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

 #
 #    Copyright (c) 2020 Project CHIP Authors
 #    Copyright (c) 2020 Google LLC.
 #    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.
 #

 #
 #    @file
 #      Python interface for Chip Stack
 #

 """Chip Stack interface
 """

 from __future__ import absolute_import, print_function

 import builtins
 import logging
 import os
 import sys
 import time
 from ctypes import *
 from threading import Condition, Event, Lock

 import chip.native
 from chip.native import PyChipError

 from .ChipUtility import ChipUtility
 from .clusters import Attribute as ClusterAttribute
 from .clusters import Command as ClusterCommand
 from .clusters.CHIPClusters import *
 from .exceptions import *
 from .interaction_model import delegate as im
 from .storage import *

 __all__ = [
     "DeviceStatusStruct",
     "ChipStackException",
     "DeviceError",
     "ChipStackError",
     "ChipStack",
 ]

 ChipStackDLLBaseName = "_ChipDeviceCtrl.so"


 def _singleton(cls):
     instance = [None]

     def wrapper(*args, **kwargs):
         if instance[0] is None:
             instance[0] = cls(*args, **kwargs)
         return instance[0]

     return wrapper


 class DeviceStatusStruct(Structure):
     _fields_ = [
         ("ProfileId", c_uint32),
         ("StatusCode", c_uint16),
         ("SysErrorCode", c_uint32),
     ]


 class LogCategory(object):
     """Debug logging categories used by chip."""

     # NOTE: These values must correspond to those used in the chip C++ code.
     Disabled = 0
     Error = 1
     Progress = 2
     Detail = 3
     Retain = 4

     @staticmethod
     def categoryToLogLevel(cat):
         if cat == LogCategory.Error:
             return logging.ERROR
         elif cat == LogCategory.Progress:
             return logging.INFO
         elif cat == LogCategory.Detail:
             return logging.DEBUG
         elif cat == LogCategory.Retain:
             return logging.CRITICAL
         else:
             return logging.NOTSET


 class ChipLogFormatter(logging.Formatter):
     """A custom logging.Formatter for logging chip library messages."""

     def __init__(
         self,
         datefmt=None,
         logModulePrefix=False,
         logLevel=False,
         logTimestamp=False,
         logMSecs=True,
     ):
         fmt = "%(message)s"
         if logModulePrefix:
             fmt = "CHIP:%(chip-module)s: " + fmt
         if logLevel:
             fmt = "%(levelname)s:" + fmt
         if datefmt is not None or logTimestamp:
             fmt = "%(asctime)s " + fmt
         super(ChipLogFormatter, self).__init__(fmt=fmt, datefmt=datefmt)
         self.logMSecs = logMSecs

     def formatTime(self, record, datefmt=None):
         if datefmt is None:
             timestampStr = time.strftime("%Y-%m-%d %H:%M:%S%z")
         if self.logMSecs:
             timestampUS = record.__dict__.get("timestamp-usec", 0)
             timestampStr = "%s.%03ld" % (timestampStr, timestampUS / 1000)
         return timestampStr


 class AsyncCallableHandle:
     def __init__(self, callback):
         self._callback = callback
         self._res = None
         self._exc = None
         self._finish = False
         self._cv_lock = Lock()
         self._cv = Condition(self._cv_lock)

     def __call__(self):
         with self._cv_lock:
             try:
                 self._res = self._callback()
             except Exception as ex:
                 self._exc = ex
             self._finish = True
             self._cv.notify_all()
         pythonapi.Py_DecRef(py_object(self))

     def Wait(self, timeoutMs: int = None):
         timeout = None
         if timeoutMs is not None:
             timeout = float(timeoutMs) / 1000

         with self._cv:
             while self._finish is False:
                 res = self._cv.wait(timeout)
                 if res is False:
                     raise TimeoutError("Timed out waiting for task to finish executing on the Matter thread")

             if self._exc is not None:
                 raise self._exc
             return self._res


 _CompleteFunct = CFUNCTYPE(None, c_void_p, c_void_p)
 _ErrorFunct = CFUNCTYPE(None, c_void_p, c_void_p,
                         c_ulong, POINTER(DeviceStatusStruct))
 _LogMessageFunct = CFUNCTYPE(
     None, c_int64, c_int64, c_char_p, c_uint8, c_char_p)
 _ChipThreadTaskRunnerFunct = CFUNCTYPE(None, py_object)


 @_singleton
 class ChipStack(object):
     def __init__(self, persistentStoragePath: str, installDefaultLogHandler=True, bluetoothAdapter=None, enableServerInteractions=True):
         builtins.enableDebugMode = False

         self.networkLock = Lock()
         self.completeEvent = Event()
         self.commissioningCompleteEvent = Event()
         self._ChipStackLib = None
         self._chipDLLPath = None
         self.devMgr = None
         self.callbackRes = None
         self.commissioningEventRes = None
         self.openCommissioningWindowPincode = {}
         self._activeLogFunct = None
         self.addModulePrefixToLogMessage = True
         self._enableServerInteractions = enableServerInteractions

         #
         # Locate and load the chip shared library.
         # This also implictly does a minimal stack initialization (i.e call MemoryInit).
         #
         self._loadLib()

         # Arrange to log output from the chip library to a python logger object with the
         # name 'chip.ChipStack'.  If desired, applications can override this behavior by
         # setting self.logger to a different python logger object, or by calling setLogFunct()
         # with their own logging function.
         self.logger = logging.getLogger(__name__)
         self.setLogFunct(self.defaultLogFunct)

         # Determine if there are already handlers installed for the logger.  Python 3.5+
         # has a method for this; on older versions the check has to be done manually.
         if hasattr(self.logger, "hasHandlers"):
             hasHandlers = self.logger.hasHandlers()
         else:
             hasHandlers = False
             logger = self.logger
             while logger is not None:
                 if len(logger.handlers) > 0:
                     hasHandlers = True
                     break
                 if not logger.propagate:
                     break
                 logger = logger.parent

         # If a logging handler has not already been initialized for 'chip.ChipStack',
         # or any one of its parent loggers, automatically configure a handler to log to
         # stdout.  This maintains compatibility with a number of applications which expect
         # chip log output to go to stdout by default.
         #
         # This behavior can be overridden in a variety of ways:
         #     - Initialize a different log handler before ChipStack is initialized.
         #     - Pass installDefaultLogHandler=False when initializing ChipStack.
         #     - Replace the StreamHandler on self.logger with a different handler object.
         #     - Set a different Formatter object on the existing StreamHandler object.
         #     - Reconfigure the existing ChipLogFormatter object.
         #     - Configure chip to call an application-specific logging function by
         #       calling self.setLogFunct().
         #     - Call self.setLogFunct(None), which will configure the chip library
         #       to log directly to stdout, bypassing python altogether.
         #
         if installDefaultLogHandler and not hasHandlers:
             logHandler = logging.StreamHandler(stream=sys.stdout)
             logHandler.setFormatter(ChipLogFormatter())
             self.logger.addHandler(logHandler)
             self.logger.setLevel(logging.DEBUG)

         def HandleComplete(appState, reqState):
             self.callbackRes = True
             self.completeEvent.set()

         def HandleError(appState, reqState, err, devStatusPtr):
             self.callbackRes = self.ErrorToException(err, devStatusPtr)
             self.completeEvent.set()

         @_ChipThreadTaskRunnerFunct
         def HandleChipThreadRun(callback):
             callback()

         self.cbHandleChipThreadRun = HandleChipThreadRun
         self.cbHandleComplete = _CompleteFunct(HandleComplete)
         self.cbHandleError = _ErrorFunct(HandleError)
         # set by other modules(BLE) that require service by thread while thread blocks.
         self.blockingCB = None

         #
         # Storage has to be initialized BEFORE initializing the stack, since the latter
         # requires a PersistentStorageDelegate to be provided to DeviceControllerFactory.
         #
         self._persistentStorage = PersistentStorage(persistentStoragePath)

         # Initialize the chip stack.
         res = self._ChipStackLib.pychip_DeviceController_StackInit(
             self._persistentStorage.GetSdkStorageObject(), enableServerInteractions)
         res.raise_on_error()

         im.InitIMDelegate()
         ClusterAttribute.Init()
         ClusterCommand.Init()

         builtins.chipStack = self

     def GetStorageManager(self):
         return self._persistentStorage

     @property
     def enableServerInteractions(self):
         return self._enableServerInteractions

     @property
     def defaultLogFunct(self):
         """Returns a python callable which, when called, logs a message to the python logger object
         currently associated with the ChipStack object.
         The returned function is suitable for passing to the setLogFunct() method."""

         def logFunct(timestamp, timestampUSec, moduleName, logCat, message):
             moduleName = ChipUtility.CStringToString(moduleName)
             message = ChipUtility.CStringToString(message)
             if self.addModulePrefixToLogMessage:
                 message = "CHIP:%s: %s" % (moduleName, message)
             logLevel = LogCategory.categoryToLogLevel(logCat)
             msgAttrs = {
                 "chip-module": moduleName,
                 "timestamp": timestamp,
                 "timestamp-usec": timestampUSec,
             }
             self.logger.log(logLevel, message, extra=msgAttrs)

         return logFunct

     def setLogFunct(self, logFunct):
         """Set the function used by the chip library to log messages.
         The supplied object must be a python callable that accepts the following
         arguments:
            timestamp (integer)
            timestampUS (integer)
            module name (encoded UTF-8 string)
            log category (integer)
            message (encoded UTF-8 string)
         Specifying None configures the chip library to log directly to stdout."""
         if logFunct is None:
             logFunct = 0
         if not isinstance(logFunct, _LogMessageFunct):
             logFunct = _LogMessageFunct(logFunct)
         with self.networkLock:
             # NOTE: ChipStack must hold a reference to the CFUNCTYPE object while it is
             # set. Otherwise it may get garbage collected, and logging calls from the
             # chip library will fail.
             self._activeLogFunct = logFunct
             self._ChipStackLib.pychip_Stack_SetLogFunct(logFunct)

     def Shutdown(self):
         #
         # Terminate Matter thread and shutdown the stack.
         #
         self._ChipStackLib.pychip_DeviceController_StackShutdown()

         #
         # We only shutdown the persistent storage layer AFTER we've shut down the stack,
         # since there is a possibility of interactions with the storage layer during shutdown.
         #
         self._persistentStorage.Shutdown()
         self._persistentStorage = None

         #
         # Stack init happens in native, but shutdown happens here unfortunately.
         # #20437 tracks consolidating these.
         #
         self._ChipStackLib.pychip_CommonStackShutdown()
         self.networkLock = None
         self.completeEvent = None
         self._ChipStackLib = None
         self._chipDLLPath = None
         self.devMgr = None
         self.callbackRes = None

         delattr(builtins, "chipStack")

     def Call(self, callFunct, timeoutMs: int = None):
         '''Run a Python function on CHIP stack, and wait for the response.
         This function is a wrapper of PostTaskOnChipThread, which includes some handling of application specific logics.
         Calling this function on CHIP on CHIP mainloop thread will cause deadlock.
         '''
         # throw error if op in progress
         self.callbackRes = None
         self.completeEvent.clear()
         with self.networkLock:
             res = self.PostTaskOnChipThread(callFunct).Wait(timeoutMs)
         self.completeEvent.set()
         if res == 0 and self.callbackRes != None:
             return self.callbackRes
         return res

     def CallAsync(self, callFunct):
         '''Run a Python function on CHIP stack, and wait for the application specific response.
         This function is a wrapper of PostTaskOnChipThread, which includes some handling of application specific logics.
         Calling this function on CHIP on CHIP mainloop thread will cause deadlock.
         '''
         # throw error if op in progress
         self.callbackRes = None
         self.completeEvent.clear()
         with self.networkLock:
             res = self.PostTaskOnChipThread(callFunct).Wait()

         if not res.is_success:
             self.completeEvent.set()
             raise res.to_exception()
         while not self.completeEvent.isSet():
             if self.blockingCB:
                 self.blockingCB()

             self.completeEvent.wait(0.05)
         if isinstance(self.callbackRes, ChipStackException):
             raise self.callbackRes
         return self.callbackRes

     def PostTaskOnChipThread(self, callFunct) -> AsyncCallableHandle:
         '''Run a Python function on CHIP stack, and wait for the response.
         This function will post a task on CHIP mainloop, and return an object with Wait() method for getting the result.
         Calling Wait inside main loop will cause deadlock.
         '''
         callObj = AsyncCallableHandle(callFunct)
         pythonapi.Py_IncRef(py_object(callObj))
         res = self._ChipStackLib.pychip_DeviceController_PostTaskOnChipThread(
             self.cbHandleChipThreadRun, py_object(callObj))
         if not res.is_success:
             pythonapi.Py_DecRef(py_object(callObj))
             raise res.to_exception()
         return callObj

     def ErrorToException(self, err, devStatusPtr=None):
         if err == 0x2C and devStatusPtr:
             devStatus = devStatusPtr.contents
             msg = ChipUtility.CStringToString(
                 (
                     self._ChipStackLib.pychip_Stack_StatusReportToString(
                         devStatus.ProfileId, devStatus.StatusCode
                     )
                 )
             )
             sysErrorCode = (
                 devStatus.SysErrorCode if (
                     devStatus.SysErrorCode != 0) else None
             )
             if sysErrorCode != None:
                 msg = msg + " (system err %d)" % (sysErrorCode)
             return DeviceError(
                 devStatus.ProfileId, devStatus.StatusCode, sysErrorCode, msg
             )
         else:
             return ChipStackError(
                 err,
                 ChipUtility.CStringToString(
                     (self._ChipStackLib.pychip_Stack_ErrorToString(err))
                 ),
             )

     def LocateChipDLL(self):
         self._loadLib()
         return self._chipDLLPath

     # ----- Private Members -----
     def _AllDirsToRoot(self, dir):
         dir = os.path.abspath(dir)
         while True:
             yield dir
             parent = os.path.dirname(dir)
             if parent == "" or parent == dir:
                 break
             dir = parent

     def _loadLib(self):
         if self._ChipStackLib is None:
             self._ChipStackLib = chip.native.GetLibraryHandle()
             self._chipDLLPath = chip.native.FindNativeLibraryPath()

             self._ChipStackLib.pychip_DeviceController_StackInit.argtypes = [c_void_p, c_bool]
             self._ChipStackLib.pychip_DeviceController_StackInit.restype = PyChipError
             self._ChipStackLib.pychip_DeviceController_StackShutdown.argtypes = []
             self._ChipStackLib.pychip_DeviceController_StackShutdown.restype = PyChipError
             self._ChipStackLib.pychip_Stack_StatusReportToString.argtypes = [
                 c_uint32,
                 c_uint16,
             ]
             self._ChipStackLib.pychip_Stack_StatusReportToString.restype = c_char_p
             self._ChipStackLib.pychip_Stack_ErrorToString.argtypes = [c_uint32]
             self._ChipStackLib.pychip_Stack_ErrorToString.restype = c_char_p
             self._ChipStackLib.pychip_Stack_SetLogFunct.argtypes = [
                 _LogMessageFunct]
             self._ChipStackLib.pychip_Stack_SetLogFunct.restype = PyChipError

             self._ChipStackLib.pychip_DeviceController_PostTaskOnChipThread.argtypes = [
                 _ChipThreadTaskRunnerFunct, py_object]
             self._ChipStackLib.pychip_DeviceController_PostTaskOnChipThread.restype = PyChipError
	#
	# Copyright (c) 2020 Project CHIP Authors
	# Copyright (c) 2020 Google LLC.
	# 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.
	#

	#
	# @file
	# Python interface for Chip Stack
	#

	"""Chip Stack interface
	"""

	from __future__ import absolute_import, print_function

	import builtins
	import logging
	import os
	import sys
	import time
	from ctypes import *
	from threading import Condition, Event, Lock

	import chip.native
	from chip.native import PyChipError

	from .ChipUtility import ChipUtility
	from .clusters import Attribute as ClusterAttribute
	from .clusters import Command as ClusterCommand
	from .clusters.CHIPClusters import *
	from .exceptions import *
	from .interaction_model import delegate as im
	from .storage import *

	__all__ = [
	"DeviceStatusStruct",
	"ChipStackException",
	"DeviceError",
	"ChipStackError",
	"ChipStack",
	]

	ChipStackDLLBaseName = "_ChipDeviceCtrl.so"


	def _singleton(cls):
	instance = [None]

	def wrapper(args, *kwargs):
	if instance[0] is None:
	instance[0] = cls(args, *kwargs)
	return instance[0]

	return wrapper


	class DeviceStatusStruct(Structure):
	_fields_ = [
	("ProfileId", c_uint32),
	("StatusCode", c_uint16),
	("SysErrorCode", c_uint32),
	]


	class LogCategory(object):
	"""Debug logging categories used by chip."""

	# NOTE: These values must correspond to those used in the chip C++ code.
	Disabled = 0
	Error = 1
	Progress = 2
	Detail = 3
	Retain = 4

	@staticmethod
	def categoryToLogLevel(cat):
	if cat == LogCategory.Error:
	return logging.ERROR
	elif cat == LogCategory.Progress:
	return logging.INFO
	elif cat == LogCategory.Detail:
	return logging.DEBUG
	elif cat == LogCategory.Retain:
	return logging.CRITICAL
	else:
	return logging.NOTSET


	class ChipLogFormatter(logging.Formatter):
	"""A custom logging.Formatter for logging chip library messages."""

	def __init__(
	self,
	datefmt=None,
	logModulePrefix=False,
	logLevel=False,
	logTimestamp=False,
	logMSecs=True,
	):
	fmt = "%(message)s"
	if logModulePrefix:
	fmt = "CHIP:%(chip-module)s: " + fmt
	if logLevel:
	fmt = "%(levelname)s:" + fmt
	if datefmt is not None or logTimestamp:
	fmt = "%(asctime)s " + fmt
	super(ChipLogFormatter, self).__init__(fmt=fmt, datefmt=datefmt)
	self.logMSecs = logMSecs

	def formatTime(self, record, datefmt=None):
	if datefmt is None:
	timestampStr = time.strftime("%Y-%m-%d %H:%M:%S%z")
	if self.logMSecs:
	timestampUS = record.__dict__.get("timestamp-usec", 0)
	timestampStr = "%s.%03ld" % (timestampStr, timestampUS / 1000)
	return timestampStr


	class AsyncCallableHandle:
	def __init__(self, callback):
	self._callback = callback
	self._res = None
	self._exc = None
	self._finish = False
	self._cv_lock = Lock()
	self._cv = Condition(self._cv_lock)

	def __call__(self):
	with self._cv_lock:
	try:
	self._res = self._callback()
	except Exception as ex:
	self._exc = ex
	self._finish = True
	self._cv.notify_all()
	pythonapi.Py_DecRef(py_object(self))

	def Wait(self, timeoutMs: int = None):
	timeout = None
	if timeoutMs is not None:
	timeout = float(timeoutMs) / 1000

	with self._cv:
	while self._finish is False:
	res = self._cv.wait(timeout)
	if res is False:
	raise TimeoutError("Timed out waiting for task to finish executing on the Matter thread")

	if self._exc is not None:
	raise self._exc
	return self._res


	_CompleteFunct = CFUNCTYPE(None, c_void_p, c_void_p)
	_ErrorFunct = CFUNCTYPE(None, c_void_p, c_void_p,
	c_ulong, POINTER(DeviceStatusStruct))
	_LogMessageFunct = CFUNCTYPE(
	None, c_int64, c_int64, c_char_p, c_uint8, c_char_p)
	_ChipThreadTaskRunnerFunct = CFUNCTYPE(None, py_object)


	@_singleton
	class ChipStack(object):
	def __init__(self, persistentStoragePath: str, installDefaultLogHandler=True, bluetoothAdapter=None, enableServerInteractions=True):
	builtins.enableDebugMode = False

	self.networkLock = Lock()
	self.completeEvent = Event()
	self.commissioningCompleteEvent = Event()
	self._ChipStackLib = None
	self._chipDLLPath = None
	self.devMgr = None
	self.callbackRes = None
	self.commissioningEventRes = None
	self.openCommissioningWindowPincode = {}
	self._activeLogFunct = None
	self.addModulePrefixToLogMessage = True
	self._enableServerInteractions = enableServerInteractions

	#
	# Locate and load the chip shared library.
	# This also implictly does a minimal stack initialization (i.e call MemoryInit).
	#
	self._loadLib()

	# Arrange to log output from the chip library to a python logger object with the
	# name 'chip.ChipStack'. If desired, applications can override this behavior by
	# setting self.logger to a different python logger object, or by calling setLogFunct()
	# with their own logging function.
	self.logger = logging.getLogger(__name__)
	self.setLogFunct(self.defaultLogFunct)

	# Determine if there are already handlers installed for the logger. Python 3.5+
	# has a method for this; on older versions the check has to be done manually.
	if hasattr(self.logger, "hasHandlers"):
	hasHandlers = self.logger.hasHandlers()
	else:
	hasHandlers = False
	logger = self.logger
	while logger is not None:
	if len(logger.handlers) > 0:
	hasHandlers = True
	break
	if not logger.propagate:
	break
	logger = logger.parent

	# If a logging handler has not already been initialized for 'chip.ChipStack',
	# or any one of its parent loggers, automatically configure a handler to log to
	# stdout. This maintains compatibility with a number of applications which expect
	# chip log output to go to stdout by default.
	#
	# This behavior can be overridden in a variety of ways:
	# - Initialize a different log handler before ChipStack is initialized.
	# - Pass installDefaultLogHandler=False when initializing ChipStack.
	# - Replace the StreamHandler on self.logger with a different handler object.
	# - Set a different Formatter object on the existing StreamHandler object.
	# - Reconfigure the existing ChipLogFormatter object.
	# - Configure chip to call an application-specific logging function by
	# calling self.setLogFunct().
	# - Call self.setLogFunct(None), which will configure the chip library
	# to log directly to stdout, bypassing python altogether.
	#
	if installDefaultLogHandler and not hasHandlers:
	logHandler = logging.StreamHandler(stream=sys.stdout)
	logHandler.setFormatter(ChipLogFormatter())
	self.logger.addHandler(logHandler)
	self.logger.setLevel(logging.DEBUG)

	def HandleComplete(appState, reqState):
	self.callbackRes = True
	self.completeEvent.set()

	def HandleError(appState, reqState, err, devStatusPtr):
	self.callbackRes = self.ErrorToException(err, devStatusPtr)
	self.completeEvent.set()

	@_ChipThreadTaskRunnerFunct
	def HandleChipThreadRun(callback):
	callback()

	self.cbHandleChipThreadRun = HandleChipThreadRun
	self.cbHandleComplete = _CompleteFunct(HandleComplete)
	self.cbHandleError = _ErrorFunct(HandleError)
	# set by other modules(BLE) that require service by thread while thread blocks.
	self.blockingCB = None

	#
	# Storage has to be initialized BEFORE initializing the stack, since the latter
	# requires a PersistentStorageDelegate to be provided to DeviceControllerFactory.
	#
	self._persistentStorage = PersistentStorage(persistentStoragePath)

	# Initialize the chip stack.
	res = self._ChipStackLib.pychip_DeviceController_StackInit(
	self._persistentStorage.GetSdkStorageObject(), enableServerInteractions)
	res.raise_on_error()

	im.InitIMDelegate()
	ClusterAttribute.Init()
	ClusterCommand.Init()

	builtins.chipStack = self

	def GetStorageManager(self):
	return self._persistentStorage

	@property
	def enableServerInteractions(self):
	return self._enableServerInteractions

	@property
	def defaultLogFunct(self):
	"""Returns a python callable which, when called, logs a message to the python logger object
	currently associated with the ChipStack object.
	The returned function is suitable for passing to the setLogFunct() method."""

	def logFunct(timestamp, timestampUSec, moduleName, logCat, message):
	moduleName = ChipUtility.CStringToString(moduleName)
	message = ChipUtility.CStringToString(message)
	if self.addModulePrefixToLogMessage:
	message = "CHIP:%s: %s" % (moduleName, message)
	logLevel = LogCategory.categoryToLogLevel(logCat)
	msgAttrs = {
	"chip-module": moduleName,
	"timestamp": timestamp,
	"timestamp-usec": timestampUSec,
	}
	self.logger.log(logLevel, message, extra=msgAttrs)

	return logFunct

	def setLogFunct(self, logFunct):
	"""Set the function used by the chip library to log messages.
	The supplied object must be a python callable that accepts the following
	arguments:
	timestamp (integer)
	timestampUS (integer)
	module name (encoded UTF-8 string)
	log category (integer)
	message (encoded UTF-8 string)
	Specifying None configures the chip library to log directly to stdout."""
	if logFunct is None:
	logFunct = 0
	if not isinstance(logFunct, _LogMessageFunct):
	logFunct = _LogMessageFunct(logFunct)
	with self.networkLock:
	# NOTE: ChipStack must hold a reference to the CFUNCTYPE object while it is
	# set. Otherwise it may get garbage collected, and logging calls from the
	# chip library will fail.
	self._activeLogFunct = logFunct
	self._ChipStackLib.pychip_Stack_SetLogFunct(logFunct)

	def Shutdown(self):
	#
	# Terminate Matter thread and shutdown the stack.
	#
	self._ChipStackLib.pychip_DeviceController_StackShutdown()

	#
	# We only shutdown the persistent storage layer AFTER we've shut down the stack,
	# since there is a possibility of interactions with the storage layer during shutdown.
	#
	self._persistentStorage.Shutdown()
	self._persistentStorage = None

	#
	# Stack init happens in native, but shutdown happens here unfortunately.
	# #20437 tracks consolidating these.
	#
	self._ChipStackLib.pychip_CommonStackShutdown()
	self.networkLock = None
	self.completeEvent = None
	self._ChipStackLib = None
	self._chipDLLPath = None
	self.devMgr = None
	self.callbackRes = None

	delattr(builtins, "chipStack")

	def Call(self, callFunct, timeoutMs: int = None):
	'''Run a Python function on CHIP stack, and wait for the response.
	This function is a wrapper of PostTaskOnChipThread, which includes some handling of application specific logics.
	Calling this function on CHIP on CHIP mainloop thread will cause deadlock.
	'''
	# throw error if op in progress
	self.callbackRes = None
	self.completeEvent.clear()
	with self.networkLock:
	res = self.PostTaskOnChipThread(callFunct).Wait(timeoutMs)
	self.completeEvent.set()
	if res == 0 and self.callbackRes != None:
	return self.callbackRes
	return res

	def CallAsync(self, callFunct):
	'''Run a Python function on CHIP stack, and wait for the application specific response.
	This function is a wrapper of PostTaskOnChipThread, which includes some handling of application specific logics.
	Calling this function on CHIP on CHIP mainloop thread will cause deadlock.
	'''
	# throw error if op in progress
	self.callbackRes = None
	self.completeEvent.clear()
	with self.networkLock:
	res = self.PostTaskOnChipThread(callFunct).Wait()

	if not res.is_success:
	self.completeEvent.set()
	raise res.to_exception()
	while not self.completeEvent.isSet():
	if self.blockingCB:
	self.blockingCB()

	self.completeEvent.wait(0.05)
	if isinstance(self.callbackRes, ChipStackException):
	raise self.callbackRes
	return self.callbackRes

	def PostTaskOnChipThread(self, callFunct) -> AsyncCallableHandle:
	'''Run a Python function on CHIP stack, and wait for the response.
	This function will post a task on CHIP mainloop, and return an object with Wait() method for getting the result.
	Calling Wait inside main loop will cause deadlock.
	'''
	callObj = AsyncCallableHandle(callFunct)
	pythonapi.Py_IncRef(py_object(callObj))
	res = self._ChipStackLib.pychip_DeviceController_PostTaskOnChipThread(
	self.cbHandleChipThreadRun, py_object(callObj))
	if not res.is_success:
	pythonapi.Py_DecRef(py_object(callObj))
	raise res.to_exception()
	return callObj

	def ErrorToException(self, err, devStatusPtr=None):
	if err == 0x2C and devStatusPtr:
	devStatus = devStatusPtr.contents
	msg = ChipUtility.CStringToString(
	(
	self._ChipStackLib.pychip_Stack_StatusReportToString(
	devStatus.ProfileId, devStatus.StatusCode
	)
	)
	)
	sysErrorCode = (
	devStatus.SysErrorCode if (
	devStatus.SysErrorCode != 0) else None
	)
	if sysErrorCode != None:
	msg = msg + " (system err %d)" % (sysErrorCode)
	return DeviceError(
	devStatus.ProfileId, devStatus.StatusCode, sysErrorCode, msg
	)
	else:
	return ChipStackError(
	err,
	ChipUtility.CStringToString(
	(self._ChipStackLib.pychip_Stack_ErrorToString(err))
	),
	)

	def LocateChipDLL(self):
	self._loadLib()
	return self._chipDLLPath

	# ----- Private Members -----
	def _AllDirsToRoot(self, dir):
	dir = os.path.abspath(dir)
	while True:
	yield dir
	parent = os.path.dirname(dir)
	if parent == "" or parent == dir:
	break
	dir = parent

	def _loadLib(self):
	if self._ChipStackLib is None:
	self._ChipStackLib = chip.native.GetLibraryHandle()
	self._chipDLLPath = chip.native.FindNativeLibraryPath()

	self._ChipStackLib.pychip_DeviceController_StackInit.argtypes = [c_void_p, c_bool]
	self._ChipStackLib.pychip_DeviceController_StackInit.restype = PyChipError
	self._ChipStackLib.pychip_DeviceController_StackShutdown.argtypes = []
	self._ChipStackLib.pychip_DeviceController_StackShutdown.restype = PyChipError
	self._ChipStackLib.pychip_Stack_StatusReportToString.argtypes = [
	c_uint32,
	c_uint16,
	]
	self._ChipStackLib.pychip_Stack_StatusReportToString.restype = c_char_p
	self._ChipStackLib.pychip_Stack_ErrorToString.argtypes = [c_uint32]
	self._ChipStackLib.pychip_Stack_ErrorToString.restype = c_char_p
	self._ChipStackLib.pychip_Stack_SetLogFunct.argtypes = [
	_LogMessageFunct]
	self._ChipStackLib.pychip_Stack_SetLogFunct.restype = PyChipError

	self._ChipStackLib.pychip_DeviceController_PostTaskOnChipThread.argtypes = [
	_ChipThreadTaskRunnerFunct, py_object]
	self._ChipStackLib.pychip_DeviceController_PostTaskOnChipThread.restype = PyChipError