Messages in this thread | | | Subject | Re: [PATCH 1/2] mwifiex: Use non-posted PCI register writes | From | Jonas Dreßler <> | Date | Thu, 30 Sep 2021 17:38:43 +0200 |
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On 9/23/21 10:22 PM, Pali Rohár wrote: > On Thursday 23 September 2021 22:41:30 Andy Shevchenko wrote: >> On Thu, Sep 23, 2021 at 6:28 PM Jonas Dreßler <verdre@v0yd.nl> wrote: >>> On 9/22/21 2:50 PM, Jonas Dreßler wrote: >> >> ... >> >>> - Just calling mwifiex_write_reg() once and then blocking until the card >>> wakes up using my delay-loop doesn't fix the issue, it's actually >>> writing multiple times that fixes the issue >>> >>> These observations sound a lot like writes (and even reads) are actually >>> being dropped, don't they? >> >> It sounds like you're writing into a not ready (fully powered on) device. > > This reminds me a discussion with Bjorn about CRS response returned > after firmware crash / reset when device is not ready yet: > https://lore.kernel.org/linux-pci/20210922164803.GA203171@bhelgaas/ > > Could not be this similar issue? You could check it via reading > PCI_VENDOR_ID register from config space. And if it is not valid value > then card is not really ready yet. > >> To check this, try to put a busy loop for reading and check the value >> till it gets 0. >> >> Something like >> >> unsigned int count = 1000; >> >> do { >> if (mwifiex_read_reg(...) == 0) >> break; >> } while (--count); >> >> >> -- >> With Best Regards, >> Andy Shevchenko
I've tried both reading PCI_VENDOR_ID and the firmware status using a busy loop now, but sadly none of them worked. It looks like the card always replies with the correct values even though it sometimes won't wake up after that.
I do have one new observation though, although I've no clue what could be happening here: When reading PCI_VENDOR_ID 1000 times to wakeup we can "predict" the wakeup failure because exactly one (usually around the 20th) of those 1000 reads will fail. Maybe the firmware actually tries to wake up, encounters an error somewhere in its wakeup routines and then goes down a special failure code path. That code path keeps the cards CPU so busy that at some point a PCI_VENDOR_ID request times out?
Or well, maybe the card actually wakes up fine, but we don't receive the interrupt on our end, so many possibilities...
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