Re: [RFC PATCH v1 0/4] HiSilicon Performance Monitor Control Unit

From: Jie Zhan
Date: Wed Apr 19 2023 - 04:01:34 EST




On 17/03/2023 21:11, Jonathan Cameron wrote:
On Mon, 27 Feb 2023 16:49:46 +0800
Jie Zhan <zhanjie9@xxxxxxxxxxxxx> wrote:

Please can anyone have a look at this PMCU patchset and provide some
comments?

It is much related to the ARM PMU.

We are looking forward to the feedback.

Any relevant comments/questions, with respect to software or hardware
design, use cases, coding, are welcome.

Kind regards,

Jie


On 06/02/2023 14:51, Jie Zhan wrote:
HiSilicon Performance Monitor Control Unit (PMCU) is a device that offloads
PMU accesses from CPUs, handling the configuration, event switching, and
counter reading of core PMUs on Kunpeng SoC. It facilitates fine-grained
and multi-PMU-event CPU profiling, in which scenario the current 'perf'
scheme may lose events or drop sampling frequency. With PMCU, users can
reliably obtain the data of up to 240 PMU events with the sample interval
of events down to 1ms, while the software overhead of accessing PMUs, as
well as its impact on target workloads, is reduced.

This patchset contains the documentation, driver, and user perf tool
support to enable using PMCU with the 'perf_event' framework.

Here are two key questions requested for comments:

- How do we make it compatible with arm_pmu drivers?

Hardware-wise, PMCU uses the existing core PMUs, so PMUs can be accessed
from CPU and PMCU simultaneously. The current hardware can't guarantee
mutual exclusive accesses. Hence, scheduling arm_pmu and PMCU events at
the same time may mess up the operation of PMUs, delivering incorrect
data for both events, e.g. unexpected events or sample periods.
Software-wise, we probably need to prevent the two types of events from
running at the same time, but currently there isn't a clear solution.
Hi Jonathan,

Sorry for a late reply on this, but I have thought a bit more on this issue recently.
I've been thinking about this a bit and don't have a good answer yet.

So some thoughts that might get some discussion going (some are here
mostly to be shot down ;)

1. I suspect adding a hook into the specific pmu driver to reserve a counter is going
to be controversial for this usecase. But maybe there is a more generic
way... There are lock up detectors that use PMU counters and ensure the counters
aren't also used for other purposes and that leads me to wonder if you can use
https://elixir.bootlin.com/linux/latest/source/kernel/events/core.c#L12700
perf_event_create_kernel_counter()
to do the same as opening a counter from userspace but then not use it.
I have no idea if this will work though or if enabling the event would be necessary
to prevent it being used elsewhere.
KVM is actually doing a similar thing. KVM inserts a call in armpmu_register() to save
a reference to struct arm_pmu, so as to get some information of arm_pmu, e.g. its pmu
type. With the pmu type, it can issue arm_pmu events through perf_event_create_kernel_counter().
Now we can make a general interface of this (supposed to be read-only), enabling other
kernel code to get the data of arm_pmu, not just for kvm.

In addition, PMCU needs to occupy certain counters, while the arm_pmu driver currently
gets the first free counter it finds in the counter bitmap (see armv8pmu_get_event_idx()).
Thus, we may have to add a mechanism to optionally specify a counter index that an event
wants to use. Adding a config field and adapting armv8pmu_get_event_idx() should work.

A more tricky work would be preventing the "occupying" events from being scheduled out.
I don't think this is a friendly action, and the perf_event framework doesn't seem to
support so (even if we add the "pinned" attribute, the event would also be switched out
when there comes another "pinned" event). However, any "occupying" events being scheduled
out should cause PMCU to stop, and I think this would undermine the advantage of PMCU.
2. It might be possible to reuse any of the infrastructure that exists
for userspace PMU counter access or maybe Rob Herring (+CC) has a suggestion based on
his work on that feature.

3. It's not nice, but maybe could enforce this constraint just in userspace?
We'd have to make sure that both drivers didn't do anything beyond not working
correctly if the other driver is messing with the hardware.
I actually think this is fine? So far, we haven't identified or found any problem from
running PMCU and ARM_PMU simultaneously beyond getting wrong readings. PMCU is designed
for system administrative use only. PMCU can also use a subset of PMU counters with higher
indices, and the reset of counters with lower indices can still be exposed to EL0 or EL1.
Thus, this approach should also work, providing that: a) EL0 or EL1 can only access a subset
of counters with the lower indices, and b) system administrative programs don't use ARM_PMU
and PMCU at the same time, or don't do anything harmful when getting abnormal PMU readings.

4. We can't do the nasty trick of providing a second driver that binds to the
PMU hardware to prevent it being used because I think the main arm PMU
driver has suppress_bind_attrs = true. Maybe we can make remove work?
(original patch for this in 2018 added that line because of a crash on remove
- not sure anyone looked at fixing the crash).
We still prefer to keep at least part of ARM PMU counters in service while running PMCU
in some scenarios. Unbinding the ARM PMU driver would go against that.

Thanks!
Jie Zhan

- Currently we reply on a sysfs file for users to input event numbers. Is
there a better way to pass many events?

The perf framework only allows three 64-bit config fields for custom PMU
configs. Obviously, this can't satisfy our need for passing many events
at a time. As an event number is 16-bit wide, the config fields can only
take up to 12 events at a time, or up to 192 events even if we do a
bitmap of events (and there are more than 192 available event numbers).
Hence, the current design takes an array of event numbers from a sysfs
file before starting profiling. However, this may go against the common
way to schedule perf events through perf commands.

Jie Zhan (4):
docs: perf: Add documentation for HiSilicon PMCU
drivers/perf: hisi: Add driver support for HiSilicon PMCU
perf tool: Add HiSilicon PMCU data recording support
perf tool: Add HiSilicon PMCU data decoding support

Documentation/admin-guide/perf/hisi-pmcu.rst | 183 +++
Documentation/admin-guide/perf/index.rst | 1 +
drivers/perf/hisilicon/Kconfig | 15 +
drivers/perf/hisilicon/Makefile | 1 +
drivers/perf/hisilicon/hisi_pmcu.c | 1096 ++++++++++++++++++
tools/perf/arch/arm/util/auxtrace.c | 61 +
tools/perf/arch/arm64/util/Build | 2 +-
tools/perf/arch/arm64/util/hisi-pmcu.c | 145 +++
tools/perf/util/Build | 1 +
tools/perf/util/auxtrace.c | 4 +
tools/perf/util/auxtrace.h | 1 +
tools/perf/util/hisi-pmcu.c | 305 +++++
tools/perf/util/hisi-pmcu.h | 19 +
13 files changed, 1833 insertions(+), 1 deletion(-)
create mode 100644 Documentation/admin-guide/perf/hisi-pmcu.rst
create mode 100644 drivers/perf/hisilicon/hisi_pmcu.c
create mode 100644 tools/perf/arch/arm64/util/hisi-pmcu.c
create mode 100644 tools/perf/util/hisi-pmcu.c
create mode 100644 tools/perf/util/hisi-pmcu.h


base-commit: 830b3c68c1fb1e9176028d02ef86f3cf76aa2476