On Mon, Dec 14, 2020 at 04:47:32PM +0100, Ian Kumlien wrote: > On Mon, Dec 14, 2020 at 3:02 PM Bjorn Helgaas <helgaas@xxxxxxxxxx> wrote: > > On Mon, Dec 14, 2020 at 10:14:18AM +0100, Ian Kumlien wrote: > > > On Mon, Dec 14, 2020 at 6:44 AM Bjorn Helgaas <helgaas@xxxxxxxxxx> wrote: > > > > > > > > [+cc Jesse, Tony, David, Jakub, Heiner, lists in case there's an ASPM > > > > issue with I211 or Realtek NICs. Beginning of thread: > > > > https://lore.kernel.org/r/20201024205548.1837770-1-ian.kumlien@xxxxxxxxx > > > > > > > > Short story: Ian has: > > > > > > > > Root Port --- Switch --- I211 NIC > > > > \-- multifunction Realtek NIC, etc > > > > > > > > and the I211 performance is poor with ASPM L1 enabled on both links > > > > in the path to it. The patch here disables ASPM on the upstream link > > > > and fixes the performance, but AFAICT the devices in that path give us > > > > no reason to disable L1. If I understand the spec correctly, the > > > > Realtek device should not be relevant to the I211 path.] > > > > > > > > On Sun, Dec 13, 2020 at 10:39:53PM +0100, Ian Kumlien wrote: > > > > > On Sun, Dec 13, 2020 at 12:47 AM Bjorn Helgaas <helgaas@xxxxxxxxxx> wrote: > > > > > > On Sat, Oct 24, 2020 at 10:55:46PM +0200, Ian Kumlien wrote: > > > > > > > Make pcie_aspm_check_latency comply with the PCIe spec, specifically: > > > > > > > "5.4.1.2.2. Exit from the L1 State" > > > > > > > > > > > > > > Which makes it clear that each switch is required to > > > > > > > initiate a transition within 1μs from receiving it, > > > > > > > accumulating this latency and then we have to wait for the > > > > > > > slowest link along the path before entering L0 state from > > > > > > > L1. > > > > > > > ... > > > > > > > > > > > > > On my specific system: > > > > > > > 03:00.0 Ethernet controller: Intel Corporation I211 Gigabit Network Connection (rev 03) > > > > > > > 04:00.0 Unassigned class [ff00]: Realtek Semiconductor Co., Ltd. Device 816e (rev 1a) > > > > > > > > > > > > > > Exit latency Acceptable latency > > > > > > > Tree: L1 L0s L1 L0s > > > > > > > ---------- ------- ----- ------- ------ > > > > > > > 00:01.2 <32 us - > > > > > > > | 01:00.0 <32 us - > > > > > > > |- 02:03.0 <32 us - > > > > > > > | \03:00.0 <16 us <2us <64 us <512ns > > > > > > > | > > > > > > > \- 02:04.0 <32 us - > > > > > > > \04:00.0 <64 us unlimited <64 us <512ns > > > > > > > > > > > > > > 04:00.0's latency is the same as the maximum it allows so as > > > > > > > we walk the path the first switchs startup latency will pass > > > > > > > the acceptable latency limit for the link, and as a > > > > > > > side-effect it fixes my issues with 03:00.0. > > > > > > > > > > > > > > Without this patch, 03:00.0 misbehaves and only gives me ~40 > > > > > > > mbit/s over links with 6 or more hops. With this patch I'm > > > > > > > back to a maximum of ~933 mbit/s. > > > > > > > > > > > > There are two paths here that share a Link: > > > > > > > > > > > > 00:01.2 --- 01:00.0 -- 02:03.0 --- 03:00.0 I211 NIC > > > > > > 00:01.2 --- 01:00.0 -- 02:04.0 --- 04:00.x multifunction Realtek > > > > > > > > > > > > 1) The path to the I211 NIC includes four Ports and two Links (the > > > > > > connection between 01:00.0 and 02:03.0 is internal Switch routing, > > > > > > not a Link). > > > > > > > > > > > The Ports advertise L1 exit latencies of <32us, <32us, <32us, > > > > > > <16us. If both Links are in L1 and 03:00.0 initiates L1 exit at T, > > > > > > 01:00.0 initiates L1 exit at T + 1. A TLP from 03:00.0 may see up > > > > > > to 1 + 32 = 33us of L1 exit latency. > > > > > > > > > > > > The NIC can tolerate up to 64us of L1 exit latency, so it is safe > > > > > > to enable L1 for both Links. > > > > > > > > > > > > 2) The path to the Realtek device is similar except that the Realtek > > > > > > L1 exit latency is <64us. If both Links are in L1 and 04:00.x > > > > > > initiates L1 exit at T, 01:00.0 again initiates L1 exit at T + 1, > > > > > > but a TLP from 04:00.x may see up to 1 + 64 = 65us of L1 exit > > > > > > latency. > > > > > > > > > > > > The Realtek device can only tolerate 64us of latency, so it is not > > > > > > safe to enable L1 for both Links. It should be safe to enable L1 > > > > > > on the shared link because the exit latency for that link would be > > > > > > <32us. > > > > > > > > > > 04:00.0: > > > > > DevCap: MaxPayload 128 bytes, PhantFunc 0, Latency L0s <512ns, L1 <64us > > > > > LnkCap: Port #0, Speed 5GT/s, Width x1, ASPM L0s L1, Exit Latency L0s > > > > > unlimited, L1 <64us > > > > > > > > > > So maximum latency for the entire link has to be <64 us > > > > > For the device to leave L1 ASPM takes <64us > > > > > > > > > > So the device itself is the slowest entry along the link, which > > > > > means that nothing else along that path can have ASPM enabled > > > > > > > > Yes. That's what I said above: "it is not safe to enable L1 for both > > > > Links." Unless I'm missing something, we agree on that. > > > > > > > > I also said that it should be safe to enable L1 on the shared Link > > > > (from 00:01.2 to 01:00.0) because if the downstream Link is always in > > > > L0, the exit latency of the shared Link should be <32us, and 04:00.x > > > > can tolerate 64us. > > > > > > Exit latency of shared link would be max of link, ie 64 + L1-hops, not 32 > > > > I don't think this is true. The path from 00:01.2 to 04:00.x includes > > two Links, and they are independent. The exit latency for each Link > > depends only on the Port at each end: > > The full path is what is important, because that is the actual latency > (which the current linux code doesn't do) I think you're saying we need to include the 04:00.x exit latency of 64us even though L1 is not enabled for 04:00.x. I disagree; the L1 exit latency of Ports where L1 is disabled is irrelevant. > > Link 1 (depends on 00:01.2 and 01:00.0): max(32, 32) = 32us > > Link 2 (depends on 02:04.0 and 04:00.x): max(32, 64) = 64us > > > > If L1 is enabled for Link 1 and disabled for Link 2, Link 2 will > > remain in L0 so it has no L1 exit latency, and the exit latency of > > the entire path should be 32us. > > My patch disables this so yes. > > > > > > > > The original code path did: > > > > > > > 04:00:0-02:04.0 max latency 64 -> ok > > > > > > > 02:04.0-01:00.0 max latency 32 +1 -> ok > > > > > > > 01:00.0-00:01.2 max latency 32 +2 -> ok > > > > > > > > > > > > > > And thus didn't see any L1 ASPM latency issues. > > > > > > > > > > > > > > The new code does: > > > > > > > 04:00:0-02:04.0 max latency 64 -> ok > > > > > > > 02:04.0-01:00.0 max latency 64 +1 -> latency exceeded > > > > > > > 01:00.0-00:01.2 max latency 64 +2 -> latency exceeded > > > > > > > > > > > > [Nit: I don't think we should add 1 for the 02:04.0 -- 01:00.0 piece > > > > > > because that's internal Switch routing, not a Link. But even without > > > > > > that extra microsecond, this path does exceed the acceptable latency > > > > > > since 1 + 64 = 65us, and 04:00.0 can only tolerate 64us.] > > > > > > > > > > It does report L1 ASPM on both ends, so the links will be counted as > > > > > such in the code. > > > > > > > > This is a bit of a tangent and we shouldn't get too wrapped up in it. > > > > This is a confusing aspect of PCIe. We're talking about this path: > > > > > > > > 00:01.2 --- [01:00.0 -- 02:04.0] --- 04:00.x multifunction Realtek > > > > > > > > This path only contains two Links. The first one is > > > > 00:01.2 --- 01:00.0, and the second one is 02:04.0 --- 04:00.x. > > > > > > > > 01:00.0 is a Switch Upstream Port and 02:04.0 is a Switch Downstream > > > > Port. The connection between them is not a Link; it is some internal > > > > wiring of the Switch that is completely opaque to software. > > > > > > > > The ASPM information and knobs in 01:00.0 apply to the Link on its > > > > upstream side, and the ASPM info and knobs in 02:04.0 apply to the > > > > Link on its downstream side. > > > > > > > > The example in sec 5.4.1.2.2 contains three Links. The L1 exit latency > > > > for the Link is the max of the exit latencies at each end: > > > > > > > > Link 1: max(32, 8) = 32us > > > > Link 2: max(8, 32) = 32us > > > > Link 3: max(32, 8) = 32us > > > > > > > > The total delay for a TLP starting at the downstream end of Link 3 > > > > is 32 + 2 = 32us. > > > > > > > > In the path to your 04:00.x Realtek device: > > > > > > > > Link 1 (from 00:01.2 to 01:00.0): max(32, 32) = 32us > > > > Link 2 (from 02:04.0 to 04:00.x): max(32, 64) = 64us > > > > > > > > If L1 were enabled on both Links, the exit latency would be 64 + 1 = > > > > 65us. > > > > > > So one line to be removed from the changelog, i assume... And yes, the > > > code handles that - first disable is 01:00.0 <-> 00:01.2 > > > > > > > > I also assume that it can power down individual ports... and enter > > > > > rest state if no links are up. > > > > > > > > I don't think this is quite true -- a Link can't enter L1 unless the > > > > Ports on both ends have L1 enabled, so I don't think it makes sense to > > > > talk about an individual Port being in L1. > > > > > > > > > > > It correctly identifies the issue. > > > > > > > > > > > > > > For reference, pcie information: > > > > > > > https://bugzilla.kernel.org/show_bug.cgi?id=209725 > > > > > > > > > > > > The "lspci without my patches" [1] shows L1 enabled for the shared > > > > > > Link from 00:01.2 --- 01:00.0 and for the Link to 03:00.0 (I211), but > > > > > > not for the Link to 04:00.x (Realtek). > > > > > > > > > > > > Per my analysis above, that looks like it *should* be a safe > > > > > > configuration. 03:00.0 can tolerate 64us, actual is <33us. 04:00.0 > > > > > > can tolerate 64us, actual should be <32us since only the shared Link > > > > > > is in L1. > > > > > > > > > > See above. > > > > > > > > As I said above, if we enabled L1 only on the shared Link from 00:01.2 > > > > to 01:00.0, the exit latency should be acceptable. In that case, a > > > > TLP from 04:00.x would see only 32us of latency: > > > > > > > > Link 1 (from 00:01.2 to 01:00.0): max(32, 32) = 32us > > > > > > > > and 04:00.x can tolerate 64us. > > > > > > But, again, you're completely ignoring the full link, ie 04:00.x would > > > also have to power on. > > > > I think you're using "the full link" to refer to the entire path from > > 00:01.2 to 04:00.x. In PCIe, a "Link" directly connects two Ports. > > It doesn't refer to the entire path. > > > > No, if L1 is disabled on 02:04.0 and 04:00.x (as Linux apparently does > > by default), the Link between them never enters L1, so there is no > > power-on for this Link. > > It doesn't do it by default, my patch does I'm relying on [1], your "lspci without my patches" attachment named "lspci-5.9-mainline.txt", which shows: 02:04.0 LnkCtl: ASPM Disabled 04:00.0 LnkCtl: ASPM Disabled so I assumed that was what Linux did by default. > > > > > > However, the commit log at [2] shows L1 *enabled* for both > > > > > > the shared Link from 00:01.2 --- 01:00.0 and the 02:04.0 > > > > > > --- 04:00.x Link, and that would definitely be a problem. > > > > > > > > > > > > Can you explain the differences between [1] and [2]? > > > > > > > > > > I don't understand which sections you're referring to. > > > > > > > > [1] is the "lspci without my patches" attachment of bugzilla #209725, > > > > which is supposed to show the problem this patch solves. We're > > > > talking about the path to 04:00.x, and [1] show this: > > > > > > > > 01:00.2 L1+ # <-- my typo here, should be 00:01.2 > > > > 01:00.0 L1+ > > > > 02:04.0 L1- > > > > 04:00.0 L1- > > > > > > > > AFAICT, that should be a legal configuration as far as 04:00.0 is > > > > concerned, so it's not a reason for this patch. > > > > > > Actually, no, maximum path latency 64us > > > > > > 04:00.0 wakeup latency == 64us > > > > > > Again, as stated, it can't be behind any sleeping L1 links > > > > It would be pointless for a device to advertise L1 support if it could > > never be used. 04:00.0 advertises that it can tolerate L1 latency of > > 64us and that it can exit L1 in 64us or less. So it *can* be behind a > > Link in L1 as long as nothing else in the path adds more latency. > > Yes, as long as nothing along the entire path adds latency - and I > didn't make the component > I can only say what it states, and we have to handle it. > > > > > [2] is a previous posting of this same patch, and its commit log > > > > includes information about the same path to 04:00.x, but the "LnkCtl > > > > Before" column shows: > > > > > > > > 01:00.2 L1+ # <-- my typo here, should be 00:01.2 > > > > 01:00.0 L1+ > > > > 02:04.0 L1+ > > > > 04:00.0 L1+ > > > > > > > > I don't know why [1] shows L1 disabled on the downstream Link, while > > > > [2] shows L1 *enabled* on the same Link. > > > > > > From the data they look switched. > > > > > > > > > > Kai-Heng Feng has a machine that will not boot with ASPM without > > > > > > > this patch, information is documented here: > > > > > > > https://bugzilla.kernel.org/show_bug.cgi?id=209671 > > > > > > > > > > > > I started working through this info, too, but there's not > > > > > > enough information to tell what difference this patch > > > > > > makes. The attachments compare: > > > > > > > > > > > > 1) CONFIG_PCIEASPM_DEFAULT=y without the patch [3] and > > > > > > 2) CONFIG_PCIEASPM_POWERSAVE=y *with* the patch [4] > > > > > > > > > > > > Obviously CONFIG_PCIEASPM_POWERSAVE=y will configure > > > > > > things differently than CONFIG_PCIEASPM_DEFAULT=y, so we > > > > > > can't tell what changes are due to the config change and > > > > > > what are due to the patch. > > > > > > > > > > > > The lspci *with* the patch ([4]) shows L0s and L1 enabled > > > > > > at almost every possible place. Here are the Links, how > > > > > > they're configured, and my analysis of the exit latencies > > > > > > vs acceptable latencies: > > > > > > > > > > > > 00:01.1 --- 01:00.0 L1+ ( L1 <64us vs unl) > > > > > > 00:01.2 --- 02:00.0 L1+ ( L1 <64us vs 64us) > > > > > > 00:01.3 --- 03:00.0 L1+ ( L1 <64us vs 64us) > > > > > > 00:01.4 --- 04:00.0 L1+ ( L1 <64us vs unl) > > > > > > 00:08.1 --- 05:00.x L0s+ L1+ (L0s <64ns vs 4us, L1 <1us vs unl) > > > > > > 00:08.2 --- 06:00.0 L0s+ L1+ (L0s <64ns vs 4us, L1 <1us vs unl) > > > > > > > > > > > > So I can't tell what change prevents the freeze. I would > > > > > > expect the patch would cause us to *disable* L0s or L1 > > > > > > somewhere. > > > > > > > > > > > > The only place [4] shows ASPM disabled is for 05:00.1. > > > > > > The spec says we should program the same value in all > > > > > > functions of a multi-function device. This is a non-ARI > > > > > > device, so "only capabilities enabled in all functions are > > > > > > enabled for the component as a whole." That would mean > > > > > > that L0s and L1 are effectively disabled for 05:00.x even > > > > > > though 05:00.0 claims they're enabled. But the latencies > > > > > > say ASPM L0s and L1 should be safe to be enabled. This > > > > > > looks like another bug that's probably unrelated. > > > > > > > > > > I don't think it's unrelated, i suspect it's how PCIe works with > > > > > multiple links... a device can cause some kind of head of queue > > > > > stalling - i don't know how but it really looks like it. > > > > > > > > The text in quotes above is straight out of the spec (PCIe r5.0, sec > > > > 7.5.3.7). Either the device works that way or it's not compliant. > > > > > > > > The OS configures ASPM based on the requirements and capabilities > > > > advertised by the device. If a device has any head of queue stalling > > > > or similar issues, those must be comprehended in the numbers > > > > advertised by the device. It's not up to the OS to speculate about > > > > issues like that. > > > > > > > > > > The patch might be correct; I haven't actually analyzed > > > > > > the code. But the commit log doesn't make sense to me > > > > > > yet. > > > > > > > > > > I personally don't think that all this PCI information is required, > > > > > the linux kernel is currently doing it wrong according to the spec. > > > > > > > > We're trying to establish exactly *what* Linux is doing wrong. So far > > > > we don't have a good explanation of that. > > > > > > Yes we do, linux counts hops + max for "link" while what should be done is > > > counting hops + max for path > > > > I think you're saying we need to include L1 exit latency even for > > Links where L1 is disabled. I don't think we should include those. > > Nope, the code does not do that, it only adds the l1 latency on L1 > enabled hops > > > > > Based on [1], in the path to 03:00.0, both Links have L1 enabled, with > > > > an exit latency of <33us, and 03:00.0 can tolerate 64us. That should > > > > work fine. > > > > > > > > Also based on [1], in the path to 04:00.x, the upstream Link has L1 > > > > enabled and the downstream Link has L1 disabled, for an exit latency > > > > of <32us, and 04:00.0 can tolerate 64us. That should also work fine. > > > > > > Again, ignoring the exit latency for 04:00.0 > > > > > > > (Alternately, disabling L1 on the upstream Link and enabling it on the > > > > downstream Link should have an exit latency of <64us and 04:00.0 can > > > > tolerate 64us, so that should work fine, too.) > > > > > > Then nothing else can have L1 aspm enabled > > > > Yes, as I said, we should be able to enable L1 on either of the Links > > in the path to 04:00.x, but not both. > > The code works backwards and disables the first hop that exceeds the > latency requirements - > we could argue that it should try to be smarter about it and try to > disable a minimum amount of links > while still retaining the minimum latency but... It is what it is and > it works when patched. > > > The original problem here is not with the Realtek device at 04:00.x > > but with the I211 NIC at 03:00.0. So we also need to figure out what > > the connection is. Does the same I211 performance problem occur if > > you remove the Realtek device from the system? > > It's mounted on the motherboard, so no I can't remove it. If you're interested, you could probably unload the Realtek drivers, remove the devices, and set the PCI_EXP_LNKCTL_LD (Link Disable) bit in 02:04.0, e.g., # RT=/sys/devices/pci0000:00/0000:00:01.2/0000:01:00.0/0000:02:04.0 # echo 1 > $RT/0000:04:00.0/remove # echo 1 > $RT/0000:04:00.1/remove # echo 1 > $RT/0000:04:00.2/remove # echo 1 > $RT/0000:04:00.4/remove # echo 1 > $RT/0000:04:00.7/remove # setpci -s02:04.0 CAP_EXP+0x10.w=0x0010 That should take 04:00.x out of the picture. > > 03:00.0 can tolerate 64us of latency, so even if L1 is enabled on both > > Links leading to it, the path exit latency would be <33us, which > > should be fine. > > Yes, it "should be" but due to broken ASPM latency calculations we > have some kind of > side effect that triggers a racecondition/sideeffect/bug that causes > it to misbehave. > > Since fixing the latency calculation fixes it, I'll leave the rest to > someone with a logic > analyzer and a die-hard-fetish for pcie links - I can't debug it. > > > > > > Also, since it's clearly doing the wrong thing, I'm worried that > > > > > dists will take a kernel enable aspm and there will be alot of > > > > > bugreports of non-booting systems or other weird issues... And the > > > > > culprit was known all along. > > > > > > > > There's clearly a problem on your system, but I don't know yet whether > > > > Linux is doing something wrong, a device in your system is designed > > > > incorrectly, or a device is designed correctly but the instance in > > > > your system is defective. > > > > > > According to the spec it is, there is a explanation of how to > > > calculate the exit latency > > > and when you implement that, which i did (before knowing the actual > > > spec) then it works... > > > > > > > > It's been five months... > > > > > > > > I apologize for the delay. ASPM is a subtle area of PCIe, the Linux > > > > code is complicated, and we have a long history of issues with it. I > > > > want to fix the problem, but I want to make sure we do it in a way > > > > that matches the spec so the fix applies to all systems. I don't want > > > > a magic fix that fixes your system in a way I don't quite understand. > > > > > > > Obviously *you* understand this, so hopefully it's just a matter of > > > > pounding it through my thick skull :) > > > > > > I only understand what I've been forced to understand - and I do > > > leverage the existing code without > > > knowing what it does underneath, I only look at the links maximum > > > latency and make sure that I keep > > > the maximum latency along the path and not just link for link > > > > > > once you realise that the max allowed latency is buffer dependent - > > > then this becomes obviously correct, > > > and then the pcie spec showed it as being correct as well... so... > > > > > > > > > > > > [1] https://bugzilla.kernel.org/attachment.cgi?id=293047 > > > > > > [2] https://lore.kernel.org/linux-pci/20201007132808.647589-1-ian.kumlien@xxxxxxxxx/ > > > > > > [3] https://bugzilla.kernel.org/attachment.cgi?id=292955 > > > > > > [4] https://bugzilla.kernel.org/attachment.cgi?id=292957 > > > > > > > > > > > > > Signed-off-by: Ian Kumlien <ian.kumlien@xxxxxxxxx> > > > > > > > Tested-by: Kai-Heng Feng <kai.heng.feng@xxxxxxxxxxxxx> > > > > > > > --- > > > > > > > drivers/pci/pcie/aspm.c | 22 ++++++++++++++-------- > > > > > > > 1 file changed, 14 insertions(+), 8 deletions(-) > > > > > > > > > > > > > > diff --git a/drivers/pci/pcie/aspm.c b/drivers/pci/pcie/aspm.c > > > > > > > index 253c30cc1967..c03ead0f1013 100644 > > > > > > > --- a/drivers/pci/pcie/aspm.c > > > > > > > +++ b/drivers/pci/pcie/aspm.c > > > > > > > @@ -434,7 +434,7 @@ static void pcie_get_aspm_reg(struct pci_dev *pdev, > > > > > > > > > > > > > > static void pcie_aspm_check_latency(struct pci_dev *endpoint) > > > > > > > { > > > > > > > - u32 latency, l1_switch_latency = 0; > > > > > > > + u32 latency, l1_max_latency = 0, l1_switch_latency = 0; > > > > > > > struct aspm_latency *acceptable; > > > > > > > struct pcie_link_state *link; > > > > > > > > > > > > > > @@ -456,10 +456,14 @@ static void pcie_aspm_check_latency(struct pci_dev *endpoint) > > > > > > > if ((link->aspm_capable & ASPM_STATE_L0S_DW) && > > > > > > > (link->latency_dw.l0s > acceptable->l0s)) > > > > > > > link->aspm_capable &= ~ASPM_STATE_L0S_DW; > > > > > > > + > > > > > > > /* > > > > > > > * Check L1 latency. > > > > > > > - * Every switch on the path to root complex need 1 > > > > > > > - * more microsecond for L1. Spec doesn't mention L0s. > > > > > > > + * > > > > > > > + * PCIe r5.0, sec 5.4.1.2.2 states: > > > > > > > + * A Switch is required to initiate an L1 exit transition on its > > > > > > > + * Upstream Port Link after no more than 1 μs from the beginning of an > > > > > > > + * L1 exit transition on any of its Downstream Port Links. > > > > > > > * > > > > > > > * The exit latencies for L1 substates are not advertised > > > > > > > * by a device. Since the spec also doesn't mention a way > > > > > > > @@ -469,11 +473,13 @@ static void pcie_aspm_check_latency(struct pci_dev *endpoint) > > > > > > > * L1 exit latencies advertised by a device include L1 > > > > > > > * substate latencies (and hence do not do any check). > > > > > > > */ > > > > > > > - latency = max_t(u32, link->latency_up.l1, link->latency_dw.l1); > > > > > > > - if ((link->aspm_capable & ASPM_STATE_L1) && > > > > > > > - (latency + l1_switch_latency > acceptable->l1)) > > > > > > > - link->aspm_capable &= ~ASPM_STATE_L1; > > > > > > > - l1_switch_latency += 1000; > > > > > > > + if (link->aspm_capable & ASPM_STATE_L1) { > > > > > > > + latency = max_t(u32, link->latency_up.l1, link->latency_dw.l1); > > > > > > > + l1_max_latency = max_t(u32, latency, l1_max_latency); > > > > > > > + if (l1_max_latency + l1_switch_latency > acceptable->l1) > > > > > > > + link->aspm_capable &= ~ASPM_STATE_L1; > > > > > > > + l1_switch_latency += 1000; > > > > > > > + } > > > > > > > > > > > > > > link = link->parent; > > > > > > > } > > > > > > > -- > > > > > > > 2.29.1 > > > > > > >