blob: ad7939df3453240ffe77337d3daf37477a83ff69 [file] [log] [blame]
#
# 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.
#
import math
import chip.clusters as Clusters
from basic_composition_support import BasicCompositionTests
from global_attribute_ids import GlobalAttributeIds
from matter_testing_support import (AttributePathLocation, ClusterPathLocation, CommandPathLocation, FeaturePathLocation,
MatterBaseTest, TestStep, async_test_body, default_matter_test_main)
from mobly import asserts
from spec_parsing_support import build_xml_clusters
def attribute_pics(pics_base: str, id: int) -> str:
return f'{pics_base}.S.A{id:04x}'
def accepted_cmd_pics(pics_base: str, id: int) -> str:
return f'{pics_base}.S.C{id:02x}.Rsp'
def generated_cmd_pics(pics_base: str, id: int) -> str:
return f'{pics_base}.S.C{id:02x}.Tx'
def feature_pics(pics_base: str, bit: int) -> str:
return f'{pics_base}.S.F{bit:02x}'
class TC_PICS_Checker(MatterBaseTest, BasicCompositionTests):
@async_test_body
async def setup_class(self):
super().setup_class()
await self.setup_class_helper(False)
# build_xml_cluster returns a list of issues found when paring the XML
# Problems in the XML shouldn't cause test failure, but we want them recorded
# so they are added to the list of problems that get output when the test set completes.
self.xml_clusters, self.problems = build_xml_clusters()
def _check_and_record_errors(self, location, required, pics):
if required and not self.check_pics(pics):
self.record_error("PICS check", location=location,
problem=f"An element found on the device, but the corresponding PICS {pics} was not found in pics list")
self.success = False
elif not required and self.check_pics(pics):
self.record_error("PICS check", location=location, problem=f"PICS {pics} found in PICS list, but not on device")
self.success = False
def _add_pics_for_lists(self, cluster_id: int, attribute_id_of_element_list: GlobalAttributeIds) -> None:
try:
if attribute_id_of_element_list == GlobalAttributeIds.ATTRIBUTE_LIST_ID:
all_spec_elements_to_check = Clusters.ClusterObjects.ALL_ATTRIBUTES[cluster_id]
pics_mapper = attribute_pics
elif attribute_id_of_element_list == GlobalAttributeIds.ACCEPTED_COMMAND_LIST_ID:
all_spec_elements_to_check = Clusters.ClusterObjects.ALL_ACCEPTED_COMMANDS[cluster_id]
pics_mapper = accepted_cmd_pics
elif attribute_id_of_element_list == GlobalAttributeIds.GENERATED_COMMAND_LIST_ID:
all_spec_elements_to_check = Clusters.ClusterObjects.ALL_GENERATED_COMMANDS[cluster_id]
pics_mapper = generated_cmd_pics
else:
asserts.fail("add_pics_for_list function called for non-list attribute")
except KeyError:
# This cluster does not have any of this element type
return
for element_id in all_spec_elements_to_check:
if element_id > 0xF000:
# No pics for global elements
continue
pics = pics_mapper(self.xml_clusters[cluster_id].pics, element_id)
if cluster_id not in self.endpoint.keys():
# This cluster is not on this endpoint
required = False
elif element_id in self.endpoint[cluster_id][attribute_id_of_element_list]:
# Cluster and element are on the endpoint
required = True
else:
# Cluster is on the endpoint but the element is not in the list
required = False
if attribute_id_of_element_list == GlobalAttributeIds.ATTRIBUTE_LIST_ID:
location = AttributePathLocation(endpoint_id=self.endpoint_id, cluster_id=cluster_id, attribute_id=element_id)
else:
location = CommandPathLocation(endpoint_id=self.endpoint_id, cluster_id=cluster_id, command_id=element_id)
self._check_and_record_errors(location, required, pics)
def steps_TC_IDM_10_4(self):
return [TestStep(1, "TH performs a wildcard read of all attributes on the endpoint under test"),
TestStep(2, "For every standard cluster: If the cluster is present on the endpoint, ensure the server-side PICS code for the cluster is present in the PICS file (e.g. OO.S for On/Off cluster).If the cluster is not present on the endpoint, ensure the cluster server PICS code is not present in the PICS file."),
TestStep(3, "For every standard cluster, for every attribute in the cluster:If the cluster is present on the endpoint and the attribute ID is present in the AttributeList global attribute within the cluster, ensure the server-side PICS code for the attribute is present in the PICS file (e.g. OO.S.A000 for On/Off cluster’s OnOff attribute).Otherwise, ensure the attribute PICS code is NOT present in the PICS file."),
TestStep(4, "For every cluster present in the spec, for every client → server command in the cluster: If the cluster is present on the endpoint and the command id is present in the accepted commands list, ensure the PICS code for the accepted command is present in the PICS file. Otherwise, ensure the accepted command PICS code is not present in the PICS file."),
TestStep(5, "For every cluster present in the spec, for every server → client command in the cluster: If the cluster is present on the endpoint and the command id is present in the generated commands list, ensure the PICS code for the generated command is present in the PICS file. Otherwise, ensure the generated command PICS code is not present in the PICS file."),
TestStep(6, "For every cluster present in the spec, for every feature in the cluster: If the cluster is present on the endpoint and the feature is marked in the feature map, ensure the PICS code for the feature is present in the PICS file. Otherwise, ensure the feature PICS code is not present in the PICS file.")]
def test_TC_IDM_10_4(self):
# wildcard read is done in setup_class
self.step(1)
self.endpoint_id = self.matter_test_config.endpoint
self.endpoint = self.endpoints_tlv[self.endpoint_id]
self.success = True
# Data model XML is used to get the PICS code for this cluster. If we don't know the PICS
# code, we can't evaluate the PICS list. Clusters that are present on the device but are
# not present in the spec are checked in the IDM tests.
checkable_clusters = {cluster_id: cluster for cluster_id, cluster in Clusters.ClusterObjects.ALL_CLUSTERS.items(
) if cluster_id in self.xml_clusters and self.xml_clusters[cluster_id].pics is not None}
self.step(2)
for cluster_id, cluster in checkable_clusters.items():
# Ensure the PICS.S code is correctly marked
pics_cluster = f'{self.xml_clusters[cluster_id].pics}.S'
location = ClusterPathLocation(endpoint_id=self.endpoint_id, cluster_id=cluster_id)
self._check_and_record_errors(location, cluster_id in self.endpoint, pics_cluster)
self.step(3)
for cluster_id, cluster in checkable_clusters.items():
self._add_pics_for_lists(cluster_id, GlobalAttributeIds.ATTRIBUTE_LIST_ID)
self.step(4)
for cluster_id, cluster in checkable_clusters.items():
self._add_pics_for_lists(cluster_id, GlobalAttributeIds.ACCEPTED_COMMAND_LIST_ID)
self.step(5)
for cluster_id, cluster in checkable_clusters.items():
self._add_pics_for_lists(cluster_id, GlobalAttributeIds.GENERATED_COMMAND_LIST_ID)
self.step(6)
for cluster_id, cluster in checkable_clusters.items():
try:
cluster_features = cluster.Bitmaps.Feature
except AttributeError:
# cluster has no features
continue
pics_base = self.xml_clusters[cluster_id].pics
try:
feature_map = self.endpoint[cluster_id][GlobalAttributeIds.FEATURE_MAP_ID]
except KeyError:
feature_map = 0
for feature_mask in cluster_features:
# Codegen in python uses feature masks (0x01, 0x02, 0x04 etc.)
# PICS uses the mask bit number (1, 2, 3)
# Convert the mask to a bit number so we can check the PICS.
try:
feature_bit = int(math.log2(feature_mask))
except ValueError:
location = FeaturePathLocation(endpoint_id=self.endpoint_id,
cluster_id=cluster_id, feature_code=str(feature_mask))
# The feature_mask is from the code generated feature masks, not the features as listed on the
# device. If we get an error here, this is a problem with the codegen or spec, not with the device
# under test. We still want the problem recorded, but this does not indicate a problem on the DUT.
# There are two clusters with known bad features here - RvcRunMode and RvcCleanMode both have a
# feature mask of kNoFeatures and an empty "mask" of 0x0.
self.record_warning("PICS check", location=location,
problem=f"Unable to parse feature mask {feature_mask} from cluster {cluster}")
continue
pics = feature_pics(pics_base, feature_bit)
if feature_mask & feature_map:
required = True
else:
required = False
try:
location = FeaturePathLocation(endpoint_id=self.endpoint_id, cluster_id=cluster_id,
feature_code=self.xml_clusters[cluster_id].features[feature_mask].code)
except KeyError:
location = ClusterPathLocation(endpoint_id=self.endpoint_id, cluster_id=cluster_id)
self._check_and_record_errors(location, required, pics)
if not self.success:
self.fail_current_test("At least one PICS error was found for this endpoint")
if __name__ == "__main__":
default_matter_test_main()