Hi Mike,
On 2020-04-29 19:57, Mike Leach wrote:
Hi,
[...]
>> Looking more into replicator1(swao_replicator) values as 0x0 even
>> after replicator_reset()
>> in replicator probe, I added dynamic_replicator_reset in
>> dynamic_replicator_enable()
>> and am not seeing any hardlockup. Also I added some prints to check
>> the idfilter
>> values before and after reset and found that its not set to 0xff even
>> after replicator_reset()
>> in replicator probe, I don't see any other path setting it to 0x0.
>>
>> After probe:
>>
>> [ 8.477669] func replicator_probe before reset replicator
>> replicator1 REPLICATOR_IDFILTER0=0x0 REPLICATOR_IDFILTER1=0x0
>> [ 8.489470] func replicator_probe after reset replicator
>> replicator1 REPLICATOR_IDFILTER0=0xff REPLICATOR_IDFILTER1=0xff
>
> AFAICS, after the reset both of them are set to 0xff.
Yes I see this too as we call replicator_reset() in probe. What I
wanted
to highlight was the below part where it is set to 0x0 before enabling
dynamic replicator.
>
>> [ 8.502738] func replicator_probe before reset replicator
>> replicator0 REPLICATOR_IDFILTER0=0x0 REPLICATOR_IDFILTER1=0x0
>> [ 8.515214] func replicator_probe after reset replicator
>> replicator0 REPLICATOR_IDFILTER0=0xff REPLICATOR_IDFILTER1=0xff
>
>
>
>> localhost ~ #
>> localhost ~ #
>> localhost ~ # echo 1 > /sys/bus/coresight/devices/tmc_etr0/enable_sink
>> localhost ~ #
>> localhost ~ # echo 1 > /sys/bus/coresight/devices/etm0/enable_source
>> [ 58.490485] func dynamic_replicator_enable before reset replicator
>> replicator0 REPLICATOR_IDFILTER0=0xff REPLICATOR_IDFILTER1=0xff
>> [ 58.503246] func dynamic_replicator_enable after reset replicator
>> replicator0 REPLICATOR_IDFILTER0=0xff REPLICATOR_IDFILTER1=0xff
>> [ 58.520902] func dynamic_replicator_enable before reset replicator
>> replicator1 REPLICATOR_IDFILTER0=0x0 REPLICATOR_IDFILTER1=0x0
>
> You need to find what is resetting the IDFILTERs to 0 for replicator1.
>
That is right.
By default all replicators have the IDFILTER registers set to 0 out of
hardware reset. This ensures that programmable replicators behave in
the same way as non-programmable replicators out of reset.
The dynamic_replicator_reset() is of course a driver state reset -
which filters out all trace on the output ports. The trace is then
enabled when we set the trace path from source to sink.
Thanks for these explanations.
It seems to me that you have 2 problems that need solving here:
1) Why does the reset_replicator() called from probe() _not_ work
correctly on replicator 1? It seems to work later if you introduce a
reset after more of the system has powered and booted. This is
startiing to look a little like a PM / clocking issue.
reset_replicator() does work in probe correctly for both replicators,
below logs is collected before and after reset in probe. It is later
that it's set back to 0x0 and hence the suggestion to look at firmware
using this replicator1.
[ 8.477669] func replicator_probe before reset replicator replicator1
REPLICATOR_IDFILTER0=0x0 REPLICATOR_IDFILTER1=0x0
[ 8.489470] func replicator_probe after reset replicator replicator1
REPLICATOR_IDFILTER0=0xff REPLICATOR_IDFILTER1=0xff
This failure is causing the state when we are trying to set an output
port that both branches of this replicator are enabled for output.
In effect for this replicator, setting the output port has no effect
as it is already enabled.
2) Why does having both ports of this repilicator enabled cause a hard
lockup? This is a separate hardware / system issue.
The worst that should happen if both branches of a replicator are
enabled is that you get undesirable back pressure. (e.g. there is a
system we have seen - I think it is Juno - where there is a static
replicator feeding the TPIU and ETR - we need to disable the TPIU to
prevent undesired back pressure).
Ok so hardlockup is not expected because of this backpressure.
Thanks,
Sai
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