blob: 9a1062c23b40a0bec75a61eab1589212bfc4823f [file] [log] [blame]
/*
*
* Copyright (c) 2022 Project CHIP Authors
*
* 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.
*/
// THIS FILE IS GENERATED BY ZAP
#include <commands/clusters/ComplexArgument.h>
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Globals::Structs::TestGlobalStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TestGlobalStruct.name", "name", value.isMember("name")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("TestGlobalStruct.myBitmap", "myBitmap", value.isMember("myBitmap")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "myBitmap");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.myBitmap, value["myBitmap"]));
valueCopy.removeMember("myBitmap");
if (value.isMember("myEnum"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "myEnum");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.myEnum, value["myEnum"]));
}
valueCopy.removeMember("myEnum");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Globals::Structs::TestGlobalStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.myBitmap);
ComplexArgumentParser::Finalize(request.myEnum);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::detail::Structs::ModeTagStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ModeTagStruct.value", "value", value.isMember("value")));
char labelWithMember[kMaxLabelLength];
if (value.isMember("mfgCode"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "mfgCode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.mfgCode, value["mfgCode"]));
}
valueCopy.removeMember("mfgCode");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "value");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.value, value["value"]));
valueCopy.removeMember("value");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::ModeTagStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.mfgCode);
ComplexArgumentParser::Finalize(request.value);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::detail::Structs::ModeOptionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ModeOptionStruct.label", "label", value.isMember("label")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ModeOptionStruct.mode", "mode", value.isMember("mode")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ModeOptionStruct.modeTags", "modeTags", value.isMember("modeTags")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "label");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.label, value["label"]));
valueCopy.removeMember("label");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "mode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.mode, value["mode"]));
valueCopy.removeMember("mode");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "modeTags");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.modeTags, value["modeTags"]));
valueCopy.removeMember("modeTags");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::ModeOptionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.label);
ComplexArgumentParser::Finalize(request.mode);
ComplexArgumentParser::Finalize(request.modeTags);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::detail::Structs::MeasurementAccuracyRangeStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementAccuracyRangeStruct.rangeMin", "rangeMin",
value.isMember("rangeMin")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementAccuracyRangeStruct.rangeMax", "rangeMax",
value.isMember("rangeMax")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rangeMin");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rangeMin, value["rangeMin"]));
valueCopy.removeMember("rangeMin");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rangeMax");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rangeMax, value["rangeMax"]));
valueCopy.removeMember("rangeMax");
if (value.isMember("percentMax"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "percentMax");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.percentMax, value["percentMax"]));
}
valueCopy.removeMember("percentMax");
if (value.isMember("percentMin"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "percentMin");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.percentMin, value["percentMin"]));
}
valueCopy.removeMember("percentMin");
if (value.isMember("percentTypical"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "percentTypical");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.percentTypical, value["percentTypical"]));
}
valueCopy.removeMember("percentTypical");
if (value.isMember("fixedMax"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fixedMax");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fixedMax, value["fixedMax"]));
}
valueCopy.removeMember("fixedMax");
if (value.isMember("fixedMin"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fixedMin");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fixedMin, value["fixedMin"]));
}
valueCopy.removeMember("fixedMin");
if (value.isMember("fixedTypical"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fixedTypical");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fixedTypical, value["fixedTypical"]));
}
valueCopy.removeMember("fixedTypical");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::MeasurementAccuracyRangeStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.rangeMin);
ComplexArgumentParser::Finalize(request.rangeMax);
ComplexArgumentParser::Finalize(request.percentMax);
ComplexArgumentParser::Finalize(request.percentMin);
ComplexArgumentParser::Finalize(request.percentTypical);
ComplexArgumentParser::Finalize(request.fixedMax);
ComplexArgumentParser::Finalize(request.fixedMin);
ComplexArgumentParser::Finalize(request.fixedTypical);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::detail::Structs::MeasurementAccuracyStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementAccuracyStruct.measurementType", "measurementType",
value.isMember("measurementType")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("MeasurementAccuracyStruct.measured", "measured", value.isMember("measured")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementAccuracyStruct.minMeasuredValue", "minMeasuredValue",
value.isMember("minMeasuredValue")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementAccuracyStruct.maxMeasuredValue", "maxMeasuredValue",
value.isMember("maxMeasuredValue")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementAccuracyStruct.accuracyRanges", "accuracyRanges",
value.isMember("accuracyRanges")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "measurementType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.measurementType, value["measurementType"]));
valueCopy.removeMember("measurementType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "measured");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.measured, value["measured"]));
valueCopy.removeMember("measured");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minMeasuredValue");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minMeasuredValue, value["minMeasuredValue"]));
valueCopy.removeMember("minMeasuredValue");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxMeasuredValue");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maxMeasuredValue, value["maxMeasuredValue"]));
valueCopy.removeMember("maxMeasuredValue");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "accuracyRanges");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.accuracyRanges, value["accuracyRanges"]));
valueCopy.removeMember("accuracyRanges");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::MeasurementAccuracyStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.measurementType);
ComplexArgumentParser::Finalize(request.measured);
ComplexArgumentParser::Finalize(request.minMeasuredValue);
ComplexArgumentParser::Finalize(request.maxMeasuredValue);
ComplexArgumentParser::Finalize(request.accuracyRanges);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Globals::Structs::LocationDescriptorStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LocationDescriptorStruct.locationName", "locationName",
value.isMember("locationName")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LocationDescriptorStruct.floorNumber", "floorNumber",
value.isMember("floorNumber")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LocationDescriptorStruct.areaType", "areaType", value.isMember("areaType")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "locationName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.locationName, value["locationName"]));
valueCopy.removeMember("locationName");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "floorNumber");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.floorNumber, value["floorNumber"]));
valueCopy.removeMember("floorNumber");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "areaType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.areaType, value["areaType"]));
valueCopy.removeMember("areaType");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Globals::Structs::LocationDescriptorStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.locationName);
ComplexArgumentParser::Finalize(request.floorNumber);
ComplexArgumentParser::Finalize(request.areaType);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::detail::Structs::DeviceTypeStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("DeviceTypeStruct.deviceType", "deviceType", value.isMember("deviceType")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("DeviceTypeStruct.revision", "revision", value.isMember("revision")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "deviceType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.deviceType, value["deviceType"]));
valueCopy.removeMember("deviceType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "revision");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.revision, value["revision"]));
valueCopy.removeMember("revision");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::DeviceTypeStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.deviceType);
ComplexArgumentParser::Finalize(request.revision);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::detail::Structs::ApplicationStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ApplicationStruct.catalogVendorID", "catalogVendorID",
value.isMember("catalogVendorID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ApplicationStruct.applicationID", "applicationID",
value.isMember("applicationID")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "catalogVendorID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.catalogVendorID, value["catalogVendorID"]));
valueCopy.removeMember("catalogVendorID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "applicationID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.applicationID, value["applicationID"]));
valueCopy.removeMember("applicationID");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::ApplicationStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.catalogVendorID);
ComplexArgumentParser::Finalize(request.applicationID);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Globals::Structs::AtomicAttributeStatusStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AtomicAttributeStatusStruct.attributeID", "attributeID",
value.isMember("attributeID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AtomicAttributeStatusStruct.statusCode", "statusCode",
value.isMember("statusCode")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "attributeID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.attributeID, value["attributeID"]));
valueCopy.removeMember("attributeID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "statusCode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.statusCode, value["statusCode"]));
valueCopy.removeMember("statusCode");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Globals::Structs::AtomicAttributeStatusStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.attributeID);
ComplexArgumentParser::Finalize(request.statusCode);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::detail::Structs::ErrorStateStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ErrorStateStruct.errorStateID", "errorStateID", value.isMember("errorStateID")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "errorStateID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.errorStateID, value["errorStateID"]));
valueCopy.removeMember("errorStateID");
if (value.isMember("errorStateLabel"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "errorStateLabel");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.errorStateLabel, value["errorStateLabel"]));
}
valueCopy.removeMember("errorStateLabel");
if (value.isMember("errorStateDetails"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "errorStateDetails");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.errorStateDetails, value["errorStateDetails"]));
}
valueCopy.removeMember("errorStateDetails");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::ErrorStateStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.errorStateID);
ComplexArgumentParser::Finalize(request.errorStateLabel);
ComplexArgumentParser::Finalize(request.errorStateDetails);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::detail::Structs::LabelStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LabelStruct.label", "label", value.isMember("label")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LabelStruct.value", "value", value.isMember("value")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "label");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.label, value["label"]));
valueCopy.removeMember("label");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "value");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.value, value["value"]));
valueCopy.removeMember("value");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::LabelStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.label);
ComplexArgumentParser::Finalize(request.value);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::detail::Structs::OperationalStateStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalStateStruct.operationalStateID", "operationalStateID",
value.isMember("operationalStateID")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "operationalStateID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.operationalStateID, value["operationalStateID"]));
valueCopy.removeMember("operationalStateID");
if (value.isMember("operationalStateLabel"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "operationalStateLabel");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.operationalStateLabel, value["operationalStateLabel"]));
}
valueCopy.removeMember("operationalStateLabel");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::detail::Structs::OperationalStateStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.operationalStateID);
ComplexArgumentParser::Finalize(request.operationalStateLabel);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Descriptor::Structs::SemanticTagStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SemanticTagStruct.mfgCode", "mfgCode", value.isMember("mfgCode")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SemanticTagStruct.namespaceID", "namespaceID", value.isMember("namespaceID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SemanticTagStruct.tag", "tag", value.isMember("tag")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "mfgCode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.mfgCode, value["mfgCode"]));
valueCopy.removeMember("mfgCode");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "namespaceID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.namespaceID, value["namespaceID"]));
valueCopy.removeMember("namespaceID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "tag");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.tag, value["tag"]));
valueCopy.removeMember("tag");
if (value.isMember("label"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "label");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.label, value["label"]));
}
valueCopy.removeMember("label");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Descriptor::Structs::SemanticTagStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.mfgCode);
ComplexArgumentParser::Finalize(request.namespaceID);
ComplexArgumentParser::Finalize(request.tag);
ComplexArgumentParser::Finalize(request.label);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Binding::Structs::TargetStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
char labelWithMember[kMaxLabelLength];
if (value.isMember("node"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "node");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.node, value["node"]));
}
valueCopy.removeMember("node");
if (value.isMember("group"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "group");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.group, value["group"]));
}
valueCopy.removeMember("group");
if (value.isMember("endpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoint, value["endpoint"]));
}
valueCopy.removeMember("endpoint");
if (value.isMember("cluster"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "cluster");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.cluster, value["cluster"]));
}
valueCopy.removeMember("cluster");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Binding::Structs::TargetStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.node);
ComplexArgumentParser::Finalize(request.group);
ComplexArgumentParser::Finalize(request.endpoint);
ComplexArgumentParser::Finalize(request.cluster);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::AccessControl::Structs::AccessRestrictionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AccessRestrictionStruct.type", "type", value.isMember("type")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AccessRestrictionStruct.id", "id", value.isMember("id")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "type");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.type, value["type"]));
valueCopy.removeMember("type");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "id");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.id, value["id"]));
valueCopy.removeMember("id");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::AccessControl::Structs::AccessRestrictionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.type);
ComplexArgumentParser::Finalize(request.id);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::AccessControl::Structs::CommissioningAccessRestrictionEntryStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("CommissioningAccessRestrictionEntryStruct.endpoint", "endpoint",
value.isMember("endpoint")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("CommissioningAccessRestrictionEntryStruct.cluster", "cluster",
value.isMember("cluster")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("CommissioningAccessRestrictionEntryStruct.restrictions",
"restrictions", value.isMember("restrictions")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoint, value["endpoint"]));
valueCopy.removeMember("endpoint");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "cluster");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.cluster, value["cluster"]));
valueCopy.removeMember("cluster");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "restrictions");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.restrictions, value["restrictions"]));
valueCopy.removeMember("restrictions");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::AccessControl::Structs::CommissioningAccessRestrictionEntryStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.endpoint);
ComplexArgumentParser::Finalize(request.cluster);
ComplexArgumentParser::Finalize(request.restrictions);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::AccessControl::Structs::AccessRestrictionEntryStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessRestrictionEntryStruct.endpoint", "endpoint", value.isMember("endpoint")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessRestrictionEntryStruct.cluster", "cluster", value.isMember("cluster")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AccessRestrictionEntryStruct.restrictions", "restrictions",
value.isMember("restrictions")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoint, value["endpoint"]));
valueCopy.removeMember("endpoint");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "cluster");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.cluster, value["cluster"]));
valueCopy.removeMember("cluster");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "restrictions");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.restrictions, value["restrictions"]));
valueCopy.removeMember("restrictions");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::AccessControl::Structs::AccessRestrictionEntryStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.endpoint);
ComplexArgumentParser::Finalize(request.cluster);
ComplexArgumentParser::Finalize(request.restrictions);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::AccessControl::Structs::AccessControlTargetStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessControlTargetStruct.cluster", "cluster", value.isMember("cluster")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessControlTargetStruct.endpoint", "endpoint", value.isMember("endpoint")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AccessControlTargetStruct.deviceType", "deviceType",
value.isMember("deviceType")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "cluster");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.cluster, value["cluster"]));
valueCopy.removeMember("cluster");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoint, value["endpoint"]));
valueCopy.removeMember("endpoint");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "deviceType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.deviceType, value["deviceType"]));
valueCopy.removeMember("deviceType");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::AccessControl::Structs::AccessControlTargetStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.cluster);
ComplexArgumentParser::Finalize(request.endpoint);
ComplexArgumentParser::Finalize(request.deviceType);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::AccessControl::Structs::AccessControlEntryStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessControlEntryStruct.privilege", "privilege", value.isMember("privilege")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessControlEntryStruct.authMode", "authMode", value.isMember("authMode")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessControlEntryStruct.subjects", "subjects", value.isMember("subjects")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessControlEntryStruct.targets", "targets", value.isMember("targets")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "privilege");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.privilege, value["privilege"]));
valueCopy.removeMember("privilege");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "authMode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.authMode, value["authMode"]));
valueCopy.removeMember("authMode");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "subjects");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.subjects, value["subjects"]));
valueCopy.removeMember("subjects");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "targets");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.targets, value["targets"]));
valueCopy.removeMember("targets");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::AccessControl::Structs::AccessControlEntryStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.privilege);
ComplexArgumentParser::Finalize(request.authMode);
ComplexArgumentParser::Finalize(request.subjects);
ComplexArgumentParser::Finalize(request.targets);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::AccessControl::Structs::AccessControlExtensionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AccessControlExtensionStruct.data", "data", value.isMember("data")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "data");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.data, value["data"]));
valueCopy.removeMember("data");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::AccessControl::Structs::AccessControlExtensionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.data);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Actions::Structs::ActionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ActionStruct.actionID", "actionID", value.isMember("actionID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ActionStruct.name", "name", value.isMember("name")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ActionStruct.type", "type", value.isMember("type")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ActionStruct.endpointListID", "endpointListID",
value.isMember("endpointListID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ActionStruct.supportedCommands", "supportedCommands",
value.isMember("supportedCommands")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ActionStruct.state", "state", value.isMember("state")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "actionID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.actionID, value["actionID"]));
valueCopy.removeMember("actionID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "type");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.type, value["type"]));
valueCopy.removeMember("type");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpointListID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpointListID, value["endpointListID"]));
valueCopy.removeMember("endpointListID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "supportedCommands");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.supportedCommands, value["supportedCommands"]));
valueCopy.removeMember("supportedCommands");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "state");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.state, value["state"]));
valueCopy.removeMember("state");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Actions::Structs::ActionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.actionID);
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.type);
ComplexArgumentParser::Finalize(request.endpointListID);
ComplexArgumentParser::Finalize(request.supportedCommands);
ComplexArgumentParser::Finalize(request.state);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Actions::Structs::EndpointListStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EndpointListStruct.endpointListID", "endpointListID",
value.isMember("endpointListID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EndpointListStruct.name", "name", value.isMember("name")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EndpointListStruct.type", "type", value.isMember("type")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("EndpointListStruct.endpoints", "endpoints", value.isMember("endpoints")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpointListID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpointListID, value["endpointListID"]));
valueCopy.removeMember("endpointListID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "type");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.type, value["type"]));
valueCopy.removeMember("type");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoints");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoints, value["endpoints"]));
valueCopy.removeMember("endpoints");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Actions::Structs::EndpointListStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.endpointListID);
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.type);
ComplexArgumentParser::Finalize(request.endpoints);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::BasicInformation::Structs::CapabilityMinimaStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"CapabilityMinimaStruct.caseSessionsPerFabric", "caseSessionsPerFabric", value.isMember("caseSessionsPerFabric")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"CapabilityMinimaStruct.subscriptionsPerFabric", "subscriptionsPerFabric", value.isMember("subscriptionsPerFabric")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "caseSessionsPerFabric");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.caseSessionsPerFabric, value["caseSessionsPerFabric"]));
valueCopy.removeMember("caseSessionsPerFabric");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "subscriptionsPerFabric");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.subscriptionsPerFabric, value["subscriptionsPerFabric"]));
valueCopy.removeMember("subscriptionsPerFabric");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::BasicInformation::Structs::CapabilityMinimaStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.caseSessionsPerFabric);
ComplexArgumentParser::Finalize(request.subscriptionsPerFabric);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::BasicInformation::Structs::ProductAppearanceStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ProductAppearanceStruct.finish", "finish", value.isMember("finish")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProductAppearanceStruct.primaryColor", "primaryColor",
value.isMember("primaryColor")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "finish");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.finish, value["finish"]));
valueCopy.removeMember("finish");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "primaryColor");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.primaryColor, value["primaryColor"]));
valueCopy.removeMember("primaryColor");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::BasicInformation::Structs::ProductAppearanceStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.finish);
ComplexArgumentParser::Finalize(request.primaryColor);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::OtaSoftwareUpdateRequestor::Structs::ProviderLocation::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProviderLocation.providerNodeID", "providerNodeID",
value.isMember("providerNodeID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ProviderLocation.endpoint", "endpoint", value.isMember("endpoint")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "providerNodeID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.providerNodeID, value["providerNodeID"]));
valueCopy.removeMember("providerNodeID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoint, value["endpoint"]));
valueCopy.removeMember("endpoint");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::OtaSoftwareUpdateRequestor::Structs::ProviderLocation::Type & request)
{
ComplexArgumentParser::Finalize(request.providerNodeID);
ComplexArgumentParser::Finalize(request.endpoint);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::PowerSource::Structs::BatChargeFaultChangeType::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("BatChargeFaultChangeType.current", "current", value.isMember("current")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("BatChargeFaultChangeType.previous", "previous", value.isMember("previous")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "current");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.current, value["current"]));
valueCopy.removeMember("current");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "previous");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.previous, value["previous"]));
valueCopy.removeMember("previous");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::PowerSource::Structs::BatChargeFaultChangeType::Type & request)
{
ComplexArgumentParser::Finalize(request.current);
ComplexArgumentParser::Finalize(request.previous);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::PowerSource::Structs::BatFaultChangeType::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("BatFaultChangeType.current", "current", value.isMember("current")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("BatFaultChangeType.previous", "previous", value.isMember("previous")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "current");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.current, value["current"]));
valueCopy.removeMember("current");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "previous");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.previous, value["previous"]));
valueCopy.removeMember("previous");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::PowerSource::Structs::BatFaultChangeType::Type & request)
{
ComplexArgumentParser::Finalize(request.current);
ComplexArgumentParser::Finalize(request.previous);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::PowerSource::Structs::WiredFaultChangeType::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WiredFaultChangeType.current", "current", value.isMember("current")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WiredFaultChangeType.previous", "previous", value.isMember("previous")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "current");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.current, value["current"]));
valueCopy.removeMember("current");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "previous");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.previous, value["previous"]));
valueCopy.removeMember("previous");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::PowerSource::Structs::WiredFaultChangeType::Type & request)
{
ComplexArgumentParser::Finalize(request.current);
ComplexArgumentParser::Finalize(request.previous);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::GeneralCommissioning::Structs::BasicCommissioningInfo::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("BasicCommissioningInfo.failSafeExpiryLengthSeconds",
"failSafeExpiryLengthSeconds",
value.isMember("failSafeExpiryLengthSeconds")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("BasicCommissioningInfo.maxCumulativeFailsafeSeconds",
"maxCumulativeFailsafeSeconds",
value.isMember("maxCumulativeFailsafeSeconds")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "failSafeExpiryLengthSeconds");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.failSafeExpiryLengthSeconds, value["failSafeExpiryLengthSeconds"]));
valueCopy.removeMember("failSafeExpiryLengthSeconds");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxCumulativeFailsafeSeconds");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.maxCumulativeFailsafeSeconds, value["maxCumulativeFailsafeSeconds"]));
valueCopy.removeMember("maxCumulativeFailsafeSeconds");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::GeneralCommissioning::Structs::BasicCommissioningInfo::Type & request)
{
ComplexArgumentParser::Finalize(request.failSafeExpiryLengthSeconds);
ComplexArgumentParser::Finalize(request.maxCumulativeFailsafeSeconds);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::NetworkCommissioning::Structs::NetworkInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("NetworkInfoStruct.networkID", "networkID", value.isMember("networkID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("NetworkInfoStruct.connected", "connected", value.isMember("connected")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "networkID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.networkID, value["networkID"]));
valueCopy.removeMember("networkID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "connected");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.connected, value["connected"]));
valueCopy.removeMember("connected");
if (value.isMember("networkIdentifier"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "networkIdentifier");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.networkIdentifier, value["networkIdentifier"]));
}
valueCopy.removeMember("networkIdentifier");
if (value.isMember("clientIdentifier"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "clientIdentifier");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.clientIdentifier, value["clientIdentifier"]));
}
valueCopy.removeMember("clientIdentifier");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::NetworkCommissioning::Structs::NetworkInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.networkID);
ComplexArgumentParser::Finalize(request.connected);
ComplexArgumentParser::Finalize(request.networkIdentifier);
ComplexArgumentParser::Finalize(request.clientIdentifier);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::NetworkCommissioning::Structs::ThreadInterfaceScanResultStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ThreadInterfaceScanResultStruct.panId", "panId", value.isMember("panId")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ThreadInterfaceScanResultStruct.extendedPanId", "extendedPanId",
value.isMember("extendedPanId")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ThreadInterfaceScanResultStruct.networkName", "networkName",
value.isMember("networkName")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ThreadInterfaceScanResultStruct.channel", "channel", value.isMember("channel")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ThreadInterfaceScanResultStruct.version", "version", value.isMember("version")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ThreadInterfaceScanResultStruct.extendedAddress",
"extendedAddress", value.isMember("extendedAddress")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ThreadInterfaceScanResultStruct.rssi", "rssi", value.isMember("rssi")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ThreadInterfaceScanResultStruct.lqi", "lqi", value.isMember("lqi")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "panId");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.panId, value["panId"]));
valueCopy.removeMember("panId");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "extendedPanId");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.extendedPanId, value["extendedPanId"]));
valueCopy.removeMember("extendedPanId");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "networkName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.networkName, value["networkName"]));
valueCopy.removeMember("networkName");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "channel");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.channel, value["channel"]));
valueCopy.removeMember("channel");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "version");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.version, value["version"]));
valueCopy.removeMember("version");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "extendedAddress");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.extendedAddress, value["extendedAddress"]));
valueCopy.removeMember("extendedAddress");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rssi");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rssi, value["rssi"]));
valueCopy.removeMember("rssi");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "lqi");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.lqi, value["lqi"]));
valueCopy.removeMember("lqi");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::NetworkCommissioning::Structs::ThreadInterfaceScanResultStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.panId);
ComplexArgumentParser::Finalize(request.extendedPanId);
ComplexArgumentParser::Finalize(request.networkName);
ComplexArgumentParser::Finalize(request.channel);
ComplexArgumentParser::Finalize(request.version);
ComplexArgumentParser::Finalize(request.extendedAddress);
ComplexArgumentParser::Finalize(request.rssi);
ComplexArgumentParser::Finalize(request.lqi);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::NetworkCommissioning::Structs::WiFiInterfaceScanResultStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WiFiInterfaceScanResultStruct.security", "security", value.isMember("security")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WiFiInterfaceScanResultStruct.ssid", "ssid", value.isMember("ssid")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WiFiInterfaceScanResultStruct.bssid", "bssid", value.isMember("bssid")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WiFiInterfaceScanResultStruct.channel", "channel", value.isMember("channel")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WiFiInterfaceScanResultStruct.wiFiBand", "wiFiBand", value.isMember("wiFiBand")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WiFiInterfaceScanResultStruct.rssi", "rssi", value.isMember("rssi")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "security");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.security, value["security"]));
valueCopy.removeMember("security");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "ssid");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.ssid, value["ssid"]));
valueCopy.removeMember("ssid");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "bssid");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.bssid, value["bssid"]));
valueCopy.removeMember("bssid");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "channel");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.channel, value["channel"]));
valueCopy.removeMember("channel");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "wiFiBand");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.wiFiBand, value["wiFiBand"]));
valueCopy.removeMember("wiFiBand");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rssi");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rssi, value["rssi"]));
valueCopy.removeMember("rssi");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::NetworkCommissioning::Structs::WiFiInterfaceScanResultStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.security);
ComplexArgumentParser::Finalize(request.ssid);
ComplexArgumentParser::Finalize(request.bssid);
ComplexArgumentParser::Finalize(request.channel);
ComplexArgumentParser::Finalize(request.wiFiBand);
ComplexArgumentParser::Finalize(request.rssi);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::GeneralDiagnostics::Structs::NetworkInterface::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NetworkInterface.name", "name", value.isMember("name")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NetworkInterface.isOperational", "isOperational",
value.isMember("isOperational")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NetworkInterface.offPremiseServicesReachableIPv4",
"offPremiseServicesReachableIPv4",
value.isMember("offPremiseServicesReachableIPv4")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NetworkInterface.offPremiseServicesReachableIPv6",
"offPremiseServicesReachableIPv6",
value.isMember("offPremiseServicesReachableIPv6")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NetworkInterface.hardwareAddress", "hardwareAddress",
value.isMember("hardwareAddress")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NetworkInterface.IPv4Addresses", "IPv4Addresses",
value.isMember("IPv4Addresses")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NetworkInterface.IPv6Addresses", "IPv6Addresses",
value.isMember("IPv6Addresses")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NetworkInterface.type", "type", value.isMember("type")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "isOperational");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.isOperational, value["isOperational"]));
valueCopy.removeMember("isOperational");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "offPremiseServicesReachableIPv4");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.offPremiseServicesReachableIPv4,
value["offPremiseServicesReachableIPv4"]));
valueCopy.removeMember("offPremiseServicesReachableIPv4");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "offPremiseServicesReachableIPv6");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.offPremiseServicesReachableIPv6,
value["offPremiseServicesReachableIPv6"]));
valueCopy.removeMember("offPremiseServicesReachableIPv6");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "hardwareAddress");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.hardwareAddress, value["hardwareAddress"]));
valueCopy.removeMember("hardwareAddress");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "IPv4Addresses");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.IPv4Addresses, value["IPv4Addresses"]));
valueCopy.removeMember("IPv4Addresses");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "IPv6Addresses");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.IPv6Addresses, value["IPv6Addresses"]));
valueCopy.removeMember("IPv6Addresses");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "type");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.type, value["type"]));
valueCopy.removeMember("type");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::GeneralDiagnostics::Structs::NetworkInterface::Type & request)
{
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.isOperational);
ComplexArgumentParser::Finalize(request.offPremiseServicesReachableIPv4);
ComplexArgumentParser::Finalize(request.offPremiseServicesReachableIPv6);
ComplexArgumentParser::Finalize(request.hardwareAddress);
ComplexArgumentParser::Finalize(request.IPv4Addresses);
ComplexArgumentParser::Finalize(request.IPv6Addresses);
ComplexArgumentParser::Finalize(request.type);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::SoftwareDiagnostics::Structs::ThreadMetricsStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ThreadMetricsStruct.id", "id", value.isMember("id")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "id");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.id, value["id"]));
valueCopy.removeMember("id");
if (value.isMember("name"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
}
valueCopy.removeMember("name");
if (value.isMember("stackFreeCurrent"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "stackFreeCurrent");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.stackFreeCurrent, value["stackFreeCurrent"]));
}
valueCopy.removeMember("stackFreeCurrent");
if (value.isMember("stackFreeMinimum"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "stackFreeMinimum");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.stackFreeMinimum, value["stackFreeMinimum"]));
}
valueCopy.removeMember("stackFreeMinimum");
if (value.isMember("stackSize"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "stackSize");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.stackSize, value["stackSize"]));
}
valueCopy.removeMember("stackSize");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::SoftwareDiagnostics::Structs::ThreadMetricsStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.id);
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.stackFreeCurrent);
ComplexArgumentParser::Finalize(request.stackFreeMinimum);
ComplexArgumentParser::Finalize(request.stackSize);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ThreadNetworkDiagnostics::Structs::NeighborTableStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.extAddress", "extAddress", value.isMember("extAddress")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.age", "age", value.isMember("age")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.rloc16", "rloc16", value.isMember("rloc16")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.linkFrameCounter", "linkFrameCounter",
value.isMember("linkFrameCounter")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.mleFrameCounter", "mleFrameCounter",
value.isMember("mleFrameCounter")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.lqi", "lqi", value.isMember("lqi")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.averageRssi", "averageRssi", value.isMember("averageRssi")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.lastRssi", "lastRssi", value.isMember("lastRssi")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.frameErrorRate", "frameErrorRate",
value.isMember("frameErrorRate")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.messageErrorRate", "messageErrorRate",
value.isMember("messageErrorRate")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.rxOnWhenIdle", "rxOnWhenIdle",
value.isMember("rxOnWhenIdle")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.fullThreadDevice", "fullThreadDevice",
value.isMember("fullThreadDevice")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.fullNetworkData", "fullNetworkData",
value.isMember("fullNetworkData")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("NeighborTableStruct.isChild", "isChild", value.isMember("isChild")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "extAddress");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.extAddress, value["extAddress"]));
valueCopy.removeMember("extAddress");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "age");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.age, value["age"]));
valueCopy.removeMember("age");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rloc16");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rloc16, value["rloc16"]));
valueCopy.removeMember("rloc16");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "linkFrameCounter");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.linkFrameCounter, value["linkFrameCounter"]));
valueCopy.removeMember("linkFrameCounter");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "mleFrameCounter");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.mleFrameCounter, value["mleFrameCounter"]));
valueCopy.removeMember("mleFrameCounter");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "lqi");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.lqi, value["lqi"]));
valueCopy.removeMember("lqi");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "averageRssi");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.averageRssi, value["averageRssi"]));
valueCopy.removeMember("averageRssi");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "lastRssi");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.lastRssi, value["lastRssi"]));
valueCopy.removeMember("lastRssi");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "frameErrorRate");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.frameErrorRate, value["frameErrorRate"]));
valueCopy.removeMember("frameErrorRate");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "messageErrorRate");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.messageErrorRate, value["messageErrorRate"]));
valueCopy.removeMember("messageErrorRate");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rxOnWhenIdle");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rxOnWhenIdle, value["rxOnWhenIdle"]));
valueCopy.removeMember("rxOnWhenIdle");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fullThreadDevice");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fullThreadDevice, value["fullThreadDevice"]));
valueCopy.removeMember("fullThreadDevice");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fullNetworkData");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fullNetworkData, value["fullNetworkData"]));
valueCopy.removeMember("fullNetworkData");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "isChild");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.isChild, value["isChild"]));
valueCopy.removeMember("isChild");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ThreadNetworkDiagnostics::Structs::NeighborTableStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.extAddress);
ComplexArgumentParser::Finalize(request.age);
ComplexArgumentParser::Finalize(request.rloc16);
ComplexArgumentParser::Finalize(request.linkFrameCounter);
ComplexArgumentParser::Finalize(request.mleFrameCounter);
ComplexArgumentParser::Finalize(request.lqi);
ComplexArgumentParser::Finalize(request.averageRssi);
ComplexArgumentParser::Finalize(request.lastRssi);
ComplexArgumentParser::Finalize(request.frameErrorRate);
ComplexArgumentParser::Finalize(request.messageErrorRate);
ComplexArgumentParser::Finalize(request.rxOnWhenIdle);
ComplexArgumentParser::Finalize(request.fullThreadDevice);
ComplexArgumentParser::Finalize(request.fullNetworkData);
ComplexArgumentParser::Finalize(request.isChild);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ThreadNetworkDiagnostics::Structs::OperationalDatasetComponents::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"OperationalDatasetComponents.activeTimestampPresent", "activeTimestampPresent", value.isMember("activeTimestampPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.pendingTimestampPresent",
"pendingTimestampPresent",
value.isMember("pendingTimestampPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.masterKeyPresent",
"masterKeyPresent", value.isMember("masterKeyPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.networkNamePresent",
"networkNamePresent", value.isMember("networkNamePresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.extendedPanIdPresent",
"extendedPanIdPresent", value.isMember("extendedPanIdPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"OperationalDatasetComponents.meshLocalPrefixPresent", "meshLocalPrefixPresent", value.isMember("meshLocalPrefixPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.delayPresent", "delayPresent",
value.isMember("delayPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.panIdPresent", "panIdPresent",
value.isMember("panIdPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.channelPresent", "channelPresent",
value.isMember("channelPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.pskcPresent", "pskcPresent",
value.isMember("pskcPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"OperationalDatasetComponents.securityPolicyPresent", "securityPolicyPresent", value.isMember("securityPolicyPresent")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OperationalDatasetComponents.channelMaskPresent",
"channelMaskPresent", value.isMember("channelMaskPresent")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "activeTimestampPresent");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.activeTimestampPresent, value["activeTimestampPresent"]));
valueCopy.removeMember("activeTimestampPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "pendingTimestampPresent");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.pendingTimestampPresent, value["pendingTimestampPresent"]));
valueCopy.removeMember("pendingTimestampPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "masterKeyPresent");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.masterKeyPresent, value["masterKeyPresent"]));
valueCopy.removeMember("masterKeyPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "networkNamePresent");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.networkNamePresent, value["networkNamePresent"]));
valueCopy.removeMember("networkNamePresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "extendedPanIdPresent");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.extendedPanIdPresent, value["extendedPanIdPresent"]));
valueCopy.removeMember("extendedPanIdPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "meshLocalPrefixPresent");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.meshLocalPrefixPresent, value["meshLocalPrefixPresent"]));
valueCopy.removeMember("meshLocalPrefixPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "delayPresent");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.delayPresent, value["delayPresent"]));
valueCopy.removeMember("delayPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "panIdPresent");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.panIdPresent, value["panIdPresent"]));
valueCopy.removeMember("panIdPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "channelPresent");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.channelPresent, value["channelPresent"]));
valueCopy.removeMember("channelPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "pskcPresent");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.pskcPresent, value["pskcPresent"]));
valueCopy.removeMember("pskcPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "securityPolicyPresent");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.securityPolicyPresent, value["securityPolicyPresent"]));
valueCopy.removeMember("securityPolicyPresent");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "channelMaskPresent");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.channelMaskPresent, value["channelMaskPresent"]));
valueCopy.removeMember("channelMaskPresent");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::ThreadNetworkDiagnostics::Structs::OperationalDatasetComponents::Type & request)
{
ComplexArgumentParser::Finalize(request.activeTimestampPresent);
ComplexArgumentParser::Finalize(request.pendingTimestampPresent);
ComplexArgumentParser::Finalize(request.masterKeyPresent);
ComplexArgumentParser::Finalize(request.networkNamePresent);
ComplexArgumentParser::Finalize(request.extendedPanIdPresent);
ComplexArgumentParser::Finalize(request.meshLocalPrefixPresent);
ComplexArgumentParser::Finalize(request.delayPresent);
ComplexArgumentParser::Finalize(request.panIdPresent);
ComplexArgumentParser::Finalize(request.channelPresent);
ComplexArgumentParser::Finalize(request.pskcPresent);
ComplexArgumentParser::Finalize(request.securityPolicyPresent);
ComplexArgumentParser::Finalize(request.channelMaskPresent);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ThreadNetworkDiagnostics::Structs::RouteTableStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.extAddress", "extAddress", value.isMember("extAddress")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.rloc16", "rloc16", value.isMember("rloc16")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.routerId", "routerId", value.isMember("routerId")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.nextHop", "nextHop", value.isMember("nextHop")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.pathCost", "pathCost", value.isMember("pathCost")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.LQIIn", "LQIIn", value.isMember("LQIIn")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.LQIOut", "LQIOut", value.isMember("LQIOut")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.age", "age", value.isMember("age")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.allocated", "allocated", value.isMember("allocated")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("RouteTableStruct.linkEstablished", "linkEstablished",
value.isMember("linkEstablished")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "extAddress");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.extAddress, value["extAddress"]));
valueCopy.removeMember("extAddress");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rloc16");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rloc16, value["rloc16"]));
valueCopy.removeMember("rloc16");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "routerId");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.routerId, value["routerId"]));
valueCopy.removeMember("routerId");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nextHop");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nextHop, value["nextHop"]));
valueCopy.removeMember("nextHop");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "pathCost");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.pathCost, value["pathCost"]));
valueCopy.removeMember("pathCost");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "LQIIn");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.LQIIn, value["LQIIn"]));
valueCopy.removeMember("LQIIn");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "LQIOut");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.LQIOut, value["LQIOut"]));
valueCopy.removeMember("LQIOut");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "age");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.age, value["age"]));
valueCopy.removeMember("age");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "allocated");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.allocated, value["allocated"]));
valueCopy.removeMember("allocated");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "linkEstablished");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.linkEstablished, value["linkEstablished"]));
valueCopy.removeMember("linkEstablished");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ThreadNetworkDiagnostics::Structs::RouteTableStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.extAddress);
ComplexArgumentParser::Finalize(request.rloc16);
ComplexArgumentParser::Finalize(request.routerId);
ComplexArgumentParser::Finalize(request.nextHop);
ComplexArgumentParser::Finalize(request.pathCost);
ComplexArgumentParser::Finalize(request.LQIIn);
ComplexArgumentParser::Finalize(request.LQIOut);
ComplexArgumentParser::Finalize(request.age);
ComplexArgumentParser::Finalize(request.allocated);
ComplexArgumentParser::Finalize(request.linkEstablished);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ThreadNetworkDiagnostics::Structs::SecurityPolicy::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SecurityPolicy.rotationTime", "rotationTime", value.isMember("rotationTime")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SecurityPolicy.flags", "flags", value.isMember("flags")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rotationTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rotationTime, value["rotationTime"]));
valueCopy.removeMember("rotationTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "flags");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.flags, value["flags"]));
valueCopy.removeMember("flags");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ThreadNetworkDiagnostics::Structs::SecurityPolicy::Type & request)
{
ComplexArgumentParser::Finalize(request.rotationTime);
ComplexArgumentParser::Finalize(request.flags);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::TimeSynchronization::Structs::DSTOffsetStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("DSTOffsetStruct.offset", "offset", value.isMember("offset")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("DSTOffsetStruct.validStarting", "validStarting",
value.isMember("validStarting")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("DSTOffsetStruct.validUntil", "validUntil", value.isMember("validUntil")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "offset");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.offset, value["offset"]));
valueCopy.removeMember("offset");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "validStarting");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.validStarting, value["validStarting"]));
valueCopy.removeMember("validStarting");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "validUntil");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.validUntil, value["validUntil"]));
valueCopy.removeMember("validUntil");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::TimeSynchronization::Structs::DSTOffsetStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.offset);
ComplexArgumentParser::Finalize(request.validStarting);
ComplexArgumentParser::Finalize(request.validUntil);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::TimeSynchronization::Structs::FabricScopedTrustedTimeSourceStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("FabricScopedTrustedTimeSourceStruct.nodeID", "nodeID", value.isMember("nodeID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("FabricScopedTrustedTimeSourceStruct.endpoint", "endpoint",
value.isMember("endpoint")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nodeID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nodeID, value["nodeID"]));
valueCopy.removeMember("nodeID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoint, value["endpoint"]));
valueCopy.removeMember("endpoint");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::TimeSynchronization::Structs::FabricScopedTrustedTimeSourceStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.nodeID);
ComplexArgumentParser::Finalize(request.endpoint);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::TimeSynchronization::Structs::TimeZoneStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TimeZoneStruct.offset", "offset", value.isMember("offset")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TimeZoneStruct.validAt", "validAt", value.isMember("validAt")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "offset");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.offset, value["offset"]));
valueCopy.removeMember("offset");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "validAt");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.validAt, value["validAt"]));
valueCopy.removeMember("validAt");
if (value.isMember("name"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
}
valueCopy.removeMember("name");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::TimeSynchronization::Structs::TimeZoneStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.offset);
ComplexArgumentParser::Finalize(request.validAt);
ComplexArgumentParser::Finalize(request.name);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::TimeSynchronization::Structs::TrustedTimeSourceStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TrustedTimeSourceStruct.fabricIndex", "fabricIndex",
value.isMember("fabricIndex")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("TrustedTimeSourceStruct.nodeID", "nodeID", value.isMember("nodeID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("TrustedTimeSourceStruct.endpoint", "endpoint", value.isMember("endpoint")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
valueCopy.removeMember("fabricIndex");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nodeID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nodeID, value["nodeID"]));
valueCopy.removeMember("nodeID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoint, value["endpoint"]));
valueCopy.removeMember("endpoint");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::TimeSynchronization::Structs::TrustedTimeSourceStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.fabricIndex);
ComplexArgumentParser::Finalize(request.nodeID);
ComplexArgumentParser::Finalize(request.endpoint);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::BridgedDeviceBasicInformation::Structs::ProductAppearanceStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ProductAppearanceStruct.finish", "finish", value.isMember("finish")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProductAppearanceStruct.primaryColor", "primaryColor",
value.isMember("primaryColor")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "finish");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.finish, value["finish"]));
valueCopy.removeMember("finish");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "primaryColor");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.primaryColor, value["primaryColor"]));
valueCopy.removeMember("primaryColor");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::BridgedDeviceBasicInformation::Structs::ProductAppearanceStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.finish);
ComplexArgumentParser::Finalize(request.primaryColor);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::OperationalCredentials::Structs::FabricDescriptorStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("FabricDescriptorStruct.rootPublicKey", "rootPublicKey",
value.isMember("rootPublicKey")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("FabricDescriptorStruct.vendorID", "vendorID", value.isMember("vendorID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("FabricDescriptorStruct.fabricID", "fabricID", value.isMember("fabricID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("FabricDescriptorStruct.nodeID", "nodeID", value.isMember("nodeID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("FabricDescriptorStruct.label", "label", value.isMember("label")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "rootPublicKey");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.rootPublicKey, value["rootPublicKey"]));
valueCopy.removeMember("rootPublicKey");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "vendorID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.vendorID, value["vendorID"]));
valueCopy.removeMember("vendorID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricID, value["fabricID"]));
valueCopy.removeMember("fabricID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nodeID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nodeID, value["nodeID"]));
valueCopy.removeMember("nodeID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "label");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.label, value["label"]));
valueCopy.removeMember("label");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::OperationalCredentials::Structs::FabricDescriptorStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.rootPublicKey);
ComplexArgumentParser::Finalize(request.vendorID);
ComplexArgumentParser::Finalize(request.fabricID);
ComplexArgumentParser::Finalize(request.nodeID);
ComplexArgumentParser::Finalize(request.label);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::OperationalCredentials::Structs::NOCStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NOCStruct.noc", "noc", value.isMember("noc")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NOCStruct.icac", "icac", value.isMember("icac")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "noc");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.noc, value["noc"]));
valueCopy.removeMember("noc");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "icac");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.icac, value["icac"]));
valueCopy.removeMember("icac");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::OperationalCredentials::Structs::NOCStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.noc);
ComplexArgumentParser::Finalize(request.icac);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::GroupKeyManagement::Structs::GroupInfoMapStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("GroupInfoMapStruct.groupId", "groupId", value.isMember("groupId")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("GroupInfoMapStruct.endpoints", "endpoints", value.isMember("endpoints")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "groupId");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.groupId, value["groupId"]));
valueCopy.removeMember("groupId");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoints");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoints, value["endpoints"]));
valueCopy.removeMember("endpoints");
if (value.isMember("groupName"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "groupName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.groupName, value["groupName"]));
}
valueCopy.removeMember("groupName");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::GroupKeyManagement::Structs::GroupInfoMapStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.groupId);
ComplexArgumentParser::Finalize(request.endpoints);
ComplexArgumentParser::Finalize(request.groupName);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::GroupKeyManagement::Structs::GroupKeyMapStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("GroupKeyMapStruct.groupId", "groupId", value.isMember("groupId")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("GroupKeyMapStruct.groupKeySetID", "groupKeySetID",
value.isMember("groupKeySetID")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "groupId");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.groupId, value["groupId"]));
valueCopy.removeMember("groupId");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "groupKeySetID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.groupKeySetID, value["groupKeySetID"]));
valueCopy.removeMember("groupKeySetID");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::GroupKeyManagement::Structs::GroupKeyMapStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.groupId);
ComplexArgumentParser::Finalize(request.groupKeySetID);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::GroupKeyManagement::Structs::GroupKeySetStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("GroupKeySetStruct.groupKeySetID", "groupKeySetID",
value.isMember("groupKeySetID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"GroupKeySetStruct.groupKeySecurityPolicy", "groupKeySecurityPolicy", value.isMember("groupKeySecurityPolicy")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("GroupKeySetStruct.epochKey0", "epochKey0", value.isMember("epochKey0")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("GroupKeySetStruct.epochStartTime0", "epochStartTime0",
value.isMember("epochStartTime0")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("GroupKeySetStruct.epochKey1", "epochKey1", value.isMember("epochKey1")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("GroupKeySetStruct.epochStartTime1", "epochStartTime1",
value.isMember("epochStartTime1")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("GroupKeySetStruct.epochKey2", "epochKey2", value.isMember("epochKey2")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("GroupKeySetStruct.epochStartTime2", "epochStartTime2",
value.isMember("epochStartTime2")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "groupKeySetID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.groupKeySetID, value["groupKeySetID"]));
valueCopy.removeMember("groupKeySetID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "groupKeySecurityPolicy");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.groupKeySecurityPolicy, value["groupKeySecurityPolicy"]));
valueCopy.removeMember("groupKeySecurityPolicy");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "epochKey0");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.epochKey0, value["epochKey0"]));
valueCopy.removeMember("epochKey0");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "epochStartTime0");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.epochStartTime0, value["epochStartTime0"]));
valueCopy.removeMember("epochStartTime0");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "epochKey1");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.epochKey1, value["epochKey1"]));
valueCopy.removeMember("epochKey1");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "epochStartTime1");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.epochStartTime1, value["epochStartTime1"]));
valueCopy.removeMember("epochStartTime1");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "epochKey2");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.epochKey2, value["epochKey2"]));
valueCopy.removeMember("epochKey2");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "epochStartTime2");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.epochStartTime2, value["epochStartTime2"]));
valueCopy.removeMember("epochStartTime2");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::GroupKeyManagement::Structs::GroupKeySetStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.groupKeySetID);
ComplexArgumentParser::Finalize(request.groupKeySecurityPolicy);
ComplexArgumentParser::Finalize(request.epochKey0);
ComplexArgumentParser::Finalize(request.epochStartTime0);
ComplexArgumentParser::Finalize(request.epochKey1);
ComplexArgumentParser::Finalize(request.epochStartTime1);
ComplexArgumentParser::Finalize(request.epochKey2);
ComplexArgumentParser::Finalize(request.epochStartTime2);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::IcdManagement::Structs::MonitoringRegistrationStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MonitoringRegistrationStruct.checkInNodeID", "checkInNodeID",
value.isMember("checkInNodeID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MonitoringRegistrationStruct.monitoredSubject",
"monitoredSubject", value.isMember("monitoredSubject")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MonitoringRegistrationStruct.clientType", "clientType",
value.isMember("clientType")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "checkInNodeID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.checkInNodeID, value["checkInNodeID"]));
valueCopy.removeMember("checkInNodeID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "monitoredSubject");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.monitoredSubject, value["monitoredSubject"]));
valueCopy.removeMember("monitoredSubject");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "clientType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.clientType, value["clientType"]));
valueCopy.removeMember("clientType");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::IcdManagement::Structs::MonitoringRegistrationStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.checkInNodeID);
ComplexArgumentParser::Finalize(request.monitoredSubject);
ComplexArgumentParser::Finalize(request.clientType);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ModeSelect::Structs::SemanticTagStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SemanticTagStruct.mfgCode", "mfgCode", value.isMember("mfgCode")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SemanticTagStruct.value", "value", value.isMember("value")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "mfgCode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.mfgCode, value["mfgCode"]));
valueCopy.removeMember("mfgCode");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "value");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.value, value["value"]));
valueCopy.removeMember("value");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ModeSelect::Structs::SemanticTagStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.mfgCode);
ComplexArgumentParser::Finalize(request.value);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ModeSelect::Structs::ModeOptionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ModeOptionStruct.label", "label", value.isMember("label")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ModeOptionStruct.mode", "mode", value.isMember("mode")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ModeOptionStruct.semanticTags", "semanticTags", value.isMember("semanticTags")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "label");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.label, value["label"]));
valueCopy.removeMember("label");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "mode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.mode, value["mode"]));
valueCopy.removeMember("mode");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "semanticTags");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.semanticTags, value["semanticTags"]));
valueCopy.removeMember("semanticTags");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ModeSelect::Structs::ModeOptionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.label);
ComplexArgumentParser::Finalize(request.mode);
ComplexArgumentParser::Finalize(request.semanticTags);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ScenesManagement::Structs::AttributeValuePairStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AttributeValuePairStruct.attributeID", "attributeID",
value.isMember("attributeID")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "attributeID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.attributeID, value["attributeID"]));
valueCopy.removeMember("attributeID");
if (value.isMember("valueUnsigned8"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "valueUnsigned8");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.valueUnsigned8, value["valueUnsigned8"]));
}
valueCopy.removeMember("valueUnsigned8");
if (value.isMember("valueSigned8"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "valueSigned8");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.valueSigned8, value["valueSigned8"]));
}
valueCopy.removeMember("valueSigned8");
if (value.isMember("valueUnsigned16"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "valueUnsigned16");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.valueUnsigned16, value["valueUnsigned16"]));
}
valueCopy.removeMember("valueUnsigned16");
if (value.isMember("valueSigned16"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "valueSigned16");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.valueSigned16, value["valueSigned16"]));
}
valueCopy.removeMember("valueSigned16");
if (value.isMember("valueUnsigned32"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "valueUnsigned32");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.valueUnsigned32, value["valueUnsigned32"]));
}
valueCopy.removeMember("valueUnsigned32");
if (value.isMember("valueSigned32"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "valueSigned32");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.valueSigned32, value["valueSigned32"]));
}
valueCopy.removeMember("valueSigned32");
if (value.isMember("valueUnsigned64"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "valueUnsigned64");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.valueUnsigned64, value["valueUnsigned64"]));
}
valueCopy.removeMember("valueUnsigned64");
if (value.isMember("valueSigned64"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "valueSigned64");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.valueSigned64, value["valueSigned64"]));
}
valueCopy.removeMember("valueSigned64");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ScenesManagement::Structs::AttributeValuePairStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.attributeID);
ComplexArgumentParser::Finalize(request.valueUnsigned8);
ComplexArgumentParser::Finalize(request.valueSigned8);
ComplexArgumentParser::Finalize(request.valueUnsigned16);
ComplexArgumentParser::Finalize(request.valueSigned16);
ComplexArgumentParser::Finalize(request.valueUnsigned32);
ComplexArgumentParser::Finalize(request.valueSigned32);
ComplexArgumentParser::Finalize(request.valueUnsigned64);
ComplexArgumentParser::Finalize(request.valueSigned64);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ScenesManagement::Structs::ExtensionFieldSet::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ExtensionFieldSet.clusterID", "clusterID", value.isMember("clusterID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ExtensionFieldSet.attributeValueList", "attributeValueList",
value.isMember("attributeValueList")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "clusterID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.clusterID, value["clusterID"]));
valueCopy.removeMember("clusterID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "attributeValueList");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.attributeValueList, value["attributeValueList"]));
valueCopy.removeMember("attributeValueList");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ScenesManagement::Structs::ExtensionFieldSet::Type & request)
{
ComplexArgumentParser::Finalize(request.clusterID);
ComplexArgumentParser::Finalize(request.attributeValueList);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ScenesManagement::Structs::SceneInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SceneInfoStruct.sceneCount", "sceneCount", value.isMember("sceneCount")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SceneInfoStruct.currentScene", "currentScene", value.isMember("currentScene")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SceneInfoStruct.currentGroup", "currentGroup", value.isMember("currentGroup")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SceneInfoStruct.sceneValid", "sceneValid", value.isMember("sceneValid")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SceneInfoStruct.remainingCapacity", "remainingCapacity",
value.isMember("remainingCapacity")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "sceneCount");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.sceneCount, value["sceneCount"]));
valueCopy.removeMember("sceneCount");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "currentScene");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.currentScene, value["currentScene"]));
valueCopy.removeMember("currentScene");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "currentGroup");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.currentGroup, value["currentGroup"]));
valueCopy.removeMember("currentGroup");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "sceneValid");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.sceneValid, value["sceneValid"]));
valueCopy.removeMember("sceneValid");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "remainingCapacity");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.remainingCapacity, value["remainingCapacity"]));
valueCopy.removeMember("remainingCapacity");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ScenesManagement::Structs::SceneInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.sceneCount);
ComplexArgumentParser::Finalize(request.currentScene);
ComplexArgumentParser::Finalize(request.currentGroup);
ComplexArgumentParser::Finalize(request.sceneValid);
ComplexArgumentParser::Finalize(request.remainingCapacity);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::HepaFilterMonitoring::Structs::ReplacementProductStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"ReplacementProductStruct.productIdentifierType", "productIdentifierType", value.isMember("productIdentifierType")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"ReplacementProductStruct.productIdentifierValue", "productIdentifierValue", value.isMember("productIdentifierValue")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "productIdentifierType");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.productIdentifierType, value["productIdentifierType"]));
valueCopy.removeMember("productIdentifierType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "productIdentifierValue");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.productIdentifierValue, value["productIdentifierValue"]));
valueCopy.removeMember("productIdentifierValue");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::HepaFilterMonitoring::Structs::ReplacementProductStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.productIdentifierType);
ComplexArgumentParser::Finalize(request.productIdentifierValue);
}
CHIP_ERROR ComplexArgumentParser::Setup(
const char * label, chip::app::Clusters::ActivatedCarbonFilterMonitoring::Structs::ReplacementProductStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"ReplacementProductStruct.productIdentifierType", "productIdentifierType", value.isMember("productIdentifierType")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"ReplacementProductStruct.productIdentifierValue", "productIdentifierValue", value.isMember("productIdentifierValue")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "productIdentifierType");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.productIdentifierType, value["productIdentifierType"]));
valueCopy.removeMember("productIdentifierType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "productIdentifierValue");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.productIdentifierValue, value["productIdentifierValue"]));
valueCopy.removeMember("productIdentifierValue");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::ActivatedCarbonFilterMonitoring::Structs::ReplacementProductStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.productIdentifierType);
ComplexArgumentParser::Finalize(request.productIdentifierValue);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ElectricalPowerMeasurement::Structs::HarmonicMeasurementStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("HarmonicMeasurementStruct.order", "order", value.isMember("order")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("HarmonicMeasurementStruct.measurement", "measurement",
value.isMember("measurement")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "order");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.order, value["order"]));
valueCopy.removeMember("order");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "measurement");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.measurement, value["measurement"]));
valueCopy.removeMember("measurement");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::ElectricalPowerMeasurement::Structs::HarmonicMeasurementStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.order);
ComplexArgumentParser::Finalize(request.measurement);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ElectricalPowerMeasurement::Structs::MeasurementRangeStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementRangeStruct.measurementType", "measurementType",
value.isMember("measurementType")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementRangeStruct.min", "min", value.isMember("min")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MeasurementRangeStruct.max", "max", value.isMember("max")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "measurementType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.measurementType, value["measurementType"]));
valueCopy.removeMember("measurementType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "min");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.min, value["min"]));
valueCopy.removeMember("min");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "max");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.max, value["max"]));
valueCopy.removeMember("max");
if (value.isMember("startTimestamp"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startTimestamp");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startTimestamp, value["startTimestamp"]));
}
valueCopy.removeMember("startTimestamp");
if (value.isMember("endTimestamp"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endTimestamp");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endTimestamp, value["endTimestamp"]));
}
valueCopy.removeMember("endTimestamp");
if (value.isMember("minTimestamp"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minTimestamp");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minTimestamp, value["minTimestamp"]));
}
valueCopy.removeMember("minTimestamp");
if (value.isMember("maxTimestamp"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxTimestamp");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maxTimestamp, value["maxTimestamp"]));
}
valueCopy.removeMember("maxTimestamp");
if (value.isMember("startSystime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startSystime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startSystime, value["startSystime"]));
}
valueCopy.removeMember("startSystime");
if (value.isMember("endSystime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endSystime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endSystime, value["endSystime"]));
}
valueCopy.removeMember("endSystime");
if (value.isMember("minSystime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minSystime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minSystime, value["minSystime"]));
}
valueCopy.removeMember("minSystime");
if (value.isMember("maxSystime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxSystime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maxSystime, value["maxSystime"]));
}
valueCopy.removeMember("maxSystime");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::ElectricalPowerMeasurement::Structs::MeasurementRangeStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.measurementType);
ComplexArgumentParser::Finalize(request.min);
ComplexArgumentParser::Finalize(request.max);
ComplexArgumentParser::Finalize(request.startTimestamp);
ComplexArgumentParser::Finalize(request.endTimestamp);
ComplexArgumentParser::Finalize(request.minTimestamp);
ComplexArgumentParser::Finalize(request.maxTimestamp);
ComplexArgumentParser::Finalize(request.startSystime);
ComplexArgumentParser::Finalize(request.endSystime);
ComplexArgumentParser::Finalize(request.minSystime);
ComplexArgumentParser::Finalize(request.maxSystime);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ElectricalEnergyMeasurement::Structs::CumulativeEnergyResetStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
char labelWithMember[kMaxLabelLength];
if (value.isMember("importedResetTimestamp"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "importedResetTimestamp");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.importedResetTimestamp, value["importedResetTimestamp"]));
}
valueCopy.removeMember("importedResetTimestamp");
if (value.isMember("exportedResetTimestamp"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "exportedResetTimestamp");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.exportedResetTimestamp, value["exportedResetTimestamp"]));
}
valueCopy.removeMember("exportedResetTimestamp");
if (value.isMember("importedResetSystime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "importedResetSystime");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.importedResetSystime, value["importedResetSystime"]));
}
valueCopy.removeMember("importedResetSystime");
if (value.isMember("exportedResetSystime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "exportedResetSystime");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.exportedResetSystime, value["exportedResetSystime"]));
}
valueCopy.removeMember("exportedResetSystime");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::ElectricalEnergyMeasurement::Structs::CumulativeEnergyResetStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.importedResetTimestamp);
ComplexArgumentParser::Finalize(request.exportedResetTimestamp);
ComplexArgumentParser::Finalize(request.importedResetSystime);
ComplexArgumentParser::Finalize(request.exportedResetSystime);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ElectricalEnergyMeasurement::Structs::EnergyMeasurementStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("EnergyMeasurementStruct.energy", "energy", value.isMember("energy")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "energy");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.energy, value["energy"]));
valueCopy.removeMember("energy");
if (value.isMember("startTimestamp"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startTimestamp");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startTimestamp, value["startTimestamp"]));
}
valueCopy.removeMember("startTimestamp");
if (value.isMember("endTimestamp"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endTimestamp");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endTimestamp, value["endTimestamp"]));
}
valueCopy.removeMember("endTimestamp");
if (value.isMember("startSystime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startSystime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startSystime, value["startSystime"]));
}
valueCopy.removeMember("startSystime");
if (value.isMember("endSystime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endSystime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endSystime, value["endSystime"]));
}
valueCopy.removeMember("endSystime");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::ElectricalEnergyMeasurement::Structs::EnergyMeasurementStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.energy);
ComplexArgumentParser::Finalize(request.startTimestamp);
ComplexArgumentParser::Finalize(request.endTimestamp);
ComplexArgumentParser::Finalize(request.startSystime);
ComplexArgumentParser::Finalize(request.endSystime);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::WaterHeaterManagement::Structs::WaterHeaterBoostInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("WaterHeaterBoostInfoStruct.duration", "duration", value.isMember("duration")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "duration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.duration, value["duration"]));
valueCopy.removeMember("duration");
if (value.isMember("oneShot"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "oneShot");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.oneShot, value["oneShot"]));
}
valueCopy.removeMember("oneShot");
if (value.isMember("emergencyBoost"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "emergencyBoost");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.emergencyBoost, value["emergencyBoost"]));
}
valueCopy.removeMember("emergencyBoost");
if (value.isMember("temporarySetpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "temporarySetpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.temporarySetpoint, value["temporarySetpoint"]));
}
valueCopy.removeMember("temporarySetpoint");
if (value.isMember("targetPercentage"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "targetPercentage");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.targetPercentage, value["targetPercentage"]));
}
valueCopy.removeMember("targetPercentage");
if (value.isMember("targetReheat"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "targetReheat");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.targetReheat, value["targetReheat"]));
}
valueCopy.removeMember("targetReheat");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::WaterHeaterManagement::Structs::WaterHeaterBoostInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.duration);
ComplexArgumentParser::Finalize(request.oneShot);
ComplexArgumentParser::Finalize(request.emergencyBoost);
ComplexArgumentParser::Finalize(request.temporarySetpoint);
ComplexArgumentParser::Finalize(request.targetPercentage);
ComplexArgumentParser::Finalize(request.targetReheat);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DemandResponseLoadControl::Structs::HeatingSourceControlStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("HeatingSourceControlStruct.heatingSource", "heatingSource",
value.isMember("heatingSource")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "heatingSource");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.heatingSource, value["heatingSource"]));
valueCopy.removeMember("heatingSource");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DemandResponseLoadControl::Structs::HeatingSourceControlStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.heatingSource);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DemandResponseLoadControl::Structs::PowerSavingsControlStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("PowerSavingsControlStruct.powerSavings", "powerSavings",
value.isMember("powerSavings")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "powerSavings");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.powerSavings, value["powerSavings"]));
valueCopy.removeMember("powerSavings");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DemandResponseLoadControl::Structs::PowerSavingsControlStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.powerSavings);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DemandResponseLoadControl::Structs::DutyCycleControlStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("DutyCycleControlStruct.dutyCycle", "dutyCycle", value.isMember("dutyCycle")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "dutyCycle");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.dutyCycle, value["dutyCycle"]));
valueCopy.removeMember("dutyCycle");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DemandResponseLoadControl::Structs::DutyCycleControlStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.dutyCycle);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DemandResponseLoadControl::Structs::AverageLoadControlStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AverageLoadControlStruct.loadAdjustment", "loadAdjustment",
value.isMember("loadAdjustment")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "loadAdjustment");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.loadAdjustment, value["loadAdjustment"]));
valueCopy.removeMember("loadAdjustment");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DemandResponseLoadControl::Structs::AverageLoadControlStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.loadAdjustment);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DemandResponseLoadControl::Structs::TemperatureControlStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
char labelWithMember[kMaxLabelLength];
if (value.isMember("coolingTempOffset"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "coolingTempOffset");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.coolingTempOffset, value["coolingTempOffset"]));
}
valueCopy.removeMember("coolingTempOffset");
if (value.isMember("heatingtTempOffset"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "heatingtTempOffset");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.heatingtTempOffset, value["heatingtTempOffset"]));
}
valueCopy.removeMember("heatingtTempOffset");
if (value.isMember("coolingTempSetpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "coolingTempSetpoint");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.coolingTempSetpoint, value["coolingTempSetpoint"]));
}
valueCopy.removeMember("coolingTempSetpoint");
if (value.isMember("heatingTempSetpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "heatingTempSetpoint");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.heatingTempSetpoint, value["heatingTempSetpoint"]));
}
valueCopy.removeMember("heatingTempSetpoint");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DemandResponseLoadControl::Structs::TemperatureControlStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.coolingTempOffset);
ComplexArgumentParser::Finalize(request.heatingtTempOffset);
ComplexArgumentParser::Finalize(request.coolingTempSetpoint);
ComplexArgumentParser::Finalize(request.heatingTempSetpoint);
}
CHIP_ERROR ComplexArgumentParser::Setup(
const char * label, chip::app::Clusters::DemandResponseLoadControl::Structs::LoadControlEventTransitionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LoadControlEventTransitionStruct.duration", "duration",
value.isMember("duration")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LoadControlEventTransitionStruct.control", "control", value.isMember("control")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "duration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.duration, value["duration"]));
valueCopy.removeMember("duration");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "control");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.control, value["control"]));
valueCopy.removeMember("control");
if (value.isMember("temperatureControl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "temperatureControl");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.temperatureControl, value["temperatureControl"]));
}
valueCopy.removeMember("temperatureControl");
if (value.isMember("averageLoadControl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "averageLoadControl");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.averageLoadControl, value["averageLoadControl"]));
}
valueCopy.removeMember("averageLoadControl");
if (value.isMember("dutyCycleControl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "dutyCycleControl");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.dutyCycleControl, value["dutyCycleControl"]));
}
valueCopy.removeMember("dutyCycleControl");
if (value.isMember("powerSavingsControl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "powerSavingsControl");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.powerSavingsControl, value["powerSavingsControl"]));
}
valueCopy.removeMember("powerSavingsControl");
if (value.isMember("heatingSourceControl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "heatingSourceControl");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.heatingSourceControl, value["heatingSourceControl"]));
}
valueCopy.removeMember("heatingSourceControl");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DemandResponseLoadControl::Structs::LoadControlEventTransitionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.duration);
ComplexArgumentParser::Finalize(request.control);
ComplexArgumentParser::Finalize(request.temperatureControl);
ComplexArgumentParser::Finalize(request.averageLoadControl);
ComplexArgumentParser::Finalize(request.dutyCycleControl);
ComplexArgumentParser::Finalize(request.powerSavingsControl);
ComplexArgumentParser::Finalize(request.heatingSourceControl);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DemandResponseLoadControl::Structs::LoadControlEventStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LoadControlEventStruct.eventID", "eventID", value.isMember("eventID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LoadControlEventStruct.programID", "programID", value.isMember("programID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LoadControlEventStruct.control", "control", value.isMember("control")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LoadControlEventStruct.deviceClass", "deviceClass",
value.isMember("deviceClass")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LoadControlEventStruct.criticality", "criticality",
value.isMember("criticality")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LoadControlEventStruct.startTime", "startTime", value.isMember("startTime")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LoadControlEventStruct.transitions", "transitions",
value.isMember("transitions")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "eventID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.eventID, value["eventID"]));
valueCopy.removeMember("eventID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "programID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.programID, value["programID"]));
valueCopy.removeMember("programID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "control");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.control, value["control"]));
valueCopy.removeMember("control");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "deviceClass");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.deviceClass, value["deviceClass"]));
valueCopy.removeMember("deviceClass");
if (value.isMember("enrollmentGroup"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "enrollmentGroup");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.enrollmentGroup, value["enrollmentGroup"]));
}
valueCopy.removeMember("enrollmentGroup");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "criticality");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.criticality, value["criticality"]));
valueCopy.removeMember("criticality");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startTime, value["startTime"]));
valueCopy.removeMember("startTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "transitions");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.transitions, value["transitions"]));
valueCopy.removeMember("transitions");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DemandResponseLoadControl::Structs::LoadControlEventStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.eventID);
ComplexArgumentParser::Finalize(request.programID);
ComplexArgumentParser::Finalize(request.control);
ComplexArgumentParser::Finalize(request.deviceClass);
ComplexArgumentParser::Finalize(request.enrollmentGroup);
ComplexArgumentParser::Finalize(request.criticality);
ComplexArgumentParser::Finalize(request.startTime);
ComplexArgumentParser::Finalize(request.transitions);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DemandResponseLoadControl::Structs::LoadControlProgramStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LoadControlProgramStruct.programID", "programID", value.isMember("programID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LoadControlProgramStruct.name", "name", value.isMember("name")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LoadControlProgramStruct.enrollmentGroup", "enrollmentGroup",
value.isMember("enrollmentGroup")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LoadControlProgramStruct.randomStartMinutes",
"randomStartMinutes", value.isMember("randomStartMinutes")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"LoadControlProgramStruct.randomDurationMinutes", "randomDurationMinutes", value.isMember("randomDurationMinutes")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "programID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.programID, value["programID"]));
valueCopy.removeMember("programID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "enrollmentGroup");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.enrollmentGroup, value["enrollmentGroup"]));
valueCopy.removeMember("enrollmentGroup");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "randomStartMinutes");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.randomStartMinutes, value["randomStartMinutes"]));
valueCopy.removeMember("randomStartMinutes");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "randomDurationMinutes");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.randomDurationMinutes, value["randomDurationMinutes"]));
valueCopy.removeMember("randomDurationMinutes");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DemandResponseLoadControl::Structs::LoadControlProgramStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.programID);
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.enrollmentGroup);
ComplexArgumentParser::Finalize(request.randomStartMinutes);
ComplexArgumentParser::Finalize(request.randomDurationMinutes);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Messages::Structs::MessageResponseOptionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
char labelWithMember[kMaxLabelLength];
if (value.isMember("messageResponseID"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "messageResponseID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.messageResponseID, value["messageResponseID"]));
}
valueCopy.removeMember("messageResponseID");
if (value.isMember("label"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "label");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.label, value["label"]));
}
valueCopy.removeMember("label");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Messages::Structs::MessageResponseOptionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.messageResponseID);
ComplexArgumentParser::Finalize(request.label);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Messages::Structs::MessageStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("MessageStruct.messageID", "messageID", value.isMember("messageID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("MessageStruct.priority", "priority", value.isMember("priority")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MessageStruct.messageControl", "messageControl",
value.isMember("messageControl")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("MessageStruct.startTime", "startTime", value.isMember("startTime")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("MessageStruct.duration", "duration", value.isMember("duration")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("MessageStruct.messageText", "messageText", value.isMember("messageText")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "messageID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.messageID, value["messageID"]));
valueCopy.removeMember("messageID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "priority");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.priority, value["priority"]));
valueCopy.removeMember("priority");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "messageControl");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.messageControl, value["messageControl"]));
valueCopy.removeMember("messageControl");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startTime, value["startTime"]));
valueCopy.removeMember("startTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "duration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.duration, value["duration"]));
valueCopy.removeMember("duration");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "messageText");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.messageText, value["messageText"]));
valueCopy.removeMember("messageText");
if (value.isMember("responses"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "responses");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.responses, value["responses"]));
}
valueCopy.removeMember("responses");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Messages::Structs::MessageStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.messageID);
ComplexArgumentParser::Finalize(request.priority);
ComplexArgumentParser::Finalize(request.messageControl);
ComplexArgumentParser::Finalize(request.startTime);
ComplexArgumentParser::Finalize(request.duration);
ComplexArgumentParser::Finalize(request.messageText);
ComplexArgumentParser::Finalize(request.responses);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DeviceEnergyManagement::Structs::CostStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("CostStruct.costType", "costType", value.isMember("costType")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("CostStruct.value", "value", value.isMember("value")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("CostStruct.decimalPoints", "decimalPoints", value.isMember("decimalPoints")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "costType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.costType, value["costType"]));
valueCopy.removeMember("costType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "value");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.value, value["value"]));
valueCopy.removeMember("value");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "decimalPoints");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.decimalPoints, value["decimalPoints"]));
valueCopy.removeMember("decimalPoints");
if (value.isMember("currency"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "currency");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.currency, value["currency"]));
}
valueCopy.removeMember("currency");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::DeviceEnergyManagement::Structs::CostStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.costType);
ComplexArgumentParser::Finalize(request.value);
ComplexArgumentParser::Finalize(request.decimalPoints);
ComplexArgumentParser::Finalize(request.currency);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DeviceEnergyManagement::Structs::PowerAdjustStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PowerAdjustStruct.minPower", "minPower", value.isMember("minPower")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PowerAdjustStruct.maxPower", "maxPower", value.isMember("maxPower")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PowerAdjustStruct.minDuration", "minDuration", value.isMember("minDuration")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PowerAdjustStruct.maxDuration", "maxDuration", value.isMember("maxDuration")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minPower");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minPower, value["minPower"]));
valueCopy.removeMember("minPower");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxPower");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maxPower, value["maxPower"]));
valueCopy.removeMember("maxPower");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minDuration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minDuration, value["minDuration"]));
valueCopy.removeMember("minDuration");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxDuration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maxDuration, value["maxDuration"]));
valueCopy.removeMember("maxDuration");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::DeviceEnergyManagement::Structs::PowerAdjustStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.minPower);
ComplexArgumentParser::Finalize(request.maxPower);
ComplexArgumentParser::Finalize(request.minDuration);
ComplexArgumentParser::Finalize(request.maxDuration);
}
CHIP_ERROR
ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DeviceEnergyManagement::Structs::PowerAdjustCapabilityStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"PowerAdjustCapabilityStruct.powerAdjustCapability", "powerAdjustCapability", value.isMember("powerAdjustCapability")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PowerAdjustCapabilityStruct.cause", "cause", value.isMember("cause")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "powerAdjustCapability");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.powerAdjustCapability, value["powerAdjustCapability"]));
valueCopy.removeMember("powerAdjustCapability");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "cause");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.cause, value["cause"]));
valueCopy.removeMember("cause");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(
chip::app::Clusters::DeviceEnergyManagement::Structs::PowerAdjustCapabilityStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.powerAdjustCapability);
ComplexArgumentParser::Finalize(request.cause);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DeviceEnergyManagement::Structs::SlotStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SlotStruct.minDuration", "minDuration", value.isMember("minDuration")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SlotStruct.maxDuration", "maxDuration", value.isMember("maxDuration")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SlotStruct.defaultDuration", "defaultDuration",
value.isMember("defaultDuration")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SlotStruct.elapsedSlotTime", "elapsedSlotTime",
value.isMember("elapsedSlotTime")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SlotStruct.remainingSlotTime", "remainingSlotTime",
value.isMember("remainingSlotTime")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minDuration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minDuration, value["minDuration"]));
valueCopy.removeMember("minDuration");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxDuration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maxDuration, value["maxDuration"]));
valueCopy.removeMember("maxDuration");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "defaultDuration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.defaultDuration, value["defaultDuration"]));
valueCopy.removeMember("defaultDuration");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "elapsedSlotTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.elapsedSlotTime, value["elapsedSlotTime"]));
valueCopy.removeMember("elapsedSlotTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "remainingSlotTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.remainingSlotTime, value["remainingSlotTime"]));
valueCopy.removeMember("remainingSlotTime");
if (value.isMember("slotIsPausable"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "slotIsPausable");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.slotIsPausable, value["slotIsPausable"]));
}
valueCopy.removeMember("slotIsPausable");
if (value.isMember("minPauseDuration"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minPauseDuration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minPauseDuration, value["minPauseDuration"]));
}
valueCopy.removeMember("minPauseDuration");
if (value.isMember("maxPauseDuration"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxPauseDuration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maxPauseDuration, value["maxPauseDuration"]));
}
valueCopy.removeMember("maxPauseDuration");
if (value.isMember("manufacturerESAState"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "manufacturerESAState");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.manufacturerESAState, value["manufacturerESAState"]));
}
valueCopy.removeMember("manufacturerESAState");
if (value.isMember("nominalPower"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nominalPower");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nominalPower, value["nominalPower"]));
}
valueCopy.removeMember("nominalPower");
if (value.isMember("minPower"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minPower");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minPower, value["minPower"]));
}
valueCopy.removeMember("minPower");
if (value.isMember("maxPower"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxPower");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maxPower, value["maxPower"]));
}
valueCopy.removeMember("maxPower");
if (value.isMember("nominalEnergy"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nominalEnergy");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nominalEnergy, value["nominalEnergy"]));
}
valueCopy.removeMember("nominalEnergy");
if (value.isMember("costs"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "costs");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.costs, value["costs"]));
}
valueCopy.removeMember("costs");
if (value.isMember("minPowerAdjustment"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minPowerAdjustment");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.minPowerAdjustment, value["minPowerAdjustment"]));
}
valueCopy.removeMember("minPowerAdjustment");
if (value.isMember("maxPowerAdjustment"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxPowerAdjustment");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.maxPowerAdjustment, value["maxPowerAdjustment"]));
}
valueCopy.removeMember("maxPowerAdjustment");
if (value.isMember("minDurationAdjustment"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minDurationAdjustment");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.minDurationAdjustment, value["minDurationAdjustment"]));
}
valueCopy.removeMember("minDurationAdjustment");
if (value.isMember("maxDurationAdjustment"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maxDurationAdjustment");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.maxDurationAdjustment, value["maxDurationAdjustment"]));
}
valueCopy.removeMember("maxDurationAdjustment");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::DeviceEnergyManagement::Structs::SlotStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.minDuration);
ComplexArgumentParser::Finalize(request.maxDuration);
ComplexArgumentParser::Finalize(request.defaultDuration);
ComplexArgumentParser::Finalize(request.elapsedSlotTime);
ComplexArgumentParser::Finalize(request.remainingSlotTime);
ComplexArgumentParser::Finalize(request.slotIsPausable);
ComplexArgumentParser::Finalize(request.minPauseDuration);
ComplexArgumentParser::Finalize(request.maxPauseDuration);
ComplexArgumentParser::Finalize(request.manufacturerESAState);
ComplexArgumentParser::Finalize(request.nominalPower);
ComplexArgumentParser::Finalize(request.minPower);
ComplexArgumentParser::Finalize(request.maxPower);
ComplexArgumentParser::Finalize(request.nominalEnergy);
ComplexArgumentParser::Finalize(request.costs);
ComplexArgumentParser::Finalize(request.minPowerAdjustment);
ComplexArgumentParser::Finalize(request.maxPowerAdjustment);
ComplexArgumentParser::Finalize(request.minDurationAdjustment);
ComplexArgumentParser::Finalize(request.maxDurationAdjustment);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DeviceEnergyManagement::Structs::ForecastStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ForecastStruct.forecastID", "forecastID", value.isMember("forecastID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ForecastStruct.activeSlotNumber", "activeSlotNumber",
value.isMember("activeSlotNumber")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ForecastStruct.startTime", "startTime", value.isMember("startTime")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ForecastStruct.endTime", "endTime", value.isMember("endTime")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ForecastStruct.isPausable", "isPausable", value.isMember("isPausable")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ForecastStruct.slots", "slots", value.isMember("slots")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ForecastStruct.forecastUpdateReason", "forecastUpdateReason",
value.isMember("forecastUpdateReason")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "forecastID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.forecastID, value["forecastID"]));
valueCopy.removeMember("forecastID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "activeSlotNumber");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.activeSlotNumber, value["activeSlotNumber"]));
valueCopy.removeMember("activeSlotNumber");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startTime, value["startTime"]));
valueCopy.removeMember("startTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endTime, value["endTime"]));
valueCopy.removeMember("endTime");
if (value.isMember("earliestStartTime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "earliestStartTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.earliestStartTime, value["earliestStartTime"]));
}
valueCopy.removeMember("earliestStartTime");
if (value.isMember("latestEndTime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "latestEndTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.latestEndTime, value["latestEndTime"]));
}
valueCopy.removeMember("latestEndTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "isPausable");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.isPausable, value["isPausable"]));
valueCopy.removeMember("isPausable");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "slots");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.slots, value["slots"]));
valueCopy.removeMember("slots");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "forecastUpdateReason");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.forecastUpdateReason, value["forecastUpdateReason"]));
valueCopy.removeMember("forecastUpdateReason");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::DeviceEnergyManagement::Structs::ForecastStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.forecastID);
ComplexArgumentParser::Finalize(request.activeSlotNumber);
ComplexArgumentParser::Finalize(request.startTime);
ComplexArgumentParser::Finalize(request.endTime);
ComplexArgumentParser::Finalize(request.earliestStartTime);
ComplexArgumentParser::Finalize(request.latestEndTime);
ComplexArgumentParser::Finalize(request.isPausable);
ComplexArgumentParser::Finalize(request.slots);
ComplexArgumentParser::Finalize(request.forecastUpdateReason);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DeviceEnergyManagement::Structs::ConstraintsStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ConstraintsStruct.startTime", "startTime", value.isMember("startTime")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ConstraintsStruct.duration", "duration", value.isMember("duration")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startTime, value["startTime"]));
valueCopy.removeMember("startTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "duration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.duration, value["duration"]));
valueCopy.removeMember("duration");
if (value.isMember("nominalPower"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nominalPower");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nominalPower, value["nominalPower"]));
}
valueCopy.removeMember("nominalPower");
if (value.isMember("maximumEnergy"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "maximumEnergy");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.maximumEnergy, value["maximumEnergy"]));
}
valueCopy.removeMember("maximumEnergy");
if (value.isMember("loadControl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "loadControl");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.loadControl, value["loadControl"]));
}
valueCopy.removeMember("loadControl");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::DeviceEnergyManagement::Structs::ConstraintsStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.startTime);
ComplexArgumentParser::Finalize(request.duration);
ComplexArgumentParser::Finalize(request.nominalPower);
ComplexArgumentParser::Finalize(request.maximumEnergy);
ComplexArgumentParser::Finalize(request.loadControl);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DeviceEnergyManagement::Structs::SlotAdjustmentStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SlotAdjustmentStruct.slotIndex", "slotIndex", value.isMember("slotIndex")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SlotAdjustmentStruct.duration", "duration", value.isMember("duration")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "slotIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.slotIndex, value["slotIndex"]));
valueCopy.removeMember("slotIndex");
if (value.isMember("nominalPower"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nominalPower");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nominalPower, value["nominalPower"]));
}
valueCopy.removeMember("nominalPower");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "duration");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.duration, value["duration"]));
valueCopy.removeMember("duration");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::DeviceEnergyManagement::Structs::SlotAdjustmentStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.slotIndex);
ComplexArgumentParser::Finalize(request.nominalPower);
ComplexArgumentParser::Finalize(request.duration);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::EnergyEvse::Structs::ChargingTargetStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ChargingTargetStruct.targetTimeMinutesPastMidnight",
"targetTimeMinutesPastMidnight",
value.isMember("targetTimeMinutesPastMidnight")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "targetTimeMinutesPastMidnight");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.targetTimeMinutesPastMidnight,
value["targetTimeMinutesPastMidnight"]));
valueCopy.removeMember("targetTimeMinutesPastMidnight");
if (value.isMember("targetSoC"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "targetSoC");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.targetSoC, value["targetSoC"]));
}
valueCopy.removeMember("targetSoC");
if (value.isMember("addedEnergy"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "addedEnergy");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.addedEnergy, value["addedEnergy"]));
}
valueCopy.removeMember("addedEnergy");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::EnergyEvse::Structs::ChargingTargetStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.targetTimeMinutesPastMidnight);
ComplexArgumentParser::Finalize(request.targetSoC);
ComplexArgumentParser::Finalize(request.addedEnergy);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::EnergyEvse::Structs::ChargingTargetScheduleStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ChargingTargetScheduleStruct.dayOfWeekForSequence",
"dayOfWeekForSequence", value.isMember("dayOfWeekForSequence")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ChargingTargetScheduleStruct.chargingTargets", "chargingTargets",
value.isMember("chargingTargets")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "dayOfWeekForSequence");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.dayOfWeekForSequence, value["dayOfWeekForSequence"]));
valueCopy.removeMember("dayOfWeekForSequence");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "chargingTargets");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.chargingTargets, value["chargingTargets"]));
valueCopy.removeMember("chargingTargets");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::EnergyEvse::Structs::ChargingTargetScheduleStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.dayOfWeekForSequence);
ComplexArgumentParser::Finalize(request.chargingTargets);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::EnergyPreference::Structs::BalanceStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("BalanceStruct.step", "step", value.isMember("step")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "step");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.step, value["step"]));
valueCopy.removeMember("step");
if (value.isMember("label"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "label");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.label, value["label"]));
}
valueCopy.removeMember("label");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::EnergyPreference::Structs::BalanceStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.step);
ComplexArgumentParser::Finalize(request.label);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::DoorLock::Structs::CredentialStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("CredentialStruct.credentialType", "credentialType",
value.isMember("credentialType")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("CredentialStruct.credentialIndex", "credentialIndex",
value.isMember("credentialIndex")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "credentialType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.credentialType, value["credentialType"]));
valueCopy.removeMember("credentialType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "credentialIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.credentialIndex, value["credentialIndex"]));
valueCopy.removeMember("credentialIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::DoorLock::Structs::CredentialStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.credentialType);
ComplexArgumentParser::Finalize(request.credentialIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ServiceArea::Structs::LandmarkInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LandmarkInfoStruct.landmarkTag", "landmarkTag", value.isMember("landmarkTag")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LandmarkInfoStruct.relativePositionTag", "relativePositionTag",
value.isMember("relativePositionTag")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "landmarkTag");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.landmarkTag, value["landmarkTag"]));
valueCopy.removeMember("landmarkTag");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "relativePositionTag");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.relativePositionTag, value["relativePositionTag"]));
valueCopy.removeMember("relativePositionTag");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ServiceArea::Structs::LandmarkInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.landmarkTag);
ComplexArgumentParser::Finalize(request.relativePositionTag);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ServiceArea::Structs::AreaInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AreaInfoStruct.locationInfo", "locationInfo", value.isMember("locationInfo")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("AreaInfoStruct.landmarkInfo", "landmarkInfo", value.isMember("landmarkInfo")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "locationInfo");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.locationInfo, value["locationInfo"]));
valueCopy.removeMember("locationInfo");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "landmarkInfo");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.landmarkInfo, value["landmarkInfo"]));
valueCopy.removeMember("landmarkInfo");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ServiceArea::Structs::AreaInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.locationInfo);
ComplexArgumentParser::Finalize(request.landmarkInfo);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::ServiceArea::Structs::AreaStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AreaStruct.areaID", "areaID", value.isMember("areaID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AreaStruct.mapID", "mapID", value.isMember("mapID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AreaStruct.areaInfo", "areaInfo", value.isMember("areaInfo")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "areaID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.areaID, value["areaID"]));
valueCopy.removeMember("areaID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "mapID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.mapID, value["mapID"]));
valueCopy.removeMember("mapID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "areaInfo");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.areaInfo, value["areaInfo"]));
valueCopy.removeMember("areaInfo");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ServiceArea::Structs::AreaStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.areaID);
ComplexArgumentParser::Finalize(request.mapID);
ComplexArgumentParser::Finalize(request.areaInfo);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::ServiceArea::Structs::MapStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MapStruct.mapID", "mapID", value.isMember("mapID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("MapStruct.name", "name", value.isMember("name")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "mapID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.mapID, value["mapID"]));
valueCopy.removeMember("mapID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ServiceArea::Structs::MapStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.mapID);
ComplexArgumentParser::Finalize(request.name);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ServiceArea::Structs::ProgressStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProgressStruct.areaID", "areaID", value.isMember("areaID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProgressStruct.status", "status", value.isMember("status")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "areaID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.areaID, value["areaID"]));
valueCopy.removeMember("areaID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "status");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.status, value["status"]));
valueCopy.removeMember("status");
if (value.isMember("totalOperationalTime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "totalOperationalTime");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.totalOperationalTime, value["totalOperationalTime"]));
}
valueCopy.removeMember("totalOperationalTime");
if (value.isMember("estimatedTime"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "estimatedTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.estimatedTime, value["estimatedTime"]));
}
valueCopy.removeMember("estimatedTime");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ServiceArea::Structs::ProgressStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.areaID);
ComplexArgumentParser::Finalize(request.status);
ComplexArgumentParser::Finalize(request.totalOperationalTime);
ComplexArgumentParser::Finalize(request.estimatedTime);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Thermostat::Structs::ScheduleTransitionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ScheduleTransitionStruct.dayOfWeek", "dayOfWeek", value.isMember("dayOfWeek")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ScheduleTransitionStruct.transitionTime", "transitionTime",
value.isMember("transitionTime")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "dayOfWeek");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.dayOfWeek, value["dayOfWeek"]));
valueCopy.removeMember("dayOfWeek");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "transitionTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.transitionTime, value["transitionTime"]));
valueCopy.removeMember("transitionTime");
if (value.isMember("presetHandle"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "presetHandle");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.presetHandle, value["presetHandle"]));
}
valueCopy.removeMember("presetHandle");
if (value.isMember("systemMode"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "systemMode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.systemMode, value["systemMode"]));
}
valueCopy.removeMember("systemMode");
if (value.isMember("coolingSetpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "coolingSetpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.coolingSetpoint, value["coolingSetpoint"]));
}
valueCopy.removeMember("coolingSetpoint");
if (value.isMember("heatingSetpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "heatingSetpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.heatingSetpoint, value["heatingSetpoint"]));
}
valueCopy.removeMember("heatingSetpoint");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Thermostat::Structs::ScheduleTransitionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.dayOfWeek);
ComplexArgumentParser::Finalize(request.transitionTime);
ComplexArgumentParser::Finalize(request.presetHandle);
ComplexArgumentParser::Finalize(request.systemMode);
ComplexArgumentParser::Finalize(request.coolingSetpoint);
ComplexArgumentParser::Finalize(request.heatingSetpoint);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Thermostat::Structs::ScheduleStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ScheduleStruct.scheduleHandle", "scheduleHandle",
value.isMember("scheduleHandle")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ScheduleStruct.systemMode", "systemMode", value.isMember("systemMode")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ScheduleStruct.transitions", "transitions", value.isMember("transitions")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ScheduleStruct.builtIn", "builtIn", value.isMember("builtIn")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "scheduleHandle");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.scheduleHandle, value["scheduleHandle"]));
valueCopy.removeMember("scheduleHandle");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "systemMode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.systemMode, value["systemMode"]));
valueCopy.removeMember("systemMode");
if (value.isMember("name"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
}
valueCopy.removeMember("name");
if (value.isMember("presetHandle"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "presetHandle");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.presetHandle, value["presetHandle"]));
}
valueCopy.removeMember("presetHandle");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "transitions");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.transitions, value["transitions"]));
valueCopy.removeMember("transitions");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "builtIn");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.builtIn, value["builtIn"]));
valueCopy.removeMember("builtIn");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Thermostat::Structs::ScheduleStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.scheduleHandle);
ComplexArgumentParser::Finalize(request.systemMode);
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.presetHandle);
ComplexArgumentParser::Finalize(request.transitions);
ComplexArgumentParser::Finalize(request.builtIn);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Thermostat::Structs::PresetStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PresetStruct.presetHandle", "presetHandle", value.isMember("presetHandle")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("PresetStruct.presetScenario", "presetScenario",
value.isMember("presetScenario")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("PresetStruct.builtIn", "builtIn", value.isMember("builtIn")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "presetHandle");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.presetHandle, value["presetHandle"]));
valueCopy.removeMember("presetHandle");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "presetScenario");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.presetScenario, value["presetScenario"]));
valueCopy.removeMember("presetScenario");
if (value.isMember("name"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
}
valueCopy.removeMember("name");
if (value.isMember("coolingSetpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "coolingSetpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.coolingSetpoint, value["coolingSetpoint"]));
}
valueCopy.removeMember("coolingSetpoint");
if (value.isMember("heatingSetpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "heatingSetpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.heatingSetpoint, value["heatingSetpoint"]));
}
valueCopy.removeMember("heatingSetpoint");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "builtIn");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.builtIn, value["builtIn"]));
valueCopy.removeMember("builtIn");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Thermostat::Structs::PresetStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.presetHandle);
ComplexArgumentParser::Finalize(request.presetScenario);
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.coolingSetpoint);
ComplexArgumentParser::Finalize(request.heatingSetpoint);
ComplexArgumentParser::Finalize(request.builtIn);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Thermostat::Structs::PresetTypeStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("PresetTypeStruct.presetScenario", "presetScenario",
value.isMember("presetScenario")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("PresetTypeStruct.numberOfPresets", "numberOfPresets",
value.isMember("numberOfPresets")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("PresetTypeStruct.presetTypeFeatures", "presetTypeFeatures",
value.isMember("presetTypeFeatures")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "presetScenario");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.presetScenario, value["presetScenario"]));
valueCopy.removeMember("presetScenario");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "numberOfPresets");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.numberOfPresets, value["numberOfPresets"]));
valueCopy.removeMember("numberOfPresets");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "presetTypeFeatures");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.presetTypeFeatures, value["presetTypeFeatures"]));
valueCopy.removeMember("presetTypeFeatures");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Thermostat::Structs::PresetTypeStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.presetScenario);
ComplexArgumentParser::Finalize(request.numberOfPresets);
ComplexArgumentParser::Finalize(request.presetTypeFeatures);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Thermostat::Structs::ScheduleTypeStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ScheduleTypeStruct.systemMode", "systemMode", value.isMember("systemMode")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ScheduleTypeStruct.numberOfSchedules", "numberOfSchedules",
value.isMember("numberOfSchedules")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ScheduleTypeStruct.scheduleTypeFeatures", "scheduleTypeFeatures",
value.isMember("scheduleTypeFeatures")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "systemMode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.systemMode, value["systemMode"]));
valueCopy.removeMember("systemMode");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "numberOfSchedules");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.numberOfSchedules, value["numberOfSchedules"]));
valueCopy.removeMember("numberOfSchedules");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "scheduleTypeFeatures");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.scheduleTypeFeatures, value["scheduleTypeFeatures"]));
valueCopy.removeMember("scheduleTypeFeatures");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Thermostat::Structs::ScheduleTypeStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.systemMode);
ComplexArgumentParser::Finalize(request.numberOfSchedules);
ComplexArgumentParser::Finalize(request.scheduleTypeFeatures);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Thermostat::Structs::WeeklyScheduleTransitionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("WeeklyScheduleTransitionStruct.transitionTime", "transitionTime",
value.isMember("transitionTime")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("WeeklyScheduleTransitionStruct.heatSetpoint", "heatSetpoint",
value.isMember("heatSetpoint")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("WeeklyScheduleTransitionStruct.coolSetpoint", "coolSetpoint",
value.isMember("coolSetpoint")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "transitionTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.transitionTime, value["transitionTime"]));
valueCopy.removeMember("transitionTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "heatSetpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.heatSetpoint, value["heatSetpoint"]));
valueCopy.removeMember("heatSetpoint");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "coolSetpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.coolSetpoint, value["coolSetpoint"]));
valueCopy.removeMember("coolSetpoint");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Thermostat::Structs::WeeklyScheduleTransitionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.transitionTime);
ComplexArgumentParser::Finalize(request.heatSetpoint);
ComplexArgumentParser::Finalize(request.coolSetpoint);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::OccupancySensing::Structs::HoldTimeLimitsStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("HoldTimeLimitsStruct.holdTimeMin", "holdTimeMin", value.isMember("holdTimeMin")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("HoldTimeLimitsStruct.holdTimeMax", "holdTimeMax", value.isMember("holdTimeMax")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("HoldTimeLimitsStruct.holdTimeDefault", "holdTimeDefault",
value.isMember("holdTimeDefault")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "holdTimeMin");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.holdTimeMin, value["holdTimeMin"]));
valueCopy.removeMember("holdTimeMin");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "holdTimeMax");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.holdTimeMax, value["holdTimeMax"]));
valueCopy.removeMember("holdTimeMax");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "holdTimeDefault");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.holdTimeDefault, value["holdTimeDefault"]));
valueCopy.removeMember("holdTimeDefault");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::OccupancySensing::Structs::HoldTimeLimitsStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.holdTimeMin);
ComplexArgumentParser::Finalize(request.holdTimeMax);
ComplexArgumentParser::Finalize(request.holdTimeDefault);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ThreadNetworkDirectory::Structs::ThreadNetworkStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ThreadNetworkStruct.extendedPanID", "extendedPanID",
value.isMember("extendedPanID")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ThreadNetworkStruct.networkName", "networkName", value.isMember("networkName")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ThreadNetworkStruct.channel", "channel", value.isMember("channel")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ThreadNetworkStruct.activeTimestamp", "activeTimestamp",
value.isMember("activeTimestamp")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "extendedPanID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.extendedPanID, value["extendedPanID"]));
valueCopy.removeMember("extendedPanID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "networkName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.networkName, value["networkName"]));
valueCopy.removeMember("networkName");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "channel");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.channel, value["channel"]));
valueCopy.removeMember("channel");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "activeTimestamp");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.activeTimestamp, value["activeTimestamp"]));
valueCopy.removeMember("activeTimestamp");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ThreadNetworkDirectory::Structs::ThreadNetworkStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.extendedPanID);
ComplexArgumentParser::Finalize(request.networkName);
ComplexArgumentParser::Finalize(request.channel);
ComplexArgumentParser::Finalize(request.activeTimestamp);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Channel::Structs::ProgramCastStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProgramCastStruct.name", "name", value.isMember("name")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProgramCastStruct.role", "role", value.isMember("role")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "role");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.role, value["role"]));
valueCopy.removeMember("role");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::ProgramCastStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.role);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Channel::Structs::ProgramCategoryStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ProgramCategoryStruct.category", "category", value.isMember("category")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "category");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.category, value["category"]));
valueCopy.removeMember("category");
if (value.isMember("subCategory"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "subCategory");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.subCategory, value["subCategory"]));
}
valueCopy.removeMember("subCategory");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::ProgramCategoryStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.category);
ComplexArgumentParser::Finalize(request.subCategory);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Channel::Structs::SeriesInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SeriesInfoStruct.season", "season", value.isMember("season")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("SeriesInfoStruct.episode", "episode", value.isMember("episode")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "season");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.season, value["season"]));
valueCopy.removeMember("season");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "episode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.episode, value["episode"]));
valueCopy.removeMember("episode");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::SeriesInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.season);
ComplexArgumentParser::Finalize(request.episode);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Channel::Structs::ChannelInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ChannelInfoStruct.majorNumber", "majorNumber", value.isMember("majorNumber")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ChannelInfoStruct.minorNumber", "minorNumber", value.isMember("minorNumber")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "majorNumber");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.majorNumber, value["majorNumber"]));
valueCopy.removeMember("majorNumber");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "minorNumber");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.minorNumber, value["minorNumber"]));
valueCopy.removeMember("minorNumber");
if (value.isMember("name"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
}
valueCopy.removeMember("name");
if (value.isMember("callSign"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "callSign");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.callSign, value["callSign"]));
}
valueCopy.removeMember("callSign");
if (value.isMember("affiliateCallSign"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "affiliateCallSign");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.affiliateCallSign, value["affiliateCallSign"]));
}
valueCopy.removeMember("affiliateCallSign");
if (value.isMember("identifier"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "identifier");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.identifier, value["identifier"]));
}
valueCopy.removeMember("identifier");
if (value.isMember("type"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "type");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.type, value["type"]));
}
valueCopy.removeMember("type");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::ChannelInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.majorNumber);
ComplexArgumentParser::Finalize(request.minorNumber);
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.callSign);
ComplexArgumentParser::Finalize(request.affiliateCallSign);
ComplexArgumentParser::Finalize(request.identifier);
ComplexArgumentParser::Finalize(request.type);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Channel::Structs::ProgramStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ProgramStruct.identifier", "identifier", value.isMember("identifier")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProgramStruct.channel", "channel", value.isMember("channel")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ProgramStruct.startTime", "startTime", value.isMember("startTime")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProgramStruct.endTime", "endTime", value.isMember("endTime")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ProgramStruct.title", "title", value.isMember("title")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "identifier");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.identifier, value["identifier"]));
valueCopy.removeMember("identifier");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "channel");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.channel, value["channel"]));
valueCopy.removeMember("channel");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "startTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.startTime, value["startTime"]));
valueCopy.removeMember("startTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endTime");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endTime, value["endTime"]));
valueCopy.removeMember("endTime");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "title");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.title, value["title"]));
valueCopy.removeMember("title");
if (value.isMember("subtitle"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "subtitle");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.subtitle, value["subtitle"]));
}
valueCopy.removeMember("subtitle");
if (value.isMember("description"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "description");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.description, value["description"]));
}
valueCopy.removeMember("description");
if (value.isMember("audioLanguages"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "audioLanguages");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.audioLanguages, value["audioLanguages"]));
}
valueCopy.removeMember("audioLanguages");
if (value.isMember("ratings"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "ratings");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.ratings, value["ratings"]));
}
valueCopy.removeMember("ratings");
if (value.isMember("thumbnailUrl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "thumbnailUrl");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.thumbnailUrl, value["thumbnailUrl"]));
}
valueCopy.removeMember("thumbnailUrl");
if (value.isMember("posterArtUrl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "posterArtUrl");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.posterArtUrl, value["posterArtUrl"]));
}
valueCopy.removeMember("posterArtUrl");
if (value.isMember("dvbiUrl"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "dvbiUrl");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.dvbiUrl, value["dvbiUrl"]));
}
valueCopy.removeMember("dvbiUrl");
if (value.isMember("releaseDate"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "releaseDate");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.releaseDate, value["releaseDate"]));
}
valueCopy.removeMember("releaseDate");
if (value.isMember("parentalGuidanceText"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "parentalGuidanceText");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.parentalGuidanceText, value["parentalGuidanceText"]));
}
valueCopy.removeMember("parentalGuidanceText");
if (value.isMember("recordingFlag"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "recordingFlag");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.recordingFlag, value["recordingFlag"]));
}
valueCopy.removeMember("recordingFlag");
if (value.isMember("seriesInfo"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "seriesInfo");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.seriesInfo, value["seriesInfo"]));
}
valueCopy.removeMember("seriesInfo");
if (value.isMember("categoryList"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "categoryList");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.categoryList, value["categoryList"]));
}
valueCopy.removeMember("categoryList");
if (value.isMember("castList"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "castList");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.castList, value["castList"]));
}
valueCopy.removeMember("castList");
if (value.isMember("externalIDList"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "externalIDList");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.externalIDList, value["externalIDList"]));
}
valueCopy.removeMember("externalIDList");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::ProgramStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.identifier);
ComplexArgumentParser::Finalize(request.channel);
ComplexArgumentParser::Finalize(request.startTime);
ComplexArgumentParser::Finalize(request.endTime);
ComplexArgumentParser::Finalize(request.title);
ComplexArgumentParser::Finalize(request.subtitle);
ComplexArgumentParser::Finalize(request.description);
ComplexArgumentParser::Finalize(request.audioLanguages);
ComplexArgumentParser::Finalize(request.ratings);
ComplexArgumentParser::Finalize(request.thumbnailUrl);
ComplexArgumentParser::Finalize(request.posterArtUrl);
ComplexArgumentParser::Finalize(request.dvbiUrl);
ComplexArgumentParser::Finalize(request.releaseDate);
ComplexArgumentParser::Finalize(request.parentalGuidanceText);
ComplexArgumentParser::Finalize(request.recordingFlag);
ComplexArgumentParser::Finalize(request.seriesInfo);
ComplexArgumentParser::Finalize(request.categoryList);
ComplexArgumentParser::Finalize(request.castList);
ComplexArgumentParser::Finalize(request.externalIDList);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Channel::Structs::PageTokenStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
char labelWithMember[kMaxLabelLength];
if (value.isMember("limit"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "limit");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.limit, value["limit"]));
}
valueCopy.removeMember("limit");
if (value.isMember("after"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "after");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.after, value["after"]));
}
valueCopy.removeMember("after");
if (value.isMember("before"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "before");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.before, value["before"]));
}
valueCopy.removeMember("before");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::PageTokenStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.limit);
ComplexArgumentParser::Finalize(request.after);
ComplexArgumentParser::Finalize(request.before);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Channel::Structs::ChannelPagingStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
char labelWithMember[kMaxLabelLength];
if (value.isMember("previousToken"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "previousToken");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.previousToken, value["previousToken"]));
}
valueCopy.removeMember("previousToken");
if (value.isMember("nextToken"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nextToken");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nextToken, value["nextToken"]));
}
valueCopy.removeMember("nextToken");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::ChannelPagingStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.previousToken);
ComplexArgumentParser::Finalize(request.nextToken);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::Channel::Structs::AdditionalInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AdditionalInfoStruct.name", "name", value.isMember("name")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AdditionalInfoStruct.value", "value", value.isMember("value")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "value");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.value, value["value"]));
valueCopy.removeMember("value");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::AdditionalInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.value);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::Channel::Structs::LineupInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("LineupInfoStruct.operatorName", "operatorName", value.isMember("operatorName")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("LineupInfoStruct.lineupInfoType", "lineupInfoType",
value.isMember("lineupInfoType")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "operatorName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.operatorName, value["operatorName"]));
valueCopy.removeMember("operatorName");
if (value.isMember("lineupName"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "lineupName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.lineupName, value["lineupName"]));
}
valueCopy.removeMember("lineupName");
if (value.isMember("postalCode"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "postalCode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.postalCode, value["postalCode"]));
}
valueCopy.removeMember("postalCode");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "lineupInfoType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.lineupInfoType, value["lineupInfoType"]));
valueCopy.removeMember("lineupInfoType");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::Channel::Structs::LineupInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.operatorName);
ComplexArgumentParser::Finalize(request.lineupName);
ComplexArgumentParser::Finalize(request.postalCode);
ComplexArgumentParser::Finalize(request.lineupInfoType);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::TargetNavigator::Structs::TargetInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("TargetInfoStruct.identifier", "identifier", value.isMember("identifier")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TargetInfoStruct.name", "name", value.isMember("name")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "identifier");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.identifier, value["identifier"]));
valueCopy.removeMember("identifier");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::TargetNavigator::Structs::TargetInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.identifier);
ComplexArgumentParser::Finalize(request.name);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::MediaPlayback::Structs::TrackAttributesStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TrackAttributesStruct.languageCode", "languageCode",
value.isMember("languageCode")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "languageCode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.languageCode, value["languageCode"]));
valueCopy.removeMember("languageCode");
if (value.isMember("displayName"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "displayName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.displayName, value["displayName"]));
}
valueCopy.removeMember("displayName");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::MediaPlayback::Structs::TrackAttributesStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.languageCode);
ComplexArgumentParser::Finalize(request.displayName);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::MediaPlayback::Structs::TrackStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TrackStruct.id", "id", value.isMember("id")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TrackStruct.trackAttributes", "trackAttributes",
value.isMember("trackAttributes")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "id");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.id, value["id"]));
valueCopy.removeMember("id");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "trackAttributes");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.trackAttributes, value["trackAttributes"]));
valueCopy.removeMember("trackAttributes");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::MediaPlayback::Structs::TrackStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.id);
ComplexArgumentParser::Finalize(request.trackAttributes);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::MediaPlayback::Structs::PlaybackPositionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PlaybackPositionStruct.updatedAt", "updatedAt", value.isMember("updatedAt")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PlaybackPositionStruct.position", "position", value.isMember("position")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "updatedAt");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.updatedAt, value["updatedAt"]));
valueCopy.removeMember("updatedAt");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "position");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.position, value["position"]));
valueCopy.removeMember("position");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::MediaPlayback::Structs::PlaybackPositionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.updatedAt);
ComplexArgumentParser::Finalize(request.position);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::MediaInput::Structs::InputInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("InputInfoStruct.index", "index", value.isMember("index")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("InputInfoStruct.inputType", "inputType", value.isMember("inputType")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("InputInfoStruct.name", "name", value.isMember("name")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("InputInfoStruct.description", "description", value.isMember("description")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "index");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.index, value["index"]));
valueCopy.removeMember("index");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "inputType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.inputType, value["inputType"]));
valueCopy.removeMember("inputType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "description");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.description, value["description"]));
valueCopy.removeMember("description");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::MediaInput::Structs::InputInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.index);
ComplexArgumentParser::Finalize(request.inputType);
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.description);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentLauncher::Structs::DimensionStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("DimensionStruct.width", "width", value.isMember("width")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("DimensionStruct.height", "height", value.isMember("height")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("DimensionStruct.metric", "metric", value.isMember("metric")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "width");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.width, value["width"]));
valueCopy.removeMember("width");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "height");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.height, value["height"]));
valueCopy.removeMember("height");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "metric");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.metric, value["metric"]));
valueCopy.removeMember("metric");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentLauncher::Structs::DimensionStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.width);
ComplexArgumentParser::Finalize(request.height);
ComplexArgumentParser::Finalize(request.metric);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentLauncher::Structs::TrackPreferenceStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TrackPreferenceStruct.languageCode", "languageCode",
value.isMember("languageCode")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TrackPreferenceStruct.audioOutputIndex", "audioOutputIndex",
value.isMember("audioOutputIndex")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "languageCode");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.languageCode, value["languageCode"]));
valueCopy.removeMember("languageCode");
if (value.isMember("characteristics"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "characteristics");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.characteristics, value["characteristics"]));
}
valueCopy.removeMember("characteristics");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "audioOutputIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.audioOutputIndex, value["audioOutputIndex"]));
valueCopy.removeMember("audioOutputIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentLauncher::Structs::TrackPreferenceStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.languageCode);
ComplexArgumentParser::Finalize(request.characteristics);
ComplexArgumentParser::Finalize(request.audioOutputIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentLauncher::Structs::PlaybackPreferencesStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("PlaybackPreferencesStruct.playbackPosition", "playbackPosition",
value.isMember("playbackPosition")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("PlaybackPreferencesStruct.textTrack", "textTrack", value.isMember("textTrack")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "playbackPosition");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.playbackPosition, value["playbackPosition"]));
valueCopy.removeMember("playbackPosition");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "textTrack");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.textTrack, value["textTrack"]));
valueCopy.removeMember("textTrack");
if (value.isMember("audioTracks"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "audioTracks");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.audioTracks, value["audioTracks"]));
}
valueCopy.removeMember("audioTracks");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentLauncher::Structs::PlaybackPreferencesStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.playbackPosition);
ComplexArgumentParser::Finalize(request.textTrack);
ComplexArgumentParser::Finalize(request.audioTracks);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentLauncher::Structs::AdditionalInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AdditionalInfoStruct.name", "name", value.isMember("name")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("AdditionalInfoStruct.value", "value", value.isMember("value")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "value");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.value, value["value"]));
valueCopy.removeMember("value");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentLauncher::Structs::AdditionalInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.name);
ComplexArgumentParser::Finalize(request.value);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentLauncher::Structs::ParameterStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ParameterStruct.type", "type", value.isMember("type")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ParameterStruct.value", "value", value.isMember("value")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "type");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.type, value["type"]));
valueCopy.removeMember("type");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "value");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.value, value["value"]));
valueCopy.removeMember("value");
if (value.isMember("externalIDList"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "externalIDList");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.externalIDList, value["externalIDList"]));
}
valueCopy.removeMember("externalIDList");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentLauncher::Structs::ParameterStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.type);
ComplexArgumentParser::Finalize(request.value);
ComplexArgumentParser::Finalize(request.externalIDList);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentLauncher::Structs::ContentSearchStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("ContentSearchStruct.parameterList", "parameterList",
value.isMember("parameterList")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "parameterList");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.parameterList, value["parameterList"]));
valueCopy.removeMember("parameterList");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentLauncher::Structs::ContentSearchStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.parameterList);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentLauncher::Structs::StyleInformationStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
char labelWithMember[kMaxLabelLength];
if (value.isMember("imageURL"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "imageURL");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.imageURL, value["imageURL"]));
}
valueCopy.removeMember("imageURL");
if (value.isMember("color"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "color");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.color, value["color"]));
}
valueCopy.removeMember("color");
if (value.isMember("size"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "size");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.size, value["size"]));
}
valueCopy.removeMember("size");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentLauncher::Structs::StyleInformationStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.imageURL);
ComplexArgumentParser::Finalize(request.color);
ComplexArgumentParser::Finalize(request.size);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentLauncher::Structs::BrandingInformationStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("BrandingInformationStruct.providerName", "providerName",
value.isMember("providerName")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "providerName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.providerName, value["providerName"]));
valueCopy.removeMember("providerName");
if (value.isMember("background"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "background");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.background, value["background"]));
}
valueCopy.removeMember("background");
if (value.isMember("logo"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "logo");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.logo, value["logo"]));
}
valueCopy.removeMember("logo");
if (value.isMember("progressBar"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "progressBar");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.progressBar, value["progressBar"]));
}
valueCopy.removeMember("progressBar");
if (value.isMember("splash"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "splash");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.splash, value["splash"]));
}
valueCopy.removeMember("splash");
if (value.isMember("waterMark"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "waterMark");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.waterMark, value["waterMark"]));
}
valueCopy.removeMember("waterMark");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentLauncher::Structs::BrandingInformationStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.providerName);
ComplexArgumentParser::Finalize(request.background);
ComplexArgumentParser::Finalize(request.logo);
ComplexArgumentParser::Finalize(request.progressBar);
ComplexArgumentParser::Finalize(request.splash);
ComplexArgumentParser::Finalize(request.waterMark);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::AudioOutput::Structs::OutputInfoStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OutputInfoStruct.index", "index", value.isMember("index")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("OutputInfoStruct.outputType", "outputType", value.isMember("outputType")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("OutputInfoStruct.name", "name", value.isMember("name")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "index");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.index, value["index"]));
valueCopy.removeMember("index");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "outputType");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.outputType, value["outputType"]));
valueCopy.removeMember("outputType");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "name");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.name, value["name"]));
valueCopy.removeMember("name");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::AudioOutput::Structs::OutputInfoStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.index);
ComplexArgumentParser::Finalize(request.outputType);
ComplexArgumentParser::Finalize(request.name);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ApplicationLauncher::Structs::ApplicationEPStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("ApplicationEPStruct.application", "application", value.isMember("application")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "application");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.application, value["application"]));
valueCopy.removeMember("application");
if (value.isMember("endpoint"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "endpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.endpoint, value["endpoint"]));
}
valueCopy.removeMember("endpoint");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ApplicationLauncher::Structs::ApplicationEPStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.application);
ComplexArgumentParser::Finalize(request.endpoint);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::ContentControl::Structs::RatingNameStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("RatingNameStruct.ratingName", "ratingName", value.isMember("ratingName")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "ratingName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.ratingName, value["ratingName"]));
valueCopy.removeMember("ratingName");
if (value.isMember("ratingNameDesc"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "ratingNameDesc");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.ratingNameDesc, value["ratingNameDesc"]));
}
valueCopy.removeMember("ratingNameDesc");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::ContentControl::Structs::RatingNameStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.ratingName);
ComplexArgumentParser::Finalize(request.ratingNameDesc);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::EcosystemInformation::Structs::EcosystemDeviceStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EcosystemDeviceStruct.bridgedEndpoint", "bridgedEndpoint",
value.isMember("bridgedEndpoint")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EcosystemDeviceStruct.originalEndpoint", "originalEndpoint",
value.isMember("originalEndpoint")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EcosystemDeviceStruct.deviceTypes", "deviceTypes",
value.isMember("deviceTypes")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EcosystemDeviceStruct.uniqueLocationIDs", "uniqueLocationIDs",
value.isMember("uniqueLocationIDs")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EcosystemDeviceStruct.uniqueLocationIDsLastEdit",
"uniqueLocationIDsLastEdit",
value.isMember("uniqueLocationIDsLastEdit")));
char labelWithMember[kMaxLabelLength];
if (value.isMember("deviceName"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "deviceName");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.deviceName, value["deviceName"]));
}
valueCopy.removeMember("deviceName");
if (value.isMember("deviceNameLastEdit"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "deviceNameLastEdit");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.deviceNameLastEdit, value["deviceNameLastEdit"]));
}
valueCopy.removeMember("deviceNameLastEdit");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "bridgedEndpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.bridgedEndpoint, value["bridgedEndpoint"]));
valueCopy.removeMember("bridgedEndpoint");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "originalEndpoint");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.originalEndpoint, value["originalEndpoint"]));
valueCopy.removeMember("originalEndpoint");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "deviceTypes");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.deviceTypes, value["deviceTypes"]));
valueCopy.removeMember("deviceTypes");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "uniqueLocationIDs");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.uniqueLocationIDs, value["uniqueLocationIDs"]));
valueCopy.removeMember("uniqueLocationIDs");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "uniqueLocationIDsLastEdit");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.uniqueLocationIDsLastEdit, value["uniqueLocationIDsLastEdit"]));
valueCopy.removeMember("uniqueLocationIDsLastEdit");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::EcosystemInformation::Structs::EcosystemDeviceStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.deviceName);
ComplexArgumentParser::Finalize(request.deviceNameLastEdit);
ComplexArgumentParser::Finalize(request.bridgedEndpoint);
ComplexArgumentParser::Finalize(request.originalEndpoint);
ComplexArgumentParser::Finalize(request.deviceTypes);
ComplexArgumentParser::Finalize(request.uniqueLocationIDs);
ComplexArgumentParser::Finalize(request.uniqueLocationIDsLastEdit);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::EcosystemInformation::Structs::EcosystemLocationStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EcosystemLocationStruct.uniqueLocationID", "uniqueLocationID",
value.isMember("uniqueLocationID")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EcosystemLocationStruct.locationDescriptor",
"locationDescriptor", value.isMember("locationDescriptor")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("EcosystemLocationStruct.locationDescriptorLastEdit",
"locationDescriptorLastEdit",
value.isMember("locationDescriptorLastEdit")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "uniqueLocationID");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.uniqueLocationID, value["uniqueLocationID"]));
valueCopy.removeMember("uniqueLocationID");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "locationDescriptor");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.locationDescriptor, value["locationDescriptor"]));
valueCopy.removeMember("locationDescriptor");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "locationDescriptorLastEdit");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.locationDescriptorLastEdit, value["locationDescriptorLastEdit"]));
valueCopy.removeMember("locationDescriptorLastEdit");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::EcosystemInformation::Structs::EcosystemLocationStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.uniqueLocationID);
ComplexArgumentParser::Finalize(request.locationDescriptor);
ComplexArgumentParser::Finalize(request.locationDescriptorLastEdit);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::UnitTesting::Structs::SimpleStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SimpleStruct.a", "a", value.isMember("a")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SimpleStruct.b", "b", value.isMember("b")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SimpleStruct.c", "c", value.isMember("c")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SimpleStruct.d", "d", value.isMember("d")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SimpleStruct.e", "e", value.isMember("e")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SimpleStruct.f", "f", value.isMember("f")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SimpleStruct.g", "g", value.isMember("g")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("SimpleStruct.h", "h", value.isMember("h")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "a");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.a, value["a"]));
valueCopy.removeMember("a");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "b");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.b, value["b"]));
valueCopy.removeMember("b");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "c");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.c, value["c"]));
valueCopy.removeMember("c");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "d");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.d, value["d"]));
valueCopy.removeMember("d");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "e");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.e, value["e"]));
valueCopy.removeMember("e");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "f");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.f, value["f"]));
valueCopy.removeMember("f");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "g");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.g, value["g"]));
valueCopy.removeMember("g");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "h");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.h, value["h"]));
valueCopy.removeMember("h");
if (value.isMember("i"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "i");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.i, value["i"]));
}
valueCopy.removeMember("i");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::UnitTesting::Structs::SimpleStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.a);
ComplexArgumentParser::Finalize(request.b);
ComplexArgumentParser::Finalize(request.c);
ComplexArgumentParser::Finalize(request.d);
ComplexArgumentParser::Finalize(request.e);
ComplexArgumentParser::Finalize(request.f);
ComplexArgumentParser::Finalize(request.g);
ComplexArgumentParser::Finalize(request.h);
ComplexArgumentParser::Finalize(request.i);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::UnitTesting::Structs::TestFabricScoped::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TestFabricScoped.fabricSensitiveInt8u", "fabricSensitiveInt8u",
value.isMember("fabricSensitiveInt8u")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TestFabricScoped.nullableFabricSensitiveInt8u",
"nullableFabricSensitiveInt8u",
value.isMember("nullableFabricSensitiveInt8u")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"TestFabricScoped.fabricSensitiveCharString", "fabricSensitiveCharString", value.isMember("fabricSensitiveCharString")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("TestFabricScoped.fabricSensitiveStruct", "fabricSensitiveStruct",
value.isMember("fabricSensitiveStruct")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist(
"TestFabricScoped.fabricSensitiveInt8uList", "fabricSensitiveInt8uList", value.isMember("fabricSensitiveInt8uList")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricSensitiveInt8u");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.fabricSensitiveInt8u, value["fabricSensitiveInt8u"]));
valueCopy.removeMember("fabricSensitiveInt8u");
if (value.isMember("optionalFabricSensitiveInt8u"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "optionalFabricSensitiveInt8u");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.optionalFabricSensitiveInt8u,
value["optionalFabricSensitiveInt8u"]));
}
valueCopy.removeMember("optionalFabricSensitiveInt8u");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableFabricSensitiveInt8u");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.nullableFabricSensitiveInt8u, value["nullableFabricSensitiveInt8u"]));
valueCopy.removeMember("nullableFabricSensitiveInt8u");
if (value.isMember("nullableOptionalFabricSensitiveInt8u"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableOptionalFabricSensitiveInt8u");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nullableOptionalFabricSensitiveInt8u,
value["nullableOptionalFabricSensitiveInt8u"]));
}
valueCopy.removeMember("nullableOptionalFabricSensitiveInt8u");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricSensitiveCharString");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.fabricSensitiveCharString, value["fabricSensitiveCharString"]));
valueCopy.removeMember("fabricSensitiveCharString");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricSensitiveStruct");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.fabricSensitiveStruct, value["fabricSensitiveStruct"]));
valueCopy.removeMember("fabricSensitiveStruct");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricSensitiveInt8uList");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.fabricSensitiveInt8uList, value["fabricSensitiveInt8uList"]));
valueCopy.removeMember("fabricSensitiveInt8uList");
if (value.isMember("fabricIndex"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "fabricIndex");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.fabricIndex, value["fabricIndex"]));
}
valueCopy.removeMember("fabricIndex");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::UnitTesting::Structs::TestFabricScoped::Type & request)
{
ComplexArgumentParser::Finalize(request.fabricSensitiveInt8u);
ComplexArgumentParser::Finalize(request.optionalFabricSensitiveInt8u);
ComplexArgumentParser::Finalize(request.nullableFabricSensitiveInt8u);
ComplexArgumentParser::Finalize(request.nullableOptionalFabricSensitiveInt8u);
ComplexArgumentParser::Finalize(request.fabricSensitiveCharString);
ComplexArgumentParser::Finalize(request.fabricSensitiveStruct);
ComplexArgumentParser::Finalize(request.fabricSensitiveInt8uList);
ComplexArgumentParser::Finalize(request.fabricIndex);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::UnitTesting::Structs::NullablesAndOptionalsStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NullablesAndOptionalsStruct.nullableInt", "nullableInt",
value.isMember("nullableInt")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NullablesAndOptionalsStruct.nullableString", "nullableString",
value.isMember("nullableString")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NullablesAndOptionalsStruct.nullableStruct", "nullableStruct",
value.isMember("nullableStruct")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NullablesAndOptionalsStruct.nullableList", "nullableList",
value.isMember("nullableList")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableInt");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nullableInt, value["nullableInt"]));
valueCopy.removeMember("nullableInt");
if (value.isMember("optionalInt"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "optionalInt");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.optionalInt, value["optionalInt"]));
}
valueCopy.removeMember("optionalInt");
if (value.isMember("nullableOptionalInt"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableOptionalInt");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.nullableOptionalInt, value["nullableOptionalInt"]));
}
valueCopy.removeMember("nullableOptionalInt");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableString");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nullableString, value["nullableString"]));
valueCopy.removeMember("nullableString");
if (value.isMember("optionalString"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "optionalString");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.optionalString, value["optionalString"]));
}
valueCopy.removeMember("optionalString");
if (value.isMember("nullableOptionalString"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableOptionalString");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.nullableOptionalString, value["nullableOptionalString"]));
}
valueCopy.removeMember("nullableOptionalString");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableStruct");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nullableStruct, value["nullableStruct"]));
valueCopy.removeMember("nullableStruct");
if (value.isMember("optionalStruct"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "optionalStruct");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.optionalStruct, value["optionalStruct"]));
}
valueCopy.removeMember("optionalStruct");
if (value.isMember("nullableOptionalStruct"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableOptionalStruct");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.nullableOptionalStruct, value["nullableOptionalStruct"]));
}
valueCopy.removeMember("nullableOptionalStruct");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableList");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.nullableList, value["nullableList"]));
valueCopy.removeMember("nullableList");
if (value.isMember("optionalList"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "optionalList");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.optionalList, value["optionalList"]));
}
valueCopy.removeMember("optionalList");
if (value.isMember("nullableOptionalList"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "nullableOptionalList");
ReturnErrorOnFailure(
ComplexArgumentParser::Setup(labelWithMember, request.nullableOptionalList, value["nullableOptionalList"]));
}
valueCopy.removeMember("nullableOptionalList");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::UnitTesting::Structs::NullablesAndOptionalsStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.nullableInt);
ComplexArgumentParser::Finalize(request.optionalInt);
ComplexArgumentParser::Finalize(request.nullableOptionalInt);
ComplexArgumentParser::Finalize(request.nullableString);
ComplexArgumentParser::Finalize(request.optionalString);
ComplexArgumentParser::Finalize(request.nullableOptionalString);
ComplexArgumentParser::Finalize(request.nullableStruct);
ComplexArgumentParser::Finalize(request.optionalStruct);
ComplexArgumentParser::Finalize(request.nullableOptionalStruct);
ComplexArgumentParser::Finalize(request.nullableList);
ComplexArgumentParser::Finalize(request.optionalList);
ComplexArgumentParser::Finalize(request.nullableOptionalList);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label, chip::app::Clusters::UnitTesting::Structs::NestedStruct::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStruct.a", "a", value.isMember("a")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStruct.b", "b", value.isMember("b")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStruct.c", "c", value.isMember("c")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "a");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.a, value["a"]));
valueCopy.removeMember("a");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "b");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.b, value["b"]));
valueCopy.removeMember("b");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "c");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.c, value["c"]));
valueCopy.removeMember("c");
if (value.isMember("d"))
{
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "d");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.d, value["d"]));
}
valueCopy.removeMember("d");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::UnitTesting::Structs::NestedStruct::Type & request)
{
ComplexArgumentParser::Finalize(request.a);
ComplexArgumentParser::Finalize(request.b);
ComplexArgumentParser::Finalize(request.c);
ComplexArgumentParser::Finalize(request.d);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::UnitTesting::Structs::NestedStructList::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStructList.a", "a", value.isMember("a")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStructList.b", "b", value.isMember("b")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStructList.c", "c", value.isMember("c")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStructList.d", "d", value.isMember("d")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStructList.e", "e", value.isMember("e")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStructList.f", "f", value.isMember("f")));
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("NestedStructList.g", "g", value.isMember("g")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "a");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.a, value["a"]));
valueCopy.removeMember("a");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "b");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.b, value["b"]));
valueCopy.removeMember("b");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "c");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.c, value["c"]));
valueCopy.removeMember("c");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "d");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.d, value["d"]));
valueCopy.removeMember("d");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "e");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.e, value["e"]));
valueCopy.removeMember("e");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "f");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.f, value["f"]));
valueCopy.removeMember("f");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "g");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.g, value["g"]));
valueCopy.removeMember("g");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::UnitTesting::Structs::NestedStructList::Type & request)
{
ComplexArgumentParser::Finalize(request.a);
ComplexArgumentParser::Finalize(request.b);
ComplexArgumentParser::Finalize(request.c);
ComplexArgumentParser::Finalize(request.d);
ComplexArgumentParser::Finalize(request.e);
ComplexArgumentParser::Finalize(request.f);
ComplexArgumentParser::Finalize(request.g);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::UnitTesting::Structs::DoubleNestedStructList::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(ComplexArgumentParser::EnsureMemberExist("DoubleNestedStructList.a", "a", value.isMember("a")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "a");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.a, value["a"]));
valueCopy.removeMember("a");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::UnitTesting::Structs::DoubleNestedStructList::Type & request)
{
ComplexArgumentParser::Finalize(request.a);
}
CHIP_ERROR ComplexArgumentParser::Setup(const char * label,
chip::app::Clusters::UnitTesting::Structs::TestListStructOctet::Type & request,
Json::Value & value)
{
VerifyOrReturnError(value.isObject(), CHIP_ERROR_INVALID_ARGUMENT);
// Copy to track which members we already processed.
Json::Value valueCopy(value);
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("TestListStructOctet.member1", "member1", value.isMember("member1")));
ReturnErrorOnFailure(
ComplexArgumentParser::EnsureMemberExist("TestListStructOctet.member2", "member2", value.isMember("member2")));
char labelWithMember[kMaxLabelLength];
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "member1");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.member1, value["member1"]));
valueCopy.removeMember("member1");
snprintf(labelWithMember, sizeof(labelWithMember), "%s.%s", label, "member2");
ReturnErrorOnFailure(ComplexArgumentParser::Setup(labelWithMember, request.member2, value["member2"]));
valueCopy.removeMember("member2");
return ComplexArgumentParser::EnsureNoMembersRemaining(label, valueCopy);
}
void ComplexArgumentParser::Finalize(chip::app::Clusters::UnitTesting::Structs::TestListStructOctet::Type & request)
{
ComplexArgumentParser::Finalize(request.member1);
ComplexArgumentParser::Finalize(request.member2);
}