| /* |
| * |
| * Copyright (c) 2020-2021 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 |
| * This file defines objects for a CHIP Interaction Data model Engine which handle unsolicited IM message, and |
| * manage different kinds of IM client and handlers. |
| * |
| */ |
| |
| #include "InteractionModelEngine.h" |
| |
| #include <cinttypes> |
| |
| #include <access/RequestPath.h> |
| #include <access/SubjectDescriptor.h> |
| #include <app/AppConfig.h> |
| #include <app/CommandHandlerInterfaceRegistry.h> |
| #include <app/RequiredPrivilege.h> |
| #include <app/data-model-provider/ActionReturnStatus.h> |
| #include <app/data-model-provider/MetadataTypes.h> |
| #include <app/data-model-provider/OperationTypes.h> |
| #include <app/util/IMClusterCommandHandler.h> |
| #include <app/util/af-types.h> |
| #include <app/util/ember-compatibility-functions.h> |
| #include <app/util/endpoint-config-api.h> |
| #include <lib/core/DataModelTypes.h> |
| #include <lib/core/Global.h> |
| #include <lib/core/TLVUtilities.h> |
| #include <lib/support/CHIPFaultInjection.h> |
| #include <lib/support/CodeUtils.h> |
| #include <lib/support/FibonacciUtils.h> |
| #include <protocols/interaction_model/StatusCode.h> |
| |
| #if CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| // TODO: defaulting to codegen should eventually be an application choice and not |
| // hard-coded in the interaction model |
| #include <app/codegen-data-model-provider/Instance.h> |
| #endif |
| |
| #if !CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| #include <app/ember_coupling/EventPathValidity.mixin.h> // nogncheck |
| #endif |
| |
| namespace chip { |
| namespace app { |
| |
| class AutoReleaseSubscriptionInfoIterator |
| { |
| public: |
| AutoReleaseSubscriptionInfoIterator(SubscriptionResumptionStorage::SubscriptionInfoIterator * iterator) : mIterator(iterator){}; |
| ~AutoReleaseSubscriptionInfoIterator() { mIterator->Release(); } |
| |
| SubscriptionResumptionStorage::SubscriptionInfoIterator * operator->() const { return mIterator; } |
| |
| private: |
| SubscriptionResumptionStorage::SubscriptionInfoIterator * mIterator; |
| }; |
| |
| using Protocols::InteractionModel::Status; |
| |
| Global<InteractionModelEngine> sInteractionModelEngine; |
| |
| InteractionModelEngine::InteractionModelEngine() : mReportingEngine(this) {} |
| |
| InteractionModelEngine * InteractionModelEngine::GetInstance() |
| { |
| return &sInteractionModelEngine.get(); |
| } |
| |
| CHIP_ERROR InteractionModelEngine::Init(Messaging::ExchangeManager * apExchangeMgr, FabricTable * apFabricTable, |
| reporting::ReportScheduler * reportScheduler, CASESessionManager * apCASESessionMgr, |
| SubscriptionResumptionStorage * subscriptionResumptionStorage) |
| { |
| VerifyOrReturnError(apFabricTable != nullptr, CHIP_ERROR_INVALID_ARGUMENT); |
| VerifyOrReturnError(apExchangeMgr != nullptr, CHIP_ERROR_INVALID_ARGUMENT); |
| VerifyOrReturnError(reportScheduler != nullptr, CHIP_ERROR_INVALID_ARGUMENT); |
| |
| mState = State::kInitializing; |
| mpExchangeMgr = apExchangeMgr; |
| mpFabricTable = apFabricTable; |
| mpCASESessionMgr = apCASESessionMgr; |
| mpSubscriptionResumptionStorage = subscriptionResumptionStorage; |
| mReportScheduler = reportScheduler; |
| |
| ReturnErrorOnFailure(mpFabricTable->AddFabricDelegate(this)); |
| ReturnErrorOnFailure(mpExchangeMgr->RegisterUnsolicitedMessageHandlerForProtocol(Protocols::InteractionModel::Id, this)); |
| |
| mReportingEngine.Init(); |
| |
| StatusIB::RegisterErrorFormatter(); |
| |
| #if CHIP_CONFIG_USE_EMBER_DATA_MODEL && CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| ChipLogError(InteractionModel, "WARNING ┌────────────────────────────────────────────────────"); |
| ChipLogError(InteractionModel, "WARNING │ Interaction Model Engine running in 'Checked' mode."); |
| ChipLogError(InteractionModel, "WARNING │ This executes BOTH ember and data-model code paths."); |
| ChipLogError(InteractionModel, "WARNING │ which is inefficient and consumes more flash space."); |
| ChipLogError(InteractionModel, "WARNING │ This should be done for testing only."); |
| ChipLogError(InteractionModel, "WARNING └────────────────────────────────────────────────────"); |
| #endif |
| |
| mState = State::kInitialized; |
| return CHIP_NO_ERROR; |
| } |
| |
| void InteractionModelEngine::Shutdown() |
| { |
| VerifyOrReturn(State::kUninitialized != mState); |
| |
| mpExchangeMgr->GetSessionManager()->SystemLayer()->CancelTimer(ResumeSubscriptionsTimerCallback, this); |
| |
| // TODO: individual object clears the entire command handler interface registry. |
| // This may not be expected as IME does NOT own the command handler interface registry. |
| // |
| // This is to be cleaned up once InteractionModelEngine maintains a data model fully and |
| // the code-generation model can do its clear in its shutdown method. |
| CommandHandlerInterfaceRegistry::Instance().UnregisterAllHandlers(); |
| mCommandResponderObjs.ReleaseAll(); |
| |
| mTimedHandlers.ForEachActiveObject([this](TimedHandler * obj) -> Loop { |
| mpExchangeMgr->CloseAllContextsForDelegate(obj); |
| return Loop::Continue; |
| }); |
| |
| mTimedHandlers.ReleaseAll(); |
| |
| mReadHandlers.ReleaseAll(); |
| |
| #if CHIP_CONFIG_ENABLE_READ_CLIENT |
| // Shut down any subscription clients that are still around. They won't be |
| // able to work after this point anyway, since we're about to drop our refs |
| // to them. |
| ShutdownAllSubscriptions(); |
| |
| // |
| // We hold weak references to ReadClient objects. The application ultimately |
| // actually owns them, so it's on them to eventually shut them down and free them |
| // up. |
| // |
| // However, we should null out their pointers back to us at the very least so that |
| // at destruction time, they won't attempt to reach back here to remove themselves |
| // from this list. |
| // |
| for (auto * readClient = mpActiveReadClientList; readClient != nullptr;) |
| { |
| readClient->mpImEngine = nullptr; |
| auto * tmpClient = readClient->GetNextClient(); |
| readClient->SetNextClient(nullptr); |
| readClient = tmpClient; |
| } |
| |
| // |
| // After that, we just null out our tracker. |
| // |
| mpActiveReadClientList = nullptr; |
| #endif // CHIP_CONFIG_ENABLE_READ_CLIENT |
| |
| for (auto & writeHandler : mWriteHandlers) |
| { |
| if (!writeHandler.IsFree()) |
| { |
| writeHandler.Close(); |
| } |
| } |
| |
| mReportingEngine.Shutdown(); |
| mAttributePathPool.ReleaseAll(); |
| mEventPathPool.ReleaseAll(); |
| mDataVersionFilterPool.ReleaseAll(); |
| mpExchangeMgr->UnregisterUnsolicitedMessageHandlerForProtocol(Protocols::InteractionModel::Id); |
| |
| mpCASESessionMgr = nullptr; |
| |
| // |
| // We _should_ be clearing these out, but doing so invites a world |
| // of trouble. #21233 tracks fixing the underlying assumptions to make |
| // this possible. |
| // |
| // mpFabricTable = nullptr; |
| // mpExchangeMgr = nullptr; |
| |
| mState = State::kUninitialized; |
| } |
| |
| uint32_t InteractionModelEngine::GetNumActiveReadHandlers() const |
| { |
| return static_cast<uint32_t>(mReadHandlers.Allocated()); |
| } |
| |
| uint32_t InteractionModelEngine::GetNumActiveReadHandlers(ReadHandler::InteractionType aType) const |
| { |
| uint32_t count = 0; |
| |
| mReadHandlers.ForEachActiveObject([aType, &count](const ReadHandler * handler) { |
| if (handler->IsType(aType)) |
| { |
| count++; |
| } |
| |
| return Loop::Continue; |
| }); |
| |
| return count; |
| } |
| |
| uint32_t InteractionModelEngine::GetNumActiveReadHandlers(ReadHandler::InteractionType aType, FabricIndex aFabricIndex) const |
| { |
| uint32_t count = 0; |
| |
| mReadHandlers.ForEachActiveObject([aType, aFabricIndex, &count](const ReadHandler * handler) { |
| if (handler->IsType(aType) && handler->GetAccessingFabricIndex() == aFabricIndex) |
| { |
| count++; |
| } |
| |
| return Loop::Continue; |
| }); |
| |
| return count; |
| } |
| |
| ReadHandler * InteractionModelEngine::ActiveHandlerAt(unsigned int aIndex) |
| { |
| if (aIndex >= mReadHandlers.Allocated()) |
| { |
| return nullptr; |
| } |
| |
| unsigned int i = 0; |
| ReadHandler * ret = nullptr; |
| |
| mReadHandlers.ForEachActiveObject([aIndex, &i, &ret](ReadHandler * handler) { |
| if (i == aIndex) |
| { |
| ret = handler; |
| return Loop::Break; |
| } |
| |
| i++; |
| return Loop::Continue; |
| }); |
| |
| return ret; |
| } |
| |
| WriteHandler * InteractionModelEngine::ActiveWriteHandlerAt(unsigned int aIndex) |
| { |
| unsigned int i = 0; |
| |
| for (auto & writeHandler : mWriteHandlers) |
| { |
| if (!writeHandler.IsFree()) |
| { |
| if (i == aIndex) |
| { |
| return &writeHandler; |
| } |
| i++; |
| } |
| } |
| return nullptr; |
| } |
| |
| uint32_t InteractionModelEngine::GetNumActiveWriteHandlers() const |
| { |
| uint32_t numActive = 0; |
| |
| for (auto & writeHandler : mWriteHandlers) |
| { |
| if (!writeHandler.IsFree()) |
| { |
| numActive++; |
| } |
| } |
| |
| return numActive; |
| } |
| |
| #if CHIP_CONFIG_ENABLE_READ_CLIENT |
| CHIP_ERROR InteractionModelEngine::ShutdownSubscription(const ScopedNodeId & aPeerNodeId, SubscriptionId aSubscriptionId) |
| { |
| assertChipStackLockedByCurrentThread(); |
| for (auto * readClient = mpActiveReadClientList; readClient != nullptr;) |
| { |
| // Grab the next client now, because we might be about to delete readClient. |
| auto * nextClient = readClient->GetNextClient(); |
| if (readClient->IsSubscriptionType() && readClient->IsMatchingSubscriptionId(aSubscriptionId) && |
| readClient->GetFabricIndex() == aPeerNodeId.GetFabricIndex() && readClient->GetPeerNodeId() == aPeerNodeId.GetNodeId()) |
| { |
| readClient->Close(CHIP_NO_ERROR); |
| return CHIP_NO_ERROR; |
| } |
| readClient = nextClient; |
| } |
| |
| return CHIP_ERROR_KEY_NOT_FOUND; |
| } |
| |
| void InteractionModelEngine::ShutdownSubscriptions(FabricIndex aFabricIndex, NodeId aPeerNodeId) |
| { |
| assertChipStackLockedByCurrentThread(); |
| ShutdownMatchingSubscriptions(MakeOptional(aFabricIndex), MakeOptional(aPeerNodeId)); |
| } |
| void InteractionModelEngine::ShutdownSubscriptions(FabricIndex aFabricIndex) |
| { |
| assertChipStackLockedByCurrentThread(); |
| ShutdownMatchingSubscriptions(MakeOptional(aFabricIndex)); |
| } |
| |
| void InteractionModelEngine::ShutdownAllSubscriptions() |
| { |
| assertChipStackLockedByCurrentThread(); |
| ShutdownMatchingSubscriptions(); |
| } |
| |
| void InteractionModelEngine::ShutdownMatchingSubscriptions(const Optional<FabricIndex> & aFabricIndex, |
| const Optional<NodeId> & aPeerNodeId) |
| { |
| // This is assuming that ReadClient::Close will not affect any other |
| // ReadClients in the list. |
| for (auto * readClient = mpActiveReadClientList; readClient != nullptr;) |
| { |
| // Grab the next client now, because we might be about to delete readClient. |
| auto * nextClient = readClient->GetNextClient(); |
| if (readClient->IsSubscriptionType()) |
| { |
| bool fabricMatches = !aFabricIndex.HasValue() || (aFabricIndex.Value() == readClient->GetFabricIndex()); |
| bool nodeIdMatches = !aPeerNodeId.HasValue() || (aPeerNodeId.Value() == readClient->GetPeerNodeId()); |
| if (fabricMatches && nodeIdMatches) |
| { |
| readClient->Close(CHIP_NO_ERROR); |
| } |
| } |
| readClient = nextClient; |
| } |
| } |
| #endif // CHIP_CONFIG_ENABLE_READ_CLIENT |
| |
| bool InteractionModelEngine::SubjectHasActiveSubscription(FabricIndex aFabricIndex, NodeId subjectID) |
| { |
| bool isActive = false; |
| mReadHandlers.ForEachActiveObject([aFabricIndex, subjectID, &isActive](ReadHandler * handler) { |
| VerifyOrReturnValue(handler->IsType(ReadHandler::InteractionType::Subscribe), Loop::Continue); |
| |
| Access::SubjectDescriptor subject = handler->GetSubjectDescriptor(); |
| VerifyOrReturnValue(subject.fabricIndex == aFabricIndex, Loop::Continue); |
| |
| if (subject.authMode == Access::AuthMode::kCase) |
| { |
| if (subject.cats.CheckSubjectAgainstCATs(subjectID) || subjectID == subject.subject) |
| { |
| isActive = handler->IsActiveSubscription(); |
| |
| // Exit loop only if isActive is set to true. |
| // Otherwise keep looking for another subscription that could match the subject. |
| VerifyOrReturnValue(!isActive, Loop::Break); |
| } |
| } |
| |
| return Loop::Continue; |
| }); |
| |
| return isActive; |
| } |
| |
| bool InteractionModelEngine::SubjectHasPersistedSubscription(FabricIndex aFabricIndex, NodeId subjectID) |
| { |
| bool persistedSubMatches = false; |
| |
| #if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS |
| auto * iterator = mpSubscriptionResumptionStorage->IterateSubscriptions(); |
| // Verify that we were able to allocate an iterator. If not, we are probably currently trying to resubscribe to our persisted |
| // subscriptions. As such, we assume we have a persisted subscription and return true. |
| // If we don't have a persisted subscription for the given fabric index and subjectID, we will send a Check-In message next time |
| // we transition to ActiveMode. |
| VerifyOrReturnValue(iterator, true); |
| |
| SubscriptionResumptionStorage::SubscriptionInfo subscriptionInfo; |
| while (iterator->Next(subscriptionInfo)) |
| { |
| // TODO(#31873): Persistent subscription only stores the NodeID for now. We cannot check if the CAT matches |
| if (subscriptionInfo.mFabricIndex == aFabricIndex && subscriptionInfo.mNodeId == subjectID) |
| { |
| persistedSubMatches = true; |
| break; |
| } |
| } |
| iterator->Release(); |
| #endif // CHIP_CONFIG_PERSIST_SUBSCRIPTIONS |
| |
| return persistedSubMatches; |
| } |
| |
| void InteractionModelEngine::OnDone(CommandResponseSender & apResponderObj) |
| { |
| mCommandResponderObjs.ReleaseObject(&apResponderObj); |
| } |
| |
| // TODO(#30453): Follow up refactor. Remove need for InteractionModelEngine::OnDone(CommandHandlerImpl). |
| void InteractionModelEngine::OnDone(CommandHandlerImpl & apCommandObj) |
| { |
| // We are no longer expecting to receive this callback. With the introduction of CommandResponseSender, it is now |
| // responsible for receiving this callback. |
| VerifyOrDie(false); |
| } |
| |
| void InteractionModelEngine::OnDone(ReadHandler & apReadObj) |
| { |
| // |
| // Deleting an item can shift down the contents of the underlying pool storage, |
| // rendering any tracker using positional indexes invalid. Let's reset it, |
| // based on which readHandler we are getting rid of. |
| // |
| mReportingEngine.ResetReadHandlerTracker(&apReadObj); |
| |
| mReadHandlers.ReleaseObject(&apReadObj); |
| TryToResumeSubscriptions(); |
| } |
| |
| void InteractionModelEngine::TryToResumeSubscriptions() |
| { |
| #if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS && CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| if (!mSubscriptionResumptionScheduled && HasSubscriptionsToResume()) |
| { |
| mSubscriptionResumptionScheduled = true; |
| auto timeTillNextSubscriptionResumptionSecs = ComputeTimeSecondsTillNextSubscriptionResumption(); |
| mpExchangeMgr->GetSessionManager()->SystemLayer()->StartTimer( |
| System::Clock::Seconds32(timeTillNextSubscriptionResumptionSecs), ResumeSubscriptionsTimerCallback, this); |
| mNumSubscriptionResumptionRetries++; |
| ChipLogProgress(InteractionModel, "Schedule subscription resumption when failing to establish session, Retries: %" PRIu32, |
| mNumSubscriptionResumptionRetries); |
| } |
| #endif // CHIP_CONFIG_PERSIST_SUBSCRIPTIONS && CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| } |
| |
| Status InteractionModelEngine::OnInvokeCommandRequest(Messaging::ExchangeContext * apExchangeContext, |
| const PayloadHeader & aPayloadHeader, System::PacketBufferHandle && aPayload, |
| bool aIsTimedInvoke) |
| { |
| // TODO(#30453): Refactor CommandResponseSender's constructor to accept an exchange context parameter. |
| CommandResponseSender * commandResponder = mCommandResponderObjs.CreateObject(this, this); |
| if (commandResponder == nullptr) |
| { |
| ChipLogProgress(InteractionModel, "no resource for Invoke interaction"); |
| return Status::Busy; |
| } |
| CHIP_FAULT_INJECT(FaultInjection::kFault_IMInvoke_SeparateResponses, |
| commandResponder->TestOnlyInvokeCommandRequestWithFaultsInjected( |
| apExchangeContext, std::move(aPayload), aIsTimedInvoke, |
| CommandHandlerImpl::NlFaultInjectionType::SeparateResponseMessages); |
| return Status::Success;); |
| CHIP_FAULT_INJECT(FaultInjection::kFault_IMInvoke_SeparateResponsesInvertResponseOrder, |
| commandResponder->TestOnlyInvokeCommandRequestWithFaultsInjected( |
| apExchangeContext, std::move(aPayload), aIsTimedInvoke, |
| CommandHandlerImpl::NlFaultInjectionType::SeparateResponseMessagesAndInvertedResponseOrder); |
| return Status::Success;); |
| CHIP_FAULT_INJECT( |
| FaultInjection::kFault_IMInvoke_SkipSecondResponse, |
| commandResponder->TestOnlyInvokeCommandRequestWithFaultsInjected( |
| apExchangeContext, std::move(aPayload), aIsTimedInvoke, CommandHandlerImpl::NlFaultInjectionType::SkipSecondResponse); |
| return Status::Success;); |
| commandResponder->OnInvokeCommandRequest(apExchangeContext, std::move(aPayload), aIsTimedInvoke); |
| return Status::Success; |
| } |
| |
| CHIP_ERROR InteractionModelEngine::ParseAttributePaths(const Access::SubjectDescriptor & aSubjectDescriptor, |
| AttributePathIBs::Parser & aAttributePathListParser, |
| bool & aHasValidAttributePath, size_t & aRequestedAttributePathCount) |
| { |
| TLV::TLVReader pathReader; |
| aAttributePathListParser.GetReader(&pathReader); |
| CHIP_ERROR err = CHIP_NO_ERROR; |
| |
| aHasValidAttributePath = false; |
| aRequestedAttributePathCount = 0; |
| |
| while (CHIP_NO_ERROR == (err = pathReader.Next(TLV::AnonymousTag()))) |
| { |
| AttributePathIB::Parser path; |
| // |
| // We create an iterator to point to a single item object list that tracks the path we just parsed. |
| // This avoids the 'parse all paths' approach that is employed in ReadHandler since we want to |
| // avoid allocating out of the path store during this minimal initial processing stage. |
| // |
| SingleLinkedListNode<AttributePathParams> paramsList; |
| |
| ReturnErrorOnFailure(path.Init(pathReader)); |
| ReturnErrorOnFailure(path.ParsePath(paramsList.mValue)); |
| |
| if (paramsList.mValue.IsWildcardPath()) |
| { |
| AttributePathExpandIterator pathIterator(GetDataModelProvider(), ¶msList); |
| ConcreteAttributePath readPath; |
| |
| // The definition of "valid path" is "path exists and ACL allows access". The "path exists" part is handled by |
| // AttributePathExpandIterator. So we just need to check the ACL bits. |
| for (; pathIterator.Get(readPath); pathIterator.Next()) |
| { |
| // leave requestPath.entityId optional value unset to indicate wildcard |
| Access::RequestPath requestPath{ .cluster = readPath.mClusterId, |
| .endpoint = readPath.mEndpointId, |
| .requestType = Access::RequestType::kAttributeReadRequest }; |
| err = Access::GetAccessControl().Check(aSubjectDescriptor, requestPath, |
| RequiredPrivilege::ForReadAttribute(readPath)); |
| if (err == CHIP_NO_ERROR) |
| { |
| aHasValidAttributePath = true; |
| break; |
| } |
| } |
| } |
| else |
| { |
| ConcreteAttributePath concretePath(paramsList.mValue.mEndpointId, paramsList.mValue.mClusterId, |
| paramsList.mValue.mAttributeId); |
| |
| if (IsExistentAttributePath(concretePath)) |
| { |
| Access::RequestPath requestPath{ .cluster = concretePath.mClusterId, |
| .endpoint = concretePath.mEndpointId, |
| .requestType = Access::RequestType::kAttributeReadRequest, |
| .entityId = paramsList.mValue.mAttributeId }; |
| |
| err = Access::GetAccessControl().Check(aSubjectDescriptor, requestPath, |
| RequiredPrivilege::ForReadAttribute(concretePath)); |
| if (err == CHIP_NO_ERROR) |
| { |
| aHasValidAttributePath = true; |
| } |
| } |
| } |
| |
| aRequestedAttributePathCount++; |
| } |
| |
| if (err == CHIP_ERROR_END_OF_TLV) |
| { |
| err = CHIP_NO_ERROR; |
| } |
| |
| return err; |
| } |
| |
| CHIP_ERROR InteractionModelEngine::ParseEventPaths(const Access::SubjectDescriptor & aSubjectDescriptor, |
| EventPathIBs::Parser & aEventPathListParser, bool & aHasValidEventPath, |
| size_t & aRequestedEventPathCount) |
| { |
| TLV::TLVReader pathReader; |
| aEventPathListParser.GetReader(&pathReader); |
| CHIP_ERROR err = CHIP_NO_ERROR; |
| |
| aHasValidEventPath = false; |
| aRequestedEventPathCount = 0; |
| |
| while (CHIP_NO_ERROR == (err = pathReader.Next(TLV::AnonymousTag()))) |
| { |
| EventPathIB::Parser path; |
| ReturnErrorOnFailure(path.Init(pathReader)); |
| |
| EventPathParams eventPath; |
| ReturnErrorOnFailure(path.ParsePath(eventPath)); |
| |
| ++aRequestedEventPathCount; |
| |
| if (aHasValidEventPath) |
| { |
| // Can skip all the rest of the checking. |
| continue; |
| } |
| |
| #if CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| aHasValidEventPath = mDataModelProvider->EventPathIncludesAccessibleConcretePath(eventPath, aSubjectDescriptor); |
| #else |
| // The definition of "valid path" is "path exists and ACL allows |
| // access". We need to do some expansion of wildcards to handle that. |
| if (eventPath.HasWildcardEndpointId()) |
| { |
| for (uint16_t endpointIndex = 0; !aHasValidEventPath && endpointIndex < emberAfEndpointCount(); ++endpointIndex) |
| { |
| if (!emberAfEndpointIndexIsEnabled(endpointIndex)) |
| { |
| continue; |
| } |
| aHasValidEventPath = |
| HasValidEventPathForEndpoint(emberAfEndpointFromIndex(endpointIndex), eventPath, aSubjectDescriptor); |
| } |
| } |
| else |
| { |
| // No need to check whether the endpoint is enabled, because |
| // emberAfFindEndpointType returns null for disabled endpoints. |
| aHasValidEventPath = HasValidEventPathForEndpoint(eventPath.mEndpointId, eventPath, aSubjectDescriptor); |
| } |
| #endif // CHIP_CONFIG_USE_EMBER_DATA_MODEL |
| } |
| |
| if (err == CHIP_ERROR_END_OF_TLV) |
| { |
| err = CHIP_NO_ERROR; |
| } |
| |
| return err; |
| } |
| |
| Protocols::InteractionModel::Status InteractionModelEngine::OnReadInitialRequest(Messaging::ExchangeContext * apExchangeContext, |
| const PayloadHeader & aPayloadHeader, |
| System::PacketBufferHandle && aPayload, |
| ReadHandler::InteractionType aInteractionType) |
| { |
| ChipLogDetail(InteractionModel, "Received %s request", |
| aInteractionType == ReadHandler::InteractionType::Subscribe ? "Subscribe" : "Read"); |
| |
| // |
| // Let's first figure out if the client has sent us a subscribe request and requested we keep any existing |
| // subscriptions from that source. |
| // |
| if (aInteractionType == ReadHandler::InteractionType::Subscribe) |
| { |
| System::PacketBufferTLVReader reader; |
| bool keepExistingSubscriptions = true; |
| |
| if (apExchangeContext->GetSessionHandle()->GetFabricIndex() == kUndefinedFabricIndex) |
| { |
| // Subscriptions must be associated to a fabric. |
| return Status::UnsupportedAccess; |
| } |
| |
| reader.Init(aPayload.Retain()); |
| |
| SubscribeRequestMessage::Parser subscribeRequestParser; |
| VerifyOrReturnError(subscribeRequestParser.Init(reader) == CHIP_NO_ERROR, Status::InvalidAction); |
| |
| #if CHIP_CONFIG_IM_PRETTY_PRINT |
| subscribeRequestParser.PrettyPrint(); |
| #endif |
| |
| VerifyOrReturnError(subscribeRequestParser.GetKeepSubscriptions(&keepExistingSubscriptions) == CHIP_NO_ERROR, |
| Status::InvalidAction); |
| if (!keepExistingSubscriptions) |
| { |
| // |
| // Walk through all existing subscriptions and shut down those whose subscriber matches |
| // that which just came in. |
| // |
| mReadHandlers.ForEachActiveObject([apExchangeContext](ReadHandler * handler) { |
| if (handler->IsFromSubscriber(*apExchangeContext)) |
| { |
| ChipLogProgress(InteractionModel, |
| "Deleting previous subscription from NodeId: " ChipLogFormatX64 ", FabricIndex: %u", |
| ChipLogValueX64(apExchangeContext->GetSessionHandle()->AsSecureSession()->GetPeerNodeId()), |
| apExchangeContext->GetSessionHandle()->GetFabricIndex()); |
| handler->Close(); |
| } |
| |
| return Loop::Continue; |
| }); |
| } |
| |
| { |
| size_t requestedAttributePathCount = 0; |
| size_t requestedEventPathCount = 0; |
| AttributePathIBs::Parser attributePathListParser; |
| bool hasValidAttributePath = false; |
| bool hasValidEventPath = false; |
| |
| CHIP_ERROR err = subscribeRequestParser.GetAttributeRequests(&attributePathListParser); |
| if (err == CHIP_NO_ERROR) |
| { |
| auto subjectDescriptor = apExchangeContext->GetSessionHandle()->AsSecureSession()->GetSubjectDescriptor(); |
| err = ParseAttributePaths(subjectDescriptor, attributePathListParser, hasValidAttributePath, |
| requestedAttributePathCount); |
| if (err != CHIP_NO_ERROR) |
| { |
| return Status::InvalidAction; |
| } |
| } |
| else if (err != CHIP_ERROR_END_OF_TLV) |
| { |
| return Status::InvalidAction; |
| } |
| |
| EventPathIBs::Parser eventPathListParser; |
| err = subscribeRequestParser.GetEventRequests(&eventPathListParser); |
| if (err == CHIP_NO_ERROR) |
| { |
| auto subjectDescriptor = apExchangeContext->GetSessionHandle()->AsSecureSession()->GetSubjectDescriptor(); |
| err = ParseEventPaths(subjectDescriptor, eventPathListParser, hasValidEventPath, requestedEventPathCount); |
| if (err != CHIP_NO_ERROR) |
| { |
| return Status::InvalidAction; |
| } |
| } |
| else if (err != CHIP_ERROR_END_OF_TLV) |
| { |
| return Status::InvalidAction; |
| } |
| |
| if (requestedAttributePathCount == 0 && requestedEventPathCount == 0) |
| { |
| ChipLogError(InteractionModel, |
| "Subscription from [%u:" ChipLogFormatX64 "] has no attribute or event paths. Rejecting request.", |
| apExchangeContext->GetSessionHandle()->GetFabricIndex(), |
| ChipLogValueX64(apExchangeContext->GetSessionHandle()->AsSecureSession()->GetPeerNodeId())); |
| return Status::InvalidAction; |
| } |
| |
| if (!hasValidAttributePath && !hasValidEventPath) |
| { |
| ChipLogError(InteractionModel, |
| "Subscription from [%u:" ChipLogFormatX64 "] has no access at all. Rejecting request.", |
| apExchangeContext->GetSessionHandle()->GetFabricIndex(), |
| ChipLogValueX64(apExchangeContext->GetSessionHandle()->AsSecureSession()->GetPeerNodeId())); |
| return Status::InvalidAction; |
| } |
| |
| // The following cast is safe, since we can only hold a few tens of paths in one request. |
| if (!EnsureResourceForSubscription(apExchangeContext->GetSessionHandle()->GetFabricIndex(), requestedAttributePathCount, |
| requestedEventPathCount)) |
| { |
| return Status::PathsExhausted; |
| } |
| } |
| } |
| else |
| { |
| System::PacketBufferTLVReader reader; |
| reader.Init(aPayload.Retain()); |
| |
| ReadRequestMessage::Parser readRequestParser; |
| VerifyOrReturnError(readRequestParser.Init(reader) == CHIP_NO_ERROR, Status::InvalidAction); |
| |
| #if CHIP_CONFIG_IM_PRETTY_PRINT |
| readRequestParser.PrettyPrint(); |
| #endif |
| { |
| size_t requestedAttributePathCount = 0; |
| size_t requestedEventPathCount = 0; |
| AttributePathIBs::Parser attributePathListParser; |
| CHIP_ERROR err = readRequestParser.GetAttributeRequests(&attributePathListParser); |
| if (err == CHIP_NO_ERROR) |
| { |
| TLV::TLVReader pathReader; |
| attributePathListParser.GetReader(&pathReader); |
| VerifyOrReturnError(TLV::Utilities::Count(pathReader, requestedAttributePathCount, false) == CHIP_NO_ERROR, |
| Status::InvalidAction); |
| } |
| else if (err != CHIP_ERROR_END_OF_TLV) |
| { |
| return Status::InvalidAction; |
| } |
| EventPathIBs::Parser eventpathListParser; |
| err = readRequestParser.GetEventRequests(&eventpathListParser); |
| if (err == CHIP_NO_ERROR) |
| { |
| TLV::TLVReader pathReader; |
| eventpathListParser.GetReader(&pathReader); |
| VerifyOrReturnError(TLV::Utilities::Count(pathReader, requestedEventPathCount, false) == CHIP_NO_ERROR, |
| Status::InvalidAction); |
| } |
| else if (err != CHIP_ERROR_END_OF_TLV) |
| { |
| return Status::InvalidAction; |
| } |
| |
| // The following cast is safe, since we can only hold a few tens of paths in one request. |
| Status checkResult = EnsureResourceForRead(apExchangeContext->GetSessionHandle()->GetFabricIndex(), |
| requestedAttributePathCount, requestedEventPathCount); |
| if (checkResult != Status::Success) |
| { |
| return checkResult; |
| } |
| } |
| } |
| |
| // We have already reserved enough resources for read requests, and have granted enough resources for current subscriptions, so |
| // we should be able to allocate resources requested by this request. |
| ReadHandler * handler = |
| mReadHandlers.CreateObject(*this, apExchangeContext, aInteractionType, mReportScheduler, GetDataModelProvider()); |
| if (handler == nullptr) |
| { |
| ChipLogProgress(InteractionModel, "no resource for %s interaction", |
| aInteractionType == ReadHandler::InteractionType::Subscribe ? "Subscribe" : "Read"); |
| return Status::ResourceExhausted; |
| } |
| |
| handler->OnInitialRequest(std::move(aPayload)); |
| |
| return Status::Success; |
| } |
| |
| Protocols::InteractionModel::Status InteractionModelEngine::OnWriteRequest(Messaging::ExchangeContext * apExchangeContext, |
| const PayloadHeader & aPayloadHeader, |
| System::PacketBufferHandle && aPayload, |
| bool aIsTimedWrite) |
| { |
| ChipLogDetail(InteractionModel, "Received Write request"); |
| |
| for (auto & writeHandler : mWriteHandlers) |
| { |
| if (writeHandler.IsFree()) |
| { |
| VerifyOrReturnError(writeHandler.Init(GetDataModelProvider(), this) == CHIP_NO_ERROR, Status::Busy); |
| return writeHandler.OnWriteRequest(apExchangeContext, std::move(aPayload), aIsTimedWrite); |
| } |
| } |
| ChipLogProgress(InteractionModel, "no resource for write interaction"); |
| return Status::Busy; |
| } |
| |
| CHIP_ERROR InteractionModelEngine::OnTimedRequest(Messaging::ExchangeContext * apExchangeContext, |
| const PayloadHeader & aPayloadHeader, System::PacketBufferHandle && aPayload, |
| Protocols::InteractionModel::Status & aStatus) |
| { |
| TimedHandler * handler = mTimedHandlers.CreateObject(this); |
| if (handler == nullptr) |
| { |
| ChipLogProgress(InteractionModel, "no resource for Timed interaction"); |
| aStatus = Status::Busy; |
| return CHIP_ERROR_NO_MEMORY; |
| } |
| |
| // The timed handler takes over handling of this exchange and will do its |
| // own status reporting as needed. |
| aStatus = Status::Success; |
| apExchangeContext->SetDelegate(handler); |
| return handler->OnMessageReceived(apExchangeContext, aPayloadHeader, std::move(aPayload)); |
| } |
| |
| #if CHIP_CONFIG_ENABLE_READ_CLIENT |
| Status InteractionModelEngine::OnUnsolicitedReportData(Messaging::ExchangeContext * apExchangeContext, |
| const PayloadHeader & aPayloadHeader, System::PacketBufferHandle && aPayload) |
| { |
| System::PacketBufferTLVReader reader; |
| reader.Init(aPayload.Retain()); |
| |
| ReportDataMessage::Parser report; |
| VerifyOrReturnError(report.Init(reader) == CHIP_NO_ERROR, Status::InvalidAction); |
| |
| #if CHIP_CONFIG_IM_PRETTY_PRINT |
| report.PrettyPrint(); |
| #endif |
| |
| SubscriptionId subscriptionId = 0; |
| VerifyOrReturnError(report.GetSubscriptionId(&subscriptionId) == CHIP_NO_ERROR, Status::InvalidAction); |
| VerifyOrReturnError(report.ExitContainer() == CHIP_NO_ERROR, Status::InvalidAction); |
| |
| ReadClient * foundSubscription = nullptr; |
| for (auto * readClient = mpActiveReadClientList; readClient != nullptr; readClient = readClient->GetNextClient()) |
| { |
| auto peer = apExchangeContext->GetSessionHandle()->GetPeer(); |
| if (readClient->GetFabricIndex() != peer.GetFabricIndex() || readClient->GetPeerNodeId() != peer.GetNodeId()) |
| { |
| continue; |
| } |
| |
| // Notify Subscriptions about incoming communication from node |
| readClient->OnUnsolicitedMessageFromPublisher(); |
| |
| if (!readClient->IsSubscriptionActive()) |
| { |
| continue; |
| } |
| |
| if (!readClient->IsMatchingSubscriptionId(subscriptionId)) |
| { |
| continue; |
| } |
| |
| if (!foundSubscription) |
| { |
| foundSubscription = readClient; |
| } |
| } |
| |
| if (foundSubscription) |
| { |
| foundSubscription->OnUnsolicitedReportData(apExchangeContext, std::move(aPayload)); |
| return Status::Success; |
| } |
| |
| ChipLogDetail(InteractionModel, "Received report with invalid subscriptionId %" PRIu32, subscriptionId); |
| |
| return Status::InvalidSubscription; |
| } |
| #endif // CHIP_CONFIG_ENABLE_READ_CLIENT |
| |
| CHIP_ERROR InteractionModelEngine::OnUnsolicitedMessageReceived(const PayloadHeader & payloadHeader, |
| ExchangeDelegate *& newDelegate) |
| { |
| // TODO: Implement OnUnsolicitedMessageReceived, let messaging layer dispatch message to ReadHandler/ReadClient/TimedHandler |
| // directly. |
| newDelegate = this; |
| return CHIP_NO_ERROR; |
| } |
| |
| CHIP_ERROR InteractionModelEngine::OnMessageReceived(Messaging::ExchangeContext * apExchangeContext, |
| const PayloadHeader & aPayloadHeader, System::PacketBufferHandle && aPayload) |
| { |
| using namespace Protocols::InteractionModel; |
| |
| Protocols::InteractionModel::Status status = Status::Failure; |
| |
| // Ensure that DataModel::Provider has access to the exchange the message was received on. |
| CurrentExchangeValueScope scopedExchangeContext(*this, apExchangeContext); |
| |
| // Group Message can only be an InvokeCommandRequest or WriteRequest |
| if (apExchangeContext->IsGroupExchangeContext() && |
| !aPayloadHeader.HasMessageType(Protocols::InteractionModel::MsgType::InvokeCommandRequest) && |
| !aPayloadHeader.HasMessageType(Protocols::InteractionModel::MsgType::WriteRequest)) |
| { |
| ChipLogProgress(InteractionModel, "Msg type %d not supported for group message", aPayloadHeader.GetMessageType()); |
| return CHIP_NO_ERROR; |
| } |
| |
| if (aPayloadHeader.HasMessageType(Protocols::InteractionModel::MsgType::InvokeCommandRequest)) |
| { |
| status = OnInvokeCommandRequest(apExchangeContext, aPayloadHeader, std::move(aPayload), /* aIsTimedInvoke = */ false); |
| } |
| else if (aPayloadHeader.HasMessageType(Protocols::InteractionModel::MsgType::ReadRequest)) |
| { |
| status = OnReadInitialRequest(apExchangeContext, aPayloadHeader, std::move(aPayload), ReadHandler::InteractionType::Read); |
| } |
| else if (aPayloadHeader.HasMessageType(Protocols::InteractionModel::MsgType::WriteRequest)) |
| { |
| status = OnWriteRequest(apExchangeContext, aPayloadHeader, std::move(aPayload), /* aIsTimedWrite = */ false); |
| } |
| else if (aPayloadHeader.HasMessageType(Protocols::InteractionModel::MsgType::SubscribeRequest)) |
| { |
| status = |
| OnReadInitialRequest(apExchangeContext, aPayloadHeader, std::move(aPayload), ReadHandler::InteractionType::Subscribe); |
| } |
| #if CHIP_CONFIG_ENABLE_READ_CLIENT |
| else if (aPayloadHeader.HasMessageType(Protocols::InteractionModel::MsgType::ReportData)) |
| { |
| status = OnUnsolicitedReportData(apExchangeContext, aPayloadHeader, std::move(aPayload)); |
| } |
| #endif // CHIP_CONFIG_ENABLE_READ_CLIENT |
| else if (aPayloadHeader.HasMessageType(MsgType::TimedRequest)) |
| { |
| OnTimedRequest(apExchangeContext, aPayloadHeader, std::move(aPayload), status); |
| } |
| else |
| { |
| ChipLogProgress(InteractionModel, "Msg type %d not supported", aPayloadHeader.GetMessageType()); |
| status = Status::InvalidAction; |
| } |
| |
| if (status != Status::Success && !apExchangeContext->IsGroupExchangeContext()) |
| { |
| return StatusResponse::Send(status, apExchangeContext, false /*aExpectResponse*/); |
| } |
| |
| return CHIP_NO_ERROR; |
| } |
| |
| void InteractionModelEngine::OnResponseTimeout(Messaging::ExchangeContext * ec) |
| { |
| ChipLogError(InteractionModel, "Time out! Failed to receive IM response from Exchange: " ChipLogFormatExchange, |
| ChipLogValueExchange(ec)); |
| } |
| |
| #if CHIP_CONFIG_ENABLE_READ_CLIENT |
| void InteractionModelEngine::OnActiveModeNotification(ScopedNodeId aPeer) |
| { |
| for (ReadClient * pListItem = mpActiveReadClientList; pListItem != nullptr;) |
| { |
| auto pNextItem = pListItem->GetNextClient(); |
| // It is possible that pListItem is destroyed by the app in OnActiveModeNotification. |
| // Get the next item before invoking `OnActiveModeNotification`. |
| if (ScopedNodeId(pListItem->GetPeerNodeId(), pListItem->GetFabricIndex()) == aPeer) |
| { |
| pListItem->OnActiveModeNotification(); |
| } |
| pListItem = pNextItem; |
| } |
| } |
| |
| void InteractionModelEngine::OnPeerTypeChange(ScopedNodeId aPeer, ReadClient::PeerType aType) |
| { |
| // TODO: Follow up to use a iterator function to avoid copy/paste here. |
| for (ReadClient * pListItem = mpActiveReadClientList; pListItem != nullptr;) |
| { |
| // It is possible that pListItem is destroyed by the app in OnPeerTypeChange. |
| // Get the next item before invoking `OnPeerTypeChange`. |
| auto pNextItem = pListItem->GetNextClient(); |
| if (ScopedNodeId(pListItem->GetPeerNodeId(), pListItem->GetFabricIndex()) == aPeer) |
| { |
| pListItem->OnPeerTypeChange(aType); |
| } |
| pListItem = pNextItem; |
| } |
| } |
| |
| void InteractionModelEngine::AddReadClient(ReadClient * apReadClient) |
| { |
| apReadClient->SetNextClient(mpActiveReadClientList); |
| mpActiveReadClientList = apReadClient; |
| } |
| #endif // CHIP_CONFIG_ENABLE_READ_CLIENT |
| |
| bool InteractionModelEngine::TrimFabricForSubscriptions(FabricIndex aFabricIndex, bool aForceEvict) |
| { |
| const size_t pathPoolCapacity = GetPathPoolCapacityForSubscriptions(); |
| const size_t readHandlerPoolCapacity = GetReadHandlerPoolCapacityForSubscriptions(); |
| |
| uint8_t fabricCount = mpFabricTable->FabricCount(); |
| size_t attributePathsSubscribedByCurrentFabric = 0; |
| size_t eventPathsSubscribedByCurrentFabric = 0; |
| size_t subscriptionsEstablishedByCurrentFabric = 0; |
| |
| if (fabricCount == 0) |
| { |
| return false; |
| } |
| |
| // Note: This is OK only when we have assumed the fabricCount is not zero. Should be revised when adding support to |
| // subscriptions on PASE sessions. |
| size_t perFabricPathCapacity = pathPoolCapacity / static_cast<size_t>(fabricCount); |
| size_t perFabricSubscriptionCapacity = readHandlerPoolCapacity / static_cast<size_t>(fabricCount); |
| |
| ReadHandler * candidate = nullptr; |
| size_t candidateAttributePathsUsed = 0; |
| size_t candidateEventPathsUsed = 0; |
| |
| // It is safe to use & here since this function will be called on current stack. |
| mReadHandlers.ForEachActiveObject([&](ReadHandler * handler) { |
| if (handler->GetAccessingFabricIndex() != aFabricIndex || !handler->IsType(ReadHandler::InteractionType::Subscribe)) |
| { |
| return Loop::Continue; |
| } |
| |
| size_t attributePathsUsed = handler->GetAttributePathCount(); |
| size_t eventPathsUsed = handler->GetEventPathCount(); |
| |
| attributePathsSubscribedByCurrentFabric += attributePathsUsed; |
| eventPathsSubscribedByCurrentFabric += eventPathsUsed; |
| subscriptionsEstablishedByCurrentFabric++; |
| |
| if (candidate == nullptr) |
| { |
| candidate = handler; |
| } |
| // This handler uses more resources than the one we picked before. |
| else if ((attributePathsUsed > perFabricPathCapacity || eventPathsUsed > perFabricPathCapacity) && |
| (candidateAttributePathsUsed <= perFabricPathCapacity && candidateEventPathsUsed <= perFabricPathCapacity)) |
| { |
| candidate = handler; |
| candidateAttributePathsUsed = attributePathsUsed; |
| candidateEventPathsUsed = eventPathsUsed; |
| } |
| // This handler is older than the one we picked before. |
| else if (handler->GetTransactionStartGeneration() < candidate->GetTransactionStartGeneration() && |
| // And the level of resource usage is the same (both exceed or neither exceed) |
| ((attributePathsUsed > perFabricPathCapacity || eventPathsUsed > perFabricPathCapacity) == |
| (candidateAttributePathsUsed > perFabricPathCapacity || candidateEventPathsUsed > perFabricPathCapacity))) |
| { |
| candidate = handler; |
| } |
| return Loop::Continue; |
| }); |
| |
| if (candidate != nullptr && |
| (aForceEvict || attributePathsSubscribedByCurrentFabric > perFabricPathCapacity || |
| eventPathsSubscribedByCurrentFabric > perFabricPathCapacity || |
| subscriptionsEstablishedByCurrentFabric > perFabricSubscriptionCapacity)) |
| { |
| SubscriptionId subId; |
| candidate->GetSubscriptionId(subId); |
| ChipLogProgress(DataManagement, "Evicting Subscription ID %u:0x%" PRIx32, candidate->GetSubjectDescriptor().fabricIndex, |
| subId); |
| candidate->Close(); |
| return true; |
| } |
| return false; |
| } |
| |
| bool InteractionModelEngine::EnsureResourceForSubscription(FabricIndex aFabricIndex, size_t aRequestedAttributePathCount, |
| size_t aRequestedEventPathCount) |
| { |
| #if CHIP_SYSTEM_CONFIG_POOL_USE_HEAP && !CHIP_CONFIG_IM_FORCE_FABRIC_QUOTA_CHECK |
| #if CONFIG_BUILD_FOR_HOST_UNIT_TEST |
| const bool allowUnlimited = !mForceHandlerQuota; |
| #else // CONFIG_BUILD_FOR_HOST_UNIT_TEST |
| // If the resources are allocated on the heap, we should be able to handle as many Read / Subscribe requests as possible. |
| const bool allowUnlimited = true; |
| #endif // CONFIG_BUILD_FOR_HOST_UNIT_TEST |
| #else // CHIP_SYSTEM_CONFIG_POOL_USE_HEAP && !CHIP_CONFIG_IM_FORCE_FABRIC_QUOTA_CHECK |
| const bool allowUnlimited = false; |
| #endif // CHIP_SYSTEM_CONFIG_POOL_USE_HEAP && !CHIP_CONFIG_IM_FORCE_FABRIC_QUOTA_CHECK |
| |
| // Don't couple with read requests, always reserve enough resource for read requests. |
| |
| const size_t pathPoolCapacity = GetPathPoolCapacityForSubscriptions(); |
| const size_t readHandlerPoolCapacity = GetReadHandlerPoolCapacityForSubscriptions(); |
| |
| // If we return early here, the compiler will complain about the unreachable code, so we add a always-true check. |
| const size_t attributePathCap = allowUnlimited ? SIZE_MAX : pathPoolCapacity; |
| const size_t eventPathCap = allowUnlimited ? SIZE_MAX : pathPoolCapacity; |
| const size_t readHandlerCap = allowUnlimited ? SIZE_MAX : readHandlerPoolCapacity; |
| |
| size_t usedAttributePaths = 0; |
| size_t usedEventPaths = 0; |
| size_t usedReadHandlers = 0; |
| |
| auto countResourceUsage = [&]() { |
| usedAttributePaths = 0; |
| usedEventPaths = 0; |
| usedReadHandlers = 0; |
| mReadHandlers.ForEachActiveObject([&](auto * handler) { |
| if (!handler->IsType(ReadHandler::InteractionType::Subscribe)) |
| { |
| return Loop::Continue; |
| } |
| usedAttributePaths += handler->GetAttributePathCount(); |
| usedEventPaths += handler->GetEventPathCount(); |
| usedReadHandlers++; |
| return Loop::Continue; |
| }); |
| }; |
| |
| countResourceUsage(); |
| |
| if (usedAttributePaths + aRequestedAttributePathCount <= attributePathCap && |
| usedEventPaths + aRequestedEventPathCount <= eventPathCap && usedReadHandlers < readHandlerCap) |
| { |
| // We have enough resources, then we serve the requests in a best-effort manner. |
| return true; |
| } |
| |
| if ((aRequestedAttributePathCount > kMinSupportedPathsPerSubscription && |
| usedAttributePaths + aRequestedAttributePathCount > attributePathCap) || |
| (aRequestedEventPathCount > kMinSupportedPathsPerSubscription && usedEventPaths + aRequestedEventPathCount > eventPathCap)) |
| { |
| // We cannot offer enough resources, and the subscription is requesting more than the spec limit. |
| return false; |
| } |
| |
| const auto evictAndUpdateResourceUsage = [&](FabricIndex fabricIndex, bool forceEvict) { |
| bool ret = TrimFabricForSubscriptions(fabricIndex, forceEvict); |
| countResourceUsage(); |
| return ret; |
| }; |
| |
| // |
| // At this point, we have an inbound request that respects minimas but we still don't have enough resources to handle it. Which |
| // means that we definitely have handlers on existing fabrics that are over limits and need to evict at least one of them to |
| // make space. |
| // |
| // There might be cases that one fabric has lots of subscriptions with one interested path, while the other fabrics are not |
| // using excess resources. So we need to do this multiple times until we have enough room or no fabrics are using excess |
| // resources. |
| // |
| bool didEvictHandler = true; |
| while (didEvictHandler) |
| { |
| didEvictHandler = false; |
| for (const auto & fabric : *mpFabricTable) |
| { |
| // The resources are enough to serve this request, do not evict anything. |
| if (usedAttributePaths + aRequestedAttributePathCount <= attributePathCap && |
| usedEventPaths + aRequestedEventPathCount <= eventPathCap && usedReadHandlers < readHandlerCap) |
| { |
| break; |
| } |
| didEvictHandler = didEvictHandler || evictAndUpdateResourceUsage(fabric.GetFabricIndex(), false); |
| } |
| } |
| |
| // The above loop cannot guarantee the resources for the new subscriptions when the resource usage from all fabrics are exactly |
| // within the quota (which means we have exactly used all resources). Evict (from the large subscriptions first then from |
| // oldest) subscriptions from the current fabric until we have enough resource for the new subscription. |
| didEvictHandler = true; |
| while ((usedAttributePaths + aRequestedAttributePathCount > attributePathCap || |
| usedEventPaths + aRequestedEventPathCount > eventPathCap || usedReadHandlers >= readHandlerCap) && |
| // Avoid infinity loop |
| didEvictHandler) |
| { |
| didEvictHandler = evictAndUpdateResourceUsage(aFabricIndex, true); |
| } |
| |
| // If didEvictHandler is false, means the loop above evicted all subscriptions from the current fabric but we still don't have |
| // enough resources for the new subscription, this should never happen. |
| // This is safe as long as we have rejected subscriptions without a fabric associated (with a PASE session) before. |
| // Note: Spec#5141: should reject subscription requests on PASE sessions. |
| VerifyOrDieWithMsg(didEvictHandler, DataManagement, "Failed to get required resources by evicting existing subscriptions."); |
| |
| // We have ensured enough resources by the logic above. |
| return true; |
| } |
| |
| bool InteractionModelEngine::TrimFabricForRead(FabricIndex aFabricIndex) |
| { |
| const size_t guaranteedReadRequestsPerFabric = GetGuaranteedReadRequestsPerFabric(); |
| const size_t minSupportedPathsPerFabricForRead = guaranteedReadRequestsPerFabric * kMinSupportedPathsPerReadRequest; |
| |
| size_t attributePathsUsedByCurrentFabric = 0; |
| size_t eventPathsUsedByCurrentFabric = 0; |
| size_t readTransactionsOnCurrentFabric = 0; |
| |
| ReadHandler * candidate = nullptr; |
| size_t candidateAttributePathsUsed = 0; |
| size_t candidateEventPathsUsed = 0; |
| |
| // It is safe to use & here since this function will be called on current stack. |
| mReadHandlers.ForEachActiveObject([&](ReadHandler * handler) { |
| if (handler->GetAccessingFabricIndex() != aFabricIndex || !handler->IsType(ReadHandler::InteractionType::Read)) |
| { |
| return Loop::Continue; |
| } |
| |
| size_t attributePathsUsed = handler->GetAttributePathCount(); |
| size_t eventPathsUsed = handler->GetEventPathCount(); |
| |
| attributePathsUsedByCurrentFabric += attributePathsUsed; |
| eventPathsUsedByCurrentFabric += eventPathsUsed; |
| readTransactionsOnCurrentFabric++; |
| |
| if (candidate == nullptr) |
| { |
| candidate = handler; |
| } |
| // Oversized read handlers will be evicted first. |
| else if ((attributePathsUsed > kMinSupportedPathsPerReadRequest || eventPathsUsed > kMinSupportedPathsPerReadRequest) && |
| (candidateAttributePathsUsed <= kMinSupportedPathsPerReadRequest && |
| candidateEventPathsUsed <= kMinSupportedPathsPerReadRequest)) |
| { |
| candidate = handler; |
| } |
| // Read Handlers are "first come first served", so we give eariler read transactions a higher priority. |
| else if (handler->GetTransactionStartGeneration() > candidate->GetTransactionStartGeneration() && |
| // And the level of resource usage is the same (both exceed or neither exceed) |
| ((attributePathsUsed > kMinSupportedPathsPerReadRequest || eventPathsUsed > kMinSupportedPathsPerReadRequest) == |
| (candidateAttributePathsUsed > kMinSupportedPathsPerReadRequest || |
| candidateEventPathsUsed > kMinSupportedPathsPerReadRequest))) |
| { |
| candidate = handler; |
| } |
| |
| if (candidate == handler) |
| { |
| candidateAttributePathsUsed = attributePathsUsed; |
| candidateEventPathsUsed = eventPathsUsed; |
| } |
| return Loop::Continue; |
| }); |
| |
| if (candidate != nullptr && |
| ((attributePathsUsedByCurrentFabric > minSupportedPathsPerFabricForRead || |
| eventPathsUsedByCurrentFabric > minSupportedPathsPerFabricForRead || |
| readTransactionsOnCurrentFabric > guaranteedReadRequestsPerFabric) || |
| // Always evict the transactions on PASE sessions if the fabric table is full. |
| (aFabricIndex == kUndefinedFabricIndex && mpFabricTable->FabricCount() == GetConfigMaxFabrics()))) |
| { |
| candidate->Close(); |
| return true; |
| } |
| return false; |
| } |
| |
| Protocols::InteractionModel::Status InteractionModelEngine::EnsureResourceForRead(FabricIndex aFabricIndex, |
| size_t aRequestedAttributePathCount, |
| size_t aRequestedEventPathCount) |
| { |
| #if CHIP_SYSTEM_CONFIG_POOL_USE_HEAP && !CHIP_CONFIG_IM_FORCE_FABRIC_QUOTA_CHECK |
| #if CONFIG_BUILD_FOR_HOST_UNIT_TEST |
| const bool allowUnlimited = !mForceHandlerQuota; |
| #else // CONFIG_BUILD_FOR_HOST_UNIT_TEST |
| // If the resources are allocated on the heap, we should be able to handle as many Read / Subscribe requests as possible. |
| const bool allowUnlimited = true; |
| #endif // CONFIG_BUILD_FOR_HOST_UNIT_TEST |
| #else // CHIP_SYSTEM_CONFIG_POOL_USE_HEAP && !CHIP_CONFIG_IM_FORCE_FABRIC_QUOTA_CHECK |
| const bool allowUnlimited = false; |
| #endif // CHIP_SYSTEM_CONFIG_POOL_USE_HEAP && !CHIP_CONFIG_IM_FORCE_FABRIC_QUOTA_CHECK |
| |
| // If we return early here, the compiler will complain about the unreachable code, so we add a always-true check. |
| const size_t attributePathCap = allowUnlimited ? SIZE_MAX : GetPathPoolCapacityForReads(); |
| const size_t eventPathCap = allowUnlimited ? SIZE_MAX : GetPathPoolCapacityForReads(); |
| const size_t readHandlerCap = allowUnlimited ? SIZE_MAX : GetReadHandlerPoolCapacityForReads(); |
| |
| const size_t guaranteedReadRequestsPerFabric = GetGuaranteedReadRequestsPerFabric(); |
| const size_t guaranteedPathsPerFabric = kMinSupportedPathsPerReadRequest * guaranteedReadRequestsPerFabric; |
| |
| size_t usedAttributePaths = 0; |
| size_t usedEventPaths = 0; |
| size_t usedReadHandlers = 0; |
| |
| auto countResourceUsage = [&]() { |
| usedAttributePaths = 0; |
| usedEventPaths = 0; |
| usedReadHandlers = 0; |
| mReadHandlers.ForEachActiveObject([&](auto * handler) { |
| if (!handler->IsType(ReadHandler::InteractionType::Read)) |
| { |
| return Loop::Continue; |
| } |
| usedAttributePaths += handler->GetAttributePathCount(); |
| usedEventPaths += handler->GetEventPathCount(); |
| usedReadHandlers++; |
| return Loop::Continue; |
| }); |
| }; |
| |
| auto haveEnoughResourcesForTheRequest = [&]() { |
| return usedAttributePaths + aRequestedAttributePathCount <= attributePathCap && |
| usedEventPaths + aRequestedEventPathCount <= eventPathCap && usedReadHandlers < readHandlerCap; |
| }; |
| |
| countResourceUsage(); |
| |
| if (haveEnoughResourcesForTheRequest()) |
| { |
| // We have enough resources, then we serve the requests in a best-effort manner. |
| return Status::Success; |
| } |
| |
| if ((aRequestedAttributePathCount > kMinSupportedPathsPerReadRequest && |
| usedAttributePaths + aRequestedAttributePathCount > attributePathCap) || |
| (aRequestedEventPathCount > kMinSupportedPathsPerReadRequest && usedEventPaths + aRequestedEventPathCount > eventPathCap)) |
| { |
| // We cannot offer enough resources, and the read transaction is requesting more than the spec limit. |
| return Status::PathsExhausted; |
| } |
| |
| // If we have commissioned CHIP_CONFIG_MAX_FABRICS already, and this transaction doesn't have an associated fabric index, reject |
| // the request if we don't have sufficient resources for this request. |
| if (mpFabricTable->FabricCount() == GetConfigMaxFabrics() && aFabricIndex == kUndefinedFabricIndex) |
| { |
| return Status::Busy; |
| } |
| |
| size_t usedAttributePathsInFabric = 0; |
| size_t usedEventPathsInFabric = 0; |
| size_t usedReadHandlersInFabric = 0; |
| mReadHandlers.ForEachActiveObject([&](auto * handler) { |
| if (!handler->IsType(ReadHandler::InteractionType::Read) || handler->GetAccessingFabricIndex() != aFabricIndex) |
| { |
| return Loop::Continue; |
| } |
| usedAttributePathsInFabric += handler->GetAttributePathCount(); |
| usedEventPathsInFabric += handler->GetEventPathCount(); |
| usedReadHandlersInFabric++; |
| return Loop::Continue; |
| }); |
| |
| // Busy, since there are already some read requests ongoing on this fabric, please retry later. |
| if (usedAttributePathsInFabric + aRequestedAttributePathCount > guaranteedPathsPerFabric || |
| usedEventPathsInFabric + aRequestedEventPathCount > guaranteedPathsPerFabric || |
| usedReadHandlersInFabric >= guaranteedReadRequestsPerFabric) |
| { |
| return Status::Busy; |
| } |
| |
| const auto evictAndUpdateResourceUsage = [&](FabricIndex fabricIndex) { |
| bool ret = TrimFabricForRead(fabricIndex); |
| countResourceUsage(); |
| return ret; |
| }; |
| |
| // |
| // At this point, we have an inbound request that respects minimas but we still don't have enough resources to handle it. Which |
| // means that we definitely have handlers on existing fabrics that are over limits and need to evict at least one of them to |
| // make space. |
| // |
| bool didEvictHandler = true; |
| while (didEvictHandler) |
| { |
| didEvictHandler = false; |
| didEvictHandler = didEvictHandler || evictAndUpdateResourceUsage(kUndefinedFabricIndex); |
| if (haveEnoughResourcesForTheRequest()) |
| { |
| break; |
| } |
| // If the fabric table is full, we won't evict read requests from normal fabrics before we have evicted all read requests |
| // from PASE sessions. |
| if (mpFabricTable->FabricCount() == GetConfigMaxFabrics() && didEvictHandler) |
| { |
| continue; |
| } |
| for (const auto & fabric : *mpFabricTable) |
| { |
| didEvictHandler = didEvictHandler || evictAndUpdateResourceUsage(fabric.GetFabricIndex()); |
| // If we now have enough resources to serve this request, stop evicting things. |
| if (haveEnoughResourcesForTheRequest()) |
| { |
| break; |
| } |
| } |
| } |
| |
| // Now all fabrics are not oversized (since we have trimmed the oversized fabrics in the loop above), and the read handler is |
| // also not oversized, we should be able to handle this read transaction. |
| VerifyOrDie(haveEnoughResourcesForTheRequest()); |
| |
| return Status::Success; |
| } |
| |
| #if CHIP_CONFIG_ENABLE_READ_CLIENT |
| void InteractionModelEngine::RemoveReadClient(ReadClient * apReadClient) |
| { |
| ReadClient * pPrevListItem = nullptr; |
| ReadClient * pCurListItem = mpActiveReadClientList; |
| |
| while (pCurListItem != apReadClient) |
| { |
| // |
| // Item must exist in this tracker list. If not, there's a bug somewhere. |
| // |
| VerifyOrDie(pCurListItem != nullptr); |
| |
| pPrevListItem = pCurListItem; |
| pCurListItem = pCurListItem->GetNextClient(); |
| } |
| |
| if (pPrevListItem) |
| { |
| pPrevListItem->SetNextClient(apReadClient->GetNextClient()); |
| } |
| else |
| { |
| mpActiveReadClientList = apReadClient->GetNextClient(); |
| } |
| |
| apReadClient->SetNextClient(nullptr); |
| } |
| |
| size_t InteractionModelEngine::GetNumActiveReadClients() |
| { |
| ReadClient * pListItem = mpActiveReadClientList; |
| size_t count = 0; |
| |
| while (pListItem) |
| { |
| pListItem = pListItem->GetNextClient(); |
| count++; |
| } |
| |
| return count; |
| } |
| |
| bool InteractionModelEngine::InActiveReadClientList(ReadClient * apReadClient) |
| { |
| ReadClient * pListItem = mpActiveReadClientList; |
| |
| while (pListItem) |
| { |
| if (pListItem == apReadClient) |
| { |
| return true; |
| } |
| |
| pListItem = pListItem->GetNextClient(); |
| } |
| |
| return false; |
| } |
| #endif // CHIP_CONFIG_ENABLE_READ_CLIENT |
| |
| bool InteractionModelEngine::HasConflictWriteRequests(const WriteHandler * apWriteHandler, const ConcreteAttributePath & aPath) |
| { |
| for (auto & writeHandler : mWriteHandlers) |
| { |
| if (writeHandler.IsFree() || &writeHandler == apWriteHandler) |
| { |
| continue; |
| } |
| if (writeHandler.IsCurrentlyProcessingWritePath(aPath)) |
| { |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| void InteractionModelEngine::ReleaseAttributePathList(SingleLinkedListNode<AttributePathParams> *& aAttributePathList) |
| { |
| ReleasePool(aAttributePathList, mAttributePathPool); |
| } |
| |
| CHIP_ERROR InteractionModelEngine::PushFrontAttributePathList(SingleLinkedListNode<AttributePathParams> *& aAttributePathList, |
| AttributePathParams & aAttributePath) |
| { |
| CHIP_ERROR err = PushFront(aAttributePathList, aAttributePath, mAttributePathPool); |
| if (err == CHIP_ERROR_NO_MEMORY) |
| { |
| ChipLogError(InteractionModel, "AttributePath pool full"); |
| return CHIP_IM_GLOBAL_STATUS(PathsExhausted); |
| } |
| return err; |
| } |
| |
| bool InteractionModelEngine::IsExistentAttributePath(const ConcreteAttributePath & path) |
| { |
| #if CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| #if CHIP_CONFIG_USE_EMBER_DATA_MODEL |
| bool providerResult = GetDataModelProvider()->GetAttributeInfo(path).has_value(); |
| |
| bool emberResult = emberAfContainsAttribute(path.mEndpointId, path.mClusterId, path.mAttributeId); |
| |
| // Ensure that Provider interface and ember are IDENTICAL in attribute location (i.e. "check" mode) |
| VerifyOrDie(providerResult == emberResult); |
| #endif |
| return GetDataModelProvider()->GetAttributeInfo(path).has_value(); |
| #else |
| return emberAfContainsAttribute(path.mEndpointId, path.mClusterId, path.mAttributeId); |
| #endif |
| } |
| |
| void InteractionModelEngine::RemoveDuplicateConcreteAttributePath(SingleLinkedListNode<AttributePathParams> *& aAttributePaths) |
| { |
| SingleLinkedListNode<AttributePathParams> * prev = nullptr; |
| auto * path1 = aAttributePaths; |
| |
| while (path1 != nullptr) |
| { |
| bool duplicate = false; |
| |
| // skip all wildcard paths and invalid concrete attribute |
| if (path1->mValue.IsWildcardPath() || |
| !IsExistentAttributePath( |
| ConcreteAttributePath(path1->mValue.mEndpointId, path1->mValue.mClusterId, path1->mValue.mAttributeId))) |
| { |
| prev = path1; |
| path1 = path1->mpNext; |
| continue; |
| } |
| |
| // Check whether a wildcard path expands to something that includes this concrete path. |
| for (auto * path2 = aAttributePaths; path2 != nullptr; path2 = path2->mpNext) |
| { |
| if (path2 == path1) |
| { |
| continue; |
| } |
| |
| if (path2->mValue.IsWildcardPath() && path2->mValue.IsAttributePathSupersetOf(path1->mValue)) |
| { |
| duplicate = true; |
| break; |
| } |
| } |
| |
| // if path1 duplicates something from wildcard expansion, discard path1 |
| if (!duplicate) |
| { |
| prev = path1; |
| path1 = path1->mpNext; |
| continue; |
| } |
| |
| if (path1 == aAttributePaths) |
| { |
| aAttributePaths = path1->mpNext; |
| mAttributePathPool.ReleaseObject(path1); |
| path1 = aAttributePaths; |
| } |
| else |
| { |
| prev->mpNext = path1->mpNext; |
| mAttributePathPool.ReleaseObject(path1); |
| path1 = prev->mpNext; |
| } |
| } |
| } |
| |
| void InteractionModelEngine::ReleaseEventPathList(SingleLinkedListNode<EventPathParams> *& aEventPathList) |
| { |
| ReleasePool(aEventPathList, mEventPathPool); |
| } |
| |
| CHIP_ERROR InteractionModelEngine::PushFrontEventPathParamsList(SingleLinkedListNode<EventPathParams> *& aEventPathList, |
| EventPathParams & aEventPath) |
| { |
| CHIP_ERROR err = PushFront(aEventPathList, aEventPath, mEventPathPool); |
| if (err == CHIP_ERROR_NO_MEMORY) |
| { |
| ChipLogError(InteractionModel, "EventPath pool full"); |
| return CHIP_IM_GLOBAL_STATUS(PathsExhausted); |
| } |
| return err; |
| } |
| |
| void InteractionModelEngine::ReleaseDataVersionFilterList(SingleLinkedListNode<DataVersionFilter> *& aDataVersionFilterList) |
| { |
| ReleasePool(aDataVersionFilterList, mDataVersionFilterPool); |
| } |
| |
| CHIP_ERROR InteractionModelEngine::PushFrontDataVersionFilterList(SingleLinkedListNode<DataVersionFilter> *& aDataVersionFilterList, |
| DataVersionFilter & aDataVersionFilter) |
| { |
| CHIP_ERROR err = PushFront(aDataVersionFilterList, aDataVersionFilter, mDataVersionFilterPool); |
| if (err == CHIP_ERROR_NO_MEMORY) |
| { |
| ChipLogError(InteractionModel, "DataVersionFilter pool full, ignore this filter"); |
| err = CHIP_NO_ERROR; |
| } |
| return err; |
| } |
| |
| template <typename T, size_t N> |
| void InteractionModelEngine::ReleasePool(SingleLinkedListNode<T> *& aObjectList, |
| ObjectPool<SingleLinkedListNode<T>, N> & aObjectPool) |
| { |
| SingleLinkedListNode<T> * current = aObjectList; |
| while (current != nullptr) |
| { |
| SingleLinkedListNode<T> * nextObject = current->mpNext; |
| aObjectPool.ReleaseObject(current); |
| current = nextObject; |
| } |
| |
| aObjectList = nullptr; |
| } |
| |
| template <typename T, size_t N> |
| CHIP_ERROR InteractionModelEngine::PushFront(SingleLinkedListNode<T> *& aObjectList, T & aData, |
| ObjectPool<SingleLinkedListNode<T>, N> & aObjectPool) |
| { |
| SingleLinkedListNode<T> * object = aObjectPool.CreateObject(); |
| if (object == nullptr) |
| { |
| return CHIP_ERROR_NO_MEMORY; |
| } |
| object->mValue = aData; |
| object->mpNext = aObjectList; |
| aObjectList = object; |
| return CHIP_NO_ERROR; |
| } |
| |
| void InteractionModelEngine::DispatchCommand(CommandHandlerImpl & apCommandObj, const ConcreteCommandPath & aCommandPath, |
| TLV::TLVReader & apPayload) |
| { |
| #if CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| |
| Access::SubjectDescriptor subjectDescriptor = apCommandObj.GetSubjectDescriptor(); |
| |
| DataModel::InvokeRequest request; |
| request.path = aCommandPath; |
| request.invokeFlags.Set(DataModel::InvokeFlags::kTimed, apCommandObj.IsTimedInvoke()); |
| request.subjectDescriptor = &subjectDescriptor; |
| |
| std::optional<DataModel::ActionReturnStatus> status = GetDataModelProvider()->Invoke(request, apPayload, &apCommandObj); |
| |
| // Provider indicates that handler status or data was already set (or will be set asynchronously) by |
| // returning std::nullopt. If any other value is returned, it is requesting that a status is set. This |
| // includes CHIP_NO_ERROR: in this case CHIP_NO_ERROR would mean set a `status success on the command` |
| if (status.has_value()) |
| { |
| apCommandObj.AddStatus(aCommandPath, status->GetStatusCode()); |
| } |
| #else |
| CommandHandlerInterface * handler = |
| CommandHandlerInterfaceRegistry::Instance().GetCommandHandler(aCommandPath.mEndpointId, aCommandPath.mClusterId); |
| |
| if (handler) |
| { |
| CommandHandlerInterface::HandlerContext context(apCommandObj, aCommandPath, apPayload); |
| handler->InvokeCommand(context); |
| |
| // |
| // If the command was handled, don't proceed any further and return successfully. |
| // |
| if (context.mCommandHandled) |
| { |
| return; |
| } |
| } |
| |
| DispatchSingleClusterCommand(aCommandPath, apPayload, &apCommandObj); |
| #endif // CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| } |
| |
| Protocols::InteractionModel::Status InteractionModelEngine::ValidateCommandCanBeDispatched(const DataModel::InvokeRequest & request) |
| { |
| |
| Status status = CheckCommandExistence(request.path); |
| |
| if (status != Status::Success) |
| { |
| ChipLogDetail(DataManagement, "No command " ChipLogFormatMEI " in Cluster " ChipLogFormatMEI " on Endpoint %u", |
| ChipLogValueMEI(request.path.mCommandId), ChipLogValueMEI(request.path.mClusterId), request.path.mEndpointId); |
| return status; |
| } |
| |
| status = CheckCommandAccess(request); |
| VerifyOrReturnValue(status == Status::Success, status); |
| |
| return CheckCommandFlags(request); |
| } |
| |
| Protocols::InteractionModel::Status InteractionModelEngine::CheckCommandAccess(const DataModel::InvokeRequest & aRequest) |
| { |
| if (aRequest.subjectDescriptor == nullptr) |
| { |
| return Status::UnsupportedAccess; // we require a subject for invoke |
| } |
| |
| Access::RequestPath requestPath{ .cluster = aRequest.path.mClusterId, |
| .endpoint = aRequest.path.mEndpointId, |
| .requestType = Access::RequestType::kCommandInvokeRequest, |
| .entityId = aRequest.path.mCommandId }; |
| #if CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| std::optional<DataModel::CommandInfo> commandInfo = mDataModelProvider->GetAcceptedCommandInfo(aRequest.path); |
| Access::Privilege minimumRequiredPrivilege = |
| commandInfo.has_value() ? commandInfo->invokePrivilege : Access::Privilege::kOperate; |
| #else |
| Access::Privilege minimumRequiredPrivilege = RequiredPrivilege::ForInvokeCommand(aRequest.path); |
| #endif |
| CHIP_ERROR err = Access::GetAccessControl().Check(*aRequest.subjectDescriptor, requestPath, minimumRequiredPrivilege); |
| if (err != CHIP_NO_ERROR) |
| { |
| if ((err != CHIP_ERROR_ACCESS_DENIED) && (err != CHIP_ERROR_ACCESS_RESTRICTED_BY_ARL)) |
| { |
| return Status::Failure; |
| } |
| return err == CHIP_ERROR_ACCESS_DENIED ? Status::UnsupportedAccess : Status::AccessRestricted; |
| } |
| |
| return Status::Success; |
| } |
| |
| Protocols::InteractionModel::Status InteractionModelEngine::CheckCommandFlags(const DataModel::InvokeRequest & aRequest) |
| { |
| #if CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| std::optional<DataModel::CommandInfo> commandInfo = mDataModelProvider->GetAcceptedCommandInfo(aRequest.path); |
| // This is checked by previous validations, so it should not happen |
| VerifyOrDie(commandInfo.has_value()); |
| |
| const bool commandNeedsTimedInvoke = commandInfo->flags.Has(DataModel::CommandQualityFlags::kTimed); |
| const bool commandIsFabricScoped = commandInfo->flags.Has(DataModel::CommandQualityFlags::kFabricScoped); |
| #else |
| const bool commandNeedsTimedInvoke = CommandNeedsTimedInvoke(aRequest.path.mClusterId, aRequest.path.mCommandId); |
| const bool commandIsFabricScoped = CommandIsFabricScoped(aRequest.path.mClusterId, aRequest.path.mCommandId); |
| #endif |
| |
| if (commandNeedsTimedInvoke && !aRequest.invokeFlags.Has(DataModel::InvokeFlags::kTimed)) |
| { |
| return Status::NeedsTimedInteraction; |
| } |
| |
| if (commandIsFabricScoped) |
| { |
| // SPEC: Else if the command in the path is fabric-scoped and there is no accessing fabric, |
| // a CommandStatusIB SHALL be generated with the UNSUPPORTED_ACCESS Status Code. |
| |
| // Fabric-scoped commands are not allowed before a specific accessing fabric is available. |
| // This is mostly just during a PASE session before AddNOC. |
| if (aRequest.GetAccessingFabricIndex() == kUndefinedFabricIndex) |
| { |
| return Status::UnsupportedAccess; |
| } |
| } |
| |
| return Status::Success; |
| } |
| |
| Protocols::InteractionModel::Status InteractionModelEngine::CheckCommandExistence(const ConcreteCommandPath & aCommandPath) |
| { |
| #if CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| auto provider = GetDataModelProvider(); |
| if (provider->GetAcceptedCommandInfo(aCommandPath).has_value()) |
| { |
| #if CHIP_CONFIG_USE_EMBER_DATA_MODEL |
| VerifyOrDie(ServerClusterCommandExists(aCommandPath) == Protocols::InteractionModel::Status::Success); |
| #endif |
| return Protocols::InteractionModel::Status::Success; |
| } |
| |
| // We failed, figure out why ... |
| // |
| if (provider->GetClusterInfo(aCommandPath).has_value()) |
| { |
| #if CHIP_CONFIG_USE_EMBER_DATA_MODEL |
| VerifyOrDie(ServerClusterCommandExists(aCommandPath) == Protocols::InteractionModel::Status::UnsupportedCommand); |
| #endif |
| return Protocols::InteractionModel::Status::UnsupportedCommand; // cluster exists, so command is invalid |
| } |
| |
| // At this point either cluster or endpoint does not exist. If we find the endpoint, then the cluster |
| // is invalid |
| for (EndpointId endpoint = provider->FirstEndpoint(); endpoint != kInvalidEndpointId; |
| endpoint = provider->NextEndpoint(endpoint)) |
| { |
| if (endpoint == aCommandPath.mEndpointId) |
| { |
| #if CHIP_CONFIG_USE_EMBER_DATA_MODEL |
| VerifyOrDie(ServerClusterCommandExists(aCommandPath) == Protocols::InteractionModel::Status::UnsupportedCluster); |
| #endif |
| // endpoint exists, so cluster is invalid |
| return Protocols::InteractionModel::Status::UnsupportedCluster; |
| } |
| } |
| |
| // endpoint not found |
| #if CHIP_CONFIG_USE_EMBER_DATA_MODEL |
| VerifyOrDie(ServerClusterCommandExists(aCommandPath) == Protocols::InteractionModel::Status::UnsupportedEndpoint); |
| #endif |
| return Protocols::InteractionModel::Status::UnsupportedEndpoint; |
| #else |
| return ServerClusterCommandExists(aCommandPath); |
| #endif |
| } |
| |
| DataModel::Provider * InteractionModelEngine::SetDataModelProvider(DataModel::Provider * model) |
| { |
| // Alternting data model should not be done while IM is actively handling requests. |
| VerifyOrDie(mReadHandlers.begin() == mReadHandlers.end()); |
| |
| DataModel::Provider * oldModel = mDataModelProvider; |
| if (oldModel != nullptr) |
| { |
| CHIP_ERROR err = oldModel->Shutdown(); |
| if (err != CHIP_NO_ERROR) |
| { |
| ChipLogError(InteractionModel, "Failure on interaction model shutdown: %" CHIP_ERROR_FORMAT, err.Format()); |
| } |
| } |
| |
| mDataModelProvider = model; |
| if (mDataModelProvider != nullptr) |
| { |
| DataModel::InteractionModelContext context; |
| |
| context.eventsGenerator = &EventManagement::GetInstance(); |
| context.dataModelChangeListener = &mReportingEngine; |
| context.actionContext = this; |
| |
| CHIP_ERROR err = mDataModelProvider->Startup(context); |
| if (err != CHIP_NO_ERROR) |
| { |
| ChipLogError(InteractionModel, "Failure on interaction model startup: %" CHIP_ERROR_FORMAT, err.Format()); |
| } |
| } |
| |
| return oldModel; |
| } |
| |
| DataModel::Provider * InteractionModelEngine::GetDataModelProvider() |
| { |
| #if CHIP_CONFIG_USE_DATA_MODEL_INTERFACE |
| if (mDataModelProvider == nullptr) |
| { |
| // These should be called within the CHIP processing loop. |
| assertChipStackLockedByCurrentThread(); |
| SetDataModelProvider(CodegenDataModelProviderInstance()); |
| } |
| #endif |
| return mDataModelProvider; |
| } |
| |
| void InteractionModelEngine::OnTimedInteractionFailed(TimedHandler * apTimedHandler) |
| { |
| mTimedHandlers.ReleaseObject(apTimedHandler); |
| } |
| |
| void InteractionModelEngine::OnTimedInvoke(TimedHandler * apTimedHandler, Messaging::ExchangeContext * apExchangeContext, |
| const PayloadHeader & aPayloadHeader, System::PacketBufferHandle && aPayload) |
| { |
| using namespace Protocols::InteractionModel; |
| |
| // Reset the ourselves as the exchange delegate for now, to match what we'd |
| // do with an initial unsolicited invoke. |
| apExchangeContext->SetDelegate(this); |
| mTimedHandlers.ReleaseObject(apTimedHandler); |
| |
| VerifyOrDie(aPayloadHeader.HasMessageType(MsgType::InvokeCommandRequest)); |
| VerifyOrDie(!apExchangeContext->IsGroupExchangeContext()); |
| |
| Status status = OnInvokeCommandRequest(apExchangeContext, aPayloadHeader, std::move(aPayload), /* aIsTimedInvoke = */ true); |
| if (status != Status::Success) |
| { |
| StatusResponse::Send(status, apExchangeContext, /* aExpectResponse = */ false); |
| } |
| } |
| |
| void InteractionModelEngine::OnTimedWrite(TimedHandler * apTimedHandler, Messaging::ExchangeContext * apExchangeContext, |
| const PayloadHeader & aPayloadHeader, System::PacketBufferHandle && aPayload) |
| { |
| using namespace Protocols::InteractionModel; |
| |
| // Reset the ourselves as the exchange delegate for now, to match what we'd |
| // do with an initial unsolicited write. |
| apExchangeContext->SetDelegate(this); |
| mTimedHandlers.ReleaseObject(apTimedHandler); |
| |
| VerifyOrDie(aPayloadHeader.HasMessageType(MsgType::WriteRequest)); |
| VerifyOrDie(!apExchangeContext->IsGroupExchangeContext()); |
| |
| Status status = OnWriteRequest(apExchangeContext, aPayloadHeader, std::move(aPayload), /* aIsTimedWrite = */ true); |
| if (status != Status::Success) |
| { |
| StatusResponse::Send(status, apExchangeContext, /* aExpectResponse = */ false); |
| } |
| } |
| |
| bool InteractionModelEngine::HasActiveRead() |
| { |
| return ((mReadHandlers.ForEachActiveObject([](ReadHandler * handler) { |
| if (handler->IsType(ReadHandler::InteractionType::Read)) |
| { |
| return Loop::Break; |
| } |
| |
| return Loop::Continue; |
| }) == Loop::Break)); |
| } |
| |
| uint16_t InteractionModelEngine::GetMinGuaranteedSubscriptionsPerFabric() const |
| { |
| #if CHIP_SYSTEM_CONFIG_POOL_USE_HEAP |
| return UINT16_MAX; |
| #else |
| return static_cast<uint16_t>( |
| std::min(GetReadHandlerPoolCapacityForSubscriptions() / GetConfigMaxFabrics(), static_cast<size_t>(UINT16_MAX))); |
| #endif |
| } |
| |
| size_t InteractionModelEngine::GetNumDirtySubscriptions() const |
| { |
| size_t numDirtySubscriptions = 0; |
| mReadHandlers.ForEachActiveObject([&](const auto readHandler) { |
| if (readHandler->IsType(ReadHandler::InteractionType::Subscribe) && readHandler->IsDirty()) |
| { |
| numDirtySubscriptions++; |
| } |
| return Loop::Continue; |
| }); |
| return numDirtySubscriptions; |
| } |
| |
| void InteractionModelEngine::OnFabricRemoved(const FabricTable & fabricTable, FabricIndex fabricIndex) |
| { |
| mReadHandlers.ForEachActiveObject([fabricIndex](ReadHandler * handler) { |
| if (handler->GetAccessingFabricIndex() == fabricIndex) |
| { |
| ChipLogProgress(InteractionModel, "Deleting expired ReadHandler for NodeId: " ChipLogFormatX64 ", FabricIndex: %u", |
| ChipLogValueX64(handler->GetInitiatorNodeId()), fabricIndex); |
| handler->Close(); |
| } |
| |
| return Loop::Continue; |
| }); |
| |
| #if CHIP_CONFIG_ENABLE_READ_CLIENT |
| for (auto * readClient = mpActiveReadClientList; readClient != nullptr; readClient = readClient->GetNextClient()) |
| { |
| if (readClient->GetFabricIndex() == fabricIndex) |
| { |
| ChipLogProgress(InteractionModel, "Fabric removed, deleting obsolete read client with FabricIndex: %u", fabricIndex); |
| readClient->Close(CHIP_ERROR_IM_FABRIC_DELETED, false); |
| } |
| } |
| #endif // CHIP_CONFIG_ENABLE_READ_CLIENT |
| |
| for (auto & handler : mWriteHandlers) |
| { |
| if (!(handler.IsFree()) && handler.GetAccessingFabricIndex() == fabricIndex) |
| { |
| ChipLogProgress(InteractionModel, "Fabric removed, deleting obsolete write handler with FabricIndex: %u", fabricIndex); |
| handler.Close(); |
| } |
| } |
| |
| // Applications may hold references to CommandHandlerImpl instances for async command processing. |
| // Therefore we can't forcible destroy CommandHandlers here. Their exchanges will get closed by |
| // the fabric removal, though, so they will fail when they try to actually send their command response |
| // and will close at that point. |
| } |
| |
| CHIP_ERROR InteractionModelEngine::ResumeSubscriptions() |
| { |
| #if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS |
| VerifyOrReturnError(mpSubscriptionResumptionStorage, CHIP_NO_ERROR); |
| #if CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| VerifyOrReturnError(!mSubscriptionResumptionScheduled, CHIP_NO_ERROR); |
| #endif |
| |
| // To avoid the case of a reboot loop causing rapid traffic generation / power consumption, subscription resumption should make |
| // use of the persisted min-interval values, and wait before resumption. Ideally, each persisted subscription should wait their |
| // own min-interval value before resumption, but that both A) potentially runs into a timer resource issue, and B) having a |
| // low-powered device wake many times also has energy use implications. The logic below waits the largest of the persisted |
| // min-interval values before resuming subscriptions. |
| |
| // Even though this causes subscription-to-subscription interaction by linking the min-interval values, this is the right thing |
| // to do for now because it's both simple and avoids the timer resource and multiple-wake problems. This issue is to track |
| // future improvements: https://github.com/project-chip/connectedhomeip/issues/25439 |
| |
| SubscriptionResumptionStorage::SubscriptionInfo subscriptionInfo; |
| auto * iterator = mpSubscriptionResumptionStorage->IterateSubscriptions(); |
| mNumOfSubscriptionsToResume = 0; |
| uint16_t minInterval = 0; |
| while (iterator->Next(subscriptionInfo)) |
| { |
| mNumOfSubscriptionsToResume++; |
| minInterval = std::max(minInterval, subscriptionInfo.mMinInterval); |
| } |
| iterator->Release(); |
| |
| if (mNumOfSubscriptionsToResume) |
| { |
| #if CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| mSubscriptionResumptionScheduled = true; |
| #endif |
| ChipLogProgress(InteractionModel, "Resuming %d subscriptions in %u seconds", mNumOfSubscriptionsToResume, minInterval); |
| ReturnErrorOnFailure(mpExchangeMgr->GetSessionManager()->SystemLayer()->StartTimer(System::Clock::Seconds16(minInterval), |
| ResumeSubscriptionsTimerCallback, this)); |
| } |
| else |
| { |
| ChipLogProgress(InteractionModel, "No subscriptions to resume"); |
| } |
| #endif // CHIP_CONFIG_PERSIST_SUBSCRIPTIONS |
| |
| return CHIP_NO_ERROR; |
| } |
| |
| void InteractionModelEngine::ResumeSubscriptionsTimerCallback(System::Layer * apSystemLayer, void * apAppState) |
| { |
| #if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS |
| VerifyOrReturn(apAppState != nullptr); |
| InteractionModelEngine * imEngine = static_cast<InteractionModelEngine *>(apAppState); |
| #if CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| imEngine->mSubscriptionResumptionScheduled = false; |
| bool resumedSubscriptions = false; |
| #endif // CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| SubscriptionResumptionStorage::SubscriptionInfo subscriptionInfo; |
| AutoReleaseSubscriptionInfoIterator iterator(imEngine->mpSubscriptionResumptionStorage->IterateSubscriptions()); |
| while (iterator->Next(subscriptionInfo)) |
| { |
| // If subscription happens between reboot and this timer callback, it's already live and should skip resumption |
| if (Loop::Break == imEngine->mReadHandlers.ForEachActiveObject([&](ReadHandler * handler) { |
| SubscriptionId subscriptionId; |
| handler->GetSubscriptionId(subscriptionId); |
| if (subscriptionId == subscriptionInfo.mSubscriptionId) |
| { |
| return Loop::Break; |
| } |
| return Loop::Continue; |
| })) |
| { |
| ChipLogProgress(InteractionModel, "Skip resuming live subscriptionId %" PRIu32, subscriptionInfo.mSubscriptionId); |
| continue; |
| } |
| |
| auto subscriptionResumptionSessionEstablisher = Platform::MakeUnique<SubscriptionResumptionSessionEstablisher>(); |
| if (subscriptionResumptionSessionEstablisher == nullptr) |
| { |
| ChipLogProgress(InteractionModel, "Failed to create SubscriptionResumptionSessionEstablisher"); |
| return; |
| } |
| |
| if (subscriptionResumptionSessionEstablisher->ResumeSubscription(*imEngine->mpCASESessionMgr, subscriptionInfo) != |
| CHIP_NO_ERROR) |
| { |
| ChipLogProgress(InteractionModel, "Failed to ResumeSubscription 0x%" PRIx32, subscriptionInfo.mSubscriptionId); |
| return; |
| } |
| subscriptionResumptionSessionEstablisher.release(); |
| #if CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| resumedSubscriptions = true; |
| #endif // CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| } |
| |
| #if CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| // If no persisted subscriptions needed resumption then all resumption retries are done |
| if (!resumedSubscriptions) |
| { |
| imEngine->mNumSubscriptionResumptionRetries = 0; |
| } |
| #endif // CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| |
| #endif // CHIP_CONFIG_PERSIST_SUBSCRIPTIONS |
| } |
| |
| #if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS && CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| uint32_t InteractionModelEngine::ComputeTimeSecondsTillNextSubscriptionResumption() |
| { |
| #if CONFIG_BUILD_FOR_HOST_UNIT_TEST |
| if (mSubscriptionResumptionRetrySecondsOverride > 0) |
| { |
| return static_cast<uint32_t>(mSubscriptionResumptionRetrySecondsOverride); |
| } |
| #endif |
| if (mNumSubscriptionResumptionRetries > CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION_MAX_FIBONACCI_STEP_INDEX) |
| { |
| return CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION_MAX_RETRY_INTERVAL_SECS; |
| } |
| |
| return CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION_MIN_RETRY_INTERVAL_SECS + |
| GetFibonacciForIndex(mNumSubscriptionResumptionRetries) * |
| CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION_WAIT_TIME_MULTIPLIER_SECS; |
| } |
| |
| bool InteractionModelEngine::HasSubscriptionsToResume() |
| { |
| VerifyOrReturnValue(mpSubscriptionResumptionStorage != nullptr, false); |
| |
| // Look through persisted subscriptions and see if any aren't already in mReadHandlers pool |
| SubscriptionResumptionStorage::SubscriptionInfo subscriptionInfo; |
| auto * iterator = mpSubscriptionResumptionStorage->IterateSubscriptions(); |
| bool foundSubscriptionToResume = false; |
| while (iterator->Next(subscriptionInfo)) |
| { |
| if (Loop::Break == mReadHandlers.ForEachActiveObject([&](ReadHandler * handler) { |
| SubscriptionId subscriptionId; |
| handler->GetSubscriptionId(subscriptionId); |
| if (subscriptionId == subscriptionInfo.mSubscriptionId) |
| { |
| return Loop::Break; |
| } |
| return Loop::Continue; |
| })) |
| { |
| continue; |
| } |
| |
| foundSubscriptionToResume = true; |
| break; |
| } |
| iterator->Release(); |
| |
| return foundSubscriptionToResume; |
| } |
| #endif // CHIP_CONFIG_PERSIST_SUBSCRIPTIONS && CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| |
| #if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS |
| void InteractionModelEngine::DecrementNumSubscriptionsToResume() |
| { |
| VerifyOrReturn(mNumOfSubscriptionsToResume > 0); |
| #if CHIP_CONFIG_ENABLE_ICD_CIP && !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| VerifyOrDie(mICDManager); |
| #endif // CHIP_CONFIG_ENABLE_ICD_CIP && !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| |
| mNumOfSubscriptionsToResume--; |
| |
| #if CHIP_CONFIG_ENABLE_ICD_CIP && !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| if (!mNumOfSubscriptionsToResume) |
| { |
| mICDManager->SetBootUpResumeSubscriptionExecuted(); |
| } |
| #endif // CHIP_CONFIG_ENABLE_ICD_CIP && !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION |
| } |
| #endif // CHIP_CONFIG_PERSIST_SUBSCRIPTIONS |
| |
| } // namespace app |
| } // namespace chip |