from __future__ import absolute_import, division, print_function, unicode_literals from logging import INFO as _INFO from logging import getLogger import hidapi as _hid from . import base as _base from . import hidpp10 as _hidpp10 from . import hidpp20 as _hidpp20 from .common import strhex as _strhex from .descriptors import DEVICES as _DESCRIPTORS from .i18n import _ from .settings_templates import check_feature_settings as _check_feature_settings _log = getLogger(__name__) del getLogger _R = _hidpp10.REGISTERS # # # class Device(object): read_register = _hidpp10.read_register write_register = _hidpp10.write_register def __init__(self, receiver, number, link_notification=None, info=None): assert receiver or info self.receiver = receiver if receiver: assert number > 0 and number <= receiver.max_devices else: assert number == 0 # Device number, 1..6 for unifying devices, 1 otherwise. self.number = number # 'device active' flag; requires manual management. self.online = None # the Wireless PID is unique per device model self.wpid = None self.descriptor = None # mouse, keyboard, etc (see _hidpp10.DEVICE_KIND) self._kind = None # Unifying peripherals report a codename. self._codename = None # the full name of the model self._name = None # HID++ protocol version, 1.0 or 2.0 self._protocol = None # serial number (an 8-char hex string) self._serial = None self._firmware = None self._keys = None self._registers = None self._settings = None self._feature_settings_checked = False # Misc stuff that's irrelevant to any functionality, but may be # displayed in the UI and caching it here helps. self._polling_rate = None self._power_switch = None self.handle = None self.path = None # if _log.isEnabledFor(_DEBUG): # _log.debug("new Device(%s, %s, %s)", receiver, number, link_notification) if receiver: if link_notification is not None: self.online = not bool(ord(link_notification.data[0:1]) & 0x40) self.wpid = _strhex(link_notification.data[2:3] \ + link_notification.data[1:2]) # assert link_notification.address == (0x04 # if unifying else 0x03) kind = ord(link_notification.data[0:1]) & 0x0F # fix EX100 wpid if receiver.ex100_wpid_fix: # EX100 receiver self.wpid = _strhex(link_notification.data[2:3]) + '00' # workaround for EX100 switched kind if self.wpid == '3F00': kind = 2 if self.wpid == '6500': kind = 1 self._kind = _hidpp10.DEVICE_KIND[kind] else: # force a reading of the wpid pair_info = self.receiver.read_register(_R.receiver_info, \ 0x20 + number - 1) if pair_info: # may be either a Unifying receiver, or an Unifying-ready # receiver self.wpid = _strhex(pair_info[3:5]) kind = ord(pair_info[7:8]) & 0x0F self._kind = _hidpp10.DEVICE_KIND[kind] elif receiver.ex100_wpid_fix: # ex100 receiver, fill fake device_info with known wpid's # accordingly to drivers/hid/hid-logitech-dj.c # index 1 or 2 always mouse, index 3 always the keyboard, # index 4 is used for an optional separate numpad if number == 1: # mouse self.wpid = '3F00' self._kind = _hidpp10.DEVICE_KIND[2] elif number == 3: # keyboard self.wpid = '6500' self._kind = _hidpp10.DEVICE_KIND[1] else: # unknown device number on EX100 _log.error('failed to set fake EX100 wpid for device %d of %s', number, receiver) raise _base.NoSuchDevice(number=number, \ receiver=receiver, error='Unknown EX100 device') else: # unifying protocol not supported, must be a Nano receiver device_info = self.receiver.read_register(_R.receiver_info, 0x04) if device_info is None: _log.error('failed to read Nano wpid for device %d of %s', number, receiver) raise _base.NoSuchDevice(number=number, \ receiver=receiver, error='read Nano wpid') self.wpid = _strhex(device_info[3:5]) self._power_switch = '(' + _('unknown') + ')' # the wpid is necessary to properly identify wireless link on/off # notifications also it gets set to None on this object when the # device is unpaired assert self.wpid is not None, \ 'failed to read wpid: device %d of %s' % (number, receiver) for dev in _hid.enumerate({'vendor_id': 0x046d, \ 'product_id': int(self.receiver.product_id, 16)}): if dev.serial and dev.serial.startswith(self.wpid): self.path = dev.path self.handle = _hid.open_path(dev.path) break assert self.handle self.descriptor = _DESCRIPTORS.get(self.wpid) if self.descriptor is None: # Last chance to correctly identify the device; many Nano # receivers do not support this call. codename = self.receiver.read_register(_R.receiver_info, \ 0x40 + self.number - 1) if codename: codename_length = ord(codename[1:2]) codename = codename[2:2 + codename_length] self._codename = codename.decode('ascii') self.descriptor = _DESCRIPTORS.get(self._codename) if self.descriptor: self._name = self.descriptor.name self._protocol = self.descriptor.protocol if self._codename is None: self._codename = self.descriptor.codename if self._kind is None: self._kind = self.descriptor.kind else: self.path = info.path self.handle = _hid.open_path(self.path) if self._protocol is not None: self.features = None if self._protocol < 2.0 else \ _hidpp20.FeaturesArray(self) else: # may be a 2.0 device; if not, it will fix itself later self.features = _hidpp20.FeaturesArray(self) @property def protocol(self): if not self._protocol and self.online: self._protocol = _base.ping(self.handle, self.number) # if the ping failed, the peripheral is (almost) certainly offline self.online = self._protocol is not None # if _log.isEnabledFor(_DEBUG): # _log.debug("device %d protocol %s", self.number, self._protocol) return self._protocol or 0 @property def codename(self): if not self._codename: codename = self.receiver.read_register(_R.receiver_info, \ 0x40 + self.number - 1) if self.receiver else None if codename: codename_length = ord(codename[1:2]) codename = codename[2:2 + codename_length] self._codename = codename.decode('ascii') # if _log.isEnabledFor(_DEBUG): # _log.debug("device %d codename %s", self.number, self._codename) else: self._codename = '? (%s)' % self.wpid return self._codename @property def name(self): if not self._name: if self.online and self.protocol >= 2.0: self._name = _hidpp20.get_name(self) return self._name or self.codename or ('Unknown device %s' % self.wpid) @property def kind(self): if not self._kind: pair_info = self.receiver.read_register(_R.receiver_info, \ 0x20 + self.number - 1) if self.receiver else None if pair_info: kind = ord(pair_info[7:8]) & 0x0F self._kind = _hidpp10.DEVICE_KIND[kind] elif self.online and self.protocol >= 2.0: self._kind = _hidpp20.get_kind(self) return self._kind or '?' @property def firmware(self): if self._firmware is None and self.online: if self.protocol >= 2.0: self._firmware = _hidpp20.get_firmware(self) else: self._firmware = _hidpp10.get_firmware(self) return self._firmware or () @property def serial(self): if not self._serial and self.receiver: serial = self.receiver.read_register(_R.receiver_info, \ 0x30 + self.number - 1) if serial: ps = ord(serial[9:10]) & 0x0F self._power_switch = _hidpp10.POWER_SWITCH_LOCATION[ps] else: # some Nano receivers? serial = self.receiver.read_register(0x2D5) if serial: self._serial = _strhex(serial[1:5]) else: # fallback... self._serial = self.receiver.serial return self._serial or '?' @property def power_switch_location(self): if not self._power_switch and self.receiver: ps = self.receiver.read_register(_R.receiver_info, \ 0x30 + self.number - 1) if ps: ps = ord(ps[9:10]) & 0x0F self._power_switch = _hidpp10.POWER_SWITCH_LOCATION[ps] else: self._power_switch = '(unknown)' return self._power_switch @property def polling_rate(self): if not self._polling_rate and self.receiver: pair_info = self.receiver.read_register(_R.receiver_info, \ 0x20 + self.number - 1) if pair_info: self._polling_rate = ord(pair_info[2:3]) else: self._polling_rate = 0 if self.online and self.protocol >= 2.0 and self.features \ and _hidpp20.FEATURE.REPORT_RATE in self.features: rate = _hidpp20.get_polling_rate(self) self._polling_rate = rate if rate else self._polling_rate return self._polling_rate @property def keys(self): if not self._keys: if self.online and self.protocol >= 2.0: self._keys = _hidpp20.get_keys(self) or () return self._keys @property def registers(self): if not self._registers: if self.descriptor and self.descriptor.registers: self._registers = list(self.descriptor.registers) else: self._registers = [] return self._registers @property def settings(self): if self._settings is None: self._settings = [] if self.descriptor and self.descriptor.settings: self._settings = [] for s in self.descriptor.settings: try: setting = s(self) except Exception as e: # Do nothing if the device is offline setting = None if self.online: raise e if setting is not None: self._settings.append(setting) if not self._feature_settings_checked: self._feature_settings_checked = _check_feature_settings(self, \ self._settings) return self._settings def enable_notifications(self, enable=True): """Enable or disable device (dis)connection notifications on this receiver.""" if not bool(self.receiver) or self.protocol >= 2.0: return False if enable: set_flag_bits = ( _hidpp10.NOTIFICATION_FLAG.battery_status | _hidpp10.NOTIFICATION_FLAG.keyboard_illumination | _hidpp10.NOTIFICATION_FLAG.wireless | _hidpp10.NOTIFICATION_FLAG.software_present ) else: set_flag_bits = 0 ok = _hidpp10.set_notification_flags(self, set_flag_bits) if not ok: _log.warn('%s: failed to %s device notifications', self, 'enable' \ if enable else 'disable') flag_bits = _hidpp10.get_notification_flags(self) flag_names = None if flag_bits is None else \ tuple(_hidpp10.NOTIFICATION_FLAG.flag_names(flag_bits)) if _log.isEnabledFor(_INFO): _log.info('%s: device notifications %s %s', self, 'enabled' \ if enable else 'disabled', flag_names) return flag_bits if ok else None def request(self, request_id, *params, no_reply=False): return _base.request(self.handle, self.number, request_id, *params, \ no_reply=no_reply) def feature_request(self, feature, function=0x00, *params, no_reply=False): if self.protocol >= 2.0: return _hidpp20.feature_request(self, feature, function, *params, \ no_reply=no_reply) def ping(self): """Checks if the device is online, returns True of False""" protocol = _base.ping(self.handle, self.number) self.online = protocol is not None if protocol: self._protocol = protocol return self.online def __index__(self): return self.number __int__ = __index__ def __eq__(self, other): return other is not None and self.kind == other.kind \ and self.wpid == other.wpid def __ne__(self, other): return other is None or self.kind != other.kind \ or self.wpid != other.wpid def __hash__(self): return self.wpid.__hash__() __bool__ = __nonzero__ = lambda self: self.wpid is not None \ and self.number in self.receiver def __str__(self): return '' % (self.number, self.wpid, \ self.name or self.codename or '?', self.serial) __unicode__ = __repr__ = __str__