 '11 at 16:49
    
@Penn Taylor I don't agree with you that it assumes the data you want to buffer is local. From my point of view the buffer is local, the origin of the data is irrelevant to the VM. I believe I misunderstood your question, but I hope the article was edifying nonetheless. –  Marc Butler Mar 11 '11 at 17:03

You could attempt to allocate some large-ish block of memory then check for a memory allocation exception. If the exception occurs, dump data. The problem is, this will only work when all system memory (or process limit) is reached. This means your application is likely to start swapping.

try {
  char *buf = new char[10 * 1024 * 1024]; // 10 megabytes
  free(buf);
} catch (const std::bad_alloc &) {
  // Memory allocation failed - clean up old buffers
}

The problems with this approach are:

  1. Running out of system memory can be dangerous and cause random applications to be shut down
  2. Better memory management might be a better solution. If there is data that can be freed, why has it not already been freed? Is there a periodic process you could run to clean up unneeded data?
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This will tell you when you've exhausted address space, not when you're starting to thrash the pagefile. –  Erik Mar 8 '11 at 22:50
    
Yes, I said that in my answer "The problem is, this will only work when all system memory (or process limit) is reached. This means your application is likely to start swapping." I say "likely" because it is possible to configure the system with no page file. –  lefticus Mar 8 '11 at 23:19
    
Most Linux configurations will allow the allocation to proceed as long as the process has address space remaining. It's writing to the allocated memory that causes the allocation of real RAM. Look up memory overcommit: mjmwired.net/kernel/Documentation/vm/overcommit-accounting –  Adrian Cox Mar 9 '11 at 8:35

I like your current solution. Letting the user decide is good. It's not obvious everyone would want the buffer to be as big as possible, is it? If you do invest in implemting some sort of memory monitor for automatically adjusting the buffer/cache size, at least let the user choose between the user set limit and the automatic/dynamic one.

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Thanks, that's good advice to let the user choose auto or user-set limit. –  Penn Taylor Mar 10 '11 at 21:04

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