On Fri, May 05, 2023 at 05:31:44PM +0800, Xinghui Li wrote: > On Sat, Apr 29, 2023 at 3:58 AM Bjorn Helgaas <helgaas@xxxxxxxxxx> wrote: > > On Fri, Apr 28, 2023 at 01:40:36PM -0500, Bjorn Helgaas wrote: > > > On Thu, Apr 20, 2023 at 03:09:14PM +0800, korantwork@xxxxxxxxx wrote: > > > > From: Xinghui Li <korantli@xxxxxxxxxxx> > > > > > What if you made boolean parameters like these: > > > > > > no_msi_remap > > > > > > If the VMD supports it, disable VMD MSI-X remapping. This > > > improves interrupt performance because child device interrupts > > > avoid the VMD MSI-X domain interrupt handler. > > > > > > msi_remap > > > > > > Remap child MSI-X interrupts into VMD MSI-X interrupts. This > > > limits the number of MSI-X vectors available to the whole child > > > device domain to the number of VMD MSI-X interrupts. > > > > I guess having two parameters that affect the same feature is also > > confusing. Maybe just "msi_remap=0" or "msi_remap=1" or something? > > > > I think what makes "disable_msi_bypass=0" hard is that "MSI bypass" by > > itself is a negative feature (the positive activity is MSI remapping), > > and disabling bypass gets us back to the positive "MSI remapping" > > situation, and "disable_msi_bypass=0" negates that again, so we're > > back to ... uh ... let's see ... we are not disabling the bypass of > > MSI remapping, so I guess MSI remapping would be *enabled*? Is that > > right? > > I am fine with these two ways naming of the param. Adjusting from > enable_msi_remaping to disable_msi_bypass was aimed to trying address > your comment about dealing with the device not supporting bypass. > And in vmd drivers, the vmd bypass feature is enabled by adding the flag > "VMD_FEAT_CAN_BYPASS_MSI_REMAP". Therefore, I think disabling > bypass seems more appropriate. This patch aims to provide a convenient > way to remove that flag in a specific case. Users don't care about the name of VMD_FEAT_CAN_BYPASS_MSI_REMAP. I don't think that's a very good name either (in my opinion "VMD_FEAT_MSI_REMAP_DISABLE" would be more descriptive, and VMCONFIG_MSI_REMAP is even worse since setting it *disables* MSI remapping), but in any case these are internal to the driver. > On Sat, Apr 29, 2023 at 2:40 AM Bjorn Helgaas <helgaas@xxxxxxxxxx> wrote: > > The "disable_msi_bypass" parameter name also leads to some complicated > > logic. IIUC, "disable_msi_bypass=0" means "do not disable MSI remap > > bypassing" or, in other words, "do not remap MSIs." This is only > > supported by some VMDs. Using "disable_msi_bypass=0" to *enable* the > > bypass feature is confusing. > > However, as you said, it does lead to some complicated logic. So, I > also believe that these two approaches have their own pros and cons. > > > I still don't understand what causes the performance problem here. I > > guess you see higher performance when the VMD remaps child MSIs? So > > adding the VMD MSI-X domain interrupt handler and squashing all the > > child MSI vectors into the VMD MSI vector space makes things better? > > That seems backwards. Is this because of cache effects or something? > > > What does "excessive pressure on the PCIe node" mean? I assume the > > PCIe node means the VMD? It receives the same number of child > > interrupts in either case. > > What I mean is that there will be performance issues when a PCIe domain > is fully loaded with 4 Gen4 NVMe devices. like this: > +-[10002:00]-+-01.0-[01]----00.0 device0 > | +-03.0-[02]----00.0 device1 > | +-05.0-[03]----00.0 device2 > | \-07.0-[04]----00.0 device3 > > According to the perf/irqtop tool, we found the os does get the same > counts of interrupts in different modes. However, when the above > situation occurs, we observed a significant increase in CPU idle > time. Besides, the data and performance when using the bypass VMD > feature were identical to when VMD was disabled. And after the > devices mounted on a domain are reduced, the IOPS of individual > devices will rebound somewhat. Therefore, we speculate that VMD can > play a role in balancing and buffering interrupt loads. Therefore, > in this situation, we believe that VMD ought to not be bypassed to > handle MSI. The proposed text was: Use this when multiple NVMe devices are mounted on the same PCIe node with a high volume of 4K random I/O. It mitigates excessive pressure on the PCIe node caused by numerous interrupts from NVMe drives, resulting in improved I/O performance. Such as: The NVMe configuration and workload you mentioned works better with MSI-X remapping. But I don't know *why*, and I don't know that NVMe is the only device affected. So it's hard to write useful guidance for users, other than "sometimes it helps." Straw man proposal: msi_remap=0 Disable VMD MSI-X remapping, which improves interrupt performance because child device interrupts avoid the VMD MSI-X domain interrupt handler. Not all VMD devices support this, but for those that do, this is the default. msi_remap=1 Remap child MSI-X interrupts into VMD MSI-X interrupts. This limits the number of MSI-X vectors available to the whole child device domain to the number of VMD MSI-X interrupts. This may be required in some virtualization scenarios. This may improve performance in some I/O topologies, e.g., several NVMe devices doing lots of random I/O, but we don't know why. I hate the idea of "we don't know why." If you *do* know why, it would be much better to outline the mechanism because that would help users know when to use this. But if we don't know why, admitting that straight out is better than hand-waving about excessive pressure, etc. The same applies to the virtualization caveat. The text above is not actionable -- how do users know whether their particular virtualization scenario requires this option? Bjorn