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#
# Copyright (c) 2023 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.
#
from dataclasses import dataclass, field
from chip.tlv import uint
from conformance_support import ConformanceDecision
from global_attribute_ids import GlobalAttributeIds
from matter_testing_support import MatterBaseTest, async_test_body, default_matter_test_main
from TC_DeviceConformance import DeviceConformanceTests
@dataclass
class ClusterMinimalElements:
feature_masks: list[uint] = field(default_factory=list)
attribute_ids: list[uint] = field(default_factory=list)
# Only received commands are necessary - generated events are ALWAYS determined from accepted
command_ids: list[uint] = field(default_factory=list)
# TODO: need event support
class MinimalRepresentationChecker(DeviceConformanceTests):
def GenerateMinimals(self, ignore_in_progress: bool, is_ci: bool) -> dict[uint, dict[uint, ClusterMinimalElements]]:
if not self.xml_clusters:
self.setup_class_helper()
success, _ = self.check_conformance(ignore_in_progress, is_ci)
if not success:
self.fail_current_test("Problems with conformance")
# Now what we know the conformance is OK, we want to expose all the data model elements on the device
# that are OPTIONAL given the other elements that are present. We can do this by assessing the conformance
# again only on the elements we have. Because we've already run the full conformance checkers, we can rely
# on the optional response really meaning optional.
# TODO: do we also want to record the optional stuff that's NOT implemented?
# endpoint -> list of clusters by id
representation: dict[uint, dict[uint, ClusterMinimalElements]] = {}
for endpoint_id, endpoint in self.endpoints_tlv.items():
representation[endpoint_id] = {}
for cluster_id, cluster in endpoint.items():
minimal = ClusterMinimalElements()
if cluster_id not in self.xml_clusters.keys():
continue
feature_map = cluster[GlobalAttributeIds.FEATURE_MAP_ID]
attribute_list = cluster[GlobalAttributeIds.ATTRIBUTE_LIST_ID]
all_command_list = cluster[GlobalAttributeIds.ACCEPTED_COMMAND_LIST_ID] + \
cluster[GlobalAttributeIds.GENERATED_COMMAND_LIST_ID]
accepted_command_list = cluster[GlobalAttributeIds.ACCEPTED_COMMAND_LIST_ID]
# All optional features
feature_masks = [1 << i for i in range(32) if feature_map & (1 << i)]
for f in feature_masks:
xml_feature = self.xml_clusters[cluster_id].features[f]
conformance_decision = xml_feature.conformance(feature_map, attribute_list, all_command_list)
if conformance_decision == ConformanceDecision.OPTIONAL:
minimal.feature_masks.append(f)
# All optional attributes
for attribute_id, attribute in cluster.items():
if attribute_id not in self.xml_clusters[cluster_id].attributes.keys():
if attribute_id > 0xFFFF:
# MEI
minimal.attribute_ids.append(attribute_id)
continue
xml_attribute = self.xml_clusters[cluster_id].attributes[attribute_id]
conformance_decision = xml_attribute.conformance(feature_map, attribute_list, all_command_list)
if conformance_decision == ConformanceDecision.OPTIONAL:
minimal.attribute_ids.append(attribute_id)
# All optional commands
for command_id in accepted_command_list:
if command_id not in self.xml_clusters[cluster_id].accepted_commands:
if command_id > 0xFFFF:
# MEI
minimal.attribute_ids.append(command_id)
continue
xml_command = self.xml_clusters[cluster_id].accepted_commands[command_id]
conformance_decision = xml_command.conformance(feature_map, attribute_list, all_command_list)
if conformance_decision == ConformanceDecision.OPTIONAL:
minimal.command_ids.append(command_id)
representation[endpoint_id][cluster_id] = minimal
return representation
def PrettyPrintRepresentation(self, representation: dict[uint, dict[uint, ClusterMinimalElements]]) -> None:
for endpoint_id, cluster_list in representation.items():
print(f'Endpoint: {endpoint_id}')
for cluster_id, minimals in cluster_list.items():
name = self.xml_clusters[cluster_id].name
print(f' Cluster {cluster_id:04x} - {name}')
print(' Features:')
for feature in minimals.feature_masks:
code = self.xml_clusters[cluster_id].features[feature].code
print(f' {feature:02x}: {code}')
print(' Attributes:')
for attribute in minimals.attribute_ids:
name = self.xml_clusters[cluster_id].attributes[attribute].name
print(f' {attribute:02x}: {name}')
print(' Commands:')
for command in minimals.command_ids:
name = self.xml_clusters[cluster_id].accepted_commands[command].name
print(f' {command:02x}: {name}')
# Helper for running this against a test device through the python test framework
class MinimalRunner(MatterBaseTest, MinimalRepresentationChecker):
@async_test_body
async def setup_class(self):
super().setup_class()
await self.setup_class_helper()
def test_MinimalRepresentation(self):
# Before we can generate a minimal representation, we need to make sure that the device is conformant.
# Otherwise, the values we extract aren't fully informative.
ignore_in_progress = self.user_params.get("ignore_in_progress", False)
representation = self.GenerateMinimals(ignore_in_progress, self.is_pics_sdk_ci_only)
print(type(representation[0]))
self.PrettyPrintRepresentation(representation)
if __name__ == "__main__":
default_matter_test_main()