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SubjectRe: [PATCH] perf: docs: Add man page entry for Arm SPE
Em Wed, Apr 13, 2022 at 05:38:37PM +0800, Leo Yan escreveu:
> On Wed, Apr 13, 2022 at 09:40:21AM +0100, James Clark wrote:
> > The SPE integration in Perf has quite a few usability quirks that
> > can't be found by just reading the reference manual. So document this
> > and at the same time add a summary of the feature that is also hard to
> > find elsewhere.
> >
> > Co-authored-by: Luke Dare <Luke.Dare@arm.com>
> > Co-authored-by: Al Grant <al.grant@arm.com>
> > Signed-off-by: James Clark <james.clark@arm.com>
>
> Reviewed-by: Leo Yan <leo.yan@linaro.org>

Thanks, applied.

- Arnaldo


> > ---
> > tools/perf/Documentation/perf-arm-spe.txt | 218 ++++++++++++++++++++++
> > tools/perf/Documentation/perf.txt | 2 +-
> > 2 files changed, 219 insertions(+), 1 deletion(-)
> > create mode 100644 tools/perf/Documentation/perf-arm-spe.txt
> >
> > diff --git a/tools/perf/Documentation/perf-arm-spe.txt b/tools/perf/Documentation/perf-arm-spe.txt
> > new file mode 100644
> > index 000000000000..bf03222e9a68
> > --- /dev/null
> > +++ b/tools/perf/Documentation/perf-arm-spe.txt
> > @@ -0,0 +1,218 @@
> > +perf-arm-spe(1)
> > +================
> > +
> > +NAME
> > +----
> > +perf-arm-spe - Support for Arm Statistical Profiling Extension within Perf tools
> > +
> > +SYNOPSIS
> > +--------
> > +[verse]
> > +'perf record' -e arm_spe//
> > +
> > +DESCRIPTION
> > +-----------
> > +
> > +The SPE (Statistical Profiling Extension) feature provides accurate attribution of latencies and
> > + events down to individual instructions. Rather than being interrupt-driven, it picks an
> > +instruction to sample and then captures data for it during execution. Data includes execution time
> > +in cycles. For loads and stores it also includes data address, cache miss events, and data origin.
> > +
> > +The sampling has 5 stages:
> > +
> > + 1. Choose an operation
> > + 2. Collect data about the operation
> > + 3. Optionally discard the record based on a filter
> > + 4. Write the record to memory
> > + 5. Interrupt when the buffer is full
> > +
> > +Choose an operation
> > +~~~~~~~~~~~~~~~~~~~
> > +
> > +This is chosen from a sample population, for SPE this is an IMPLEMENTATION DEFINED choice of all
> > +architectural instructions or all micro-ops. Sampling happens at a programmable interval. The
> > +architecture provides a mechanism for the SPE driver to infer the minimum interval at which it should
> > +sample. This minimum interval is used by the driver if no interval is specified. A pseudo-random
> > +perturbation is also added to the sampling interval by default.
> > +
> > +Collect data about the operation
> > +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> > +
> > +Program counter, PMU events, timings and data addresses related to the operation are recorded.
> > +Sampling ensures there is only one sampled operation is in flight.
> > +
> > +Optionally discard the record based on a filter
> > +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> > +
> > +Based on programmable criteria, choose whether to keep the record or discard it. If the record is
> > +discarded then the flow stops here for this sample.
> > +
> > +Write the record to memory
> > +~~~~~~~~~~~~~~~~~~~~~~~~~~
> > +
> > +The record is appended to a memory buffer
> > +
> > +Interrupt when the buffer is full
> > +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> > +
> > +When the buffer fills, an interrupt is sent and the driver signals Perf to collect the records.
> > +Perf saves the raw data in the perf.data file.
> > +
> > +Opening the file
> > +----------------
> > +
> > +Up until this point no decoding of the SPE data was done by either the kernel or Perf. Only when the
> > +recorded file is opened with 'perf report' or 'perf script' does the decoding happen. When decoding
> > +the data, Perf generates "synthetic samples" as if these were generated at the time of the
> > +recording. These samples are the same as if normal sampling was done by Perf without using SPE,
> > +although they may have more attributes associated with them. For example a normal sample may have
> > +just the instruction pointer, but an SPE sample can have data addresses and latency attributes.
> > +
> > +Why Sampling?
> > +-------------
> > +
> > + - Sampling, rather than tracing, cuts down the profiling problem to something more manageable for
> > + hardware. Only one sampled operation is in flight at a time.
> > +
> > + - Allows precise attribution data, including: Full PC of instruction, data virtual and physical
> > + addresses.
> > +
> > + - Allows correlation between an instruction and events, such as TLB and cache miss. (Data source
> > + indicates which particular cache was hit, but the meaning is implementation defined because
> > + different implementations can have different cache configurations.)
> > +
> > +However, SPE does not provide any call-graph information, and relies on statistical methods.
> > +
> > +Collisions
> > +----------
> > +
> > +When an operation is sampled while a previous sampled operation has not finished, a collision
> > +occurs. The new sample is dropped. Collisions affect the integrity of the data, so the sample rate
> > +should be set to avoid collisions.
> > +
> > +The 'sample_collision' PMU event can be used to determine the number of lost samples. Although this
> > +count is based on collisions _before_ filtering occurs. Therefore this can not be used as an exact
> > +number for samples dropped that would have made it through the filter, but can be a rough
> > +guide.
> > +
> > +The effect of microarchitectural sampling
> > +-----------------------------------------
> > +
> > +If an implementation samples micro-operations instead of instructions, the results of sampling must
> > +be weighted accordingly.
> > +
> > +For example, if a given instruction A is always converted into two micro-operations, A0 and A1, it
> > +becomes twice as likely to appear in the sample population.
> > +
> > +The coarse effect of conversions, and, if applicable, sampling of speculative operations, can be
> > +estimated from the 'sample_pop' and 'inst_retired' PMU events.
> > +
> > +Kernel Requirements
> > +-------------------
> > +
> > +The ARM_SPE_PMU config must be set to build as either a module or statically.
> > +
> > +Depending on CPU model, the kernel may need to be booted with page table isolation disabled
> > +(kpti=off). If KPTI needs to be disabled, this will fail with a console message "profiling buffer
> > +inaccessible. Try passing 'kpti=off' on the kernel command line".
> > +
> > +Capturing SPE with perf command-line tools
> > +------------------------------------------
> > +
> > +You can record a session with SPE samples:
> > +
> > + perf record -e arm_spe// -- ./mybench
> > +
> > +The sample period is set from the -c option, and because the minimum interval is used by default
> > +it's recommended to set this to a higher value. The value is written to PMSIRR.INTERVAL.
> > +
> > +Config parameters
> > +~~~~~~~~~~~~~~~~~
> > +
> > +These are placed between the // in the event and comma separated. For example '-e
> > +arm_spe/load_filter=1,min_latency=10/'
> > +
> > + branch_filter=1 - collect branches only (PMSFCR.B)
> > + event_filter=<mask> - filter on specific events (PMSEVFR) - see bitfield description below
> > + jitter=1 - use jitter to avoid resonance when sampling (PMSIRR.RND)
> > + load_filter=1 - collect loads only (PMSFCR.LD)
> > + min_latency=<n> - collect only samples with this latency or higher* (PMSLATFR)
> > + pa_enable=1 - collect physical address (as well as VA) of loads/stores (PMSCR.PA) - requires privilege
> > + pct_enable=1 - collect physical timestamp instead of virtual timestamp (PMSCR.PCT) - requires privilege
> > + store_filter=1 - collect stores only (PMSFCR.ST)
> > + ts_enable=1 - enable timestamping with value of generic timer (PMSCR.TS)
> > +
> > ++++*+++ Latency is the total latency from the point at which sampling started on that instruction, rather
> > +than only the execution latency.
> > +
> > +Only some events can be filtered on; these include:
> > +
> > + bit 1 - instruction retired (i.e. omit speculative instructions)
> > + bit 3 - L1D refill
> > + bit 5 - TLB refill
> > + bit 7 - mispredict
> > + bit 11 - misaligned access
> > +
> > +So to sample just retired instructions:
> > +
> > + perf record -e arm_spe/event_filter=2/ -- ./mybench
> > +
> > +or just mispredicted branches:
> > +
> > + perf record -e arm_spe/event_filter=0x80/ -- ./mybench
> > +
> > +Viewing the data
> > +~~~~~~~~~~~~~~~~~
> > +
> > +By default perf report and perf script will assign samples to separate groups depending on the
> > +attributes/events of the SPE record. Because instructions can have multiple events associated with
> > +them, the samples in these groups are not necessarily unique. For example perf report shows these
> > +groups:
> > +
> > + Available samples
> > + 0 arm_spe//
> > + 0 dummy:u
> > + 21 l1d-miss
> > + 897 l1d-access
> > + 5 llc-miss
> > + 7 llc-access
> > + 2 tlb-miss
> > + 1K tlb-access
> > + 36 branch-miss
> > + 0 remote-access
> > + 900 memory
> > +
> > +The arm_spe// and dummy:u events are implementation details and are expected to be empty.
> > +
> > +To get a full list of unique samples that are not sorted into groups, set the itrace option to
> > +generate 'instruction' samples. The period option is also taken into account, so set it to 1
> > +instruction unless you want to further downsample the already sampled SPE data:
> > +
> > + perf report --itrace=i1i
> > +
> > +Memory access details are also stored on the samples and this can be viewed with:
> > +
> > + perf report --mem-mode
> > +
> > +Common errors
> > +~~~~~~~~~~~~~
> > +
> > + - "Cannot find PMU `arm_spe'. Missing kernel support?"
> > +
> > + Module not built or loaded, KPTI not disabled (see above), or running on a VM
> > +
> > + - "Arm SPE CONTEXT packets not found in the traces."
> > +
> > + Root privilege is required to collect context packets. But these only increase the accuracy of
> > + assigning PIDs to kernel samples. For userspace sampling this can be ignored.
> > +
> > + - Excessively large perf.data file size
> > +
> > + Increase sampling interval (see above)
> > +
> > +
> > +SEE ALSO
> > +--------
> > +
> > +linkperf:perf-record[1], linkperf:perf-script[1], linkperf:perf-report[1],
> > +linkperf:perf-inject[1]
> > diff --git a/tools/perf/Documentation/perf.txt b/tools/perf/Documentation/perf.txt
> > index 71ebdf8125de..ba3df49c169d 100644
> > --- a/tools/perf/Documentation/perf.txt
> > +++ b/tools/perf/Documentation/perf.txt
> > @@ -77,7 +77,7 @@ linkperf:perf-stat[1], linkperf:perf-top[1],
> > linkperf:perf-record[1], linkperf:perf-report[1],
> > linkperf:perf-list[1]
> >
> > -linkperf:perf-annotate[1],linkperf:perf-archive[1],
> > +linkperf:perf-annotate[1],linkperf:perf-archive[1],linkperf:perf-arm-spe[1],
> > linkperf:perf-bench[1], linkperf:perf-buildid-cache[1],
> > linkperf:perf-buildid-list[1], linkperf:perf-c2c[1],
> > linkperf:perf-config[1], linkperf:perf-data[1], linkperf:perf-diff[1],
> > --
> > 2.28.0
> >

--

- Arnaldo

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