RFR(S): 8223444: Improve CodeHeap Free Space Management
Vladimir Kozlov
vladimir.kozlov at oracle.com
Wed May 15 17:00:18 UTC 2019
On 5/14/19 10:53 PM, Schmidt, Lutz wrote:
> Hi Vladimir,
>
> thank you for your comments. About filling CodeHeap with bad values after split_block:
> - in deallocate_tail, the leading part must remain intact. It contains valid code.
> - in search_freelist, one free block is split into two. There I could invalidate the contents of both parts
Thank you for explaining.
> - If you want added safety, wouldn't it then be better to invalidate the block contents during add_to_freelist()? You could then be sure there is no executable code in a free block.
Yes, it is preferable.
An other note (after looking more on changes). You changed where freed tail goes. Originally it was added to next block
_next_segment (make it larger) and you created separate small block. Is not it create more fragmentation?
Thanks,
Vladimir
>
> Regards,
> Lutz
>
> On 14.05.19, 23:00, "Vladimir Kozlov" <vladimir.kozlov at oracle.com> wrote:
>
> On 5/14/19 1:09 PM, Schmidt, Lutz wrote:
> > Hi Vladimir,
> >
> > I had the same thought re atomicity. memset() is not consistent even on one platform. But I believe it's not a factor here. The original code was a byte-by-byte loop. And we have byte atomicity on all supported platforms, even with memset().
> >
> > It's a different thing with sequence of initialization. Do we really depend on byte(i) being initialized before byte(i+1)? If so, we would have a problem even with the explicit byte loop. Not on x86, but on ppc with its weak memory ordering.
>
> Okay, if it is byte copy I am fine with it.
>
> >
> > About segment map marking:
> > There is a short description how the segment map works in heap.cpp, right before CodeHeap::find_start().
> > In short: each segment map element contains an (unsigned) index which, when subtracted from that element index, addresses the segment map element where the heap block starts. Thus, when you re-initialize the tail part of a heap block range to describe a newly formed heap block, the leading part remains valid.
> >
> > Segmap before after
> > Index split split
> > I 0 <- block start 0 <- block start (now shorter)
> > I+1 1 1 each index 0..9 still points
> > I+2 2 2 back to the block start
> > I+3 3 3
> > I+4 4 4
> > I+5 5 5
> > I+6 6 6
> > I+7 7 7
> > I+8 8 8
> > I+9 9 9
> > I+10 10 0 <- new block start
> > I+11 11 1
> > I+12 12 2
> > I+13 13 3
> > I+14 14 4
> > I+15 0 <- block start 0 <- block start
> > I+16 1 1
> > I+17 2 2
> > I+18 3 3
> > I+19 4 4
> >
> > There is a (very short) description about what's happening at the very end of search_freelist(). split_block() is called there as well. Would you like to see a similar comment in deallocate_tail()?
>
> Thank you, I forgot about that first block mapping is still valid.
>
> What about storing bad value (in debug mode) only in second part and not both parts?
>
> >
> > Once I have your response, I will create a new webrev reflecting your input. I need to do that anyway because the assert in heap.cpp:200 has to go away. It fires spuriously. The checks can't be done at that place. In addition, I will add one line of comment and rename a local variable. That's it.
>
> Okay.
>
> Thanks,
> Vladimir
>
> >
> > Thanks,
> > Lutz
> >
> >
> > On 14.05.19, 20:53, "hotspot-compiler-dev on behalf of Vladimir Kozlov" <hotspot-compiler-dev-bounces at openjdk.java.net on behalf of vladimir.kozlov at oracle.com> wrote:
> >
> > Good.
> >
> > Do we need to be concern about atomicity of marking? We know that memset() is not atomic (may be I am wrong here).
> > An other thing is I did not get logic in deallocate_tail(). split_block() marks only second half of split segments as
> > used and (after call) store bad values in it. What about first part? May be add comment.
> >
> > Thanks,
> > Vladimir
> >
> > On 5/14/19 3:47 AM, Schmidt, Lutz wrote:
> > > Dear all,
> > >
> > > May I please request reviews for my change?
> > > Bug: https://bugs.openjdk.java.net/browse/JDK-8223444
> > > Webrev: https://cr.openjdk.java.net/~lucy/webrevs/8223444.00/
> > >
> > > What this change is all about:
> > > ------------------------------
> > > While working on another topic, I came across the code in share/memory/heap.cpp. I applied some small changes which I would call improvements.
> > >
> > > Furthermore, and in particular with these changes, the platform-specific parameter CodeCacheMinBlockLength should by fine-tuned to minimize the number of residual small free blocks. Heap block allocation does not create free blocks smaller than CodeCacheMinBlockLength. This parameter value should match the minimal requested heap block size. If it is too small, such free blocks will never be re-allocated. The only chance for them to vanish is when a block next to them gets freed. Otherwise, they linger around (mostly at the beginning of) the free list, slowing down the free block search.
> > >
> > > The following free block counts have been found after running JVM98 with different CodeCacheMinBlockLength values. I have used -XX:+PrintCodeHeapAnalytics to see the CodeHeap state at VM shutdown.
> > >
> > > JDK-8223444 not applied
> > > =======================
> > >
> > > Segment | free blocks with CodeCacheMinBlockLength=
> > > Size | 1 2 3 4 6 8
> > > -----------------+-------------------------------------------
> > > aarch 128 | 0 153 75 30 38 2
> > > ppc 128 | 0 149 98 59 14 2
> > > ppcle 128 | 0 219 161 110 69 34
> > > s390 256 | 0 142 93 59 30 10
> > > x86 128 | 0 215 157 118 42 11
> > >
> > >
> > > JDK-8223444 applied
> > > ===================
> > >
> > > Segment | free blocks with CodeCacheMinBlockLength= | suggested
> > > Size | 1 2 3 4 6 8 | setting
> > > -----------------+---------------------------------------------+------------
> > > aarch 128 | 221 115 80 36 7 1 | 6
> > > ppc 128 | 245 152 101 54 14 4 | 6
> > > ppcle 128 | 243 144 89 72 20 5 | 6
> > > s390 256 | 168 60 67 8 6 2 | 4
> > > x86 128 | 223 139 83 50 11 2 | 6
> > >
> > > Thank you for your time and opinion!
> > > Lutz
> > >
> > >
> > >
> > >
> >
> >
>
>
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