2007-09-13 03:22:55 -04:00
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rfkill - RF switch subsystem support
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====================================
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2008-06-23 16:23:08 -04:00
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1 Introduction
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2 Implementation details
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3 Kernel driver guidelines
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4 Kernel API
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5 Userspace support
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2007-09-13 03:22:55 -04:00
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2008-06-23 16:23:08 -04:00
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1. Introduction:
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2007-09-13 03:22:55 -04:00
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2008-06-23 16:22:56 -04:00
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The rfkill switch subsystem exists to add a generic interface to circuitry that
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2008-06-23 16:23:08 -04:00
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can enable or disable the signal output of a wireless *transmitter* of any
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type. By far, the most common use is to disable radio-frequency transmitters.
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2008-06-23 16:22:56 -04:00
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2008-06-23 16:23:08 -04:00
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The rfkill switch subsystem offers support for keys and switches often found on
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laptops to enable wireless devices like WiFi and Bluetooth to actually perform
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an action.
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2008-06-23 16:22:56 -04:00
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2008-06-23 16:23:08 -04:00
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The buttons to enable and disable the wireless transmitters are important in
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situations where the user is for example using his laptop on a location where
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radio-frequency transmitters _must_ be disabled (e.g. airplanes).
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2007-09-13 03:22:55 -04:00
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2008-06-23 16:23:08 -04:00
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Because of this requirement, userspace support for the keys should not be made
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mandatory. Because userspace might want to perform some additional smarter
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tasks when the key is pressed, rfkill provides userspace the possibility to
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take over the task to handle the key events.
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2007-09-13 03:22:55 -04:00
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2008-06-23 16:23:08 -04:00
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===============================================================================
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2: Implementation details
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The rfkill class provides kernel drivers with an interface that allows them to
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know when they should enable or disable a wireless network device transmitter.
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The rfkill-input module provides the kernel with the ability to implement a
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basic response when the user presses a key or button (or toggles a switch)
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related to rfkill functionality. It is an in-kernel implementation of default
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policy of reacting to rfkill-related input events and neither mandatory nor
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required for wireless drivers to operate.
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The rfkill-input module also provides EPO (emergency power-off) functionality
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for all wireless transmitters. This function cannot be overriden, and it is
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always active. rfkill EPO is related to *_RFKILL_ALL input events.
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All state changes on rfkill devices are propagated by the rfkill class to a
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notification chain and also to userspace through uevents.
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2007-09-13 03:22:55 -04:00
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The system inside the kernel has been split into 2 separate sections:
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1 - RFKILL
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2 - RFKILL_INPUT
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2008-06-23 16:23:08 -04:00
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The first option enables rfkill support and will make sure userspace will be
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notified of any events through uevents. It provides a notification chain for
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interested parties in the kernel to also get notified of rfkill state changes
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in other drivers. It creates several sysfs entries which can be used by
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userspace. See section "Userspace support".
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The second option provides an rfkill input handler. This handler will listen to
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all rfkill key events and will toggle the radio accordingly. With this option
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enabled userspace could either do nothing or simply perform monitoring tasks.
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When a rfkill switch is in the RFKILL_STATE_ON, the wireless transmitter (radio
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TX circuit for example) is *enabled*. When the rfkill switch is in the
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RFKILL_STATE_OFF, the wireless transmitter is to be *blocked* from operating.
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Full rfkill functionality requires two different subsystems to cooperate: the
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input layer and the rfkill class. The input layer issues *commands* to the
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entire system requesting that devices registered to the rfkill class change
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state. The way this interaction happens is not complex, but it is not obvious
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either:
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Kernel Input layer:
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* Generates KEY_WWAN, KEY_WLAN, KEY_BLUETOOTH, SW_RFKILL_ALL, and
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other such events when the user presses certain keys, buttons, or
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toggles certain physical switches.
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THE INPUT LAYER IS NEVER USED TO PROPAGATE STATUS, NOTIFICATIONS OR THE
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KIND OF STUFF AN ON-SCREEN-DISPLAY APPLICATION WOULD REPORT. It is
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used to issue *commands* for the system to change behaviour, and these
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commands may or may not be carried out by some kernel driver or
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userspace application. It follows that doing user feedback based only
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on input events is broken, there is no guarantee that an input event
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will be acted upon.
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Most wireless communication device drivers implementing rfkill
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functionality MUST NOT generate these events, and have no reason to
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register themselves with the input layer. This is a common
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misconception. There is an API to propagate rfkill status change
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information, and it is NOT the input layer.
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rfkill class:
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* Calls a hook in a driver to effectively change the wireless
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transmitter state;
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* Keeps track of the wireless transmitter state (with help from
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the driver);
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* Generates userspace notifications (uevents) and a call to a
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notification chain (kernel) when there is a wireless transmitter
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state change;
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* Connects a wireless communications driver with the common rfkill
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control system, which, for example, allows actions such as
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"switch all bluetooth devices offline" to be carried out by
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userspace or by rfkill-input.
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THE RFKILL CLASS NEVER ISSUES INPUT EVENTS. THE RFKILL CLASS DOES
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NOT LISTEN TO INPUT EVENTS. NO DRIVER USING THE RFKILL CLASS SHALL
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EVER LISTEN TO, OR ACT ON RFKILL INPUT EVENTS.
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Most wireless data communication drivers in the kernel have just to
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implement the rfkill class API to work properly. Interfacing to the
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input layer is not often required (and is very often a *bug*).
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Userspace input handlers (uevents) or kernel input handlers (rfkill-input):
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* Implements the policy of what should happen when one of the input
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layer events related to rfkill operation is received.
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* Uses the sysfs interface (userspace) or private rfkill API calls
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to tell the devices registered with the rfkill class to change
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their state (i.e. translates the input layer event into real
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action).
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* rfkill-input implements EPO by handling EV_SW SW_RFKILL_ALL 0
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(power off all transmitters) in a special way: it ignores any
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overrides and local state cache and forces all transmitters to
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the OFF state (including those which are already supposed to be
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OFF). Note that the opposite event (power on all transmitters)
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is handled normally.
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Userspace uevent handler or kernel platform-specific drivers hooked to the
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rfkill notifier chain:
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* Taps into the rfkill notifier chain or to KOBJ_CHANGE uevents,
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in order to know when a device that is registered with the rfkill
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class changes state;
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* Issues feedback notifications to the user;
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* In the rare platforms where this is required, synthesizes an input
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event to command all *OTHER* rfkill devices to also change their
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statues when a specific rfkill device changes state.
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===============================================================================
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3: Kernel driver guidelines
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The first thing one needs to know is whether his driver should be talking to
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the rfkill class or to the input layer.
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Do not mistake input devices for rfkill devices. The only type of "rfkill
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switch" device that is to be registered with the rfkill class are those
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directly controlling the circuits that cause a wireless transmitter to stop
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working (or the software equivalent of them). Every other kind of "rfkill
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switch" is just an input device and MUST NOT be registered with the rfkill
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class.
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A driver should register a device with the rfkill class when ALL of the
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following conditions are met:
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1. The device is/controls a data communications wireless transmitter;
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2. The kernel can interact with the hardware/firmware to CHANGE the wireless
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transmitter state (block/unblock TX operation);
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A driver should register a device with the input subsystem to issue
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rfkill-related events (KEY_WLAN, KEY_BLUETOOTH, KEY_WWAN, KEY_WIMAX,
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SW_RFKILL_ALL, etc) when ALL of the folowing conditions are met:
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1. It is directly related to some physical device the user interacts with, to
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command the O.S./firmware/hardware to enable/disable a data communications
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wireless transmitter.
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Examples of the physical device are: buttons, keys and switches the user
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will press/touch/slide/switch to enable or disable the wireless
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communication device.
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2. It is NOT slaved to another device, i.e. there is no other device that
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issues rfkill-related input events in preference to this one.
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Typically, the ACPI "radio kill" switch of a laptop is the master input
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device to issue rfkill events, and, e.g., the WLAN card is just a slave
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device that gets disabled by its hardware radio-kill input pin.
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2007-09-13 03:22:55 -04:00
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2008-06-23 16:23:08 -04:00
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When in doubt, do not issue input events. For drivers that should generate
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input events in some platforms, but not in others (e.g. b43), the best solution
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is to NEVER generate input events in the first place. That work should be
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deferred to a platform-specific kernel module (which will know when to generate
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events through the rfkill notifier chain) or to userspace. This avoids the
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usual maintenance problems with DMI whitelisting.
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Corner cases and examples:
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====================================
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1. If the device is an input device that, because of hardware or firmware,
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causes wireless transmitters to be blocked regardless of the kernel's will, it
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is still just an input device, and NOT to be registered with the rfkill class.
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2. If the wireless transmitter switch control is read-only, it is an input
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device and not to be registered with the rfkill class (and maybe not to be made
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an input layer event source either, see below).
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3. If there is some other device driver *closer* to the actual hardware the
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user interacted with (the button/switch/key) to issue an input event, THAT is
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the device driver that should be issuing input events.
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E.g:
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[RFKILL slider switch] -- [GPIO hardware] -- [WLAN card rf-kill input]
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(platform driver) (wireless card driver)
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The user is closer to the RFKILL slide switch plaform driver, so the driver
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which must issue input events is the platform driver looking at the GPIO
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hardware, and NEVER the wireless card driver (which is just a slave). It is
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very likely that there are other leaves than just the WLAN card rf-kill input
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(e.g. a bluetooth card, etc)...
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On the other hand, some embedded devices do this:
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[RFKILL slider switch] -- [WLAN card rf-kill input]
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(wireless card driver)
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In this situation, the wireless card driver *could* register itself as an input
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device and issue rf-kill related input events... but in order to AVOID the need
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for DMI whitelisting, the wireless card driver does NOT do it. Userspace (HAL)
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or a platform driver (that exists only on these embedded devices) will do the
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dirty job of issuing the input events.
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COMMON MISTAKES in kernel drivers, related to rfkill:
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====================================
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1. NEVER confuse input device keys and buttons with input device switches.
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1a. Switches are always set or reset. They report the current state
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(on position or off position).
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1b. Keys and buttons are either in the pressed or not-pressed state, and
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that's it. A "button" that latches down when you press it, and
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unlatches when you press it again is in fact a switch as far as input
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devices go.
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Add the SW_* events you need for switches, do NOT try to emulate a button using
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KEY_* events just because there is no such SW_* event yet. Do NOT try to use,
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for example, KEY_BLUETOOTH when you should be using SW_BLUETOOTH instead.
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2. Input device switches (sources of EV_SW events) DO store their current
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state, and that state CAN be queried from userspace through IOCTLs. There is
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no sysfs interface for this, but that doesn't mean you should break things
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trying to hook it to the rfkill class to get a sysfs interface :-)
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3. Do not issue *_RFKILL_ALL events, unless you are sure it is the correct
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event for your switch/button. These events are emergency power-off events when
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they are trying to turn the transmitters off. An example of an input device
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which SHOULD generate *_RFKILL_ALL events is the wireless-kill switch in a
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laptop which is NOT a hotkey, but a real switch that kills radios in hardware,
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even if the O.S. has gone to lunch. An example of an input device which SHOULD
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NOT generate *_RFKILL_ALL events is any sort of hot key that does nothing by
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itself, as well as any hot key that is type-specific (e.g. the one for WLAN).
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===============================================================================
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4: Kernel API
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To build a driver with rfkill subsystem support, the driver should depend on
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the Kconfig symbol RFKILL; it should _not_ depend on RKFILL_INPUT.
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The hardware the driver talks to may be write-only (where the current state
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of the hardware is unknown), or read-write (where the hardware can be queried
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about its current state).
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The rfkill class will call the get_state hook of a device every time it needs
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to know the *real* current state of the hardware. This can happen often.
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Some hardware provides events when its status changes. In these cases, it is
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best for the driver to not provide a get_state hook, and instead register the
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rfkill class *already* with the correct status, and keep it updated using
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rfkill_force_state() when it gets an event from the hardware.
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There is no provision for a statically-allocated rfkill struct. You must
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use rfkill_allocate() to allocate one.
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You should:
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- rfkill_allocate()
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- modify rfkill fields (flags, name)
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- modify state to the current hardware state (THIS IS THE ONLY TIME
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YOU CAN ACCESS state DIRECTLY)
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- rfkill_register()
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Please refer to the source for more documentation.
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2008-06-23 16:23:08 -04:00
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===============================================================================
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5: Userspace support
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rfkill devices issue uevents (with an action of "change"), with the following
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environment variables set:
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RFKILL_NAME
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RFKILL_STATE
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RFKILL_TYPE
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The ABI for these variables is defined by the sysfs attributes. It is best
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to take a quick look at the source to make sure of the possible values.
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It is expected that HAL will trap those, and bridge them to DBUS, etc. These
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events CAN and SHOULD be used to give feedback to the user about the rfkill
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status of the system.
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Input devices may issue events that are related to rfkill. These are the
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various KEY_* events and SW_* events supported by rfkill-input.c.
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******IMPORTANT******
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When rfkill-input is ACTIVE, userspace is NOT TO CHANGE THE STATE OF AN RFKILL
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SWITCH IN RESPONSE TO AN INPUT EVENT also handled by rfkill-input, unless it
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has set to true the user_claim attribute for that particular switch. This rule
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is *absolute*; do NOT violate it.
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******IMPORTANT******
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Userspace must not assume it is the only source of control for rfkill switches.
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Their state CAN and WILL change on its own, due to firmware actions, direct
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user actions, and the rfkill-input EPO override for *_RFKILL_ALL.
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When rfkill-input is not active, userspace must initiate an rfkill status
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change by writing to the "state" attribute in order for anything to happen.
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Take particular care to implement EV_SW SW_RFKILL_ALL properly. When that
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switch is set to OFF, *every* rfkill device *MUST* be immediately put into the
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OFF state, no questions asked.
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2007-09-13 03:22:55 -04:00
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The following sysfs entries will be created:
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name: Name assigned by driver to this key (interface or driver name).
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type: Name of the key type ("wlan", "bluetooth", etc).
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state: Current state of the key. 1: On, 0: Off.
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claim: 1: Userspace handles events, 0: Kernel handles events
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Both the "state" and "claim" entries are also writable. For the "state" entry
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2008-06-23 16:23:08 -04:00
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this means that when 1 or 0 is written, the device rfkill state (if not yet in
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the requested state), will be will be toggled accordingly.
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2007-09-13 03:22:55 -04:00
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For the "claim" entry writing 1 to it means that the kernel no longer handles
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key events even though RFKILL_INPUT input was enabled. When "claim" has been
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set to 0, userspace should make sure that it listens for the input events or
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2008-06-23 16:23:08 -04:00
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check the sysfs "state" entry regularly to correctly perform the required tasks
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when the rkfill key is pressed.
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A note about input devices and EV_SW events:
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In order to know the current state of an input device switch (like
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SW_RFKILL_ALL), you will need to use an IOCTL. That information is not
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available through sysfs in a generic way at this time, and it is not available
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through the rfkill class AT ALL.
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