On 2021-06-10 10:36, Sai Prakash Ranjan wrote:
Hi Robin,
On 2021-06-10 14:38, Robin Murphy wrote:
On 2021-06-10 06:24, Sai Prakash Ranjan wrote:
Hi Robin,
On 2021-06-10 00:14, Robin Murphy wrote:
On 2021-06-09 15:53, Sai Prakash Ranjan wrote:
Currently for iommu_unmap() of large scatter-gather list with page size
elements, the majority of time is spent in flushing of partial walks in
__arm_lpae_unmap() which is a VA based TLB invalidation (TLBIVA for
arm-smmu).
For example: to unmap a 32MB scatter-gather list with page size elements
(8192 entries), there are 16->2MB buffer unmaps based on the pgsize (2MB
for 4K granule) and each of 2MB will further result in 512 TLBIVAs (2MB/4K)
resulting in a total of 8192 TLBIVAs (512*16) for 16->2MB causing a huge
overhead.
So instead use io_pgtable_tlb_flush_all() to invalidate the entire context
if size (pgsize) is greater than the granule size (4K, 16K, 64K). For this
example of 32MB scatter-gather list unmap, this results in just 16 ASID
based TLB invalidations or tlb_flush_all() callback (TLBIASID in case of
arm-smmu) as opposed to 8192 TLBIVAs thereby increasing the performance of
unmaps drastically.
Condition (size > granule size) is chosen for io_pgtable_tlb_flush_all()
because for any granule with supported pgsizes, we will have at least 512
TLB invalidations for which tlb_flush_all() is already recommended. For
example, take 4K granule with 2MB pgsize, this will result in 512 TLBIVA
in partial walk flush.
Test on QTI SM8150 SoC for 10 iterations of iommu_{map_sg}/unmap:
(average over 10 iterations)
Before this optimization:
size iommu_map_sg iommu_unmap
4K 2.067 us 1.854 us
64K 9.598 us 8.802 us
1M 148.890 us 130.718 us
2M 305.864 us 67.291 us
12M 1793.604 us 390.838 us
16M 2386.848 us 518.187 us
24M 3563.296 us 775.989 us
32M 4747.171 us 1033.364 us
After this optimization:
size iommu_map_sg iommu_unmap
4K 1.723 us 1.765 us
64K 9.880 us 8.869 us
1M 155.364 us 135.223 us
2M 303.906 us 5.385 us
12M 1786.557 us 21.250 us
16M 2391.890 us 27.437 us
24M 3570.895 us 39.937 us
32M 4755.234 us 51.797 us
This is further reduced once the map/unmap_pages() support gets in which
will result in just 1 tlb_flush_all() as opposed to 16 tlb_flush_all().
Signed-off-by: Sai Prakash Ranjan <saiprakash.ranjan@xxxxxxxxxxxxxx>
---
drivers/iommu/io-pgtable-arm.c | 7 +++++--
1 file changed, 5 insertions(+), 2 deletions(-)
diff --git a/drivers/iommu/io-pgtable-arm.c b/drivers/iommu/io-pgtable-arm.c
index 87def58e79b5..c3cb9add3179 100644
--- a/drivers/iommu/io-pgtable-arm.c
+++ b/drivers/iommu/io-pgtable-arm.c
@@ -589,8 +589,11 @@ static size_t __arm_lpae_unmap(struct arm_lpae_io_pgtable *data,
if (!iopte_leaf(pte, lvl, iop->fmt)) {
/* Also flush any partial walks */
- io_pgtable_tlb_flush_walk(iop, iova, size,
- ARM_LPAE_GRANULE(data));
+ if (size > ARM_LPAE_GRANULE(data))
+ io_pgtable_tlb_flush_all(iop);
+ else
Erm, when will the above condition ever not be true? ;)
Ah right, silly me :)
Taking a step back, though, what about the impact to drivers other
than SMMUv2?
Other drivers would be msm_iommu.c, qcom_iommu.c which does the same
thing as arm-smmu-v2 (page based invalidations), then there is ipmmu-vmsa.c
which does tlb_flush_all() for flush walk.
In particular I'm thinking of SMMUv3.2 where the whole
range can be invalidated by VA in a single command anyway, so the
additional penalties of TLBIALL are undesirable.
Right, so I am thinking we can have a new generic quirk IO_PGTABLE_QUIRK_RANGE_INV
to choose between range based invalidations(tlb_flush_walk) and tlb_flush_all().
In this case of arm-smmu-v3.2, we can tie up ARM_SMMU_FEAT_RANGE_INV with this quirk
and have something like below, thoughts?
if (iop->cfg.quirks & IO_PGTABLE_QUIRK_RANGE_INV)
io_pgtable_tlb_flush_walk(iop, iova, size,
ARM_LPAE_GRANULE(data));
else
io_pgtable_tlb_flush_all(iop);
The design here has always been that io-pgtable says *what* needs
invalidating, and we left it up to the drivers to decide exactly
*how*. Even though things have evolved a bit I don't think that has
fundamentally changed - tlb_flush_walk is now only used in this one
place (technically I suppose it could be renamed tlb_flush_table but
it's not worth the churn), so drivers can implement their own
preferred table-invalidating behaviour even more easily than choosing
whether to bounce a quirk through the common code or not. Consider
what you've already seen for the Renesas IPMMU, or SMMUv1 stage 2...
Thanks for the explanation, makes sense. If I am not mistaken, I see that
you are suggesting to move this logic based on size and granule-size to
arm-smmu-v2 driver and one more thing below..
Simpler than that - following on from my original comment above,
tlb_flush_walk already knows it's invalidating at least one full level
of table so there's nothing it even needs to check. Adding a
size-based heuristic to arm_smmu_inv_range_* for leaf invalidations
would be a separate concern (note that changing the non-leaf behaviour
might allow cleaning up the "reg" indirection there too).
I'm instinctively a little twitchy about making this a blanket
optimisation for SMMUv2 since I still remember the palaver with our
display and MMU-500 integrations, where it had to implement the dodgy
"prefetch" register to trigger translations before scanning out a
frame since it couldn't ever afford a TLB miss, thus TLBIALL when
freeing an old buffer would be a dangerous hammer to swing. However
IIRC it also had to ensure everything was mapped as 2MB blocks to
guarantee fitting everything in the TLBs in the first place, so I
guess it would still work out OK due to never realistically unmapping
a whole table at once anyway.
You are also hinting to not do this for all SMMUv2 implementations and make
it QCOM specific?
No, I'm really just wary that the performance implication is more
complex than a simple unmap latency benefit, possibly even for QCOM.
Consider the access latency, power and memory bandwidth hit from all
the additional pagetable walks incurred by other ongoing traffic
fighting against those 16 successive TLBIASIDs. Whether it's an
overall win really depends on the specific workload and system
conditions as much as the SMMU implementation.
Thinking some more, I
wonder if the Tegra folks might have an opinion to add here, given
that their multiple-SMMU solution was seemingly about trying to get
enough TLB and pagetable walk bandwidth in the first place?