src/controller/python/chip/clusters/Command.py - third_party/github/project-chip/connectedhomeip - Git at Google

 #
 #    Copyright (c) 2020 Project CHIP Authors
 #    All rights reserved.
 #
 #    Licensed under the Apache License, Version 2.0 (the "License");
 #    you may not use this file except in compliance with the License.
 #    You may obtain a copy of the License at
 #
 #        http://www.apache.org/licenses/LICENSE-2.0
 #
 #    Unless required by applicable law or agreed to in writing, software
 #    distributed under the License is distributed on an "AS IS" BASIS,
 #    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 #    See the License for the specific language governing permissions and
 #    limitations under the License.
 #

 import builtins
 import ctypes
 import inspect
 import logging
 import sys
 from asyncio.futures import Future
 from ctypes import CFUNCTYPE, c_char_p, c_size_t, c_uint8, c_uint16, c_uint32, c_void_p, py_object
 from dataclasses import dataclass
 from typing import Type, Union

 import chip.exceptions
 import chip.interaction_model
 from chip.native import PyChipError

 from .ClusterObjects import ClusterCommand

 logger = logging.getLogger('chip.cluster.Command')
 logger.setLevel(logging.ERROR)


 @dataclass
 class CommandPath:
     EndpointId: int
     ClusterId: int
     CommandId: int


 @dataclass
 class Status:
     IMStatus: int
     ClusterStatus: int


 def FindCommandClusterObject(isClientSideCommand: bool, path: CommandPath):
     ''' Locates the right generated cluster object given a set of parameters.

         isClientSideCommand: True if it is a client-to-server command, else False.
         path: A CommandPath that describes the endpoint, cluster and ID of the command.

         Returns the type of the cluster object if one is found. Otherwise, returns None.
     '''
     for clusterName, obj in inspect.getmembers(sys.modules['chip.clusters.Objects']):
         if ('chip.clusters.Objects' in str(obj)) and inspect.isclass(obj):
             for objName, subclass in inspect.getmembers(obj):
                 if inspect.isclass(subclass) and (('Commands') in str(subclass)):
                     for commandName, command in inspect.getmembers(subclass):
                         if inspect.isclass(command):
                             for name, field in inspect.getmembers(command):
                                 if ('__dataclass_fields__' in name):
                                     if (field['cluster_id'].default == path.ClusterId) and (field['command_id'].default == path.CommandId) and (field['is_client'].default == isClientSideCommand):
                                         return eval('chip.clusters.Objects.' + clusterName + '.Commands.' + commandName)
     return None


 class AsyncCommandTransaction:
     def __init__(self, future: Future, eventLoop, expectType: Type):
         self._event_loop = eventLoop
         self._future = future
         self._expect_type = expectType

     def _handleResponse(self, path: CommandPath, status: Status, response: bytes):
         if (len(response) == 0):
             self._future.set_result(None)
         else:
             # If a type hasn't been assigned, let's auto-deduce it.
             if (self._expect_type is None):
                 self._expect_type = FindCommandClusterObject(False, path)

             if self._expect_type:
                 try:
                     self._future.set_result(
                         self._expect_type.FromTLV(response))
                 except Exception as ex:
                     self._handleError(
                         status, 0, ex)
             else:
                 self._future.set_result(None)

     def handleResponse(self, path: CommandPath, status: Status, response: bytes):
         self._event_loop.call_soon_threadsafe(
             self._handleResponse, path, status, response)

     def _handleError(self, imError: Status, chipError: PyChipError, exception: Exception):
         if exception:
             self._future.set_exception(exception)
         elif chipError != 0:
             self._future.set_exception(chipError.to_exception())
         else:
             try:
                 self._future.set_exception(
                     chip.interaction_model.InteractionModelError(chip.interaction_model.Status(imError.IMStatus)))
             except Exception as e2:
                 logger.exception("Failed to map interaction model status received: %s. Remapping to Failure." % imError)
                 self._future.set_exception(chip.interaction_model.InteractionModelError(
                     chip.interaction_model.Status.Failure))

     def handleError(self, status: Status, chipError: PyChipError):
         self._event_loop.call_soon_threadsafe(
             self._handleError, status, chipError, None
         )


 _OnCommandSenderResponseCallbackFunct = CFUNCTYPE(
     None, py_object, c_uint16, c_uint32, c_uint32, c_uint16, c_uint8, c_void_p, c_uint32)
 _OnCommandSenderErrorCallbackFunct = CFUNCTYPE(
     None, py_object, c_uint16, c_uint8, PyChipError)
 _OnCommandSenderDoneCallbackFunct = CFUNCTYPE(
     None, py_object)


 @_OnCommandSenderResponseCallbackFunct
 def _OnCommandSenderResponseCallback(closure, endpoint: int, cluster: int, command: int, imStatus: int, clusterStatus: int, payload, size):
     data = ctypes.string_at(payload, size)
     closure.handleResponse(CommandPath(endpoint, cluster, command), Status(
         imStatus, clusterStatus), data[:])


 @_OnCommandSenderErrorCallbackFunct
 def _OnCommandSenderErrorCallback(closure, imStatus: int, clusterStatus: int, chiperror: PyChipError):
     closure.handleError(Status(imStatus, clusterStatus), chiperror)


 @_OnCommandSenderDoneCallbackFunct
 def _OnCommandSenderDoneCallback(closure):
     ctypes.pythonapi.Py_DecRef(ctypes.py_object(closure))


 def SendCommand(future: Future, eventLoop, responseType: Type, device, commandPath: CommandPath, payload: ClusterCommand, timedRequestTimeoutMs: Union[None, int] = None, interactionTimeoutMs: Union[None, int] = None, busyWaitMs: Union[None, int] = None) -> PyChipError:
     ''' Send a cluster-object encapsulated command to a device and does the following:
             - On receipt of a successful data response, returns the cluster-object equivalent through the provided future.
             - None (on a successful response containing no data)
             - Raises an exception if any errors are encountered.

         If no response type is provided above, the type will be automatically deduced.

         If a valid timedRequestTimeoutMs is provided, a timed interaction will be initiated instead.
         If a valid interactionTimeoutMs is provided, the interaction will terminate with a CHIP_ERROR_TIMEOUT if a response
         has not been received within that timeout. If it isn't provided, a sensible value will be automatically computed that
         accounts for the underlying characteristics of both the transport and the responsiveness of the receiver.
     '''
     if (responseType is not None) and (not issubclass(responseType, ClusterCommand)):
         raise ValueError("responseType must be a ClusterCommand or None")
     if payload.must_use_timed_invoke and timedRequestTimeoutMs is None or timedRequestTimeoutMs == 0:
         raise chip.interaction_model.InteractionModelError(chip.interaction_model.Status.NeedsTimedInteraction)

     handle = chip.native.GetLibraryHandle()
     transaction = AsyncCommandTransaction(future, eventLoop, responseType)

     payloadTLV = payload.ToTLV()
     ctypes.pythonapi.Py_IncRef(ctypes.py_object(transaction))
     return builtins.chipStack.Call(
         lambda: handle.pychip_CommandSender_SendCommand(
             ctypes.py_object(transaction), device,
             c_uint16(0 if timedRequestTimeoutMs is None else timedRequestTimeoutMs), commandPath.EndpointId,
             commandPath.ClusterId, commandPath.CommandId, payloadTLV, len(payloadTLV),
             ctypes.c_uint16(0 if interactionTimeoutMs is None else interactionTimeoutMs),
             ctypes.c_uint16(0 if busyWaitMs is None else busyWaitMs),
         ))


 def SendGroupCommand(groupId: int, devCtrl: c_void_p, payload: ClusterCommand, busyWaitMs: Union[None, int] = None) -> PyChipError:
     ''' Send a cluster-object encapsulated group command to a device and does the following:
             - None (on a successful response containing no data)
             - Raises an exception if any errors are encountered.
     '''
     handle = chip.native.GetLibraryHandle()

     payloadTLV = payload.ToTLV()
     return builtins.chipStack.Call(
         lambda: handle.pychip_CommandSender_SendGroupCommand(
             c_uint16(groupId), devCtrl,
             payload.cluster_id, payload.command_id, payloadTLV, len(payloadTLV),
             ctypes.c_uint16(0 if busyWaitMs is None else busyWaitMs),
         ))


 def Init():
     handle = chip.native.GetLibraryHandle()

     # Uses one of the type decorators as an indicator for everything being
     # initialized.
     if not handle.pychip_CommandSender_SendCommand.argtypes:
         setter = chip.native.NativeLibraryHandleMethodArguments(handle)

         setter.Set('pychip_CommandSender_SendCommand',
                    PyChipError, [py_object, c_void_p, c_uint16, c_uint32, c_uint32, c_char_p, c_size_t, c_uint16])
         setter.Set('pychip_CommandSender_SendGroupCommand',
                    PyChipError, [c_uint16, c_void_p, c_uint32, c_uint32, c_char_p, c_size_t, c_uint16])
         setter.Set('pychip_CommandSender_InitCallbacks', None, [
                    _OnCommandSenderResponseCallbackFunct, _OnCommandSenderErrorCallbackFunct, _OnCommandSenderDoneCallbackFunct])

     handle.pychip_CommandSender_InitCallbacks(
         _OnCommandSenderResponseCallback, _OnCommandSenderErrorCallback, _OnCommandSenderDoneCallback)
	#
	# Copyright (c) 2020 Project CHIP Authors
	# All rights reserved.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#

	import builtins
	import ctypes
	import inspect
	import logging
	import sys
	from asyncio.futures import Future
	from ctypes import CFUNCTYPE, c_char_p, c_size_t, c_uint8, c_uint16, c_uint32, c_void_p, py_object
	from dataclasses import dataclass
	from typing import Type, Union

	import chip.exceptions
	import chip.interaction_model
	from chip.native import PyChipError

	from .ClusterObjects import ClusterCommand

	logger = logging.getLogger('chip.cluster.Command')
	logger.setLevel(logging.ERROR)


	@dataclass
	class CommandPath:
	EndpointId: int
	ClusterId: int
	CommandId: int


	@dataclass
	class Status:
	IMStatus: int
	ClusterStatus: int


	def FindCommandClusterObject(isClientSideCommand: bool, path: CommandPath):
	''' Locates the right generated cluster object given a set of parameters.

	isClientSideCommand: True if it is a client-to-server command, else False.
	path: A CommandPath that describes the endpoint, cluster and ID of the command.

	Returns the type of the cluster object if one is found. Otherwise, returns None.
	'''
	for clusterName, obj in inspect.getmembers(sys.modules['chip.clusters.Objects']):
	if ('chip.clusters.Objects' in str(obj)) and inspect.isclass(obj):
	for objName, subclass in inspect.getmembers(obj):
	if inspect.isclass(subclass) and (('Commands') in str(subclass)):
	for commandName, command in inspect.getmembers(subclass):
	if inspect.isclass(command):
	for name, field in inspect.getmembers(command):
	if ('__dataclass_fields__' in name):
	if (field['cluster_id'].default == path.ClusterId) and (field['command_id'].default == path.CommandId) and (field['is_client'].default == isClientSideCommand):
	return eval('chip.clusters.Objects.' + clusterName + '.Commands.' + commandName)
	return None


	class AsyncCommandTransaction:
	def __init__(self, future: Future, eventLoop, expectType: Type):
	self._event_loop = eventLoop
	self._future = future
	self._expect_type = expectType

	def _handleResponse(self, path: CommandPath, status: Status, response: bytes):
	if (len(response) == 0):
	self._future.set_result(None)
	else:
	# If a type hasn't been assigned, let's auto-deduce it.
	if (self._expect_type is None):
	self._expect_type = FindCommandClusterObject(False, path)

	if self._expect_type:
	try:
	self._future.set_result(
	self._expect_type.FromTLV(response))
	except Exception as ex:
	self._handleError(
	status, 0, ex)
	else:
	self._future.set_result(None)

	def handleResponse(self, path: CommandPath, status: Status, response: bytes):
	self._event_loop.call_soon_threadsafe(
	self._handleResponse, path, status, response)

	def _handleError(self, imError: Status, chipError: PyChipError, exception: Exception):
	if exception:
	self._future.set_exception(exception)
	elif chipError != 0:
	self._future.set_exception(chipError.to_exception())
	else:
	try:
	self._future.set_exception(
	chip.interaction_model.InteractionModelError(chip.interaction_model.Status(imError.IMStatus)))
	except Exception as e2:
	logger.exception("Failed to map interaction model status received: %s. Remapping to Failure." % imError)
	self._future.set_exception(chip.interaction_model.InteractionModelError(
	chip.interaction_model.Status.Failure))

	def handleError(self, status: Status, chipError: PyChipError):
	self._event_loop.call_soon_threadsafe(
	self._handleError, status, chipError, None
	)


	_OnCommandSenderResponseCallbackFunct = CFUNCTYPE(
	None, py_object, c_uint16, c_uint32, c_uint32, c_uint16, c_uint8, c_void_p, c_uint32)
	_OnCommandSenderErrorCallbackFunct = CFUNCTYPE(
	None, py_object, c_uint16, c_uint8, PyChipError)
	_OnCommandSenderDoneCallbackFunct = CFUNCTYPE(
	None, py_object)


	@_OnCommandSenderResponseCallbackFunct
	def _OnCommandSenderResponseCallback(closure, endpoint: int, cluster: int, command: int, imStatus: int, clusterStatus: int, payload, size):
	data = ctypes.string_at(payload, size)
	closure.handleResponse(CommandPath(endpoint, cluster, command), Status(
	imStatus, clusterStatus), data[:])


	@_OnCommandSenderErrorCallbackFunct
	def _OnCommandSenderErrorCallback(closure, imStatus: int, clusterStatus: int, chiperror: PyChipError):
	closure.handleError(Status(imStatus, clusterStatus), chiperror)


	@_OnCommandSenderDoneCallbackFunct
	def _OnCommandSenderDoneCallback(closure):
	ctypes.pythonapi.Py_DecRef(ctypes.py_object(closure))


	def SendCommand(future: Future, eventLoop, responseType: Type, device, commandPath: CommandPath, payload: ClusterCommand, timedRequestTimeoutMs: Union[None, int] = None, interactionTimeoutMs: Union[None, int] = None, busyWaitMs: Union[None, int] = None) -> PyChipError:
	''' Send a cluster-object encapsulated command to a device and does the following:
	- On receipt of a successful data response, returns the cluster-object equivalent through the provided future.
	- None (on a successful response containing no data)
	- Raises an exception if any errors are encountered.

	If no response type is provided above, the type will be automatically deduced.

	If a valid timedRequestTimeoutMs is provided, a timed interaction will be initiated instead.
	If a valid interactionTimeoutMs is provided, the interaction will terminate with a CHIP_ERROR_TIMEOUT if a response
	has not been received within that timeout. If it isn't provided, a sensible value will be automatically computed that
	accounts for the underlying characteristics of both the transport and the responsiveness of the receiver.
	'''
	if (responseType is not None) and (not issubclass(responseType, ClusterCommand)):
	raise ValueError("responseType must be a ClusterCommand or None")
	if payload.must_use_timed_invoke and timedRequestTimeoutMs is None or timedRequestTimeoutMs == 0:
	raise chip.interaction_model.InteractionModelError(chip.interaction_model.Status.NeedsTimedInteraction)

	handle = chip.native.GetLibraryHandle()
	transaction = AsyncCommandTransaction(future, eventLoop, responseType)

	payloadTLV = payload.ToTLV()
	ctypes.pythonapi.Py_IncRef(ctypes.py_object(transaction))
	return builtins.chipStack.Call(
	lambda: handle.pychip_CommandSender_SendCommand(
	ctypes.py_object(transaction), device,
	c_uint16(0 if timedRequestTimeoutMs is None else timedRequestTimeoutMs), commandPath.EndpointId,
	commandPath.ClusterId, commandPath.CommandId, payloadTLV, len(payloadTLV),
	ctypes.c_uint16(0 if interactionTimeoutMs is None else interactionTimeoutMs),
	ctypes.c_uint16(0 if busyWaitMs is None else busyWaitMs),
	))


	def SendGroupCommand(groupId: int, devCtrl: c_void_p, payload: ClusterCommand, busyWaitMs: Union[None, int] = None) -> PyChipError:
	''' Send a cluster-object encapsulated group command to a device and does the following:
	- None (on a successful response containing no data)
	- Raises an exception if any errors are encountered.
	'''
	handle = chip.native.GetLibraryHandle()

	payloadTLV = payload.ToTLV()
	return builtins.chipStack.Call(
	lambda: handle.pychip_CommandSender_SendGroupCommand(
	c_uint16(groupId), devCtrl,
	payload.cluster_id, payload.command_id, payloadTLV, len(payloadTLV),
	ctypes.c_uint16(0 if busyWaitMs is None else busyWaitMs),
	))


	def Init():
	handle = chip.native.GetLibraryHandle()

	# Uses one of the type decorators as an indicator for everything being
	# initialized.
	if not handle.pychip_CommandSender_SendCommand.argtypes:
	setter = chip.native.NativeLibraryHandleMethodArguments(handle)

	setter.Set('pychip_CommandSender_SendCommand',
	PyChipError, [py_object, c_void_p, c_uint16, c_uint32, c_uint32, c_char_p, c_size_t, c_uint16])
	setter.Set('pychip_CommandSender_SendGroupCommand',
	PyChipError, [c_uint16, c_void_p, c_uint32, c_uint32, c_char_p, c_size_t, c_uint16])
	setter.Set('pychip_CommandSender_InitCallbacks', None, [
	_OnCommandSenderResponseCallbackFunct, _OnCommandSenderErrorCallbackFunct, _OnCommandSenderDoneCallbackFunct])

	handle.pychip_CommandSender_InitCallbacks(
	_OnCommandSenderResponseCallback, _OnCommandSenderErrorCallback, _OnCommandSenderDoneCallback)