On Thu, May 7, 2020 at 5:54 AM Will Deacon <will@xxxxxxxxxx> wrote: > > On Thu, May 07, 2020 at 11:55:54AM +0100, Robin Murphy wrote: > > On 2020-05-07 11:14 am, Sai Prakash Ranjan wrote: > > > On 2020-04-22 01:50, Sai Prakash Ranjan wrote: > > > > Add stall implementation hook to enable stalling > > > > faults on QCOM platforms which supports it without > > > > causing any kind of hardware mishaps. Without this > > > > on QCOM platforms, GPU faults can cause unrelated > > > > GPU memory accesses to return zeroes. This has the > > > > unfortunate result of command-stream reads from CP > > > > getting invalid data, causing a cascade of fail. > > > > I think this came up before, but something about this rationale doesn't add > > up - we're not *using* stalls at all, we're still terminating faulting > > transactions unconditionally; we're just using CFCFG to terminate them with > > a slight delay, rather than immediately. It's really not clear how or why > > that makes a difference. Is it a GPU bug? Or an SMMU bug? Is this reliable > > (or even a documented workaround for something), or might things start > > blowing up again if any other behaviour subtly changes? I'm not dead set > > against adding this, but I'd *really* like to have a lot more confidence in > > it. > > Rob mentioned something about the "bus returning zeroes" before, but I agree > that we need more information so that we can reason about this and maintain > the code as the driver continues to change. That needs to be a comment in > the driver, and I don't think "but android seems to work" is a good enough > justification. There was some interaction with HUPCF as well. The issue is that there are multiple parallel memory accesses happening at the same time, for example CP (the cmdstream processor) will be reading ahead and setting things up for the next draw or compute grid, in parallel with some memory accesses from the shader which could trigger a fault. (And with faults triggered by something in the shader, there are *many* shader threads running in parallel so those tend to generate a big number of faults at the same time.) We need either CFCFG or HUPCF, otherwise what I have observed is that while the fault happens, CP's memory access will start returning zero's instead of valid cmdstream data, which triggers a GPU hang. I can't say whether this is something unique to qcom's implementation of the smmu spec or not. *Often* a fault is the result of the usermode gl/vk/cl driver bug, although I don't think that is an argument against fixing this in the smmu driver.. I've been carrying around a local patch to set HUPCF for *years* because debugging usermode driver issues is so much harder without. But there are some APIs where faults can be caused by the user's app on top of the usermode driver. BR, -R > > As a template, I'd suggest: > > > > > diff --git a/drivers/iommu/arm-smmu.h b/drivers/iommu/arm-smmu.h > > > > index 8d1cd54d82a6..d5134e0d5cce 100644 > > > > --- a/drivers/iommu/arm-smmu.h > > > > +++ b/drivers/iommu/arm-smmu.h > > > > @@ -386,6 +386,7 @@ struct arm_smmu_impl { > > > > int (*init_context)(struct arm_smmu_domain *smmu_domain); > > > > void (*tlb_sync)(struct arm_smmu_device *smmu, int page, int sync, > > > > int status); > > /* > * Stall transactions on a context fault, where they will be terminated > * in response to the resulting IRQ rather than immediately. This should > * pretty much always be set to "false" as stalling can introduce the > * potential for deadlock in most SoCs, however it is needed on Qualcomm > * XXXX because YYYY. > */ > > > > > + bool stall; > > Hmm, the more I think about this, the more I think this is an erratum > workaround in disguise, in which case this could be better named... > > Will