[RFC 09/11] coresight: etm-perf: Disable the path before capturing the trace data
Suzuki K Poulose
suzuki.poulose at arm.com
Mon Dec 14 05:00:27 EST 2020
On 12/11/20 8:31 PM, Mathieu Poirier wrote:
> On Fri, Nov 27, 2020 at 10:32:28AM +0000, Suzuki K Poulose wrote:
>> On 11/10/20 12:45 PM, Anshuman Khandual wrote:
>>> perf handle structure needs to be shared with the TRBE IRQ handler for
>>> capturing trace data and restarting the handle. There is a probability
>>> of an undefined reference based crash when etm event is being stopped
>>> while a TRBE IRQ also getting processed. This happens due the release
>>> of perf handle via perf_aux_output_end(). This stops the sinks via the
>>> link before releasing the handle, which will ensure that a simultaneous
>>> TRBE IRQ could not happen.
>>
>> Or in other words :
>>
>> We now have :
>>
>> update_buffer()
>>
>> perf_aux_output_end(handle)
>>
>> ...
>> disable_path()
>>
>> This is problematic due to various reasons :
>>
>> 1) The semantics of update_buffer() is not clear. i.e, whether it
>> should leave the "sink" "stopped" or "disabled" or "active"
>
> I'm a little confused by the above as the modes that apply here are
> CS_MODE_DISABLED and CS_MODE_PERF, so I'll go with those. Let me know if you
> meant something else.
Sorry, I think it is a bit confusing.
stopped => Sink is in stopped HW state, but the software mode is not changed (i.e, could be
PERF or SYSF)
disabled => Sink is in stopped hw state, the software mode is DISABLED
active => Sink is active and flushing trace, with respective mode (PERF vs SYSFS).
>
> So far ->update_buffer() doesn't touch drvdata->mode and as such it is still set
> to CS_MODE_PERF when the update has completed.
>
>>
>> 2) This breaks the recommended trace collection sequence of
>> "flush" and "stop" from source to the sink for trace collection.
>> i.e, we stop the source now. But don't flush the components
>> from source to sink, rather we stop and flush from the sink.
>> And we flush and stop the path after we have collected the
>> trace data at sink, which is pointless.
>
> The above assesment is correct. Fixing it though has far reaching ramifications
> that go far beyond the scope of this patch.
>
>>
>> 3) For a sink with IRQ handler, if we don't stop the sink with
>> update_buffer(), we could have a situation :
>>
>> update_buffer()
>>
>> perf_aux_outpuf_end(handle) # handle is invalid now
>>
>> -----------------> IRQ -> irq_handler()
>> perf_aux_output_end(handle) # Wrong !
>>
>>
>> disable_path()
>
> That's the picture of the issue I had in my head when looking at the code -
> I'm glad we came to the same conclusion.
>
>>
>> The sysfs mode is fine, as we defer the trace collection to disable_path().
>>
>> The proposed patch is still racy, as we could still hit the problem.
>>
>> So, to avoid all of these situations, I think we should defer the the
>> update_buffer() to sink_ops->disable(), when we have flushed and stopped
>> the all the components upstream and avoid any races with the IRQ
>> handler.
>>
>> i.e,
>>
>> source_ops->stop(csdev);
>>
>> disable_path(handle); // similar to the enable_path
>>
>>
>> sink_ops->disable(csdev, handle)
>> {
>> /* flush & stop */
>>
>> /* collect trace */
>> perf_aux_output_end(handle, size);
>> }
>
> That is one solution. The advantage here is that it takes care of the
> flusing problem you described above. On the flip side it is moving a lot of
> code around, something that is better to do in another set.
>
> Another solution is to disable the TRBE IRQ in ->udpate_buffer(). The ETR does
> the same kind of thing with tmc_flush_and_stop(). I don't know how feasible
> that is but it would be a simple solution for this set. Properly flushing the
> pipeline could be done later. I'm fine with either approach.
Agreed. I think this is reasonable forthis set. i.e, leave the hardware disabled.
We could do the proper solution above as a separate series, to keep the changes
incremental.
Kind regards
Suzuki
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