On 1/09/20 6:14 pm, Nicholas Piggin wrote:
> Excerpts from Chris Packham's message of September 1, 2020 11:25 am:
>> On 1/09/20 12:33 am, Heiner Kallweit wrote:
>>> On 30.08.2020 23:59, Chris Packham wrote:
>>>> On 31/08/20 9:41 am, Heiner Kallweit wrote:
>>>>> On 30.08.2020 23:00, Chris Packham wrote:
>>>>>> On 31/08/20 12:30 am, Nicholas Piggin wrote:
>>>>>>> Excerpts from Chris Packham's message of August 28, 2020 8:07 am:
>>>>>> <snip>
>>>>>>
>>>>>>>>>>>> I've also now seen the RX FIFO not empty error on the T2080RDB
>>>>>>>>>>>>
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but SPIE_DON isn't set!
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but SPIE_DON isn't set!
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but SPIE_DON isn't set!
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but SPIE_DON isn't set!
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but rx/tx fifo's aren't 
>>>>>>>>>>>> empty!
>>>>>>>>>>>> fsl_espi ffe110000.spi: SPIE_RXCNT = 1, SPIE_TXCNT = 32
>>>>>>>>>>>>
>>>>>>>>>>>> With my current workaround of emptying the RX FIFO. It seems
>>>>>>>>>>>> survivable. Interestingly it only ever seems to be 1 extra byte in 
>>>>>>>>>>>> the
>>>>>>>>>>>> RX FIFO and it seems to be after either a READ_SR or a READ_FSR.
>>>>>>>>>>>>
>>>>>>>>>>>> fsl_espi ffe110000.spi: tx 70
>>>>>>>>>>>> fsl_espi ffe110000.spi: rx 03
>>>>>>>>>>>> fsl_espi ffe110000.spi: Extra RX 00
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but SPIE_DON isn't set!
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but rx/tx fifo's aren't 
>>>>>>>>>>>> empty!
>>>>>>>>>>>> fsl_espi ffe110000.spi: SPIE_RXCNT = 1, SPIE_TXCNT = 32
>>>>>>>>>>>> fsl_espi ffe110000.spi: tx 05
>>>>>>>>>>>> fsl_espi ffe110000.spi: rx 00
>>>>>>>>>>>> fsl_espi ffe110000.spi: Extra RX 03
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but SPIE_DON isn't set!
>>>>>>>>>>>> fsl_espi ffe110000.spi: Transfer done but rx/tx fifo's aren't 
>>>>>>>>>>>> empty!
>>>>>>>>>>>> fsl_espi ffe110000.spi: SPIE_RXCNT = 1, SPIE_TXCNT = 32
>>>>>>>>>>>> fsl_espi ffe110000.spi: tx 05
>>>>>>>>>>>> fsl_espi ffe110000.spi: rx 00
>>>>>>>>>>>> fsl_espi ffe110000.spi: Extra RX 03
>>>>>>>>>>>>
>>>>>>>>>>>>      From all the Micron SPI-NOR datasheets I've got access to it 
>>>>>>>>>>>> is
>>>>>>>>>>>> possible to continually read the SR/FSR. But I've no idea why it
>>>>>>>>>>>> happens some times and not others.
>>>>>>>>>>> So I think I've got a reproduction and I think I've bisected the 
>>>>>>>>>>> problem
>>>>>>>>>>> to commit 3282a3da25bd ("powerpc/64: Implement soft interrupt 
>>>>>>>>>>> replay in
>>>>>>>>>>> C"). My day is just finishing now so I haven't applied too much 
>>>>>>>>>>> scrutiny
>>>>>>>>>>> to this result. Given the various rabbit holes I've been down on 
>>>>>>>>>>> this
>>>>>>>>>>> issue already I'd take this information with a good degree of 
>>>>>>>>>>> skepticism.
>>>>>>>>>>>
>>>>>>>>>> OK, so an easy test should be to re-test with a 5.4 kernel.
>>>>>>>>>> It doesn't have yet the change you're referring to, and the fsl-espi 
>>>>>>>>>> driver
>>>>>>>>>> is basically the same as in 5.7 (just two small changes in 5.7).
>>>>>>>>> There's 6cc0c16d82f88 and maybe also other interrupt related patches
>>>>>>>>> around this time that could affect book E, so it's good if that exact
>>>>>>>>> patch is confirmed.
>>>>>>>> My confirmation is basically that I can induce the issue in a 5.4 
>>>>>>>> kernel
>>>>>>>> by cherry-picking 3282a3da25bd. I'm also able to "fix" the issue in
>>>>>>>> 5.9-rc2 by reverting that one commit.
>>>>>>>>
>>>>>>>> I both cases it's not exactly a clean cherry-pick/revert so I also
>>>>>>>> confirmed the bisection result by building at 3282a3da25bd (which sees
>>>>>>>> the issue) and the commit just before (which does not).
>>>>>>> Thanks for testing, that confirms it well.
>>>>>>>
>>>>>>> [snip patch]
>>>>>>>
>>>>>>>> I still saw the issue with this change applied. PPC_IRQ_SOFT_MASK_DEBUG
>>>>>>>> didn't report anything (either with or without the change above).
>>>>>>> Okay, it was a bit of a shot in the dark. I still can't see what
>>>>>>> else has changed.
>>>>>>>
>>>>>>> What would cause this, a lost interrupt? A spurious interrupt? Or
>>>>>>> higher interrupt latency?
>>>>>>>
>>>>>>> I don't think the patch should cause significantly worse latency,
>>>>>>> (it's supposed to be a bit better if anything because it doesn't set
>>>>>>> up the full interrupt frame). But it's possible.
>>>>>> My working theory is that the SPI_DON indication is all about the TX
>>>>>> direction an now that the interrupts are faster we're hitting an error
>>>>>> because there is still RX activity going on. Heiner disagrees with my
>>>>>> interpretation of the SPI_DON indication and the fact that it doesn't
>>>>>> happen every time does throw doubt on it.
>>>>>>
>>>>> It's right that the eSPI spec can be interpreted that SPI_DON refers to
>>>>> TX only. However this wouldn't really make sense, because also for RX
>>>>> we program the frame length, and therefore want to be notified once the
>>>>> full frame was received. Also practical experience shows that SPI_DON
>>>>> is set also after RX-only transfers.
>>>>> Typical SPI NOR use case is that you write read command + start address,
>>>>> followed by a longer read. If the TX-only interpretation would be right,
>>>>> we'd always end up with SPI_DON not being set.
>>>>>
>>>>>> I can't really explain the extra RX byte in the fifo. We know how many
>>>>>> bytes to expect and we pull that many from the fifo so it's not as if
>>>>>> we're missing an interrupt causing us to skip the last byte. I've been
>>>>>> looking for some kind of off-by-one calculation but again if it were
>>>>>> something like that it'd happen all the time.
>>>>>>
>>>>> Maybe it helps to know what value this extra byte in the FIFO has. Is it:
>>>>> - a duplicate of the last read byte
>>>>> - or the next byte (at <end address> + 1)
>>>>> - or a fixed value, e.g. always 0x00 or 0xff
>>>> The values were up thread a bit but I'll repeat them here
>>>>
>>>> fsl_espi ffe110000.spi: tx 70
>>>> fsl_espi ffe110000.spi: rx 03
>>>> fsl_espi ffe110000.spi: Extra RX 00
>>>> fsl_espi ffe110000.spi: Transfer done but SPIE_DON isn't set!
>>>> fsl_espi ffe110000.spi: Transfer done but rx/tx fifo's aren't empty!
>>>> fsl_espi ffe110000.spi: SPIE_RXCNT = 1, SPIE_TXCNT = 32
>>>> fsl_espi ffe110000.spi: tx 05
>>>> fsl_espi ffe110000.spi: rx 00
>>>> fsl_espi ffe110000.spi: Extra RX 03
>>>> fsl_espi ffe110000.spi: Transfer done but SPIE_DON isn't set!
>>>> fsl_espi ffe110000.spi: Transfer done but rx/tx fifo's aren't empty!
>>>> fsl_espi ffe110000.spi: SPIE_RXCNT = 1, SPIE_TXCNT = 32
>>>> fsl_espi ffe110000.spi: tx 05
>>>> fsl_espi ffe110000.spi: rx 00
>>>> fsl_espi ffe110000.spi: Extra RX 03
>>>>
>>>>
>>>> The rx 00 Extra RX 03 is a bit concerning. I've only ever seen them with
>>>> either a READ_SR or a READ_FSR. Never a data read.
>>>>
>>> Just remembered something about SPIE_DON:
>>> Transfers are always full duplex, therefore in case of a read the chip
>>> sends dummy zero's. Having said that in case of a read SPIE_DON means
>>> that the last dummy zero was shifted out.
>>>
>>> READ_SR and READ_FSR are the shortest transfers, 1 byte out and 1 byte in.
>>> So the issue may have a dependency on the length of the transfer.
>>> However I see no good explanation so far. You can try adding a delay of
>>> a few miroseconds between the following to commands in fsl_espi_bufs().
>>>
>>>     fsl_espi_write_reg(espi, ESPI_SPIM, mask);
>>>
>>>     /* Prevent filling the fifo from getting interrupted */
>>>     spin_lock_irq(&espi->lock);
>>>
>>> Maybe enabling interrupts and seeing the SPIE_DON interrupt are too close.
>> I think this might be heading in the right direction. Playing about with
>> a delay does seem to make the two symptoms less likely. Although I have
>> to set it quite high (i.e. msleep(100)) to completely avoid any
>> possibility of seeing either message.
> The patch might replay the interrupt a little bit faster, but it would
> be a few microseconds at most I think (just from improved code).
>
> Would you be able to ftrace the interrupt handler function and see if you
> can see a difference in number or timing of interrupts? I'm at a bit of
> a loss.
This is getting really weird. I was setting up to run with ftrace and 
found I couldn't reproduce it on the tip of Linus's tree (currently 
pointing at e7a522c83b86). But I swear I could last week. Sure enough if 
I checkout 5.9-rc2 (or 5.7.15) I can reproduce the problem again.
> Thanks,
> Nick
>

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