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SubjectRe: [REGRESSION][BISECTED] 5.5-rc suspend/resume failure caused by patch a4f55d8b8c14 ("usb: hub: Check device descriptor before resusciation")
On Mon, 20 Jan 2020 13:52:15 -0700 Paul Zimmerman <pauldzim@gmail.com> wrote:

> On Mon, 20 Jan 2020 10:23:11 -0500 (EST) Alan Stern <stern@rowland.harvard.edu> wrote:
>
> > On Sun, 19 Jan 2020, Paul Zimmerman wrote:
> >
> > > I reported this regression last week (see
> > > https://lore.kernel.org/linux-usb/20200115153714.03d5b3aa@EliteBook/T/#u)
> > > but I got no response to my email. Today I have retested with
> > > 5.5-rc7 and verified that the problem still exists. So I am
> > > resending with a different subject line to see if anyone responds.
> > >
> > > The $subject patch causes a regression on my HP EliteBook laptop
> > > with a built-in USB bluetooth adapter. About 50% of the time, a
> > > suspend/resume cycle will cause the bluetooth adapter to stop
> > > working.
> > >
> > > The dmesg log below shows two suspend/resume cycles. At time
> > > 63.928 you can see the bluetooth adapter being successfully
> > > resumed, and at time 140.969 you can see it fail. After reverting
> > > the patch, the bluetooth adapter resumes 100% of the time.
> > >
> > > I also included below a lsusb -v of the bluetooth adapter. Is
> > > there any other debugging info you'd like me to send?
> >
> > It looks like your dmesg log was made without enabling debugging
> > messages in usbcore. Can you collect another log with debugging
> > messages turned on?
> >
> > echo 'module usbcore =p'
> > >/sys/kernel/debug/dynamic_debug/control
> >
> > Also, it might not hurt to collect and post a usbmon trace for a bad
> > suspend-resume cycle.
>
> Hi Alan,
>
> Thanks for responding. The new dmesg log and the usbmon trace are
> below. The dmesg shows a good suspend/resume followed by a bad one.
> The bluetooth device is usb 2-3.2 I believe. The usbmon trace is only
> for the failed suspend/resume case.

I did some more debugging on this using ftrace, here is an annotated
log that shows what I think is happening on a failed resume. Note that
hub_port_connect_change() is the function that the patch modified to
call usb_get_device_descriptor() in some circumstances.

This first call to hub_port_connect_change() is for a different device,
not the failing one. There are multiple other calls to that function in
the trace, but they are not for the device in question:
kworker/1:6-19987 [001] 7803.175058: funcgraph_entry: | hub_port_connect_change() {
kworker/1:6-19987 [001] 7803.175069: funcgraph_entry: ! 11911.151 us | usb_get_device_descriptor();
kworker/2:5-20675 [002] 7803.179333: funcgraph_entry: | usb_probe_interface() {

Starting here is a worker thread that is trying to setup the bluetooth
adapter after the resume:
kworker/u17:1-3175 [002] 7803.179457: funcgraph_entry: | hci_power_on() {
kworker/u17:1-3175 [002] 7803.179458: funcgraph_entry: | hci_dev_do_open() {
kworker/u17:1-3175 [002] 7803.179468: funcgraph_entry: | btusb_setup_intel() {
kworker/2:5-20675 [002] 7803.179480: funcgraph_exit: ! 147.596 us | }

And here is a worker thread that is handling the connect change on the USB
port with the bluetooth device. This happens while the btusb_setup_intel()
function called by the other thread above is still running:
kworker/3:1-16790 [003] 7803.181323: funcgraph_entry: | hub_port_connect_change() {
kworker/3:1-16790 [003] 7803.181330: funcgraph_entry: | usb_get_device_descriptor() {
kworker/0:2-19962 [000] 7803.184885: funcgraph_entry: 6.016 us | hub_port_connect_change();
kworker/0:2-19962 [000] 7803.187208: funcgraph_entry: 5.462 us | hub_port_connect_change();
kworker/1:6-19987 [001] 7803.187835: funcgraph_exit: ! 12776.810 us | }
kworker/1:6-19987 [001] 7803.187846: funcgraph_entry: ! 767445.344 us | hub_port_connect_change();

By this point the failure has happened ("Bluetooth: hci0: Reading Intel
version information failed (-110)") , and it looks like somebody
queues another work to try setting up the bluetooth adapter again:
hciconfig-21074 [000] 7803.193549: funcgraph_entry: | hci_dev_open() {
kworker/1:6-19987 [001] 7803.955315: funcgraph_entry: ! 144039.307 us | hub_port_connect_change();
kworker/u17:1-3175 [003] 7805.203325: funcgraph_exit: ! 2023855 us | }
kworker/u17:1-3175 [003] 7805.211728: funcgraph_exit: ! 2032269 us | }
kworker/u17:1-3175 [003] 7805.211731: funcgraph_exit: ! 2032273 us | }
hciconfig-21074 [000] 7805.211760: funcgraph_entry: | hci_dev_do_open() {
hciconfig-21074 [000] 7805.211777: funcgraph_entry: ! 3069605 us | btusb_setup_intel();

And here the usb_get_device_descriptor() call made by the USB worker thread
finally completes. It also fails ("kworker/3:1 timed out on ep0in len=0/18"):
kworker/3:1-16790 [003] 7808.277224: funcgraph_exit: ! 5095893 us | }
hciconfig-21074 [001] 7808.283313: funcgraph_exit: ! 3071554 us | }
hciconfig-21074 [001] 7808.283315: funcgraph_exit: ! 5089767 us | }

So if I'm understanding this correctly, there are two threads that are
trying to access the USB bluetooth device at the same time. I have no
idea if that is how it's supposed to work.

Thanks,
Paul

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