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/*
*
* Copyright (c) 2020 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.
*/
#pragma once
#include <app/AppConfig.h>
#include <app/icd/server/ICDServerConfig.h>
#include <access/AccessControl.h>
#include <access/examples/ExampleAccessControlDelegate.h>
#include <app/CASEClientPool.h>
#include <app/CASESessionManager.h>
#include <app/DefaultAttributePersistenceProvider.h>
#include <app/FailSafeContext.h>
#include <app/OperationalSessionSetupPool.h>
#include <app/SimpleSubscriptionResumptionStorage.h>
#include <app/TestEventTriggerDelegate.h>
#include <app/server/AclStorage.h>
#include <app/server/AppDelegate.h>
#include <app/server/CommissioningWindowManager.h>
#include <app/server/DefaultAclStorage.h>
#include <credentials/CertificateValidityPolicy.h>
#include <credentials/FabricTable.h>
#include <credentials/GroupDataProvider.h>
#include <credentials/GroupDataProviderImpl.h>
#include <credentials/OperationalCertificateStore.h>
#include <credentials/PersistentStorageOpCertStore.h>
#include <crypto/DefaultSessionKeystore.h>
#include <crypto/OperationalKeystore.h>
#include <crypto/PersistentStorageOperationalKeystore.h>
#include <inet/InetConfig.h>
#include <lib/core/CHIPConfig.h>
#include <lib/support/SafeInt.h>
#include <messaging/ExchangeMgr.h>
#include <platform/DeviceInstanceInfoProvider.h>
#include <platform/KeyValueStoreManager.h>
#include <platform/KvsPersistentStorageDelegate.h>
#include <protocols/secure_channel/CASEServer.h>
#include <protocols/secure_channel/MessageCounterManager.h>
#include <protocols/secure_channel/PASESession.h>
#include <protocols/secure_channel/RendezvousParameters.h>
#include <protocols/secure_channel/UnsolicitedStatusHandler.h>
#if CHIP_CONFIG_ENABLE_SESSION_RESUMPTION
#include <protocols/secure_channel/SimpleSessionResumptionStorage.h>
#endif
#include <protocols/user_directed_commissioning/UserDirectedCommissioning.h>
#include <system/SystemClock.h>
#include <transport/SessionManager.h>
#include <transport/TransportMgr.h>
#include <transport/TransportMgrBase.h>
#if CONFIG_NETWORK_LAYER_BLE
#include <transport/raw/BLE.h>
#endif
#if CHIP_DEVICE_CONFIG_ENABLE_WIFIPAF
#include <transport/raw/WiFiPAF.h>
#endif
#include <app/TimerDelegates.h>
#include <app/reporting/ReportSchedulerImpl.h>
#include <transport/raw/UDP.h>
#include <app/icd/server/ICDCheckInBackOffStrategy.h>
#if CHIP_CONFIG_ENABLE_ICD_SERVER
#include <app/icd/server/ICDManager.h> // nogncheck
#if CHIP_CONFIG_ENABLE_ICD_CIP
#include <app/icd/server/DefaultICDCheckInBackOffStrategy.h> // nogncheck
#endif
#endif
namespace chip {
inline constexpr size_t kMaxBlePendingPackets = 1;
#if INET_CONFIG_ENABLE_TCP_ENDPOINT
inline constexpr size_t kMaxTcpActiveConnectionCount = CHIP_CONFIG_MAX_ACTIVE_TCP_CONNECTIONS;
inline constexpr size_t kMaxTcpPendingPackets = CHIP_CONFIG_MAX_TCP_PENDING_PACKETS;
#endif // INET_CONFIG_ENABLE_TCP_ENDPOINT
//
// NOTE: Please do not alter the order of template specialization here as the logic
// in the Server impl depends on this.
//
using ServerTransportMgr = chip::TransportMgr<chip::Transport::UDP
#if INET_CONFIG_ENABLE_IPV4
,
chip::Transport::UDP
#endif
#if CONFIG_NETWORK_LAYER_BLE
,
chip::Transport::BLE<kMaxBlePendingPackets>
#endif
#if INET_CONFIG_ENABLE_TCP_ENDPOINT
,
chip::Transport::TCP<kMaxTcpActiveConnectionCount, kMaxTcpPendingPackets>
#endif
#if CHIP_DEVICE_CONFIG_ENABLE_WIFIPAF
,
chip::Transport::WiFiPAFBase
#endif
>;
#if CHIP_DEVICE_CONFIG_ENABLE_COMMISSIONER_DISCOVERY_CLIENT
using UdcTransportMgr = TransportMgr<Transport::UDP /* IPv6 */
#if INET_CONFIG_ENABLE_IPV4
,
Transport::UDP /* IPv4 */
#endif
>;
#endif
struct ServerInitParams
{
ServerInitParams() = default;
// Not copyable
ServerInitParams(const ServerInitParams &) = delete;
ServerInitParams & operator=(const ServerInitParams &) = delete;
// Application delegate to handle some commissioning lifecycle events
AppDelegate * appDelegate = nullptr;
// Port to use for Matter commissioning/operational traffic
uint16_t operationalServicePort = CHIP_PORT;
// Port to use for UDC if supported
uint16_t userDirectedCommissioningPort = CHIP_UDC_PORT;
// Interface on which to run daemon
Inet::InterfaceId interfaceId = Inet::InterfaceId::Null();
// Persistent storage delegate: MUST be injected. Used to maintain storage by much common code.
// Must be initialized before being provided.
PersistentStorageDelegate * persistentStorageDelegate = nullptr;
// Session resumption storage: Optional. Support session resumption when provided.
// Must be initialized before being provided.
SessionResumptionStorage * sessionResumptionStorage = nullptr;
// Session resumption storage: Optional. Support session resumption when provided.
// Must be initialized before being provided.
app::SubscriptionResumptionStorage * subscriptionResumptionStorage = nullptr;
// Certificate validity policy: Optional. If none is injected, CHIPCert
// enforces a default policy.
Credentials::CertificateValidityPolicy * certificateValidityPolicy = nullptr;
// Group data provider: MUST be injected. Used to maintain critical keys such as the Identity
// Protection Key (IPK) for CASE. Must be initialized before being provided.
Credentials::GroupDataProvider * groupDataProvider = nullptr;
// Session keystore: MUST be injected. Used to derive and manage lifecycle of symmetric keys.
Crypto::SessionKeystore * sessionKeystore = nullptr;
// Access control delegate: MUST be injected. Used to look up access control rules. Must be
// initialized before being provided.
Access::AccessControl::Delegate * accessDelegate = nullptr;
// ACL storage: MUST be injected. Used to store ACL entries in persistent storage. Must NOT
// be initialized before being provided.
app::AclStorage * aclStorage = nullptr;
#if CHIP_CONFIG_USE_ACCESS_RESTRICTIONS
// Access Restriction implementation: MUST be injected if MNGD feature enabled. Used to enforce
// access restrictions that are managed by the device.
Access::AccessRestrictionProvider * accessRestrictionProvider = nullptr;
#endif
// Network native params can be injected depending on the
// selected Endpoint implementation
void * endpointNativeParams = nullptr;
// Optional. Support test event triggers when provided. Must be initialized before being
// provided.
TestEventTriggerDelegate * testEventTriggerDelegate = nullptr;
// Operational keystore with access to the operational keys: MUST be injected.
Crypto::OperationalKeystore * operationalKeystore = nullptr;
// Operational certificate store with access to the operational certs in persisted storage:
// must not be null at timne of Server::Init().
Credentials::OperationalCertificateStore * opCertStore = nullptr;
// Required, if not provided, the Server::Init() WILL fail.
app::reporting::ReportScheduler * reportScheduler = nullptr;
// Optional. Support for the ICD Check-In BackOff strategy. Must be initialized before being provided.
// If the ICD Check-In protocol use-case is supported and no strategy is provided, server will use the default strategy.
app::ICDCheckInBackOffStrategy * icdCheckInBackOffStrategy = nullptr;
};
/**
* Transitional version of ServerInitParams to assist SDK integrators in
* transitioning to injecting product/platform-owned resources. This version
* of `ServerInitParams` statically owns and initializes (via the
* `InitializeStaticResourcesBeforeServerInit()` method) the persistent storage
* delegate, the group data provider, and the access control delegate. This is to reduce
* the amount of copied boilerplate in all the example initializations (e.g. AppTask.cpp,
* main.cpp).
*
* This version SHOULD BE USED ONLY FOR THE IN-TREE EXAMPLES.
*
* ACTION ITEMS FOR TRANSITION from a example in-tree to a product:
*
* While this could be used indefinitely, it does not exemplify orderly management of
* application-injected resources. It is recommended for actual products to instead:
* - Use the basic ServerInitParams in the application
* - Have the application own an instance of the resources being injected in its own
* state (e.g. an implementation of PersistentStorageDelegate and GroupDataProvider
* interfaces).
* - Initialize the injected resources prior to calling Server::Init()
* - De-initialize the injected resources after calling Server::Shutdown()
*
* WARNING: DO NOT replicate the pattern shown here of having a subclass of ServerInitParams
* own the resources outside of examples. This was done to reduce the amount of change
* to existing examples while still supporting non-example versions of the
* resources to be injected.
*/
struct CommonCaseDeviceServerInitParams : public ServerInitParams
{
CommonCaseDeviceServerInitParams() = default;
// Not copyable
CommonCaseDeviceServerInitParams(const CommonCaseDeviceServerInitParams &) = delete;
CommonCaseDeviceServerInitParams & operator=(const CommonCaseDeviceServerInitParams &) = delete;
/**
* Call this before Server::Init() to initialize the internally-owned resources.
* Server::Init() will fail if this is not done, since several params required to
* be non-null will be null without calling this method. ** See the transition method
* in the outer comment of this class **.
*
* @return CHIP_NO_ERROR on success or a CHIP_ERROR value from APIs called to initialize
* resources on failure.
*/
CHIP_ERROR InitializeStaticResourcesBeforeServerInit()
{
// KVS-based persistent storage delegate injection
if (persistentStorageDelegate == nullptr)
{
chip::DeviceLayer::PersistedStorage::KeyValueStoreManager & kvsManager =
DeviceLayer::PersistedStorage::KeyValueStoreMgr();
ReturnErrorOnFailure(sKvsPersistenStorageDelegate.Init(&kvsManager));
this->persistentStorageDelegate = &sKvsPersistenStorageDelegate;
}
// PersistentStorageDelegate "software-based" operational key access injection
if (this->operationalKeystore == nullptr)
{
// WARNING: PersistentStorageOperationalKeystore::Finish() is never called. It's fine for
// for examples and for now.
ReturnErrorOnFailure(sPersistentStorageOperationalKeystore.Init(this->persistentStorageDelegate));
this->operationalKeystore = &sPersistentStorageOperationalKeystore;
}
// OpCertStore can be injected but default to persistent storage default
// for simplicity of the examples.
if (this->opCertStore == nullptr)
{
// WARNING: PersistentStorageOpCertStore::Finish() is never called. It's fine for
// for examples and for now, since all storage is immediate for that impl.
ReturnErrorOnFailure(sPersistentStorageOpCertStore.Init(this->persistentStorageDelegate));
this->opCertStore = &sPersistentStorageOpCertStore;
}
// Injection of report scheduler WILL lead to two schedulers being allocated. As recommended above, this should only be used
// for IN-TREE examples. If a default scheduler is desired, the basic ServerInitParams should be used by the application and
// CommonCaseDeviceServerInitParams should not be allocated.
if (this->reportScheduler == nullptr)
{
reportScheduler = &sReportScheduler;
}
// Session Keystore injection
this->sessionKeystore = &sSessionKeystore;
// Group Data provider injection
sGroupDataProvider.SetStorageDelegate(this->persistentStorageDelegate);
sGroupDataProvider.SetSessionKeystore(this->sessionKeystore);
ReturnErrorOnFailure(sGroupDataProvider.Init());
this->groupDataProvider = &sGroupDataProvider;
#if CHIP_CONFIG_ENABLE_SESSION_RESUMPTION
ReturnErrorOnFailure(sSessionResumptionStorage.Init(this->persistentStorageDelegate));
this->sessionResumptionStorage = &sSessionResumptionStorage;
#else
this->sessionResumptionStorage = nullptr;
#endif
// Inject access control delegate
this->accessDelegate = Access::Examples::GetAccessControlDelegate();
// Inject ACL storage. (Don't initialize it.)
this->aclStorage = &sAclStorage;
#if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
ChipLogProgress(AppServer, "Initializing subscription resumption storage...");
ReturnErrorOnFailure(sSubscriptionResumptionStorage.Init(this->persistentStorageDelegate));
this->subscriptionResumptionStorage = &sSubscriptionResumptionStorage;
#else
ChipLogProgress(AppServer, "Subscription persistence not supported");
#endif
#if CHIP_CONFIG_ENABLE_ICD_CIP
if (this->icdCheckInBackOffStrategy == nullptr)
{
this->icdCheckInBackOffStrategy = &sDefaultICDCheckInBackOffStrategy;
}
#endif
return CHIP_NO_ERROR;
}
private:
static KvsPersistentStorageDelegate sKvsPersistenStorageDelegate;
static PersistentStorageOperationalKeystore sPersistentStorageOperationalKeystore;
static Credentials::PersistentStorageOpCertStore sPersistentStorageOpCertStore;
static Credentials::GroupDataProviderImpl sGroupDataProvider;
static chip::app::DefaultTimerDelegate sTimerDelegate;
static app::reporting::ReportSchedulerImpl sReportScheduler;
#if CHIP_CONFIG_ENABLE_SESSION_RESUMPTION
static SimpleSessionResumptionStorage sSessionResumptionStorage;
#endif
#if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
static app::SimpleSubscriptionResumptionStorage sSubscriptionResumptionStorage;
#endif
static app::DefaultAclStorage sAclStorage;
static Crypto::DefaultSessionKeystore sSessionKeystore;
#if CHIP_CONFIG_ENABLE_ICD_CIP
static app::DefaultICDCheckInBackOffStrategy sDefaultICDCheckInBackOffStrategy;
#endif
};
/**
* The `Server` singleton class is an aggregate for all the resources needed to run a
* Node that is both Commissionable and mainly used as an end-node with server clusters.
* In other words, it aggregates the state needed for the type of Node used for most
* products that are not mainly controller/administrator role.
*
* This sington class expects `ServerInitParams` initialization parameters but does not
* own the resources injected from `ServerInitParams`. Any object pointers/references
* passed in ServerInitParams must be pre-initialized externally, and shutdown/finalized
* after `Server::Shutdown()` is called.
*
* TODO: Separate lifecycle ownership for some more capabilities that should not belong to
* common logic, such as `GenerateShutDownEvent`.
*
* TODO: Replace all uses of GetInstance() to "reach in" to this state from all cluster
* server common logic that deal with global node state with either a common NodeState
* compatible with OperationalDeviceProxy/DeviceProxy, or with injection at common
* SDK logic init.
*/
class Server
{
public:
CHIP_ERROR Init(const ServerInitParams & initParams);
#if CHIP_DEVICE_CONFIG_ENABLE_COMMISSIONER_DISCOVERY_CLIENT
CHIP_ERROR
SendUserDirectedCommissioningRequest(chip::Transport::PeerAddress commissioner,
Protocols::UserDirectedCommissioning::IdentificationDeclaration & id);
Protocols::UserDirectedCommissioning::UserDirectedCommissioningClient * GetUserDirectedCommissioningClient()
{
return gUDCClient;
}
#endif // CHIP_DEVICE_CONFIG_ENABLE_COMMISSIONER_DISCOVERY_CLIENT
/**
* @brief Call this function to rejoin existing groups found in the GroupDataProvider
*/
void RejoinExistingMulticastGroups();
FabricTable & GetFabricTable() { return mFabrics; }
CASESessionManager * GetCASESessionManager() { return &mCASESessionManager; }
Messaging::ExchangeManager & GetExchangeManager() { return mExchangeMgr; }
SessionManager & GetSecureSessionManager() { return mSessions; }
SessionResumptionStorage * GetSessionResumptionStorage() { return mSessionResumptionStorage; }
app::SubscriptionResumptionStorage * GetSubscriptionResumptionStorage() { return mSubscriptionResumptionStorage; }
TransportMgrBase & GetTransportManager() { return mTransports; }
Credentials::GroupDataProvider * GetGroupDataProvider() { return mGroupsProvider; }
Crypto::SessionKeystore * GetSessionKeystore() const { return mSessionKeystore; }
#if CONFIG_NETWORK_LAYER_BLE
Ble::BleLayer * GetBleLayerObject() { return mBleLayer; }
#endif
CommissioningWindowManager & GetCommissioningWindowManager() { return mCommissioningWindowManager; }
PersistentStorageDelegate & GetPersistentStorage() { return *mDeviceStorage; }
app::FailSafeContext & GetFailSafeContext() { return mFailSafeContext; }
TestEventTriggerDelegate * GetTestEventTriggerDelegate() { return mTestEventTriggerDelegate; }
Crypto::OperationalKeystore * GetOperationalKeystore() { return mOperationalKeystore; }
Credentials::OperationalCertificateStore * GetOpCertStore() { return mOpCertStore; }
app::DefaultAttributePersistenceProvider & GetDefaultAttributePersister() { return mAttributePersister; }
app::reporting::ReportScheduler * GetReportScheduler() { return mReportScheduler; }
#if CHIP_CONFIG_ENABLE_ICD_SERVER
app::ICDManager & GetICDManager() { return mICDManager; }
#if CHIP_CONFIG_ENABLE_ICD_CIP
/**
* @brief Function to determine if a Check-In message would be sent at Boot up
*
* @param aFabricIndex client fabric index
* @param subjectID client subject ID
* @return true Check-In message would be sent on boot up.
* @return false Device has a persisted subscription with the client. See CHIP_CONFIG_PERSIST_SUBSCRIPTIONS.
*/
bool ShouldCheckInMsgsBeSentAtBootFunction(FabricIndex aFabricIndex, NodeId subjectID);
#endif // CHIP_CONFIG_ENABLE_ICD_CIP
#endif // CHIP_CONFIG_ENABLE_ICD_SERVER
/**
* This function causes the ShutDown event to be generated async on the
* Matter event loop. Should be called before stopping the event loop.
*/
void GenerateShutDownEvent();
void Shutdown();
void ScheduleFactoryReset();
System::Clock::Microseconds64 TimeSinceInit() const
{
return System::SystemClock().GetMonotonicMicroseconds64() - mInitTimestamp;
}
static Server & GetInstance() { return sServer; }
private:
Server() {}
static Server sServer;
void InitFailSafe();
void OnPlatformEvent(const DeviceLayer::ChipDeviceEvent & event);
void CheckServerReadyEvent();
static void OnPlatformEventWrapper(const DeviceLayer::ChipDeviceEvent * event, intptr_t);
#if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
/**
* @brief Called at Server::Init time to resume persisted subscriptions if the feature flag is enabled
*/
void ResumeSubscriptions();
#endif
class GroupDataProviderListener final : public Credentials::GroupDataProvider::GroupListener
{
public:
GroupDataProviderListener() {}
CHIP_ERROR Init(Server * server)
{
VerifyOrReturnError(server != nullptr, CHIP_ERROR_INVALID_ARGUMENT);
mServer = server;
return CHIP_NO_ERROR;
};
void OnGroupAdded(chip::FabricIndex fabric_index, const Credentials::GroupDataProvider::GroupInfo & new_group) override
{
const FabricInfo * fabric = mServer->GetFabricTable().FindFabricWithIndex(fabric_index);
if (fabric == nullptr)
{
ChipLogError(AppServer, "Group added to nonexistent fabric?");
return;
}
if (mServer->GetTransportManager().MulticastGroupJoinLeave(
Transport::PeerAddress::Multicast(fabric->GetFabricId(), new_group.group_id), true) != CHIP_NO_ERROR)
{
ChipLogError(AppServer, "Unable to listen to group");
}
};
void OnGroupRemoved(chip::FabricIndex fabric_index, const Credentials::GroupDataProvider::GroupInfo & old_group) override
{
const FabricInfo * fabric = mServer->GetFabricTable().FindFabricWithIndex(fabric_index);
if (fabric == nullptr)
{
ChipLogError(AppServer, "Group removed from nonexistent fabric?");
return;
}
mServer->GetTransportManager().MulticastGroupJoinLeave(
Transport::PeerAddress::Multicast(fabric->GetFabricId(), old_group.group_id), false);
};
private:
Server * mServer;
};
class ServerFabricDelegate final : public chip::FabricTable::Delegate
{
public:
ServerFabricDelegate() {}
CHIP_ERROR Init(Server * server)
{
VerifyOrReturnError(server != nullptr, CHIP_ERROR_INVALID_ARGUMENT);
mServer = server;
return CHIP_NO_ERROR;
}
void OnFabricRemoved(const FabricTable & fabricTable, FabricIndex fabricIndex) override
{
(void) fabricTable;
ClearCASEResumptionStateOnFabricChange(fabricIndex);
ClearSubscriptionResumptionStateOnFabricChange(fabricIndex);
Credentials::GroupDataProvider * groupDataProvider = mServer->GetGroupDataProvider();
if (groupDataProvider != nullptr)
{
CHIP_ERROR err = groupDataProvider->RemoveFabric(fabricIndex);
if (err != CHIP_NO_ERROR)
{
ChipLogError(AppServer,
"Warning, failed to delete GroupDataProvider state for fabric index 0x%x: %" CHIP_ERROR_FORMAT,
static_cast<unsigned>(fabricIndex), err.Format());
}
}
// Remove access control entries in reverse order (it could be any order, but reverse order
// will cause less churn in persistent storage).
CHIP_ERROR aclErr = Access::GetAccessControl().DeleteAllEntriesForFabric(fabricIndex);
if (aclErr != CHIP_NO_ERROR)
{
ChipLogError(AppServer, "Warning, failed to delete access control state for fabric index 0x%x: %" CHIP_ERROR_FORMAT,
static_cast<unsigned>(fabricIndex), aclErr.Format());
}
// Remove ACL extension entry for the given fabricIndex.
auto & storage = mServer->GetPersistentStorage();
aclErr = storage.SyncDeleteKeyValue(DefaultStorageKeyAllocator::AccessControlExtensionEntry(fabricIndex).KeyName());
if (aclErr != CHIP_NO_ERROR && aclErr != CHIP_ERROR_PERSISTED_STORAGE_VALUE_NOT_FOUND)
{
ChipLogError(AppServer, "Warning, failed to delete ACL extension entry for fabric index 0x%x: %" CHIP_ERROR_FORMAT,
static_cast<unsigned>(fabricIndex), aclErr.Format());
}
mServer->GetCommissioningWindowManager().OnFabricRemoved(fabricIndex);
}
void OnFabricUpdated(const FabricTable & fabricTable, chip::FabricIndex fabricIndex) override
{
(void) fabricTable;
ClearCASEResumptionStateOnFabricChange(fabricIndex);
}
private:
void ClearCASEResumptionStateOnFabricChange(chip::FabricIndex fabricIndex)
{
auto * sessionResumptionStorage = mServer->GetSessionResumptionStorage();
VerifyOrReturn(sessionResumptionStorage != nullptr);
CHIP_ERROR err = sessionResumptionStorage->DeleteAll(fabricIndex);
if (err != CHIP_NO_ERROR)
{
ChipLogError(AppServer,
"Warning, failed to delete session resumption state for fabric index 0x%x: %" CHIP_ERROR_FORMAT,
static_cast<unsigned>(fabricIndex), err.Format());
}
}
void ClearSubscriptionResumptionStateOnFabricChange(chip::FabricIndex fabricIndex)
{
auto * subscriptionResumptionStorage = mServer->GetSubscriptionResumptionStorage();
VerifyOrReturn(subscriptionResumptionStorage != nullptr);
CHIP_ERROR err = subscriptionResumptionStorage->DeleteAll(fabricIndex);
if (err != CHIP_NO_ERROR)
{
ChipLogError(AppServer,
"Warning, failed to delete subscription resumption state for fabric index 0x%x: %" CHIP_ERROR_FORMAT,
static_cast<unsigned>(fabricIndex), err.Format());
}
}
Server * mServer = nullptr;
};
/**
* Since root certificates for Matter nodes cannot be updated in a reasonable
* way, it doesn't make sense to enforce expiration time on root certificates.
* This policy allows through root certificates, even if they're expired, and
* otherwise delegates to the provided policy, or to the default policy if no
* policy is provided.
*/
class IgnoreRootExpirationValidityPolicy : public Credentials::CertificateValidityPolicy
{
public:
IgnoreRootExpirationValidityPolicy() {}
void Init(Credentials::CertificateValidityPolicy * providedPolicy) { mProvidedPolicy = providedPolicy; }
CHIP_ERROR ApplyCertificateValidityPolicy(const Credentials::ChipCertificateData * cert, uint8_t depth,
Credentials::CertificateValidityResult result) override
{
switch (result)
{
case Credentials::CertificateValidityResult::kExpired:
case Credentials::CertificateValidityResult::kExpiredAtLastKnownGoodTime:
case Credentials::CertificateValidityResult::kTimeUnknown: {
Credentials::CertType certType;
ReturnErrorOnFailure(cert->mSubjectDN.GetCertType(certType));
if (certType == Credentials::CertType::kRoot)
{
return CHIP_NO_ERROR;
}
break;
}
default:
break;
}
if (mProvidedPolicy)
{
return mProvidedPolicy->ApplyCertificateValidityPolicy(cert, depth, result);
}
return Credentials::CertificateValidityPolicy::ApplyDefaultPolicy(cert, depth, result);
}
private:
Credentials::CertificateValidityPolicy * mProvidedPolicy = nullptr;
};
#if CONFIG_NETWORK_LAYER_BLE
Ble::BleLayer * mBleLayer = nullptr;
#endif
// By default, use a certificate validation policy compatible with non-wall-clock-time-synced
// embedded systems.
static Credentials::IgnoreCertificateValidityPeriodPolicy sDefaultCertValidityPolicy;
ServerTransportMgr mTransports;
SessionManager mSessions;
CASEServer mCASEServer;
CASESessionManager mCASESessionManager;
CASEClientPool<CHIP_CONFIG_DEVICE_MAX_ACTIVE_CASE_CLIENTS> mCASEClientPool;
OperationalSessionSetupPool<CHIP_CONFIG_DEVICE_MAX_ACTIVE_DEVICES> mSessionSetupPool;
Protocols::SecureChannel::UnsolicitedStatusHandler mUnsolicitedStatusHandler;
Messaging::ExchangeManager mExchangeMgr;
FabricTable mFabrics;
secure_channel::MessageCounterManager mMessageCounterManager;
#if CHIP_DEVICE_CONFIG_ENABLE_COMMISSIONER_DISCOVERY_CLIENT
Protocols::UserDirectedCommissioning::UserDirectedCommissioningClient * gUDCClient = nullptr;
// mUdcTransportMgr is for insecure communication (ex. user directed commissioning)
// specifically, the commissioner declaration message (sent by commissioner to commissionee)
UdcTransportMgr * mUdcTransportMgr = nullptr;
uint16_t mCdcListenPort = CHIP_UDC_COMMISSIONEE_PORT;
#endif // CHIP_DEVICE_CONFIG_ENABLE_COMMISSIONER_DISCOVERY_CLIENT
CommissioningWindowManager mCommissioningWindowManager;
IgnoreRootExpirationValidityPolicy mCertificateValidityPolicy;
PersistentStorageDelegate * mDeviceStorage;
SessionResumptionStorage * mSessionResumptionStorage;
app::SubscriptionResumptionStorage * mSubscriptionResumptionStorage;
Credentials::GroupDataProvider * mGroupsProvider;
Crypto::SessionKeystore * mSessionKeystore;
app::DefaultAttributePersistenceProvider mAttributePersister;
GroupDataProviderListener mListener;
ServerFabricDelegate mFabricDelegate;
app::reporting::ReportScheduler * mReportScheduler;
Access::AccessControl mAccessControl;
app::AclStorage * mAclStorage;
TestEventTriggerDelegate * mTestEventTriggerDelegate;
Crypto::OperationalKeystore * mOperationalKeystore;
Credentials::OperationalCertificateStore * mOpCertStore;
app::FailSafeContext mFailSafeContext;
bool mIsDnssdReady = false;
uint16_t mOperationalServicePort;
uint16_t mUserDirectedCommissioningPort;
Inet::InterfaceId mInterfaceId;
System::Clock::Microseconds64 mInitTimestamp;
#if CHIP_CONFIG_ENABLE_ICD_SERVER
app::ICDManager mICDManager;
#endif // CHIP_CONFIG_ENABLE_ICD_SERVER
};
} // namespace chip