linux-next/Documentation/trace/coresight/coresight-config.rst
Mike Leach f9809d5651 Documentation: coresight: Update coresight configuration docs
Update the CoreSight System Configuration document to cover the
use of loadable modules to add configurations and features
to the system.

Signed-off-by: Mike Leach <mike.leach@linaro.org>
Link: https://lore.kernel.org/r/20211124200038.28662-7-mike.leach@linaro.org
Signed-off-by: Mathieu Poirier <mathieu.poirier@linaro.org>
2021-11-26 11:34:39 -07:00

295 lines
9.6 KiB
ReStructuredText

.. SPDX-License-Identifier: GPL-2.0
======================================
CoreSight System Configuration Manager
======================================
:Author: Mike Leach <mike.leach@linaro.org>
:Date: October 2020
Introduction
============
The CoreSight System Configuration manager is an API that allows the
programming of the CoreSight system with pre-defined configurations that
can then be easily enabled from sysfs or perf.
Many CoreSight components can be programmed in complex ways - especially ETMs.
In addition, components can interact across the CoreSight system, often via
the cross trigger components such as CTI and CTM. These system settings can
be defined and enabled as named configurations.
Basic Concepts
==============
This section introduces the basic concepts of a CoreSight system configuration.
Features
--------
A feature is a named set of programming for a CoreSight device. The programming
is device dependent, and can be defined in terms of absolute register values,
resource usage and parameter values.
The feature is defined using a descriptor. This descriptor is used to load onto
a matching device, either when the feature is loaded into the system, or when the
CoreSight device is registered with the configuration manager.
The load process involves interpreting the descriptor into a set of register
accesses in the driver - the resource usage and parameter descriptions
translated into appropriate register accesses. This interpretation makes it easy
and efficient for the feature to be programmed onto the device when required.
The feature will not be active on the device until the feature is enabled, and
the device itself is enabled. When the device is enabled then enabled features
will be programmed into the device hardware.
A feature is enabled as part of a configuration being enabled on the system.
Parameter Value
~~~~~~~~~~~~~~~
A parameter value is a named value that may be set by the user prior to the
feature being enabled that can adjust the behaviour of the operation programmed
by the feature.
For example, this could be a count value in a programmed operation that repeats
at a given rate. When the feature is enabled then the current value of the
parameter is used in programming the device.
The feature descriptor defines a default value for a parameter, which is used
if the user does not supply a new value.
Users can update parameter values using the configfs API for the CoreSight
system - which is described below.
The current value of the parameter is loaded into the device when the feature
is enabled on that device.
Configurations
--------------
A configuration defines a set of features that are to be used in a trace
session where the configuration is selected. For any trace session only one
configuration may be selected.
The features defined may be on any type of device that is registered
to support system configuration. A configuration may select features to be
enabled on a class of devices - i.e. any ETMv4, or specific devices, e.g. a
specific CTI on the system.
As with the feature, a descriptor is used to define the configuration.
This will define the features that must be enabled as part of the configuration
as well as any preset values that can be used to override default parameter
values.
Preset Values
~~~~~~~~~~~~~
Preset values are easily selectable sets of parameter values for the features
that the configuration uses. The number of values in a single preset set, equals
the sum of parameter values in the features used by the configuration.
e.g. a configuration consists of 3 features, one has 2 parameters, one has
a single parameter, and another has no parameters. A single preset set will
therefore have 3 values.
Presets are optionally defined by the configuration, up to 15 can be defined.
If no preset is selected, then the parameter values defined in the feature
are used as normal.
Operation
~~~~~~~~~
The following steps take place in the operation of a configuration.
1) In this example, the configuration is 'autofdo', which has an
associated feature 'strobing' that works on ETMv4 CoreSight Devices.
2) The configuration is enabled. For example 'perf' may select the
configuration as part of its command line::
perf record -e cs_etm/autofdo/ myapp
which will enable the 'autofdo' configuration.
3) perf starts tracing on the system. As each ETMv4 that perf uses for
trace is enabled, the configuration manager will check if the ETMv4
has a feature that relates to the currently active configuration.
In this case 'strobing' is enabled & programmed into the ETMv4.
4) When the ETMv4 is disabled, any registers marked as needing to be
saved will be read back.
5) At the end of the perf session, the configuration will be disabled.
Viewing Configurations and Features
===================================
The set of configurations and features that are currently loaded into the
system can be viewed using the configfs API.
Mount configfs as normal and the 'cs-syscfg' subsystem will appear::
$ ls /config
cs-syscfg stp-policy
This has two sub-directories::
$ cd cs-syscfg/
$ ls
configurations features
The system has the configuration 'autofdo' built in. It may be examined as
follows::
$ cd configurations/
$ ls
autofdo
$ cd autofdo/
$ ls
description feature_refs preset1 preset3 preset5 preset7 preset9
enable preset preset2 preset4 preset6 preset8
$ cat description
Setup ETMs with strobing for autofdo
$ cat feature_refs
strobing
Each preset declared has a 'preset<n>' subdirectory declared. The values for
the preset can be examined::
$ cat preset1/values
strobing.window = 0x1388 strobing.period = 0x2
$ cat preset2/values
strobing.window = 0x1388 strobing.period = 0x4
The 'enable' and 'preset' files allow the control of a configuration when
using CoreSight with sysfs.
The features referenced by the configuration can be examined in the features
directory::
$ cd ../../features/strobing/
$ ls
description matches nr_params params
$ cat description
Generate periodic trace capture windows.
parameter 'window': a number of CPU cycles (W)
parameter 'period': trace enabled for W cycles every period x W cycles
$ cat matches
SRC_ETMV4
$ cat nr_params
2
Move to the params directory to examine and adjust parameters::
cd params
$ ls
period window
$ cd period
$ ls
value
$ cat value
0x2710
# echo 15000 > value
# cat value
0x3a98
Parameters adjusted in this way are reflected in all device instances that have
loaded the feature.
Using Configurations in perf
============================
The configurations loaded into the CoreSight configuration management are
also declared in the perf 'cs_etm' event infrastructure so that they can
be selected when running trace under perf::
$ ls /sys/devices/cs_etm
cpu0 cpu2 events nr_addr_filters power subsystem uevent
cpu1 cpu3 format perf_event_mux_interval_ms sinks type
The key directory here is 'events' - a generic perf directory which allows
selection on the perf command line. As with the sinks entries, this provides
a hash of the configuration name.
The entry in the 'events' directory uses perfs built in syntax generator
to substitute the syntax for the name when evaluating the command::
$ ls events/
autofdo
$ cat events/autofdo
configid=0xa7c3dddd
The 'autofdo' configuration may be selected on the perf command line::
$ perf record -e cs_etm/autofdo/u --per-thread <application>
A preset to override the current parameter values can also be selected::
$ perf record -e cs_etm/autofdo,preset=1/u --per-thread <application>
When configurations are selected in this way, then the trace sink used is
automatically selected.
Using Configurations in sysfs
=============================
Coresight can be controlled using sysfs. When this is in use then a configuration
can be made active for the devices that are used in the sysfs session.
In a configuration there are 'enable' and 'preset' files.
To enable a configuration for use with sysfs::
$ cd configurations/autofdo
$ echo 1 > enable
This will then use any default parameter values in the features - which can be
adjusted as described above.
To use a preset<n> set of parameter values::
$ echo 3 > preset
This will select preset3 for the configuration.
The valid values for preset are 0 - to deselect presets, and any value of
<n> where a preset<n> sub-directory is present.
Note that the active sysfs configuration is a global parameter, therefore
only a single configuration can be active for sysfs at any one time.
Attempting to enable a second configuration will result in an error.
Additionally, attempting to disable the configuration while in use will
also result in an error.
The use of the active configuration by sysfs is independent of the configuration
used in perf.
Creating and Loading Custom Configurations
==========================================
Custom configurations and / or features can be dynamically loaded into the
system by using a loadable module.
An example of a custom configuration is found in ./samples/coresight.
This creates a new configuration that uses the existing built in
strobing feature, but provides a different set of presets.
When the module is loaded, then the configuration appears in the configfs
file system and is selectable in the same way as the built in configuration
described above.
Configurations can use previously loaded features. The system will ensure
that it is not possible to unload a feature that is currently in use, by
enforcing the unload order as the strict reverse of the load order.