Message ID | 20220905032858.1462927-2-mawupeng1@huawei.com (mailing list archive) |
---|---|
State | New |
Headers | show |
Series | watermark related improvement on zone movable | expand |
On Mon, Sep 05, 2022 at 11:28:57AM +0800, Wupeng Ma wrote: > From: Ma Wupeng <mawupeng1@huawei.com> > > Since min_free_kbytes is based on gfp_zone(GFP_USER) which does not include > zone movable. However zone movable will get its min share in > __setup_per_zone_wmarks() which does not make any sense. > > And like highmem pages, __GFP_HIGH and PF_MEMALLOC allocations usually > don't need movable pages, so there is no need to assign min pages for zone > movable. > > Let's cap pages_min for zone movable to a small value here just link > highmem pages. > I think there is a misunderstanding why the higher zones have a watermark and why it might be large. It's not about a __GFP_HIGH or PF_MEMALLOC allocations because it's known that few of those allocations may be movable. It's because high memory allocations indirectly pin pages in lower zones. User-mapped memory allocated from ZONE_MOVABLE still needs page table pages allocated from a lower zone so there is a ratio between the size of ZONE_MOVABLE and lower zones that limits the total amount of memory that can be allocated. Similarly, file backed pages that may be allocated from ZONE_MOVABLE still requires pages from lower memory for the inode and other associated kernel objects that are allocated from lower zones. The intent behind the higher zones having a large min watermark is so that kswapd reclaims pages from there first to *potentially* release pages from lower memory. By capping pages_min for zone_movable, there is the potential for lower memory pressure to be higher and to reach a point where a ZONE_MOVABLE page cannot be allocated simply because there isn't enough low memory available. Once the lower zones are all unreclaimable (e.g. page table pages or the movable pages are not been reclaimed to free the associated kernel structures), the system goes OOM. It's possible that there are safe adjustments that could be made that would detect when there is no choice except to reclaim zone reclaimable but it would be tricky and it's not this patch. This patch changelog states However zone movable will get its min share in __setup_per_zone_wmarks() which does not make any sense. It makes sense, higher zones allocations indirectly pin pages in lower zones and there is a bias in reclaim to free the higher zone pages first on the *possibility* that lower zone pages get indirectly released later.
On 2022/9/5 17:26, Mel Gorman wrote: > On Mon, Sep 05, 2022 at 11:28:57AM +0800, Wupeng Ma wrote: >> From: Ma Wupeng <mawupeng1@huawei.com> >> >> Since min_free_kbytes is based on gfp_zone(GFP_USER) which does not include >> zone movable. However zone movable will get its min share in >> __setup_per_zone_wmarks() which does not make any sense. >> >> And like highmem pages, __GFP_HIGH and PF_MEMALLOC allocations usually >> don't need movable pages, so there is no need to assign min pages for zone >> movable. >> >> Let's cap pages_min for zone movable to a small value here just link >> highmem pages. >> > > I think there is a misunderstanding why the higher zones have a watermark > and why it might be large. > > It's not about a __GFP_HIGH or PF_MEMALLOC allocations because it's known > that few of those allocations may be movable. It's because high memory > allocations indirectly pin pages in lower zones. User-mapped memory allocated > from ZONE_MOVABLE still needs page table pages allocated from a lower zone > so there is a ratio between the size of ZONE_MOVABLE and lower zones > that limits the total amount of memory that can be allocated. Similarly, > file backed pages that may be allocated from ZONE_MOVABLE still requires > pages from lower memory for the inode and other associated kernel > objects that are allocated from lower zones. > > The intent behind the higher zones having a large min watermark is so > that kswapd reclaims pages from there first to *potentially* release > pages from lower memory. By capping pages_min for zone_movable, there is > the potential for lower memory pressure to be higher and to reach a point > where a ZONE_MOVABLE page cannot be allocated simply because there isn't > enough low memory available. Once the lower zones are all unreclaimable > (e.g. page table pages or the movable pages are not been reclaimed to free > the associated kernel structures), the system goes OOM. This i do agree with you, lower zone is actually "more important" than the higher one. But higher min watermark for zone movable will not work since no memory allocation can use this reserve memory below min. Memory allocation with specify watermark modifier(__GFP_ATOMIC ,__GFP_HIGH ...) can use this in slowpath, however the standard movable memory allocation (gfp flag: GFP_HIGHUSER_MOVABLE) does not contain this. Second, lowmem_reserve_ratio is used to "reserve" memory for lower zone. And the second patch introduce per zone watermark_scale_factor to boost normal/movable zone's watermark which can trigger early kswapd for zone movable. > > It's possible that there are safe adjustments that could be made that > would detect when there is no choice except to reclaim zone reclaimable > but it would be tricky and it's not this patch. This patch changelog states > > However zone movable will get its min share in > __setup_per_zone_wmarks() which does not make any sense. > > It makes sense, higher zones allocations indirectly pin pages in lower > zones and there is a bias in reclaim to free the higher zone pages first > on the *possibility* that lower zone pages get indirectly released later. > In our Test vm with 16G of mirrored memory(normal zone) and 256 of normal momory(Movable zone), the min share for normal zone is too few since the size of min watermark is calc by zone dma/normal while this will be shared by zones(include zone movable) based on managed pages. Node 0, zone DMA min 39 low 743 high 1447 Node 0, zone Normal min 180 low 3372 high 6564 Node 1, zone Movable min 3728 low 69788 high 135848
On Tue, Sep 06, 2022 at 06:12:23PM +0800, mawupeng wrote: > > I think there is a misunderstanding why the higher zones have a watermark > > and why it might be large. > > > > It's not about a __GFP_HIGH or PF_MEMALLOC allocations because it's known > > that few of those allocations may be movable. It's because high memory > > allocations indirectly pin pages in lower zones. User-mapped memory allocated > > from ZONE_MOVABLE still needs page table pages allocated from a lower zone > > so there is a ratio between the size of ZONE_MOVABLE and lower zones > > that limits the total amount of memory that can be allocated. Similarly, > > file backed pages that may be allocated from ZONE_MOVABLE still requires > > pages from lower memory for the inode and other associated kernel > > objects that are allocated from lower zones. > > > > The intent behind the higher zones having a large min watermark is so > > that kswapd reclaims pages from there first to *potentially* release > > pages from lower memory. By capping pages_min for zone_movable, there is > > the potential for lower memory pressure to be higher and to reach a point > > where a ZONE_MOVABLE page cannot be allocated simply because there isn't > > enough low memory available. Once the lower zones are all unreclaimable > > (e.g. page table pages or the movable pages are not been reclaimed to free > > the associated kernel structures), the system goes OOM. > > This i do agree with you, lower zone is actually "more important" than the > higher one. > Very often yes. > But higher min watermark for zone movable will not work since no memory > allocation can use this reserve memory below min. Memory allocation > with specify watermark modifier(__GFP_ATOMIC ,__GFP_HIGH ...) can use this > in slowpath, however the standard movable memory allocation > (gfp flag: GFP_HIGHUSER_MOVABLE) does not contain this. > Then a more appropriate solution may be to alter how the gap between min and low is calculated. That gap determines when kswapd is active but allocations are still allowed. > Second, lowmem_reserve_ratio is used to "reserve" memory for lower zone. > And the second patch introduce per zone watermark_scale_factor to boost > normal/movable zone's watermark which can trigger early kswapd for zone > movable. > The problem with the tunable is that this patch introduces a potentially seriously problem that must then be corrected by a system administrator and it'll be non-obvious what the root of the problem is or the solution. For some users, they will only be able to determine is that OOM triggers when there is plenty of free memory or kswapd is consuming a lot more CPU than expected. They will not necessarily be able to determine that watermark_scale_factor is the solution. > > > > It's possible that there are safe adjustments that could be made that > > would detect when there is no choice except to reclaim zone reclaimable > > but it would be tricky and it's not this patch. This patch changelog states > > > > However zone movable will get its min share in > > __setup_per_zone_wmarks() which does not make any sense. > > > > It makes sense, higher zones allocations indirectly pin pages in lower > > zones and there is a bias in reclaim to free the higher zone pages first > > on the *possibility* that lower zone pages get indirectly released later. > > > > In our Test vm with 16G of mirrored memory(normal zone) and 256 of normal > momory(Movable zone), the min share for normal zone is too few since the > size of min watermark is calc by zone dma/normal while this will be shared > by zones(include zone movable) based on managed pages. > > Node 0, zone DMA > min 39 > low 743 > high 1447 > Node 0, zone Normal > min 180 > low 3372 > high 6564 > Node 1, zone Movable > min 3728 > low 69788 > high 135848 The gap between min and low is massive so either adjust how that gap is calculated or to avoid side-effects for other users, consider special casing the gap for ZONE_MOVABLE with a comment explaining why it is treated differently. To mitigate the risk further, it could be further special cased to only apply when there is a massive ratio between ALL_ZONES_EXCEPT_MOVABLE:ZONE_MOVABLE. Document in the changelog the potential downside of more lowmem potentially getting pinned by MOVABLE allocations leading to excessive kswapd activity or premature OOM.
On 2022/9/6 20:22, Mel Gorman wrote: > On Tue, Sep 06, 2022 at 06:12:23PM +0800, mawupeng wrote: >>> I think there is a misunderstanding why the higher zones have a watermark >>> and why it might be large. >>> >>> It's not about a __GFP_HIGH or PF_MEMALLOC allocations because it's known >>> that few of those allocations may be movable. It's because high memory >>> allocations indirectly pin pages in lower zones. User-mapped memory allocated >>> from ZONE_MOVABLE still needs page table pages allocated from a lower zone >>> so there is a ratio between the size of ZONE_MOVABLE and lower zones >>> that limits the total amount of memory that can be allocated. Similarly, >>> file backed pages that may be allocated from ZONE_MOVABLE still requires >>> pages from lower memory for the inode and other associated kernel >>> objects that are allocated from lower zones. >>> >>> The intent behind the higher zones having a large min watermark is so >>> that kswapd reclaims pages from there first to *potentially* release >>> pages from lower memory. By capping pages_min for zone_movable, there is >>> the potential for lower memory pressure to be higher and to reach a point >>> where a ZONE_MOVABLE page cannot be allocated simply because there isn't >>> enough low memory available. Once the lower zones are all unreclaimable >>> (e.g. page table pages or the movable pages are not been reclaimed to free >>> the associated kernel structures), the system goes OOM. >> >> This i do agree with you, lower zone is actually "more important" than the >> higher one. >> > > Very often yes. > >> But higher min watermark for zone movable will not work since no memory >> allocation can use this reserve memory below min. Memory allocation >> with specify watermark modifier(__GFP_ATOMIC ,__GFP_HIGH ...) can use this >> in slowpath, however the standard movable memory allocation >> (gfp flag: GFP_HIGHUSER_MOVABLE) does not contain this. >> > > Then a more appropriate solution may be to alter how the gap between min > and low is calculated. That gap determines when kswapd is active but > allocations are still allowed. > >> Second, lowmem_reserve_ratio is used to "reserve" memory for lower zone. >> And the second patch introduce per zone watermark_scale_factor to boost >> normal/movable zone's watermark which can trigger early kswapd for zone >> movable. >> > > The problem with the tunable is that this patch introduces a potentially > seriously problem that must then be corrected by a system administrator and > it'll be non-obvious what the root of the problem is or the solution. For > some users, they will only be able to determine is that OOM triggers > when there is plenty of free memory or kswapd is consuming a lot more > CPU than expected. They will not necessarily be able to determine that > watermark_scale_factor is the solution. > >>> >>> It's possible that there are safe adjustments that could be made that >>> would detect when there is no choice except to reclaim zone reclaimable >>> but it would be tricky and it's not this patch. This patch changelog states >>> >>> However zone movable will get its min share in >>> __setup_per_zone_wmarks() which does not make any sense. >>> >>> It makes sense, higher zones allocations indirectly pin pages in lower >>> zones and there is a bias in reclaim to free the higher zone pages first >>> on the *possibility* that lower zone pages get indirectly released later. >>> >> >> In our Test vm with 16G of mirrored memory(normal zone) and 256 of normal >> momory(Movable zone), the min share for normal zone is too few since the >> size of min watermark is calc by zone dma/normal while this will be shared >> by zones(include zone movable) based on managed pages. >> >> Node 0, zone DMA >> min 39 >> low 743 >> high 1447 >> Node 0, zone Normal >> min 180 >> low 3372 >> high 6564 >> Node 1, zone Movable >> min 3728 >> low 69788 >> high 135848 > > The gap between min and low is massive so either adjust how that gap is > calculated or to avoid side-effects for other users, consider special > casing the gap for ZONE_MOVABLE with a comment explaining why it is > treated differently. To mitigate the risk further, it could be further > special cased to only apply when there is a massive ratio between > ALL_ZONES_EXCEPT_MOVABLE:ZONE_MOVABLE. Document in the changelog the > potential downside of more lowmem potentially getting pinned by MOVABLE > allocations leading to excessive kswapd activity or premature OOM. What I'm trying to say is that the min watermark is too low for zone normal since it is shared by other zone based on manager pages. Vanilla | Modified Node 0, zone DMA | Node 0, zone DMA min 39 | min 713 low 743 | low 1417 high 1447 | high 2121 Node 0, zone Normal | Node 0, zone Normal min **180** | min **3234** low 3372 | low 6426 high 6564 | high 9618 Node 1, zone Movable | Node 1, zone Movable min **3728** | min **128** low 69788 | low 66188 high 135848 | high 132248 You can see, after this patch, the min watermark is set to small value(128) while zone dma/normal's min watermark increase a lot which be useful if the system is low on memory. The gap between min and low is about 1/1000 of the zone's memory which will not be effected by this patch. This patch, I am to do something for the min watermark for zone movable, In the next patch I want to do something to reserve memory for zone normal or just make watermark_scale_factor more flexible for little normal zone and huge movable zone. What is you idea on "Cap zone movable to small value"? >
diff --git a/mm/page_alloc.c b/mm/page_alloc.c index e5486d47406e..f1e4474879f1 100644 --- a/mm/page_alloc.c +++ b/mm/page_alloc.c @@ -8636,9 +8636,9 @@ static void __setup_per_zone_wmarks(void) struct zone *zone; unsigned long flags; - /* Calculate total number of !ZONE_HIGHMEM pages */ + /* Calculate total number of none highmem/movable pages */ for_each_zone(zone) { - if (!is_highmem(zone)) + if (!is_highmem(zone) && zone_idx(zone) != ZONE_MOVABLE) lowmem_pages += zone_managed_pages(zone); } @@ -8648,15 +8648,15 @@ static void __setup_per_zone_wmarks(void) spin_lock_irqsave(&zone->lock, flags); tmp = (u64)pages_min * zone_managed_pages(zone); do_div(tmp, lowmem_pages); - if (is_highmem(zone)) { + if (is_highmem(zone) || zone_idx(zone) == ZONE_MOVABLE) { /* * __GFP_HIGH and PF_MEMALLOC allocations usually don't - * need highmem pages, so cap pages_min to a small - * value here. + * need highmem/movable pages, so cap pages_min to a + * small value here. * * The WMARK_HIGH-WMARK_LOW and (WMARK_LOW-WMARK_MIN) * deltas control async page reclaim, and so should - * not be capped for highmem. + * not be capped for highmem/movable zone. */ unsigned long min_pages;