def __init__(self,
renderer: Renderer,
frame: Frame,
blend_mode=None,
*args,
**kwargs):
super(LayerHolder, self).__init__(*args, **kwargs)
self._renderer = renderer
self._frame = frame
self._blend_mode = blend_mode
self.waiter = None
self.active_buf = None
self.task = None
self.traits_changed = Signal()
self._renderer.observe(self._traits_changed, names=['all'])
self._renderer._flush()
for buf in range(0, NUM_BUFFERS):
layer = self._frame.create_layer()
layer.blend_mode = self._blend_mode
self._renderer._free_layer(layer)
def __init__(self, driver):
self._driver = driver
self._leds = {}
self.led_changed = Signal()
driver.restore_prefs.connect(self._restore_prefs)
def __init__(self, parent, layer, *args, **kwargs):
self._delegate = layer
self._zindex = layer.zindex
super(LayerAPI, self).__init__(parent, *args, **kwargs)
self.__class__.dbus = None
self.layer_stopped = Signal()
self._delegate.observe(self._z_changed, names=['zindex'])
self._delegate.observe(self._state_changed, names=['running'])
class LEDManager:
def __init__(self, driver):
self._driver = driver
self._leds = {}
self.led_changed = Signal()
driver.restore_prefs.connect(self._restore_prefs)
@property
def supported_leds(self):
return self._driver.hardware.supported_leds
def get(self, led_type: LEDType) -> LED:
"""
Fetches the requested LED interface on this device
:param led_type: The LED type to fetch
:return: The LED interface, if available
"""
if led_type not in self._driver.supported_leds:
return None
if led_type not in self._leds:
self._leds[led_type] = LED(self._driver, led_type)
self._leds[led_type].observe(self._led_changed)
return self._leds[led_type]
def _led_changed(self, change):
self.led_changed.fire(change.owner)
def _restore_prefs(self, prefs):
led_prefs = prefs.leds
for led_type in self.supported_leds:
if led_type == LEDType.BACKLIGHT:
# handled elsewhere
continue
key = led_type.name.lower()
led = self.get(led_type)
if led_prefs is not None and key in led_prefs:
led.set_values(led_prefs[key])
def __init__(self, driver, bus):
self._driver = driver
self._bus = bus
self._logger = driver.logger
self.__class__.dbus = self._get_descriptor()
self._signal_input = False
self._input_task = None
self._input_queue = None
self._services = []
self._handle = None
self.publish_changed = Signal()
if self._logger.isEnabledFor(logging.DEBUG):
self._logger.debug('Device API attached: %s', self.__class__.dbus)
def __init__(self, driver):
super(AnimationManager, self).__init__()
self._driver = driver
self._loop = None
self._logger = driver.logger
self._error = False
self.layers_changed = Signal()
self.state_changed = Signal()
driver.power_state_changed.connect(self._power_state_changed)
driver.restore_prefs.connect(self._restore_prefs)
self._renderer_info = self._discover_renderers()
self._shutting_down = False
def __init__(self,
hardware: Hardware,
devinfo: hidapi.DeviceInfo,
index: int,
sys_path: str,
input_devices=None,
*args,
**kwargs):
self._hardware = hardware
self._devinfo = devinfo
self._devindex = index
self._sys_path = sys_path
self.logger = get_logger('uchroma.driver-%d' % index)
# needed for mixins
super(BaseUChromaDevice, self).__init__(*args, **kwargs)
self._dev = None
self._serial_number = None
self._firmware_version = None
self._last_cmd_time = None
self._prefs = None
self._offline = False
self._suspended = False
self.power_state_changed = Signal()
self.restore_prefs = Signal()
self._input_manager = None
if input_devices is not None:
self._input_manager = InputManager(self, input_devices)
self._animation_manager = None
if self.width > 0 and self.height > 0:
self._animation_manager = AnimationManager(self)
self._brightness_animator = ValueAnimator(self._update_brightness)
self._fx_manager = None
self._ref_count = 0
self._executor = futures.ThreadPoolExecutor(max_workers=1)
def __init__(self,
frame: Frame,
default_blend_mode: str = None,
*args,
**kwargs):
super(AnimationLoop, self).__init__(*args, **kwargs)
self._frame = frame
self._default_blend_mode = default_blend_mode
self._anim_task = None
self._pause_event = asyncio.Event()
self._pause_event.set()
self._logger = frame._driver.logger
self._error = False
self.layers_changed = Signal()
def __init__(self, *callbacks):
self._logger = Log.get('uchroma.devicemanager')
self._devices = OrderedDict()
self._monitor = False
self._udev_context = Context()
self._udev_observer = None
self._callbacks = []
if callbacks is not None:
self._callbacks.extend(callbacks)
self._loop = asyncio.get_event_loop()
self.device_added = Signal()
self.device_removed = Signal()
self.discover()
class AnimationLoop(HasTraits):
layers = List(default_value=(), allow_none=False)
running = Bool()
"""
Collects the output of one or more Renderers and displays the
composited image.
The loop is a fully asynchronous design, and renderers may independently
block or yield buffers at different rates. Each renderer has a pair of
asyncio.Queue objects and will put buffers onto the "active" queue when
their draw cycle is completed. The loop yields on these queues until
at least one buffer is available. All new buffers are placed on the
"active" list and the previous buffers are returned to the respective
renderer on the "avail" queue. If a renderer doesn't produce any output
during the round, the current buffer is kept. The active list is finally
composed and sent to the hardware.
The design of this loop intends to be as CPU-efficient as possible and
does not wake up spuriously or otherwise consume cycles while inactive.
"""
def __init__(self,
frame: Frame,
default_blend_mode: str = None,
*args,
**kwargs):
super(AnimationLoop, self).__init__(*args, **kwargs)
self._frame = frame
self._default_blend_mode = default_blend_mode
self._anim_task = None
self._pause_event = asyncio.Event()
self._pause_event.set()
self._logger = frame._driver.logger
self._error = False
self.layers_changed = Signal()
@observe('layers')
def _start_stop(self, change):
old = 0
if isinstance(change.old, list):
old = len(change.old)
new = len(change.new)
if old == 0 and new > 0 and not self.running:
self.start()
elif new == 0 and old > 0 and self.running:
self.stop()
async def _dequeue(self, r_idx: int):
"""
Gather completed layers from the renderers. If nothing
is available, keep the last layer (in case the renderers
are producing output at different rates). Yields until
at least one layer is ready.
"""
if not self.running or r_idx >= len(self.layers):
return
layer = self.layers[r_idx]
renderer = layer.renderer
# wait for a buffer
buf = await renderer._active_q.get()
# return the old buffer to the renderer
if layer.active_buf is not None:
renderer._free_layer(layer.active_buf)
# put it on the active list
layer.active_buf = buf
def _dequeue_nowait(self, r_idx) -> bool:
"""
Variation of _dequeue which does not yield.
:return: True if any layers became active
"""
if not self.running or r_idx >= len(self.layers):
return False
layer = self.layers[r_idx]
renderer = layer.renderer
# check if a buffer is ready
if not renderer._active_q.empty():
buf = renderer._active_q.get_nowait()
if buf is not None:
# return the last buffer
if layer.active_buf is not None:
renderer._free_layer(layer.active_buf)
# put it on the composition list
layer.active_buf = buf
return True
return False
async def _get_layers(self):
"""
Wait for renderers to produce new layers, yields until at least one
layer is active.
"""
# schedule tasks to wait on each renderer queue
for r_idx in range(0, len(self.layers)):
layer = self.layers[r_idx]
if layer.waiter is None or layer.waiter.done():
layer.waiter = ensure_future(self._dequeue(r_idx))
# async wait for at least one completion
waiters = [layer.waiter for layer in self.layers]
if len(waiters) == 0:
return
await asyncio.wait(waiters, return_when=futures.FIRST_COMPLETED)
# check the rest without waiting
for r_idx in range(0, len(self.layers)):
layer = self.layers[r_idx]
if layer.waiter is not None and not layer.waiter.done():
self._dequeue_nowait(r_idx)
async def _commit_layers(self):
"""
Merge layers from all renderers and commit to the hardware
"""
if self._logger.isEnabledFor(LOG_TRACE - 1):
self._logger.debug("Layers: %s", self.layers)
active_bufs = [layer.active_buf for layer in \
sorted(self.layers, key=lambda z: z.zindex) \
if layer is not None and layer.active_buf is not None]
try:
if len(active_bufs) > 0:
self._frame.commit(active_bufs)
except (OSError, IOError):
self._error = True
await self._stop()
async def _animate(self):
"""
Main loop
Starts the renderers, waits for new layers to be drawn,
composites the layers, sends them to the hardware, and
finally syncs to achieve consistent frame rate. If no
layers are ready, the loop yields to prevent spurious
wakeups.
"""
self._logger.info("AnimationLoop is starting..")
# start the renderers
for layer in self.layers:
layer.start()
tick = Ticker(1 / MAX_FPS)
# loop forever, waiting for layers
while self.running:
await self._pause_event.wait()
async with tick:
await self._get_layers()
if not self.running:
break
# compose and display the frame
await self._commit_layers()
def _renderer_done(self, future):
"""
Invoked when the renderer exits
"""
self._logger.info("AnimationLoop is cleaning up")
self._anim_task = None
def _update_z(self, tmp_list):
if len(tmp_list) > 0:
for layer_idx in range(0, len(tmp_list)):
tmp_list[layer_idx].renderer.zindex = layer_idx
# fires trait observer
self.layers = tmp_list
def _layer_traits_changed(self, *args):
self.layers_changed.fire('modify', *args)
def add_layer(self, renderer: Renderer, zindex: int = None) -> bool:
with self.hold_trait_notifications():
if zindex is None:
zindex = len(self.layers)
if not renderer.init(self._frame):
self._logger.error('Renderer %s failed to initialize',
renderer.name)
return False
layer = LayerHolder(renderer, self._frame,
self._default_blend_mode)
tmp = self.layers[:]
tmp.insert(zindex, layer)
self._update_z(tmp)
layer.traits_changed.connect(self._layer_traits_changed)
if self.running:
layer.start()
self._logger.info("Layer created, renderer=%s zindex=%d",
layer.renderer, zindex)
self.layers_changed.fire('add',
zindex,
layer.renderer,
error=self._error)
return True
async def remove_layer(self, layer_like):
with self.hold_trait_notifications():
if isinstance(layer_like, LayerHolder):
zindex = self.layers.index(layer_like)
elif isinstance(layer_like, int):
zindex = layer_like
else:
raise TypeError('Layer should be a holder or an index')
if zindex >= 0 and zindex < len(self.layers):
layer = self.layers[zindex]
layer_id = id(self.layers[zindex])
await layer.stop()
tmp = self.layers[:]
del tmp[zindex]
self._update_z(tmp)
self.layers_changed.fire('remove',
zindex,
layer_id,
error=self._error)
self._logger.info("Layer %d removed", zindex)
async def clear_layers(self):
if len(self.layers) == 0:
return False
for layer in self.layers[::-1]:
await self.remove_layer(layer)
return True
def start(self) -> bool:
"""
Start the AnimationLoop
Initializes the renderers, zeros the buffers, and starts the loop.
Requires an active asyncio event loop.
:return: True if the loop was started
"""
if self.running:
self._logger.error("Animation loop already running")
return False
if len(self.layers) == 0:
self._logger.error("No renderers were configured")
return False
self._error = False
self.running = True
self._anim_task = ensure_future(self._animate())
self._anim_task.add_done_callback(self._renderer_done)
return True
async def _stop(self):
"""
Stop this AnimationLoop
Shuts down the loop and triggers cleanup tasks.
"""
if not self.running:
return False
self.running = False
for layer in self.layers[::-1]:
await self.remove_layer(layer)
if self._anim_task is not None and not self._anim_task.done():
self._anim_task.cancel()
await asyncio.wait([self._anim_task],
return_when=futures.ALL_COMPLETED)
self._logger.info("AnimationLoop stopped")
def stop(self, cb=None):
if not self.running:
return False
task = ensure_future(self._stop())
if cb is not None:
task.add_done_callback(cb)
return True
def pause(self, paused):
if paused != self._pause_event.is_set():
return
self._logger.debug("Loop paused: %s", paused)
if paused:
self._pause_event.clear()
else:
self._pause_event.set()
class AnimationManager(HasTraits):
"""
Configures and manages animations of one or more renderers
"""
_renderer_info = FrozenDict()
paused = Bool(False)
def __init__(self, driver):
super(AnimationManager, self).__init__()
self._driver = driver
self._loop = None
self._logger = driver.logger
self._error = False
self.layers_changed = Signal()
self.state_changed = Signal()
driver.power_state_changed.connect(self._power_state_changed)
driver.restore_prefs.connect(self._restore_prefs)
self._renderer_info = self._discover_renderers()
self._shutting_down = False
@observe('paused')
def _state_changed(self, change):
# aggregate the trait notifications to a single signal
value = 'stopped'
if change.name == 'paused' and change.new and self.running:
value = 'paused'
elif change.name == 'running' and change.new and not self.paused:
value = 'running'
self.state_changed.fire(value)
def _loop_running_changed(self, change):
try:
self._driver.reset()
except (OSError, IOError):
self._error = True
self._state_changed(change)
def _loop_layers_changed(self, *args, error=False):
self.layers_changed.fire(*args)
if not error:
self._update_prefs()
def _power_state_changed(self, brightness, suspended):
if self.running and self.paused != suspended:
self.pause(suspended)
def _create_loop(self):
if self._loop is None:
self._loop = AnimationLoop(self._driver.frame_control)
self._loop.observe(self._loop_running_changed, names=['running'])
self._loop.layers_changed.connect(self._loop_layers_changed)
def _update_prefs(self):
if self._loop is None or self._shutting_down:
return
prefs = OrderedDict()
for layer in self._loop.layers:
prefs[layer.type_string] = layer.trait_values
if len(prefs) > 0:
self._driver.preferences.layers = prefs
else:
self._driver.preferences.layers = None
def _discover_renderers(self):
infos = OrderedDict()
for ep_mod in iter_entry_points(group='uchroma.plugins',
name='renderers'):
obj = ep_mod.load()
if not inspect.ismodule(obj):
self._logger.error("Plugin %s is not a module, skipping",
ep_mod)
continue
for ep_cls in iter_entry_points(group='uchroma.plugins',
name='renderer'):
obj = ep_cls.load()
if not issubclass(obj, Renderer):
self._logger.error("Plugin %s is not a renderer, skipping",
ep_cls)
continue
for obj in Renderer.__subclasses__():
if inspect.isabstract(obj):
continue
if obj.meta.display_name == '_unknown_':
self._logger.error(
"Renderer %s did not set metadata, skipping", obj.__name__)
continue
key = '%s.%s' % (obj.__module__, obj.__name__)
infos[key] = RendererInfo(obj.__module__, obj, key, obj.meta,
obj.class_traits())
self._logger.debug("Loaded renderers: %s", ', '.join(infos.keys()))
return infos
def _get_renderer(self, name, zindex: int = None, **traits) -> Renderer:
"""
Instantiate a renderer
:param name: Name of the discovered renderer
:return: The renderer object
"""
info = self._renderer_info[name]
try:
return info.clazz(self._driver, **traits)
except ImportError as err:
self._logger.exception('Invalid renderer: %s', name, exc_info=err)
return None
def add_renderer(self, name, traits: dict, zindex: int = None) -> int:
"""
Adds a renderer which will produce a layer of this animation.
Any number of renderers may be added and the output will be
composited together. The z-order of the layers corresponds to
the order renderers were added, with the first producing the
base layer and the last producing the topmost layer.
Renderers are defined in setup.py as entry points in group
"uchroma.plugins". A module containing multiple renderers may
be specified with "renderers" and a single class may be
specified as "renderer".
:param renderer: Key name of a discovered renderer
:return: Z-position of the new renderer or -1 on error
"""
self._create_loop()
if zindex is not None and zindex > len(self._loop.layers):
raise ValueError("Z-index out of range (requested %d max %d)" % \
(zindex, len(self._loop.layers)))
renderer = self._get_renderer(name, **traits)
if renderer is None:
self._logger.error('Renderer %s failed to load', renderer)
return -1
if not self._loop.add_layer(renderer, zindex):
self._logger.error('Renderer %s failed to initialize', name)
return -1
return renderer.zindex
def remove_renderer(self, zindex: int) -> bool:
if self._loop is None:
return False
if zindex is None or zindex < 0 or zindex > len(self._loop.layers):
self._logger.error("Z-index out of range (requested %d max %d)",
zindex, len(self._loop.layers))
return False
ensure_future(self._loop.remove_layer(zindex))
return True
def pause(self, state=None):
if self._loop is not None:
if state is None:
state = not self.paused
if state != self.paused:
self._loop.pause(state)
self.paused = state
self._logger.info("Animation paused: %s", self.paused)
return self.paused
def stop(self, cb=None):
if self._loop is not None:
return self._loop.stop(cb=cb)
return False
async def shutdown(self):
"""
Shuts down the animation service, waiting for all layers to
finish work. This is a coroutine.
"""
self._shutting_down = True
if self._loop is None:
return
await self._loop.clear_layers()
def _restore_prefs(self, prefs):
"""
Restore active layers from preferences
"""
self._logger.debug('Restoring layers: %s', prefs.layers)
if prefs.layers is not None and len(prefs.layers) > 0:
try:
for name, args in prefs.layers.items():
self.add_renderer(name, args)
except Exception as err:
self._logger.exception(
'Failed to add renderers, clearing! [%s]',
prefs.layers,
exc_info=err)
self.stop()
@property
def renderer_info(self):
"""
The list of all discovered renderers
"""
return self._renderer_info
@property
def running(self):
"""
True if an animation is currently running
"""
return self._loop is not None and self._loop.running
def __del__(self):
if hasattr(self, '_loop') and self._loop is not None:
self._loop.stop()
class LayerHolder(HasTraits):
def __init__(self,
renderer: Renderer,
frame: Frame,
blend_mode=None,
*args,
**kwargs):
super(LayerHolder, self).__init__(*args, **kwargs)
self._renderer = renderer
self._frame = frame
self._blend_mode = blend_mode
self.waiter = None
self.active_buf = None
self.task = None
self.traits_changed = Signal()
self._renderer.observe(self._traits_changed, names=['all'])
self._renderer._flush()
for buf in range(0, NUM_BUFFERS):
layer = self._frame.create_layer()
layer.blend_mode = self._blend_mode
self._renderer._free_layer(layer)
@property
def type_string(self):
cls = self._renderer.__class__
return '%s.%s' % (cls.__module__, cls.__name__)
@property
def trait_values(self):
return get_args_dict(self._renderer)
def _traits_changed(self, change):
if not self.renderer.running:
return
self.traits_changed.fire(self.zindex, self.trait_values, change.name,
change.old)
@property
def zindex(self):
return self._renderer.zindex
@property
def renderer(self):
return self._renderer
def start(self):
if not self.renderer.running:
self.task = ensure_future(self.renderer._run())
async def stop(self):
if self.renderer.running:
tasks = []
if self.task is not None and not self.task.done():
self.task.cancel()
tasks.append(self.task)
if self.waiter is not None and not self.waiter.done():
self.waiter.cancel()
tasks.append(self.waiter)
await self.renderer._stop()
if len(tasks) > 0:
await asyncio.wait(tasks, return_when=futures.ALL_COMPLETED)
self.renderer.finish(self._frame)
class BaseUChromaDevice(object):
"""
Base class for device objects
"""
class Command(BaseCommand):
"""
Standard commands used by all Chroma devices
"""
# info queries, class 0
GET_FIRMWARE_VERSION = (0x00, 0x81, 0x02)
GET_SERIAL = (0x00, 0x82, 0x16)
def __init__(self,
hardware: Hardware,
devinfo: hidapi.DeviceInfo,
index: int,
sys_path: str,
input_devices=None,
*args,
**kwargs):
self._hardware = hardware
self._devinfo = devinfo
self._devindex = index
self._sys_path = sys_path
self.logger = get_logger('uchroma.driver-%d' % index)
# needed for mixins
super(BaseUChromaDevice, self).__init__(*args, **kwargs)
self._dev = None
self._serial_number = None
self._firmware_version = None
self._last_cmd_time = None
self._prefs = None
self._offline = False
self._suspended = False
self.power_state_changed = Signal()
self.restore_prefs = Signal()
self._input_manager = None
if input_devices is not None:
self._input_manager = InputManager(self, input_devices)
self._animation_manager = None
if self.width > 0 and self.height > 0:
self._animation_manager = AnimationManager(self)
self._brightness_animator = ValueAnimator(self._update_brightness)
self._fx_manager = None
self._ref_count = 0
self._executor = futures.ThreadPoolExecutor(max_workers=1)
async def shutdown(self):
"""
Shuts down all services associated with the device and closes the HID instance.
"""
if asyncio.get_event_loop().is_running():
if hasattr(self, '_animation_manager'
) and self.animation_manager is not None:
await self.animation_manager.shutdown()
if hasattr(self,
'_input_manager') and self._input_manager is not None:
await self._input_manager.shutdown()
self.close(True)
def close(self, force: bool = False):
if not force:
if self.animation_manager is not None and self.is_animating:
return
if self._ref_count > 0:
return
if hasattr(self, '_dev') and self._dev is not None:
try:
self._dev.close()
except Exception:
pass
self._dev = None
def has_fx(self, fx_type: str) -> bool:
"""
Test if the device supports a particular built-in effect
:param fx_type: the effect to test
:return: true if the effect is supported
"""
if self.fx_manager is None:
return False
return fx_type in self.fx_manager.available_fx
@property
def animation_manager(self):
"""
Animation manager for this device
"""
if hasattr(self, '_animation_manager'):
return self._animation_manager
return None
@property
def is_animating(self):
"""
True if an animation is currently running
"""
if self.animation_manager is not None:
return self.animation_manager.running
return False
@property
def fx_manager(self):
"""
Built-in effects manager for this device
"""
return self._fx_manager
@property
def input_manager(self):
"""
Input manager service for this device
"""
return self._input_manager
@property
def input_devices(self):
"""
Input devices associated with this instance
"""
if self._input_manager is None:
return None
return self._input_manager.input_devices
@property
def hid(self):
"""
The lower-layer hidapi device
"""
return self._dev
@property
def last_cmd_time(self):
"""
Timestamp of the last command sent to the hardware, used for delay enforcement
"""
return self._last_cmd_time
@last_cmd_time.setter
def last_cmd_time(self, last_cmd_time):
self._last_cmd_time = last_cmd_time
def _set_brightness(self, level: float) -> bool:
return False
def _get_brightness(self) -> float:
return 0.0
async def _update_brightness(self, level):
await ensure_future(asyncio.get_event_loop().run_in_executor( \
self._executor, functools.partial(self._set_brightness, level)))
suspended = self.suspended and level == 0
self.power_state_changed.fire(level, suspended)
@property
def suspended(self):
"""
The power state of the device, true if suspended
"""
return self._suspended
def suspend(self, fast=False):
"""
Suspend the device
Performs any actions necessary to suspend the device. By default,
the current brightness level is saved and set to zero.
"""
if self._suspended:
return
self.preferences.brightness = self.brightness
if fast:
self._set_brightness(0)
else:
if self._device_open():
self._brightness_animator.animate(self.brightness,
0,
done_cb=self._done_cb)
self._suspended = True
def resume(self):
"""
Resume the device
Performs any actions necessary to resume the device. By default,
the saved brightness level is restored.
"""
if not self._suspended:
return
self._suspended = False
self.brightness = self.preferences.brightness
@property
def brightness(self):
"""
The current brightness level of the device lighting
"""
if self._suspended:
return self.preferences.brightness
return self._get_brightness()
@brightness.setter
def brightness(self, level: float):
"""
Set the brightness level of the main device lighting
:param level: Brightness level, 0-100
"""
if not self._suspended:
if self._device_open():
self._brightness_animator.animate(self.brightness,
level,
done_cb=self._done_cb)
self.preferences.brightness = level
def _ensure_open(self) -> bool:
try:
if self._dev is None:
self._dev = hidapi.Device(self._devinfo, blocking=False)
except Exception as err:
self.logger.exception("Failed to open connection", exc_info=err)
return False
return True
def get_report(self,
command_class: int,
command_id: int,
data_size: int,
*args,
transaction_id: None,
remaining_packets: int = 0x00) -> RazerReport:
"""
Create and initialize a new RazerReport on this device
"""
if transaction_id is None:
if self.has_quirk(Quirks.TRANSACTION_CODE_3F):
transaction_id = 0x3F
else:
transaction_id = 0xFF
report = RazerReport(self,
command_class,
command_id,
data_size,
transaction_id=transaction_id,
remaining_packets=remaining_packets)
if args is not None:
for arg in args:
if arg is not None:
report.args.put(arg)
return report
def _get_timeout_cb(self):
"""
Getter for report timeout handler
"""
return None
def run_with_result(self,
command: BaseCommand,
*args,
transaction_id: int = 0xFF,
delay: float = None,
remaining_packets: int = 0x00) -> bytes:
"""
Run a command and return the result
Executes the given command with the provided list of arguments, returning
the result report.
Transaction id is only necessary for specialized commands or hardware.
The connection to the device will be automatically closed by default.
:param command: The command to run
:param args: The list of arguments to call the command with
:type args: varies
:param transaction_id: Transaction identified, defaults to 0xFF
:return: The result report from the hardware
"""
report = self.get_report(*command.value,
*args,
transaction_id=transaction_id,
remaining_packets=remaining_packets)
result = None
if self.run_report(report, delay=delay):
result = report.result
return result
@synchronized
def run_report(self, report: RazerReport, delay: float = None) -> bool:
"""
Runs a previously initialized RazerReport on the device
:param report: the report to run
:param delay: custom delay to enforce between commands
:return: True if successful
"""
with self.device_open():
return report.run(delay=delay, timeout_cb=self._get_timeout_cb())
def run_command(self,
command: BaseCommand,
*args,
transaction_id: int = 0xFF,
delay: float = None,
remaining_packets: int = 0x00) -> bool:
"""
Run a command
Executes the given command with the provided list of arguments.
Transaction id is only necessary for specialized commands or hardware.
The connection to the device will be automatically closed by default.
:param command: The command to run
:param args: The list of arguments to call the command with
:type args: varies
:param transaction_id: Transaction identified, defaults to 0xFF
:param timeout_cb: Callback to invoke on a timeout
:return: True if the command was successful
"""
report = self.get_report(*command.value,
*args,
transaction_id=transaction_id,
remaining_packets=remaining_packets)
return self.run_report(report, delay=delay)
def _decode_serial(self, value: bytes) -> str:
if value is not None:
try:
return value.decode()
except UnicodeDecodeError:
return self.key
return None
def _get_serial_number(self) -> str:
"""
Get the serial number from the hardware directly
Laptops don't return a serial number for their devices,
so we return the model name.
"""
value = self.run_with_result(BaseUChromaDevice.Command.GET_SERIAL)
return self._decode_serial(value)
@property
def serial_number(self) -> str:
"""
The hardware serial number of this device
On laptops, this is not available.
"""
if self._serial_number is not None:
return self._serial_number
serial = self._get_serial_number()
if serial is not None:
self._serial_number = re.sub(r'\W+', r'', serial)
return self._serial_number
def _get_firmware_version(self) -> str:
"""
Get the firmware version from the hardware directly
"""
return self.run_with_result(
BaseUChromaDevice.Command.GET_FIRMWARE_VERSION)
@property
def firmware_version(self) -> str:
"""
The firmware version present on this device
"""
if self._firmware_version is None:
version = self._get_firmware_version()
if version is None:
self._firmware_version = '(unknown)'
else:
self._firmware_version = 'v%d.%d' % (int(
version[0]), int(version[1]))
return self._firmware_version
@property
def is_offline(self) -> bool:
"""
Some devices (such as wireless models) might be "offline" in that
the dock or other USB receiver might be plugged in, but the actual
device is switched off. In this case, we can't interact with it
but it will still enumerate.
"""
return self._offline
@property
def name(self) -> str:
"""
The name of this device
"""
return self.hardware.name
@property
def device_index(self) -> int:
"""
The internal index of this device in the device manager
"""
return self._devindex
@property
def sys_path(self) -> str:
"""
The sysfs path of this device
"""
return self._sys_path
@property
def key(self) -> str:
"""
Unique key which identifies this device to the device manager
"""
return '%04x:%04x.%02d' % (self.vendor_id, self.product_id,
self.device_index)
@property
def hardware(self) -> Hardware:
"""
The sub-enumeration of Hardware
"""
return self._hardware
@property
def product_id(self) -> int:
"""
The USB product identifier of this device
"""
return self._devinfo.product_id
@property
def vendor_id(self) -> int:
"""
The USB vendor identifier of this device
"""
return self._devinfo.vendor_id
@property
def manufacturer(self) -> str:
"""
The manufacturer of this device
"""
return self._hardware.manufacturer
@property
def device_type(self) -> Hardware.Type:
"""
The type of this device, from the Hardware.Type enumeration
"""
return self.hardware.type
@property
def driver_version(self):
"""
Get the uChroma version
"""
return __version__
@property
def width(self) -> int:
"""
Gets the width of the key matrix (if applicable)
"""
if self.hardware.dimensions is None:
return 0
return self.hardware.dimensions.x
@property
def height(self) -> int:
"""
Gets the height of the key matrix (if applicable)
"""
if self.hardware.dimensions is None:
return 0
return self.hardware.dimensions.y
@property
def has_matrix(self) -> bool:
"""
True if the device supports matrix control
"""
return self.hardware.has_matrix
def has_quirk(self, quirk) -> bool:
"""
True if the quirk is required for this device
"""
return self.hardware.has_quirk(quirk)
@property
def key_mapping(self):
"""
The mapping between keycodes and lighting matrix coordinates
"""
return self.hardware.key_mapping
@property
def preferences(self):
"""
Saved preferences for this device
"""
if self._prefs is None:
self._prefs = PreferenceManager().get(self.serial_number)
return self._prefs
def reset(self) -> bool:
"""
Reset effects and other configuration to defaults
"""
return True
def fire_restore_prefs(self):
"""
Restore saved preferences
"""
with self.preferences.observers_paused():
if hasattr(
self,
'brightness') and self.preferences.brightness is not None:
setattr(self, 'brightness', self.preferences.brightness)
self.restore_prefs.fire(self.preferences)
def __repr__(self):
return "%s(name=%s, type=%s, product_id=0x%04x, index=%d)" % \
(self.__class__.__name__, self.name, self.device_type.value,
self.product_id, self.device_index)
def _device_open(self):
self._ref_count += 1
return self._ensure_open()
def _device_close(self):
self._ref_count -= 1
self.close()
def _done_cb(self, future):
self._device_close()
@contextmanager
def device_open(self):
try:
if self._device_open():
yield
finally:
self._device_close()
def __del__(self):
self.close(force=True)
class DeviceAPI(object):
"""
D-Bus API for device properties and common hardware features.
"""
if dev_mode_enabled():
InputEvent = signal()
_PROPERTIES = {
'battery_level': 'd',
'bus_path': 'o',
'device_index': 'u',
'device_type': 's',
'driver_version': 's',
'firmware_version': 's',
'has_matrix': 'b',
'height': 'i',
'is_charging': 'b',
'is_wireless': 'b',
'key': 's',
'manufacturer': 's',
'name': 's',
'product_id': 'u',
'revision': 'u',
'serial_number': 's',
'key_mapping': 'a{saau}',
'sys_path': 's',
'vendor_id': 'u',
'width': 'i',
'zones': 'as'
}
_RW_PROPERTIES = {
'polling_rate': 's',
'dpi_xy': 'ai',
'dock_brightness': 'd',
'dock_charge_color': 's'
}
def __init__(self, driver, bus):
self._driver = driver
self._bus = bus
self._logger = driver.logger
self.__class__.dbus = self._get_descriptor()
self._signal_input = False
self._input_task = None
self._input_queue = None
self._services = []
self._handle = None
self.publish_changed = Signal()
if self._logger.isEnabledFor(logging.DEBUG):
self._logger.debug('Device API attached: %s', self.__class__.dbus)
def __getattribute__(self, name):
# Intercept everything and delegate to the device class by converting
# names between the D-Bus conventions to Python conventions.
prop_name = camel_to_snake(name)
if (prop_name in DeviceAPI._PROPERTIES or prop_name in DeviceAPI._RW_PROPERTIES) \
and hasattr(self._driver, prop_name):
value = getattr(self._driver, prop_name)
if isinstance(value, Enum):
return value.name.lower()
if isinstance(value, Color):
return value.html
if isinstance(value,
(list, tuple)) and len(value) > 0 and isinstance(
value[0], Enum):
return [x.name.lower() for x in value]
return value
else:
return super(DeviceAPI, self).__getattribute__(name)
def __setattr__(self, name, value):
prop_name = camel_to_snake(name)
if prop_name != name and prop_name in DeviceAPI._RW_PROPERTIES:
setattr(self._driver, prop_name, value)
else:
super(DeviceAPI, self).__setattr__(name, value)
@property
def bus_path(self):
"""
Get the bus path for all services related to this device.
"""
return '/org/chemlab/UChroma/%s/%04x_%04x_%02d' % \
(self._driver.device_type.value, self._driver.vendor_id,
self._driver.product_id, self._driver.device_index)
@property
def bus(self):
return self._bus
@property
def driver(self):
return self._driver
def publish(self):
if self._handle is not None:
return
self._handle = self._bus.register_object(self.bus_path, self, None)
if hasattr(self.driver,
'fx_manager') and self.driver.fx_manager is not None:
self._services.append(FXManagerAPI(self))
if hasattr(self.driver, 'animation_manager'
) and self.driver.animation_manager is not None:
self._services.append(AnimationManagerAPI(self))
if hasattr(self.driver,
'led_manager') and self.driver.led_manager is not None:
self._services.append(LEDManagerAPI(self))
self.publish_changed.fire(True)
def unpublish(self):
if self._handle is None:
return
self.publish_changed.fire(False)
self._handle.unregister()
self._handle = None
async def _dev_mode_input(self):
while self._signal_input:
event = await self._input_queue.get_events()
if event is not None:
self.InputEvent(dbus_prepare(event)[0])
@property
def SupportedLeds(self) -> list:
return [x.name.lower() for x in self._driver.supported_leds]
@property
def InputSignalEnabled(self) -> bool:
"""
Enabling input signalling will fire D-Bus signals when keyboard
input is received. This is used by the tooling and bringup
utilities. Developer mode must be enabled in order for this
to be available on the bus due to potential security issues.
"""
return self._signal_input
@InputSignalEnabled.setter
def InputSignalEnabled(self, state):
if dev_mode_enabled():
if state == self._signal_input:
return
if state:
if self._input_queue is None:
self._input_queue = InputQueue(self._driver)
self._input_queue.attach()
self._input_task = ensure_future(self._dev_mode_input())
else:
ensure_future(self._input_queue.detach())
self._input_task.cancel()
self._input_queue = None
self._signal_input = state
@property
def FrameDebugOpts(self) -> dict:
return dbus_prepare(self._driver.frame_control.debug_opts,
variant=True)[0]
PropertiesChanged = signal()
@property
def Brightness(self):
"""
The current brightness level
"""
return self._driver.brightness
@Brightness.setter
def Brightness(self, value):
"""
Set the brightness level of the device lighting.
0.0 - 100.0
"""
if value < 0.0 or value > 100.0:
return
old = self._driver.brightness
self._driver.brightness = value
if old != self._driver.brightness:
self.PropertiesChanged('org.chemlab.UChroma.Device',
{'Brightness': value}, [])
@property
def Suspended(self):
"""
True if the device is suspended
"""
return self._driver.suspended
@Suspended.setter
def Suspended(self, value):
"""
Set the suspended state of the device
"""
current = self._driver.suspended
if value == current:
return
if value:
self._driver.suspend()
else:
self._driver.resume()
if current != self._driver.suspended:
self.PropertiesChanged('org.chemlab.UChroma.Device',
{'Suspended': self.Suspended}, [])
def Reset(self):
self._driver.reset()
def _get_descriptor(self):
builder = DescriptorBuilder(self, 'org.chemlab.UChroma.Device')
for name, sig in DeviceAPI._PROPERTIES.items():
if hasattr(self._driver, name):
builder.add_property(name, sig, False)
for name, sig in DeviceAPI._RW_PROPERTIES.items():
if hasattr(self._driver, name):
builder.add_property(name, sig, True)
if hasattr(self._driver, 'brightness'):
builder.add_property('brightness', 'd', True)
if hasattr(self._driver, 'suspend') and hasattr(
self._driver, 'resume'):
builder.add_property('suspended', 'b', True)
builder.add_method('reset')
# tooling support, requires dev mode enabled
if dev_mode_enabled() and self._driver.input_manager is not None:
builder.add_property('frame_debug_opts', 'a{sv}', False)
builder.add_property('input_signal_enabled', 'b', True)
builder.add_signal('input_event', ArgSpec('out', 'event', 'a{sv}'))
return builder.build()
class LayerAPI(TraitsPropertiesMixin, ManagedService):
def __init__(self, parent, layer, *args, **kwargs):
self._delegate = layer
self._zindex = layer.zindex
super(LayerAPI, self).__init__(parent, *args, **kwargs)
self.__class__.dbus = None
self.layer_stopped = Signal()
self._delegate.observe(self._z_changed, names=['zindex'])
self._delegate.observe(self._state_changed, names=['running'])
def _z_changed(self, change):
if change.old != change.new:
self.publish()
def _state_changed(self, change):
if change.old != change.new:
if change.new:
self.publish()
elif self._handle != None:
self._logger.info("Layer stopped zindex=%d (%s)", self._zindex,
self._delegate.meta)
self.unpublish()
self.layer_stopped.fire(self)
@staticmethod
def get_layer_path(path, zindex):
return '%s/layer/%d' % (path, zindex)
@property
def layer_path(self):
return LayerAPI.get_layer_path(self._path, self._zindex)
@property
def layer_type(self):
return '%s.%s' % (self._delegate.__class__.__module__,
self._delegate.__class__.__name__)
@property
def layer_zindex(self):
return self._zindex
def publish(self):
if not self._delegate.running:
return
self.unpublish()
self.__class__.dbus = self._get_descriptor()
self._zindex = self._delegate.zindex
self._handle = self._bus.register_object(self.layer_path, self, None)
self._logger.info("Registered layer API: %s", self.layer_path)
self._logger.debug('%s', self.__class__.dbus)
def unpublish(self):
if super().unpublish():
self._logger.info("Unregisted layer API: %s", self.layer_path)
def _get_descriptor(self):
exclude = ('blend_mode', 'opacity')
if self._delegate.zindex > 0:
exclude = ('background_color', )
builder = DescriptorBuilder(self._delegate,
'org.chemlab.UChroma.Layer', exclude)
for k, v in self._delegate.meta._asdict().items():
attrib = snake_to_camel(k)
setattr(self, attrib, v)
builder.add_property(attrib, 's')
setattr(
self, 'Key', '%s.%s' %
(self._delegate.__module__, self._delegate.__class__.__name__))
builder.add_property('Key', 's')
return builder.build()
