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I use sbrk(0) to monitor usage of dynamic memory from within an application. At the beginning of the program I do

dynamic_base = sbrk(0);

and a various points through the program use

sbrk(0) - dynamic_base

as a measure of the current high water mark of memory usage. Is there an equivalent for Windows?

Alternatively, are there better ways of determining dynamic memory usage from within a process for both Windows and Unix.

1

The performance counters suggested by IInspectable will work, but they're somewhat complex.

If all you want to know is the amount of memory your application is using, call GlobalMemoryStatusEx and check the ullTotalVirtual and ullAvailVirtual members of the result.

Unlike the sbrk method, this doesn't distinguish between statically loaded code and data sections, dynamically loaded modules, thread stacks, and dynamic allocations (heap). But differences in this number will be differences in maximum heap size.

  • ullAvailVirtual does not include uncommitted, reserved memory. This memory is essentially unused by the application. Since the heap manager of the CRT that ships with Visual Studio never returns uncommitted memory to the OS but rather keeps it reserved, measuring ullAvailVirtual will report a value that's consistently lower than the amount of memory available to the application. In practice it is of very little use, with the exception of memory leak detection. – IInspectable Jan 7 '15 at 8:26
  • @IInspectable: True, but that still is using up virtual address space... and the discrepancy will be large only if the application uses VirtualAlloc to reserve pages without committing. In that respect it acts a lot like the sbrk as requested. – Ben Voigt Jan 7 '15 at 15:26
  • This is precisely what the CRT does: It will not release any memory that has ever been requested by the application, until the process terminates. When an application returns memory to the CRT's memory manager, it will merely uncommit the memory. The memory will remain reserved. Consequently, the ullAvailVirtual figure will generally be a bad measure if you are interested in an application's memory pressure. – IInspectable Jan 8 '15 at 17:57
  • I thought it remains committed too, and added on the heap free list – Ben Voigt Jan 8 '15 at 18:04
  • You are right, the default heap manager doesn't uncommit memory, but rather leaves it committed and internally manages free regions. The effect remains the same, though: Memory reported as used by a call to GlobalMemoryStatusEx includes free memory from the heap manager's perspective. ullAvailVirtual will not account for the heap manager's internal state, and will usually not answer the question of how much memory an application uses. – IInspectable Jan 9 '15 at 10:15
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sbrk is obsolete, even on Linux (e.g. because not multi-thread friendly). Several malloc implementations are only using mmap(2) (and most of them sometimes use mmap at least for large enough malloc-s).

are there better ways of determining dynamic memory usage from within a process on Linux?

(I'm skipping the Windows part of the question)

On Linux you could (and you'll better) use proc(5) to query your memory usage. In particular, reading (these are sequential pseudo-files, a bit like pipes) /proc/self/stat, /proc/self/maps, /proc/self/statm etc. For example, fopen them, fscanf them, fclose them quickly. There is no real disk IO involved, since these pseudo files have their contents synthesized by the kernel on demand.

And there is also mallinfo(3) or malloc_stats(3), at least for some implementations of malloc on Linux.

  • Ok, sbrk is obsolete. So you do you mmap() on Windows ?? Does it also has a syscall called "mmap"? – Nulik Sep 9 '16 at 12:55
  • I never used Windows. I don't know if it has mmap (probably not natively). Perhaps the latest "bash/ubuntu on Windows10" might be a sort-of Linux personality providing some emulation of Linux system calls, I really don't know. – Basile Starynkevitch Sep 9 '16 at 13:09
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VirtualAlloc is the rough equivalent in Windows.

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