def __init__(self,
events=None,
name='py-evdev-uinput',
vendor=0x1,
product=0x1,
version=0x1,
bustype=0x3,
devnode='/dev/uinput',
phys='py-evdev-uinput'):
'''
Arguments
---------
events : dict
Dictionary of event types mapping to lists of event codes. The
event types and codes that the uinput device will be able to
inject - defaults to all key codes.
name
The name of the input device.
vendor
Vendor identifier.
product
Product identifier.
version
version identifier.
bustype
bustype identifier.
phys
physical path.
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 - e.g. ``BUS_USB``.
self.phys = phys #: Uinput device physical path.
self.devnode = devnode #: Uinput device node - e.g. ``/dev/uinput/``.
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 phys name
_uinput.set_phys(self.fd, phys)
# 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, 0, 0)) to (ABS_Y, 0, 255, 0, 0, 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 the uinput device.
_uinput.create(self.fd, name, vendor, product, version, bustype,
absinfo)
#: 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 __init__(self,
events=None,
name='py-evdev-uinput',
vendor=0x1, product=0x1, version=0x1, bustype=0x3,
devnode='/dev/uinput', phys='py-evdev-uinput'):
'''
Arguments
---------
events : dict
Dictionary of event types mapping to lists of event codes. The
event types and codes that the uinput device will be able to
inject - defaults to all key codes.
name
The name of the input device.
vendor
Vendor identifier.
product
Product identifier.
version
version identifier.
bustype
bustype identifier.
phys
physical path.
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 - e.g. ``BUS_USB``.
self.phys = phys #: Uinput device physical path.
self.devnode = devnode #: Uinput device node - e.g. ``/dev/uinput/``.
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 phys name
_uinput.set_phys(self.fd, phys)
# 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, 0, 0)) to (ABS_Y, 0, 255, 0, 0, 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 the uinput device.
_uinput.create(self.fd, name, vendor, product, version, bustype, absinfo)
#: 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 __init__(self,
events=None,
name='py-evdev-uinput',
vendor=0x1,
product=0x1,
version=0x1,
bustype=0x3,
devnode='/dev/uinput',
phys='py-evdev-uinput',
input_props=None):
'''
Arguments
---------
events : dict
Dictionary of event types mapping to lists of event codes. The
event types and codes that the uinput device will be able to
inject - defaults to all key codes.
name
The name of the input device.
vendor
Vendor identifier.
product
Product identifier.
version
Version identifier.
bustype
Bustype identifier.
phys
Physical path.
input_props
Input properties and quirks.
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 - e.g. ``BUS_USB``.
self.phys = phys #: Uinput device physical path.
self.devnode = devnode #: Uinput device node - e.g. ``/dev/uinput/``.
if not events:
events = {ecodes.EV_KEY: ecodes.keys.keys()}
self._verify()
#: Write-only, non-blocking file descriptor to the uinput device node.
self.fd = _uinput.open(devnode)
# Prepare the list of events for passing to _uinput.enable and _uinput.setup.
absinfo, prepared_events = self._prepare_events(events)
# Set phys name
_uinput.set_phys(self.fd, phys)
# Set properties
input_props = input_props or []
for prop in input_props:
_uinput.set_prop(self.fd, prop)
for etype, code in prepared_events:
_uinput.enable(self.fd, etype, code)
_uinput.setup(self.fd, name, vendor, product, version, bustype,
absinfo)
# Create the uinput device.
_uinput.create(self.fd)
self.dll = ctypes.CDLL(_uinput.__file__)
self.dll._uinput_begin_upload.restype = ctypes.c_int
self.dll._uinput_end_upload.restype = ctypes.c_int
#: 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 __init__(self,
events=None,
name='py-evdev-uinput',
vendor=0x1, product=0x1, version=0x1, bustype=0x3,
devnode='/dev/uinput', phys='py-evdev-uinput'):
'''
Arguments
---------
events : dict
Dictionary of event types mapping to lists of event codes. The
event types and codes that the uinput device will be able to
inject - defaults to all key codes.
name
The name of the input device.
vendor
Vendor identifier.
product
Product identifier.
version
version identifier.
bustype
bustype identifier.
phys
physical path.
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 - e.g. ``BUS_USB``.
self.phys = phys #: Uinput device physical path.
self.devnode = devnode #: Uinput device node - e.g. ``/dev/uinput/``.
if not events:
events = {ecodes.EV_KEY: ecodes.keys.keys()}
self._verify()
#: Write-only, non-blocking file descriptor to the uinput device node.
self.fd = _uinput.open(devnode)
# Prepare the list of events for passing to _uinput.enable and _uinput.setup.
absinfo, prepared_events = self._prepare_events(events)
# Set phys name
_uinput.set_phys(self.fd, phys)
for etype, code in prepared_events:
_uinput.enable(self.fd, etype, code)
_uinput.setup(self.fd, name, vendor, product, version, bustype, absinfo)
# Create the uinput device.
_uinput.create(self.fd)
self.dll = ctypes.CDLL(_uinput.__file__)
self.dll._uinput_begin_upload.restype = ctypes.c_int
self.dll._uinput_end_upload.restype = ctypes.c_int
#: 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()