platform/x86: wmi: Add driver development guide

Since 2010, an LWN article covering WMI drivers exists:

	https://lwn.net/Articles/391230/

Since the introduction of the modern bus-based interface
and other userspace tooling (bmfdec, lswmi, ...), this
article is outdated and causes people to still submit new
WMI drivers using the deprecated GUID-based interface.
Fix this by adding a short guide on how to develop WMI drivers
using the modern bus-based interface.

Signed-off-by: Armin Wolf <W_Armin@gmx.de>
Link: https://lore.kernel.org/r/20240402143059.8456-4-W_Armin@gmx.de
Reviewed-by: Kuppuswamy Sathyanarayanan <sathyanarayanan.kuppuswamy@linux.intel.com>
Reviewed-by: Hans de Goede <hdegoede@redhat.com>
Signed-off-by: Hans de Goede <hdegoede@redhat.com>
This commit is contained in:
Armin Wolf 2024-04-02 16:30:59 +02:00 committed by Hans de Goede
parent c5e160ff34
commit a582a43e0d
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.. SPDX-License-Identifier: GPL-2.0-or-later
============================
WMI driver development guide
============================
The WMI subsystem provides a rich driver API for implementing WMI drivers,
documented at Documentation/driver-api/wmi.rst. This document will serve
as an introductory guide for WMI driver writers using this API. It is supposed
to be a successor to the original LWN article [1]_ which deals with WMI drivers
using the deprecated GUID-based WMI interface.
Obtaining WMI device information
--------------------------------
Before developing an WMI driver, information about the WMI device in question
must be obtained. The `lswmi <https://pypi.org/project/lswmi>`_ utility can be
used to extract detailed WMI device information using the following command:
::
lswmi -V
The resulting output will contain information about all WMI devices available on
a given machine, plus some extra information.
In order to find out more about the interface used to communicate with a WMI device,
the `bmfdec <https://github.com/pali/bmfdec>`_ utilities can be used to decode
the Binary MOF (Managed Object Format) information used to describe WMI devices.
The ``wmi-bmof`` driver exposes this information to userspace, see
Documentation/wmi/devices/wmi-bmof.rst.
In order to retrieve the decoded Binary MOF information, use the following command (requires root):
::
./bmf2mof /sys/bus/wmi/devices/05901221-D566-11D1-B2F0-00A0C9062910[-X]/bmof
Sometimes, looking at the disassembled ACPI tables used to describe the WMI device
helps in understanding how the WMI device is supposed to work. The path of the ACPI
method associated with a given WMI device can be retrieved using the ``lswmi`` utility
as mentioned above.
Basic WMI driver structure
--------------------------
The basic WMI driver is build around the struct wmi_driver, which is then bound
to matching WMI devices using a struct wmi_device_id table:
::
static const struct wmi_device_id foo_id_table[] = {
{ "936DA01F-9ABD-4D9D-80C7-02AF85C822A8", NULL },
{ }
};
MODULE_DEVICE_TABLE(wmi, foo_id_table);
static struct wmi_driver foo_driver = {
.driver = {
.name = "foo",
.probe_type = PROBE_PREFER_ASYNCHRONOUS, /* recommended */
.pm = pm_sleep_ptr(&foo_dev_pm_ops), /* optional */
},
.id_table = foo_id_table,
.probe = foo_probe,
.remove = foo_remove, /* optional, devres is preferred */
.notify = foo_notify, /* optional, for event handling */
.no_notify_data = true, /* optional, enables events containing no additional data */
.no_singleton = true, /* required for new WMI drivers */
};
module_wmi_driver(foo_driver);
The probe() callback is called when the WMI driver is bound to a matching WMI device. Allocating
driver-specific data structures and initialising interfaces to other kernel subsystems should
normally be done in this function.
The remove() callback is then called when the WMI driver is unbound from a WMI device. In order
to unregister interfaces to other kernel subsystems and release resources, devres should be used.
This simplifies error handling during probe and often allows to omit this callback entirely, see
Documentation/driver-api/driver-model/devres.rst for details.
Please note that new WMI drivers are required to be able to be instantiated multiple times,
and are forbidden from using any deprecated GUID-based WMI functions. This means that the
WMI driver should be prepared for the scenario that multiple matching WMI devices are present
on a given machine.
Because of this, WMI drivers should use the state container design pattern as described in
Documentation/driver-api/driver-model/design-patterns.rst.
WMI method drivers
------------------
WMI drivers can call WMI device methods using wmidev_evaluate_method(), the
structure of the ACPI buffer passed to this function is device-specific and usually
needs some tinkering to get right. Looking at the ACPI tables containing the WMI
device usually helps here. The method id and instance number passed to this function
are also device-specific, looking at the decoded Binary MOF is usually enough to
find the right values.
The maximum instance number can be retrieved during runtime using wmidev_instance_count().
Take a look at drivers/platform/x86/inspur_platform_profile.c for an example WMI method driver.
WMI data block drivers
----------------------
WMI drivers can query WMI device data blocks using wmidev_block_query(), the
structure of the returned ACPI object is again device-specific. Some WMI devices
also allow for setting data blocks using wmidev_block_set().
The maximum instance number can also be retrieved using wmidev_instance_count().
Take a look at drivers/platform/x86/intel/wmi/sbl-fw-update.c for an example
WMI data block driver.
WMI event drivers
-----------------
WMI drivers can receive WMI events via the notify() callback inside the struct wmi_driver.
The WMI subsystem will then take care of setting up the WMI event accordingly. Please note that
the structure of the ACPI object passed to this callback is device-specific, and freeing the
ACPI object is being done by the WMI subsystem, not the driver.
The WMI driver core will take care that the notify() callback will only be called after
the probe() callback has been called, and that no events are being received by the driver
right before and after calling its remove() callback.
However WMI driver developers should be aware that multiple WMI events can be received concurrently,
so any locking (if necessary) needs to be provided by the WMI driver itself.
In order to be able to receive WMI events containing no additional event data,
the ``no_notify_data`` flag inside struct wmi_driver should be set to ``true``.
Take a look at drivers/platform/x86/xiaomi-wmi.c for an example WMI event driver.
Handling multiple WMI devices at once
-------------------------------------
There are many cases of firmware vendors using multiple WMI devices to control different aspects
of a single physical device. This can make developing WMI drivers complicated, as those drivers
might need to communicate with each other to present a unified interface to userspace.
On such case involves a WMI event device which needs to talk to a WMI data block device or WMI
method device upon receiving an WMI event. In such a case, two WMI drivers should be developed,
one for the WMI event device and one for the other WMI device.
The WMI event device driver has only one purpose: to receive WMI events, validate any additional
event data and invoke a notifier chain. The other WMI driver adds itself to this notifier chain
during probing and thus gets notified every time a WMI event is received. This WMI driver might
then process the event further for example by using an input device.
For other WMI device constellations, similar mechanisms can be used.
Things to avoid
---------------
When developing WMI drivers, there are a couple of things which should be avoided:
- usage of the deprecated GUID-based WMI interface which uses GUIDs instead of WMI device structs
- bypassing of the WMI subsystem when talking to WMI devices
- WMI drivers which cannot be instantiated multiple times.
Many older WMI drivers violate one or more points from this list. The reason for
this is that the WMI subsystem evolved significantly over the last two decades,
so there is a lot of legacy cruft inside older WMI drivers.
New WMI drivers are also required to conform to the linux kernel coding style as specified in
Documentation/process/coding-style.rst. The checkpatch utility can catch many common coding style
violations, you can invoke it with the following command:
::
./scripts/checkpatch.pl --strict <path to driver file>
References
==========
.. [1] https://lwn.net/Articles/391230/

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@ -8,6 +8,7 @@ WMI Subsystem
:maxdepth: 1 :maxdepth: 1
acpi-interface acpi-interface
driver-development-guide
devices/index devices/index
.. only:: subproject and html .. only:: subproject and html