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Solaar/lib/logitech/unifying_receiver/receiver.py

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#
#
#
from __future__ import absolute_import, division, print_function, unicode_literals
import errno as _errno
from weakref import proxy as _proxy
from logging import getLogger
_log = getLogger('LUR.receiver')
del getLogger
from . import base as _base
from . import hidpp10 as _hidpp10
from . import hidpp20 as _hidpp20
from .common import strhex as _strhex, NamedInts as _NamedInts
from . import descriptors as _descriptors
#
#
#
"""A receiver may have a maximum of 6 paired devices at a time."""
MAX_PAIRED_DEVICES = 6
class PairedDevice(object):
def __init__(self, receiver, number):
assert receiver
self.receiver = _proxy(receiver)
assert number > 0 and number <= receiver.max_devices
self.number = number
self._unifying = receiver.max_devices > 1
self._protocol = None
self._wpid = None
self._power_switch = None
self._polling_rate = None
self._codename = None
self._name = None
self._kind = None
self._serial = None
self._firmware = None
self._keys = None
self.features = _hidpp20.FeaturesArray(self) if self._unifying else None
self._registers = None
self._settings = None
@property
def protocol(self):
if self._protocol is None:
self._protocol = _base.ping(self.receiver.handle, self.number)
# _log.debug("device %d protocol %s", self.number, self._protocol)
return self._protocol or 0
@property
def wpid(self):
if self._wpid is None:
if self._unifying:
pair_info = self.receiver.request(0x83B5, 0x20 + self.number - 1)
if pair_info:
self._wpid = _strhex(pair_info[3:5])
if self._kind is None:
kind = ord(pair_info[7:8]) & 0x0F
self._kind = _hidpp10.DEVICE_KIND[kind]
if self._polling_rate is None:
self._polling_rate = ord(pair_info[2:3])
# else:
# device_info = self.receiver.request(0x83B5, 0x04)
# self.wpid = _strhex(device_info[3:5])
return self._wpid
@property
def polling_rate(self):
if self._polling_rate is None and self._unifying:
self.wpid, 0
return self._polling_rate
@property
def power_switch_location(self):
if self._power_switch is None and self._unifying:
ps = self.receiver.request(0x83B5, 0x30 + self.number - 1)
if ps:
ps = ord(ps[9:10]) & 0x0F
self._power_switch = _hidpp10.POWER_SWITCH_LOCATION[ps]
return self._power_switch
@property
def codename(self):
if self._codename is None and self._unifying:
codename = self.receiver.request(0x83B5, 0x40 + self.number - 1)
if codename:
self._codename = codename[2:].rstrip(b'\x00').decode('utf-8')
# _log.debug("device %d codename %s", self.number, self._codename)
return self._codename
@property
def name(self):
if self._name is None and self._unifying:
if self.codename in _descriptors.DEVICES:
self._name, self._kind = _descriptors.DEVICES[self._codename][:2]
elif self.protocol >= 2.0:
self._name = _hidpp20.get_name(self)
return self._name or self.codename or '?'
@property
def kind(self):
if self._kind is None and self._unifying:
pair_info = self.receiver.request(0x83B5, 0x20 + self.number - 1)
if pair_info:
kind = ord(pair_info[7:8]) & 0x0F
self._kind = _hidpp10.DEVICE_KIND[kind]
if self._wpid is None:
self._wpid = _strhex(pair_info[3:5])
if self._kind is None:
if self.codename in _descriptors.DEVICES:
self._name, self._kind = _descriptors.DEVICES[self._codename][:2]
elif self.protocol >= 2.0:
self._kind = _hidpp20.get_kind(self)
return self._kind or '?'
@property
def firmware(self):
if self._firmware is None:
p = self.protocol
if p >= 2.0:
self._firmware = _hidpp20.get_firmware(self)
if self._firmware is None and p == 1.0:
self._firmware = _hidpp10.get_firmware(self)
return self._firmware or ()
@property
def serial(self):
if self._serial is None and self._unifying:
self._serial = _hidpp10.get_serial(self)
return self._serial or '?'
@property
def keys(self):
if self._keys is None and self._unifying:
self._keys = _hidpp20.get_keys(self) or ()
return self._keys
@property
def registers(self):
if self._registers is None:
descriptor = _descriptors.DEVICES.get(self.codename)
if descriptor is None or descriptor.registers is None:
self._registers = _NamedInts()
else:
self._registers = descriptor.registers
return self._registers
@property
def settings(self):
if self._settings is None:
descriptor = _descriptors.DEVICES.get(self.codename)
if descriptor is None or descriptor.settings is None:
self._settings = []
else:
self._settings = [s(self) for s in descriptor.settings]
if self.features:
_descriptors.check_features(self, self._settings)
return self._settings
def request(self, request_id, *params):
return _base.request(self.receiver.handle, self.number, request_id, *params)
def feature_request(self, feature, function=0x00, *params):
if self._unifying:
return _hidpp20.feature_request(self, feature, function, *params)
def ping(self):
return _base.ping(self.receiver.handle, self.number) is not None
def __index__(self):
return self.number
__int__ = __index__
def __eq__(self, other):
return other is not None and self.kind == other.kind and self.serial == other.serial
def __ne__(self, other):
return other is None or self.kind != other.kind or self.serial != other.serial
def __hash__(self):
return self.serial.__hash__()
def __str__(self):
return '<PairedDevice(%d,%s,%s)>' % (self.number, self.wpid, self.codename or '?')
__unicode__ = __repr__ = __str__
#
#
#
class Receiver(object):
"""A Unifying Receiver instance.
The paired devices are available through the sequence interface.
"""
number = 0xFF
kind = None
def __init__(self, handle, path=None):
assert handle
self.handle = handle
assert path
self.path = path
serial_reply = self.request(0x83B5, 0x03)
assert serial_reply
self._serial = _strhex(serial_reply[1:5])
self.max_devices = ord(serial_reply[6:7])
if self.max_devices == 1:
self.name = 'Nano Receiver'
elif self.max_devices == 6:
self.name = 'Unifying Receiver'
else:
raise Exception("unknown receiver type")
self._str = '<%s(%s,%s%s)>' % (self.name.replace(' ', ''), self.path, '' if type(self.handle) == int else 'T', self.handle)
self._firmware = None
self._devices = {}
def close(self):
handle, self.handle = self.handle, None
self._devices.clear()
return (handle and _base.close(handle))
def __del__(self):
self.close()
@property
def serial(self):
assert self._serial
# if self._serial is None and self.handle:
# self._serial = _hidpp10.get_serial(self)
return self._serial
@property
def firmware(self):
if self._firmware is None and self.handle:
self._firmware = _hidpp10.get_firmware(self)
return self._firmware
def enable_notifications(self, enable=True):
"""Enable or disable device (dis)connection notifications on this
receiver."""
if not self.handle:
return False
if enable:
# set all possible flags
ok = self.request(0x8000, 0xFF, 0xFF, 0xFF)
else:
# clear out all possible flags
ok = self.request(0x8000)
flags = self.request(0x8100)
if flags:
flags = ord(flags[0:1]) << 16 | ord(flags[1:2]) << 8 | ord(flags[2:3])
flags = tuple(_hidpp10.NOTIFICATION_FLAG.flag_names(flags))
if ok:
_log.info("%s: device notifications %s %s", self, 'enabled' if enable else 'disabled', flags)
else:
_log.warn("%s: failed to %s device notifications %s", self, 'enable' if enable else 'disable', flags)
return ok
def notify_devices(self):
"""Scan all devices."""
if self.handle:
if not self.request(0x8002, 0x02):
_log.warn("%s: failed to trigger device link notifications", self)
def register_new_device(self, number):
if self._devices.get(number) is not None:
raise IndexError("%s: device number %d already registered" % (self, number))
dev = PairedDevice(self, number)
# create a device object, but only use it if the receiver knows about it
# Nano receiver
#if self.max_devices == 1 and number == 1:
# # the Nano receiver does not provide the wpid
# _log.info("%s: found Nano device %d (%s)", self, number, dev.serial)
# # dev._wpid = self.serial + ':1'
# self._devices[number] = dev
# return dev
if dev.wpid:
_log.info("%s: found Unifying device %d (%s)", self, number, dev.wpid)
self._devices[number] = dev
return dev
self._devices[number] = None
def set_lock(self, lock_closed=True, device=0, timeout=0):
if self.handle:
lock = 0x02 if lock_closed else 0x01
reply = self.request(0x80B2, lock, device, timeout)
if reply:
return True
_log.warn("%s: failed to %s the receiver lock", self, 'close' if lock_closed else 'open')
def count(self):
count = self.request(0x8102)
return 0 if count is None else ord(count[1:2])
def request(self, request_id, *params):
if self.handle:
return _base.request(self.handle, 0xFF, request_id, *params)
def __iter__(self):
for number in range(1, 1 + self.max_devices):
if number in self._devices:
dev = self._devices[number]
else:
dev = self.__getitem__(number)
if dev is not None:
yield dev
def __getitem__(self, key):
if not self.handle:
return None
dev = self._devices.get(key)
if dev is not None:
return dev
if type(key) != int:
raise TypeError('key must be an integer')
if key < 1 or key > self.max_devices:
raise IndexError(key)
return self.register_new_device(key)
def __delitem__(self, key):
if self._devices.get(key) is None:
raise IndexError(key)
dev = self._devices[key]
reply = self.request(0x80B2, 0x03, int(key))
if reply:
del self._devices[key]
_log.warn("%s unpaired device %s", self, dev)
else:
_log.error("%s failed to unpair device %s", self, dev)
raise IndexError(key)
def __len__(self):
return len([d for d in self._devices.values() if d is not None])
def __contains__(self, dev):
if type(dev) == int:
return self._devices.get(dev) is not None
return self.__contains__(dev.number)
def __eq__(self, other):
return other is not None and self.kind == other.kind and self.path == other.path
def __ne__(self, other):
return other is None or self.kind != other.kind or self.path != other.path
def __hash__(self):
return self.path.__hash__()
def __str__(self):
return self._str
__unicode__ = __repr__ = __str__
__bool__ = __nonzero__ = lambda self: self.handle is not None
@classmethod
def open(self, path):
"""Opens a Logitech Receiver found attached to the machine, by device path.
:returns: An open file handle for the found receiver, or ``None``.
"""
try:
handle = _base.open_path(path)
if handle:
return Receiver(handle, path)
except OSError as e:
_log.exception("open %s", path)
if e.errno == _errno.EACCES:
raise
except:
_log.exception("open %s", path)
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