blob: 111274c884a8dd873a32ca0b5a252bec4b164407 [file] [log] [blame]
#
# 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 enum
import typing
from dataclasses import asdict, dataclass, field, make_dataclass
from typing import Any, ClassVar, Dict, List, Mapping, Union
from chip import ChipUtility, tlv
from chip.clusters.Types import Nullable, NullValue
from dacite import from_dict
def GetUnionUnderlyingType(typeToCheck, matchingType=None):
''' This retrieves the underlying types behind a unioned type by appropriately
passing in the required matching type in the matchingType input argument.
If that is 'None' (not to be confused with NoneType), then it will retrieve
the 'real' type behind the union, i.e not Nullable && not None
'''
if (not (typing.get_origin(typeToCheck) == typing.Union)):
return None
for t in typing.get_args(typeToCheck):
if (matchingType is None):
# Comparison below explicitly not using 'isinstance' as that doesn't do what we want.
# type_none is simple hack for Flake8 E721
type_none = type(None)
if (t != type_none and t != Nullable):
return t
else:
if (t == matchingType):
return t
return None
@dataclass
class ClusterObjectFieldDescriptor:
Label: str = ''
Tag: int = None
Type: type = None
def _PutSingleElementToTLV(self, tag, val, elementType, writer: tlv.TLVWriter, debugPath: str = '?'):
if issubclass(elementType, ClusterObject):
if not isinstance(val, dict):
raise ValueError(
f"Field {debugPath}.{self.Label} expected a struct, but got {type(val)}")
elementType.descriptor.DictToTLVWithWriter(
f'{debugPath}.{self.Label}', tag, val, writer)
return
try:
val = elementType(val)
except Exception:
raise ValueError(
f"Field {debugPath}.{self.Label} expected {elementType}, but got {type(val)}")
writer.put(tag, val)
def PutFieldToTLV(self, tag, val, writer: tlv.TLVWriter, debugPath: str = '?'):
if (val == NullValue):
if (GetUnionUnderlyingType(self.Type, Nullable) is None):
raise ValueError(
f"Field {debugPath}.{self.Label} was not nullable, but got a null")
writer.put(tag, None)
elif (val is None):
if (GetUnionUnderlyingType(self.Type, type(None)) is None):
raise ValueError(
f"Field {debugPath}.{self.Label} was not optional, but encountered None")
else:
#
# If it is an optional or nullable type, it's going to be a union.
# So, let's get at the 'real' type within that union before proceeding,
# since at this point, we're guarenteed to not get None or Null as values.
#
elementType = GetUnionUnderlyingType(self.Type)
if (elementType is None):
elementType = self.Type
if not isinstance(val, List):
self._PutSingleElementToTLV(
tag, val, elementType, writer, debugPath)
return
writer.startArray(tag)
# Get the type of the list. This is a generic, which has its sub-type information of the list element
# inside its type argument.
(elementType, ) = typing.get_args(elementType)
for i, v in enumerate(val):
self._PutSingleElementToTLV(
None, v, elementType, writer, debugPath + f'[{i}]')
writer.endContainer()
@dataclass
class ClusterObjectDescriptor:
Fields: List[ClusterObjectFieldDescriptor]
def GetFieldByTag(self, tag: int) -> ClusterObjectFieldDescriptor:
for _field in self.Fields:
if _field.Tag == tag:
return _field
return None
def GetFieldByLabel(self, label: str) -> ClusterObjectFieldDescriptor:
for _field in self.Fields:
if _field.Label == label:
return _field
return None
def _ConvertNonArray(self, debugPath: str, elementType, value: Any) -> Any:
if not issubclass(elementType, ClusterObject):
if (issubclass(elementType, enum.Enum)):
value = elementType(value)
if not isinstance(value, elementType):
raise ValueError(
f"Failed to decode field {debugPath}, expected type {elementType}, got {type(value)}")
return value
if not isinstance(value, Mapping):
raise ValueError(
f"Failed to decode field {debugPath}, struct expected.")
return elementType.descriptor.TagDictToLabelDict(debugPath, value)
def TagDictToLabelDict(self, debugPath: str, tlvData: Dict[int, Any]) -> Dict[str, Any]:
ret = {}
for tag, value in tlvData.items():
descriptor = self.GetFieldByTag(tag)
if not descriptor:
# We do not have enough information for this field.
ret[tag] = value
continue
if (value is None):
ret[descriptor.Label] = NullValue
continue
if (typing.get_origin(descriptor.Type) == typing.Union):
realType = GetUnionUnderlyingType(descriptor.Type)
if (realType is None):
raise ValueError(
f"Field {debugPath}.{self.Label} has no valid underlying data model type")
valueType = realType
else:
valueType = descriptor.Type
if (typing.get_origin(valueType) == list):
listElementType = typing.get_args(valueType)[0]
ret[descriptor.Label] = [
self._ConvertNonArray(
f'{debugPath}[{i}]', listElementType, v)
for i, v in enumerate(value)]
continue
ret[descriptor.Label] = self._ConvertNonArray(
f'{debugPath}.{descriptor.Label}', valueType, value)
return ret
def TLVToDict(self, tlvBuf: bytes) -> Dict[str, Any]:
tlvData = tlv.TLVReader(tlvBuf).get().get('Any', {})
return self.TagDictToLabelDict([], tlvData)
def DictToTLVWithWriter(self, debugPath: str, tag, data: Mapping, writer: tlv.TLVWriter):
writer.startStructure(tag)
for _field in self.Fields:
val = data.get(_field.Label, None)
_field.PutFieldToTLV(_field.Tag, val, writer, debugPath + f'.{_field.Label}')
writer.endContainer()
def DictToTLV(self, data: dict) -> bytes:
tlvwriter = tlv.TLVWriter(bytearray())
self.DictToTLVWithWriter('', None, data, tlvwriter)
return bytes(tlvwriter.encoding)
class ClusterObject:
def ToTLV(self):
return self.descriptor.DictToTLV(asdict(self))
@classmethod
def FromDict(cls, data: dict):
return from_dict(data_class=cls, data=data)
@classmethod
def FromTLV(cls, data: bytes):
return cls.FromDict(data=cls.descriptor.TLVToDict(data))
@ChipUtility.classproperty
def descriptor(cls):
raise NotImplementedError()
# The below dictionaries will be filled dynamically
# and are used for quick lookup/mapping from cluster/attribute id to the correct class
ALL_CLUSTERS = {}
ALL_ATTRIBUTES = {}
# These need to be separate because there can be overlap in command ids for commands and responses.
ALL_ACCEPTED_COMMANDS = {}
ALL_GENERATED_COMMANDS = {}
class ClusterCommand(ClusterObject):
def __init_subclass__(cls, *args, **kwargs) -> None:
"""Register a subclass."""
super().__init_subclass__(*args, **kwargs)
try:
if cls.is_client:
if cls.cluster_id not in ALL_ACCEPTED_COMMANDS:
ALL_ACCEPTED_COMMANDS[cls.cluster_id] = {}
ALL_ACCEPTED_COMMANDS[cls.cluster_id][cls.command_id] = cls
else:
if cls.cluster_id not in ALL_GENERATED_COMMANDS:
ALL_GENERATED_COMMANDS[cls.cluster_id] = {}
ALL_GENERATED_COMMANDS[cls.cluster_id][cls.command_id] = cls
except NotImplementedError:
# handle case where the ClusterAttribute class is not (fully) subclassed
# and accessing the id property throws a NotImplementedError.
pass
@ChipUtility.classproperty
def cluster_id(self) -> int:
raise NotImplementedError()
@ChipUtility.classproperty
def command_id(self) -> int:
raise NotImplementedError()
@ChipUtility.classproperty
def must_use_timed_invoke(cls) -> bool:
return False
class Cluster(ClusterObject):
'''
When send read requests with returnClusterObject=True, we will set the data_version property of the object.
Otherwise the [endpoint][cluster][Clusters.DataVersion] will be set to the DataVersion of the cluster.
For data_version, we do not make it a real property so we can distinguish it with real attributes internally,
especially the TLV decoding logic. Also ThreadNetworkDiagnostics has an attribute with the same name so we
picked data_version as its name.
'''
def __init_subclass__(cls, *args, **kwargs) -> None:
"""Register a subclass."""
super().__init_subclass__(*args, **kwargs)
# register this cluster in the ALL_CLUSTERS dict for quick lookups
try:
ALL_CLUSTERS[cls.id] = cls
except NotImplementedError:
# handle case where the Cluster class is not (fully) subclassed
# and accessing the id property throws a NotImplementedError.
pass
@property
def data_version(self) -> int:
return self._data_version
def __rich_repr__(self):
'''
Override the default behavior of rich.pretty.pprint for adding the cluster data version.
'''
if self._data_version is not None:
yield "(data version)", self.data_version
for k in self.__dataclass_fields__.keys():
if k in self.__dict__:
yield k, self.__dict__[k]
def SetDataVersion(self, version: int) -> None:
self._data_version = version
class ClusterAttributeDescriptor:
'''
The ClusterAttributeDescriptor is used for holding an attribute's metadata like its cluster id, attribute id and its type.
Users should not initialize an object based on this class. Instead, users should pass
the subclass objects to tell some methods what they want.
The implementation of this functions is quite tricky, it will create a cluster object on-the-fly,
and use it for actual encode / decode routine to save lines of code.
'''
def __init_subclass__(cls, *args, **kwargs) -> None:
"""Register a subclass."""
super().__init_subclass__(*args, **kwargs)
try:
if cls.standard_attribute and cls.cluster_id not in ALL_ATTRIBUTES:
ALL_ATTRIBUTES[cls.cluster_id] = {}
# register this clusterattribute in the ALL_ATTRIBUTES dict for quick lookups
ALL_ATTRIBUTES[cls.cluster_id][cls.attribute_id] = cls
except NotImplementedError:
# handle case where the ClusterAttribute class is not (fully) subclassed
# and accessing the id property throws a NotImplementedError.
pass
@classmethod
def ToTLV(cls, tag: Union[int, None], value):
writer = tlv.TLVWriter()
wrapped_value = cls._cluster_object(Value=value)
cls.attribute_type.PutFieldToTLV(tag,
asdict(wrapped_value)['Value'], writer, '')
return writer.encoding
@classmethod
def FromTLV(cls, tlvBuffer: bytes):
obj_class = cls._cluster_object
return obj_class.FromDict(
obj_class.descriptor.TagDictToLabelDict('', {0: tlv.TLVReader(tlvBuffer).get().get('Any', {})})).Value
@classmethod
def FromTagDictOrRawValue(cls, val: Any):
obj_class = cls._cluster_object
return obj_class.FromDict(obj_class.descriptor.TagDictToLabelDict('', {0: val})).Value
@ChipUtility.classproperty
def cluster_id(self) -> int:
raise NotImplementedError()
@ChipUtility.classproperty
def attribute_id(self) -> int:
raise NotImplementedError()
@ChipUtility.classproperty
def attribute_type(cls) -> ClusterObjectFieldDescriptor:
raise NotImplementedError()
@ChipUtility.classproperty
def must_use_timed_write(cls) -> bool:
return False
@ChipUtility.classproperty
def standard_attribute(cls) -> bool:
return True
@ChipUtility.classproperty
def _cluster_object(cls) -> ClusterObject:
return make_dataclass('InternalClass',
[
('Value', cls.attribute_type.Type,
field(default=None)),
('descriptor', ClassVar[ClusterObjectDescriptor],
field(
default=ClusterObjectDescriptor(
Fields=[ClusterObjectFieldDescriptor(
Label='Value', Tag=0, Type=cls.attribute_type.Type)]
)
)
)
],
bases=(ClusterObject,))
class ClusterEvent(ClusterObject):
@ChipUtility.classproperty
def cluster_id(self) -> int:
raise NotImplementedError()
@ChipUtility.classproperty
def event_id(self) -> int:
raise NotImplementedError()