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In Java, a weak reference is garbage collected if memory out. In Linux, malloc() always returns a strong reference, ie. the pointer is never freed until the caller call free() function.

I want to allocate a buffer for caching, which could be freed automatically when the memory is running out, like following:

cache_t cache;
if (! cache_alloc(&cache))
    die("Memory out");

cache_lock(&cache); // realloc cache mem if it is collected

if (! cache->user_init) { // The "user_init" maybe reset if the cache mem is collected
  // lazy-init the cache...
  load_contents(cache->mem, ...);
  cache->user_init = 1;

// do with cache..
stuff_t *stuff = (stuff_t *) cache->mem;


It seems the buff and cache in the output of vmstat is disk IO related:

$ vmstat
procs -----------memory---------- ---swap-- -----io---- -system-- ----cpu----
 r  b   swpd   free   buff  cache   si   so    bi    bo   in   cs us sy id wa
 0  0  51604 554220  13384 314852    3   10   411   420  702 1063  8  3 75 14

Well, I want to know more about whether the cache in my example could be reflected in the "cache" column in the vmstat output.

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OS does it for you anyway with MMU, paging etc.. so why bother? –  user405725 Sep 28 '12 at 1:44
@Vlad: I don't understand.. can you explain in more detail? –  Xiè Jìléi Sep 28 '12 at 1:46
@VladLazarenko I think the OP is talking about virtual address space running out, not physical memory. Nothing that the OS does addresses the former. –  Jim Balter Sep 28 '12 at 2:05

1 Answer 1

up vote 1 down vote accepted

There really isn't a good way of doing it - the C memory model simply doesn't allow for the same kind of behavior that the Java memory model allows. Java's memory model of course builds on the C model when interfacing with the operating system, which is why the Java heap must be manually limited by the application launcher.

The "buff" and "cache" columns relate to the page/disk cache and internal buffers used by the kernel. These caches are automatically handled by the kernel - for instance, reading a file will place the contents in the "cache" usage number, in the same way that running out of memory will commit it to a swap device ("swpd").

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You are right. But Java do a lot more then "just free it when memory out". I'm not much concern about other OS than Linux, and I guess maybe there's Linux specific solution. –  Xiè Jìléi Sep 28 '12 at 1:54
When Linux (and other OSes) give you a memory address (via sbrk, mmap, etc), they are committing that this memory address will always be valid. There is no direct this may be available kind of pointer in a C memory model. –  Yann Ramin Sep 28 '12 at 1:57
I remember Win32 has something like allocate a buffer with MOVEABLE, DISCARDABLE flags, and returns a memory handle. –  Xiè Jìléi Sep 28 '12 at 1:57
Certainly, every pointer in C is a strong reference. But the "mem" pointer in "cache_t" is supposed to be moved or freed by MMU not C. So, the function is implementable I think. –  Xiè Jìléi Sep 28 '12 at 2:02
There's nothing that the Java memory model provides that can't be done in C ... you just have to do it yourself. –  Jim Balter Sep 28 '12 at 2:07

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