Re: [PATCH v1] PCI: dwc: Clean up some unnecessary codes in dw_pcie_suspend_noirq()

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 





On 11/8/2024 5:54 AM, Bjorn Helgaas wrote:
On Thu, Nov 07, 2024 at 11:13:34AM +0000, Manivannan Sadhasivam wrote:
On Thu, Nov 07, 2024 at 04:44:55PM +0800, Richard Zhu wrote:
Before sending PME_TURN_OFF, don't test the LTSSM stat. Since it's
safe to send PME_TURN_OFF message regardless of whether the link
is up or down. So, there would be no need to test the LTSSM stat
before sending PME_TURN_OFF message.

What is the incentive to send PME_Turn_Off when link is not up?

There's no need to send PME_Turn_Off when link is not up.

But a link-up check is inherently racy because the link may go down
between the check and the PME_Turn_Off.  Since it's impossible for
software to guarantee the link is up, the Root Port should be able to
tolerate attempts to send PME_Turn_Off when the link is down.

So IMO there's no need to check whether the link is up, and checking
gives the misleading impression that "we know the link is up and
therefore sending PME_Turn_Off is safe."

Hi Bjorn,

I agree that link-up check is racy but once link is up and link has
gone down due to some reason the ltssm state will not move detect quiet
or detect act, it will go to pre detect quiet (i.e value 0f 0x5).
we can assume if the link is up LTSSM state will greater than detect act
even if the link was down.

- Krishna Chaitanya.
Remove the L2 poll too, after the PME_TURN_OFF message is sent
out.  Because the re-initialization would be done in
dw_pcie_resume_noirq().

As Krishna explained, host needs to wait until the endpoint acks the
message (just to give it some time to do cleanups). Then only the
host can initiate D3Cold. It matters when the device supports L2.

The important thing here is to be clear about the *reason* to poll for
L2 and the *event* that must wait for L2.

I don't have any DesignWare specs, but when dw_pcie_suspend_noirq()
waits for DW_PCIE_LTSSM_L2_IDLE, I think what we're doing is waiting
for the link to be in the L2/L3 Ready pseudo-state (PCIe r6.0, sec
5.2, fig 5-1).

L2 and L3 are states where main power to the downstream component is
off, i.e., the component is in D3cold (r6.0, sec 5.3.2), so there is
no link in those states.

The PME_Turn_Off handshake is part of the process to put the
downstream component in D3cold.  I think the reason for this handshake
is to allow an orderly shutdown of that component before main power is
removed.

When the downstream component receives PME_Turn_Off, it will stop
scheduling new TLPs, but it may already have TLPs scheduled but not
yet sent.  If power were removed immediately, they would be lost.  My
understanding is that the link will not enter L2/L3 Ready until the
components on both ends have completed whatever needs to be done with
those TLPs.  (This is based on the L2/L3 discussion in the Mindshare
PCIe book; I haven't found clear spec citations for all of it.)

I think waiting for L2/L3 Ready is to keep us from turning off main
power when the components are still trying to dispose of those TLPs.

So I think every controller that turns off main power needs to wait
for L2/L3 Ready.

There's also a requirement that software wait at least 100 ns after
L2/L3 Ready before turning off refclock and main power (sec
5.3.3.2.1).

Bjorn





[Index of Archives]     [DMA Engine]     [Linux Coverity]     [Linux USB]     [Video for Linux]     [Linux Audio Users]     [Yosemite News]     [Linux Kernel]     [Linux SCSI]     [Greybus]

  Powered by Linux