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# encoding: utf-8

import os

import stat

import time

import ctypes

import select

from evdev import _uinput, _input, ff

from evdev import ecodes, util, device, InputEvent

class UInputError(Exception):

pass

class uinput_ff_upload(ctypes.Structure):

_fields_ = [

('request_id', ff._u32),

('retval', ff._s32),

('effect', ff.Effect),

('old', ff.Effect),

]

class uinput_ff_erase(ctypes.Structure):

_fields_ = [

('request_id', ff._u32),

('retval', ff._s32),

('effect_id', ff._u32)

]

class UInput(object):

'''

A userland input device and that can inject input events into the

linux input subsystem.

'''

__slots__ = (

'name', 'vendor', 'product', 'version', 'bustype',

'events', 'devnode', 'fd', 'device', 'ff_effects_max',

'ff_effects', 'ff_callback',

)

def __init__(self,

events=None,

name='py-evdev-uinput',

vendor=0x1, product=0x1, version=0x1, bustype=0x3,

devnode='/dev/uinput', ff_effects_max=0, ff_callback=None):

'''

:param events: the event types and codes that the uinput

device will be able to inject - defaults to all

key codes.

:type events: dictionary of event types mapping to lists of

event codes.

:param name: the name of the input device.

:param vendor: vendor identifier.

:param product: product identifier.

:param version: version identifier.

:param bustype: bustype identifier.

:param ff_effects_max: number of force-feedback effects that

can be kept in memory

.. note:: If you do not specify any events, the uinput device

will be able to inject only ``KEY_*`` and ``BTN_*``

event codes.

'''

self.name = name #: Uinput device name.

self.vendor = vendor #: Device vendor identifier.

self.product = product #: Device product identifier.

self.version = version #: Device version identifier.

self.bustype = bustype #: Device bustype - eg. ``BUS_USB``.

self.devnode = devnode #: Uinput device node - eg. ``/dev/uinput/``.

#: The number of force feedback effects the device can keep in its memory.

self.ff_effects_max = ff_effects_max

self.ff_effects = []

self.ff_callback = ff_callback

if ecodes.EV_FF in events and ff_effects_max < 1:

msg = 'EV_FF capabilities specified without setting ff_effects_max'

raise UInputError(msg)

if not events:

events = {ecodes.EV_KEY: ecodes.keys.keys()}

# the min, max, fuzz and flat values for the absolute axis for

# a given code

absinfo = []

self._verify()

#: Write-only, non-blocking file descriptor to the uinput device node.

self.fd = _uinput.open(devnode)

# set device capabilities

for etype, codes in events.items():

for code in codes:

# handle max, min, fuzz, flat

if isinstance(code, (tuple, list, device.AbsInfo)):

# flatten (ABS_Y, (0, 255, 0, 0)) to (ABS_Y, 0, 255, 0, 0)

f = [code[0]]

f += code[1]

absinfo.append(f)

code = code[0]

#:todo: a lot of unnecessary packing/unpacking

_uinput.enable(self.fd, etype, code)

# create uinput device

_uinput.create(self.fd, name, vendor, product, version,

bustype, absinfo, ff_effects_max)

#: An :class:`InputDevice <evdev.device.InputDevice>` instance

#: for the fake input device. ``None`` if the device cannot be

#: opened for reading and writing.

self.device = self._find_device()

def __enter__(self):

return self

def __exit__(self, type, value, tb):

if hasattr(self, 'fd'):

self.close()

def __repr__(self):

attr = 'name', 'bustype', 'vendor', 'product', 'version'

vals = (repr(getattr(self, i)) for i in attr)

vals = ', '.join(vals)

return '%s(%s)' % (self.__class__.__name__, vals)

def __str__(self):

msg = ('name "{}", bus "{}", vendor "{:04x}", product "{:04x}", version "{:04x}"\n'

'event types: {}')

evtypes = [i[0] for i in self.capabilities(True).keys()]

msg = msg.format(self.name, ecodes.BUS[self.bustype],

self.vendor, self.product,

self.version, ' '.join(evtypes))

return msg

def close(self):

# close the associated InputDevice, if it was previously opened

if self.device is not None:

self.device.close()

# destroy the uinput device

if self.fd > -1:

_uinput.close(self.fd)

self.fd = -1

def write_event(self, event):

'''

Inject an input event into the input subsystem. Events are

queued until a synchronization event is received.

:param event: InputEvent instance or an object with an

``event`` attribute (:class:`KeyEvent

<evdev.events.KeyEvent>`, :class:`RelEvent

<evdev.events.RelEvent>` etc).

Example::

ev = InputEvent(1334414993, 274296, ecodes.EV_KEY, ecodes.KEY_A, 1)

ui.write_event(ev)

'''

if hasattr(event, 'event'):

event = event.event

self.write(event.type, event.code, event.value)

def write(self, etype, code, value):

'''

Inject an input event into the input subsystem. Events are

queued until a synchronization event is received.

:param etype: event type (eg. ``EV_KEY``).

:param code: event code (eg. ``KEY_A``).

:param value: event value (eg. 0 1 2 - depends on event type).

Example::

ui.write(e.EV_KEY, e.KEY_A, 1) # key A - down

ui.write(e.EV_KEY, e.KEY_A, 0) # key A - up

'''

_uinput.write(self.fd, etype, code, value)

def read(self):

'''

Read a queued event from the uinput device. Returns ``None``

if no events are available.

'''

event = _input.device_read(self.fd)

_, _, etype, code, value = event

if etype == ecodes.EV_FF:

if self.ff_callback:

self.ff_callback(InputEvent(*event))

if etype == ecodes.EV_UINPUT:

if code == ecodes.UI_FF_UPLOAD:

data = _uinput.upload_effect(self.fd, value)

up_effect = uinput_ff_upload.from_buffer_copy(buffer(data))

if len(self.ff_effects) > ecodes.FF_EFFECT_MAX:

self.ff_effects.pop()

self.ff_effects.append(up_effect.effect)

elif code == ecodes.UI_FF_ERASE:

data = _uinput.erase_effect(self.fd, value)

er_effect = uinput_ff_erase.from_buffer_copy(buffer(data))

for n, effect in enumerate(self.ff_effects):

if er_effect.effect_id == effect.id:

del self.ff_effects[n]

def syn(self):

'''

Inject a ``SYN_REPORT`` event into the input subsystem. Events

queued by :func:`write()` will be fired. If possible, events

will be merged into an 'atomic' event.

'''

_uinput.write(self.fd, ecodes.EV_SYN, ecodes.SYN_REPORT, 0)

def capabilities(self, verbose=False, absinfo=True):

'''See :func:`capabilities <evdev.device.InputDevice.capabilities>`.'''

if self.device is None:

raise UInputError('input device not opened - cannot read capabilites')

return self.device.capabilities(verbose, absinfo)

def _verify(self):

'''

Verify that an uinput device exists and is readable and writable

by the current process.

'''

try:

m = os.stat(self.devnode)[stat.ST_MODE]

if not stat.S_ISCHR(m):

raise

except (IndexError, OSError):

msg = '"{}" does not exist or is not a character device file '\

'- verify that the uinput module is loaded'

raise UInputError(msg.format(self.devnode))

if not os.access(self.devnode, os.W_OK):

msg = '"{}" cannot be opened for writing'

raise UInputError(msg.format(self.devnode))

if len(self.name) > _uinput.maxnamelen:

msg = 'uinput device name must not be longer than {} characters'

raise UInputError(msg.format(_uinput.maxnamelen))

def _find_device(self):

#:bug: the device node might not be immediately available

time.sleep(0.1)

for fn in util.list_devices('/dev/input/'):

d = device.InputDevice(fn)

if d.name == self.name:

return d