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/*
*
* Copyright (c) 2021 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.
*/
/**
* @file
* Implementation of CHIP Device Controller Factory, a utility/manager class
* that vends Controller objects
*/
#include <controller/CHIPDeviceControllerFactory.h>
#include <app/OperationalSessionSetup.h>
#include <app/TimerDelegates.h>
#include <app/reporting/ReportSchedulerImpl.h>
#include <app/util/DataModelHandler.h>
#include <lib/core/ErrorStr.h>
#include <messaging/ReliableMessageProtocolConfig.h>
#if CONFIG_DEVICE_LAYER
#include <platform/CHIPDeviceLayer.h>
#include <platform/ConfigurationManager.h>
#endif
#include <app/server/Dnssd.h>
#include <protocols/secure_channel/CASEServer.h>
#include <protocols/secure_channel/SimpleSessionResumptionStorage.h>
using namespace chip::Inet;
using namespace chip::System;
using namespace chip::Credentials;
namespace chip {
namespace Controller {
CHIP_ERROR DeviceControllerFactory::Init(FactoryInitParams params)
{
// SystemState is only set the first time init is called, after that it is managed
// internally. If SystemState is set then init has already completed.
if (mSystemState != nullptr)
{
ChipLogError(Controller, "Device Controller Factory already initialized...");
return CHIP_NO_ERROR;
}
// Save our initialization state that we can't recover later from a
// created-but-shut-down system state.
mListenPort = params.listenPort;
mFabricIndependentStorage = params.fabricIndependentStorage;
mOperationalKeystore = params.operationalKeystore;
mOpCertStore = params.opCertStore;
mCertificateValidityPolicy = params.certificateValidityPolicy;
mSessionResumptionStorage = params.sessionResumptionStorage;
mEnableServerInteractions = params.enableServerInteractions;
// Initialize the system state. Note that it is left in a somewhat
// special state where it is initialized, but has a ref count of 0.
CHIP_ERROR err = InitSystemState(params);
return err;
}
CHIP_ERROR DeviceControllerFactory::ReinitSystemStateIfNecessary()
{
VerifyOrReturnError(mSystemState != nullptr, CHIP_ERROR_INCORRECT_STATE);
VerifyOrReturnError(mSystemState->IsShutDown(), CHIP_NO_ERROR);
FactoryInitParams params;
params.systemLayer = mSystemState->SystemLayer();
params.udpEndPointManager = mSystemState->UDPEndPointManager();
#if INET_CONFIG_ENABLE_TCP_ENDPOINT
params.tcpEndPointManager = mSystemState->TCPEndPointManager();
#endif
#if CONFIG_NETWORK_LAYER_BLE
params.bleLayer = mSystemState->BleLayer();
#endif
params.listenPort = mListenPort;
params.fabricIndependentStorage = mFabricIndependentStorage;
params.enableServerInteractions = mEnableServerInteractions;
params.groupDataProvider = mSystemState->GetGroupDataProvider();
params.sessionKeystore = mSystemState->GetSessionKeystore();
params.fabricTable = mSystemState->Fabrics();
params.operationalKeystore = mOperationalKeystore;
params.opCertStore = mOpCertStore;
params.certificateValidityPolicy = mCertificateValidityPolicy;
params.sessionResumptionStorage = mSessionResumptionStorage;
return InitSystemState(params);
}
CHIP_ERROR DeviceControllerFactory::InitSystemState(FactoryInitParams params)
{
if (mSystemState != nullptr)
{
Platform::Delete(mSystemState);
mSystemState = nullptr;
}
DeviceControllerSystemStateParams stateParams;
#if CONFIG_DEVICE_LAYER
ReturnErrorOnFailure(DeviceLayer::PlatformMgr().InitChipStack());
stateParams.systemLayer = &DeviceLayer::SystemLayer();
stateParams.udpEndPointManager = DeviceLayer::UDPEndPointManager();
#if INET_CONFIG_ENABLE_TCP_ENDPOINT
stateParams.tcpEndPointManager = DeviceLayer::TCPEndPointManager();
#endif
#else
stateParams.systemLayer = params.systemLayer;
stateParams.tcpEndPointManager = params.tcpEndPointManager;
stateParams.udpEndPointManager = params.udpEndPointManager;
ChipLogError(Controller, "Warning: Device Controller Factory should be with a CHIP Device Layer...");
#endif // CONFIG_DEVICE_LAYER
VerifyOrReturnError(stateParams.systemLayer != nullptr, CHIP_ERROR_INVALID_ARGUMENT);
VerifyOrReturnError(stateParams.udpEndPointManager != nullptr, CHIP_ERROR_INVALID_ARGUMENT);
// OperationalCertificateStore needs to be provided to init the fabric table if fabric table is
// not provided wholesale.
ReturnErrorCodeIf((params.fabricTable == nullptr) && (params.opCertStore == nullptr), CHIP_ERROR_INVALID_ARGUMENT);
ReturnErrorCodeIf(params.sessionKeystore == nullptr, CHIP_ERROR_INVALID_ARGUMENT);
#if CONFIG_NETWORK_LAYER_BLE
#if CONFIG_DEVICE_LAYER
stateParams.bleLayer = DeviceLayer::ConnectivityMgr().GetBleLayer();
#else
stateParams.bleLayer = params.bleLayer;
#endif // CONFIG_DEVICE_LAYER
#if CHIP_DEVICE_CONFIG_ENABLE_WIFIPAF
stateParams.wifipaf_layer = params.wifipaf_layer;
#endif
VerifyOrReturnError(stateParams.bleLayer != nullptr, CHIP_ERROR_INVALID_ARGUMENT);
#endif
stateParams.transportMgr = chip::Platform::New<DeviceTransportMgr>();
//
// The logic below expects IPv6 to be at index 0 of this tuple. Please do not alter that.
//
ReturnErrorOnFailure(stateParams.transportMgr->Init(Transport::UdpListenParameters(stateParams.udpEndPointManager)
.SetAddressType(Inet::IPAddressType::kIPv6)
.SetListenPort(params.listenPort)
#if INET_CONFIG_ENABLE_IPV4
,
Transport::UdpListenParameters(stateParams.udpEndPointManager)
.SetAddressType(Inet::IPAddressType::kIPv4)
.SetListenPort(params.listenPort)
#endif
#if CONFIG_NETWORK_LAYER_BLE
,
Transport::BleListenParameters(stateParams.bleLayer)
#endif
#if INET_CONFIG_ENABLE_TCP_ENDPOINT
,
Transport::TcpListenParameters(stateParams.tcpEndPointManager)
.SetAddressType(IPAddressType::kIPv6)
.SetListenPort(params.listenPort)
#endif
#if CHIP_DEVICE_CONFIG_ENABLE_WIFIPAF
,
Transport::WiFiPAFListenParameters()
#endif
));
// TODO(#16231): All the new'ed state above/below in this method is never properly released or null-checked!
stateParams.sessionMgr = chip::Platform::New<SessionManager>();
stateParams.certificateValidityPolicy = params.certificateValidityPolicy;
stateParams.unsolicitedStatusHandler = Platform::New<Protocols::SecureChannel::UnsolicitedStatusHandler>();
stateParams.exchangeMgr = chip::Platform::New<Messaging::ExchangeManager>();
stateParams.messageCounterManager = chip::Platform::New<secure_channel::MessageCounterManager>();
stateParams.groupDataProvider = params.groupDataProvider;
stateParams.timerDelegate = chip::Platform::New<chip::app::DefaultTimerDelegate>();
stateParams.reportScheduler = chip::Platform::New<app::reporting::ReportSchedulerImpl>(stateParams.timerDelegate);
stateParams.sessionKeystore = params.sessionKeystore;
stateParams.bdxTransferServer = chip::Platform::New<bdx::BDXTransferServer>();
// if no fabricTable was provided, create one and track it in stateParams for cleanup
stateParams.fabricTable = params.fabricTable;
FabricTable * tempFabricTable = nullptr;
if (stateParams.fabricTable == nullptr)
{
// TODO(#16231): Previously (and still) the objects new-ed in this entire method seem expected to last forever...
auto newFabricTable = Platform::MakeUnique<FabricTable>();
ReturnErrorCodeIf(!newFabricTable, CHIP_ERROR_NO_MEMORY);
FabricTable::InitParams fabricTableInitParams;
fabricTableInitParams.storage = params.fabricIndependentStorage;
fabricTableInitParams.operationalKeystore = params.operationalKeystore;
fabricTableInitParams.opCertStore = params.opCertStore;
ReturnErrorOnFailure(newFabricTable->Init(fabricTableInitParams));
stateParams.fabricTable = newFabricTable.release();
tempFabricTable = stateParams.fabricTable;
}
SessionResumptionStorage * sessionResumptionStorage;
if (params.sessionResumptionStorage == nullptr)
{
auto ownedSessionResumptionStorage = chip::Platform::MakeUnique<SimpleSessionResumptionStorage>();
ReturnErrorOnFailure(ownedSessionResumptionStorage->Init(params.fabricIndependentStorage));
stateParams.ownedSessionResumptionStorage = std::move(ownedSessionResumptionStorage);
stateParams.externalSessionResumptionStorage = nullptr;
sessionResumptionStorage = stateParams.ownedSessionResumptionStorage.get();
}
else
{
stateParams.ownedSessionResumptionStorage = nullptr;
stateParams.externalSessionResumptionStorage = params.sessionResumptionStorage;
sessionResumptionStorage = stateParams.externalSessionResumptionStorage;
}
auto delegate = chip::Platform::MakeUnique<ControllerFabricDelegate>();
ReturnErrorOnFailure(delegate->Init(sessionResumptionStorage, stateParams.groupDataProvider));
stateParams.fabricTableDelegate = delegate.get();
ReturnErrorOnFailure(stateParams.fabricTable->AddFabricDelegate(stateParams.fabricTableDelegate));
delegate.release();
ReturnErrorOnFailure(stateParams.sessionMgr->Init(stateParams.systemLayer, stateParams.transportMgr,
stateParams.messageCounterManager, params.fabricIndependentStorage,
stateParams.fabricTable, *stateParams.sessionKeystore));
ReturnErrorOnFailure(stateParams.exchangeMgr->Init(stateParams.sessionMgr));
ReturnErrorOnFailure(stateParams.messageCounterManager->Init(stateParams.exchangeMgr));
ReturnErrorOnFailure(stateParams.unsolicitedStatusHandler->Init(stateParams.exchangeMgr));
ReturnErrorOnFailure(stateParams.bdxTransferServer->Init(stateParams.systemLayer, stateParams.exchangeMgr));
InitDataModelHandler();
ReturnErrorOnFailure(Dnssd::Resolver::Instance().Init(stateParams.udpEndPointManager));
if (params.enableServerInteractions)
{
stateParams.caseServer = chip::Platform::New<CASEServer>();
// Enable listening for session establishment messages.
ReturnErrorOnFailure(stateParams.caseServer->ListenForSessionEstablishment(
stateParams.exchangeMgr, stateParams.sessionMgr, stateParams.fabricTable, sessionResumptionStorage,
stateParams.certificateValidityPolicy, stateParams.groupDataProvider));
//
// We need to advertise the port that we're listening to for unsolicited messages over UDP. However, we have both a IPv4
// and IPv6 endpoint to pick from. Given that the listen port passed in may be set to 0 (which then has the kernel select
// a valid port at bind time), that will result in two possible ports being provided back from the resultant endpoint
// initializations. Since IPv6 is POR for Matter, let's go ahead and pick that port.
//
app::DnssdServer::Instance().SetSecuredPort(stateParams.transportMgr->GetTransport().GetImplAtIndex<0>().GetBoundPort());
//
// TODO: This is a hack to workaround the fact that we have a bi-polar stack that has controller and server modalities that
// are mutually exclusive in terms of initialization of key stack singletons. Consequently, DnssdServer accesses
// Server::GetInstance().GetFabricTable() to access the fabric table, but we don't want to do that when we're initializing
// the controller logic since the factory here has its own fabric table.
//
// Consequently, reach in set the fabric table pointer to point to the right version.
//
app::DnssdServer::Instance().SetFabricTable(stateParams.fabricTable);
}
stateParams.sessionSetupPool = Platform::New<DeviceControllerSystemStateParams::SessionSetupPool>();
stateParams.caseClientPool = Platform::New<DeviceControllerSystemStateParams::CASEClientPool>();
CASEClientInitParams sessionInitParams = {
.sessionManager = stateParams.sessionMgr,
.sessionResumptionStorage = sessionResumptionStorage,
.certificateValidityPolicy = stateParams.certificateValidityPolicy,
.exchangeMgr = stateParams.exchangeMgr,
.fabricTable = stateParams.fabricTable,
.groupDataProvider = stateParams.groupDataProvider,
// Don't provide an MRP local config, so each CASE initiation will use
// the then-current value.
.mrpLocalConfig = NullOptional,
};
CASESessionManagerConfig sessionManagerConfig = {
.sessionInitParams = sessionInitParams,
.clientPool = stateParams.caseClientPool,
.sessionSetupPool = stateParams.sessionSetupPool,
};
// TODO: Need to be able to create a CASESessionManagerConfig here!
stateParams.caseSessionManager = Platform::New<CASESessionManager>();
ReturnErrorOnFailure(stateParams.caseSessionManager->Init(stateParams.systemLayer, sessionManagerConfig));
ReturnErrorOnFailure(chip::app::InteractionModelEngine::GetInstance()->Init(
stateParams.exchangeMgr, stateParams.fabricTable, stateParams.reportScheduler, stateParams.caseSessionManager));
// store the system state
mSystemState = chip::Platform::New<DeviceControllerSystemState>(std::move(stateParams));
mSystemState->SetTempFabricTable(tempFabricTable, params.enableServerInteractions);
ChipLogDetail(Controller, "System State Initialized...");
return CHIP_NO_ERROR;
}
void DeviceControllerFactory::PopulateInitParams(ControllerInitParams & controllerParams, const SetupParams & params)
{
controllerParams.operationalCredentialsDelegate = params.operationalCredentialsDelegate;
controllerParams.operationalKeypair = params.operationalKeypair;
controllerParams.hasExternallyOwnedOperationalKeypair = params.hasExternallyOwnedOperationalKeypair;
controllerParams.controllerNOC = params.controllerNOC;
controllerParams.controllerICAC = params.controllerICAC;
controllerParams.controllerRCAC = params.controllerRCAC;
controllerParams.permitMultiControllerFabrics = params.permitMultiControllerFabrics;
controllerParams.removeFromFabricTableOnShutdown = params.removeFromFabricTableOnShutdown;
controllerParams.deleteFromFabricTableOnShutdown = params.deleteFromFabricTableOnShutdown;
controllerParams.systemState = mSystemState;
controllerParams.controllerVendorId = params.controllerVendorId;
controllerParams.enableServerInteractions = params.enableServerInteractions;
if (params.fabricIndex.HasValue())
{
controllerParams.fabricIndex.SetValue(params.fabricIndex.Value());
}
}
void DeviceControllerFactory::ControllerInitialized(const DeviceController & controller)
{
if (mEnableServerInteractions && controller.GetFabricIndex() != kUndefinedFabricIndex)
{
// Restart DNS-SD advertising, because initialization of this controller could
// have modified whether a particular fabric identity should be
// advertised. Just calling AdvertiseOperational() is not good enough
// here, since we might be removing advertising.
app::DnssdServer::Instance().StartServer();
}
}
CHIP_ERROR DeviceControllerFactory::SetupController(SetupParams params, DeviceController & controller)
{
VerifyOrReturnError(params.controllerVendorId != VendorId::Unspecified, CHIP_ERROR_INVALID_ARGUMENT);
ReturnErrorOnFailure(ReinitSystemStateIfNecessary());
ControllerInitParams controllerParams;
PopulateInitParams(controllerParams, params);
CHIP_ERROR err = controller.Init(controllerParams);
if (err == CHIP_NO_ERROR)
{
ControllerInitialized(controller);
}
return err;
}
CHIP_ERROR DeviceControllerFactory::SetupCommissioner(SetupParams params, DeviceCommissioner & commissioner)
{
VerifyOrReturnError(params.controllerVendorId != VendorId::Unspecified, CHIP_ERROR_INVALID_ARGUMENT);
ReturnErrorOnFailure(ReinitSystemStateIfNecessary());
CommissionerInitParams commissionerParams;
// PopulateInitParams works against ControllerInitParams base class of CommissionerInitParams only
PopulateInitParams(commissionerParams, params);
// Set commissioner-specific fields not in ControllerInitParams
commissionerParams.pairingDelegate = params.pairingDelegate;
commissionerParams.defaultCommissioner = params.defaultCommissioner;
commissionerParams.deviceAttestationVerifier = params.deviceAttestationVerifier;
CHIP_ERROR err = commissioner.Init(commissionerParams);
if (err == CHIP_NO_ERROR)
{
ControllerInitialized(commissioner);
}
return err;
}
CHIP_ERROR DeviceControllerFactory::ServiceEvents()
{
VerifyOrReturnError(mSystemState != nullptr, CHIP_ERROR_INCORRECT_STATE);
#if CONFIG_DEVICE_LAYER
ReturnErrorOnFailure(DeviceLayer::PlatformMgr().StartEventLoopTask());
#endif // CONFIG_DEVICE_LAYER
return CHIP_NO_ERROR;
}
void DeviceControllerFactory::RetainSystemState()
{
(void) mSystemState->Retain();
}
bool DeviceControllerFactory::ReleaseSystemState()
{
return mSystemState->Release();
}
CHIP_ERROR DeviceControllerFactory::EnsureAndRetainSystemState()
{
ReturnErrorOnFailure(ReinitSystemStateIfNecessary());
RetainSystemState();
return CHIP_NO_ERROR;
}
DeviceControllerFactory::~DeviceControllerFactory()
{
Shutdown();
}
void DeviceControllerFactory::Shutdown()
{
if (mSystemState != nullptr)
{
// ~DeviceControllerSystemState will call Shutdown(),
// which in turn ensures that the reference count is 0.
Platform::Delete(mSystemState);
mSystemState = nullptr;
}
mFabricIndependentStorage = nullptr;
mOperationalKeystore = nullptr;
mOpCertStore = nullptr;
mCertificateValidityPolicy = nullptr;
mSessionResumptionStorage = nullptr;
}
void DeviceControllerSystemState::Shutdown()
{
VerifyOrDie(mRefCount == 0);
if (mHaveShutDown)
{
// Nothing else to do here.
return;
}
mHaveShutDown = true;
ChipLogDetail(Controller, "Shutting down the System State, this will teardown the CHIP Stack");
if (mTempFabricTable && mEnableServerInteractions)
{
// The DnssdServer is holding a reference to our temp fabric table,
// which we are about to destroy. Stop it, so that it will stop trying
// to use it.
app::DnssdServer::Instance().StopServer();
}
if (mFabricTableDelegate != nullptr)
{
if (mFabrics != nullptr)
{
mFabrics->RemoveFabricDelegate(mFabricTableDelegate);
}
chip::Platform::Delete(mFabricTableDelegate);
mFabricTableDelegate = nullptr;
}
if (mBDXTransferServer != nullptr)
{
mBDXTransferServer->Shutdown();
chip::Platform::Delete(mBDXTransferServer);
mBDXTransferServer = nullptr;
}
if (mCASEServer != nullptr)
{
mCASEServer->Shutdown();
chip::Platform::Delete(mCASEServer);
mCASEServer = nullptr;
}
if (mCASESessionManager != nullptr)
{
mCASESessionManager->Shutdown();
Platform::Delete(mCASESessionManager);
mCASESessionManager = nullptr;
}
// The above took care of CASE handshakes, and shutting down all the
// controllers should have taken care of the PASE handshakes. Clean up any
// outstanding secure sessions (shouldn't really be any, since controllers
// should have handled that, but just in case).
if (mSessionMgr != nullptr)
{
mSessionMgr->ExpireAllSecureSessions();
}
// mCASEClientPool and mSessionSetupPool must be deallocated
// after mCASESessionManager, which uses them.
if (mSessionSetupPool != nullptr)
{
Platform::Delete(mSessionSetupPool);
mSessionSetupPool = nullptr;
}
if (mCASEClientPool != nullptr)
{
Platform::Delete(mCASEClientPool);
mCASEClientPool = nullptr;
}
Dnssd::Resolver::Instance().Shutdown();
// Shut down the interaction model
app::InteractionModelEngine::GetInstance()->Shutdown();
// Shut down the TransportMgr. This holds Inet::UDPEndPoints so it must be shut down
// before PlatformMgr().Shutdown() shuts down Inet.
if (mTransportMgr != nullptr)
{
mTransportMgr->Close();
chip::Platform::Delete(mTransportMgr);
mTransportMgr = nullptr;
}
if (mExchangeMgr != nullptr)
{
mExchangeMgr->Shutdown();
}
if (mSessionMgr != nullptr)
{
mSessionMgr->Shutdown();
}
mSystemLayer = nullptr;
mUDPEndPointManager = nullptr;
#if INET_CONFIG_ENABLE_TCP_ENDPOINT
mTCPEndPointManager = nullptr;
#endif
#if CONFIG_NETWORK_LAYER_BLE
mBleLayer = nullptr;
#endif // CONFIG_NETWORK_LAYER_BLE
if (mMessageCounterManager != nullptr)
{
chip::Platform::Delete(mMessageCounterManager);
mMessageCounterManager = nullptr;
}
if (mExchangeMgr != nullptr)
{
chip::Platform::Delete(mExchangeMgr);
mExchangeMgr = nullptr;
}
if (mUnsolicitedStatusHandler != nullptr)
{
Platform::Delete(mUnsolicitedStatusHandler);
mUnsolicitedStatusHandler = nullptr;
}
if (mSessionMgr != nullptr)
{
chip::Platform::Delete(mSessionMgr);
mSessionMgr = nullptr;
}
if (mReportScheduler != nullptr)
{
chip::Platform::Delete(mReportScheduler);
mReportScheduler = nullptr;
}
if (mTimerDelegate != nullptr)
{
chip::Platform::Delete(mTimerDelegate);
mTimerDelegate = nullptr;
}
if (mTempFabricTable != nullptr)
{
mTempFabricTable->Shutdown();
chip::Platform::Delete(mTempFabricTable);
mTempFabricTable = nullptr;
// if we created a temp fabric table, then mFabrics points to it.
// if we did not create a temp fabric table, then keep the reference
// so that SetupController/Commissioner can use it
mFabrics = nullptr;
}
#if CONFIG_DEVICE_LAYER
//
// We can safely call PlatformMgr().Shutdown(), which like DeviceController::Shutdown(),
// expects to be called with external thread synchronization and will not try to acquire the
// stack lock.
//
// Actually stopping the event queue is a separable call that applications will have to sequence.
// Consumers are expected to call PlaformMgr().StopEventLoopTask() before calling
// DeviceController::Shutdown() in the CONFIG_DEVICE_LAYER configuration
//
DeviceLayer::PlatformMgr().Shutdown();
#endif
}
} // namespace Controller
} // namespace chip