Re: Fwd: Memory leakage when using read_swap_cache_async() ?

From: Viacheslav Fedorov
Date: Tue Oct 13 2015 - 16:17:34 EST


Wow! Thank you so much!
I literally spent a week trying to figure out the reason for the behavior.

This solves the issue I was having at this point.

Thanks again!
Slava

On Mon, Oct 12, 2015 at 7:40 PM, Hugh Dickins <hughd@xxxxxxxxxx> wrote:
> On Mon, 12 Oct 2015, Viacheslav Fedorov wrote:
>
>> Hi ladies and gentlemen,
>>
>> Please help - I am stuck.
>> Looks like memory pages go unaccounted for, somewhere in the system,
>> when I am prefetching pages from swap file. Using kernel 3.8.0 (Ubuntu
>> distribution).
>>
>> So what I do is I have two simple applications that allocate 1GB
>> memory each and then proceed to write arbitrary data to the allocated
>> memory, with page granularity.
>> The system has a total of 1.3GB RAM to simulate memory pressure etc
>> and encourage swapping.
>>
>> To test the basic functionality of my approach, I included a simple
>> "next-page" prefetch code into the mm/memory.c, just after the call to
>> do_swap_page (http://lxr.free-electrons.com/source/mm/memory.c?v=3.8#L3637)
>> What it should do is prefetch 10 pages following the one that has just
>> been swapped in on-demand. I don't really care which ones, what
>> matters is want to try something different than reading sequentially
>> from the swap file (read-ahead).
>> See the code below.
>>
>> The problem is, if I run the test apps for the sufficient amount of
>> time, the "used" memory increases to the point where the applications
>> are killed by an OOM-killer.
>> After that, the available system memory is about half of what it
>> should have been (e.g. 600MB/1.3GB). Same thing happens to memory
>> usage if I stop the applications before the OOM-killer is triggered,
>> I am also attaching the /proc/meminfo contents for comparison on a
>> freshly-booted system vs. one where the two apps have been running for
>> 200 seconds before quitting, with and without the prefetch code in
>> kernel.
>> Note how Active and Inactive show a lot of memory being "used" for something.
>> The printouts were made when the system is completely idle with
>> nothing running etc.
>>
>>
>> I also tried prefetching from within the swapin_readahead() function
>> (http://lxr.free-electrons.com/source/mm/swap_state.c?v=3.8#L373) with
>> the same result - memory gets "used up".
>>
>>
>> I would greatly appreciate any help!
>> Pretty much ran out of ideas as to what could be causing this.
>> Thanks a lot,
>> Slava
>>
>> ============== code fragment used for prefetching ============
>>
>> (( at the beginning of handle_pte_fault() function...
>> int rett, ii;
>> pte_t *ptee;
>> swp_entry_t sentry;
>> struct page *page;
>> ))
>>
>> rett = do_swap_page(mm, vma, address,
>> pte, pmd, flags, entry);
>>
>> ////////////////////////////////////////////////////////////////
>> /// test for memory leaks////////////////////
>> for(ii=1;ii<10;ii++){
>> ptee = pte_offset_map(pmd, address + (ii*2)<<12);
>> if(pte_present(*ptee) || pte_none(*ptee) ||
>> pte_file(*ptee)) return rett; // no such page in page table
>> sentry = pte_to_swp_entry(*ptee);
>> if (non_swap_entry(sentry)){
>> // printk(KERN_ALERT " non swap entry\n");
>> return rett;
>> }
>> delayacct_set_flag(DELAYACCT_PF_SWAPIN);
>> page = lookup_swap_cache(sentry);
>
> That gets a reference to page.
>
>> if (!page) {
>> page = read_swap_cache_async(sentry,
>> GFP_HIGHUSER_MOVABLE, vma, address);
>> if(page) page_cache_release(page);
>> }
>> lru_add_drain();
>> // if(page) unlock_page(page);
>
> But you don't appear to release that reference.
>
>> delayacct_clear_flag(DELAYACCT_PF_SWAPIN);
>> }
>> // printk(KERN_ALERT "swapped pages\n");
>> ////////////////////////////////////////////
>> //////////////////////////////////////////
>>
>> return rett;
>>
>> ===================== end code fragment =====================
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