Hi, On Wed, Oct 05, 2022 at 10:21:12AM +0100, Alexandru Elisei wrote: > Hi Eric, > > On Tue, Oct 04, 2022 at 07:31:25PM +0200, Eric Auger wrote: > > Hi Alexandru, > > > > On 10/4/22 18:58, Alexandru Elisei wrote: > > > Hi Eric, > > > > > > On Tue, Oct 04, 2022 at 06:20:23PM +0200, Eric Auger wrote: > > >> Hi Ricardo, Marc, > > >> > > >> On 8/5/22 02:41, Ricardo Koller wrote: > > >>> There are some tests that fail when running on bare metal (including a > > >>> passthrough prototype). There are three issues with the tests. The > > >>> first one is that there are some missing isb()'s between enabling event > > >>> counting and the actual counting. This wasn't an issue on KVM as > > >>> trapping on registers served as context synchronization events. The > > >>> second issue is that some tests assume that registers reset to 0. And > > >>> finally, the third issue is that overflowing the low counter of a > > >>> chained event sets the overflow flag in PMVOS and some tests fail by > > >>> checking for it not being set. > > >>> > > >>> Addressed all comments from the previous version: > > >>> https://lore.kernel.org/kvmarm/20220803182328.2438598-1-ricarkol@xxxxxxxxxx/T/#t > > >>> - adding missing isb() and fixed the commit message (Alexandru). > > >>> - fixed wording of a report() check (Andrew). > > >>> > > >>> Thanks! > > >>> Ricardo > > >>> > > >>> Ricardo Koller (3): > > >>> arm: pmu: Add missing isb()'s after sys register writing > > >>> arm: pmu: Reset the pmu registers before starting some tests > > >>> arm: pmu: Check for overflow in the low counter in chained counters > > >>> tests > > >>> > > >>> arm/pmu.c | 56 ++++++++++++++++++++++++++++++++++++++----------------- > > >>> 1 file changed, 39 insertions(+), 17 deletions(-) > > >>> > > >> While testing this series and the related '[PATCH 0/9] KVM: arm64: PMU: > > >> Fixing chained events, and PMUv3p5 support' I noticed I have kvm unit > > >> test failures on some machines. This does not seem related to those > > >> series though since I was able to get them without. The failures happen > > >> on Amberwing machine for instance with the pmu-chain-promotion. > > >> > > >> While further investigating I noticed there is a lot of variability on > > >> the kvm unit test mem_access_loop() count. I can get the counter = 0x1F > > >> on the first iteration and 0x96 on the subsequent ones for instance. > > >> While running mem_access_loop(addr, 20, pmu.pmcr_ro | PMU_PMCR_E) I was > > >> expecting the counter to be close to 20. It is on some HW. > > >> > > >> [..] > > >> > > >> So I come to the actual question. Can we do any assumption on the > > >> (virtual) PMU quality/precision? If not, the tests I originally wrote > > >> are damned to fail on some HW (on some other they always pass) and I > > >> need to make a decision wrt re-writing part of them, expecially those > > >> which expect overflow after a given amount of ops. Otherwise, there is > > >> either something wrong in the test (asm?) or in KVM PMU emulation. > > >> > > >> I tried to bisect because I did observe the same behavior on some older > > >> kernels but the bisect was not successful as the issue does not happen > > >> always. > > >> > > >> Thoughts? > > > Looking at mem_access_loop(), the first thing that jumps out is the fact > > > that is missing a DSB barrier. ISB affects only instructions, not memory > > > accesses and without a DSB, the PE can reorder memory accesses however it > > > sees fit. > > Following your suggestion I added a dsh ish at the end of loop and > > before disabling pmcr_el0 (I hope this is the place you were thinking > > of) but unfortunately it does not seem to fix my issue. > > Yes, DSB ISH after "b.gt 1b\n" and before the write to PMCR_EL0 that > disables the PMU. > > I think you also need a DSB ISH before the write to PMCR_EL0 that enables > the PMU in the first instruction of the asm block. In your example, the > MEM_ACCESS event count is higher than expected, and one explanation for the > large disparity that I can think of is that previous memory accesses are > reordered past the instruction that enables the PMU, which makes the PMU > add these events to the total event count. > > > > > > > I also believe precise_instrs_loop() to be in the same situation, as the > > > architecture doesn't guarantee that the cycle counter increments after > > > every CPU cycle (ARM DDI 0487I.a, page D11-5246): > > > > > > "Although the architecture requires that direct reads of PMCCNTR_EL0 or > > > PMCCNTR occur in program order, there is no requirement that the count > > > increments between two such reads. Even when the counter is incrementing on > > > every clock cycle, software might need check that the difference between > > > two reads of the counter is nonzero." > > OK > > > > > > There's also an entire section in ARM DDI 0487I.a dedicated to this, titled > > > "A reasonable degree of inaccuracy" (page D11-5248). I'll post some > > > snippets that I found interesting, but there are more examples and > > > explanations to be found in that chapter. > > > > yeah I saw that, hence my question about the reasonable disparity we can > > expect from the HW/SW stack. > > > > > > "In exceptional circumstances, such as a change in Security state or other > > > boundary condition, it is acceptable for the count to be inaccurate." > > > > > > PMCR writes are trapped by KVM. Is a change in exception level an > > > "exception circumstance"? Could be, but couldn't find anything definitive. > > > For example, the architecture allows an implementation to drop an event in > > > the case of an interrupt: > > > > > > "However, dropping a single branch count as the result of a rare > > > interaction with an interrupt is acceptable." > > > > > > So events could definitely be dropped because of an interrupt for the host. > > > > > > And there's also this: > > > > > > "The imprecision means that the counter might have counted an event around > > > the time the counter was disabled, but does not allow the event to be > > > observed as counted after the counter was disabled." > > In our case there seems to be a huge discrepancy. > > I agree. There is this about the MEM_ACCESS event in the Arm ARM: > > "The counter counts each Memory-read operation or Memory-write operation > that the PE makes." > > As for what a Memory-read operation is (emphasis added by me): > > "A memory-read operation might be due to: > The result of an architecturally executed memory-reading instructions. > The result of a Speculatively executed memory-reading instructions <- this > is why the DSB ISH is needed before enabling the PMU. > **A translation table walk**." > > Those extra memory accesses might be caused by the table walker deciding to > walk the tables, speculatively or not. Software has no control over the > table walker (as long as it is enabled). Please ignore this part, just noticed in the MEM_ACCESS event definition that translation table walks are not counted. Thanks, Alex > > Thanks, > Alex > > > > > > > If you want my opinion, if it is necessary to count the number of events > > > for a test instead, I would define a margin of error on the number of > > > events counted. Or the test could be changed to check that at least one > > > such event was observed. > > I agree with you on the fact a reasonable margin must be observed and > > the tests may need to be rewritten to account for the observed disparity > > if considered "normal". Another way to proceed is to compute the > > disparity before launching the main tests and if too big, skip the main > > tests. Again on some HW, the counts are really 'as expected' and constant. > > > > Thanks! > > > > Eric > > > > > > Thanks, > > > Alex > > > > > _______________________________________________ kvmarm mailing list kvmarm@xxxxxxxxxxxxxxxxxxxxx https://lists.cs.columbia.edu/mailman/listinfo/kvmarm
