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authorLinus Torvalds <torvalds@linux-foundation.org>2017-05-03 22:38:20 +0300
committerLinus Torvalds <torvalds@linux-foundation.org>2017-05-03 22:38:20 +0300
commit16a12fa9aed176444fc795b09e796be41902bb08 (patch)
treebd158def3263a8b0d0f0886fd0fcd32728242dc4 /Documentation/input/input-programming.rst
parentd25e436c4b68db2895185b24ad1f22499c2f87b0 (diff)
parent0337966d121ebebf73a1c346123e8112796e684e (diff)
downloadlinux-16a12fa9aed176444fc795b09e796be41902bb08.tar.xz
Merge branch 'for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/dtor/input
Pull input subsystem updates from Dmitry Torokhov: - a big update from Mauro converting input documentation to ReST format - Synaptics PS/2 is now aware of SMBus companion devices, which means that we can now use native RMI4 protocol to handle touchpads, instead of relying on legacy PS/2 mode. - we removed support from BMA180 accelerometer from input devices as it is now handled properly by IIO - update to TSC2007 to corretcly report pressure - other miscellaneous driver fixes. * 'for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/dtor/input: (152 commits) Input: ar1021_i2c - use BIT to check for a bit Input: twl4030-pwrbutton - use input_set_capability() helper Input: twl4030-pwrbutton - use correct device for irq request Input: ar1021_i2c - enable touch mode during open Input: add uinput documentation dt-bindings: input: add bindings document for ar1021_i2c driver dt-bindings: input: rotary-encoder: fix typo Input: xen-kbdfront - add module parameter for setting resolution ARM: pxa/raumfeld: fix compile error in rotary controller resources Input: xpad - do not suggest writing to Dominic Input: xpad - don't use literal blocks inside footnotes Input: xpad - note that usb/devices is now at /sys/kernel/debug/ Input: docs - freshen up introduction Input: docs - split input docs into kernel- and user-facing Input: docs - note that MT-A protocol is obsolete Input: docs - update joystick documentation a bit Input: docs - remove disclaimer/GPL notice Input: fix "Game console" heading level in joystick documentation Input: rotary-encoder - remove references to platform data from docs Input: move documentation for Amiga CD32 ...
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+===============================
+Creating an input device driver
+===============================
+
+The simplest example
+~~~~~~~~~~~~~~~~~~~~
+
+Here comes a very simple example of an input device driver. The device has
+just one button and the button is accessible at i/o port BUTTON_PORT. When
+pressed or released a BUTTON_IRQ happens. The driver could look like::
+
+ #include <linux/input.h>
+ #include <linux/module.h>
+ #include <linux/init.h>
+
+ #include <asm/irq.h>
+ #include <asm/io.h>
+
+ static struct input_dev *button_dev;
+
+ static irqreturn_t button_interrupt(int irq, void *dummy)
+ {
+ input_report_key(button_dev, BTN_0, inb(BUTTON_PORT) & 1);
+ input_sync(button_dev);
+ return IRQ_HANDLED;
+ }
+
+ static int __init button_init(void)
+ {
+ int error;
+
+ if (request_irq(BUTTON_IRQ, button_interrupt, 0, "button", NULL)) {
+ printk(KERN_ERR "button.c: Can't allocate irq %d\n", button_irq);
+ return -EBUSY;
+ }
+
+ button_dev = input_allocate_device();
+ if (!button_dev) {
+ printk(KERN_ERR "button.c: Not enough memory\n");
+ error = -ENOMEM;
+ goto err_free_irq;
+ }
+
+ button_dev->evbit[0] = BIT_MASK(EV_KEY);
+ button_dev->keybit[BIT_WORD(BTN_0)] = BIT_MASK(BTN_0);
+
+ error = input_register_device(button_dev);
+ if (error) {
+ printk(KERN_ERR "button.c: Failed to register device\n");
+ goto err_free_dev;
+ }
+
+ return 0;
+
+ err_free_dev:
+ input_free_device(button_dev);
+ err_free_irq:
+ free_irq(BUTTON_IRQ, button_interrupt);
+ return error;
+ }
+
+ static void __exit button_exit(void)
+ {
+ input_unregister_device(button_dev);
+ free_irq(BUTTON_IRQ, button_interrupt);
+ }
+
+ module_init(button_init);
+ module_exit(button_exit);
+
+What the example does
+~~~~~~~~~~~~~~~~~~~~~
+
+First it has to include the <linux/input.h> file, which interfaces to the
+input subsystem. This provides all the definitions needed.
+
+In the _init function, which is called either upon module load or when
+booting the kernel, it grabs the required resources (it should also check
+for the presence of the device).
+
+Then it allocates a new input device structure with input_allocate_device()
+and sets up input bitfields. This way the device driver tells the other
+parts of the input systems what it is - what events can be generated or
+accepted by this input device. Our example device can only generate EV_KEY
+type events, and from those only BTN_0 event code. Thus we only set these
+two bits. We could have used::
+
+ set_bit(EV_KEY, button_dev.evbit);
+ set_bit(BTN_0, button_dev.keybit);
+
+as well, but with more than single bits the first approach tends to be
+shorter.
+
+Then the example driver registers the input device structure by calling::
+
+ input_register_device(&button_dev);
+
+This adds the button_dev structure to linked lists of the input driver and
+calls device handler modules _connect functions to tell them a new input
+device has appeared. input_register_device() may sleep and therefore must
+not be called from an interrupt or with a spinlock held.
+
+While in use, the only used function of the driver is::
+
+ button_interrupt()
+
+which upon every interrupt from the button checks its state and reports it
+via the::
+
+ input_report_key()
+
+call to the input system. There is no need to check whether the interrupt
+routine isn't reporting two same value events (press, press for example) to
+the input system, because the input_report_* functions check that
+themselves.
+
+Then there is the::
+
+ input_sync()
+
+call to tell those who receive the events that we've sent a complete report.
+This doesn't seem important in the one button case, but is quite important
+for for example mouse movement, where you don't want the X and Y values
+to be interpreted separately, because that'd result in a different movement.
+
+dev->open() and dev->close()
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+In case the driver has to repeatedly poll the device, because it doesn't
+have an interrupt coming from it and the polling is too expensive to be done
+all the time, or if the device uses a valuable resource (eg. interrupt), it
+can use the open and close callback to know when it can stop polling or
+release the interrupt and when it must resume polling or grab the interrupt
+again. To do that, we would add this to our example driver::
+
+ static int button_open(struct input_dev *dev)
+ {
+ if (request_irq(BUTTON_IRQ, button_interrupt, 0, "button", NULL)) {
+ printk(KERN_ERR "button.c: Can't allocate irq %d\n", button_irq);
+ return -EBUSY;
+ }
+
+ return 0;
+ }
+
+ static void button_close(struct input_dev *dev)
+ {
+ free_irq(IRQ_AMIGA_VERTB, button_interrupt);
+ }
+
+ static int __init button_init(void)
+ {
+ ...
+ button_dev->open = button_open;
+ button_dev->close = button_close;
+ ...
+ }
+
+Note that input core keeps track of number of users for the device and
+makes sure that dev->open() is called only when the first user connects
+to the device and that dev->close() is called when the very last user
+disconnects. Calls to both callbacks are serialized.
+
+The open() callback should return a 0 in case of success or any nonzero value
+in case of failure. The close() callback (which is void) must always succeed.
+
+Basic event types
+~~~~~~~~~~~~~~~~~
+
+The most simple event type is EV_KEY, which is used for keys and buttons.
+It's reported to the input system via::
+
+ input_report_key(struct input_dev *dev, int code, int value)
+
+See uapi/linux/input-event-codes.h for the allowable values of code (from 0 to
+KEY_MAX). Value is interpreted as a truth value, ie any nonzero value means key
+pressed, zero value means key released. The input code generates events only
+in case the value is different from before.
+
+In addition to EV_KEY, there are two more basic event types: EV_REL and
+EV_ABS. They are used for relative and absolute values supplied by the
+device. A relative value may be for example a mouse movement in the X axis.
+The mouse reports it as a relative difference from the last position,
+because it doesn't have any absolute coordinate system to work in. Absolute
+events are namely for joysticks and digitizers - devices that do work in an
+absolute coordinate systems.
+
+Having the device report EV_REL buttons is as simple as with EV_KEY, simply
+set the corresponding bits and call the::
+
+ input_report_rel(struct input_dev *dev, int code, int value)
+
+function. Events are generated only for nonzero value.
+
+However EV_ABS requires a little special care. Before calling
+input_register_device, you have to fill additional fields in the input_dev
+struct for each absolute axis your device has. If our button device had also
+the ABS_X axis::
+
+ button_dev.absmin[ABS_X] = 0;
+ button_dev.absmax[ABS_X] = 255;
+ button_dev.absfuzz[ABS_X] = 4;
+ button_dev.absflat[ABS_X] = 8;
+
+Or, you can just say::
+
+ input_set_abs_params(button_dev, ABS_X, 0, 255, 4, 8);
+
+This setting would be appropriate for a joystick X axis, with the minimum of
+0, maximum of 255 (which the joystick *must* be able to reach, no problem if
+it sometimes reports more, but it must be able to always reach the min and
+max values), with noise in the data up to +- 4, and with a center flat
+position of size 8.
+
+If you don't need absfuzz and absflat, you can set them to zero, which mean
+that the thing is precise and always returns to exactly the center position
+(if it has any).
+
+BITS_TO_LONGS(), BIT_WORD(), BIT_MASK()
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+These three macros from bitops.h help some bitfield computations::
+
+ BITS_TO_LONGS(x) - returns the length of a bitfield array in longs for
+ x bits
+ BIT_WORD(x) - returns the index in the array in longs for bit x
+ BIT_MASK(x) - returns the index in a long for bit x
+
+The id* and name fields
+~~~~~~~~~~~~~~~~~~~~~~~
+
+The dev->name should be set before registering the input device by the input
+device driver. It's a string like 'Generic button device' containing a
+user friendly name of the device.
+
+The id* fields contain the bus ID (PCI, USB, ...), vendor ID and device ID
+of the device. The bus IDs are defined in input.h. The vendor and device ids
+are defined in pci_ids.h, usb_ids.h and similar include files. These fields
+should be set by the input device driver before registering it.
+
+The idtype field can be used for specific information for the input device
+driver.
+
+The id and name fields can be passed to userland via the evdev interface.
+
+The keycode, keycodemax, keycodesize fields
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+These three fields should be used by input devices that have dense keymaps.
+The keycode is an array used to map from scancodes to input system keycodes.
+The keycode max should contain the size of the array and keycodesize the
+size of each entry in it (in bytes).
+
+Userspace can query and alter current scancode to keycode mappings using
+EVIOCGKEYCODE and EVIOCSKEYCODE ioctls on corresponding evdev interface.
+When a device has all 3 aforementioned fields filled in, the driver may
+rely on kernel's default implementation of setting and querying keycode
+mappings.
+
+dev->getkeycode() and dev->setkeycode()
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+getkeycode() and setkeycode() callbacks allow drivers to override default
+keycode/keycodesize/keycodemax mapping mechanism provided by input core
+and implement sparse keycode maps.
+
+Key autorepeat
+~~~~~~~~~~~~~~
+
+... is simple. It is handled by the input.c module. Hardware autorepeat is
+not used, because it's not present in many devices and even where it is
+present, it is broken sometimes (at keyboards: Toshiba notebooks). To enable
+autorepeat for your device, just set EV_REP in dev->evbit. All will be
+handled by the input system.
+
+Other event types, handling output events
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+The other event types up to now are:
+
+- EV_LED - used for the keyboard LEDs.
+- EV_SND - used for keyboard beeps.
+
+They are very similar to for example key events, but they go in the other
+direction - from the system to the input device driver. If your input device
+driver can handle these events, it has to set the respective bits in evbit,
+*and* also the callback routine::
+
+ button_dev->event = button_event;
+
+ int button_event(struct input_dev *dev, unsigned int type,
+ unsigned int code, int value)
+ {
+ if (type == EV_SND && code == SND_BELL) {
+ outb(value, BUTTON_BELL);
+ return 0;
+ }
+ return -1;
+ }
+
+This callback routine can be called from an interrupt or a BH (although that
+isn't a rule), and thus must not sleep, and must not take too long to finish.