/* * * Copyright (c) 2021 Project CHIP Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @file * Provides an implementation of the DiagnosticDataProvider object * for qpg platform. */ #include #include #include #include #include namespace chip { namespace DeviceLayer { DiagnosticDataProviderImpl & DiagnosticDataProviderImpl::GetDefaultInstance() { static DiagnosticDataProviderImpl sInstance; return sInstance; } CHIP_ERROR DiagnosticDataProviderImpl::GetCurrentHeapFree(uint64_t & currentHeapFree) { size_t freeHeapSize; size_t usedHeapSize; size_t highWatermarkHeapSize; qvCHIP_GetHeapStats(&freeHeapSize, &usedHeapSize, &highWatermarkHeapSize); currentHeapFree = static_cast(freeHeapSize); return CHIP_NO_ERROR; } CHIP_ERROR DiagnosticDataProviderImpl::GetCurrentHeapUsed(uint64_t & currentHeapUsed) { size_t freeHeapSize; size_t usedHeapSize; size_t highWatermarkHeapSize; qvCHIP_GetHeapStats(&freeHeapSize, &usedHeapSize, &highWatermarkHeapSize); currentHeapUsed = static_cast(usedHeapSize); return CHIP_NO_ERROR; } CHIP_ERROR DiagnosticDataProviderImpl::GetCurrentHeapHighWatermark(uint64_t & currentHeapHighWatermark) { size_t freeHeapSize; size_t usedHeapSize; size_t highWatermarkHeapSize; qvCHIP_GetHeapStats(&freeHeapSize, &usedHeapSize, &highWatermarkHeapSize); currentHeapHighWatermark = static_cast(highWatermarkHeapSize); return CHIP_NO_ERROR; } CHIP_ERROR DiagnosticDataProviderImpl::ResetWatermarks() { qvCHIP_ResetHeapStats(); return CHIP_NO_ERROR; } DiagnosticDataProvider & GetDiagnosticDataProviderImpl() { return DiagnosticDataProviderImpl::GetDefaultInstance(); } CHIP_ERROR DiagnosticDataProviderImpl::GetRebootCount(uint16_t & rebootCount) { uint32_t count = 0; CHIP_ERROR err = ConfigurationMgr().GetRebootCount(count); if (err == CHIP_NO_ERROR) { VerifyOrReturnError(count <= UINT16_MAX, CHIP_ERROR_INVALID_INTEGER_VALUE); rebootCount = static_cast(count); } return err; } CHIP_ERROR DiagnosticDataProviderImpl::GetBootReason(BootReasonType & bootReason) { uint32_t reason = 0; CHIP_ERROR err = ConfigurationMgr().GetBootReason(reason); if (err == CHIP_NO_ERROR) { VerifyOrReturnError(reason <= UINT8_MAX, CHIP_ERROR_INVALID_INTEGER_VALUE); bootReason = static_cast(reason); } return err; } CHIP_ERROR DiagnosticDataProviderImpl::GetUpTime(uint64_t & upTime) { System::Clock::Timestamp currentTime = System::SystemClock().GetMonotonicTimestamp(); System::Clock::Timestamp startTime = PlatformMgrImpl().GetStartTime(); if (currentTime >= startTime) { upTime = std::chrono::duration_cast(currentTime - startTime).count(); return CHIP_NO_ERROR; } return CHIP_ERROR_INVALID_TIME; } CHIP_ERROR DiagnosticDataProviderImpl::GetTotalOperationalHours(uint32_t & totalOperationalHours) { uint64_t upTime = 0; if (GetUpTime(upTime) == CHIP_NO_ERROR) { uint32_t totalHours = 0; if (ConfigurationMgr().GetTotalOperationalHours(totalHours) == CHIP_NO_ERROR) { VerifyOrReturnError(upTime / 3600 <= UINT32_MAX, CHIP_ERROR_INVALID_INTEGER_VALUE); totalOperationalHours = totalHours + static_cast(upTime / 3600); return CHIP_NO_ERROR; } } return CHIP_ERROR_INVALID_TIME; } CHIP_ERROR DiagnosticDataProviderImpl::GetActiveHardwareFaults(GeneralFaults & hardwareFaults) { ChipLogProgress(DeviceLayer, "GetActiveHardwareFaults"); #if CHIP_CONFIG_TEST using app::Clusters::GeneralDiagnostics::HardwareFaultEnum; ReturnErrorOnFailure(hardwareFaults.add(to_underlying(HardwareFaultEnum::kRadio))); ReturnErrorOnFailure(hardwareFaults.add(to_underlying(HardwareFaultEnum::kSensor))); ReturnErrorOnFailure(hardwareFaults.add(to_underlying(HardwareFaultEnum::kPowerSource))); ReturnErrorOnFailure(hardwareFaults.add(to_underlying(HardwareFaultEnum::kUserInterfaceFault))); #endif return CHIP_NO_ERROR; } CHIP_ERROR DiagnosticDataProviderImpl::GetActiveRadioFaults(GeneralFaults & radioFaults) { ChipLogProgress(DeviceLayer, "GetActiveRadioFaults"); #if CHIP_CONFIG_TEST ReturnErrorOnFailure(radioFaults.add(to_underlying(RadioFaultEnum::kThreadFault))); ReturnErrorOnFailure(radioFaults.add(to_underlying(RadioFaultEnum::kBLEFault))); #endif return CHIP_NO_ERROR; } CHIP_ERROR DiagnosticDataProviderImpl::GetActiveNetworkFaults(GeneralFaults & networkFaults) { ChipLogProgress(DeviceLayer, "GetActiveNetworkFaults"); #if CHIP_CONFIG_TEST using app::Clusters::GeneralDiagnostics::NetworkFaultEnum; ReturnErrorOnFailure(networkFaults.add(to_underlying(NetworkFaultEnum::kHardwareFailure))); ReturnErrorOnFailure(networkFaults.add(to_underlying(NetworkFaultEnum::kNetworkJammed))); ReturnErrorOnFailure(networkFaults.add(to_underlying(NetworkFaultEnum::kConnectionFailed))); #endif return CHIP_NO_ERROR; } CHIP_ERROR DiagnosticDataProviderImpl::GetNetworkInterfaces(NetworkInterface ** netifpp) { NetworkInterface * ifp = new NetworkInterface(); #if CHIP_DEVICE_CONFIG_ENABLE_THREAD const char * threadNetworkName = otThreadGetNetworkName(ThreadStackMgrImpl().OTInstance()); ifp->name = Span(threadNetworkName, strlen(threadNetworkName)); ifp->isOperational = true; ifp->offPremiseServicesReachableIPv4.SetNull(); ifp->offPremiseServicesReachableIPv6.SetNull(); ifp->type = app::Clusters::GeneralDiagnostics::InterfaceTypeEnum::kThread; uint8_t macBuffer[ConfigurationManager::kPrimaryMACAddressLength]; ConfigurationMgr().GetPrimary802154MACAddress(macBuffer); ifp->hardwareAddress = ByteSpan(macBuffer, ConfigurationManager::kPrimaryMACAddressLength); #else ifp->isOperational = false; ifp->type = app::Clusters::GeneralDiagnostics::InterfaceTypeEnum::kUnspecified; #endif *netifpp = ifp; return CHIP_NO_ERROR; } } // namespace DeviceLayer } // namespace chip