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pigweed/third_party/github/project-chip/connectedhomeip/e458ac501b55e311fae0bcae17c280996b7dc6dd/./examples/lock-app/lock-common/gen/IMClusterCommandHandler.cpp
blob: 348ca06fcdde800b9e2279daa28da06372f43c2e [file]
/*
*
* Copyright (c) 2021 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 <cinttypes>
#include <cstdint>
#include "app/common/gen/af-structs.h"
#include "app/common/gen/callback.h"
#include "app/common/gen/ids/Clusters.h"
#include "app/common/gen/ids/Commands.h"
#include "app/util/util.h"
#include <app/InteractionModelEngine.h>
// Currently we need some work to keep compatible with ember lib.
#include <app/util/ember-compatibility-functions.h>
namespace chip {
namespace app {
// Cluster specific command parsing
namespace clusters {
namespace DiagnosticLogs {
void DispatchServerCommand(app::CommandHandler * apCommandObj, CommandId aCommandId, EndpointId aEndpointId,
TLV::TLVReader & aDataTlv)
{
// We are using TLVUnpackError and TLVError here since both of them can be CHIP_END_OF_TLV
// When TLVError is CHIP_END_OF_TLV, it means we have iterated all of the items, which is not a real error.
// Any error value TLVUnpackError means we have received an illegal value.
// The following variables are used for all commands to save code size.
CHIP_ERROR TLVError = CHIP_NO_ERROR;
CHIP_ERROR TLVUnpackError = CHIP_NO_ERROR;
uint32_t validArgumentCount = 0;
uint32_t expectArgumentCount = 0;
uint32_t currentDecodeTagId = 0;
bool wasHandled = false;
{
switch (aCommandId)
{
case Clusters::DiagnosticLogs::Commands::Ids::RetrieveLogsRequest: {
expectArgumentCount = 3;
uint8_t intent;
uint8_t requestedProtocol;
chip::ByteSpan transferFileDesignator;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0:
TLVUnpackError = aDataTlv.Get(intent);
break;
case 1:
TLVUnpackError = aDataTlv.Get(requestedProtocol);
break;
case 2: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
transferFileDesignator = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled = emberAfDiagnosticLogsClusterRetrieveLogsRequestCallback(aEndpointId, apCommandObj, intent,
requestedProtocol, transferFileDesignator);
}
break;
}
default: {
// Unrecognized command ID, error status will apply.
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::DiagnosticLogs::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kNotFound,
Protocols::SecureChannel::Id,
Protocols::InteractionModel::ProtocolCode::UnsupportedCommand);
ChipLogError(Zcl, "Unknown command " ChipLogFormatMEI " for cluster " ChipLogFormatMEI, ChipLogValueMEI(aCommandId),
ChipLogValueMEI(Clusters::DiagnosticLogs::Id));
return;
}
}
}
if (CHIP_NO_ERROR != TLVError || CHIP_NO_ERROR != TLVUnpackError || expectArgumentCount != validArgumentCount || !wasHandled)
{
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::DiagnosticLogs::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kBadRequest,
Protocols::SecureChannel::Id, Protocols::InteractionModel::ProtocolCode::InvalidCommand);
ChipLogProgress(Zcl,
"Failed to dispatch command, %" PRIu32 "/%" PRIu32 " arguments parsed, TLVError=%" CHIP_ERROR_FORMAT
", UnpackError=%" CHIP_ERROR_FORMAT " (last decoded tag = %" PRIu32,
validArgumentCount, expectArgumentCount, ChipError::FormatError(TLVError),
ChipError::FormatError(TLVUnpackError), currentDecodeTagId);
// A command with no arguments would never write currentDecodeTagId. If
// progress logging is also disabled, it would look unused. Silence that
// warning.
UNUSED_VAR(currentDecodeTagId);
}
}
} // namespace DiagnosticLogs
namespace GeneralCommissioning {
void DispatchServerCommand(app::CommandHandler * apCommandObj, CommandId aCommandId, EndpointId aEndpointId,
TLV::TLVReader & aDataTlv)
{
// We are using TLVUnpackError and TLVError here since both of them can be CHIP_END_OF_TLV
// When TLVError is CHIP_END_OF_TLV, it means we have iterated all of the items, which is not a real error.
// Any error value TLVUnpackError means we have received an illegal value.
// The following variables are used for all commands to save code size.
CHIP_ERROR TLVError = CHIP_NO_ERROR;
CHIP_ERROR TLVUnpackError = CHIP_NO_ERROR;
uint32_t validArgumentCount = 0;
uint32_t expectArgumentCount = 0;
uint32_t currentDecodeTagId = 0;
bool wasHandled = false;
{
switch (aCommandId)
{
case Clusters::GeneralCommissioning::Commands::Ids::ArmFailSafe: {
expectArgumentCount = 3;
uint16_t expiryLengthSeconds;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0:
TLVUnpackError = aDataTlv.Get(expiryLengthSeconds);
break;
case 1:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 2:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled = emberAfGeneralCommissioningClusterArmFailSafeCallback(aEndpointId, apCommandObj, expiryLengthSeconds,
breadcrumb, timeoutMs);
}
break;
}
case Clusters::GeneralCommissioning::Commands::Ids::CommissioningComplete: {
wasHandled = emberAfGeneralCommissioningClusterCommissioningCompleteCallback(aEndpointId, apCommandObj);
break;
}
case Clusters::GeneralCommissioning::Commands::Ids::SetRegulatoryConfig: {
expectArgumentCount = 4;
uint8_t location;
const uint8_t * countryCode;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[4];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 4)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0:
TLVUnpackError = aDataTlv.Get(location);
break;
case 1:
// TODO(#5542): The cluster handlers should accept a ByteSpan for all string types.
TLVUnpackError = aDataTlv.GetDataPtr(countryCode);
break;
case 2:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 3:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 4 == validArgumentCount)
{
wasHandled = emberAfGeneralCommissioningClusterSetRegulatoryConfigCallback(
aEndpointId, apCommandObj, location, const_cast<uint8_t *>(countryCode), breadcrumb, timeoutMs);
}
break;
}
default: {
// Unrecognized command ID, error status will apply.
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::GeneralCommissioning::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kNotFound,
Protocols::SecureChannel::Id,
Protocols::InteractionModel::ProtocolCode::UnsupportedCommand);
ChipLogError(Zcl, "Unknown command " ChipLogFormatMEI " for cluster " ChipLogFormatMEI, ChipLogValueMEI(aCommandId),
ChipLogValueMEI(Clusters::GeneralCommissioning::Id));
return;
}
}
}
if (CHIP_NO_ERROR != TLVError || CHIP_NO_ERROR != TLVUnpackError || expectArgumentCount != validArgumentCount || !wasHandled)
{
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::GeneralCommissioning::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kBadRequest,
Protocols::SecureChannel::Id, Protocols::InteractionModel::ProtocolCode::InvalidCommand);
ChipLogProgress(Zcl,
"Failed to dispatch command, %" PRIu32 "/%" PRIu32 " arguments parsed, TLVError=%" CHIP_ERROR_FORMAT
", UnpackError=%" CHIP_ERROR_FORMAT " (last decoded tag = %" PRIu32,
validArgumentCount, expectArgumentCount, ChipError::FormatError(TLVError),
ChipError::FormatError(TLVUnpackError), currentDecodeTagId);
// A command with no arguments would never write currentDecodeTagId. If
// progress logging is also disabled, it would look unused. Silence that
// warning.
UNUSED_VAR(currentDecodeTagId);
}
}
} // namespace GeneralCommissioning
namespace NetworkCommissioning {
void DispatchServerCommand(app::CommandHandler * apCommandObj, CommandId aCommandId, EndpointId aEndpointId,
TLV::TLVReader & aDataTlv)
{
// We are using TLVUnpackError and TLVError here since both of them can be CHIP_END_OF_TLV
// When TLVError is CHIP_END_OF_TLV, it means we have iterated all of the items, which is not a real error.
// Any error value TLVUnpackError means we have received an illegal value.
// The following variables are used for all commands to save code size.
CHIP_ERROR TLVError = CHIP_NO_ERROR;
CHIP_ERROR TLVUnpackError = CHIP_NO_ERROR;
uint32_t validArgumentCount = 0;
uint32_t expectArgumentCount = 0;
uint32_t currentDecodeTagId = 0;
bool wasHandled = false;
{
switch (aCommandId)
{
case Clusters::NetworkCommissioning::Commands::Ids::AddThreadNetwork: {
expectArgumentCount = 3;
chip::ByteSpan operationalDataset;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
operationalDataset = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 2:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled = emberAfNetworkCommissioningClusterAddThreadNetworkCallback(aEndpointId, apCommandObj,
operationalDataset, breadcrumb, timeoutMs);
}
break;
}
case Clusters::NetworkCommissioning::Commands::Ids::AddWiFiNetwork: {
expectArgumentCount = 4;
chip::ByteSpan ssid;
chip::ByteSpan credentials;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[4];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 4)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
ssid = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
credentials = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 2:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 3:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 4 == validArgumentCount)
{
wasHandled = emberAfNetworkCommissioningClusterAddWiFiNetworkCallback(aEndpointId, apCommandObj, ssid, credentials,
breadcrumb, timeoutMs);
}
break;
}
case Clusters::NetworkCommissioning::Commands::Ids::DisableNetwork: {
expectArgumentCount = 3;
chip::ByteSpan networkID;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
networkID = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 2:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled = emberAfNetworkCommissioningClusterDisableNetworkCallback(aEndpointId, apCommandObj, networkID,
breadcrumb, timeoutMs);
}
break;
}
case Clusters::NetworkCommissioning::Commands::Ids::EnableNetwork: {
expectArgumentCount = 3;
chip::ByteSpan networkID;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
networkID = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 2:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled = emberAfNetworkCommissioningClusterEnableNetworkCallback(aEndpointId, apCommandObj, networkID,
breadcrumb, timeoutMs);
}
break;
}
case Clusters::NetworkCommissioning::Commands::Ids::GetLastNetworkCommissioningResult: {
expectArgumentCount = 1;
uint32_t timeoutMs;
bool argExists[1];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 1)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 1 == validArgumentCount)
{
wasHandled = emberAfNetworkCommissioningClusterGetLastNetworkCommissioningResultCallback(aEndpointId, apCommandObj,
timeoutMs);
}
break;
}
case Clusters::NetworkCommissioning::Commands::Ids::RemoveNetwork: {
expectArgumentCount = 3;
chip::ByteSpan NetworkID;
uint64_t Breadcrumb;
uint32_t TimeoutMs;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
NetworkID = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1:
TLVUnpackError = aDataTlv.Get(Breadcrumb);
break;
case 2:
TLVUnpackError = aDataTlv.Get(TimeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled = emberAfNetworkCommissioningClusterRemoveNetworkCallback(aEndpointId, apCommandObj, NetworkID,
Breadcrumb, TimeoutMs);
}
break;
}
case Clusters::NetworkCommissioning::Commands::Ids::ScanNetworks: {
expectArgumentCount = 3;
chip::ByteSpan ssid;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
ssid = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 2:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled =
emberAfNetworkCommissioningClusterScanNetworksCallback(aEndpointId, apCommandObj, ssid, breadcrumb, timeoutMs);
}
break;
}
case Clusters::NetworkCommissioning::Commands::Ids::UpdateThreadNetwork: {
expectArgumentCount = 3;
chip::ByteSpan operationalDataset;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
operationalDataset = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 2:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled = emberAfNetworkCommissioningClusterUpdateThreadNetworkCallback(
aEndpointId, apCommandObj, operationalDataset, breadcrumb, timeoutMs);
}
break;
}
case Clusters::NetworkCommissioning::Commands::Ids::UpdateWiFiNetwork: {
expectArgumentCount = 4;
chip::ByteSpan ssid;
chip::ByteSpan credentials;
uint64_t breadcrumb;
uint32_t timeoutMs;
bool argExists[4];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 4)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
ssid = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
credentials = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 2:
TLVUnpackError = aDataTlv.Get(breadcrumb);
break;
case 3:
TLVUnpackError = aDataTlv.Get(timeoutMs);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 4 == validArgumentCount)
{
wasHandled = emberAfNetworkCommissioningClusterUpdateWiFiNetworkCallback(aEndpointId, apCommandObj, ssid,
credentials, breadcrumb, timeoutMs);
}
break;
}
default: {
// Unrecognized command ID, error status will apply.
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::NetworkCommissioning::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kNotFound,
Protocols::SecureChannel::Id,
Protocols::InteractionModel::ProtocolCode::UnsupportedCommand);
ChipLogError(Zcl, "Unknown command " ChipLogFormatMEI " for cluster " ChipLogFormatMEI, ChipLogValueMEI(aCommandId),
ChipLogValueMEI(Clusters::NetworkCommissioning::Id));
return;
}
}
}
if (CHIP_NO_ERROR != TLVError || CHIP_NO_ERROR != TLVUnpackError || expectArgumentCount != validArgumentCount || !wasHandled)
{
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::NetworkCommissioning::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kBadRequest,
Protocols::SecureChannel::Id, Protocols::InteractionModel::ProtocolCode::InvalidCommand);
ChipLogProgress(Zcl,
"Failed to dispatch command, %" PRIu32 "/%" PRIu32 " arguments parsed, TLVError=%" CHIP_ERROR_FORMAT
", UnpackError=%" CHIP_ERROR_FORMAT " (last decoded tag = %" PRIu32,
validArgumentCount, expectArgumentCount, ChipError::FormatError(TLVError),
ChipError::FormatError(TLVUnpackError), currentDecodeTagId);
// A command with no arguments would never write currentDecodeTagId. If
// progress logging is also disabled, it would look unused. Silence that
// warning.
UNUSED_VAR(currentDecodeTagId);
}
}
} // namespace NetworkCommissioning
namespace OnOff {
void DispatchServerCommand(app::CommandHandler * apCommandObj, CommandId aCommandId, EndpointId aEndpointId,
TLV::TLVReader & aDataTlv)
{
// We are using TLVUnpackError and TLVError here since both of them can be CHIP_END_OF_TLV
// When TLVError is CHIP_END_OF_TLV, it means we have iterated all of the items, which is not a real error.
// Any error value TLVUnpackError means we have received an illegal value.
// The following variables are used for all commands to save code size.
CHIP_ERROR TLVError = CHIP_NO_ERROR;
CHIP_ERROR TLVUnpackError = CHIP_NO_ERROR;
uint32_t validArgumentCount = 0;
uint32_t expectArgumentCount = 0;
uint32_t currentDecodeTagId = 0;
bool wasHandled = false;
{
switch (aCommandId)
{
case Clusters::OnOff::Commands::Ids::Off: {
wasHandled = emberAfOnOffClusterOffCallback(aEndpointId, apCommandObj);
break;
}
case Clusters::OnOff::Commands::Ids::On: {
wasHandled = emberAfOnOffClusterOnCallback(aEndpointId, apCommandObj);
break;
}
case Clusters::OnOff::Commands::Ids::Toggle: {
wasHandled = emberAfOnOffClusterToggleCallback(aEndpointId, apCommandObj);
break;
}
default: {
// Unrecognized command ID, error status will apply.
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::OnOff::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kNotFound,
Protocols::SecureChannel::Id,
Protocols::InteractionModel::ProtocolCode::UnsupportedCommand);
ChipLogError(Zcl, "Unknown command " ChipLogFormatMEI " for cluster " ChipLogFormatMEI, ChipLogValueMEI(aCommandId),
ChipLogValueMEI(Clusters::OnOff::Id));
return;
}
}
}
if (CHIP_NO_ERROR != TLVError || CHIP_NO_ERROR != TLVUnpackError || expectArgumentCount != validArgumentCount || !wasHandled)
{
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::OnOff::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kBadRequest,
Protocols::SecureChannel::Id, Protocols::InteractionModel::ProtocolCode::InvalidCommand);
ChipLogProgress(Zcl,
"Failed to dispatch command, %" PRIu32 "/%" PRIu32 " arguments parsed, TLVError=%" CHIP_ERROR_FORMAT
", UnpackError=%" CHIP_ERROR_FORMAT " (last decoded tag = %" PRIu32,
validArgumentCount, expectArgumentCount, ChipError::FormatError(TLVError),
ChipError::FormatError(TLVUnpackError), currentDecodeTagId);
// A command with no arguments would never write currentDecodeTagId. If
// progress logging is also disabled, it would look unused. Silence that
// warning.
UNUSED_VAR(currentDecodeTagId);
}
}
} // namespace OnOff
namespace OperationalCredentials {
void DispatchServerCommand(app::CommandHandler * apCommandObj, CommandId aCommandId, EndpointId aEndpointId,
TLV::TLVReader & aDataTlv)
{
// We are using TLVUnpackError and TLVError here since both of them can be CHIP_END_OF_TLV
// When TLVError is CHIP_END_OF_TLV, it means we have iterated all of the items, which is not a real error.
// Any error value TLVUnpackError means we have received an illegal value.
// The following variables are used for all commands to save code size.
CHIP_ERROR TLVError = CHIP_NO_ERROR;
CHIP_ERROR TLVUnpackError = CHIP_NO_ERROR;
uint32_t validArgumentCount = 0;
uint32_t expectArgumentCount = 0;
uint32_t currentDecodeTagId = 0;
bool wasHandled = false;
{
switch (aCommandId)
{
case Clusters::OperationalCredentials::Commands::Ids::AddNOC: {
expectArgumentCount = 4;
chip::ByteSpan NOCArray;
chip::ByteSpan IPKValue;
chip::NodeId CaseAdminNode;
uint16_t AdminVendorId;
bool argExists[4];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 4)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
NOCArray = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 1: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
IPKValue = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
case 2:
TLVUnpackError = aDataTlv.Get(CaseAdminNode);
break;
case 3:
TLVUnpackError = aDataTlv.Get(AdminVendorId);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 4 == validArgumentCount)
{
wasHandled = emberAfOperationalCredentialsClusterAddNOCCallback(aEndpointId, apCommandObj, NOCArray, IPKValue,
CaseAdminNode, AdminVendorId);
}
break;
}
case Clusters::OperationalCredentials::Commands::Ids::AddTrustedRootCertificate: {
expectArgumentCount = 1;
chip::ByteSpan RootCertificate;
bool argExists[1];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 1)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
RootCertificate = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 1 == validArgumentCount)
{
wasHandled = emberAfOperationalCredentialsClusterAddTrustedRootCertificateCallback(aEndpointId, apCommandObj,
RootCertificate);
}
break;
}
case Clusters::OperationalCredentials::Commands::Ids::OpCSRRequest: {
expectArgumentCount = 1;
chip::ByteSpan CSRNonce;
bool argExists[1];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 1)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
CSRNonce = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 1 == validArgumentCount)
{
wasHandled = emberAfOperationalCredentialsClusterOpCSRRequestCallback(aEndpointId, apCommandObj, CSRNonce);
}
break;
}
case Clusters::OperationalCredentials::Commands::Ids::RemoveAllFabrics: {
wasHandled = emberAfOperationalCredentialsClusterRemoveAllFabricsCallback(aEndpointId, apCommandObj);
break;
}
case Clusters::OperationalCredentials::Commands::Ids::RemoveFabric: {
expectArgumentCount = 3;
chip::FabricId FabricId;
chip::NodeId NodeId;
uint16_t VendorId;
bool argExists[3];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 3)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0:
TLVUnpackError = aDataTlv.Get(FabricId);
break;
case 1:
TLVUnpackError = aDataTlv.Get(NodeId);
break;
case 2:
TLVUnpackError = aDataTlv.Get(VendorId);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 3 == validArgumentCount)
{
wasHandled =
emberAfOperationalCredentialsClusterRemoveFabricCallback(aEndpointId, apCommandObj, FabricId, NodeId, VendorId);
}
break;
}
case Clusters::OperationalCredentials::Commands::Ids::RemoveTrustedRootCertificate: {
expectArgumentCount = 1;
chip::ByteSpan TrustedRootIdentifier;
bool argExists[1];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 1)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0: {
const uint8_t * data = nullptr;
TLVUnpackError = aDataTlv.GetDataPtr(data);
TrustedRootIdentifier = chip::ByteSpan(data, aDataTlv.GetLength());
}
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 1 == validArgumentCount)
{
wasHandled = emberAfOperationalCredentialsClusterRemoveTrustedRootCertificateCallback(aEndpointId, apCommandObj,
TrustedRootIdentifier);
}
break;
}
case Clusters::OperationalCredentials::Commands::Ids::SetFabric: {
expectArgumentCount = 1;
uint16_t VendorId;
bool argExists[1];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 1)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0:
TLVUnpackError = aDataTlv.Get(VendorId);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 1 == validArgumentCount)
{
wasHandled = emberAfOperationalCredentialsClusterSetFabricCallback(aEndpointId, apCommandObj, VendorId);
}
break;
}
case Clusters::OperationalCredentials::Commands::Ids::UpdateFabricLabel: {
expectArgumentCount = 1;
const uint8_t * Label;
bool argExists[1];
memset(argExists, 0, sizeof argExists);
while ((TLVError = aDataTlv.Next()) == CHIP_NO_ERROR)
{
// Since call to aDataTlv.Next() is CHIP_NO_ERROR, the read head always points to an element.
// Skip this element if it is not a ContextTag, not consider it as an error if other values are valid.
if (!TLV::IsContextTag(aDataTlv.GetTag()))
{
continue;
}
currentDecodeTagId = TLV::TagNumFromTag(aDataTlv.GetTag());
if (currentDecodeTagId < 1)
{
if (argExists[currentDecodeTagId])
{
ChipLogProgress(Zcl, "Duplicate TLV tag %" PRIx32, TLV::TagNumFromTag(aDataTlv.GetTag()));
TLVUnpackError = CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_ELEMENT;
break;
}
else
{
argExists[currentDecodeTagId] = true;
validArgumentCount++;
}
}
switch (currentDecodeTagId)
{
case 0:
// TODO(#5542): The cluster handlers should accept a ByteSpan for all string types.
TLVUnpackError = aDataTlv.GetDataPtr(Label);
break;
default:
// Unsupported tag, ignore it.
ChipLogProgress(Zcl, "Unknown TLV tag during processing.");
break;
}
if (CHIP_NO_ERROR != TLVUnpackError)
{
break;
}
}
if (CHIP_END_OF_TLV == TLVError)
{
// CHIP_END_OF_TLV means we have iterated all items in the structure, which is not a real error.
TLVError = CHIP_NO_ERROR;
}
if (CHIP_NO_ERROR == TLVError && CHIP_NO_ERROR == TLVUnpackError && 1 == validArgumentCount)
{
wasHandled = emberAfOperationalCredentialsClusterUpdateFabricLabelCallback(aEndpointId, apCommandObj,
const_cast<uint8_t *>(Label));
}
break;
}
default: {
// Unrecognized command ID, error status will apply.
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::OperationalCredentials::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kNotFound,
Protocols::SecureChannel::Id,
Protocols::InteractionModel::ProtocolCode::UnsupportedCommand);
ChipLogError(Zcl, "Unknown command " ChipLogFormatMEI " for cluster " ChipLogFormatMEI, ChipLogValueMEI(aCommandId),
ChipLogValueMEI(Clusters::OperationalCredentials::Id));
return;
}
}
}
if (CHIP_NO_ERROR != TLVError || CHIP_NO_ERROR != TLVUnpackError || expectArgumentCount != validArgumentCount || !wasHandled)
{
chip::app::CommandPathParams returnStatusParam = { aEndpointId,
0, // GroupId
Clusters::OperationalCredentials::Id, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kBadRequest,
Protocols::SecureChannel::Id, Protocols::InteractionModel::ProtocolCode::InvalidCommand);
ChipLogProgress(Zcl,
"Failed to dispatch command, %" PRIu32 "/%" PRIu32 " arguments parsed, TLVError=%" CHIP_ERROR_FORMAT
", UnpackError=%" CHIP_ERROR_FORMAT " (last decoded tag = %" PRIu32,
validArgumentCount, expectArgumentCount, ChipError::FormatError(TLVError),
ChipError::FormatError(TLVUnpackError), currentDecodeTagId);
// A command with no arguments would never write currentDecodeTagId. If
// progress logging is also disabled, it would look unused. Silence that
// warning.
UNUSED_VAR(currentDecodeTagId);
}
}
} // namespace OperationalCredentials
} // namespace clusters
void DispatchSingleClusterCommand(chip::ClusterId aClusterId, chip::CommandId aCommandId, chip::EndpointId aEndPointId,
chip::TLV::TLVReader & aReader, CommandHandler * apCommandObj)
{
ChipLogDetail(Zcl, "Received Cluster Command: Cluster=" ChipLogFormatMEI " Command=" ChipLogFormatMEI " Endpoint=%" PRIx16,
ChipLogValueMEI(aClusterId), ChipLogValueMEI(aCommandId), aEndPointId);
Compatibility::SetupEmberAfObjects(apCommandObj, aClusterId, aCommandId, aEndPointId);
TLV::TLVType dataTlvType;
SuccessOrExit(aReader.EnterContainer(dataTlvType));
switch (aClusterId)
{
case Clusters::DiagnosticLogs::Id:
clusters::DiagnosticLogs::DispatchServerCommand(apCommandObj, aCommandId, aEndPointId, aReader);
break;
case Clusters::GeneralCommissioning::Id:
clusters::GeneralCommissioning::DispatchServerCommand(apCommandObj, aCommandId, aEndPointId, aReader);
break;
case Clusters::NetworkCommissioning::Id:
clusters::NetworkCommissioning::DispatchServerCommand(apCommandObj, aCommandId, aEndPointId, aReader);
break;
case Clusters::OnOff::Id:
clusters::OnOff::DispatchServerCommand(apCommandObj, aCommandId, aEndPointId, aReader);
break;
case Clusters::OperationalCredentials::Id:
clusters::OperationalCredentials::DispatchServerCommand(apCommandObj, aCommandId, aEndPointId, aReader);
break;
default:
// Unrecognized cluster ID, error status will apply.
chip::app::CommandPathParams returnStatusParam = { aEndPointId,
0, // GroupId
aClusterId, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kNotFound,
Protocols::SecureChannel::Id, Protocols::InteractionModel::ProtocolCode::InvalidCommand);
ChipLogError(Zcl, "Unknown cluster %" PRIx32, aClusterId);
break;
}
exit:
Compatibility::ResetEmberAfObjects();
aReader.ExitContainer(dataTlvType);
}
void DispatchSingleClusterResponseCommand(chip::ClusterId aClusterId, chip::CommandId aCommandId, chip::EndpointId aEndPointId,
chip::TLV::TLVReader & aReader, CommandSender * apCommandObj)
{
ChipLogDetail(Zcl, "Received Cluster Command: Cluster=%" PRIx32 " Command=%" PRIx32 " Endpoint=%" PRIx16, aClusterId,
aCommandId, aEndPointId);
Compatibility::SetupEmberAfObjects(apCommandObj, aClusterId, aCommandId, aEndPointId);
TLV::TLVType dataTlvType;
SuccessOrExit(aReader.EnterContainer(dataTlvType));
switch (aClusterId)
{
default:
// Unrecognized cluster ID, error status will apply.
chip::app::CommandPathParams returnStatusParam = { aEndPointId,
0, // GroupId
aClusterId, aCommandId,
(chip::app::CommandPathFlags::kEndpointIdValid) };
apCommandObj->AddStatusCode(returnStatusParam, Protocols::SecureChannel::GeneralStatusCode::kNotFound,
Protocols::SecureChannel::Id, Protocols::InteractionModel::ProtocolCode::InvalidCommand);
ChipLogError(Zcl, "Unknown cluster " ChipLogFormatMEI, ChipLogValueMEI(aClusterId));
break;
}
exit:
Compatibility::ResetEmberAfObjects();
aReader.ExitContainer(dataTlvType);
}
} // namespace app
} // namespace chip