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/*
*
* Copyright (c) 2024 Project CHIP Authors
* All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <AppMain.h>
#include "BridgedAdministratorCommissioning.h"
#include "BridgedDevice.h"
#include "BridgedDeviceBasicInformationImpl.h"
#include "BridgedDeviceManager.h"
#include "CommissionableInit.h"
#include "CommissionerControlDelegate.h"
#include <app/AttributeAccessInterfaceRegistry.h>
#include <app/CommandHandlerInterfaceRegistry.h>
#include <app/clusters/ecosystem-information-server/ecosystem-information-server.h>
#include <lib/support/CHIPArgParser.hpp>
#if defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
#include "RpcClient.h"
#include "RpcServer.h"
#endif
using namespace chip;
using namespace chip::app;
using namespace chip::app::Clusters;
using namespace chip::app::Clusters::AdministratorCommissioning;
using namespace chip::app::Clusters::BridgedDeviceBasicInformation;
// This is declared here and not in a header because zap/embr assumes all clusters
// are defined in a static endpoint in the .zap file. From there, the codegen will
// automatically use PluginApplicationCallbacksHeader.jinja to declare and call
// the respective Init callbacks. However, because EcosystemInformation cluster is only
// ever on a dynamic endpoint, this doesn't get declared and called for us, so we
// need to declare and call it ourselves where the application is initialized.
void MatterEcosystemInformationPluginServerInitCallback();
namespace {
#if defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
constexpr uint16_t kRetryIntervalS = 3;
#endif
uint16_t gFabricAdminServerPort = 33001;
uint16_t gLocalServerPort = 33002;
constexpr uint16_t kOptionFabricAdminServerPortNumber = 0xFF01;
constexpr uint16_t kOptionLocalServerPortNumber = 0xFF02;
ArgParser::OptionDef sProgramCustomOptionDefs[] = {
{ "fabric-admin-server-port", ArgParser::kArgumentRequired, kOptionFabricAdminServerPortNumber },
{ "local-server-port", ArgParser::kArgumentRequired, kOptionLocalServerPortNumber },
{},
};
const char sProgramCustomOptionHelp[] = " --fabric-admin-server-port <port>\n"
" The fabric-admin RPC port number to connect to (default: 33001).\n"
" --local-server-port <port>\n"
" The port number for local RPC server (default: 33002).\n"
"\n";
bool HandleCustomOption(const char * aProgram, ArgParser::OptionSet * aOptions, int aIdentifier, const char * aName,
const char * aValue)
{
switch (aIdentifier)
{
case kOptionFabricAdminServerPortNumber:
gFabricAdminServerPort = static_cast<uint16_t>(atoi(aValue));
break;
case kOptionLocalServerPortNumber:
gLocalServerPort = static_cast<uint16_t>(atoi(aValue));
break;
default:
ArgParser::PrintArgError("%s: INTERNAL ERROR: Unhandled option: %s\n", aProgram, aName);
return false;
}
return true;
}
ArgParser::OptionSet sProgramCustomOptions = { HandleCustomOption, sProgramCustomOptionDefs, "GENERAL OPTIONS",
sProgramCustomOptionHelp };
#if defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
void AttemptRpcClientConnect(System::Layer * systemLayer, void * appState)
{
if (StartRpcClient() == CHIP_NO_ERROR)
{
ChipLogProgress(NotSpecified, "Connected to Fabric-Admin");
}
else
{
ChipLogError(NotSpecified, "Failed to connect to Fabric-Admin, retry in %d seconds....", kRetryIntervalS);
systemLayer->StartTimer(System::Clock::Seconds16(kRetryIntervalS), AttemptRpcClientConnect, nullptr);
}
}
#endif // defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
class AdministratorCommissioningCommandHandler : public CommandHandlerInterface
{
public:
// Register for the AdministratorCommissioning cluster on all endpoints.
AdministratorCommissioningCommandHandler() :
CommandHandlerInterface(Optional<EndpointId>::Missing(), AdministratorCommissioning::Id)
{}
void InvokeCommand(HandlerContext & handlerContext) override;
};
void AdministratorCommissioningCommandHandler::InvokeCommand(HandlerContext & handlerContext)
{
using Protocols::InteractionModel::Status;
EndpointId endpointId = handlerContext.mRequestPath.mEndpointId;
ChipLogProgress(NotSpecified, "Received command to open commissioning window on Endpoint: %d", endpointId);
if (handlerContext.mRequestPath.mCommandId != AdministratorCommissioning::Commands::OpenCommissioningWindow::Id ||
endpointId == kRootEndpointId)
{
// Proceed with default handling in Administrator Commissioning Server
return;
}
handlerContext.SetCommandHandled();
AdministratorCommissioning::Commands::OpenCommissioningWindow::DecodableType commandData;
if (DataModel::Decode(handlerContext.mPayload, commandData) != CHIP_NO_ERROR)
{
handlerContext.mCommandHandler.AddStatus(handlerContext.mRequestPath, Status::InvalidCommand);
return;
}
Status status = Status::Failure;
#if defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
BridgedDevice * device = BridgeDeviceMgr().GetDevice(endpointId);
// TODO: issues:#33784, need to make OpenCommissioningWindow synchronous
if (device != nullptr &&
OpenCommissioningWindow(Controller::CommissioningWindowVerifierParams()
.SetNodeId(device->GetScopedNodeId().GetNodeId())
.SetTimeout(commandData.commissioningTimeout)
.SetDiscriminator(commandData.discriminator)
.SetIteration(commandData.iterations)
.SetSalt(commandData.salt)
.SetVerifier(commandData.PAKEPasscodeVerifier),
device->GetScopedNodeId().GetFabricIndex()) == CHIP_NO_ERROR)
{
ChipLogProgress(NotSpecified, "Commissioning window is now open");
status = Status::Success;
}
else
{
ChipLogProgress(NotSpecified, "Commissioning window failed to open");
}
#else
ChipLogProgress(NotSpecified, "Commissioning window failed to open: PW_RPC_FABRIC_BRIDGE_SERVICE not defined");
#endif // defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
handlerContext.mCommandHandler.AddStatus(handlerContext.mRequestPath, status);
}
class BridgedDeviceInformationCommandHandler : public CommandHandlerInterface
{
public:
// Register for the BridgedDeviceBasicInformation cluster on all endpoints.
BridgedDeviceInformationCommandHandler() :
CommandHandlerInterface(Optional<EndpointId>::Missing(), BridgedDeviceBasicInformation::Id)
{}
void InvokeCommand(HandlerContext & handlerContext) override;
};
void BridgedDeviceInformationCommandHandler::InvokeCommand(HandlerContext & handlerContext)
{
using Protocols::InteractionModel::Status;
VerifyOrReturn(handlerContext.mRequestPath.mCommandId == BridgedDeviceBasicInformation::Commands::KeepActive::Id);
EndpointId endpointId = handlerContext.mRequestPath.mEndpointId;
ChipLogProgress(NotSpecified, "Received command to KeepActive on Endpoint: %d", endpointId);
handlerContext.SetCommandHandled();
BridgedDeviceBasicInformation::Commands::KeepActive::DecodableType commandData;
if (DataModel::Decode(handlerContext.mPayload, commandData) != CHIP_NO_ERROR)
{
handlerContext.mCommandHandler.AddStatus(handlerContext.mRequestPath, Status::InvalidCommand);
return;
}
const uint32_t kMinTimeoutMs = 30 * 1000;
const uint32_t kMaxTimeoutMs = 60 * 60 * 1000;
if (commandData.timeoutMs < kMinTimeoutMs || commandData.timeoutMs > kMaxTimeoutMs)
{
handlerContext.mCommandHandler.AddStatus(handlerContext.mRequestPath, Status::ConstraintError);
return;
}
BridgedDevice * device = BridgeDeviceMgr().GetDevice(endpointId);
if (device == nullptr || !device->IsIcd())
{
handlerContext.mCommandHandler.AddStatus(handlerContext.mRequestPath, Status::Failure);
return;
}
Status status = Status::Failure;
#if defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
if (KeepActive(device->GetScopedNodeId(), commandData.stayActiveDuration, commandData.timeoutMs) == CHIP_NO_ERROR)
{
ChipLogProgress(NotSpecified, "KeepActive successfully processed");
status = Status::Success;
}
else
{
ChipLogProgress(NotSpecified, "KeepActive failed to process");
}
#else
ChipLogProgress(NotSpecified, "Unable to properly call KeepActive: PW_RPC_FABRIC_BRIDGE_SERVICE not defined");
#endif // defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
handlerContext.mCommandHandler.AddStatus(handlerContext.mRequestPath, status);
}
BridgedAdministratorCommissioning gBridgedAdministratorCommissioning;
BridgedDeviceBasicInformationImpl gBridgedDeviceBasicInformationAttributes;
AdministratorCommissioningCommandHandler gAdministratorCommissioningCommandHandler;
BridgedDeviceInformationCommandHandler gBridgedDeviceInformationCommandHandler;
} // namespace
void ApplicationInit()
{
ChipLogDetail(NotSpecified, "Fabric-Bridge: ApplicationInit()");
MatterEcosystemInformationPluginServerInitCallback();
CommandHandlerInterfaceRegistry::Instance().RegisterCommandHandler(&gAdministratorCommissioningCommandHandler);
CommandHandlerInterfaceRegistry::Instance().RegisterCommandHandler(&gBridgedDeviceInformationCommandHandler);
AttributeAccessInterfaceRegistry::Instance().Register(&gBridgedDeviceBasicInformationAttributes);
#if defined(PW_RPC_FABRIC_BRIDGE_SERVICE) && PW_RPC_FABRIC_BRIDGE_SERVICE
SetRpcRemoteServerPort(gFabricAdminServerPort);
InitRpcServer(gLocalServerPort);
AttemptRpcClientConnect(&DeviceLayer::SystemLayer(), nullptr);
#endif
BridgeDeviceMgr().Init();
VerifyOrDie(gBridgedAdministratorCommissioning.Init() == CHIP_NO_ERROR);
VerifyOrDieWithMsg(CommissionerControlInit() == CHIP_NO_ERROR, NotSpecified,
"Failed to initialize Commissioner Control Server");
}
void ApplicationShutdown()
{
ChipLogDetail(NotSpecified, "Fabric-Bridge: ApplicationShutdown()");
if (CommissionerControlShutdown() != CHIP_NO_ERROR)
{
ChipLogError(NotSpecified, "Failed to shutdown Commissioner Control Server");
}
}
int main(int argc, char * argv[])
{
if (ChipLinuxAppInit(argc, argv, &sProgramCustomOptions) != 0)
{
return -1;
}
ChipLinuxAppMainLoop();
return 0;
}